/* The copyright in this software is being made available under the BSD * License, included below. This software may be subject to other third party * and contributor rights, including patent rights, and no such rights are * granted under this license. * * Copyright (c) 2010-2013, ITU/ISO/IEC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of the ITU/ISO/IEC nor the names of its contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ /** \file TAppEncTop.cpp \brief Encoder application class */ #include #include #include #include #include #include #include "TAppEncTop.h" #include "TLibEncoder/AnnexBwrite.h" using namespace std; //! \ingroup TAppEncoder //! \{ // ==================================================================================================================== // Constructor / destructor / initialization / destroy // ==================================================================================================================== TAppEncTop::TAppEncTop() { #if !H_MV m_iFrameRcvd = 0; #endif m_totalBytes = 0; m_essentialBytes = 0; } TAppEncTop::~TAppEncTop() { } Void TAppEncTop::xInitLibCfg() { #if H_MV TComVPS& vps = m_vps; #else TComVPS vps; #endif #if H_MV Int maxTempLayer = -1; for (Int j = 0; j < m_numberOfLayers; j++) { maxTempLayer = max( m_maxTempLayerMvc[ j ], maxTempLayer ); } vps.setMaxTLayers ( maxTempLayer ); if ( maxTempLayer ) { vps.setTemporalNestingFlag(true); } vps.setMaxLayers( m_numberOfLayers ); for(Int i = 0; i < MAX_TLAYER; i++) { Int maxNumReOrderPics = 0; Int maxDecPicBuffering = 0; for (Int j = 0; j < m_numberOfLayers; j++) { maxNumReOrderPics = max( maxNumReOrderPics, m_numReorderPicsMvc [ j ][ i ] ); maxDecPicBuffering = max( maxDecPicBuffering, m_maxDecPicBufferingMvc[ j ][ i ] ); } vps.setNumReorderPics ( maxNumReOrderPics ,i ); vps.setMaxDecPicBuffering ( maxDecPicBuffering ,i ); } #else vps.setMaxTLayers ( m_maxTempLayer ); if (m_maxTempLayer == 1) { vps.setTemporalNestingFlag(true); } vps.setMaxLayers ( 1 ); for(Int i = 0; i < MAX_TLAYER; i++) { vps.setNumReorderPics ( m_numReorderPics[i], i ); vps.setMaxDecPicBuffering ( m_maxDecPicBuffering[i], i ); } #endif #if H_MV xSetLayerIds ( vps ); xSetDimensionIdAndLength ( vps ); xSetDependencies( vps ); xSetProfileTierLevel ( vps ); xSetLayerSets ( vps ); #if H_3D vps.initViewIndex(); xSetVPSExtension2 ( vps ); m_ivPicLists.setVPS ( &vps ); #endif for(Int layer = 0; layer < m_numberOfLayers; layer++) { m_frameRcvd .push_back(0); m_acTEncTopList .push_back(new TEncTop); m_acTVideoIOYuvInputFileList.push_back(new TVideoIOYuv); m_acTVideoIOYuvReconFileList.push_back(new TVideoIOYuv); m_picYuvRec .push_back(new TComList) ; m_ivPicLists.push_back( m_acTEncTopList[ layer ]->getListPic() ); TEncTop& m_cTEncTop = *m_acTEncTopList[ layer ]; // It is not a member, but this name helps avoiding code duplication !!! m_cTEncTop.setLayerIdInVps ( layer ); m_cTEncTop.setLayerId ( vps.getLayerIdInNuh( layer ) ); m_cTEncTop.setViewId ( vps.getViewId ( layer ) ); #if H_3D Bool isDepth = ( vps.getDepthId ( layer ) != 0 ) ; m_cTEncTop.setViewIndex ( vps.getViewIndex ( layer ) ); m_cTEncTop.setIsDepth ( isDepth ); //====== Camera Parameters ========= m_cTEncTop.setCameraParameters ( &m_cCameraData ); m_cTEncTop.setCamParPrecision ( isDepth ? false : m_cCameraData.getCamParsCodedPrecision () ); m_cTEncTop.setCamParInSliceHeader ( isDepth ? 0 : m_cCameraData.getVaryingCameraParameters() ); m_cTEncTop.setCodedScale ( isDepth ? 0 : m_cCameraData.getCodedScale () ); m_cTEncTop.setCodedOffset ( isDepth ? 0 : m_cCameraData.getCodedOffset () ); #if H_3D_VSO //====== VSO ========= m_cTEncTop.setRenderModelParameters ( &m_cRenModStrParser ); m_cTEncTop.setForceLambdaScaleVSO ( isDepth ? m_bForceLambdaScaleVSO : false ); m_cTEncTop.setLambdaScaleVSO ( isDepth ? m_dLambdaScaleVSO : 1 ); m_cTEncTop.setVSOMode ( isDepth ? m_uiVSOMode : 0 ); m_cTEncTop.setAllowNegDist ( isDepth ? m_bAllowNegDist : false ); // SAIT_VSO_EST_A0033 m_cTEncTop.setUseEstimatedVSD ( isDepth ? m_bUseEstimatedVSD : false ); // LGE_WVSO_A0119 m_cTEncTop.setUseWVSO ( isDepth ? m_bUseWVSO : false ); m_cTEncTop.setVSOWeight ( isDepth ? m_iVSOWeight : 0 ); m_cTEncTop.setVSDWeight ( isDepth ? m_iVSDWeight : 0 ); m_cTEncTop.setDWeight ( isDepth ? m_iDWeight : 0 ); #endif // H_3D_VSO #if H_3D_ARP //====== Advanced Inter-view Residual Prediction ========= m_cTEncTop.setUseAdvRP ( ( isDepth || 0==layer ) ? 0 : m_uiUseAdvResPred ); m_cTEncTop.setARPStepNum ( ( isDepth || 0==layer ) ? 1 : H_3D_ARP_WFNR ); #endif #if H_3D_IC m_cTEncTop.setUseIC ( vps.getViewIndex( layer ) == 0 ? false : m_abUseIC[isDepth ? 1 : 0] ); #endif //========== Depth intra modes ========== #if H_3D_DIM m_cTEncTop.setUseDMM ( isDepth ? m_useDMM : false ); m_cTEncTop.setUseRBC ( isDepth ? m_useRBC : false ); m_cTEncTop.setUseSDC ( isDepth ? m_useSDC : false ); m_cTEncTop.setUseDLT ( isDepth ? m_useDLT : false ); #endif #if H_3D_QTLPC m_cTEncTop.setUseQTL ( isDepth ? m_bUseQTL : false ); m_cTEncTop.setUsePC ( isDepth ? m_bUsePC : false ); #endif #endif // H_3D m_cTEncTop.setIvPicLists ( &m_ivPicLists ); #endif // H_MV m_cTEncTop.setVPS(&vps); m_cTEncTop.setProfile(m_profile); m_cTEncTop.setLevel(m_levelTier, m_level); m_cTEncTop.setProgressiveSourceFlag(m_progressiveSourceFlag); m_cTEncTop.setInterlacedSourceFlag(m_interlacedSourceFlag); m_cTEncTop.setNonPackedConstraintFlag(m_nonPackedConstraintFlag); m_cTEncTop.setFrameOnlyConstraintFlag(m_frameOnlyConstraintFlag); m_cTEncTop.setFrameRate ( m_iFrameRate ); m_cTEncTop.setFrameSkip ( m_FrameSkip ); m_cTEncTop.setSourceWidth ( m_iSourceWidth ); m_cTEncTop.setSourceHeight ( m_iSourceHeight ); m_cTEncTop.setConformanceWindow ( m_confLeft, m_confRight, m_confTop, m_confBottom ); m_cTEncTop.setFramesToBeEncoded ( m_framesToBeEncoded ); //====== Coding Structure ======== m_cTEncTop.setIntraPeriod ( m_iIntraPeriod ); m_cTEncTop.setDecodingRefreshType ( m_iDecodingRefreshType ); m_cTEncTop.setGOPSize ( m_iGOPSize ); #if H_MV m_cTEncTop.setGopList ( m_GOPListMvc[layer] ); m_cTEncTop.setExtraRPSs ( m_extraRPSsMvc[layer] ); for(Int i = 0; i < MAX_TLAYER; i++) { m_cTEncTop.setNumReorderPics ( m_numReorderPicsMvc[layer][i], i ); m_cTEncTop.setMaxDecPicBuffering ( m_maxDecPicBufferingMvc[layer][i], i ); } #else m_cTEncTop.setGopList ( m_GOPList ); m_cTEncTop.setExtraRPSs ( m_extraRPSs ); for(Int i = 0; i < MAX_TLAYER; i++) { m_cTEncTop.setNumReorderPics ( m_numReorderPics[i], i ); m_cTEncTop.setMaxDecPicBuffering ( m_maxDecPicBuffering[i], i ); } #endif for( UInt uiLoop = 0; uiLoop < MAX_TLAYER; ++uiLoop ) { m_cTEncTop.setLambdaModifier( uiLoop, m_adLambdaModifier[ uiLoop ] ); } #if H_MV m_cTEncTop.setQP ( m_iQP[layer] ); #else m_cTEncTop.setQP ( m_iQP ); #endif m_cTEncTop.setPad ( m_aiPad ); #if H_MV m_cTEncTop.setMaxTempLayer ( m_maxTempLayerMvc[layer] ); #else m_cTEncTop.setMaxTempLayer ( m_maxTempLayer ); #endif m_cTEncTop.setUseAMP( m_enableAMP ); //===== Slice ======== //====== Loop/Deblock Filter ======== #if H_MV m_cTEncTop.setLoopFilterDisable ( m_bLoopFilterDisable[layer]); #else m_cTEncTop.setLoopFilterDisable ( m_bLoopFilterDisable ); #endif m_cTEncTop.setLoopFilterOffsetInPPS ( m_loopFilterOffsetInPPS ); m_cTEncTop.setLoopFilterBetaOffset ( m_loopFilterBetaOffsetDiv2 ); m_cTEncTop.setLoopFilterTcOffset ( m_loopFilterTcOffsetDiv2 ); m_cTEncTop.setDeblockingFilterControlPresent( m_DeblockingFilterControlPresent); m_cTEncTop.setDeblockingFilterMetric ( m_DeblockingFilterMetric ); //====== Motion search ======== m_cTEncTop.setFastSearch ( m_iFastSearch ); m_cTEncTop.setSearchRange ( m_iSearchRange ); m_cTEncTop.setBipredSearchRange ( m_bipredSearchRange ); //====== Quality control ======== m_cTEncTop.setMaxDeltaQP ( m_iMaxDeltaQP ); m_cTEncTop.setMaxCuDQPDepth ( m_iMaxCuDQPDepth ); m_cTEncTop.setChromaCbQpOffset ( m_cbQpOffset ); m_cTEncTop.setChromaCrQpOffset ( m_crQpOffset ); #if ADAPTIVE_QP_SELECTION m_cTEncTop.setUseAdaptQpSelect ( m_bUseAdaptQpSelect ); #endif Int lowestQP; lowestQP = - 6*(g_bitDepthY - 8); // XXX: check #if H_MV if ((m_iMaxDeltaQP == 0 ) && (m_iQP[layer] == lowestQP) && (m_useLossless == true)) #else if ((m_iMaxDeltaQP == 0 ) && (m_iQP == lowestQP) && (m_useLossless == true)) #endif { m_bUseAdaptiveQP = false; } m_cTEncTop.setUseAdaptiveQP ( m_bUseAdaptiveQP ); m_cTEncTop.setQPAdaptationRange ( m_iQPAdaptationRange ); //====== Tool list ======== m_cTEncTop.setUseSBACRD ( m_bUseSBACRD ); m_cTEncTop.setDeltaQpRD ( m_uiDeltaQpRD ); m_cTEncTop.setUseASR ( m_bUseASR ); m_cTEncTop.setUseHADME ( m_bUseHADME ); m_cTEncTop.setUseLossless ( m_useLossless ); #if H_MV m_cTEncTop.setdQPs ( m_aidQP[layer] ); #else m_cTEncTop.setdQPs ( m_aidQP ); #endif m_cTEncTop.setUseRDOQ ( m_useRDOQ ); m_cTEncTop.setUseRDOQTS ( m_useRDOQTS ); m_cTEncTop.setRDpenalty ( m_rdPenalty ); m_cTEncTop.setQuadtreeTULog2MaxSize ( m_uiQuadtreeTULog2MaxSize ); m_cTEncTop.setQuadtreeTULog2MinSize ( m_uiQuadtreeTULog2MinSize ); m_cTEncTop.setQuadtreeTUMaxDepthInter ( m_uiQuadtreeTUMaxDepthInter ); m_cTEncTop.setQuadtreeTUMaxDepthIntra ( m_uiQuadtreeTUMaxDepthIntra ); m_cTEncTop.setUseFastEnc ( m_bUseFastEnc ); m_cTEncTop.setUseEarlyCU ( m_bUseEarlyCU ); m_cTEncTop.setUseFastDecisionForMerge ( m_useFastDecisionForMerge ); m_cTEncTop.setUseCbfFastMode ( m_bUseCbfFastMode ); m_cTEncTop.setUseEarlySkipDetection ( m_useEarlySkipDetection ); m_cTEncTop.setUseTransformSkip ( m_useTransformSkip ); m_cTEncTop.setUseTransformSkipFast ( m_useTransformSkipFast ); m_cTEncTop.setUseConstrainedIntraPred ( m_bUseConstrainedIntraPred ); m_cTEncTop.setPCMLog2MinSize ( m_uiPCMLog2MinSize); m_cTEncTop.setUsePCM ( m_usePCM ); m_cTEncTop.setPCMLog2MaxSize ( m_pcmLog2MaxSize); m_cTEncTop.setMaxNumMergeCand ( m_maxNumMergeCand ); //====== Weighted Prediction ======== m_cTEncTop.setUseWP ( m_useWeightedPred ); m_cTEncTop.setWPBiPred ( m_useWeightedBiPred ); //====== Parallel Merge Estimation ======== m_cTEncTop.setLog2ParallelMergeLevelMinus2 ( m_log2ParallelMergeLevel - 2 ); //====== Slice ======== m_cTEncTop.setSliceMode ( m_sliceMode ); m_cTEncTop.setSliceArgument ( m_sliceArgument ); //====== Dependent Slice ======== m_cTEncTop.setSliceSegmentMode ( m_sliceSegmentMode ); m_cTEncTop.setSliceSegmentArgument ( m_sliceSegmentArgument ); Int iNumPartInCU = 1<<(m_uiMaxCUDepth<<1); if(m_sliceSegmentMode==FIXED_NUMBER_OF_LCU) { m_cTEncTop.setSliceSegmentArgument ( m_sliceSegmentArgument * iNumPartInCU ); } if(m_sliceMode==FIXED_NUMBER_OF_LCU) { m_cTEncTop.setSliceArgument ( m_sliceArgument * iNumPartInCU ); } if(m_sliceMode==FIXED_NUMBER_OF_TILES) { m_cTEncTop.setSliceArgument ( m_sliceArgument ); } if(m_sliceMode == 0 ) { m_bLFCrossSliceBoundaryFlag = true; } m_cTEncTop.setLFCrossSliceBoundaryFlag( m_bLFCrossSliceBoundaryFlag ); #if H_MV m_cTEncTop.setUseSAO ( m_bUseSAO[layer] ); #else m_cTEncTop.setUseSAO ( m_bUseSAO ); #endif m_cTEncTop.setMaxNumOffsetsPerPic (m_maxNumOffsetsPerPic); m_cTEncTop.setSaoLcuBoundary (m_saoLcuBoundary); m_cTEncTop.setSaoLcuBasedOptimization (m_saoLcuBasedOptimization); m_cTEncTop.setPCMInputBitDepthFlag ( m_bPCMInputBitDepthFlag); m_cTEncTop.setPCMFilterDisableFlag ( m_bPCMFilterDisableFlag); m_cTEncTop.setDecodedPictureHashSEIEnabled(m_decodedPictureHashSEIEnabled); m_cTEncTop.setRecoveryPointSEIEnabled( m_recoveryPointSEIEnabled ); m_cTEncTop.setBufferingPeriodSEIEnabled( m_bufferingPeriodSEIEnabled ); m_cTEncTop.setPictureTimingSEIEnabled( m_pictureTimingSEIEnabled ); m_cTEncTop.setToneMappingInfoSEIEnabled ( m_toneMappingInfoSEIEnabled ); m_cTEncTop.setTMISEIToneMapId ( m_toneMapId ); m_cTEncTop.setTMISEIToneMapCancelFlag ( m_toneMapCancelFlag ); m_cTEncTop.setTMISEIToneMapPersistenceFlag ( m_toneMapPersistenceFlag ); m_cTEncTop.setTMISEICodedDataBitDepth ( m_toneMapCodedDataBitDepth ); m_cTEncTop.setTMISEITargetBitDepth ( m_toneMapTargetBitDepth ); m_cTEncTop.setTMISEIModelID ( m_toneMapModelId ); m_cTEncTop.setTMISEIMinValue ( m_toneMapMinValue ); m_cTEncTop.setTMISEIMaxValue ( m_toneMapMaxValue ); m_cTEncTop.setTMISEISigmoidMidpoint ( m_sigmoidMidpoint ); m_cTEncTop.setTMISEISigmoidWidth ( m_sigmoidWidth ); m_cTEncTop.setTMISEIStartOfCodedInterva ( m_startOfCodedInterval ); m_cTEncTop.setTMISEINumPivots ( m_numPivots ); m_cTEncTop.setTMISEICodedPivotValue ( m_codedPivotValue ); m_cTEncTop.setTMISEITargetPivotValue ( m_targetPivotValue ); m_cTEncTop.setTMISEICameraIsoSpeedIdc ( m_cameraIsoSpeedIdc ); m_cTEncTop.setTMISEICameraIsoSpeedValue ( m_cameraIsoSpeedValue ); m_cTEncTop.setTMISEIExposureCompensationValueSignFlag ( m_exposureCompensationValueSignFlag ); m_cTEncTop.setTMISEIExposureCompensationValueNumerator ( m_exposureCompensationValueNumerator ); m_cTEncTop.setTMISEIExposureCompensationValueDenomIdc ( m_exposureCompensationValueDenomIdc ); m_cTEncTop.setTMISEIRefScreenLuminanceWhite ( m_refScreenLuminanceWhite ); m_cTEncTop.setTMISEIExtendedRangeWhiteLevel ( m_extendedRangeWhiteLevel ); m_cTEncTop.setTMISEINominalBlackLevelLumaCodeValue ( m_nominalBlackLevelLumaCodeValue ); m_cTEncTop.setTMISEINominalWhiteLevelLumaCodeValue ( m_nominalWhiteLevelLumaCodeValue ); m_cTEncTop.setTMISEIExtendedWhiteLevelLumaCodeValue ( m_extendedWhiteLevelLumaCodeValue ); m_cTEncTop.setFramePackingArrangementSEIEnabled( m_framePackingSEIEnabled ); m_cTEncTop.setFramePackingArrangementSEIType( m_framePackingSEIType ); m_cTEncTop.setFramePackingArrangementSEIId( m_framePackingSEIId ); m_cTEncTop.setFramePackingArrangementSEIQuincunx( m_framePackingSEIQuincunx ); m_cTEncTop.setFramePackingArrangementSEIInterpretation( m_framePackingSEIInterpretation ); m_cTEncTop.setDisplayOrientationSEIAngle( m_displayOrientationSEIAngle ); m_cTEncTop.setTemporalLevel0IndexSEIEnabled( m_temporalLevel0IndexSEIEnabled ); m_cTEncTop.setGradualDecodingRefreshInfoEnabled( m_gradualDecodingRefreshInfoEnabled ); m_cTEncTop.setDecodingUnitInfoSEIEnabled( m_decodingUnitInfoSEIEnabled ); m_cTEncTop.setSOPDescriptionSEIEnabled( m_SOPDescriptionSEIEnabled ); m_cTEncTop.setScalableNestingSEIEnabled( m_scalableNestingSEIEnabled ); m_cTEncTop.setUniformSpacingIdr ( m_iUniformSpacingIdr ); m_cTEncTop.setNumColumnsMinus1 ( m_iNumColumnsMinus1 ); m_cTEncTop.setNumRowsMinus1 ( m_iNumRowsMinus1 ); if(m_iUniformSpacingIdr==0) { m_cTEncTop.setColumnWidth ( m_pColumnWidth ); m_cTEncTop.setRowHeight ( m_pRowHeight ); } m_cTEncTop.xCheckGSParameters(); Int uiTilesCount = (m_iNumRowsMinus1+1) * (m_iNumColumnsMinus1+1); if(uiTilesCount == 1) { m_bLFCrossTileBoundaryFlag = true; } m_cTEncTop.setLFCrossTileBoundaryFlag( m_bLFCrossTileBoundaryFlag ); m_cTEncTop.setWaveFrontSynchro ( m_iWaveFrontSynchro ); m_cTEncTop.setWaveFrontSubstreams ( m_iWaveFrontSubstreams ); m_cTEncTop.setTMVPModeId ( m_TMVPModeId ); m_cTEncTop.setUseScalingListId ( m_useScalingListId ); m_cTEncTop.setScalingListFile ( m_scalingListFile ); m_cTEncTop.setSignHideFlag(m_signHideFlag); #if RATE_CONTROL_LAMBDA_DOMAIN m_cTEncTop.setUseRateCtrl ( m_RCEnableRateControl ); m_cTEncTop.setTargetBitrate ( m_RCTargetBitrate ); m_cTEncTop.setKeepHierBit ( m_RCKeepHierarchicalBit ); m_cTEncTop.setLCULevelRC ( m_RCLCULevelRC ); m_cTEncTop.setUseLCUSeparateModel ( m_RCUseLCUSeparateModel ); m_cTEncTop.setInitialQP ( m_RCInitialQP ); m_cTEncTop.setForceIntraQP ( m_RCForceIntraQP ); #else m_cTEncTop.setUseRateCtrl ( m_enableRateCtrl); m_cTEncTop.setTargetBitrate ( m_targetBitrate); m_cTEncTop.setNumLCUInUnit ( m_numLCUInUnit); #endif m_cTEncTop.setTransquantBypassEnableFlag(m_TransquantBypassEnableFlag); m_cTEncTop.setCUTransquantBypassFlagValue(m_CUTransquantBypassFlagValue); m_cTEncTop.setUseRecalculateQPAccordingToLambda( m_recalculateQPAccordingToLambda ); m_cTEncTop.setUseStrongIntraSmoothing( m_useStrongIntraSmoothing ); m_cTEncTop.setActiveParameterSetsSEIEnabled ( m_activeParameterSetsSEIEnabled ); m_cTEncTop.setVuiParametersPresentFlag( m_vuiParametersPresentFlag ); m_cTEncTop.setAspectRatioIdc( m_aspectRatioIdc ); m_cTEncTop.setSarWidth( m_sarWidth ); m_cTEncTop.setSarHeight( m_sarHeight ); m_cTEncTop.setOverscanInfoPresentFlag( m_overscanInfoPresentFlag ); m_cTEncTop.setOverscanAppropriateFlag( m_overscanAppropriateFlag ); m_cTEncTop.setVideoSignalTypePresentFlag( m_videoSignalTypePresentFlag ); m_cTEncTop.setVideoFormat( m_videoFormat ); m_cTEncTop.setVideoFullRangeFlag( m_videoFullRangeFlag ); m_cTEncTop.setColourDescriptionPresentFlag( m_colourDescriptionPresentFlag ); m_cTEncTop.setColourPrimaries( m_colourPrimaries ); m_cTEncTop.setTransferCharacteristics( m_transferCharacteristics ); m_cTEncTop.setMatrixCoefficients( m_matrixCoefficients ); m_cTEncTop.setChromaLocInfoPresentFlag( m_chromaLocInfoPresentFlag ); m_cTEncTop.setChromaSampleLocTypeTopField( m_chromaSampleLocTypeTopField ); m_cTEncTop.setChromaSampleLocTypeBottomField( m_chromaSampleLocTypeBottomField ); m_cTEncTop.setNeutralChromaIndicationFlag( m_neutralChromaIndicationFlag ); m_cTEncTop.setDefaultDisplayWindow( m_defDispWinLeftOffset, m_defDispWinRightOffset, m_defDispWinTopOffset, m_defDispWinBottomOffset ); m_cTEncTop.setFrameFieldInfoPresentFlag( m_frameFieldInfoPresentFlag ); m_cTEncTop.setPocProportionalToTimingFlag( m_pocProportionalToTimingFlag ); m_cTEncTop.setNumTicksPocDiffOneMinus1 ( m_numTicksPocDiffOneMinus1 ); m_cTEncTop.setBitstreamRestrictionFlag( m_bitstreamRestrictionFlag ); m_cTEncTop.setTilesFixedStructureFlag( m_tilesFixedStructureFlag ); m_cTEncTop.setMotionVectorsOverPicBoundariesFlag( m_motionVectorsOverPicBoundariesFlag ); m_cTEncTop.setMinSpatialSegmentationIdc( m_minSpatialSegmentationIdc ); m_cTEncTop.setMaxBytesPerPicDenom( m_maxBytesPerPicDenom ); m_cTEncTop.setMaxBitsPerMinCuDenom( m_maxBitsPerMinCuDenom ); m_cTEncTop.setLog2MaxMvLengthHorizontal( m_log2MaxMvLengthHorizontal ); m_cTEncTop.setLog2MaxMvLengthVertical( m_log2MaxMvLengthVertical ); #if H_MV } #endif #if H_3D_VSO if ( m_bUseVSO ) { if ( m_uiVSOMode == 4 ) { #if H_3D_VSO_EARLY_SKIP m_cRendererModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, g_uiMaxCUHeight , LOG2_DISP_PREC_LUT, 0, m_bVSOEarlySkip ); #else m_cRendererModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, g_uiMaxCUHeight , LOG2_DISP_PREC_LUT, 0 ); #endif for ( Int layer = 0; layer < m_numberOfLayers ; layer++ ) { TEncTop* pcEncTop = m_acTEncTopList[ layer ]; Int iViewNum = pcEncTop->getViewIndex(); Int iContent = pcEncTop->getIsDepth() ? 1 : 0; Int iNumOfModels = m_cRenModStrParser.getNumOfModelsForView(iViewNum, iContent); Bool bUseVSO = (iNumOfModels != 0); pcEncTop->setUseVSO( bUseVSO ); pcEncTop->getRdCost()->setRenModel( bUseVSO ? &m_cRendererModel : NULL ); for (Int iCurModel = 0; iCurModel < iNumOfModels; iCurModel++ ) { Int iModelNum; Int iLeftViewNum; Int iRightViewNum; Int iDump; Int iOrgRefNum; Int iBlendMode; m_cRenModStrParser.getSingleModelData ( iViewNum, iContent, iCurModel, iModelNum, iBlendMode, iLeftViewNum, iRightViewNum, iOrgRefNum, iDump ) ; m_cRendererModel .createSingleModel ( iViewNum, iContent, iModelNum, iLeftViewNum, iRightViewNum, (iOrgRefNum != -1), iBlendMode ); } } } else { AOT(true); } } #endif } Void TAppEncTop::xCreateLib() { #if H_MV // initialize global variables initROM(); #if H_3D_DIM_DMM initWedgeLists( true ); #endif for( Int layer=0; layer < m_numberOfLayers; layer++) { m_acTVideoIOYuvInputFileList[layer]->open( m_pchInputFileList[layer], false, m_inputBitDepthY, m_inputBitDepthC, m_internalBitDepthY, m_internalBitDepthC ); // read mode m_acTVideoIOYuvInputFileList[layer]->skipFrames( m_FrameSkip, m_iSourceWidth - m_aiPad[0], m_iSourceHeight - m_aiPad[1]); if (m_pchReconFileList[layer]) { m_acTVideoIOYuvReconFileList[layer]->open( m_pchReconFileList[layer], true, m_outputBitDepthY, m_outputBitDepthC, m_internalBitDepthY, m_internalBitDepthC); // write mode } m_acTEncTopList[layer]->create(); } #else // Video I/O m_cTVideoIOYuvInputFile.open( m_pchInputFile, false, m_inputBitDepthY, m_inputBitDepthC, m_internalBitDepthY, m_internalBitDepthC ); // read mode m_cTVideoIOYuvInputFile.skipFrames(m_FrameSkip, m_iSourceWidth - m_aiPad[0], m_iSourceHeight - m_aiPad[1]); if (m_pchReconFile) m_cTVideoIOYuvReconFile.open(m_pchReconFile, true, m_outputBitDepthY, m_outputBitDepthC, m_internalBitDepthY, m_internalBitDepthC); // write mode // Neo Decoder m_cTEncTop.create(); #endif } Void TAppEncTop::xDestroyLib() { #if H_MV // destroy ROM destroyROM(); for(Int layer=0; layerclose(); m_acTVideoIOYuvReconFileList[layer]->close(); delete m_acTVideoIOYuvInputFileList[layer] ; m_acTVideoIOYuvInputFileList[layer] = NULL; delete m_acTVideoIOYuvReconFileList[layer] ; m_acTVideoIOYuvReconFileList[layer] = NULL; m_acTEncTopList[layer]->deletePicBuffer(); m_acTEncTopList[layer]->destroy(); delete m_acTEncTopList[layer] ; m_acTEncTopList[layer] = NULL; delete m_picYuvRec[layer] ; m_picYuvRec[layer] = NULL; } #else // Video I/O m_cTVideoIOYuvInputFile.close(); m_cTVideoIOYuvReconFile.close(); // Neo Decoder m_cTEncTop.destroy(); #endif } Void TAppEncTop::xInitLib() { #if H_MV for(Int layer=0; layerinit( ); } #else m_cTEncTop.init(); #endif } // ==================================================================================================================== // Public member functions // ==================================================================================================================== /** - create internal class - initialize internal variable - until the end of input YUV file, call encoding function in TEncTop class - delete allocated buffers - destroy internal class . */ Void TAppEncTop::encode() { fstream bitstreamFile(m_pchBitstreamFile, fstream::binary | fstream::out); if (!bitstreamFile) { fprintf(stderr, "\nfailed to open bitstream file `%s' for writing\n", m_pchBitstreamFile); exit(EXIT_FAILURE); } TComPicYuv* pcPicYuvOrg = new TComPicYuv; TComPicYuv* pcPicYuvRec = NULL; // initialize internal class & member variables xInitLibCfg(); xCreateLib(); xInitLib(); // main encoder loop #if H_MV Bool allEos = false; std::vector eos ; std::vector flush ; Int gopSize = 1; Int maxGopSize = 0; maxGopSize = (std::max)(maxGopSize, m_acTEncTopList[0]->getGOPSize()); for(Int layer=0; layer < m_numberOfLayers; layer++ ) { eos .push_back( false ); flush.push_back( false ); } #else Int iNumEncoded = 0; Bool bEos = false; #endif list outputAccessUnits; ///< list of access units to write out. is populated by the encoding process // allocate original YUV buffer pcPicYuvOrg->create( m_iSourceWidth, m_iSourceHeight, m_uiMaxCUWidth, m_uiMaxCUHeight, m_uiMaxCUDepth ); #if H_MV while ( !allEos ) { for(Int layer=0; layer < m_numberOfLayers; layer++ ) { Int frmCnt = 0; while ( !eos[layer] && !(frmCnt == gopSize)) { // get buffers xGetBuffer(pcPicYuvRec, layer); // read input YUV file m_acTVideoIOYuvInputFileList[layer]->read ( pcPicYuvOrg, m_aiPad ); m_acTEncTopList [layer]->initNewPic( pcPicYuvOrg ); // increase number of received frames m_frameRcvd[layer]++; frmCnt++; eos[layer] = (m_frameRcvd[layer] == m_framesToBeEncoded); allEos = allEos||eos[layer]; // if end of file (which is only detected on a read failure) flush the encoder of any queued pictures if (m_acTVideoIOYuvInputFileList[layer]->isEof()) { flush [layer] = true; eos [layer] = true; m_frameRcvd [layer]--; m_acTEncTopList[layer]->setFramesToBeEncoded(m_frameRcvd[layer]); } } } for ( Int gopId=0; gopId < gopSize; gopId++ ) { #if H_3D UInt iNextPoc = m_acTEncTopList[0] -> getFrameId( gopId ); if ( iNextPoc < m_framesToBeEncoded ) { m_cCameraData.update( iNextPoc ); } #endif for(Int layer=0; layer < m_numberOfLayers; layer++ ) { #if H_3D_VSO if( m_bUseVSO && m_bUseEstimatedVSD && iNextPoc < m_framesToBeEncoded ) { m_cCameraData.setDispCoeff( iNextPoc, m_acTEncTopList[layer]->getViewIndex() ); m_acTEncTopList[layer] ->setDispCoeff( m_cCameraData.getDispCoeff() ); } #endif Int iNumEncoded = 0; // call encoding function for one frame m_acTEncTopList[layer]->encode( eos[layer], flush[layer] ? 0 : pcPicYuvOrg, *m_picYuvRec[layer], outputAccessUnits, iNumEncoded, gopId ); xWriteOutput(bitstreamFile, iNumEncoded, outputAccessUnits, layer); outputAccessUnits.clear(); } } gopSize = maxGopSize; } for(Int layer=0; layer < m_numberOfLayers; layer++ ) { m_acTEncTopList[layer]->printSummary( m_acTEncTopList[layer]->getNumAllPicCoded() ); } #else while ( !bEos ) { // get buffers xGetBuffer(pcPicYuvRec); // read input YUV file m_cTVideoIOYuvInputFile.read( pcPicYuvOrg, m_aiPad ); // increase number of received frames m_iFrameRcvd++; bEos = (m_iFrameRcvd == m_framesToBeEncoded); Bool flush = 0; // if end of file (which is only detected on a read failure) flush the encoder of any queued pictures if (m_cTVideoIOYuvInputFile.isEof()) { flush = true; bEos = true; m_iFrameRcvd--; m_cTEncTop.setFramesToBeEncoded(m_iFrameRcvd); } // call encoding function for one frame m_cTEncTop.encode( bEos, flush ? 0 : pcPicYuvOrg, m_cListPicYuvRec, outputAccessUnits, iNumEncoded ); // write bistream to file if necessary if ( iNumEncoded > 0 ) { xWriteOutput(bitstreamFile, iNumEncoded, outputAccessUnits); outputAccessUnits.clear(); } } m_cTEncTop.printSummary(); #endif // delete original YUV buffer pcPicYuvOrg->destroy(); delete pcPicYuvOrg; pcPicYuvOrg = NULL; #if !H_MV // delete used buffers in encoder class m_cTEncTop.deletePicBuffer(); #endif // delete buffers & classes xDeleteBuffer(); xDestroyLib(); printRateSummary(); return; } // ==================================================================================================================== // Protected member functions // ==================================================================================================================== /** - application has picture buffer list with size of GOP - picture buffer list acts as ring buffer - end of the list has the latest picture . */ #if H_MV Void TAppEncTop::xGetBuffer( TComPicYuv*& rpcPicYuvRec, UInt layer) #else Void TAppEncTop::xGetBuffer( TComPicYuv*& rpcPicYuvRec) #endif { assert( m_iGOPSize > 0 ); // org. buffer #if H_MV if ( m_picYuvRec[layer]->size() == (UInt)m_iGOPSize ) { rpcPicYuvRec = m_picYuvRec[layer]->popFront(); #else if ( m_cListPicYuvRec.size() == (UInt)m_iGOPSize ) { rpcPicYuvRec = m_cListPicYuvRec.popFront(); #endif } else { rpcPicYuvRec = new TComPicYuv; rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, m_uiMaxCUWidth, m_uiMaxCUHeight, m_uiMaxCUDepth ); } #if H_MV m_picYuvRec[layer]->pushBack( rpcPicYuvRec ); #else m_cListPicYuvRec.pushBack( rpcPicYuvRec ); #endif } Void TAppEncTop::xDeleteBuffer( ) { #if H_MV for(Int layer=0; layer::iterator iterPicYuvRec = m_picYuvRec[layer]->begin(); Int iSize = Int( m_picYuvRec[layer]->size() ); #else TComList::iterator iterPicYuvRec = m_cListPicYuvRec.begin(); Int iSize = Int( m_cListPicYuvRec.size() ); #endif for ( Int i = 0; i < iSize; i++ ) { TComPicYuv* pcPicYuvRec = *(iterPicYuvRec++); pcPicYuvRec->destroy(); delete pcPicYuvRec; pcPicYuvRec = NULL; } #if H_MV } } #endif } /** \param iNumEncoded number of encoded frames */ #if H_MV Void TAppEncTop::xWriteOutput(std::ostream& bitstreamFile, Int iNumEncoded, std::list& accessUnits, UInt layerId) #else Void TAppEncTop::xWriteOutput(std::ostream& bitstreamFile, Int iNumEncoded, const std::list& accessUnits) #endif { Int i; #if H_MV if( iNumEncoded > 0 ) { TComList::iterator iterPicYuvRec = m_picYuvRec[layerId]->end(); #else TComList::iterator iterPicYuvRec = m_cListPicYuvRec.end(); list::const_iterator iterBitstream = accessUnits.begin(); #endif for ( i = 0; i < iNumEncoded; i++ ) { --iterPicYuvRec; } for ( i = 0; i < iNumEncoded; i++ ) { TComPicYuv* pcPicYuvRec = *(iterPicYuvRec++); #if H_MV if (m_pchReconFileList[layerId]) { m_acTVideoIOYuvReconFileList[layerId]->write( pcPicYuvRec, m_confLeft, m_confRight, m_confTop, m_confBottom ); } } } if( ! accessUnits.empty() ) { list::iterator aUIter; for( aUIter = accessUnits.begin(); aUIter != accessUnits.end(); aUIter++ ) { const vector& stats = writeAnnexB(bitstreamFile, *aUIter); rateStatsAccum(*aUIter, stats); } } #else if (m_pchReconFile) { m_cTVideoIOYuvReconFile.write( pcPicYuvRec, m_confLeft, m_confRight, m_confTop, m_confBottom ); } const AccessUnit& au = *(iterBitstream++); const vector& stats = writeAnnexB(bitstreamFile, au); rateStatsAccum(au, stats); } #endif } /** * */ void TAppEncTop::rateStatsAccum(const AccessUnit& au, const std::vector& annexBsizes) { AccessUnit::const_iterator it_au = au.begin(); vector::const_iterator it_stats = annexBsizes.begin(); for (; it_au != au.end(); it_au++, it_stats++) { switch ((*it_au)->m_nalUnitType) { case NAL_UNIT_CODED_SLICE_TRAIL_R: case NAL_UNIT_CODED_SLICE_TRAIL_N: case NAL_UNIT_CODED_SLICE_TLA_R: case NAL_UNIT_CODED_SLICE_TSA_N: case NAL_UNIT_CODED_SLICE_STSA_R: case NAL_UNIT_CODED_SLICE_STSA_N: case NAL_UNIT_CODED_SLICE_BLA_W_LP: case NAL_UNIT_CODED_SLICE_BLA_W_RADL: case NAL_UNIT_CODED_SLICE_BLA_N_LP: case NAL_UNIT_CODED_SLICE_IDR_W_RADL: case NAL_UNIT_CODED_SLICE_IDR_N_LP: case NAL_UNIT_CODED_SLICE_CRA: case NAL_UNIT_CODED_SLICE_RADL_N: case NAL_UNIT_CODED_SLICE_RADL_R: case NAL_UNIT_CODED_SLICE_RASL_N: case NAL_UNIT_CODED_SLICE_RASL_R: case NAL_UNIT_VPS: case NAL_UNIT_SPS: case NAL_UNIT_PPS: m_essentialBytes += *it_stats; break; default: break; } m_totalBytes += *it_stats; } } void TAppEncTop::printRateSummary() { #if H_MV Double time = (Double) m_frameRcvd[0] / m_iFrameRate; printf("\n"); #else Double time = (Double) m_iFrameRcvd / m_iFrameRate; #endif printf("Bytes written to file: %u (%.3f kbps)\n", m_totalBytes, 0.008 * m_totalBytes / time); #if VERBOSE_RATE printf("Bytes for SPS/PPS/Slice (Incl. Annex B): %u (%.3f kbps)\n", m_essentialBytes, 0.008 * m_essentialBytes / time); #endif } #if H_3D_DIM_DLT Void TAppEncTop::xAnalyzeInputBaseDepth(UInt layer, UInt uiNumFrames, TComVPS* vps) { TComPicYuv* pcDepthPicYuvOrg = new TComPicYuv; // allocate original YUV buffer pcDepthPicYuvOrg->create( m_iSourceWidth, m_iSourceHeight, m_uiMaxCUWidth, m_uiMaxCUHeight, m_uiMaxCUDepth ); TVideoIOYuv* depthVideoFile = new TVideoIOYuv; UInt uiMaxDepthValue = ((1 << g_bitDepthY)-1); Bool abValidDepths[256]; depthVideoFile->open( m_pchInputFileList[layer], false, m_inputBitDepthY, m_inputBitDepthC, m_internalBitDepthY, m_internalBitDepthC ); // read mode // initialize boolean array for(Int p=0; p<=uiMaxDepthValue; p++) abValidDepths[p] = false; Int iHeight = pcDepthPicYuvOrg->getHeight(); Int iWidth = pcDepthPicYuvOrg->getWidth(); Int iStride = pcDepthPicYuvOrg->getStride(); Pel* pInDM = pcDepthPicYuvOrg->getLumaAddr(); for(Int uiFrame=0; uiFrame < uiNumFrames; uiFrame++ ) { depthVideoFile->read( pcDepthPicYuvOrg, m_aiPad ); // check all pixel values for (Int i=0; iclose(); delete depthVideoFile; pcDepthPicYuvOrg->destroy(); delete pcDepthPicYuvOrg; // convert boolean array to idx2Depth LUT Int* aiIdx2DepthValue = (Int*) calloc(uiMaxDepthValue, sizeof(Int)); Int iNumDepthValues = 0; for(Int p=0; p<=uiMaxDepthValue; p++) { if( abValidDepths[p] == true) { aiIdx2DepthValue[iNumDepthValues++] = p; } } if( uiNumFrames == 0 || numBitsForValue(iNumDepthValues) == g_bitDepthY ) { // don't use DLT vps->setUseDLTFlag(layer, false); } // assign LUT if( vps->getUseDLTFlag(layer) ) vps->setDepthLUTs(layer, aiIdx2DepthValue, iNumDepthValues); // free temporary memory free(aiIdx2DepthValue); } #endif #if H_MV Void TAppEncTop::xSetDimensionIdAndLength( TComVPS& vps ) { vps.setScalabilityMask( m_scalabilityMask ); for( Int dim = 0; dim < m_dimIds.size(); dim++ ) { vps.setDimensionIdLen( dim, m_dimensionIdLen[ dim ] ); for( Int layer = 0; layer < vps.getMaxLayers(); layer++ ) { vps.setDimensionId( layer, dim, m_dimIds[ dim ][ layer ] ); } } } Void TAppEncTop::xSetDependencies( TComVPS& vps ) { // Direct dependency flags + dependency types for( Int depLayer = 1; depLayer < MAX_NUM_LAYERS; depLayer++ ) { for( Int refLayer = 0; refLayer < MAX_NUM_LAYERS; refLayer++ ) { vps.setDirectDependencyFlag( depLayer, refLayer, false); vps.setDirectDependencyType( depLayer, refLayer, -1 ); } } for( Int depLayer = 1; depLayer < m_numberOfLayers; depLayer++ ) { Int numRefLayers = (Int) m_directRefLayers[depLayer].size(); assert( numRefLayers == (Int) m_dependencyTypes[depLayer].size() ); for( Int i = 0; i < numRefLayers; i++ ) { Int refLayer = m_directRefLayers[depLayer][i]; vps.setDirectDependencyFlag( depLayer, refLayer, true); vps.setDirectDependencyType( depLayer, refLayer,m_dependencyTypes[depLayer][i]); } } // Max temporal id for inter layer reference pictures for ( Int refLayerIdInVps = 0; refLayerIdInVps < m_numberOfLayers; refLayerIdInVps++) { Int maxTid = -1; for ( Int curLayerIdInVps = 1; curLayerIdInVps < m_numberOfLayers; curLayerIdInVps++) { for( Int i = 0; i < getGOPSize(); i++ ) { GOPEntry geCur = m_GOPListMvc[curLayerIdInVps][i]; GOPEntry geRef = m_GOPListMvc[refLayerIdInVps][i]; for (Int j = 0; j < geCur.m_numActiveRefLayerPics; j++) { if ( m_directRefLayers[ curLayerIdInVps ][ geCur.m_interLayerPredLayerIdc[ j ]] == refLayerIdInVps ) { maxTid = std::max( maxTid, geRef.m_temporalId ); } } } } vps.setMaxTidIlRefPicPlus1( refLayerIdInVps, maxTid + 1 ); } // Max one active ref layer flag Bool maxOneActiveRefLayerFlag = true; for ( Int currLayerIdInVps = 1; currLayerIdInVps < m_numberOfLayers && maxOneActiveRefLayerFlag; currLayerIdInVps++) { for( Int i = 0; i < ( getGOPSize() + 1) && maxOneActiveRefLayerFlag; i++ ) { GOPEntry ge = m_GOPListMvc[currLayerIdInVps][ ( i < getGOPSize() ? i : MAX_GOP ) ]; maxOneActiveRefLayerFlag = maxOneActiveRefLayerFlag && (ge.m_numActiveRefLayerPics <= 1); } } vps.setMaxOneActiveRefLayerFlag( maxOneActiveRefLayerFlag ); vps.setRefLayers(); }; Void TAppEncTop::xSetLayerIds( TComVPS& vps ) { vps.setSplittingFlag ( m_splittingFlag ); Bool nuhLayerIdPresentFlag = !( m_layerIdInNuh.size() == 1 ); Int maxNuhLayerId = nuhLayerIdPresentFlag ? xGetMax( m_layerIdInNuh ) : ( m_numberOfLayers - 1 ) ; vps.setVpsMaxLayerId( maxNuhLayerId ); vps.setVpsNuhLayerIdPresentFlag( nuhLayerIdPresentFlag ); for (Int layer = 0; layer < m_numberOfLayers; layer++ ) { vps.setLayerIdInNuh( layer, nuhLayerIdPresentFlag ? m_layerIdInNuh[ layer ] : layer ); vps.setLayerIdInVps( vps.getLayerIdInNuh( layer ), layer ); } } Int TAppEncTop::xGetMax( std::vector& vec ) { Int maxVec = 0; for ( Int i = 0; i < vec.size(); i++) maxVec = max( vec[i], maxVec ); return maxVec; } Void TAppEncTop::xSetProfileTierLevel( TComVPS& vps ) { const Int vpsNumProfileTierLevelMinus1 = 0; //TBD vps.setVpsNumProfileTierLevelMinus1( vpsNumProfileTierLevelMinus1 ); for (Int i = 0; i <= vps.getVpsNumProfileTierLevelMinus1(); i++ ) { vps.setVpsProfilePresentFlag( i, true ); } } Void TAppEncTop::xSetLayerSets( TComVPS& vps ) { // Layer sets vps.setVpsNumLayerSetsMinus1 ( m_vpsNumLayerSets - 1 ); vps.setVpsNumberLayerSetsMinus1( vps.getVpsNumLayerSetsMinus1() ); for (Int lsIdx = 0; lsIdx < m_vpsNumLayerSets; lsIdx++ ) { for( Int layerId = 0; layerId < MAX_NUM_LAYER_IDS; layerId++ ) { vps.setLayerIdIncludedFlag( false, lsIdx, layerId ); } for ( Int i = 0; i < m_layerIdsInSets[lsIdx].size(); i++) { vps.setLayerIdIncludedFlag( true, lsIdx, vps.getLayerIdInNuh( m_layerIdsInSets[lsIdx][i] ) ); } } Int numAddOuputLayerSets = (Int) m_outputLayerSetIdx.size(); // Additional output layer sets + profileLevelTierIdx vps.setDefaultOneTargetOutputLayerFlag ( m_defaultOneTargetOutputLayerFlag ); vps.setMoreOutputLayerSetsThanDefaultFlag( numAddOuputLayerSets != 0 ); vps.setNumAddOutputLayerSetsMinus1 ( numAddOuputLayerSets - 1 ); for (Int lsIdx = 1; lsIdx < m_vpsNumLayerSets; lsIdx++) { vps.setProfileLevelTierIdx( lsIdx, m_profileLevelTierIdx[ lsIdx ] ); } for (Int addOutLs = 0; addOutLs < numAddOuputLayerSets; addOutLs++ ) { vps.setProfileLevelTierIdx( m_vpsNumLayerSets + addOutLs, m_profileLevelTierIdx[ addOutLs ] ); Int refLayerSetIdx = m_outputLayerSetIdx[ addOutLs ]; vps.setOutputLayerSetIdxMinus1( m_vpsNumLayerSets + addOutLs, refLayerSetIdx - 1 ); for (Int i = 0; i < m_layerIdsInSets[ refLayerSetIdx].size(); i++ ) { Bool outputLayerFlag = false; for (Int j = 0; j < m_layerIdsInAddOutputLayerSet[ addOutLs ].size(); j++ ) { if ( m_layerIdsInAddOutputLayerSet[addOutLs][ j ] == m_layerIdsInSets[ refLayerSetIdx][ i ] ) { outputLayerFlag = true; break; } } vps.setOutputLayerFlag( m_vpsNumLayerSets + addOutLs, i, outputLayerFlag ); } } } #endif #if H_3D Void TAppEncTop::xSetVPSExtension2( TComVPS& vps ) { for ( Int layer = 0; layer < vps.getMaxLayers(); layer++ ) { Bool isDepth = ( vps.getDepthId( layer ) == 1 ) ; Bool isLayerZero = ( layer == 0 ); #if H_3D_ARP vps.setUseAdvRP ( layer, ( isDepth || isLayerZero ) ? 0 : m_uiUseAdvResPred ); vps.setARPStepNum ( layer, ( isDepth || isLayerZero ) ? 1 : H_3D_ARP_WFNR ); #endif #if H_3D_DIM vps.setVpsDepthModesFlag( layer, isDepth && !isLayerZero && (m_useDMM || m_useRBC || m_useSDC || m_useDLT ) ); #if H_3D_DIM_DLT vps.setUseDLTFlag( layer , isDepth && m_useDLT ); if( vps.getUseDLTFlag( layer ) ) { xAnalyzeInputBaseDepth(layer, max(m_iIntraPeriod, 24), &vps); } #endif #endif #if H_3D_IV_MERGE vps.setIvMvPredFlag ( layer, !isLayerZero && !isDepth && m_ivMvPredFlag ); #endif #if H_3D_NBDV_REF vps.setDepthRefinementFlag ( layer, !isLayerZero && !isDepth && m_depthRefinementFlag ); #endif #if H_3D_VSP vps.setViewSynthesisPredFlag( layer, !isLayerZero && !isDepth && m_viewSynthesisPredFlag ); #endif } #if H_3D_TMVP vps.setIvMvScalingFlag( m_ivMvScalingFlag ); #endif } #endif //! \}