/* 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) 2010-2015, 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 TComSlice.h \brief slice header and SPS class (header) */ #ifndef __TCOMSLICE__ #define __TCOMSLICE__ #include #include #include #include "CommonDef.h" #include "TComRom.h" #include "TComList.h" #include "TComChromaFormat.h" //! \ingroup TLibCommon //! \{ class TComPic; class TComTrQuant; #if NH_MV class TComPicLists; class TComVPS; class TComSPS; #endif // ==================================================================================================================== // Constants // ==================================================================================================================== static const UInt REF_PIC_LIST_NUM_IDX=32; // ==================================================================================================================== // Class definition // ==================================================================================================================== /// Reference Picture Set class class TComReferencePictureSet { private: Int m_numberOfPictures; Int m_numberOfNegativePictures; Int m_numberOfPositivePictures; Int m_numberOfLongtermPictures; Int m_deltaPOC[MAX_NUM_REF_PICS]; Int m_POC[MAX_NUM_REF_PICS]; Bool m_used[MAX_NUM_REF_PICS]; Bool m_interRPSPrediction; Int m_deltaRIdxMinus1; Int m_deltaRPS; Int m_numRefIdc; Int m_refIdc[MAX_NUM_REF_PICS+1]; Bool m_bCheckLTMSB[MAX_NUM_REF_PICS]; Int m_pocLSBLT[MAX_NUM_REF_PICS]; Int m_deltaPOCMSBCycleLT[MAX_NUM_REF_PICS]; Bool m_deltaPocMSBPresentFlag[MAX_NUM_REF_PICS]; public: TComReferencePictureSet(); virtual ~TComReferencePictureSet(); Int getPocLSBLT(Int i) const { return m_pocLSBLT[i]; } Void setPocLSBLT(Int i, Int x) { m_pocLSBLT[i] = x; } Int getDeltaPocMSBCycleLT(Int i) const { return m_deltaPOCMSBCycleLT[i]; } Void setDeltaPocMSBCycleLT(Int i, Int x) { m_deltaPOCMSBCycleLT[i] = x; } Bool getDeltaPocMSBPresentFlag(Int i) const { return m_deltaPocMSBPresentFlag[i]; } Void setDeltaPocMSBPresentFlag(Int i, Bool x) { m_deltaPocMSBPresentFlag[i] = x; } Void setUsed(Int bufferNum, Bool used); Void setDeltaPOC(Int bufferNum, Int deltaPOC); Void setPOC(Int bufferNum, Int deltaPOC); Void setNumberOfPictures(Int numberOfPictures); Void setCheckLTMSBPresent(Int bufferNum, Bool b ); Bool getCheckLTMSBPresent(Int bufferNum) const; Int getUsed(Int bufferNum) const; Int getDeltaPOC(Int bufferNum) const; Int getPOC(Int bufferNum) const; Int getNumberOfPictures() const; Void setNumberOfNegativePictures(Int number) { m_numberOfNegativePictures = number; } Int getNumberOfNegativePictures() const { return m_numberOfNegativePictures; } Void setNumberOfPositivePictures(Int number) { m_numberOfPositivePictures = number; } Int getNumberOfPositivePictures() const { return m_numberOfPositivePictures; } Void setNumberOfLongtermPictures(Int number) { m_numberOfLongtermPictures = number; } Int getNumberOfLongtermPictures() const { return m_numberOfLongtermPictures; } Void setInterRPSPrediction(Bool flag) { m_interRPSPrediction = flag; } Bool getInterRPSPrediction() const { return m_interRPSPrediction; } Void setDeltaRIdxMinus1(Int x) { m_deltaRIdxMinus1 = x; } Int getDeltaRIdxMinus1() const { return m_deltaRIdxMinus1; } Void setDeltaRPS(Int x) { m_deltaRPS = x; } Int getDeltaRPS() const { return m_deltaRPS; } Void setNumRefIdc(Int x) { m_numRefIdc = x; } Int getNumRefIdc() const { return m_numRefIdc; } Void setRefIdc(Int bufferNum, Int refIdc); Int getRefIdc(Int bufferNum) const ; Void sortDeltaPOC(); Void printDeltaPOC() const; #if NH_MV Void checkMaxNumPics( Bool vpsExtensionFlag, Int maxNumPics, Int nuhLayerId, Int spsMaxDecPicBufferingMinus1 ) const; #endif }; /// Reference Picture Set set class class TComRPSList { private: std::vector m_referencePictureSets; public: TComRPSList() { } virtual ~TComRPSList() { } Void create (Int numberOfEntries) { m_referencePictureSets.resize(numberOfEntries); } Void destroy () { } TComReferencePictureSet* getReferencePictureSet(Int referencePictureSetNum) { return &m_referencePictureSets[referencePictureSetNum]; } const TComReferencePictureSet* getReferencePictureSet(Int referencePictureSetNum) const { return &m_referencePictureSets[referencePictureSetNum]; } Int getNumberOfReferencePictureSets() const { return Int(m_referencePictureSets.size()); } }; /// SCALING_LIST class class TComScalingList { public: TComScalingList(); virtual ~TComScalingList() { } Int* getScalingListAddress(UInt sizeId, UInt listId) { return &(m_scalingListCoef[sizeId][listId][0]); } //!< get matrix coefficient const Int* getScalingListAddress(UInt sizeId, UInt listId) const { return &(m_scalingListCoef[sizeId][listId][0]); } //!< get matrix coefficient Void checkPredMode(UInt sizeId, UInt listId); Void setRefMatrixId(UInt sizeId, UInt listId, UInt u) { m_refMatrixId[sizeId][listId] = u; } //!< set reference matrix ID UInt getRefMatrixId(UInt sizeId, UInt listId) const { return m_refMatrixId[sizeId][listId]; } //!< get reference matrix ID const Int* getScalingListDefaultAddress(UInt sizeId, UInt listId); //!< get default matrix coefficient Void processDefaultMatrix(UInt sizeId, UInt listId); Void setScalingListDC(UInt sizeId, UInt listId, UInt u) { m_scalingListDC[sizeId][listId] = u; } //!< set DC value Int getScalingListDC(UInt sizeId, UInt listId) const { return m_scalingListDC[sizeId][listId]; } //!< get DC value Void setScalingListPredModeFlag(UInt sizeId, UInt listId, Bool bIsDPCM) { m_scalingListPredModeFlagIsDPCM[sizeId][listId] = bIsDPCM; } Bool getScalingListPredModeFlag(UInt sizeId, UInt listId) const { return m_scalingListPredModeFlagIsDPCM[sizeId][listId]; } Void checkDcOfMatrix(); Void processRefMatrix(UInt sizeId, UInt listId , UInt refListId ); Bool xParseScalingList(Char* pchFile); #if NH_MV Void inferFrom ( const TComScalingList& srcScLi ); #endif Void setDefaultScalingList(); Bool checkDefaultScalingList(); private: Void outputScalingLists(std::ostream &os) const; Bool m_scalingListPredModeFlagIsDPCM [SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM]; //!< reference list index Int m_scalingListDC [SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM]; //!< the DC value of the matrix coefficient for 16x16 UInt m_refMatrixId [SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM]; //!< RefMatrixID std::vector m_scalingListCoef [SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM]; //!< quantization matrix }; class ProfileTierLevel { Int m_profileSpace; Level::Tier m_tierFlag; Profile::Name m_profileIdc; Bool m_profileCompatibilityFlag[32]; Level::Name m_levelIdc; Bool m_progressiveSourceFlag; Bool m_interlacedSourceFlag; Bool m_nonPackedConstraintFlag; Bool m_frameOnlyConstraintFlag; UInt m_bitDepthConstraintValue; ChromaFormat m_chromaFormatConstraintValue; Bool m_intraConstraintFlag; Bool m_onePictureOnlyConstraintFlag; Bool m_lowerBitRateConstraintFlag; #if NH_MV Bool m_max12bitConstraintFlag; Bool m_max10bitConstraintFlag; Bool m_max8bitConstraintFlag; Bool m_max422chromaConstraintFlag; Bool m_max420chromaConstraintFlag; Bool m_maxMonochromeConstraintFlag; Bool m_inbldFlag; #endif public: ProfileTierLevel(); Int getProfileSpace() const { return m_profileSpace; } Void setProfileSpace(Int x) { m_profileSpace = x; } Level::Tier getTierFlag() const { return m_tierFlag; } Void setTierFlag(Level::Tier x) { m_tierFlag = x; } Profile::Name getProfileIdc() const { return m_profileIdc; } Void setProfileIdc(Profile::Name x) { m_profileIdc = x; } Bool getProfileCompatibilityFlag(Int i) const { return m_profileCompatibilityFlag[i]; } Void setProfileCompatibilityFlag(Int i, Bool x) { m_profileCompatibilityFlag[i] = x; } Level::Name getLevelIdc() const { return m_levelIdc; } Void setLevelIdc(Level::Name x) { m_levelIdc = x; } Bool getProgressiveSourceFlag() const { return m_progressiveSourceFlag; } Void setProgressiveSourceFlag(Bool b) { m_progressiveSourceFlag = b; } Bool getInterlacedSourceFlag() const { return m_interlacedSourceFlag; } Void setInterlacedSourceFlag(Bool b) { m_interlacedSourceFlag = b; } Bool getNonPackedConstraintFlag() const { return m_nonPackedConstraintFlag; } Void setNonPackedConstraintFlag(Bool b) { m_nonPackedConstraintFlag = b; } Bool getFrameOnlyConstraintFlag() const { return m_frameOnlyConstraintFlag; } Void setFrameOnlyConstraintFlag(Bool b) { m_frameOnlyConstraintFlag = b; } UInt getBitDepthConstraint() const { return m_bitDepthConstraintValue; } Void setBitDepthConstraint(UInt bitDepth) { m_bitDepthConstraintValue=bitDepth; } ChromaFormat getChromaFormatConstraint() const { return m_chromaFormatConstraintValue; } Void setChromaFormatConstraint(ChromaFormat fmt) { m_chromaFormatConstraintValue=fmt; } Bool getIntraConstraintFlag() const { return m_intraConstraintFlag; } Void setIntraConstraintFlag(Bool b) { m_intraConstraintFlag = b; } Bool getOnePictureOnlyConstraintFlag() const { return m_onePictureOnlyConstraintFlag;} Void setOnePictureOnlyConstraintFlag(Bool b) { m_onePictureOnlyConstraintFlag = b; } Bool getLowerBitRateConstraintFlag() const { return m_lowerBitRateConstraintFlag; } Void setLowerBitRateConstraintFlag(Bool b) { m_lowerBitRateConstraintFlag = b; } #if NH_MV Void setMax12bitConstraintFlag( Bool flag ) { m_max12bitConstraintFlag = flag; } Bool getMax12bitConstraintFlag( ) const { return m_max12bitConstraintFlag; } Void setMax10bitConstraintFlag( Bool flag ) { m_max10bitConstraintFlag = flag; } Bool getMax10bitConstraintFlag( ) const { return m_max10bitConstraintFlag; } Void setMax8bitConstraintFlag( Bool flag ) { m_max8bitConstraintFlag = flag; } Bool getMax8bitConstraintFlag( ) const { return m_max8bitConstraintFlag; } Void setMax422chromaConstraintFlag( Bool flag ) { m_max422chromaConstraintFlag = flag; } Bool getMax422chromaConstraintFlag( ) const { return m_max422chromaConstraintFlag; } Void setMax420chromaConstraintFlag( Bool flag ) { m_max420chromaConstraintFlag = flag; } Bool getMax420chromaConstraintFlag( ) const { return m_max420chromaConstraintFlag; } Void setMaxMonochromeConstraintFlag( Bool flag ) { m_maxMonochromeConstraintFlag = flag; } Bool getMaxMonochromeConstraintFlag( ) const { return m_maxMonochromeConstraintFlag; } Void setInbldFlag( Bool flag ) { m_inbldFlag = flag; } Bool getInbldFlag( ) const { return m_inbldFlag; } Bool getV2ConstraintsPresentFlag() const; Bool getInbldPresentFlag() const; Void copyV2ConstraintFlags( ProfileTierLevel* ptlRef ); Void copyProfile( ProfileTierLevel* ptlRef ); #endif }; class TComPTL { ProfileTierLevel m_generalPTL; ProfileTierLevel m_subLayerPTL [MAX_TLAYER-1]; // max. value of max_sub_layers_minus1 is MAX_TLAYER-1 (= 6) Bool m_subLayerProfilePresentFlag [MAX_TLAYER-1]; Bool m_subLayerLevelPresentFlag [MAX_TLAYER-1]; public: TComPTL(); Bool getSubLayerProfilePresentFlag(Int i) const { return m_subLayerProfilePresentFlag[i]; } Void setSubLayerProfilePresentFlag(Int i, Bool x) { m_subLayerProfilePresentFlag[i] = x; } Bool getSubLayerLevelPresentFlag(Int i) const { return m_subLayerLevelPresentFlag[i]; } Void setSubLayerLevelPresentFlag(Int i, Bool x) { m_subLayerLevelPresentFlag[i] = x; } ProfileTierLevel* getGeneralPTL() { return &m_generalPTL; } const ProfileTierLevel* getGeneralPTL() const { return &m_generalPTL; } ProfileTierLevel* getSubLayerPTL(Int i) { return &m_subLayerPTL[i]; } const ProfileTierLevel* getSubLayerPTL(Int i) const { return &m_subLayerPTL[i]; } #if NH_MV Void inferGeneralValues ( Bool profilePresentFlag , Int k, TComPTL* refPTL );; Void inferSubLayerValues( Int maxNumSubLayersMinus1, Int k, TComPTL* refPTL );; #endif }; /// VPS class struct HrdSubLayerInfo { Bool fixedPicRateFlag; Bool fixedPicRateWithinCvsFlag; UInt picDurationInTcMinus1; Bool lowDelayHrdFlag; UInt cpbCntMinus1; UInt bitRateValueMinus1[MAX_CPB_CNT][2]; UInt cpbSizeValue [MAX_CPB_CNT][2]; UInt ducpbSizeValue [MAX_CPB_CNT][2]; Bool cbrFlag [MAX_CPB_CNT][2]; UInt duBitRateValue [MAX_CPB_CNT][2]; }; class TComHRD { private: Bool m_nalHrdParametersPresentFlag; Bool m_vclHrdParametersPresentFlag; Bool m_subPicCpbParamsPresentFlag; UInt m_tickDivisorMinus2; UInt m_duCpbRemovalDelayLengthMinus1; Bool m_subPicCpbParamsInPicTimingSEIFlag; UInt m_dpbOutputDelayDuLengthMinus1; UInt m_bitRateScale; UInt m_cpbSizeScale; UInt m_ducpbSizeScale; UInt m_initialCpbRemovalDelayLengthMinus1; UInt m_cpbRemovalDelayLengthMinus1; UInt m_dpbOutputDelayLengthMinus1; HrdSubLayerInfo m_HRD[MAX_TLAYER]; public: TComHRD() :m_nalHrdParametersPresentFlag (0) ,m_vclHrdParametersPresentFlag (0) ,m_subPicCpbParamsPresentFlag (false) ,m_tickDivisorMinus2 (0) ,m_duCpbRemovalDelayLengthMinus1 (0) ,m_subPicCpbParamsInPicTimingSEIFlag (false) ,m_dpbOutputDelayDuLengthMinus1 (0) ,m_bitRateScale (0) ,m_cpbSizeScale (0) ,m_initialCpbRemovalDelayLengthMinus1(23) ,m_cpbRemovalDelayLengthMinus1 (23) ,m_dpbOutputDelayLengthMinus1 (23) {} virtual ~TComHRD() {} Void setNalHrdParametersPresentFlag( Bool flag ) { m_nalHrdParametersPresentFlag = flag; } Bool getNalHrdParametersPresentFlag( ) const { return m_nalHrdParametersPresentFlag; } Void setVclHrdParametersPresentFlag( Bool flag ) { m_vclHrdParametersPresentFlag = flag; } Bool getVclHrdParametersPresentFlag( ) const { return m_vclHrdParametersPresentFlag; } Void setSubPicCpbParamsPresentFlag( Bool flag ) { m_subPicCpbParamsPresentFlag = flag; } Bool getSubPicCpbParamsPresentFlag( ) const { return m_subPicCpbParamsPresentFlag; } Void setTickDivisorMinus2( UInt value ) { m_tickDivisorMinus2 = value; } UInt getTickDivisorMinus2( ) const { return m_tickDivisorMinus2; } Void setDuCpbRemovalDelayLengthMinus1( UInt value ) { m_duCpbRemovalDelayLengthMinus1 = value; } UInt getDuCpbRemovalDelayLengthMinus1( ) const { return m_duCpbRemovalDelayLengthMinus1; } Void setSubPicCpbParamsInPicTimingSEIFlag( Bool flag) { m_subPicCpbParamsInPicTimingSEIFlag = flag; } Bool getSubPicCpbParamsInPicTimingSEIFlag( ) const { return m_subPicCpbParamsInPicTimingSEIFlag; } Void setDpbOutputDelayDuLengthMinus1(UInt value ) { m_dpbOutputDelayDuLengthMinus1 = value; } UInt getDpbOutputDelayDuLengthMinus1( ) const { return m_dpbOutputDelayDuLengthMinus1; } Void setBitRateScale( UInt value ) { m_bitRateScale = value; } UInt getBitRateScale( ) const { return m_bitRateScale; } Void setCpbSizeScale( UInt value ) { m_cpbSizeScale = value; } UInt getCpbSizeScale( ) const { return m_cpbSizeScale; } Void setDuCpbSizeScale( UInt value ) { m_ducpbSizeScale = value; } UInt getDuCpbSizeScale( ) const { return m_ducpbSizeScale; } Void setInitialCpbRemovalDelayLengthMinus1( UInt value ) { m_initialCpbRemovalDelayLengthMinus1 = value; } UInt getInitialCpbRemovalDelayLengthMinus1( ) const { return m_initialCpbRemovalDelayLengthMinus1; } Void setCpbRemovalDelayLengthMinus1( UInt value ) { m_cpbRemovalDelayLengthMinus1 = value; } UInt getCpbRemovalDelayLengthMinus1( ) const { return m_cpbRemovalDelayLengthMinus1; } Void setDpbOutputDelayLengthMinus1( UInt value ) { m_dpbOutputDelayLengthMinus1 = value; } UInt getDpbOutputDelayLengthMinus1( ) const { return m_dpbOutputDelayLengthMinus1; } Void setFixedPicRateFlag( Int layer, Bool flag ) { m_HRD[layer].fixedPicRateFlag = flag; } Bool getFixedPicRateFlag( Int layer ) const { return m_HRD[layer].fixedPicRateFlag; } Void setFixedPicRateWithinCvsFlag( Int layer, Bool flag ) { m_HRD[layer].fixedPicRateWithinCvsFlag = flag; } Bool getFixedPicRateWithinCvsFlag( Int layer ) const { return m_HRD[layer].fixedPicRateWithinCvsFlag; } Void setPicDurationInTcMinus1( Int layer, UInt value ) { m_HRD[layer].picDurationInTcMinus1 = value; } UInt getPicDurationInTcMinus1( Int layer ) const { return m_HRD[layer].picDurationInTcMinus1; } Void setLowDelayHrdFlag( Int layer, Bool flag ) { m_HRD[layer].lowDelayHrdFlag = flag; } Bool getLowDelayHrdFlag( Int layer ) const { return m_HRD[layer].lowDelayHrdFlag; } Void setCpbCntMinus1( Int layer, UInt value ) { m_HRD[layer].cpbCntMinus1 = value; } UInt getCpbCntMinus1( Int layer ) const { return m_HRD[layer].cpbCntMinus1; } Void setBitRateValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl, UInt value ) { m_HRD[layer].bitRateValueMinus1[cpbcnt][nalOrVcl] = value; } UInt getBitRateValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl ) const { return m_HRD[layer].bitRateValueMinus1[cpbcnt][nalOrVcl]; } Void setCpbSizeValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl, UInt value ) { m_HRD[layer].cpbSizeValue[cpbcnt][nalOrVcl] = value; } UInt getCpbSizeValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl ) const { return m_HRD[layer].cpbSizeValue[cpbcnt][nalOrVcl]; } Void setDuCpbSizeValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl, UInt value ) { m_HRD[layer].ducpbSizeValue[cpbcnt][nalOrVcl] = value; } UInt getDuCpbSizeValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl ) const { return m_HRD[layer].ducpbSizeValue[cpbcnt][nalOrVcl]; } Void setDuBitRateValueMinus1( Int layer, Int cpbcnt, Int nalOrVcl, UInt value ) { m_HRD[layer].duBitRateValue[cpbcnt][nalOrVcl] = value; } UInt getDuBitRateValueMinus1(Int layer, Int cpbcnt, Int nalOrVcl ) const { return m_HRD[layer].duBitRateValue[cpbcnt][nalOrVcl]; } Void setCbrFlag( Int layer, Int cpbcnt, Int nalOrVcl, Bool value ) { m_HRD[layer].cbrFlag[cpbcnt][nalOrVcl] = value; } Bool getCbrFlag( Int layer, Int cpbcnt, Int nalOrVcl ) const { return m_HRD[layer].cbrFlag[cpbcnt][nalOrVcl]; } Bool getCpbDpbDelaysPresentFlag( ) const { return getNalHrdParametersPresentFlag() || getVclHrdParametersPresentFlag(); } }; class TimingInfo { Bool m_timingInfoPresentFlag; UInt m_numUnitsInTick; UInt m_timeScale; Bool m_pocProportionalToTimingFlag; Int m_numTicksPocDiffOneMinus1; public: TimingInfo() : m_timingInfoPresentFlag (false) , m_numUnitsInTick (1001) , m_timeScale (60000) , m_pocProportionalToTimingFlag(false) , m_numTicksPocDiffOneMinus1 (0) {} Void setTimingInfoPresentFlag( Bool flag ) { m_timingInfoPresentFlag = flag; } Bool getTimingInfoPresentFlag( ) const { return m_timingInfoPresentFlag; } Void setNumUnitsInTick( UInt value ) { m_numUnitsInTick = value; } UInt getNumUnitsInTick( ) const { return m_numUnitsInTick; } Void setTimeScale( UInt value ) { m_timeScale = value; } UInt getTimeScale( ) const { return m_timeScale; } Void setPocProportionalToTimingFlag(Bool x) { m_pocProportionalToTimingFlag = x; } Bool getPocProportionalToTimingFlag( ) const { return m_pocProportionalToTimingFlag; } Void setNumTicksPocDiffOneMinus1(Int x) { m_numTicksPocDiffOneMinus1 = x; } Int getNumTicksPocDiffOneMinus1( ) const { return m_numTicksPocDiffOneMinus1; } }; struct ChromaQpAdj { union { struct { Int CbOffset; Int CrOffset; } comp; Int offset[2]; /* two chroma components */ } u; }; #if NH_MV class TComVideoSignalInfo { private: Int m_videoVpsFormat; Bool m_videoFullRangeVpsFlag; Int m_colourPrimariesVps; Int m_transferCharacteristicsVps; Int m_matrixCoeffsVps; public: Void setVideoVpsFormat( Int val ) { m_videoVpsFormat = val; } Int getVideoVpsFormat( ) const { return m_videoVpsFormat; } Void setVideoFullRangeVpsFlag( Bool flag ) { m_videoFullRangeVpsFlag = flag; } Bool getVideoFullRangeVpsFlag( ) const { return m_videoFullRangeVpsFlag; } Void setColourPrimariesVps( Int val ) { m_colourPrimariesVps = val; } Int getColourPrimariesVps( ) const { return m_colourPrimariesVps; } Void setTransferCharacteristicsVps( Int val ) { m_transferCharacteristicsVps = val; } Int getTransferCharacteristicsVps( ) const { return m_transferCharacteristicsVps; } Void setMatrixCoeffsVps( Int val ) { m_matrixCoeffsVps = val; } Int getMatrixCoeffsVps( ) const { return m_matrixCoeffsVps; } }; class TComVpsVuiBspHrdParameters { /* Not yet tested */ private: Int m_vpsNumAddHrdParams; BoolAry1d m_cprmsAddPresentFlag; std::vector m_hrdParameters; IntAry1d m_numSubLayerHrdMinus1; IntAry1d m_numSignalledPartitioningSchemes; IntAry2d m_numPartitionsInSchemeMinus1; BoolAry4d m_layerIncludedInPartitionFlag; IntAry3d m_numBspSchedulesMinus1; IntAry5d m_bspHrdIdx; IntAry5d m_bspSchedIdx; // Array sizes Int m_offsetHrdParamIdx; Int m_numHrdParam; Int m_numOls; TComVPS* m_vps; public: Void createAfterVpsNumAddHrdParams( const TComVPS* vps ); Void createAfterNumSignalledPartitioningSchemes(const TComVPS* vps, Int h ); Void createAfterNumPartitionsInSchemeMinus1(const TComVPS* vps, Int h, Int j); Void createAfterNumBspSchedulesMinus1(const TComVPS* vps, Int h, Int i, Int t); Void setVpsNumAddHrdParams( Int val ) { m_vpsNumAddHrdParams = val; } Int getVpsNumAddHrdParams( ) const { return m_vpsNumAddHrdParams; } Void setCprmsAddPresentFlag( Int i, Bool flag ) { m_cprmsAddPresentFlag[i - m_offsetHrdParamIdx] = flag; } Bool getCprmsAddPresentFlag( Int i ) const { return m_cprmsAddPresentFlag[i - m_offsetHrdParamIdx]; } Void setNumSubLayerHrdMinus1( Int i, Int val ) { m_numSubLayerHrdMinus1[i - m_offsetHrdParamIdx] = val; } Int getNumSubLayerHrdMinus1( Int i ) const { return m_numSubLayerHrdMinus1[i - m_offsetHrdParamIdx]; } Void setNumSignalledPartitioningSchemes( Int h, Int val ) { m_numSignalledPartitioningSchemes[h] = val; } Int getNumSignalledPartitioningSchemes( Int h ) const { return m_numSignalledPartitioningSchemes[h]; } Void setNumPartitionsInSchemeMinus1( Int h, Int j, Int val ) { m_numPartitionsInSchemeMinus1[h][j] = val; } Int getNumPartitionsInSchemeMinus1( Int h, Int j ) const { return m_numPartitionsInSchemeMinus1[h][j]; } Void setLayerIncludedInPartitionFlag( Int h, Int j, Int k, Int r, Bool flag ) { m_layerIncludedInPartitionFlag[h][j][k][r] = flag; } Bool getLayerIncludedInPartitionFlag( Int h, Int j, Int k, Int r ) const { return m_layerIncludedInPartitionFlag[h][j][k][r]; } Void setNumBspSchedulesMinus1( Int h, Int i, Int t, Int val ) { m_numBspSchedulesMinus1[h][i][t] = val; } Int getNumBspSchedulesMinus1( Int h, Int i, Int t ) const { return m_numBspSchedulesMinus1[h][i][t]; } Void setBspHrdIdx( Int h, Int i, Int t, Int j, Int k, Int val ) { m_bspHrdIdx[h][i - m_offsetHrdParamIdx][t][j][k] = val; } Int getBspHrdIdx( Int h, Int i, Int t, Int j, Int k ) const { return m_bspHrdIdx[h][i - m_offsetHrdParamIdx][t][j][k]; } Int getBspHrdIdxLen ( const TComVPS* vps ) const ; Void setBspSchedIdx( Int h, Int i, Int t, Int j, Int k, Int val ) { m_bspSchedIdx[h][i - m_offsetHrdParamIdx][t][j][k] = val; } Int getBspSchedIdx( Int h, Int i, Int t, Int j, Int k ) const { return m_bspSchedIdx[h][i - m_offsetHrdParamIdx][t][j][k]; } Void setHrdParametermeters( Int k, TComHRD val ) { m_hrdParameters[k] = val; } const TComHRD* getHrdParametermeters( Int k ) const { return &m_hrdParameters[k]; } }; class TComVPSVUI { private: Bool m_crossLayerPicTypeAlignedFlag ; Bool m_crossLayerIrapAlignedFlag ; Bool m_allLayersIdrAlignedFlag ; Bool m_bitRatePresentVpsFlag ; Bool m_picRatePresentVpsFlag ; BoolAry2d m_bitRatePresentFlag ; BoolAry2d m_picRatePresentFlag ; IntAry2d m_avgBitRate ; IntAry2d m_maxBitRate ; IntAry2d m_constantPicRateIdc ; IntAry2d m_avgPicRate ; Bool m_videoSignalInfoIdxPresentFlag ; Int m_vpsNumVideoSignalInfoMinus1 ; std::vector< TComVideoSignalInfo > m_videoSignalInfo ; IntAry1d m_vpsVideoSignalInfoIdx ; Bool m_tilesNotInUseFlag; ; BoolAry1d m_tilesInUseFlag ; BoolAry1d m_loopFilterNotAcrossTilesFlag ; BoolAry2d m_tileBoundariesAlignedFlag ; Bool m_wppNotInUseFlag ; BoolAry1d m_wppInUseFlag ; Bool m_singleLayerForNonIrapFlag ; Bool m_higherLayerIrapSkipFlag ; Bool m_ilpRestrictedRefLayersFlag ; IntAry2d m_minSpatialSegmentOffsetPlus1 ; BoolAry2d m_ctuBasedOffsetEnabledFlag ; IntAry2d m_minHorizontalCtuOffsetPlus1 ; Bool m_vpsVuiBspHrdPresentFlag ; TComVpsVuiBspHrdParameters m_vpsVuiBspHrdParameters ; BoolAry1d m_baseLayerParameterSetCompatibilityFlag; public: Void init( Int numLayerSets, Int maxNumSubLayers, Int maxNumLayers ); Void setCrossLayerPicTypeAlignedFlag( Bool flag ) { m_crossLayerPicTypeAlignedFlag = flag; } Bool getCrossLayerPicTypeAlignedFlag( ) const { return m_crossLayerPicTypeAlignedFlag; } Void setCrossLayerIrapAlignedFlag( Bool flag ) { m_crossLayerIrapAlignedFlag = flag; } Bool getCrossLayerIrapAlignedFlag( ) const { return m_crossLayerIrapAlignedFlag; } Void setAllLayersIdrAlignedFlag( Bool flag ) { m_allLayersIdrAlignedFlag = flag; } Bool getAllLayersIdrAlignedFlag( ) const { return m_allLayersIdrAlignedFlag; } Void setBitRatePresentVpsFlag( Bool flag ) { m_bitRatePresentVpsFlag = flag; } Bool getBitRatePresentVpsFlag( ) const { return m_bitRatePresentVpsFlag; } Void setPicRatePresentVpsFlag( Bool flag ) { m_picRatePresentVpsFlag = flag; } Bool getPicRatePresentVpsFlag( ) const { return m_picRatePresentVpsFlag; } Void setBitRatePresentFlag( Int i, Int j, Bool flag ) { m_bitRatePresentFlag[i][j] = flag; } Bool getBitRatePresentFlag( Int i, Int j ) const { return m_bitRatePresentFlag[i][j]; } Void setPicRatePresentFlag( Int i, Int j, Bool flag ) { m_picRatePresentFlag[i][j] = flag; } Bool getPicRatePresentFlag( Int i, Int j ) const { return m_picRatePresentFlag[i][j]; } Void setAvgBitRate( Int i, Int j, Int val ) { m_avgBitRate[i][j] = val; } Int getAvgBitRate( Int i, Int j ) const { return m_avgBitRate[i][j]; } Void setMaxBitRate( Int i, Int j, Int val ) { m_maxBitRate[i][j] = val; } Int getMaxBitRate( Int i, Int j ) const { return m_maxBitRate[i][j]; } Void setConstantPicRateIdc( Int i, Int j, Int val ) { m_constantPicRateIdc[i][j] = val; } Int getConstantPicRateIdc( Int i, Int j ) const { return m_constantPicRateIdc[i][j]; } Void setAvgPicRate( Int i, Int j, Int val ) { m_avgPicRate[i][j] = val; } Int getAvgPicRate( Int i, Int j ) const { return m_avgPicRate[i][j]; } Void setVideoSignalInfoIdxPresentFlag( Bool flag ) { m_videoSignalInfoIdxPresentFlag = flag; } Bool getVideoSignalInfoIdxPresentFlag( ) const { return m_videoSignalInfoIdxPresentFlag; } Void setVideoSignalInfo( std::vector val ) { m_videoSignalInfo = val; } const TComVideoSignalInfo* getVideoSignalInfo( Int i ) const { return &m_videoSignalInfo[i]; } Void setVpsNumVideoSignalInfoMinus1( Int val ) { m_vpsNumVideoSignalInfoMinus1 = val; } Int getVpsNumVideoSignalInfoMinus1( ) const { return m_vpsNumVideoSignalInfoMinus1; } Void setVpsVideoSignalInfoIdx( Int i, Int val ) { m_vpsVideoSignalInfoIdx[i] = val; } Int getVpsVideoSignalInfoIdx( Int i ) const { return m_vpsVideoSignalInfoIdx[i]; } Void setTilesNotInUseFlag( Bool flag ) { m_tilesNotInUseFlag = flag; } Bool getTilesNotInUseFlag( ) const { return m_tilesNotInUseFlag; } Void setTilesInUseFlag( Int i, Bool flag ) { m_tilesInUseFlag[i] = flag; } Bool getTilesInUseFlag( Int i ) const { return m_tilesInUseFlag[i]; } Void setLoopFilterNotAcrossTilesFlag( Int i, Int val ) { m_loopFilterNotAcrossTilesFlag[i] = val; } Bool getLoopFilterNotAcrossTilesFlag( Int i ) const { return m_loopFilterNotAcrossTilesFlag[i]; } Void setTileBoundariesAlignedFlag( Int i, Int j, Bool flag ) { m_tileBoundariesAlignedFlag[i][j] = flag; } Bool getTileBoundariesAlignedFlag( Int i, Int j ) const { return m_tileBoundariesAlignedFlag[i][j]; } Void setWppNotInUseFlag( Bool flag ) { m_wppNotInUseFlag = flag; } Bool getWppNotInUseFlag( ) const { return m_wppNotInUseFlag; } Void setWppInUseFlag( Int i, Bool flag ) { m_wppInUseFlag[i] = flag; } Bool getWppInUseFlag( Int i ) const { return m_wppInUseFlag[i]; } Void setSingleLayerForNonIrapFlag( Bool flag ) { m_singleLayerForNonIrapFlag = flag; } Bool getSingleLayerForNonIrapFlag( ) const { return m_singleLayerForNonIrapFlag; } Void setHigherLayerIrapSkipFlag( Bool flag ) { m_higherLayerIrapSkipFlag = flag; } Bool getHigherLayerIrapSkipFlag( ) const { return m_higherLayerIrapSkipFlag; } Void setIlpRestrictedRefLayersFlag( Bool flag ) { m_ilpRestrictedRefLayersFlag = flag; } Bool getIlpRestrictedRefLayersFlag( ) const { return m_ilpRestrictedRefLayersFlag; } Void setMinSpatialSegmentOffsetPlus1( Int i, Int j, Int val ) { m_minSpatialSegmentOffsetPlus1[i][j] = val; } Int getMinSpatialSegmentOffsetPlus1( Int i, Int j ) const { return m_minSpatialSegmentOffsetPlus1[i][j]; } Void setCtuBasedOffsetEnabledFlag( Int i, Int j, Bool flag ) { m_ctuBasedOffsetEnabledFlag[i][j] = flag; } Bool getCtuBasedOffsetEnabledFlag( Int i, Int j ) const { return m_ctuBasedOffsetEnabledFlag[i][j]; } Void setMinHorizontalCtuOffsetPlus1( Int i, Int j, Int val ) { m_minHorizontalCtuOffsetPlus1[i][j] = val; } Int getMinHorizontalCtuOffsetPlus1( Int i, Int j ) const { return m_minHorizontalCtuOffsetPlus1[i][j]; } Void setVpsVuiBspHrdPresentFlag( Bool flag ) { m_vpsVuiBspHrdPresentFlag = flag; } Bool getVpsVuiBspHrdPresentFlag( ) const { return m_vpsVuiBspHrdPresentFlag; } Void setVpsVuiBspHrdParameters( TComVpsVuiBspHrdParameters val) { m_vpsVuiBspHrdParameters = val; } const TComVpsVuiBspHrdParameters* getVpsVuiBspHrdParameters( ) const { return &m_vpsVuiBspHrdParameters; } Void setBaseLayerParameterSetCompatibilityFlag( Int i, Bool flag ) { m_baseLayerParameterSetCompatibilityFlag[i] = flag; } Bool getBaseLayerParameterSetCompatibilityFlag( Int i ) const { return m_baseLayerParameterSetCompatibilityFlag[i]; } }; class TComRepFormat { private: Bool m_chromaAndBitDepthVpsPresentFlag; Int m_chromaFormatVpsIdc; Bool m_separateColourPlaneVpsFlag; Int m_picWidthVpsInLumaSamples; Int m_picHeightVpsInLumaSamples; Int m_bitDepthVpsLumaMinus8; Int m_bitDepthVpsChromaMinus8; Bool m_conformanceWindowVpsFlag; Int m_confWinVpsLeftOffset; Int m_confWinVpsRightOffset; Int m_confWinVpsTopOffset; Int m_confWinVpsBottomOffset; public: TComRepFormat() { m_conformanceWindowVpsFlag = 0; m_confWinVpsLeftOffset = 0; m_confWinVpsRightOffset = 0; m_confWinVpsTopOffset = 0; m_confWinVpsBottomOffset = 0; }; Void setChromaAndBitDepthVpsPresentFlag( Bool flag ) { m_chromaAndBitDepthVpsPresentFlag = flag; } Bool getChromaAndBitDepthVpsPresentFlag( ) const { return m_chromaAndBitDepthVpsPresentFlag; } Void checkChromaAndBitDepthVpsPresentFlag( Int i ) const { assert( i != 0 || m_chromaAndBitDepthVpsPresentFlag ); } // The value of chroma_and_bit_depth_vps_present_flag of the first rep_format( ) syntax structure in the VPS shall be equal to 1. Void inferChromaAndBitDepth ( const TComRepFormat* prevRepFormat ); Void checkInferChromaAndBitDepth( const TComRepFormat* prevRepFormat ) const; Void setChromaFormatVpsIdc( Int val ) { m_chromaFormatVpsIdc = val; } Int getChromaFormatVpsIdc( ) const { return m_chromaFormatVpsIdc; } Void setSeparateColourPlaneVpsFlag( Bool flag ) { m_separateColourPlaneVpsFlag = flag; } Bool getSeparateColourPlaneVpsFlag( ) const { return m_separateColourPlaneVpsFlag; } Void setPicWidthVpsInLumaSamples( Int val ) { m_picWidthVpsInLumaSamples = val; } Int getPicWidthVpsInLumaSamples( ) const { return m_picWidthVpsInLumaSamples; } Void setPicHeightVpsInLumaSamples( Int val ) { m_picHeightVpsInLumaSamples = val; } Int getPicHeightVpsInLumaSamples( ) const { return m_picHeightVpsInLumaSamples; } Void setBitDepthVpsLumaMinus8( Int val ) { m_bitDepthVpsLumaMinus8 = val; } Int getBitDepthVpsLumaMinus8( ) const { return m_bitDepthVpsLumaMinus8; } Void setBitDepthVpsChromaMinus8( Int val ) { m_bitDepthVpsChromaMinus8 = val; } Int getBitDepthVpsChromaMinus8( ) const { return m_bitDepthVpsChromaMinus8; } Void setConformanceWindowVpsFlag( Bool flag ) { m_conformanceWindowVpsFlag = flag; } Bool getConformanceWindowVpsFlag( ) const { return m_conformanceWindowVpsFlag; } Void setConfWinVpsLeftOffset( Int val ) { m_confWinVpsLeftOffset = val; } Int getConfWinVpsLeftOffset( ) const { return m_confWinVpsLeftOffset; } Void setConfWinVpsRightOffset( Int val ) { m_confWinVpsRightOffset = val; } Int getConfWinVpsRightOffset( ) const { return m_confWinVpsRightOffset; } Void setConfWinVpsTopOffset( Int val ) { m_confWinVpsTopOffset = val; } Int getConfWinVpsTopOffset( ) const { return m_confWinVpsTopOffset; } Void setConfWinVpsBottomOffset( Int val ) { m_confWinVpsBottomOffset = val; } Int getConfWinVpsBottomOffset( ) const { return m_confWinVpsBottomOffset; } }; class TComDpbSize { private: BoolAry1d m_subLayerFlagInfoPresentFlag; BoolAry2d m_subLayerDpbInfoPresentFlag ; IntAry3d m_maxVpsDecPicBufferingMinus1; IntAry2d m_maxVpsNumReorderPics ; IntAry2d m_maxVpsLatencyIncreasePlus1 ; public: TComDpbSize() {}; Void init( Int numOutputLayerSets, Int maxNumLayerIds, Int maxNumSubLayers ); Void setSubLayerFlagInfoPresentFlag( Int i, Bool flag ) { m_subLayerFlagInfoPresentFlag[i] = flag; } Bool getSubLayerFlagInfoPresentFlag( Int i ) const { return m_subLayerFlagInfoPresentFlag[i]; } Void setSubLayerDpbInfoPresentFlag( Int i, Int j, Bool flag ) { m_subLayerDpbInfoPresentFlag[i][j] = flag; } Bool getSubLayerDpbInfoPresentFlag( Int i, Int j ) const { return m_subLayerDpbInfoPresentFlag[i][j]; } Void setMaxVpsDecPicBufferingMinus1( Int i, Int k, Int j, Int val ) { m_maxVpsDecPicBufferingMinus1[i][k][j] = val; } Int getMaxVpsDecPicBufferingMinus1( Int i, Int k, Int j ) const { assert( m_maxVpsDecPicBufferingMinus1[i][k][j] >= 0 ); return m_maxVpsDecPicBufferingMinus1[i][k][j]; } Void setMaxVpsNumReorderPics( Int i, Int j, Int val ) { m_maxVpsNumReorderPics[i][j] = val; } Int getMaxVpsNumReorderPics( Int i, Int j ) const { return m_maxVpsNumReorderPics[i][j]; } Void setMaxVpsLatencyIncreasePlus1( Int i, Int j, Int val ) { m_maxVpsLatencyIncreasePlus1[i][j] = val; } Int getMaxVpsLatencyIncreasePlus1( Int i, Int j ) const { return m_maxVpsLatencyIncreasePlus1[i][j]; } }; #endif class TComVPS { private: Int m_VPSId; #if NH_MV Bool m_vpsBaseLayerInternalFlag; Bool m_vpsBaseLayerAvailableFlag; #endif UInt m_uiMaxTLayers; #if NH_MV UInt m_uiMaxLayersMinus1; #else UInt m_uiMaxLayers; #endif Bool m_bTemporalIdNestingFlag; UInt m_numReorderPics[MAX_TLAYER]; UInt m_uiMaxDecPicBuffering[MAX_TLAYER]; UInt m_uiMaxLatencyIncrease[MAX_TLAYER]; // Really max latency increase plus 1 (value 0 expresses no limit) UInt m_numHrdParameters; #if NH_MV UInt m_maxLayerId; #else UInt m_maxNuhReservedZeroLayerId; #endif std::vector m_hrdParameters; std::vector m_hrdOpSetIdx; std::vector m_cprmsPresentFlag; #if NH_MV UInt m_vpsNumLayerSetsMinus1; Bool m_layerIdIncludedFlag[MAX_VPS_OP_SETS_PLUS1][MAX_VPS_NUH_LAYER_ID_PLUS1]; #else UInt m_numOpSets; Bool m_layerIdIncludedFlag[MAX_VPS_OP_SETS_PLUS1][MAX_VPS_NUH_RESERVED_ZERO_LAYER_ID_PLUS1]; #endif #if NH_MV TComPTL m_pcPTL[MAX_VPS_OP_SETS_PLUS1]; #else TComPTL m_pcPTL; #endif TimingInfo m_timingInfo; #if NH_MV Bool m_vpsExtensionFlag; /// VPS EXTENSION SYNTAX ELEMENTS Int m_vpsNonVuiExtensionLength; Bool m_splittingFlag; Bool m_scalabilityMaskFlag [MAX_NUM_SCALABILITY_TYPES]; Int m_dimensionIdLen [MAX_NUM_SCALABILITY_TYPES]; Bool m_vpsNuhLayerIdPresentFlag; Int m_layerIdInNuh [MAX_NUM_LAYER_IDS]; Int m_dimensionId [MAX_NUM_LAYER_IDS][MAX_NUM_SCALABILITY_TYPES]; Int m_viewIdLen; Int m_viewIdVal [MAX_NUM_LAYERS]; Bool m_directDependencyFlag [MAX_NUM_LAYER_IDS][MAX_NUM_LAYER_IDS]; Bool m_vpsSubLayersMaxMinus1PresentFlag; Int m_subLayersVpsMaxMinus1 [MAX_NUM_LAYERS]; Bool m_maxTidRefPresentFlag; Int m_maxTidIlRefPicsPlus1 [MAX_NUM_LAYERS][MAX_NUM_LAYERS]; Bool m_allRefLayersActiveFlag; Int m_vpsNumProfileTierLevelMinus1; Bool m_vpsProfilePresentFlag [MAX_VPS_OP_SETS_PLUS1]; Int m_numAddLayerSets; Int m_highestLayerIdxPlus1 [MAX_VPS_ADD_OUTPUT_LAYER_SETS][MAX_NUM_LAYERS]; Int m_numAddOlss; Int m_defaultOutputLayerIdc; Int m_layerSetIdxForOlsMinus1 [MAX_VPS_OUTPUTLAYER_SETS]; Bool m_outputLayerFlag [MAX_VPS_OUTPUTLAYER_SETS][MAX_VPS_NUH_LAYER_ID_PLUS1]; Int m_profileTierLevelIdx [MAX_VPS_OUTPUTLAYER_SETS ][MAX_NUM_LAYERS]; Bool m_altOutputLayerFlag [MAX_VPS_OUTPUTLAYER_SETS]; Bool m_repFormatIdxPresentFlag; Int m_vpsNumRepFormatsMinus1; Int m_vpsRepFormatIdx [MAX_NUM_LAYERS]; std::vector m_repFormat; Bool m_maxOneActiveRefLayerFlag; Bool m_vpsPocLsbAlignedFlag; Bool m_pocLsbNotPresentFlag [MAX_NUM_LAYERS]; TComDpbSize m_dpbSize; Int m_directDepTypeLenMinus2; Bool m_defaultDirectDependencyFlag; Int m_defaultDirectDependencyType; #if H_MV_HLS7_GEN Int m_directDependencyType [MAX_NUM_LAYERS] [MAX_NUM_LAYERS]; #endif Bool m_vpsVuiPresentFlag; TComVPSVUI m_vpsVUI; #if !H_MV_HLS7_GEN Int m_directDependencyType [MAX_NUM_LAYERS] [MAX_NUM_LAYERS]; #endif // VPS EXTENSION SEMANTICS VARIABLES Int m_layerIdInVps [MAX_NUM_LAYERS ]; Int m_dependencyFlag [MAX_NUM_LAYERS][MAX_NUM_LAYERS]; Int m_numViews; Int m_numDirectRefLayers [MAX_NUM_LAYERS]; Int m_idDirectRefLayer [MAX_NUM_LAYERS][MAX_NUM_LAYERS]; #if NH_3D Int m_numRefListLayers [MAX_NUM_LAYERS]; Int m_idRefListLayer [MAX_NUM_LAYERS][MAX_NUM_LAYERS]; #endif Int m_numRefLayers [MAX_NUM_LAYER_IDS]; Int m_idRefLayer [MAX_NUM_LAYERS][MAX_NUM_LAYERS]; Int m_numPredictedLayers [MAX_NUM_LAYERS ]; Int m_idPredictedLayer [MAX_NUM_LAYERS][MAX_NUM_LAYER_IDS]; Int m_numIndependentLayers; Int m_numLayersInTreePartition [MAX_NUM_LAYER_IDS]; Int m_treePartitionLayerIdList [MAX_NUM_LAYERS][MAX_NUM_LAYER_IDS]; Bool m_recursiveRefLayerFlag [MAX_NUM_LAYER_IDS][MAX_NUM_LAYER_IDS]; Int m_viewIndex [MAX_NUM_LAYERS ]; IntAry2d m_targetDecLayerIdLists; //[TargetOptLayerSetIdx][i] IntAry2d m_targetOptLayerIdLists; IntAry2d m_layerSetLayerIdList; Int m_numNecessaryLayers [MAX_VPS_OUTPUTLAYER_SETS]; Bool m_necessaryLayerFlag [MAX_VPS_OUTPUTLAYER_SETS][MAX_NUM_LAYERS]; Int xGetDimBitOffset( Int j ) const; Void xSetRefLayerFlags( Int currLayerId ); // VPS EXTENSION 2 SYNTAX ELEMENTS #if NH_3D IntAry1d m_numCp; IntAry2d m_cpRefVoi; BoolAry2d m_cpPresentFlag; Int m_cpPrecision; BoolAry1d m_cpInSliceSegmentHeaderFlag; IntAry3d m_aaaiCodedScale ; IntAry3d m_aaaiCodedOffset; IntAry1d m_viewOIdxList; BoolAry2d m_viewCompLayerPresentFlag; IntAry2d m_viewCompLayerId; #endif #endif public: TComVPS(); virtual ~TComVPS(); Void createHrdParamBuffer() { m_hrdParameters.resize(getNumHrdParameters()); m_hrdOpSetIdx.resize(getNumHrdParameters()); m_cprmsPresentFlag.resize(getNumHrdParameters()); } TComHRD* getHrdParameters( UInt i ) { return &m_hrdParameters[ i ]; } const TComHRD* getHrdParameters( UInt i ) const { return &m_hrdParameters[ i ]; } UInt getHrdOpSetIdx( UInt i ) const { return m_hrdOpSetIdx[ i ]; } Void setHrdOpSetIdx( UInt val, UInt i ) { m_hrdOpSetIdx[ i ] = val; } Bool getCprmsPresentFlag( UInt i ) const { return m_cprmsPresentFlag[ i ]; } Void setCprmsPresentFlag( Bool val, UInt i ) { m_cprmsPresentFlag[ i ] = val; } Int getVPSId() const { return m_VPSId; } Void setVPSId(Int i) { m_VPSId = i; } #if NH_MV Void setVpsBaseLayerInternalFlag( Bool flag ) { m_vpsBaseLayerInternalFlag = flag; } Bool getVpsBaseLayerInternalFlag( ) const { return m_vpsBaseLayerInternalFlag; } Void setVpsBaseLayerAvailableFlag( Bool flag ) { m_vpsBaseLayerAvailableFlag = flag; } Bool getVpsBaseLayerAvailableFlag( ) const { return m_vpsBaseLayerAvailableFlag; } #endif UInt getMaxTLayers() const { return m_uiMaxTLayers; } Void setMaxTLayers(UInt t) { m_uiMaxTLayers = t; } #if NH_MV UInt getMaxSubLayersMinus1() const { return m_uiMaxTLayers - 1; } // For consistency with draft spec Void setMaxSubLayersMinus1(UInt val) { m_uiMaxTLayers = (val + 1); } UInt getMaxLayersMinus1() const { return m_uiMaxLayersMinus1; } Void setMaxLayersMinus1(UInt l) { m_uiMaxLayersMinus1 = l; } #else UInt getMaxLayers() const { return m_uiMaxLayers; } Void setMaxLayers(UInt l) { m_uiMaxLayers = l; } #endif Bool getTemporalNestingFlag() const { return m_bTemporalIdNestingFlag; } Void setTemporalNestingFlag(Bool t) { m_bTemporalIdNestingFlag = t; } Void setNumReorderPics(UInt v, UInt tLayer) { m_numReorderPics[tLayer] = v; } UInt getNumReorderPics(UInt tLayer) const { return m_numReorderPics[tLayer]; } Void setMaxDecPicBuffering(UInt v, UInt tLayer) { assert(tLayer < MAX_TLAYER); m_uiMaxDecPicBuffering[tLayer] = v; } UInt getMaxDecPicBuffering(UInt tLayer) const { return m_uiMaxDecPicBuffering[tLayer]; } Void setMaxLatencyIncrease(UInt v, UInt tLayer) { m_uiMaxLatencyIncrease[tLayer] = v; } UInt getMaxLatencyIncrease(UInt tLayer) const { return m_uiMaxLatencyIncrease[tLayer]; } UInt getNumHrdParameters() const { return m_numHrdParameters; } Void setNumHrdParameters(UInt v) { m_numHrdParameters = v; } #if NH_MV UInt getVpsMaxLayerId() const { return m_maxLayerId; } Void setVpsMaxLayerId(UInt v) { m_maxLayerId = v; } UInt getVpsNumLayerSetsMinus1() const { return m_vpsNumLayerSetsMinus1; } Void setVpsNumLayerSetsMinus1(UInt v) { m_vpsNumLayerSetsMinus1 = v; } #else UInt getMaxNuhReservedZeroLayerId() const { return m_maxNuhReservedZeroLayerId; } Void setMaxNuhReservedZeroLayerId(UInt v) { m_maxNuhReservedZeroLayerId = v; } UInt getMaxOpSets() const { return m_numOpSets; } Void setMaxOpSets(UInt v) { m_numOpSets = v; } #endif Bool getLayerIdIncludedFlag(UInt opsIdx, UInt id) const { return m_layerIdIncludedFlag[opsIdx][id]; } Void setLayerIdIncludedFlag(Bool v, UInt opsIdx, UInt id) { m_layerIdIncludedFlag[opsIdx][id] = v; } #if NH_MV TComPTL* getPTL( Int idx = 0 ) { return &m_pcPTL[idx]; } const TComPTL* getPTL( Int idx = 0 ) const { return &m_pcPTL[idx]; } #else TComPTL* getPTL() { return &m_pcPTL; } const TComPTL* getPTL() const { return &m_pcPTL; } #endif TimingInfo* getTimingInfo() { return &m_timingInfo; } const TimingInfo* getTimingInfo() const { return &m_timingInfo; } #if NH_MV Void setVpsExtensionFlag( Bool flag ) { m_vpsExtensionFlag = flag; } Bool getVpsExtensionFlag( ) const { return m_vpsExtensionFlag; } Void setVpsNonVuiExtensionLength( Int val ) { m_vpsNonVuiExtensionLength = val; } Int getVpsNonVuiExtensionLength( ) const { return m_vpsNonVuiExtensionLength; } // VPS Extension Void setSplittingFlag( Bool val ) { m_splittingFlag = val; } Bool getSplittingFlag() const { return m_splittingFlag; } Void setScalabilityMaskFlag( UInt val ); Void setScalabilityMaskFlag( Int scalType, Bool val ) { m_scalabilityMaskFlag[scalType] = val; } Bool getScalabilityMaskFlag( Int scalType ) const { return m_scalabilityMaskFlag[scalType]; } Int getNumScalabilityTypes( ) const; Void setDimensionIdLen( Int sIdx, Int val ) { m_dimensionIdLen[sIdx] = val; } Int getDimensionIdLen( Int sIdx ) const { assert( m_dimensionIdLen[sIdx] > 0) ; return m_dimensionIdLen[sIdx]; } Void setVpsNuhLayerIdPresentFlag( Bool val ) { m_vpsNuhLayerIdPresentFlag = val; } Bool getVpsNuhLayerIdPresentFlag() const { return m_vpsNuhLayerIdPresentFlag; } Void setLayerIdInNuh( Int layerIdInVps, Int val ) { m_layerIdInNuh[layerIdInVps] = val; } Int getLayerIdInNuh( Int layerIdInVps ) const { assert( m_layerIdInNuh[layerIdInVps] >= 0 ); return m_layerIdInNuh[layerIdInVps]; } Bool nuhLayerIdIncluded( Int layerIdinNuh ) const { return ( m_layerIdInVps[ layerIdinNuh ] > 0 ); } Void setDimensionId( Int layerIdInVps, Int scalIdx, Int val ) { m_dimensionId[layerIdInVps][scalIdx] = val; } Int getDimensionId( Int layerIdInVps, Int scalIdx ) const { return m_dimensionId[layerIdInVps][scalIdx]; } Void setViewIdLen( Int val ) { m_viewIdLen = val; } Int getViewIdLen( ) const { return m_viewIdLen; } Void setViewIdVal( Int viewOrderIndex, Int val ) { m_viewIdVal[viewOrderIndex] = val; } Int getViewIdVal( Int viewOrderIndex ) const { return m_viewIdVal[viewOrderIndex]; } Void setDirectDependencyFlag( Int depLayeridInVps, Int refLayeridInVps, Bool val ) { m_directDependencyFlag[depLayeridInVps][refLayeridInVps] = val; } Bool getDirectDependencyFlag( Int depLayeridInVps, Int refLayeridInVps ) const { return m_directDependencyFlag[depLayeridInVps][refLayeridInVps]; } Void setVpsSubLayersMaxMinus1PresentFlag( Bool flag ) { m_vpsSubLayersMaxMinus1PresentFlag = flag; } Bool getVpsSubLayersMaxMinus1PresentFlag( ) const { return m_vpsSubLayersMaxMinus1PresentFlag; } Void setSubLayersVpsMaxMinus1( Int i, Int val ) { m_subLayersVpsMaxMinus1[i] = val; } Int getSubLayersVpsMaxMinus1( Int i ) const { return m_subLayersVpsMaxMinus1[i]; } Void checkSubLayersVpsMaxMinus1( Int i ) const { assert( m_subLayersVpsMaxMinus1[i] >= 0 && m_subLayersVpsMaxMinus1[i] <= m_uiMaxTLayers - 1 ); } Void setMaxTidRefPresentFlag( Bool flag ) { m_maxTidRefPresentFlag = flag; } Bool getMaxTidRefPresentFlag( ) const { return m_maxTidRefPresentFlag; } Void setMaxTidIlRefPicsPlus1( Int i, Int j, Int val ) { m_maxTidIlRefPicsPlus1[i][j] = val; } Int getMaxTidIlRefPicsPlus1( Int i, Int j ) const { return m_maxTidIlRefPicsPlus1[i][j]; } Void setAllRefLayersActiveFlag( Bool flag ) { m_allRefLayersActiveFlag = flag; } Bool getAllRefLayersActiveFlag( ) const { return m_allRefLayersActiveFlag; } Void setVpsNumProfileTierLevelMinus1( Int val ) { m_vpsNumProfileTierLevelMinus1 = val; } Int getVpsNumProfileTierLevelMinus1( ) const { return m_vpsNumProfileTierLevelMinus1; } Void setVpsProfilePresentFlag( Int idx, Bool val ) { m_vpsProfilePresentFlag[idx] = val; } Bool getVpsProfilePresentFlag( Int idx ) const { return m_vpsProfilePresentFlag[idx]; } Void setNumAddLayerSets( Int val ) { m_numAddLayerSets = val; } Int getNumAddLayerSets( ) const { return m_numAddLayerSets; } Void setHighestLayerIdxPlus1( Int i, Int j, Int val ) { m_highestLayerIdxPlus1[i][j] = val; } Int getHighestLayerIdxPlus1( Int i, Int j ) const { return m_highestLayerIdxPlus1[i][j]; } Void setNumAddOlss( Int val ) { m_numAddOlss = val; } Int getNumAddOlss( ) const { return m_numAddOlss; } Void setDefaultOutputLayerIdc( Int val ) { m_defaultOutputLayerIdc = val; } Int getDefaultOutputLayerIdc( ) const { return m_defaultOutputLayerIdc; } Void setLayerSetIdxForOlsMinus1( Int outLayerSetIdx, Int val ) { m_layerSetIdxForOlsMinus1[ outLayerSetIdx ] = val; } Int getLayerSetIdxForOlsMinus1( Int outLayerSetIdx ) const { return m_layerSetIdxForOlsMinus1[ outLayerSetIdx ]; } #if NH_MV_FIX_TICKET_105 Int getLayerSetIdxForOlsMinus1Len( Int outLayerSetIdx ) const { return gCeilLog2( getNumLayerSets() - 1 ); } #else Int getLayerSetIdxForOlsMinus1Len( Int outLayerSetIdx ) const { return gCeilLog2( getNumLayerSets() ); } #endif Void setOutputLayerFlag( Int outLayerSetIdx, Int i, Bool flag ) { m_outputLayerFlag[ outLayerSetIdx ][ i ] = flag; } Bool getOutputLayerFlag( Int outLayerSetIdx, Int i ) const { return m_outputLayerFlag[ outLayerSetIdx ][ i ]; } Bool inferOutputLayerFlag( Int i, Int j ) const; Void setProfileTierLevelIdx( Int i, Int j, Int val ) { m_profileTierLevelIdx[ i ][ j ] = val; } Int getProfileTierLevelIdx( Int i, Int j ) const { return m_profileTierLevelIdx[ i ][ j ]; } Int inferProfileTierLevelIdx( Int i, Int j ) const; Void setAltOutputLayerFlag( Int i, Bool flag ) { m_altOutputLayerFlag[i] = flag; } Bool getAltOutputLayerFlag( Int i ) const { return m_altOutputLayerFlag[i]; } Void setRepFormatIdxPresentFlag( Bool flag ) { m_repFormatIdxPresentFlag = flag; } Bool getRepFormatIdxPresentFlag( ) const { return m_repFormatIdxPresentFlag; } Void setVpsNumRepFormatsMinus1( Int val ) { m_vpsNumRepFormatsMinus1 = val; } Int getVpsNumRepFormatsMinus1( ) const { return m_vpsNumRepFormatsMinus1; } Void setVpsRepFormatIdx( Int i, Int val ) { m_vpsRepFormatIdx[i] = val; } Int getVpsRepFormatIdx( Int i ) const { return m_vpsRepFormatIdx[i]; } Int inferVpsRepFormatIdx( Int i ) const { return std::min( i, getVpsNumRepFormatsMinus1() ); } Void setRepFormat( Int i, TComRepFormat val ) { m_repFormat[i] = val; } Void setRepFormat( std::vector val ) { m_repFormat = val; } const TComRepFormat* getRepFormat( Int i ) const { return &m_repFormat[i]; } Void setMaxOneActiveRefLayerFlag( Bool flag) { m_maxOneActiveRefLayerFlag = flag; } Bool getMaxOneActiveRefLayerFlag( ) const { return m_maxOneActiveRefLayerFlag; } Void setVpsPocLsbAlignedFlag( Bool flag ) { m_vpsPocLsbAlignedFlag = flag; } Bool getVpsPocLsbAlignedFlag( ) const { return m_vpsPocLsbAlignedFlag; } Void setDpbSize( TComDpbSize val ) { m_dpbSize = val; } const TComDpbSize * getDpbSize( ) const { return &m_dpbSize; } Void setPocLsbNotPresentFlag( Int i, Bool flag ) { m_pocLsbNotPresentFlag[i] = flag; } Bool getPocLsbNotPresentFlag( Int i ) const { return m_pocLsbNotPresentFlag[i]; } Void setDirectDepTypeLenMinus2( Int val) { m_directDepTypeLenMinus2 = val; } Int getDirectDepTypeLenMinus2( ) const { return m_directDepTypeLenMinus2; } Void setDefaultDirectDependencyFlag( Bool flag ) { m_defaultDirectDependencyFlag = flag; } Bool getDefaultDirectDependencyFlag( ) const { return m_defaultDirectDependencyFlag; } Void setDefaultDirectDependencyType( Int val ) { m_defaultDirectDependencyType = val; } Int getDefaultDirectDependencyType( ) const { return m_defaultDirectDependencyType; } Void setDirectDependencyType( Int depLayeridInVps, Int refLayeridInVps, Int val) { m_directDependencyType[ depLayeridInVps ][ refLayeridInVps ] = val; } Int getDirectDependencyType( Int depLayeridInVps, Int refLayeridInVps) const { return m_directDependencyType[ depLayeridInVps ][ refLayeridInVps ]; } Void setVpsVuiPresentFlag( Bool flag ) { m_vpsVuiPresentFlag = flag; } Bool getVpsVuiPresentFlag( ) const { return m_vpsVuiPresentFlag; } const TComVPSVUI* getVPSVUI( ) const { return &m_vpsVUI; } Void setVPSVUI( TComVPSVUI val ) { m_vpsVUI = val; } // VPS EXTENSION SEMANTICS VARIABLES Void setLayerIdInVps( Int layerIdInNuh, Int val ) { m_layerIdInVps[layerIdInNuh] = val; } Int getLayerIdInVps( Int layerIdInNuh ) const { assert( m_layerIdInVps[layerIdInNuh] >= 0 ); return m_layerIdInVps[layerIdInNuh]; } Int getScalabilityId ( Int layerIdInVps, ScalabilityType scalType ) const ; Int getViewId ( Int layerIdInNuh ) const { return m_viewIdVal[ getViewIndex( layerIdInNuh )]; } Void setRefLayers(); // To be aligned with spec naming, getViewIndex will be removed in future versions Int getViewOrderIdx ( Int layerIdInNuh ) const { return getScalabilityId( getLayerIdInVps(layerIdInNuh), VIEW_ORDER_INDEX ); } Int getViewIndex ( Int layerIdInNuh ) const { return getViewOrderIdx( layerIdInNuh ); } Int getAuxId ( Int layerIdInNuh ) const { return getScalabilityId( getLayerIdInVps(layerIdInNuh), AUX_ID ); } Int getDependencyId ( Int layerIdInNuh ) const { return getScalabilityId( getLayerIdInVps(layerIdInNuh), DEPENDENCY_ID ); } Int getNumViews() const { return m_numViews; } Void initNumViews(); #if NH_3D Void initViewCompLayer( ); Int getViewOIdxList( Int i ) const { return m_viewOIdxList[i]; } std::vector getViewOIdxList( ) const { return m_viewOIdxList; } Int getVoiInVps( Int viewOIdx ) const; Bool getViewCompLayerPresentFlag (Int i, Bool d ) const { return m_viewCompLayerPresentFlag[ getVoiInVps(i) ][d]; } Bool getViewCompLayerId (Int i, Bool d ) const { return m_viewCompLayerId [ getVoiInVps(i) ][d]; } #endif Bool getDependencyFlag( Int i, Int j ) const { return m_dependencyFlag[i][j]; } Int getNumDirectRefLayers( Int layerIdInNuh ) const { return m_numDirectRefLayers[ layerIdInNuh ]; }; #if NH_3D Int getNumRefListLayers( Int layerIdInNuh ) const { return m_numRefListLayers[ layerIdInNuh ]; }; #endif Int getNumRefLayers ( Int i ) const { return m_numRefLayers[i]; } Int getNumPredictedLayers ( Int i ) const { return m_numPredictedLayers[i]; } Int getIdRefLayer ( Int i, Int j ) const { assert( j >= 0 && j < getNumRefLayers ( i )); return m_idRefLayer [i][j]; } Int getIdPredictedLayer ( Int i, Int j ) const { assert( j >= 0 && j < getNumPredictedLayers( i )); return m_idPredictedLayer[i][j]; } Int getIdDirectRefLayer ( Int i, Int j ) const { assert( j >= 0 && j < getNumDirectRefLayers( i )); return m_idDirectRefLayer[i][j]; } #if NH_3D Int getIdRefListLayer ( Int i, Int j ) const { assert( j >= 0 && j < getNumRefListLayers ( i )); return m_idRefListLayer[i][j]; } #endif Int getNumIndependentLayers ( ) const { return m_numIndependentLayers; } Int getNumLayersInTreePartition( Int i ) const { return m_numLayersInTreePartition[i]; } Int getTreePartitionLayerIdList( Int i, Int j ) const { return m_treePartitionLayerIdList[i][j]; } Bool getRecursiveRefLayerFlag ( Int i, Int j ) const { return m_recursiveRefLayerFlag[i][j]; } Int getNumLayerSets( ) const { return getVpsNumLayerSetsMinus1() + 1 + getNumAddLayerSets(); }; Int getFirstAddLayerSetIdx() const { return getVpsNumLayerSetsMinus1() + 1; } Int getLastAddLayerSetIdx() const { return getFirstAddLayerSetIdx() + getNumAddLayerSets() - 1; } Bool checkVPSExtensionSyntax(); Int scalTypeToScalIdx ( ScalabilityType scalType ) const ; Int getProfileTierLevelIdxLen() const { return gCeilLog2( getVpsNumProfileTierLevelMinus1() + 1 ); }; Int getVpsRepFormatIdxLen() const { return gCeilLog2( getVpsNumRepFormatsMinus1() + 1 ); }; Int getNumLayersInIdList ( Int lsIdx ) const; Int getLayerSetLayerIdList(Int lsIdx, Int j ) const { return m_layerSetLayerIdList[ lsIdx ][ j ]; }; Int getNumOutputLayerSets() const; Bool isOutputLayer( Int outLayerSetIdx, Int layerIdInNuh ) const; Void deriveLayerSetLayerIdList(); Int olsIdxToLsIdx( Int i ) const { return ( i < getNumLayerSets() ) ? i : getLayerSetIdxForOlsMinus1( i ) + 1 ; }; Void initTargetLayerIdLists ( ); Void deriveTargetLayerIdList ( Int i ); std::vector getTargetDecLayerIdList( Int targetDecLayerSetIdx ) const { return m_targetDecLayerIdLists[targetDecLayerSetIdx]; }; std::vector getTargetOptLayerIdList( Int targetOptLayerSetIdx ) const { return m_targetOptLayerIdLists[targetOptLayerSetIdx]; }; Int getNumOutputLayersInOutputLayerSet( Int i ) const { return (Int) getTargetOptLayerIdList( i ).size(); }; Int getOlsHighestOutputLayerId( Int i ) const { return getTargetOptLayerIdList( i ).back(); }; Void deriveAddLayerSetLayerIdList( Int i ); Void deriveNecessaryLayerFlags( Int olsIdx ); Int getNecessaryLayerFlag( Int i, Int j ) const { AOF( i >= 0 && i < getNumOutputLayerSets() ); AOF( j >= 0 && j < getNumLayersInIdList( olsIdxToLsIdx( i ) ) ); return m_necessaryLayerFlag[i][j]; }; Int getMaxSubLayersInLayerSetMinus1( Int i ) const; Int getHighestLayerIdxPlus1Len( Int j ) const { return gCeilLog2( getNumLayersInTreePartition( j ) + 1 ); }; Bool getAltOutputLayerFlagVar( Int i ) const; // inference Int inferDimensionId ( Int i, Int j ) const; Int inferLastDimsionIdLenMinus1() const; // helpers Void printPTL() const; Void printLayerDependencies() const; Void printScalabilityId() const; Void printLayerSets() const; /// VPS EXTENSION 2 SYNTAX ELEMENTS Int getDepthId ( Int layerIdInNuh) const { return getScalabilityId( getLayerIdInVps(layerIdInNuh), DEPTH_ID ); } #if NH_3D Bool getVpsDepthFlag ( Int layerIdInNuh) const { return (getDepthId( layerIdInNuh ) > 0); } Int getLayerIdInNuh ( Int viewIndex, Bool depthFlag ) const; Void createCamPars ( Int iNumViews ); Void initCamParaVPS ( Int vOIdxInVps, Int numCp, Bool cpInSliceSegmentHeaderFlag, Int* cpRefVoi, Int** aaiScale, Int** aaiOffset ); Void setCpPrecision ( Int val ) { m_cpPrecision = val; } Int getCpPrecision ( ) const { return m_cpPrecision; } Void setNumCp ( Int i, Int val ) { m_numCp[i] = val; } Int getNumCp ( Int i ) const { return m_numCp[i]; } Void setCpRefVoi ( Int i, Int m, Int val ) { m_cpRefVoi[i][m] = val; } Int getCpRefVoi ( Int i, Int m ) const { return m_cpRefVoi[i][m]; } Void setCpInSliceSegmentHeaderFlag( Int i, Bool flag ) { m_cpInSliceSegmentHeaderFlag[i] = flag; } Bool getCpInSliceSegmentHeaderFlag( Int i ) const { return m_cpInSliceSegmentHeaderFlag[i]; } Void setVpsCpScale ( Int i, Int j, Int val ) { m_aaaiCodedScale [i][0][j] = val; } Int getVpsCpScale ( Int i, Int j ) const { return m_aaaiCodedScale[i][0][j]; } Void setVpsCpOff ( Int i, Int j, Int val ) { m_aaaiCodedOffset[i][0][j] = val; } Int getVpsCpOff ( Int i, Int j ) const { return m_aaaiCodedOffset[i][0][j]; } Void setVpsCpInvScale ( Int i, Int j, Int val ) { m_aaaiCodedScale[i][1][j] = val; } Int getVpsCpInvScale ( Int i, Int j ) const { return m_aaaiCodedScale[i][1][j]; } Void setVpsCpInvOff ( Int i, Int j, Int val ) { m_aaaiCodedOffset[i][1][j] = val; } Int getVpsCpInvOff ( Int i, Int j ) const { return m_aaaiCodedOffset[i][1][j]; } // Derived Void deriveCpPresentFlag ( ); Void setCpPresentFlag ( Int i, Int m, Bool flag ) { m_cpPresentFlag[i][m] = flag; } Bool getCpPresentFlag ( Int i, Int m ) const { return m_cpPresentFlag[i][m]; } const IntAry1d& getCodedScale ( Int viewIndex ) const { return m_aaaiCodedScale [viewIndex][0]; } const IntAry1d& getCodedOffset ( Int viewIndex ) const { return m_aaaiCodedOffset[viewIndex][0]; } const IntAry1d& getInvCodedScale ( Int viewIndex ) const { return m_aaaiCodedScale [viewIndex][1]; } const IntAry1d& getInvCodedOffset ( Int viewIndex ) const { return m_aaaiCodedOffset[viewIndex][1]; } #endif template Void xPrintArray( const Char* name, Int numElemDim1, U idx, S numElemDim2, T vec, Bool printNumber, Bool printIdx = true ) const { std::cout << std::endl; for (Int j = 0; j < numElemDim1; j++ ) { std::cout << std::right << std::setw(27) << name; if (printIdx) { std::cout << "[" << std::right << std::setw(3) << idx[ j ] << "]" ; } else { std::cout << std::right << std::setw(5) << " "; } if ( printNumber ) { std::cout << " (" << std::right << std::setw(3) << numElemDim2[j] << ")"; } else { std::cout << std::right << std::setw(6) << " "; } std::cout << ":"; for (Int i = 0; i < numElemDim2[j]; i++) { std::cout << std::right << std::setw(3) << vec[j][i]; } std::cout << std::endl; } } template Void xPrintArray( const char* name, Int numElem, T vec, Bool printNumber ) const { std::vector numElemDim2(1, numElem); std::vector vec2 (1, vec ); std::vector idx2 (0); xPrintArray( name, 1, idx2, numElemDim2, vec2, printNumber, false ); } #endif }; #if NH_3D_DLT class TComDLT { private: Bool m_bDltPresentFlag; Bool m_bUseDLTFlag [ MAX_NUM_LAYERS ]; Bool m_bInterViewDltPredEnableFlag [ MAX_NUM_LAYERS ]; Bool m_bDltBitMapRepFlag [ MAX_NUM_LAYERS ]; Int m_iNumDepthmapValues [ MAX_NUM_LAYERS ]; std::vector m_iDepthValue2Idx [ MAX_NUM_LAYERS ]; std::vector m_iIdx2DepthValue [ MAX_NUM_LAYERS ]; Int m_iNumDepthViews; UInt m_uiDepthViewBitDepth; // mapping Int m_iDepthIdxToLayerId [ MAX_NUM_LAYERS ]; public: TComDLT(); ~TComDLT(); Int getDepthIdxToLayerId(Int depthIdx) const { return m_iDepthIdxToLayerId[depthIdx]; } Void setDepthIdxToLayerId(Int depthIdx, Int layerId) { m_iDepthIdxToLayerId[depthIdx] = layerId; } Bool getDltPresentFlag () const { return m_bDltPresentFlag; } Void setDltPresentFlag ( Bool b ) { m_bDltPresentFlag = b; } Bool getUseDLTFlag ( Int layerIdInVps ) const { return m_bUseDLTFlag[ layerIdInVps ]; } Void setUseDLTFlag ( Int layerIdInVps, Bool b ) { m_bUseDLTFlag[ layerIdInVps ] = b; } Bool getInterViewDltPredEnableFlag( Int layerIdInVps ) const { return m_bInterViewDltPredEnableFlag[ layerIdInVps ]; } Void setInterViewDltPredEnableFlag( Int layerIdInVps, Bool b ) { m_bInterViewDltPredEnableFlag[ layerIdInVps ] = b; } Bool getUseBitmapRep ( Int layerIdInVps ) const { return m_bDltBitMapRepFlag[ layerIdInVps ]; } Void setUseBitmapRep ( Int layerIdInVps, Bool b ) { m_bDltBitMapRepFlag[ layerIdInVps ] = b; } Void setNumDepthViews ( Int n ) { m_iNumDepthViews = n; } Int getNumDepthViews () const { return m_iNumDepthViews; } Void setDepthViewBitDepth( UInt n ) { m_uiDepthViewBitDepth = n; } UInt getDepthViewBitDepth() const { return m_uiDepthViewBitDepth; } Int getNumDepthValues( Int layerIdInVps ) const { return getUseDLTFlag(layerIdInVps)?m_iNumDepthmapValues[layerIdInVps]:(1 << m_uiDepthViewBitDepth); } Int depthValue2idx( Int layerIdInVps, Pel value ) const { return getUseDLTFlag(layerIdInVps)?m_iDepthValue2Idx[layerIdInVps][value]:value; } Pel idx2DepthValue( Int layerIdInVps, UInt uiIdx ) const { return getUseDLTFlag(layerIdInVps)?m_iIdx2DepthValue[layerIdInVps][ClipBD(uiIdx,m_uiDepthViewBitDepth)]:uiIdx; } Void setDepthLUTs( Int layerIdInVps, std::vector idx2DepthValue, Int iNumDepthValues = 0 ); std::vector idx2DepthValue( Int layerIdInVps ) const { return m_iIdx2DepthValue[layerIdInVps]; } Void getDeltaDLT( Int layerIdInVps, std::vector piDLTInRef, UInt uiDLTInRefNum, std::vector& riDeltaDLTOut, UInt& ruiDeltaDLTOutNum ) const; Void setDeltaDLT( Int layerIdInVps, std::vector piDLTInRef, UInt uiDLTInRefNum, std::vector piDeltaDLTIn, UInt uiDeltaDLTInNum ); }; #endif class Window { private: Bool m_enabledFlag; Int m_winLeftOffset; Int m_winRightOffset; Int m_winTopOffset; Int m_winBottomOffset; #if NH_MV Bool m_scaledFlag; #endif public: Window() : m_enabledFlag (false) , m_winLeftOffset (0) , m_winRightOffset (0) , m_winTopOffset (0) , m_winBottomOffset(0) #if NH_MV , m_scaledFlag(true) #endif { } Bool getWindowEnabledFlag() const { return m_enabledFlag; } Int getWindowLeftOffset() const { return m_enabledFlag ? m_winLeftOffset : 0; } Void setWindowLeftOffset(Int val) { m_winLeftOffset = val; m_enabledFlag = true; } Int getWindowRightOffset() const { return m_enabledFlag ? m_winRightOffset : 0; } Void setWindowRightOffset(Int val) { m_winRightOffset = val; m_enabledFlag = true; } Int getWindowTopOffset() const { return m_enabledFlag ? m_winTopOffset : 0; } Void setWindowTopOffset(Int val) { m_winTopOffset = val; m_enabledFlag = true; } Int getWindowBottomOffset() const { return m_enabledFlag ? m_winBottomOffset: 0; } Void setWindowBottomOffset(Int val) { m_winBottomOffset = val; m_enabledFlag = true; } #if NH_MV Void setScaledFlag(Bool flag) { m_scaledFlag = flag; } Bool getScaledFlag() const { return m_scaledFlag; } Void scaleOffsets( Int scal ); #endif Void setWindow(Int offsetLeft, Int offsetLRight, Int offsetLTop, Int offsetLBottom) { m_enabledFlag = true; m_winLeftOffset = offsetLeft; m_winRightOffset = offsetLRight; m_winTopOffset = offsetLTop; m_winBottomOffset = offsetLBottom; } }; class TComVUI { private: Bool m_aspectRatioInfoPresentFlag; Int m_aspectRatioIdc; Int m_sarWidth; Int m_sarHeight; Bool m_overscanInfoPresentFlag; Bool m_overscanAppropriateFlag; Bool m_videoSignalTypePresentFlag; Int m_videoFormat; Bool m_videoFullRangeFlag; Bool m_colourDescriptionPresentFlag; Int m_colourPrimaries; Int m_transferCharacteristics; Int m_matrixCoefficients; Bool m_chromaLocInfoPresentFlag; Int m_chromaSampleLocTypeTopField; Int m_chromaSampleLocTypeBottomField; Bool m_neutralChromaIndicationFlag; Bool m_fieldSeqFlag; Window m_defaultDisplayWindow; Bool m_frameFieldInfoPresentFlag; Bool m_hrdParametersPresentFlag; Bool m_bitstreamRestrictionFlag; Bool m_tilesFixedStructureFlag; Bool m_motionVectorsOverPicBoundariesFlag; Bool m_restrictedRefPicListsFlag; Int m_minSpatialSegmentationIdc; Int m_maxBytesPerPicDenom; Int m_maxBitsPerMinCuDenom; Int m_log2MaxMvLengthHorizontal; Int m_log2MaxMvLengthVertical; TComHRD m_hrdParameters; TimingInfo m_timingInfo; public: TComVUI() : m_aspectRatioInfoPresentFlag (false) //TODO: This initialiser list contains magic numbers , m_aspectRatioIdc (0) , m_sarWidth (0) , m_sarHeight (0) , m_overscanInfoPresentFlag (false) , m_overscanAppropriateFlag (false) , m_videoSignalTypePresentFlag (false) , m_videoFormat (5) , m_videoFullRangeFlag (false) , m_colourDescriptionPresentFlag (false) , m_colourPrimaries (2) , m_transferCharacteristics (2) , m_matrixCoefficients (2) , m_chromaLocInfoPresentFlag (false) , m_chromaSampleLocTypeTopField (0) , m_chromaSampleLocTypeBottomField (0) , m_neutralChromaIndicationFlag (false) , m_fieldSeqFlag (false) , m_frameFieldInfoPresentFlag (false) , m_hrdParametersPresentFlag (false) , m_bitstreamRestrictionFlag (false) , m_tilesFixedStructureFlag (false) , m_motionVectorsOverPicBoundariesFlag(true) , m_restrictedRefPicListsFlag (1) , m_minSpatialSegmentationIdc (0) , m_maxBytesPerPicDenom (2) , m_maxBitsPerMinCuDenom (1) , m_log2MaxMvLengthHorizontal (15) , m_log2MaxMvLengthVertical (15) {} virtual ~TComVUI() {} Bool getAspectRatioInfoPresentFlag() const { return m_aspectRatioInfoPresentFlag; } Void setAspectRatioInfoPresentFlag(Bool i) { m_aspectRatioInfoPresentFlag = i; } Int getAspectRatioIdc() const { return m_aspectRatioIdc; } Void setAspectRatioIdc(Int i) { m_aspectRatioIdc = i; } Int getSarWidth() const { return m_sarWidth; } Void setSarWidth(Int i) { m_sarWidth = i; } Int getSarHeight() const { return m_sarHeight; } Void setSarHeight(Int i) { m_sarHeight = i; } Bool getOverscanInfoPresentFlag() const { return m_overscanInfoPresentFlag; } Void setOverscanInfoPresentFlag(Bool i) { m_overscanInfoPresentFlag = i; } Bool getOverscanAppropriateFlag() const { return m_overscanAppropriateFlag; } Void setOverscanAppropriateFlag(Bool i) { m_overscanAppropriateFlag = i; } Bool getVideoSignalTypePresentFlag() const { return m_videoSignalTypePresentFlag; } Void setVideoSignalTypePresentFlag(Bool i) { m_videoSignalTypePresentFlag = i; } Int getVideoFormat() const { return m_videoFormat; } Void setVideoFormat(Int i) { m_videoFormat = i; } Bool getVideoFullRangeFlag() const { return m_videoFullRangeFlag; } Void setVideoFullRangeFlag(Bool i) { m_videoFullRangeFlag = i; } Bool getColourDescriptionPresentFlag() const { return m_colourDescriptionPresentFlag; } Void setColourDescriptionPresentFlag(Bool i) { m_colourDescriptionPresentFlag = i; } Int getColourPrimaries() const { return m_colourPrimaries; } Void setColourPrimaries(Int i) { m_colourPrimaries = i; } Int getTransferCharacteristics() const { return m_transferCharacteristics; } Void setTransferCharacteristics(Int i) { m_transferCharacteristics = i; } Int getMatrixCoefficients() const { return m_matrixCoefficients; } Void setMatrixCoefficients(Int i) { m_matrixCoefficients = i; } Bool getChromaLocInfoPresentFlag() const { return m_chromaLocInfoPresentFlag; } Void setChromaLocInfoPresentFlag(Bool i) { m_chromaLocInfoPresentFlag = i; } Int getChromaSampleLocTypeTopField() const { return m_chromaSampleLocTypeTopField; } Void setChromaSampleLocTypeTopField(Int i) { m_chromaSampleLocTypeTopField = i; } Int getChromaSampleLocTypeBottomField() const { return m_chromaSampleLocTypeBottomField; } Void setChromaSampleLocTypeBottomField(Int i) { m_chromaSampleLocTypeBottomField = i; } Bool getNeutralChromaIndicationFlag() const { return m_neutralChromaIndicationFlag; } Void setNeutralChromaIndicationFlag(Bool i) { m_neutralChromaIndicationFlag = i; } Bool getFieldSeqFlag() const { return m_fieldSeqFlag; } Void setFieldSeqFlag(Bool i) { m_fieldSeqFlag = i; } Bool getFrameFieldInfoPresentFlag() const { return m_frameFieldInfoPresentFlag; } Void setFrameFieldInfoPresentFlag(Bool i) { m_frameFieldInfoPresentFlag = i; } Window& getDefaultDisplayWindow() { return m_defaultDisplayWindow; } const Window& getDefaultDisplayWindow() const { return m_defaultDisplayWindow; } Void setDefaultDisplayWindow(Window& defaultDisplayWindow ) { m_defaultDisplayWindow = defaultDisplayWindow; } Bool getHrdParametersPresentFlag() const { return m_hrdParametersPresentFlag; } Void setHrdParametersPresentFlag(Bool i) { m_hrdParametersPresentFlag = i; } Bool getBitstreamRestrictionFlag() const { return m_bitstreamRestrictionFlag; } Void setBitstreamRestrictionFlag(Bool i) { m_bitstreamRestrictionFlag = i; } Bool getTilesFixedStructureFlag() const { return m_tilesFixedStructureFlag; } Void setTilesFixedStructureFlag(Bool i) { m_tilesFixedStructureFlag = i; } Bool getMotionVectorsOverPicBoundariesFlag() const { return m_motionVectorsOverPicBoundariesFlag; } Void setMotionVectorsOverPicBoundariesFlag(Bool i) { m_motionVectorsOverPicBoundariesFlag = i; } Bool getRestrictedRefPicListsFlag() const { return m_restrictedRefPicListsFlag; } Void setRestrictedRefPicListsFlag(Bool b) { m_restrictedRefPicListsFlag = b; } Int getMinSpatialSegmentationIdc() const { return m_minSpatialSegmentationIdc; } Void setMinSpatialSegmentationIdc(Int i) { m_minSpatialSegmentationIdc = i; } Int getMaxBytesPerPicDenom() const { return m_maxBytesPerPicDenom; } Void setMaxBytesPerPicDenom(Int i) { m_maxBytesPerPicDenom = i; } Int getMaxBitsPerMinCuDenom() const { return m_maxBitsPerMinCuDenom; } Void setMaxBitsPerMinCuDenom(Int i) { m_maxBitsPerMinCuDenom = i; } Int getLog2MaxMvLengthHorizontal() const { return m_log2MaxMvLengthHorizontal; } Void setLog2MaxMvLengthHorizontal(Int i) { m_log2MaxMvLengthHorizontal = i; } Int getLog2MaxMvLengthVertical() const { return m_log2MaxMvLengthVertical; } Void setLog2MaxMvLengthVertical(Int i) { m_log2MaxMvLengthVertical = i; } TComHRD* getHrdParameters() { return &m_hrdParameters; } const TComHRD* getHrdParameters() const { return &m_hrdParameters; } TimingInfo* getTimingInfo() { return &m_timingInfo; } const TimingInfo* getTimingInfo() const { return &m_timingInfo; } #if NH_MV Void inferVideoSignalInfo( const TComVPS* vps, Int layerIdCurr ); #endif }; /// SPS RExt class class TComSPSRExt // Names aligned to text specification { private: Bool m_transformSkipRotationEnabledFlag; Bool m_transformSkipContextEnabledFlag; Bool m_rdpcmEnabledFlag[NUMBER_OF_RDPCM_SIGNALLING_MODES]; Bool m_extendedPrecisionProcessingFlag; Bool m_intraSmoothingDisabledFlag; Bool m_highPrecisionOffsetsEnabledFlag; Bool m_persistentRiceAdaptationEnabledFlag; Bool m_cabacBypassAlignmentEnabledFlag; public: TComSPSRExt(); Bool settingsDifferFromDefaults() const { return getTransformSkipRotationEnabledFlag() || getTransformSkipContextEnabledFlag() || getRdpcmEnabledFlag(RDPCM_SIGNAL_IMPLICIT) || getRdpcmEnabledFlag(RDPCM_SIGNAL_EXPLICIT) || getExtendedPrecisionProcessingFlag() || getIntraSmoothingDisabledFlag() || getHighPrecisionOffsetsEnabledFlag() || getPersistentRiceAdaptationEnabledFlag() || getCabacBypassAlignmentEnabledFlag(); } Bool getTransformSkipRotationEnabledFlag() const { return m_transformSkipRotationEnabledFlag; } Void setTransformSkipRotationEnabledFlag(const Bool value) { m_transformSkipRotationEnabledFlag = value; } Bool getTransformSkipContextEnabledFlag() const { return m_transformSkipContextEnabledFlag; } Void setTransformSkipContextEnabledFlag(const Bool value) { m_transformSkipContextEnabledFlag = value; } Bool getRdpcmEnabledFlag(const RDPCMSignallingMode signallingMode) const { return m_rdpcmEnabledFlag[signallingMode]; } Void setRdpcmEnabledFlag(const RDPCMSignallingMode signallingMode, const Bool value) { m_rdpcmEnabledFlag[signallingMode] = value; } Bool getExtendedPrecisionProcessingFlag() const { return m_extendedPrecisionProcessingFlag; } Void setExtendedPrecisionProcessingFlag(Bool value) { m_extendedPrecisionProcessingFlag = value; } Bool getIntraSmoothingDisabledFlag() const { return m_intraSmoothingDisabledFlag; } Void setIntraSmoothingDisabledFlag(Bool bValue) { m_intraSmoothingDisabledFlag=bValue; } Bool getHighPrecisionOffsetsEnabledFlag() const { return m_highPrecisionOffsetsEnabledFlag; } Void setHighPrecisionOffsetsEnabledFlag(Bool value) { m_highPrecisionOffsetsEnabledFlag = value; } Bool getPersistentRiceAdaptationEnabledFlag() const { return m_persistentRiceAdaptationEnabledFlag; } Void setPersistentRiceAdaptationEnabledFlag(const Bool value) { m_persistentRiceAdaptationEnabledFlag = value; } Bool getCabacBypassAlignmentEnabledFlag() const { return m_cabacBypassAlignmentEnabledFlag; } Void setCabacBypassAlignmentEnabledFlag(const Bool value) { m_cabacBypassAlignmentEnabledFlag = value; } }; #if NH_3D class TComSps3dExtension { public: TComSps3dExtension() { for (Int d = 0; d < 2; d++) { m_ivMvPredFlag [d] = false; m_ivMvScalingFlag [d] = false; m_log2SubPbSizeMinus3 [d] = 3; m_ivResPredFlag [d] = false; m_depthRefinementFlag [d] = false; m_viewSynthesisPredFlag [d] = false; m_depthBasedBlkPartFlag [d] = false; m_mpiFlag [d] = false; m_log2MpiSubPbSizeMinus3[d] = 3; m_intraContourFlag [d] = false; m_intraSdcWedgeFlag [d] = false; m_qtPredFlag [d] = false; m_interSdcFlag [d] = false; m_depthIntraSkipFlag [d] = false; } } Void setIvMvPredFlag( Int d, Bool flag ) { m_ivMvPredFlag[d] = flag; } Bool getIvMvPredFlag( Int d ) const { return m_ivMvPredFlag[d]; } Void setIvMvScalingFlag( Int d, Bool flag ) { m_ivMvScalingFlag[d] = flag; } Bool getIvMvScalingFlag( Int d ) const { return m_ivMvScalingFlag[d]; } Void setLog2SubPbSizeMinus3( Int d, Int val ) { m_log2SubPbSizeMinus3[d] = val; } Int getLog2SubPbSizeMinus3( Int d ) const { return m_log2SubPbSizeMinus3[d]; } Void setIvResPredFlag( Int d, Bool flag ) { m_ivResPredFlag[d] = flag; } Bool getIvResPredFlag( Int d ) const { return m_ivResPredFlag[d]; } Void setDepthRefinementFlag( Int d, Bool flag ) { m_depthRefinementFlag[d] = flag; } Bool getDepthRefinementFlag( Int d ) const { return m_depthRefinementFlag[d]; } Void setViewSynthesisPredFlag( Int d, Bool flag ) { m_viewSynthesisPredFlag[d] = flag; } Bool getViewSynthesisPredFlag( Int d ) const { return m_viewSynthesisPredFlag[d]; } Void setDepthBasedBlkPartFlag( Int d, Bool flag ) { m_depthBasedBlkPartFlag[d] = flag; } Bool getDepthBasedBlkPartFlag( Int d ) const { return m_depthBasedBlkPartFlag[d]; } Void setMpiFlag( Int d, Bool flag ) { m_mpiFlag[d] = flag; } Bool getMpiFlag( Int d ) const { return m_mpiFlag[d]; } Void setLog2MpiSubPbSizeMinus3( Int d, Int val ) { m_log2MpiSubPbSizeMinus3[d] = val; } Int getLog2MpiSubPbSizeMinus3( Int d ) const { return m_log2MpiSubPbSizeMinus3[d]; } Void setIntraContourFlag( Int d, Bool flag ) { m_intraContourFlag[d] = flag; } Bool getIntraContourFlag( Int d ) const { return m_intraContourFlag[d]; } Void setIntraSdcWedgeFlag( Int d, Bool flag ) { m_intraSdcWedgeFlag[d] = flag; } Bool getIntraSdcWedgeFlag( Int d ) const { return m_intraSdcWedgeFlag[d]; } Void setQtPredFlag( Int d, Bool flag ) { m_qtPredFlag[d] = flag; } Bool getQtPredFlag( Int d ) const { return m_qtPredFlag[d]; } Void setInterSdcFlag( Int d, Bool flag ) { m_interSdcFlag[d] = flag; } Bool getInterSdcFlag( Int d ) const { return m_interSdcFlag[d]; } Void setDepthIntraSkipFlag( Int d, Bool flag ) { m_depthIntraSkipFlag[d] = flag; } Bool getDepthIntraSkipFlag( Int d ) const { return m_depthIntraSkipFlag[d]; } private: Bool m_ivMvPredFlag [2]; Bool m_ivMvScalingFlag [2]; Int m_log2SubPbSizeMinus3 [2]; Bool m_ivResPredFlag [2]; Bool m_depthRefinementFlag [2]; Bool m_viewSynthesisPredFlag [2]; Bool m_depthBasedBlkPartFlag [2]; Bool m_mpiFlag [2]; Int m_log2MpiSubPbSizeMinus3[2]; Bool m_intraContourFlag [2]; Bool m_intraSdcWedgeFlag [2]; Bool m_qtPredFlag [2]; Bool m_interSdcFlag [2]; Bool m_depthIntraSkipFlag [2]; }; #endif /// SPS class class TComSPS { private: Int m_SPSId; Int m_VPSId; ChromaFormat m_chromaFormatIdc; UInt m_uiMaxTLayers; // maximum number of temporal layers // Structure UInt m_picWidthInLumaSamples; UInt m_picHeightInLumaSamples; Int m_log2MinCodingBlockSize; Int m_log2DiffMaxMinCodingBlockSize; UInt m_uiMaxCUWidth; UInt m_uiMaxCUHeight; UInt m_uiMaxTotalCUDepth; ///< Total CU depth, relative to the smallest possible transform block size. Window m_conformanceWindow; TComRPSList m_RPSList; Bool m_bLongTermRefsPresent; Bool m_TMVPFlagsPresent; Int m_numReorderPics[MAX_TLAYER]; // Tool list UInt m_uiQuadtreeTULog2MaxSize; UInt m_uiQuadtreeTULog2MinSize; UInt m_uiQuadtreeTUMaxDepthInter; UInt m_uiQuadtreeTUMaxDepthIntra; Bool m_usePCM; UInt m_pcmLog2MaxSize; UInt m_uiPCMLog2MinSize; Bool m_useAMP; // Parameter BitDepths m_bitDepths; Int m_qpBDOffset[MAX_NUM_CHANNEL_TYPE]; Int m_pcmBitDepths[MAX_NUM_CHANNEL_TYPE]; Bool m_bPCMFilterDisableFlag; UInt m_uiBitsForPOC; UInt m_numLongTermRefPicSPS; UInt m_ltRefPicPocLsbSps[MAX_NUM_LONG_TERM_REF_PICS]; Bool m_usedByCurrPicLtSPSFlag[MAX_NUM_LONG_TERM_REF_PICS]; // Max physical transform size UInt m_uiMaxTrSize; Bool m_bUseSAO; Bool m_bTemporalIdNestingFlag; // temporal_id_nesting_flag Bool m_scalingListEnabledFlag; Bool m_scalingListPresentFlag; TComScalingList m_scalingList; UInt m_uiMaxDecPicBuffering[MAX_TLAYER]; UInt m_uiMaxLatencyIncrease[MAX_TLAYER]; // Really max latency increase plus 1 (value 0 expresses no limit) Bool m_useStrongIntraSmoothing; Bool m_vuiParametersPresentFlag; TComVUI m_vuiParameters; TComSPSRExt m_spsRangeExtension; static const Int m_winUnitX[NUM_CHROMA_FORMAT]; static const Int m_winUnitY[NUM_CHROMA_FORMAT]; TComPTL m_pcPTL; #if O0043_BEST_EFFORT_DECODING UInt m_forceDecodeBitDepth; // 0 = do not force the decoder's bit depth, other = force the decoder's bit depth to this value (best effort decoding) #endif #if NH_MV TComVPS* m_pcVPS; // SPS Int m_spsMaxSubLayersMinus1; Int m_spsExtOrMaxSubLayersMinus1; Bool m_spsExtensionPresentFlag; Bool m_spsRangeExtensionsFlag; Bool m_spsMultilayerExtensionFlag; Bool m_sps3dExtensionFlag; Int m_spsExtension5bits; Bool m_spsInferScalingListFlag; Int m_spsScalingListRefLayerId; Bool m_updateRepFormatFlag; Int m_spsRepFormatIdx; // SPS Extension Bool m_interViewMvVertConstraintFlag; #endif #if NH_3D TComSps3dExtension m_sps3dExtension; Int m_aaiCodedScale [2][MAX_NUM_LAYERS]; Int m_aaiCodedOffset[2][MAX_NUM_LAYERS]; #endif #if NH_MV Int m_layerId; #endif public: TComSPS(); virtual ~TComSPS(); #if O0043_BEST_EFFORT_DECODING Void setForceDecodeBitDepth(UInt bitDepth) { m_forceDecodeBitDepth = bitDepth; } UInt getForceDecodeBitDepth() const { return m_forceDecodeBitDepth; } #endif Int getVPSId() const { return m_VPSId; } Void setVPSId(Int i) { m_VPSId = i; } Int getSPSId() const { return m_SPSId; } Void setSPSId(Int i) { m_SPSId = i; } ChromaFormat getChromaFormatIdc () const { return m_chromaFormatIdc; } Void setChromaFormatIdc (ChromaFormat i) { m_chromaFormatIdc = i; } static Int getWinUnitX (Int chromaFormatIdc) { assert (chromaFormatIdc >= 0 && chromaFormatIdc < NUM_CHROMA_FORMAT); return m_winUnitX[chromaFormatIdc]; } static Int getWinUnitY (Int chromaFormatIdc) { assert (chromaFormatIdc >= 0 && chromaFormatIdc < NUM_CHROMA_FORMAT); return m_winUnitY[chromaFormatIdc]; } // structure Void setPicWidthInLumaSamples( UInt u ) { m_picWidthInLumaSamples = u; } UInt getPicWidthInLumaSamples() const { return m_picWidthInLumaSamples; } Void setPicHeightInLumaSamples( UInt u ) { m_picHeightInLumaSamples = u; } UInt getPicHeightInLumaSamples() const { return m_picHeightInLumaSamples; } Window& getConformanceWindow() { return m_conformanceWindow; } const Window& getConformanceWindow() const { return m_conformanceWindow; } Void setConformanceWindow(Window& conformanceWindow ) { m_conformanceWindow = conformanceWindow; } UInt getNumLongTermRefPicSPS() const { return m_numLongTermRefPicSPS; } Void setNumLongTermRefPicSPS(UInt val) { m_numLongTermRefPicSPS = val; } UInt getLtRefPicPocLsbSps(UInt index) const { assert( index < MAX_NUM_LONG_TERM_REF_PICS ); return m_ltRefPicPocLsbSps[index]; } Void setLtRefPicPocLsbSps(UInt index, UInt val) { assert( index < MAX_NUM_LONG_TERM_REF_PICS ); m_ltRefPicPocLsbSps[index] = val; } Bool getUsedByCurrPicLtSPSFlag(Int i) const { assert( i < MAX_NUM_LONG_TERM_REF_PICS ); return m_usedByCurrPicLtSPSFlag[i]; } Void setUsedByCurrPicLtSPSFlag(Int i, Bool x) { assert( i < MAX_NUM_LONG_TERM_REF_PICS ); m_usedByCurrPicLtSPSFlag[i] = x; } Int getLog2MinCodingBlockSize() const { return m_log2MinCodingBlockSize; } Void setLog2MinCodingBlockSize(Int val) { m_log2MinCodingBlockSize = val; } Int getLog2DiffMaxMinCodingBlockSize() const { return m_log2DiffMaxMinCodingBlockSize; } Void setLog2DiffMaxMinCodingBlockSize(Int val) { m_log2DiffMaxMinCodingBlockSize = val; } Void setMaxCUWidth( UInt u ) { m_uiMaxCUWidth = u; } UInt getMaxCUWidth() const { return m_uiMaxCUWidth; } Void setMaxCUHeight( UInt u ) { m_uiMaxCUHeight = u; } UInt getMaxCUHeight() const { return m_uiMaxCUHeight; } Void setMaxTotalCUDepth( UInt u ) { m_uiMaxTotalCUDepth = u; } UInt getMaxTotalCUDepth() const { return m_uiMaxTotalCUDepth; } Void setUsePCM( Bool b ) { m_usePCM = b; } Bool getUsePCM() const { return m_usePCM; } Void setPCMLog2MaxSize( UInt u ) { m_pcmLog2MaxSize = u; } UInt getPCMLog2MaxSize() const { return m_pcmLog2MaxSize; } Void setPCMLog2MinSize( UInt u ) { m_uiPCMLog2MinSize = u; } UInt getPCMLog2MinSize() const { return m_uiPCMLog2MinSize; } Void setBitsForPOC( UInt u ) { m_uiBitsForPOC = u; } UInt getBitsForPOC() const { return m_uiBitsForPOC; } Bool getUseAMP() const { return m_useAMP; } Void setUseAMP( Bool b ) { m_useAMP = b; } Void setQuadtreeTULog2MaxSize( UInt u ) { m_uiQuadtreeTULog2MaxSize = u; } UInt getQuadtreeTULog2MaxSize() const { return m_uiQuadtreeTULog2MaxSize; } Void setQuadtreeTULog2MinSize( UInt u ) { m_uiQuadtreeTULog2MinSize = u; } UInt getQuadtreeTULog2MinSize() const { return m_uiQuadtreeTULog2MinSize; } Void setQuadtreeTUMaxDepthInter( UInt u ) { m_uiQuadtreeTUMaxDepthInter = u; } Void setQuadtreeTUMaxDepthIntra( UInt u ) { m_uiQuadtreeTUMaxDepthIntra = u; } UInt getQuadtreeTUMaxDepthInter() const { return m_uiQuadtreeTUMaxDepthInter; } UInt getQuadtreeTUMaxDepthIntra() const { return m_uiQuadtreeTUMaxDepthIntra; } Void setNumReorderPics(Int i, UInt tlayer) { m_numReorderPics[tlayer] = i; } Int getNumReorderPics(UInt tlayer) const { return m_numReorderPics[tlayer]; } Void createRPSList( Int numRPS ); const TComRPSList* getRPSList() const { return &m_RPSList; } TComRPSList* getRPSList() { return &m_RPSList; } Bool getLongTermRefsPresent() const { return m_bLongTermRefsPresent; } Void setLongTermRefsPresent(Bool b) { m_bLongTermRefsPresent=b; } Bool getTMVPFlagsPresent() const { return m_TMVPFlagsPresent; } Void setTMVPFlagsPresent(Bool b) { m_TMVPFlagsPresent=b; } // physical transform Void setMaxTrSize( UInt u ) { m_uiMaxTrSize = u; } UInt getMaxTrSize() const { return m_uiMaxTrSize; } // Bit-depth Int getBitDepth(ChannelType type) const { return m_bitDepths.recon[type]; } Void setBitDepth(ChannelType type, Int u ) { m_bitDepths.recon[type] = u; } #if O0043_BEST_EFFORT_DECODING Int getStreamBitDepth(ChannelType type) const { return m_bitDepths.stream[type]; } Void setStreamBitDepth(ChannelType type, Int u ) { m_bitDepths.stream[type] = u; } #endif const BitDepths& getBitDepths() const { return m_bitDepths; } Int getMaxLog2TrDynamicRange(ChannelType channelType) const { return getSpsRangeExtension().getExtendedPrecisionProcessingFlag() ? std::max(15, Int(m_bitDepths.recon[channelType] + 6)) : 15; } Int getDifferentialLumaChromaBitDepth() const { return Int(m_bitDepths.recon[CHANNEL_TYPE_LUMA]) - Int(m_bitDepths.recon[CHANNEL_TYPE_CHROMA]); } Int getQpBDOffset(ChannelType type) const { return m_qpBDOffset[type]; } Void setQpBDOffset(ChannelType type, Int i) { m_qpBDOffset[type] = i; } Void setUseSAO(Bool bVal) { m_bUseSAO = bVal; } Bool getUseSAO() const { return m_bUseSAO; } UInt getMaxTLayers() const { return m_uiMaxTLayers; } Void setMaxTLayers( UInt uiMaxTLayers ) { assert( uiMaxTLayers <= MAX_TLAYER ); m_uiMaxTLayers = uiMaxTLayers; } Bool getTemporalIdNestingFlag() const { return m_bTemporalIdNestingFlag; } Void setTemporalIdNestingFlag( Bool bValue ) { m_bTemporalIdNestingFlag = bValue; } UInt getPCMBitDepth(ChannelType type) const { return m_pcmBitDepths[type]; } Void setPCMBitDepth(ChannelType type, UInt u) { m_pcmBitDepths[type] = u; } Void setPCMFilterDisableFlag( Bool bValue ) { m_bPCMFilterDisableFlag = bValue; } Bool getPCMFilterDisableFlag() const { return m_bPCMFilterDisableFlag; } Bool getScalingListFlag() const { return m_scalingListEnabledFlag; } Void setScalingListFlag( Bool b ) { m_scalingListEnabledFlag = b; } Bool getScalingListPresentFlag() const { return m_scalingListPresentFlag; } Void setScalingListPresentFlag( Bool b ) { m_scalingListPresentFlag = b; } Void setScalingList( TComScalingList *scalingList); TComScalingList& getScalingList() { return m_scalingList; } const TComScalingList& getScalingList() const { return m_scalingList; } UInt getMaxDecPicBuffering(UInt tlayer) const { return m_uiMaxDecPicBuffering[tlayer]; } Void setMaxDecPicBuffering( UInt ui, UInt tlayer ) { assert(tlayer < MAX_TLAYER); m_uiMaxDecPicBuffering[tlayer] = ui; } UInt getMaxLatencyIncrease(UInt tlayer) const { return m_uiMaxLatencyIncrease[tlayer]; } Void setMaxLatencyIncrease( UInt ui , UInt tlayer) { m_uiMaxLatencyIncrease[tlayer] = ui; } Void setUseStrongIntraSmoothing(Bool bVal) { m_useStrongIntraSmoothing = bVal; } Bool getUseStrongIntraSmoothing() const { return m_useStrongIntraSmoothing; } Bool getVuiParametersPresentFlag() const { return m_vuiParametersPresentFlag; } Void setVuiParametersPresentFlag(Bool b) { m_vuiParametersPresentFlag = b; } TComVUI* getVuiParameters() { return &m_vuiParameters; } const TComVUI* getVuiParameters() const { return &m_vuiParameters; } const TComPTL* getPTL() const { return &m_pcPTL; } TComPTL* getPTL() { return &m_pcPTL; } const TComSPSRExt& getSpsRangeExtension() const { return m_spsRangeExtension; } TComSPSRExt& getSpsRangeExtension() { return m_spsRangeExtension; } // Sequence parameter set range extension syntax // WAS: getUseResidualRotation and setUseResidualRotation // Now getSpsRangeExtension().getTransformSkipRotationEnabledFlag and getSpsRangeExtension().setTransformSkipRotationEnabledFlag // WAS: getUseSingleSignificanceMapContext and setUseSingleSignificanceMapContext // Now: getSpsRangeExtension().getTransformSkipContextEnabledFlag and getSpsRangeExtension().setTransformSkipContextEnabledFlag // WAS: getUseResidualDPCM and setUseResidualDPCM // Now: getSpsRangeExtension().getRdpcmEnabledFlag and getSpsRangeExtension().setRdpcmEnabledFlag and // WAS: getUseExtendedPrecision and setUseExtendedPrecision // Now: getSpsRangeExtension().getExtendedPrecisionProcessingFlag and getSpsRangeExtension().setExtendedPrecisionProcessingFlag // WAS: getDisableIntraReferenceSmoothing and setDisableIntraReferenceSmoothing // Now: getSpsRangeExtension().getIntraSmoothingDisabledFlag and getSpsRangeExtension().setIntraSmoothingDisabledFlag // WAS: getUseHighPrecisionPredictionWeighting and setUseHighPrecisionPredictionWeighting // Now: getSpsRangeExtension().getHighPrecisionOffsetsEnabledFlag and getSpsRangeExtension().setHighPrecisionOffsetsEnabledFlag // WAS: getUseGolombRiceParameterAdaptation and setUseGolombRiceParameterAdaptation // Now: getSpsRangeExtension().getPersistentRiceAdaptationEnabledFlag and getSpsRangeExtension().setPersistentRiceAdaptationEnabledFlag // WAS: getAlignCABACBeforeBypass and setAlignCABACBeforeBypass // Now: getSpsRangeExtension().getCabacBypassAlignmentEnabledFlag and getSpsRangeExtension().setCabacBypassAlignmentEnabledFlag #if NH_MV UInt getSpsMaxSubLayersMinus1() const { return ( m_uiMaxTLayers - 1); } Void setSpsMaxSubLayersMinus1( UInt val ) { setMaxTLayers( val + 1 ); } Void setSpsExtOrMaxSubLayersMinus1( Int val ) { m_spsExtOrMaxSubLayersMinus1 = val; } Int getSpsExtOrMaxSubLayersMinus1( ) const { return m_spsExtOrMaxSubLayersMinus1; } Void inferSpsMaxSubLayersMinus1( Bool atPsActivation, TComVPS* vps ); Bool getMultiLayerExtSpsFlag() const { return ( getLayerId() != 0 && getSpsExtOrMaxSubLayersMinus1() == 7 ); } Void inferSpsMaxDecPicBufferingMinus1( TComVPS* vps, Int targetOptLayerSetIdx, Int currLayerId, Bool encoder ); Void setSpsExtensionPresentFlag( Bool flag ) { m_spsExtensionPresentFlag = flag; } Bool getSpsExtensionPresentFlag( ) const { return m_spsExtensionPresentFlag; } Void setSpsRangeExtensionsFlag( Bool flag ) { m_spsRangeExtensionsFlag = flag; } Bool getSpsRangeExtensionsFlag( ) const { return m_spsRangeExtensionsFlag; } Void setSpsMultilayerExtensionFlag( Bool flag ) { m_spsMultilayerExtensionFlag = flag; } Bool getSpsMultilayerExtensionFlag( ) const { return m_spsMultilayerExtensionFlag; } Void setSps3dExtensionFlag( Bool flag ) { m_sps3dExtensionFlag = flag; } Bool getSps3dExtensionFlag( ) const { return m_sps3dExtensionFlag; } Void setSpsExtension5bits( Int val ) { m_spsExtension5bits = val; } Int getSpsExtension5bits( ) const { return m_spsExtension5bits; } Void setVPS ( TComVPS* pcVPS ) { m_pcVPS = pcVPS; } TComVPS* getVPS () const { return m_pcVPS; } Void setSpsInferScalingListFlag( Bool flag ) { m_spsInferScalingListFlag = flag; } Bool getSpsInferScalingListFlag( ) const { return m_spsInferScalingListFlag; } Void setSpsScalingListRefLayerId( Int val ) { m_spsScalingListRefLayerId = val; } Int getSpsScalingListRefLayerId( ) const { return m_spsScalingListRefLayerId; } Void setUpdateRepFormatFlag( Bool flag ) { m_updateRepFormatFlag = flag; } Bool getUpdateRepFormatFlag( ) const { return m_updateRepFormatFlag; } Void setSpsRepFormatIdx( Int val ) { m_spsRepFormatIdx = val; } Int getSpsRepFormatIdx( ) const { return m_spsRepFormatIdx; } // SPS Extension Void setInterViewMvVertConstraintFlag(Bool val) { m_interViewMvVertConstraintFlag = val; } Bool getInterViewMvVertConstraintFlag() const { return m_interViewMvVertConstraintFlag; } #if NH_3D Void setSps3dExtension ( TComSps3dExtension& sps3dExtension ) { m_sps3dExtension = sps3dExtension; } const TComSps3dExtension* getSps3dExtension ( ) const { return &m_sps3dExtension; } #endif // Inference Void inferRepFormat( TComVPS* vps, Int layerIdCurr, Bool encoder ); Void inferScalingList( const TComSPS* spsSrc ); // others Void checkRpsMaxNumPics( const TComVPS* vps, Int currLayerId ) const; Int getLayerId () const { return m_layerId; } Void setLayerId ( Int val ) { m_layerId = val; } #endif }; /// Reference Picture Lists class class TComRefPicListModification { private: Bool m_refPicListModificationFlagL0; Bool m_refPicListModificationFlagL1; UInt m_RefPicSetIdxL0[REF_PIC_LIST_NUM_IDX]; UInt m_RefPicSetIdxL1[REF_PIC_LIST_NUM_IDX]; public: TComRefPicListModification(); virtual ~TComRefPicListModification(); Void create(); Void destroy(); Bool getRefPicListModificationFlagL0() const { return m_refPicListModificationFlagL0; } Void setRefPicListModificationFlagL0(Bool flag) { m_refPicListModificationFlagL0 = flag; } Bool getRefPicListModificationFlagL1() const { return m_refPicListModificationFlagL1; } Void setRefPicListModificationFlagL1(Bool flag) { m_refPicListModificationFlagL1 = flag; } UInt getRefPicSetIdxL0(UInt idx) const { assert(idx0; } Int getChromaQpOffsetListLen() const { return m_chromaQpOffsetListLen; } const ChromaQpAdj& getChromaQpOffsetListEntry( Int cuChromaQpOffsetIdxPlus1 ) const { assert(cuChromaQpOffsetIdxPlus1 < m_chromaQpOffsetListLen+1); return m_ChromaQpAdjTableIncludingNullEntry[cuChromaQpOffsetIdxPlus1]; // Array includes entry [0] for the null offset used when cu_chroma_qp_offset_flag=0, and entries [cu_chroma_qp_offset_idx+1...] otherwise } Void setChromaQpOffsetListEntry( Int cuChromaQpOffsetIdxPlus1, Int cbOffset, Int crOffset ) { assert (cuChromaQpOffsetIdxPlus1 != 0 && cuChromaQpOffsetIdxPlus1 <= MAX_QP_OFFSET_LIST_SIZE); m_ChromaQpAdjTableIncludingNullEntry[cuChromaQpOffsetIdxPlus1].u.comp.CbOffset = cbOffset; // Array includes entry [0] for the null offset used when cu_chroma_qp_offset_flag=0, and entries [cu_chroma_qp_offset_idx+1...] otherwise m_ChromaQpAdjTableIncludingNullEntry[cuChromaQpOffsetIdxPlus1].u.comp.CrOffset = crOffset; m_chromaQpOffsetListLen = max(m_chromaQpOffsetListLen, cuChromaQpOffsetIdxPlus1); } // Now: getPpsRangeExtension().getLog2SaoOffsetScale and getPpsRangeExtension().setLog2SaoOffsetScale UInt getLog2SaoOffsetScale(ChannelType type) const { return m_log2SaoOffsetScale[type]; } Void setLog2SaoOffsetScale(ChannelType type, UInt uiBitShift) { m_log2SaoOffsetScale[type] = uiBitShift; } }; /// PPS class class TComPPS { private: Int m_PPSId; // pic_parameter_set_id Int m_SPSId; // seq_parameter_set_id Int m_picInitQPMinus26; Bool m_useDQP; Bool m_bConstrainedIntraPred; // constrained_intra_pred_flag Bool m_bSliceChromaQpFlag; // slicelevel_chroma_qp_flag // access channel UInt m_uiMaxCuDQPDepth; Int m_chromaCbQpOffset; Int m_chromaCrQpOffset; UInt m_numRefIdxL0DefaultActive; UInt m_numRefIdxL1DefaultActive; Bool m_bUseWeightPred; //!< Use of Weighting Prediction (P_SLICE) Bool m_useWeightedBiPred; //!< Use of Weighting Bi-Prediction (B_SLICE) Bool m_OutputFlagPresentFlag; //!< Indicates the presence of output_flag in slice header Bool m_TransquantBypassEnableFlag; //!< Indicates presence of cu_transquant_bypass_flag in CUs. Bool m_useTransformSkip; Bool m_dependentSliceSegmentsEnabledFlag; //!< Indicates the presence of dependent slices Bool m_tilesEnabledFlag; //!< Indicates the presence of tiles Bool m_entropyCodingSyncEnabledFlag; //!< Indicates the presence of wavefronts Bool m_loopFilterAcrossTilesEnabledFlag; Bool m_uniformSpacingFlag; Int m_numTileColumnsMinus1; Int m_numTileRowsMinus1; std::vector m_tileColumnWidth; std::vector m_tileRowHeight; Bool m_signHideFlag; Bool m_cabacInitPresentFlag; Bool m_sliceHeaderExtensionPresentFlag; Bool m_loopFilterAcrossSlicesEnabledFlag; Bool m_deblockingFilterControlPresentFlag; Bool m_deblockingFilterOverrideEnabledFlag; Bool m_picDisableDeblockingFilterFlag; Int m_deblockingFilterBetaOffsetDiv2; //< beta offset for deblocking filter Int m_deblockingFilterTcOffsetDiv2; //< tc offset for deblocking filter Bool m_scalingListPresentFlag; TComScalingList m_scalingList; //!< ScalingList class Bool m_listsModificationPresentFlag; UInt m_log2ParallelMergeLevelMinus2; Int m_numExtraSliceHeaderBits; TComPPSRExt m_ppsRangeExtension; #if NH_MV Int m_layerId; Bool m_ppsInferScalingListFlag; Int m_ppsScalingListRefLayerId; Bool m_ppsRangeExtensionsFlag; Bool m_ppsMultilayerExtensionFlag; Bool m_pps3dExtensionFlag; Int m_ppsExtension5bits; Bool m_pocResetInfoPresentFlag; #endif #if NH_3D_DLT TComDLT m_cDLT; #endif public: TComPPS(); virtual ~TComPPS(); Int getPPSId() const { return m_PPSId; } Void setPPSId(Int i) { m_PPSId = i; } Int getSPSId() const { return m_SPSId; } Void setSPSId(Int i) { m_SPSId = i; } Int getPicInitQPMinus26() const { return m_picInitQPMinus26; } Void setPicInitQPMinus26( Int i ) { m_picInitQPMinus26 = i; } Bool getUseDQP() const { return m_useDQP; } Void setUseDQP( Bool b ) { m_useDQP = b; } Bool getConstrainedIntraPred() const { return m_bConstrainedIntraPred; } Void setConstrainedIntraPred( Bool b ) { m_bConstrainedIntraPred = b; } Bool getSliceChromaQpFlag() const { return m_bSliceChromaQpFlag; } Void setSliceChromaQpFlag( Bool b ) { m_bSliceChromaQpFlag = b; } Void setMaxCuDQPDepth( UInt u ) { m_uiMaxCuDQPDepth = u; } UInt getMaxCuDQPDepth() const { return m_uiMaxCuDQPDepth; } #if NH_3D_DLT Void setDLT( TComDLT cDLT ) { m_cDLT = cDLT; } const TComDLT* getDLT() const { return &m_cDLT; } TComDLT* getDLT() { return &m_cDLT; } #endif Void setQpOffset(ComponentID compID, Int i ) { if (compID==COMPONENT_Cb) { m_chromaCbQpOffset = i; } else if (compID==COMPONENT_Cr) { m_chromaCrQpOffset = i; } else { assert(0); } } Int getQpOffset(ComponentID compID) const { return (compID==COMPONENT_Y) ? 0 : (compID==COMPONENT_Cb ? m_chromaCbQpOffset : m_chromaCrQpOffset ); } Void setNumRefIdxL0DefaultActive(UInt ui) { m_numRefIdxL0DefaultActive=ui; } UInt getNumRefIdxL0DefaultActive() const { return m_numRefIdxL0DefaultActive; } Void setNumRefIdxL1DefaultActive(UInt ui) { m_numRefIdxL1DefaultActive=ui; } UInt getNumRefIdxL1DefaultActive() const { return m_numRefIdxL1DefaultActive; } Bool getUseWP() const { return m_bUseWeightPred; } Bool getWPBiPred() const { return m_useWeightedBiPred; } Void setUseWP( Bool b ) { m_bUseWeightPred = b; } Void setWPBiPred( Bool b ) { m_useWeightedBiPred = b; } Void setOutputFlagPresentFlag( Bool b ) { m_OutputFlagPresentFlag = b; } Bool getOutputFlagPresentFlag() const { return m_OutputFlagPresentFlag; } Void setTransquantBypassEnableFlag( Bool b ) { m_TransquantBypassEnableFlag = b; } Bool getTransquantBypassEnableFlag() const { return m_TransquantBypassEnableFlag; } Bool getUseTransformSkip() const { return m_useTransformSkip; } Void setUseTransformSkip( Bool b ) { m_useTransformSkip = b; } Void setLoopFilterAcrossTilesEnabledFlag(Bool b) { m_loopFilterAcrossTilesEnabledFlag = b; } Bool getLoopFilterAcrossTilesEnabledFlag() const { return m_loopFilterAcrossTilesEnabledFlag; } Bool getDependentSliceSegmentsEnabledFlag() const { return m_dependentSliceSegmentsEnabledFlag; } Void setDependentSliceSegmentsEnabledFlag(Bool val) { m_dependentSliceSegmentsEnabledFlag = val; } Bool getEntropyCodingSyncEnabledFlag() const { return m_entropyCodingSyncEnabledFlag; } Void setEntropyCodingSyncEnabledFlag(Bool val) { m_entropyCodingSyncEnabledFlag = val; } Void setTilesEnabledFlag(Bool val) { m_tilesEnabledFlag = val; } Bool getTilesEnabledFlag() const { return m_tilesEnabledFlag; } Void setTileUniformSpacingFlag(Bool b) { m_uniformSpacingFlag = b; } Bool getTileUniformSpacingFlag() const { return m_uniformSpacingFlag; } Void setNumTileColumnsMinus1(Int i) { m_numTileColumnsMinus1 = i; } Int getNumTileColumnsMinus1() const { return m_numTileColumnsMinus1; } Void setTileColumnWidth(const std::vector& columnWidth ) { m_tileColumnWidth = columnWidth; } UInt getTileColumnWidth(UInt columnIdx) const { return m_tileColumnWidth[columnIdx]; } Void setNumTileRowsMinus1(Int i) { m_numTileRowsMinus1 = i; } Int getNumTileRowsMinus1() const { return m_numTileRowsMinus1; } Void setTileRowHeight(const std::vector& rowHeight) { m_tileRowHeight = rowHeight; } UInt getTileRowHeight(UInt rowIdx) const { return m_tileRowHeight[rowIdx]; } Void setSignHideFlag( Bool signHideFlag ) { m_signHideFlag = signHideFlag; } Bool getSignHideFlag() const { return m_signHideFlag; } Void setCabacInitPresentFlag( Bool flag ) { m_cabacInitPresentFlag = flag; } Bool getCabacInitPresentFlag() const { return m_cabacInitPresentFlag; } Void setDeblockingFilterControlPresentFlag( Bool val ) { m_deblockingFilterControlPresentFlag = val; } Bool getDeblockingFilterControlPresentFlag() const { return m_deblockingFilterControlPresentFlag; } Void setDeblockingFilterOverrideEnabledFlag( Bool val ) { m_deblockingFilterOverrideEnabledFlag = val; } Bool getDeblockingFilterOverrideEnabledFlag() const { return m_deblockingFilterOverrideEnabledFlag; } Void setPicDisableDeblockingFilterFlag(Bool val) { m_picDisableDeblockingFilterFlag = val; } //!< set offset for deblocking filter disabled Bool getPicDisableDeblockingFilterFlag() const { return m_picDisableDeblockingFilterFlag; } //!< get offset for deblocking filter disabled Void setDeblockingFilterBetaOffsetDiv2(Int val) { m_deblockingFilterBetaOffsetDiv2 = val; } //!< set beta offset for deblocking filter Int getDeblockingFilterBetaOffsetDiv2() const { return m_deblockingFilterBetaOffsetDiv2; } //!< get beta offset for deblocking filter Void setDeblockingFilterTcOffsetDiv2(Int val) { m_deblockingFilterTcOffsetDiv2 = val; } //!< set tc offset for deblocking filter Int getDeblockingFilterTcOffsetDiv2() const { return m_deblockingFilterTcOffsetDiv2; } //!< get tc offset for deblocking filter Bool getScalingListPresentFlag() const { return m_scalingListPresentFlag; } Void setScalingListPresentFlag( Bool b ) { m_scalingListPresentFlag = b; } TComScalingList& getScalingList() { return m_scalingList; } const TComScalingList& getScalingList() const { return m_scalingList; } Bool getListsModificationPresentFlag() const { return m_listsModificationPresentFlag; } Void setListsModificationPresentFlag( Bool b ) { m_listsModificationPresentFlag = b; } UInt getLog2ParallelMergeLevelMinus2() const { return m_log2ParallelMergeLevelMinus2; } Void setLog2ParallelMergeLevelMinus2(UInt mrgLevel) { m_log2ParallelMergeLevelMinus2 = mrgLevel; } Int getNumExtraSliceHeaderBits() const { return m_numExtraSliceHeaderBits; } Void setNumExtraSliceHeaderBits(Int i) { m_numExtraSliceHeaderBits = i; } Void setLoopFilterAcrossSlicesEnabledFlag( Bool bValue ) { m_loopFilterAcrossSlicesEnabledFlag = bValue; } Bool getLoopFilterAcrossSlicesEnabledFlag() const { return m_loopFilterAcrossSlicesEnabledFlag; } Bool getSliceHeaderExtensionPresentFlag() const { return m_sliceHeaderExtensionPresentFlag; } Void setSliceHeaderExtensionPresentFlag(Bool val) { m_sliceHeaderExtensionPresentFlag = val; } const TComPPSRExt& getPpsRangeExtension() const { return m_ppsRangeExtension; } TComPPSRExt& getPpsRangeExtension() { return m_ppsRangeExtension; } // WAS: getTransformSkipLog2MaxSize and setTransformSkipLog2MaxSize // Now: getPpsRangeExtension().getLog2MaxTransformSkipBlockSize and getPpsRangeExtension().setLog2MaxTransformSkipBlockSize // WAS: getUseCrossComponentPrediction and setUseCrossComponentPrediction // Now: getPpsRangeExtension().getCrossComponentPredictionEnabledFlag and getPpsRangeExtension().setCrossComponentPredictionEnabledFlag // WAS: clearChromaQpAdjTable // Now: getPpsRangeExtension().clearChromaQpOffsetList // WAS: getMaxCuChromaQpAdjDepth and setMaxCuChromaQpAdjDepth // Now: getPpsRangeExtension().getDiffCuChromaQpOffsetDepth and getPpsRangeExtension().setDiffCuChromaQpOffsetDepth // WAS: getChromaQpAdjTableSize // Now: getPpsRangeExtension().getChromaQpOffsetListLen // WAS: getChromaQpAdjTableAt and setChromaQpAdjTableAt // Now: getPpsRangeExtension().getChromaQpOffsetListEntry and getPpsRangeExtension().setChromaQpOffsetListEntry // WAS: getSaoOffsetBitShift and setSaoOffsetBitShift // Now: getPpsRangeExtension().getLog2SaoOffsetScale and getPpsRangeExtension().setLog2SaoOffsetScale #if NH_MV Void setLayerId( Int val ) { m_layerId = val; } Int getLayerId( ) const { return m_layerId; } Void setPpsInferScalingListFlag( Bool flag ) { m_ppsInferScalingListFlag = flag; } Bool getPpsInferScalingListFlag( ) const { return m_ppsInferScalingListFlag; } Void setPpsScalingListRefLayerId( Int val ) { m_ppsScalingListRefLayerId = val; } Int getPpsScalingListRefLayerId( ) const { return m_ppsScalingListRefLayerId; } Void setPpsRangeExtensionsFlag( Bool flag ) { m_ppsRangeExtensionsFlag = flag; } Bool getPpsRangeExtensionsFlag( ) const { return m_ppsRangeExtensionsFlag; } Void setPpsMultilayerExtensionFlag( Bool flag ) { m_ppsMultilayerExtensionFlag = flag; } Bool getPpsMultilayerExtensionFlag( ) const { return m_ppsMultilayerExtensionFlag; } Void setPps3dExtensionFlag( Bool flag ) { m_pps3dExtensionFlag = flag; } Bool getPps3dExtensionFlag( ) const { return m_pps3dExtensionFlag; } Void setPpsExtension5bits( Int val ) { m_ppsExtension5bits = val; } Int getPpsExtension5bits( ) const { return m_ppsExtension5bits; } Void setPocResetInfoPresentFlag( Bool flag ) { m_pocResetInfoPresentFlag = flag; } Bool getPocResetInfoPresentFlag( ) const { return m_pocResetInfoPresentFlag; } #endif }; struct WPScalingParam { // Explicit weighted prediction parameters parsed in slice header, // or Implicit weighted prediction parameters (8 bits depth values). Bool bPresentFlag; UInt uiLog2WeightDenom; Int iWeight; Int iOffset; // Weighted prediction scaling values built from above parameters (bitdepth scaled): Int w; Int o; Int offset; Int shift; Int round; }; struct WPACDCParam { Int64 iAC; Int64 iDC; }; /// slice header class class TComSlice { private: // Bitstream writing Bool m_saoEnabledFlag[MAX_NUM_CHANNEL_TYPE]; Int m_iPPSId; ///< picture parameter set ID Bool m_PicOutputFlag; ///< pic_output_flag #if NH_MV Int m_slicePicOrderCntLsb; #endif Int m_iPOC; #if NH_MV Int m_iPOCBeforeReset; #endif Int m_iLastIDR; Int m_iAssociatedIRAP; NalUnitType m_iAssociatedIRAPType; const TComReferencePictureSet* m_pRPS; //< pointer to RPS, either in the SPS or the local RPS in the same slice header TComReferencePictureSet m_localRPS; //< RPS when present in slice header Int m_rpsIdx; //< index of used RPS in the SPS or -1 for local RPS in the slice header TComRefPicListModification m_RefPicListModification; NalUnitType m_eNalUnitType; ///< Nal unit type for the slice SliceType m_eSliceType; Int m_iSliceQp; Bool m_dependentSliceSegmentFlag; #if ADAPTIVE_QP_SELECTION Int m_iSliceQpBase; #endif Bool m_ChromaQpAdjEnabled; Bool m_deblockingFilterDisable; Bool m_deblockingFilterOverrideFlag; //< offsets for deblocking filter inherit from PPS Int m_deblockingFilterBetaOffsetDiv2; //< beta offset for deblocking filter Int m_deblockingFilterTcOffsetDiv2; //< tc offset for deblocking filter Int m_list1IdxToList0Idx[MAX_NUM_REF]; Int m_aiNumRefIdx [NUM_REF_PIC_LIST_01]; // for multiple reference of current slice Bool m_bCheckLDC; // Data Int m_iSliceQpDelta; Int m_iSliceChromaQpDelta[MAX_NUM_COMPONENT]; TComPic* m_apcRefPicList [NUM_REF_PIC_LIST_01][MAX_NUM_REF+1]; Int m_aiRefPOCList [NUM_REF_PIC_LIST_01][MAX_NUM_REF+1]; #if NH_MV Int m_aiRefLayerIdList[2][MAX_NUM_REF+1]; #endif Bool m_bIsUsedAsLongTerm[NUM_REF_PIC_LIST_01][MAX_NUM_REF+1]; Int m_iDepth; // referenced slice? Bool m_bRefenced; // access channel const TComVPS* m_pcVPS; const TComSPS* m_pcSPS; const TComPPS* m_pcPPS; TComPic* m_pcPic; Bool m_colFromL0Flag; // collocated picture from List0 flag Bool m_noOutputPriorPicsFlag; Bool m_noRaslOutputFlag; Bool m_handleCraAsBlaFlag; UInt m_colRefIdx; UInt m_maxNumMergeCand; Double m_lambdas[MAX_NUM_COMPONENT]; Bool m_abEqualRef [NUM_REF_PIC_LIST_01][MAX_NUM_REF][MAX_NUM_REF]; UInt m_uiTLayer; Bool m_bTLayerSwitchingFlag; SliceConstraint m_sliceMode; UInt m_sliceArgument; UInt m_sliceCurStartCtuTsAddr; UInt m_sliceCurEndCtuTsAddr; UInt m_sliceIdx; SliceConstraint m_sliceSegmentMode; UInt m_sliceSegmentArgument; UInt m_sliceSegmentCurStartCtuTsAddr; UInt m_sliceSegmentCurEndCtuTsAddr; Bool m_nextSlice; Bool m_nextSliceSegment; UInt m_sliceBits; UInt m_sliceSegmentBits; Bool m_bFinalized; Bool m_bTestWeightPred; Bool m_bTestWeightBiPred; WPScalingParam m_weightPredTable[NUM_REF_PIC_LIST_01][MAX_NUM_REF][MAX_NUM_COMPONENT]; // [REF_PIC_LIST_0 or REF_PIC_LIST_1][refIdx][0:Y, 1:U, 2:V] WPACDCParam m_weightACDCParam[MAX_NUM_COMPONENT]; std::vector m_substreamSizes; Bool m_cabacInitFlag; Bool m_bLMvdL1Zero; Bool m_temporalLayerNonReferenceFlag; Bool m_LFCrossSliceBoundaryFlag; Bool m_enableTMVPFlag; SliceType m_encCABACTableIdx; // Used to transmit table selection across slices. #if NH_MV Bool m_availableForTMVPRefFlag; #endif #if NH_MV std::vector* m_refPicSetInterLayer0; std::vector* m_refPicSetInterLayer1; Int m_layerId; Int m_viewId; Int m_viewIndex; #if NH_3D Bool m_isDepth; #endif // Additional slice header syntax elements #if !H_MV_HLS7_GEN Bool m_pocResetFlag; #endif Bool m_crossLayerBlaFlag; Bool m_discardableFlag; Bool m_interLayerPredEnabledFlag; Int m_numInterLayerRefPicsMinus1; Int m_interLayerPredLayerIdc [MAX_NUM_LAYERS]; Int m_sliceSegmentHeaderExtensionLength; Int m_pocResetIdc; Int m_pocResetPeriodId; Bool m_fullPocResetFlag; Int m_pocLsbVal; Bool m_pocMsbValPresentFlag; Int m_pocMsbVal; Bool m_pocMsbValRequiredFlag; #if NH_3D IntAry2d m_aaiCodedScale ; IntAry2d m_aaiCodedOffset; #endif #if NH_3D_TMVP Int m_aiAlterRefIdx [2]; #endif #if NH_3D_ARP Bool m_arpRefPicAvailable[2][MAX_NUM_LAYERS]; TComList * m_pBaseViewRefPicList[MAX_NUM_LAYERS]; UInt m_nARPStepNum; Int m_aiFirstTRefIdx [2]; #endif #if NH_3D std::vector m_pocsInCurrRPSs; #endif #if NH_3D_IC Bool m_bApplyIC; Bool m_icSkipParseFlag; #endif #if NH_3D std::vector m_inCmpRefViewIdcs; Bool m_inCmpPredAvailFlag; Bool m_inCmpPredFlag; Bool m_cpAvailableFlag; Int m_numViews; TComPic* m_ivPicsCurrPoc [2][MAX_NUM_LAYERS]; Int** m_depthToDisparityB; Int** m_depthToDisparityF; Bool m_bApplyDIS; #endif #endif #if NH_3D_IC Int* m_aICEnableCandidate; Int* m_aICEnableNum; #endif #if NH_3D Int m_iDefaultRefViewIdx; Bool m_bDefaultRefViewIdxAvailableFlag; Bool m_ivMvPredFlag ; Bool m_ivMvScalingFlag ; Bool m_ivResPredFlag ; Bool m_depthRefinementFlag ; Bool m_viewSynthesisPredFlag; Bool m_depthBasedBlkPartFlag; Bool m_mpiFlag ; Bool m_intraContourFlag ; Bool m_intraSdcWedgeFlag ; Bool m_qtPredFlag ; Bool m_interSdcFlag ; Bool m_depthIntraSkipFlag ; Int m_mpiSubPbSize ; Int m_subPbSize ; #endif public: TComSlice(); virtual ~TComSlice(); Void initSlice(); Void setVPS( TComVPS* pcVPS ) { m_pcVPS = pcVPS; } const TComVPS* getVPS() const { return m_pcVPS; } Void setSPS( const TComSPS* pcSPS ) { m_pcSPS = pcSPS; } const TComSPS* getSPS() const { return m_pcSPS; } Void setPPS( const TComPPS* pcPPS ) { m_pcPPS = pcPPS; m_iPPSId = (pcPPS) ? pcPPS->getPPSId() : -1; } const TComPPS* getPPS() const { return m_pcPPS; } Void setPPSId( Int PPSId ) { m_iPPSId = PPSId; } Int getPPSId() const { return m_iPPSId; } Void setPicOutputFlag( Bool b ) { m_PicOutputFlag = b; } #if NH_MV Void setSlicePicOrderCntLsb( Int i ) { m_slicePicOrderCntLsb = i; } Int getSlicePicOrderCntLsb( ) const { return m_slicePicOrderCntLsb; } #endif Bool getPicOutputFlag() const { return m_PicOutputFlag; } Void setSaoEnabledFlag(ChannelType chType, Bool s) {m_saoEnabledFlag[chType] =s; } Bool getSaoEnabledFlag(ChannelType chType) const { return m_saoEnabledFlag[chType]; } Void setRPS( const TComReferencePictureSet *pcRPS ) { m_pRPS = pcRPS; } const TComReferencePictureSet* getRPS() { return m_pRPS; } TComReferencePictureSet* getLocalRPS() { return &m_localRPS; } Void setRPSidx( Int rpsIdx ) { m_rpsIdx = rpsIdx; } Int getRPSidx() const { return m_rpsIdx; } TComRefPicListModification* getRefPicListModification() { return &m_RefPicListModification; } Void setLastIDR(Int iIDRPOC) { m_iLastIDR = iIDRPOC; } Int getLastIDR() const { return m_iLastIDR; } Void setAssociatedIRAPPOC(Int iAssociatedIRAPPOC) { m_iAssociatedIRAP = iAssociatedIRAPPOC; } Int getAssociatedIRAPPOC() const { return m_iAssociatedIRAP; } Void setAssociatedIRAPType(NalUnitType associatedIRAPType) { m_iAssociatedIRAPType = associatedIRAPType; } NalUnitType getAssociatedIRAPType() const { return m_iAssociatedIRAPType; } SliceType getSliceType() const { return m_eSliceType; } Int getPOC() const { return m_iPOC; } Int getSliceQp() const { return m_iSliceQp; } Bool getDependentSliceSegmentFlag() const { return m_dependentSliceSegmentFlag; } Void setDependentSliceSegmentFlag(Bool val) { m_dependentSliceSegmentFlag = val; } #if ADAPTIVE_QP_SELECTION Int getSliceQpBase() const { return m_iSliceQpBase; } #endif Int getSliceQpDelta() const { return m_iSliceQpDelta; } Int getSliceChromaQpDelta(ComponentID compID) const { return isLuma(compID) ? 0 : m_iSliceChromaQpDelta[compID]; } Bool getUseChromaQpAdj() const { return m_ChromaQpAdjEnabled; } Bool getDeblockingFilterDisable() const { return m_deblockingFilterDisable; } Bool getDeblockingFilterOverrideFlag() const { return m_deblockingFilterOverrideFlag; } Int getDeblockingFilterBetaOffsetDiv2()const { return m_deblockingFilterBetaOffsetDiv2; } Int getDeblockingFilterTcOffsetDiv2() const { return m_deblockingFilterTcOffsetDiv2; } Int getNumRefIdx( RefPicList e ) const { return m_aiNumRefIdx[e]; } TComPic* getPic() { return m_pcPic; } TComPic* getRefPic( RefPicList e, Int iRefIdx) { return m_apcRefPicList[e][iRefIdx]; } Int getRefPOC( RefPicList e, Int iRefIdx) { return m_aiRefPOCList[e][iRefIdx]; } #if NH_3D Bool getInCmpPredAvailFlag( ) const { return m_inCmpPredAvailFlag; } Bool getCpAvailableFlag( ) const { return m_cpAvailableFlag; } Bool getInCompPredFlag( ) const { return m_inCmpPredFlag; } Void setInCompPredFlag( Bool b ) { m_inCmpPredFlag = b; } Int getInCmpRefViewIdcs( Int i ) const { return m_inCmpRefViewIdcs [i]; } Int getNumCurCmpLIds( ) const { return (Int) m_inCmpRefViewIdcs.size(); } TComPic* getIvPic( Bool depthFlag, Int viewIndex) const { return m_ivPicsCurrPoc[ depthFlag ? 1 : 0 ][ viewIndex ]; } TComPic* getTexturePic () { return m_ivPicsCurrPoc[0][ m_viewIndex ]; } #endif #if NH_3D_IC Void setApplyIC( Bool b ) { m_bApplyIC = b; } Bool getApplyIC() { return m_bApplyIC; } Void xSetApplyIC(); Void xSetApplyIC(Bool bUseLowLatencyICEnc); Void setIcSkipParseFlag( Bool b ) { m_icSkipParseFlag = b; } Bool getIcSkipParseFlag() { return m_icSkipParseFlag; } #endif #if NH_3D_ARP Void setBaseViewRefPicList( TComList *pListPic, Int iViewIdx ) { m_pBaseViewRefPicList[iViewIdx] = pListPic; } Void setARPStepNum( TComPicLists*ivPicLists ); TComPic* getBaseViewRefPic ( UInt uiPOC , Int iViewIdx ) { return xGetRefPic( *m_pBaseViewRefPicList[iViewIdx], uiPOC ); } UInt getARPStepNum( ) { return m_nARPStepNum; } #endif Int getDepth() const { return m_iDepth; } Bool getColFromL0Flag() const { return m_colFromL0Flag; } UInt getColRefIdx() const { return m_colRefIdx; } Void checkColRefIdx(UInt curSliceIdx, TComPic* pic); Bool getIsUsedAsLongTerm(Int i, Int j) const { return m_bIsUsedAsLongTerm[i][j]; } Void setIsUsedAsLongTerm(Int i, Int j, Bool value) { m_bIsUsedAsLongTerm[i][j] = value; } Bool getCheckLDC() const { return m_bCheckLDC; } Bool getMvdL1ZeroFlag() const { return m_bLMvdL1Zero; } Int getNumRpsCurrTempList() const; Int getList1IdxToList0Idx( Int list1Idx ) const { return m_list1IdxToList0Idx[list1Idx]; } Void setReferenced(Bool b) { m_bRefenced = b; } Bool isReferenced() const { return m_bRefenced; } Bool isReferenceNalu() const { return ((getNalUnitType() <= NAL_UNIT_RESERVED_VCL_R15) && (getNalUnitType()%2 != 0)) || ((getNalUnitType() >= NAL_UNIT_CODED_SLICE_BLA_W_LP) && (getNalUnitType() <= NAL_UNIT_RESERVED_IRAP_VCL23) ); } Void setPOC( Int i ) { m_iPOC = i; } Void setNalUnitType( NalUnitType e ) { m_eNalUnitType = e; } NalUnitType getNalUnitType() const { return m_eNalUnitType; } Bool getRapPicFlag() const; Bool getIdrPicFlag() const { return getNalUnitType() == NAL_UNIT_CODED_SLICE_IDR_W_RADL || getNalUnitType() == NAL_UNIT_CODED_SLICE_IDR_N_LP; } Bool isIRAP() const { return (getNalUnitType() >= 16) && (getNalUnitType() <= 23); } Void checkCRA(const TComReferencePictureSet *pReferencePictureSet, Int& pocCRA, NalUnitType& associatedIRAPType, TComList& rcListPic); Void decodingRefreshMarking(Int& pocCRA, Bool& bRefreshPending, TComList& rcListPic, const bool bEfficientFieldIRAPEnabled); Void setSliceType( SliceType e ) { m_eSliceType = e; } Void setSliceQp( Int i ) { m_iSliceQp = i; } #if ADAPTIVE_QP_SELECTION Void setSliceQpBase( Int i ) { m_iSliceQpBase = i; } #endif Void setSliceQpDelta( Int i ) { m_iSliceQpDelta = i; } Void setSliceChromaQpDelta( ComponentID compID, Int i ) { m_iSliceChromaQpDelta[compID] = isLuma(compID) ? 0 : i; } Void setUseChromaQpAdj( Bool b ) { m_ChromaQpAdjEnabled = b; } Void setDeblockingFilterDisable( Bool b ) { m_deblockingFilterDisable= b; } Void setDeblockingFilterOverrideFlag( Bool b ) { m_deblockingFilterOverrideFlag = b; } Void setDeblockingFilterBetaOffsetDiv2( Int i ) { m_deblockingFilterBetaOffsetDiv2 = i; } Void setDeblockingFilterTcOffsetDiv2( Int i ) { m_deblockingFilterTcOffsetDiv2 = i; } Void setRefPic( TComPic* p, RefPicList e, Int iRefIdx ) { m_apcRefPicList[e][iRefIdx] = p; } Void setRefPOC( Int i, RefPicList e, Int iRefIdx ) { m_aiRefPOCList[e][iRefIdx] = i; } Void setNumRefIdx( RefPicList e, Int i ) { m_aiNumRefIdx[e] = i; } Void setPic( TComPic* p ) { m_pcPic = p; } Void setDepth( Int iDepth ) { m_iDepth = iDepth; } #if NH_MV Void setPocBeforeReset( Int i ) { m_iPOCBeforeReset = i; } Int getPocBeforeReset( ) { return m_iPOCBeforeReset; } Int getRefLayerId( RefPicList e, Int iRefIdx) { return m_aiRefLayerIdList[e][iRefIdx]; } Void setRefLayerId( Int i, RefPicList e, Int iRefIdx ) { m_aiRefLayerIdList[e][iRefIdx] = i; } Void getTempRefPicLists ( TComList& rcListPic, std::vector& refPicSetInterLayer0, std::vector& refPicSetInterLayer1, std::vector rpsCurrList[2], BoolAry1d usedAsLongTerm[2], Int& numPocTotalCurr, Bool checkNumPocTotalCurr = false ); Void setRefPicList ( std::vector rpsCurrList[2], BoolAry1d usedAsLongTerm[2], Int numPocTotalCurr, Bool checkNumPocTotalCurr = false ); #else Void setRefPicList( TComList& rcListPic, Bool checkNumPocTotalCurr = false ); #endif Void setRefPOCList(); Void setColFromL0Flag( Bool colFromL0 ) { m_colFromL0Flag = colFromL0; } Void setColRefIdx( UInt refIdx) { m_colRefIdx = refIdx; } Void setCheckLDC( Bool b ) { m_bCheckLDC = b; } Void setMvdL1ZeroFlag( Bool b) { m_bLMvdL1Zero = b; } Bool isIntra() const { return m_eSliceType == I_SLICE; } Bool isInterB() const { return m_eSliceType == B_SLICE; } Bool isInterP() const { return m_eSliceType == P_SLICE; } Void setLambdas( const Double lambdas[MAX_NUM_COMPONENT] ) { for (Int component = 0; component < MAX_NUM_COMPONENT; component++) m_lambdas[component] = lambdas[component]; } const Double* getLambdas() const { return m_lambdas; } Void initEqualRef(); Bool isEqualRef( RefPicList e, Int iRefIdx1, Int iRefIdx2 ) { assert(e& rcListPic ); Void setList1IdxToList0Idx(); UInt getTLayer() const { return m_uiTLayer; } Void setTLayer( UInt uiTLayer ) { m_uiTLayer = uiTLayer; } #if NH_MV Int getTemporalId ( ) { return (Int) m_uiTLayer; } #endif Void setTLayerInfo( UInt uiTLayer ); Void decodingMarking( TComList& rcListPic, Int iGOPSIze, Int& iMaxRefPicNum ); Void checkLeadingPictureRestrictions( TComList& rcListPic ); Void applyReferencePictureSet( TComList& rcListPic, const TComReferencePictureSet *RPSList); #if NH_MV Void createInterLayerReferencePictureSet( TComPicLists* ivPicLists, std::vector& refPicSetInterLayer0, std::vector& refPicSetInterLayer1 ); static Void markIvRefPicsAsShortTerm ( std::vector refPicSetInterLayer0, std::vector refPicSetInterLayer1 ); static Void markCurrPic ( TComPic* currPic ); Void printRefPicList(); #endif Bool isTemporalLayerSwitchingPoint( TComList& rcListPic ); Bool isStepwiseTemporalLayerSwitchingPointCandidate( TComList& rcListPic ); Int checkThatAllRefPicsAreAvailable( TComList& rcListPic, const TComReferencePictureSet *pReferencePictureSet, Bool printErrors, Int pocRandomAccess = 0, Bool bUseRecoveryPoint = false); Void createExplicitReferencePictureSetFromReference( TComList& rcListPic, const TComReferencePictureSet *pReferencePictureSet, Bool isRAP, Int pocRandomAccess, Bool bUseRecoveryPoint, const Bool bEfficientFieldIRAPEnabled); Void setMaxNumMergeCand(UInt val ) { m_maxNumMergeCand = val; } UInt getMaxNumMergeCand() const { return m_maxNumMergeCand; } Void setNoOutputPriorPicsFlag( Bool val ) { m_noOutputPriorPicsFlag = val; } Bool getNoOutputPriorPicsFlag() const { return m_noOutputPriorPicsFlag; } Void setNoRaslOutputFlag( Bool val ) { m_noRaslOutputFlag = val; } Bool getNoRaslOutputFlag() const { return m_noRaslOutputFlag; } Void setHandleCraAsBlaFlag( Bool val ) { m_handleCraAsBlaFlag = val; } Bool getHandleCraAsBlaFlag() const { return m_handleCraAsBlaFlag; } Void setSliceMode( SliceConstraint mode ) { m_sliceMode = mode; } SliceConstraint getSliceMode() const { return m_sliceMode; } Void setSliceArgument( UInt uiArgument ) { m_sliceArgument = uiArgument; } UInt getSliceArgument() const { return m_sliceArgument; } Void setSliceCurStartCtuTsAddr( UInt ctuTsAddr ) { m_sliceCurStartCtuTsAddr = ctuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) UInt getSliceCurStartCtuTsAddr() const { return m_sliceCurStartCtuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) Void setSliceCurEndCtuTsAddr( UInt ctuTsAddr ) { m_sliceCurEndCtuTsAddr = ctuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) UInt getSliceCurEndCtuTsAddr() const { return m_sliceCurEndCtuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) Void setSliceIdx( UInt i) { m_sliceIdx = i; } UInt getSliceIdx() const { return m_sliceIdx; } Void copySliceInfo(TComSlice *pcSliceSrc); Void setSliceSegmentMode( SliceConstraint mode ) { m_sliceSegmentMode = mode; } SliceConstraint getSliceSegmentMode() const { return m_sliceSegmentMode; } Void setSliceSegmentArgument( UInt uiArgument ) { m_sliceSegmentArgument = uiArgument; } UInt getSliceSegmentArgument() const { return m_sliceSegmentArgument; } Void setSliceSegmentCurStartCtuTsAddr( UInt ctuTsAddr ) { m_sliceSegmentCurStartCtuTsAddr = ctuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) UInt getSliceSegmentCurStartCtuTsAddr() const { return m_sliceSegmentCurStartCtuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) Void setSliceSegmentCurEndCtuTsAddr( UInt ctuTsAddr ) { m_sliceSegmentCurEndCtuTsAddr = ctuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) UInt getSliceSegmentCurEndCtuTsAddr() const { return m_sliceSegmentCurEndCtuTsAddr; } // CTU Tile-scan address (as opposed to raster-scan) Void setSliceBits( UInt uiVal ) { m_sliceBits = uiVal; } UInt getSliceBits() const { return m_sliceBits; } Void setSliceSegmentBits( UInt uiVal ) { m_sliceSegmentBits = uiVal; } UInt getSliceSegmentBits() const { return m_sliceSegmentBits; } Void setFinalized( Bool uiVal ) { m_bFinalized = uiVal; } Bool getFinalized() const { return m_bFinalized; } Bool testWeightPred( ) const { return m_bTestWeightPred; } Void setTestWeightPred( Bool bValue ) { m_bTestWeightPred = bValue; } Bool testWeightBiPred( ) const { return m_bTestWeightBiPred; } Void setTestWeightBiPred( Bool bValue ) { m_bTestWeightBiPred = bValue; } Void setWpScaling( WPScalingParam wp[NUM_REF_PIC_LIST_01][MAX_NUM_REF][MAX_NUM_COMPONENT] ) { memcpy(m_weightPredTable, wp, sizeof(WPScalingParam)*NUM_REF_PIC_LIST_01*MAX_NUM_REF*MAX_NUM_COMPONENT); } Void getWpScaling( RefPicList e, Int iRefIdx, WPScalingParam *&wp); Void resetWpScaling(); Void initWpScaling(const TComSPS *sps); Void setWpAcDcParam( WPACDCParam wp[MAX_NUM_COMPONENT] ) { memcpy(m_weightACDCParam, wp, sizeof(WPACDCParam)*MAX_NUM_COMPONENT); } Void getWpAcDcParam( WPACDCParam *&wp ); Void initWpAcDcParam(); Void clearSubstreamSizes( ) { return m_substreamSizes.clear(); } UInt getNumberOfSubstreamSizes( ) { return (UInt) m_substreamSizes.size(); } Void addSubstreamSize( UInt size ) { m_substreamSizes.push_back(size); } UInt getSubstreamSize( Int idx ) { assert(idxgetLayerIdInVps( m_layerId ); } Void setViewId ( Int viewId ) { m_viewId = viewId; } Int getViewId () const { return m_viewId; } Void setViewIndex ( Int viewIndex ) { m_viewIndex = viewIndex; } Int getViewIndex () const { return m_viewIndex; } #if NH_3D #if NH_3D_TMVP Void generateAlterRefforTMVP (); Void setAlterRefIdx ( RefPicList e, Int i ) { m_aiAlterRefIdx[e] = i; } Int getAlterRefIdx ( RefPicList e ) { return m_aiAlterRefIdx[e]; } #endif #if NH_3D_ARP Int getFirstTRefIdx ( RefPicList e ) { return m_aiFirstTRefIdx[e]; } Void setFirstTRefIdx ( RefPicList e, Int i ) { m_aiFirstTRefIdx[e] = i; } Bool getArpRefPicAvailable ( RefPicList e, Int viewIdx) { return m_arpRefPicAvailable[e][getVPS()->getLayerIdInNuh(viewIdx, 0)]; } IntAry1d getPocsInCurrRPSs() { return m_pocsInCurrRPSs; } #endif Void setIsDepth ( Bool isDepth ) { m_isDepth = isDepth; } Bool getIsDepth () const { return m_isDepth; } Void setCamparaSlice ( Int** aaiScale = 0, Int** aaiOffset = 0 ); IntAry1d getCodedScale () const { return m_aaiCodedScale [0]; } IntAry1d getCodedOffset () const { return m_aaiCodedOffset[0]; } IntAry1d getInvCodedScale () const { return m_aaiCodedScale [1]; } IntAry1d getInvCodedOffset () const { return m_aaiCodedOffset[1]; } Void setCpScale( Int j, Int val ) { m_aaiCodedScale[0][j] = val; } Int getCpScale( Int j ) { return m_aaiCodedScale[0][j]; } Void setCpOff( Int j, Int val ) { m_aaiCodedOffset[0][j] = val; } Int getCpOff( Int j ) { return m_aaiCodedOffset[0][j]; } Void setCpInvScale( Int j, Int val ) { m_aaiCodedScale[1][j] = val; } Int getCpInvScale( Int j ) { return m_aaiCodedScale[1][j]; } Void setCpInvOff( Int j, Int val ) { m_aaiCodedOffset[1][j] = val; } Int getCpInvOff( Int j ) { return m_aaiCodedOffset[1][j]; } Void setIvPicLists( TComPicLists* m_ivPicLists ); Void setDepthToDisparityLUTs(); Int* getDepthToDisparityB( Int refViewIdx ) { return m_depthToDisparityB[ getVPS()->getVoiInVps( refViewIdx) ];} Int* getDepthToDisparityF( Int refViewIdx ) { return m_depthToDisparityF[ getVPS()->getVoiInVps( refViewIdx) ];} #if NH_3D_IC Void setICEnableCandidate( Int* icEnableCandidate) { m_aICEnableCandidate = icEnableCandidate; } Void setICEnableNum( Int* icEnableNum) { m_aICEnableNum = icEnableNum; } Void setICEnableCandidate( UInt layer, Int value) { m_aICEnableCandidate[ layer ] = value; } Void setICEnableNum( UInt layer, Int value) { m_aICEnableNum[ layer ] = value; ; } Int getICEnableCandidate( Int layer) { return m_aICEnableCandidate[ layer ]; } Int getICEnableNum( Int layer) { return m_aICEnableNum[ layer ]; } #endif #endif // Additional slice header syntax elements Void setCrossLayerBlaFlag( Bool flag ) { m_crossLayerBlaFlag = flag; } Bool getCrossLayerBlaFlag( ) const { return m_crossLayerBlaFlag; } Void checkCrossLayerBlaFlag ( ) const ; #if !H_MV_HLS7_GEN Void setPocResetFlag( Bool flag ) { m_pocResetFlag = flag; } Bool getPocResetFlag( ) const { return m_pocResetFlag; } #endif Void setDiscardableFlag( Bool flag ) { m_discardableFlag = flag; } Bool getDiscardableFlag( ) const { return m_discardableFlag; } Void setInterLayerPredEnabledFlag( Bool flag ) { m_interLayerPredEnabledFlag = flag; } Bool getInterLayerPredEnabledFlag( ) const { return m_interLayerPredEnabledFlag; } Void setNumInterLayerRefPicsMinus1( Int val ) { m_numInterLayerRefPicsMinus1 = val; } Int getNumInterLayerRefPicsMinus1( ) const { return m_numInterLayerRefPicsMinus1; } Void setInterLayerPredLayerIdc( Int i, Int val ) { m_interLayerPredLayerIdc[i] = val; } Int getInterLayerPredLayerIdc( Int i ) const { return m_interLayerPredLayerIdc[i]; } Void setSliceSegmentHeaderExtensionLength( Int val ) { m_sliceSegmentHeaderExtensionLength = val; } Int getSliceSegmentHeaderExtensionLength( ) const { return m_sliceSegmentHeaderExtensionLength; } Void setPocResetIdc( Int val ) { m_pocResetIdc = val; } Int getPocResetIdc( ) const { return m_pocResetIdc; } Void checkPocResetIdc( ) const { assert( !(getVPS()->getPocLsbNotPresentFlag( getLayerIdInVps() ) ) || !(getSlicePicOrderCntLsb() > 0 ) || !( getPocResetIdc() == 2) ); } Void setPocResetPeriodId( Int val ) { m_pocResetPeriodId = val; } Int getPocResetPeriodId( ) const { return m_pocResetPeriodId; } Void setFullPocResetFlag( Bool flag ) { m_fullPocResetFlag = flag; } Bool getFullPocResetFlag( ) const { return m_fullPocResetFlag; } Void setPocLsbVal( Int val ) { m_pocLsbVal = val; } Int getPocLsbVal( ) const { return m_pocLsbVal; } Void checkPocLsbVal( ) const { assert( !(getVPS()->getPocLsbNotPresentFlag( getLayerIdInVps() ) ) || !getFullPocResetFlag() || ( getPocLsbVal() == 0 ) ); } Void setPocMsbValPresentFlag( Bool flag ) { m_pocMsbValPresentFlag = flag; } Bool getPocMsbValPresentFlag( ) const { return m_pocMsbValPresentFlag; } Void setPocMsbVal( Int val ) { m_pocMsbVal = val; } Int getPocMsbVal( ) const { return m_pocMsbVal; } Bool getCraOrBlaPicFlag() const { return ( getCraPicFlag() || getBlaPicFlag() ); } Bool getPocMsbValRequiredFlag() const { return ( getCraOrBlaPicFlag() && ( getVPS()->getVpsPocLsbAlignedFlag() || getVPS()->getNumDirectRefLayers( getLayerIdInVps() ) == 0 ) ); } UInt getPocLsbValLen() const { return getSPS()->getBitsForPOC(); }; //log2_max_pic_order_cnt_lsb_minus4 + 4 Bool getBlaPicFlag() const { return getNalUnitType() == NAL_UNIT_CODED_SLICE_BLA_N_LP || getNalUnitType() == NAL_UNIT_CODED_SLICE_BLA_W_RADL || getNalUnitType() == NAL_UNIT_CODED_SLICE_BLA_W_LP; } Bool getCraPicFlag () const { return getNalUnitType() == NAL_UNIT_CODED_SLICE_CRA; } // Additional variables derived in slice header semantics #if NH_3D Int getNumInterLayerRefPicsMinus1Len( ) const { return gCeilLog2( getVPS()->getNumRefListLayers( getLayerId() )); } Int getInterLayerPredLayerIdcLen ( ) const { return gCeilLog2( getVPS()->getNumRefListLayers( getLayerId() )); } #else Int getNumInterLayerRefPicsMinus1Len( ) const { return gCeilLog2( getVPS()->getNumDirectRefLayers( getLayerId() )); } Int getInterLayerPredLayerIdcLen ( ) const { return gCeilLog2( getVPS()->getNumDirectRefLayers( getLayerId() )); } #endif Int getRefLayerPicFlag( Int i ) const; Int getRefLayerPicIdc ( Int j ) const; Int getNumRefLayerPics( ) const; Int getNumActiveRefLayerPics( ) const; Int getNumActiveRefLayerPics0( ) const { return (Int) m_refPicSetInterLayer0->size(); }; Int getNumActiveRefLayerPics1( ) const { return (Int) m_refPicSetInterLayer1->size(); }; Int getRefPicLayerId ( Int i ) const; Void setRefPicSetInterLayer ( std::vector* refPicSetInterLayer0, std::vector* refPicSetInterLayer1); TComPic* getPicFromRefPicSetInterLayer ( Int setIdc, Int layerId ) const ; #if NH_3D // 3D-HEVC tool parameters Void deriveInCmpPredAndCpAvailFlag( ); Void init3dToolParameters(); Void checkInCompPredRefLayers();; Bool getIvMvPredFlag ( ) { return m_ivMvPredFlag ; }; Bool getIvMvScalingFlag ( ) { return m_ivMvScalingFlag ; }; Bool getIvResPredFlag ( ) { return m_ivResPredFlag ; }; Bool getDepthRefinementFlag ( ) { return m_depthRefinementFlag ; }; Bool getViewSynthesisPredFlag ( ) { return m_viewSynthesisPredFlag ; }; Bool getDepthBasedBlkPartFlag ( ) { return m_depthBasedBlkPartFlag ; }; Bool getMpiFlag ( ) { return m_mpiFlag ; }; Bool getIntraContourFlag ( ) { return m_intraContourFlag ; }; Bool getIntraSdcWedgeFlag ( ) { return m_intraSdcWedgeFlag ; }; Bool getQtPredFlag ( ) { return m_qtPredFlag ; }; Bool getInterSdcFlag ( ) { return m_interSdcFlag ; }; Bool getDepthIntraSkipFlag ( ) { return m_depthIntraSkipFlag ; }; Int getMpiSubPbSize ( ) { return m_mpiSubPbSize ; }; Int getSubPbSize ( ) { return m_subPbSize ; }; #if NH_3D_NBDV Int getDefaultRefViewIdx() { return m_iDefaultRefViewIdx; } Void setDefaultRefViewIdx(Int iViewIdx) { m_iDefaultRefViewIdx = iViewIdx; } Bool getDefaultRefViewIdxAvailableFlag() { return m_bDefaultRefViewIdxAvailableFlag; } Void setDefaultRefViewIdxAvailableFlag(Bool bViewIdx) { m_bDefaultRefViewIdxAvailableFlag = bViewIdx; } Void setDefaultRefView( ); #endif #endif // Inference Bool inferPocMsbValPresentFlag(); #endif protected: TComPic* xGetRefPic (TComList& rcListPic, Int poc); TComPic* xGetLongTermRefPic(TComList& rcListPic, Int poc, Bool pocHasMsb); #if NH_MV TComPic* xGetInterLayerRefPic( std::vector& rcListIlPic, Int layerId ); #endif };// END CLASS DEFINITION TComSlice Void calculateParameterSetChangedFlag(Bool &bChanged, const std::vector *pOldData, const std::vector &newData); template class ParameterSetMap { public: template struct MapData { Bool bChanged; std::vector *pNaluData; // Can be null Tm* parameterSet; }; ParameterSetMap(Int maxId) :m_maxId (maxId) {} ~ParameterSetMap() { for (typename std::map >::iterator i = m_paramsetMap.begin(); i!= m_paramsetMap.end(); i++) { delete (*i).second.pNaluData; delete (*i).second.parameterSet; } } Void storePS(Int psId, T *ps, const std::vector &naluData) { assert ( psId < m_maxId ); if ( m_paramsetMap.find(psId) != m_paramsetMap.end() ) { MapData &mapData=m_paramsetMap[psId]; // work out changed flag calculateParameterSetChangedFlag(mapData.bChanged, mapData.pNaluData, naluData); delete m_paramsetMap[psId].pNaluData; delete m_paramsetMap[psId].parameterSet; m_paramsetMap[psId].parameterSet = ps; } else { m_paramsetMap[psId].parameterSet = ps; m_paramsetMap[psId].bChanged = false; } m_paramsetMap[psId].pNaluData=new std::vector; *(m_paramsetMap[psId].pNaluData) = naluData; } Void clearChangedFlag(Int psId) { if ( m_paramsetMap.find(psId) != m_paramsetMap.end() ) { m_paramsetMap[psId].bChanged=false; } } Bool getChangedFlag(Int psId) const { const typename std::map >::const_iterator constit=m_paramsetMap.find(psId); if ( constit != m_paramsetMap.end() ) { return constit->second.bChanged; } return false; } T* getPS(Int psId) { typename std::map >::iterator it=m_paramsetMap.find(psId); return ( it == m_paramsetMap.end() ) ? NULL : (it)->second.parameterSet; } const T* getPS(Int psId) const { typename std::map >::const_iterator it=m_paramsetMap.find(psId); return ( it == m_paramsetMap.end() ) ? NULL : (it)->second.parameterSet; } T* getFirstPS() { return (m_paramsetMap.begin() == m_paramsetMap.end() ) ? NULL : m_paramsetMap.begin()->second.parameterSet; } private: std::map > m_paramsetMap; Int m_maxId; }; class ParameterSetManager { public: ParameterSetManager(); virtual ~ParameterSetManager(); //! store sequence parameter set and take ownership of it Void storeVPS(TComVPS *vps, const std::vector &naluData) { m_vpsMap.storePS( vps->getVPSId(), vps, naluData); }; //! get pointer to existing video parameter set TComVPS* getVPS(Int vpsId) { return m_vpsMap.getPS(vpsId); }; Bool getVPSChangedFlag(Int vpsId) const { return m_vpsMap.getChangedFlag(vpsId); } Void clearVPSChangedFlag(Int vpsId) { m_vpsMap.clearChangedFlag(vpsId); } TComVPS* getFirstVPS() { return m_vpsMap.getFirstPS(); }; //! store sequence parameter set and take ownership of it Void storeSPS(TComSPS *sps, const std::vector &naluData) { m_spsMap.storePS( sps->getSPSId(), sps, naluData); }; //! get pointer to existing sequence parameter set TComSPS* getSPS(Int spsId) { return m_spsMap.getPS(spsId); }; Bool getSPSChangedFlag(Int spsId) const { return m_spsMap.getChangedFlag(spsId); } Void clearSPSChangedFlag(Int spsId) { m_spsMap.clearChangedFlag(spsId); } TComSPS* getFirstSPS() { return m_spsMap.getFirstPS(); }; //! store picture parameter set and take ownership of it Void storePPS(TComPPS *pps, const std::vector &naluData) { m_ppsMap.storePS( pps->getPPSId(), pps, naluData); }; //! get pointer to existing picture parameter set TComPPS* getPPS(Int ppsId) { return m_ppsMap.getPS(ppsId); }; Bool getPPSChangedFlag(Int ppsId) const { return m_ppsMap.getChangedFlag(ppsId); } Void clearPPSChangedFlag(Int ppsId) { m_ppsMap.clearChangedFlag(ppsId); } TComPPS* getFirstPPS() { return m_ppsMap.getFirstPS(); }; //! activate a SPS from a active parameter sets SEI message //! \returns true, if activation is successful #if NH_MV // Bool activateSPSWithSEI(Int SPSId, Int layerId ); #else // Bool activateSPSWithSEI(Int SPSId); #endif //! activate a PPS and depending on isIDR parameter also SPS and VPS //! \returns true, if activation is successful #if NH_MV Bool activatePPS(Int ppsId, Bool isIRAP, Int layerId ); #else Bool activatePPS(Int ppsId, Bool isIRAP); #endif const TComVPS* getActiveVPS()const { return m_vpsMap.getPS(m_activeVPSId); }; #if NH_MV const TComSPS* getActiveSPS( Int layer )const { return m_spsMap.getPS(m_activeSPSId[layer]); }; #else const TComSPS* getActiveSPS()const { return m_spsMap.getPS(m_activeSPSId); }; #endif protected: ParameterSetMap m_vpsMap; ParameterSetMap m_spsMap; ParameterSetMap m_ppsMap; Int m_activeVPSId; // -1 for nothing active #if NH_MV Int m_activeSPSId[ MAX_NUM_LAYERS ]; // -1 for nothing active #else Int m_activeSPSId; // -1 for nothing active #endif }; //! \} #endif // __TCOMSLICE__