/* 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) 2010-2011, 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 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 "CommonDef.h" #ifdef WEIGHT_PRED #include // To avoid compilation failure with some g++ linux compilators... #endif #include "TComList.h" #include class TComPic; #if DEPTH_MAP_GENERATION class TComDepthMapGenerator; #endif #if HHI_INTER_VIEW_RESIDUAL_PRED class TComResidualGenerator; #endif #if POZNAN_MP //#include "../TLibCommon/TComMP.h" class TComMP; #endif // ==================================================================================================================== // Class definition // ==================================================================================================================== /// SPS class class TComSPS { private: // Structure UInt m_uiSPSId; UInt m_uiWidth; UInt m_uiHeight; Int m_aiPad[2]; UInt m_uiMaxCUWidth; UInt m_uiMaxCUHeight; UInt m_uiMaxCUDepth; UInt m_uiMinTrDepth; UInt m_uiMaxTrDepth; #if BITSTREAM_EXTRACTION UInt m_uiLayerId; #endif UInt m_uiViewId; Int m_iViewOrderIdx; Bool m_bDepth; UInt m_uiCamParPrecision; Bool m_bCamParInSliceHeader; Int m_aaiCodedScale [2][MAX_NUMBER_VIEWS]; Int m_aaiCodedOffset[2][MAX_NUMBER_VIEWS]; // Tool list UInt m_uiQuadtreeTULog2MaxSize; UInt m_uiQuadtreeTULog2MinSize; UInt m_uiQuadtreeTUMaxDepthInter; UInt m_uiQuadtreeTUMaxDepthIntra; Bool m_bUseALF; Bool m_bUseDQP; #if !HHI_NO_LowDelayCoding Bool m_bUseLDC; #endif Bool m_bUsePAD; Bool m_bUseMRG; // SOPH: #if LM_CHROMA Bool m_bUseLMChroma; // JL: #endif #if DCM_COMB_LIST Bool m_bUseLComb; Bool m_bLCMod; #endif #if HHI_RMP_SWITCH Bool m_bUseRMP; #endif // Parameter AMVP_MODE m_aeAMVPMode[MAX_CU_DEPTH]; UInt m_uiBitDepth; UInt m_uiBitIncrement; // Max physical transform size UInt m_uiMaxTrSize; Int m_iAMPAcc[MAX_CU_DEPTH]; #if MTK_NONCROSS_INLOOP_FILTER Bool m_bLFCrossSliceBoundaryFlag; #endif #if MTK_SAO Bool m_bUseSAO; #endif #if HHI_MPI Bool m_bUseMVI; #endif UInt m_uiCodedPictureBufferSize ; #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX Bool m_bUseDMM; #endif #if HHI_DMM_PRED_TEX && FLEX_CODING_ORDER Bool m_bUseDMM34; #endif #if DEPTH_MAP_GENERATION UInt m_uiPredDepthMapGeneration; UInt m_uiPdmPrecision; Int m_aiPdmScaleNomDelta[MAX_NUMBER_VIEWS]; Int m_aiPdmOffset [MAX_NUMBER_VIEWS]; #endif #if HHI_INTER_VIEW_MOTION_PRED UInt m_uiMultiviewMvPredMode; #endif #if HHI_INTER_VIEW_RESIDUAL_PRED UInt m_uiMultiviewResPredMode; #endif #if POZNAN_DBMP UInt m_uiDBMP; #endif #if POZNAN_ENCODE_ONLY_DISOCCLUDED_CU UInt m_uiUseCUSkip; #endif #if DEPTH_MAP_GENERATION TComDepthMapGenerator* m_pcDepthMapGenerator; #endif #if HHI_INTER_VIEW_RESIDUAL_PRED TComResidualGenerator* m_pcResidualGenerator; #endif #if POZNAN_NONLINEAR_DEPTH TComNonlinearDepthModel m_cNonlinearDepthModel; Bool m_bUseNonlinearDepth; #endif #if POZNAN_MP TComMP* m_pcMP; #endif #if POZNAN_TEXTURE_TU_DELTA_QP_ACCORDING_TO_DEPTH Bool m_bUseTexDqpAccordingToDepth; #endif public: TComSPS(); virtual ~TComSPS(); // structure Void setSPSId ( UInt u ) { m_uiSPSId = u; } UInt getSPSId () { return m_uiSPSId; } Void setWidth ( UInt u ) { m_uiWidth = u; } UInt getWidth () { return m_uiWidth; } Void setHeight ( UInt u ) { m_uiHeight = u; } UInt getHeight () { return m_uiHeight; } Void setMaxCUWidth ( UInt u ) { m_uiMaxCUWidth = u; } UInt getMaxCUWidth () { return m_uiMaxCUWidth; } Void setMaxCUHeight ( UInt u ) { m_uiMaxCUHeight = u; } UInt getMaxCUHeight () { return m_uiMaxCUHeight; } Void setMaxCUDepth ( UInt u ) { m_uiMaxCUDepth = u; } UInt getMaxCUDepth () { return m_uiMaxCUDepth; } Void setMinTrDepth ( UInt u ) { m_uiMinTrDepth = u; } UInt getMinTrDepth () { return m_uiMinTrDepth; } Void setMaxTrDepth ( UInt u ) { m_uiMaxTrDepth = u; } UInt getMaxTrDepth () { return m_uiMaxTrDepth; } Void setQuadtreeTULog2MaxSize( UInt u ) { m_uiQuadtreeTULog2MaxSize = u; } UInt getQuadtreeTULog2MaxSize() { return m_uiQuadtreeTULog2MaxSize; } Void setQuadtreeTULog2MinSize( UInt u ) { m_uiQuadtreeTULog2MinSize = u; } UInt getQuadtreeTULog2MinSize() { return m_uiQuadtreeTULog2MinSize; } Void setQuadtreeTUMaxDepthInter( UInt u ) { m_uiQuadtreeTUMaxDepthInter = u; } Void setQuadtreeTUMaxDepthIntra( UInt u ) { m_uiQuadtreeTUMaxDepthIntra = u; } UInt getQuadtreeTUMaxDepthInter() { return m_uiQuadtreeTUMaxDepthInter; } UInt getQuadtreeTUMaxDepthIntra() { return m_uiQuadtreeTUMaxDepthIntra; } Void setPad (Int iPad[2]) { m_aiPad[0] = iPad[0]; m_aiPad[1] = iPad[1]; } Void setPadX ( Int u ) { m_aiPad[0] = u; } Void setPadY ( Int u ) { m_aiPad[1] = u; } Int getPad ( Int u ) { assert(u < 2); return m_aiPad[u];} Int* getPad ( ) { return m_aiPad; } #if FLEX_CODING_ORDER Void initMultiviewSPS ( UInt uiViewId, Int iViewOrderIdx = 0, UInt uiCamParPrecision = 0, Bool bCamParSlice = false, Int** aaiScale = 0, Int** aaiOffset = 0, Bool bDepth = false ); #else Void initMultiviewSPS ( UInt uiViewId, Int iViewOrderIdx = 0, UInt uiCamParPrecision = 0, Bool bCamParSlice = false, Int** aaiScale = 0, Int** aaiOffset = 0 ); #endif Void initMultiviewSPSDepth ( UInt uiViewId, Int iViewOrderIdx ); UInt getViewId () { return m_uiViewId; } Int getViewOrderIdx () { return m_iViewOrderIdx; } Bool isDepth () { return m_bDepth; } UInt getCamParPrecision () { return m_uiCamParPrecision; } Bool hasCamParInSliceHeader() { return m_bCamParInSliceHeader; } Int* getCodedScale () { return m_aaiCodedScale [0]; } Int* getCodedOffset () { return m_aaiCodedOffset[0]; } Int* getInvCodedScale () { return m_aaiCodedScale [1]; } Int* getInvCodedOffset () { return m_aaiCodedOffset[1]; } // physical transform Void setMaxTrSize ( UInt u ) { m_uiMaxTrSize = u; } UInt getMaxTrSize () { return m_uiMaxTrSize; } // Tool list #if POZNAN_ENCODE_ONLY_DISOCCLUDED_CU Bool getUseALF () { return (getViewId()>0)?false:m_bUseALF;} //todo fix ALF #else Bool getUseALF () { return m_bUseALF; } #endif Bool getUseDQP () { return m_bUseDQP; } #if !HHI_NO_LowDelayCoding Bool getUseLDC () { return m_bUseLDC; } #endif Bool getUsePAD () { return m_bUsePAD; } Bool getUseMRG () { return m_bUseMRG; } // SOPH: Void setUseALF ( Bool b ) { m_bUseALF = b; } Void setUseDQP ( Bool b ) { m_bUseDQP = b; } #if !HHI_NO_LowDelayCoding Void setUseLDC ( Bool b ) { m_bUseLDC = b; } #endif Void setUsePAD ( Bool b ) { m_bUsePAD = b; } Void setUseMRG ( Bool b ) { m_bUseMRG = b; } // SOPH: #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX Bool getUseDMM() { return m_bUseDMM; } Void setUseDMM( Bool b ) { m_bUseDMM = b; } #endif #if HHI_DMM_PRED_TEX && FLEX_CODING_ORDER Bool getUseDMM34() { return m_bUseDMM34; } Void setUseDMM34( Bool b ) { m_bUseDMM34 = b; } #endif #if DCM_COMB_LIST Void setUseLComb (Bool b) { m_bUseLComb = b; } Bool getUseLComb () { return m_bUseLComb; } Void setLCMod (Bool b) { m_bLCMod = b; } Bool getLCMod () { return m_bLCMod; } #endif #if HHI_RMP_SWITCH Bool getUseRMP () { return m_bUseRMP; } Void setUseRMP ( Bool b ) { m_bUseRMP = b; } #endif #if LM_CHROMA Bool getUseLMChroma () { return m_bUseLMChroma; } Void setUseLMChroma ( Bool b ) { m_bUseLMChroma = b; } #endif // AMVP mode (for each depth) AMVP_MODE getAMVPMode ( UInt uiDepth ) { assert(uiDepth < g_uiMaxCUDepth); return m_aeAMVPMode[uiDepth]; } Void setAMVPMode ( UInt uiDepth, AMVP_MODE eMode) { assert(uiDepth < g_uiMaxCUDepth); m_aeAMVPMode[uiDepth] = eMode; } // Bit-depth UInt getBitDepth () { return m_uiBitDepth; } Void setBitDepth ( UInt u ) { m_uiBitDepth = u; } UInt getBitIncrement () { return m_uiBitIncrement; } Void setBitIncrement ( UInt u ) { m_uiBitIncrement = u; } #if MTK_NONCROSS_INLOOP_FILTER Void setLFCrossSliceBoundaryFlag ( Bool bValue ) { m_bLFCrossSliceBoundaryFlag = bValue; } Bool getLFCrossSliceBoundaryFlag () { return m_bLFCrossSliceBoundaryFlag; } #endif #if MTK_SAO Void setUseSAO (Bool bVal) {m_bUseSAO = bVal;} #if POZNAN_ENCODE_ONLY_DISOCCLUDED_CU //todo fix SAO Bool getUseSAO () { return (getUseCUSkip() && getViewId()>0)?false:m_bUseSAO;} #else Bool getUseSAO () {return m_bUseSAO;} #endif #endif #if HHI_MPI Void setUseMVI (Bool bVal) {m_bUseMVI = bVal;} Bool getUseMVI () {return m_bUseMVI;} #endif Void setCodedPictureBufferSize( UInt u ) { m_uiCodedPictureBufferSize = u ;} UInt getCodedPictureBufferSize( ) { return m_uiCodedPictureBufferSize ;} #if DEPTH_MAP_GENERATION Void setPredDepthMapGeneration( UInt uiViewId, Bool bIsDepth, UInt uiPdmGenMode = 0, UInt uiPdmMvPredMode = 0, UInt uiPdmPrec = 0, Int** aaiPdmScaleNomDelta = 0, Int** aaiPdmOffset = 0 ); #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Void setMultiviewResPredMode ( UInt uiResPrdMode ) { m_uiMultiviewResPredMode = uiResPrdMode; } #endif #if POZNAN_DBMP Void setDBMP ( UInt uiDBMP ) { m_uiDBMP = uiDBMP; } #endif #if POZNAN_ENCODE_ONLY_DISOCCLUDED_CU Void setUseCUSkip ( UInt uiUseCUSkip ) { m_uiUseCUSkip = uiUseCUSkip; } #endif #if DEPTH_MAP_GENERATION UInt getPredDepthMapGeneration() { return m_uiPredDepthMapGeneration; } UInt getPdmPrecision () { return m_uiPdmPrecision; } Int* getPdmScaleNomDelta () { return m_aiPdmScaleNomDelta; } Int* getPdmOffset () { return m_aiPdmOffset; } #endif #if HHI_INTER_VIEW_MOTION_PRED UInt getMultiviewMvPredMode () { return m_uiMultiviewMvPredMode; } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED UInt getMultiviewResPredMode () { return m_uiMultiviewResPredMode; } #endif #if POZNAN_DBMP UInt getDBMP () { return m_uiDBMP; } #endif #if POZNAN_ENCODE_ONLY_DISOCCLUDED_CU UInt getUseCUSkip () { return m_uiUseCUSkip; } #endif #if DEPTH_MAP_GENERATION Void setDepthMapGenerator( TComDepthMapGenerator* pcDepthMapGenerator ) { m_pcDepthMapGenerator = pcDepthMapGenerator; } TComDepthMapGenerator* getDepthMapGenerator() { return m_pcDepthMapGenerator; } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Void setResidualGenerator( TComResidualGenerator* pcResidualGenerator ) { m_pcResidualGenerator = pcResidualGenerator; } TComResidualGenerator* getResidualGenerator() { return m_pcResidualGenerator; } #endif #if POZNAN_NONLINEAR_DEPTH inline Void setNonlinearDepthModel( TComNonlinearDepthModel &rp ){ m_cNonlinearDepthModel = rp; } inline TComNonlinearDepthModel& getNonlinearDepthModel() { return m_cNonlinearDepthModel; } Bool getUseNonlinearDepth() { return m_bUseNonlinearDepth; } Void setUseNonlinearDepth( Bool bVal ) { m_bUseNonlinearDepth = bVal; } #endif #if POZNAN_TEXTURE_TU_DELTA_QP_ACCORDING_TO_DEPTH Void setUseTexDqpAccordingToDepth (Bool bVal) {m_bUseTexDqpAccordingToDepth = bVal;} Bool getUseTexDqpAccordingToDepth () {return m_bUseTexDqpAccordingToDepth;} #endif #if BITSTREAM_EXTRACTION Void setLayerId ( UInt u ) { m_uiLayerId = u; } UInt getLayerId () { return m_uiLayerId; } #endif }; /// PPS class class TComPPS { private: #if CONSTRAINED_INTRA_PRED Bool m_bConstrainedIntraPred; // constrained_intra_pred_flag #endif #ifdef WEIGHT_PRED Bool m_bUseWeightPred; // Use of Weighting Prediction (P_SLICE) UInt m_uiBiPredIdc; // Use of Weighting Bi-Prediction (B_SLICE) #endif UInt m_uiPPSId; UInt m_uiSPSId; #if BITSTREAM_EXTRACTION UInt m_uiLayerId; #endif public: TComPPS(); virtual ~TComPPS(); Void setPPSId ( UInt u ) { m_uiPPSId = u; } UInt getPPSId () { return m_uiPPSId; } Void setSPSId ( UInt u ) { m_uiSPSId = u; } UInt getSPSId () { return m_uiSPSId; } #if CONSTRAINED_INTRA_PRED Bool getConstrainedIntraPred () { return m_bConstrainedIntraPred; } Void setConstrainedIntraPred ( Bool b ) { m_bConstrainedIntraPred = b; } #endif #ifdef WEIGHT_PRED Bool getUseWP () { return m_bUseWeightPred; } UInt getWPBiPredIdc () { return m_uiBiPredIdc; } Void setUseWP ( Bool b ) { m_bUseWeightPred = b; } Void setWPBiPredIdc ( UInt u ) { m_uiBiPredIdc = u; } #endif #if BITSTREAM_EXTRACTION Void setLayerId ( UInt u ) { m_uiLayerId = u; } UInt getLayerId () { return m_uiLayerId; } #endif }; #ifdef WEIGHT_PRED typedef struct { // 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, o, offset, shift, round; } wpScalingParam; typedef struct { Int64 iAC; Int64 iDC; } wpACDCParam; #endif /// slice header class class TComSlice { private: // Bitstream writing UInt m_uiPPSId; Int m_iPOC; #if BITSTREAM_EXTRACTION UInt m_uiLayerId; #endif #if SONY_COLPIC_AVAILABILITY Int m_iViewOrderIdx; #endif #if DCM_DECODING_REFRESH NalUnitType m_eNalUnitType; ///< Nal unit type for the slice #endif SliceType m_eSliceType; Int m_iSliceQp; Int m_iSymbolMode; Bool m_bLoopFilterDisable; #if DCM_COMB_LIST Int m_aiNumRefIdx [3]; // for multiple reference of current slice Int m_iRefIdxOfLC[2][MAX_NUM_REF_LC]; Int m_eListIdFromIdxOfLC[MAX_NUM_REF_LC]; Int m_iRefIdxFromIdxOfLC[MAX_NUM_REF_LC]; Int m_iRefIdxOfL1FromRefIdxOfL0[MAX_NUM_REF_LC]; Int m_iRefIdxOfL0FromRefIdxOfL1[MAX_NUM_REF_LC]; Bool m_bRefPicListModificationFlagLC; Bool m_bRefPicListCombinationFlag; #else Int m_aiNumRefIdx [2]; // for multiple reference of current slice #endif // Data Int m_iSliceQpDelta; TComPic* m_apcRefPicList [2][MAX_NUM_REF]; Int m_aiRefPOCList [2][MAX_NUM_REF]; Int m_iDepth; TComPic* m_pcTexturePic; TComPic* m_pcDepthPic; // referenced slice? Bool m_bRefenced; #ifdef ROUNDING_CONTROL_BIPRED Bool m_bRounding; #endif // access channel TComSPS* m_pcSPS; TComPPS* m_pcPPS; TComPic* m_pcPic; UInt m_uiColDir; // direction to get colocated CUs Double m_dLambda; Bool m_abEqualRef [2][MAX_NUM_REF][MAX_NUM_REF]; Int m_iViewIdx; Int m_aiRefViewList[2][MAX_INPUT_VIEW_NUM]; Bool m_bNoBackPredFlag; #if MS_LCEC_LOOKUP_TABLE_EXCEPTION Bool m_bRefIdxCombineCoding; #endif Int m_aaiCodedScale [2][MAX_NUMBER_VIEWS]; Int m_aaiCodedOffset[2][MAX_NUMBER_VIEWS]; UInt m_uiSliceMode; UInt m_uiSliceArgument; UInt m_uiSliceCurStartCUAddr; UInt m_uiSliceCurEndCUAddr; UInt m_uiSliceIdx; UInt m_uiEntropySliceMode; UInt m_uiEntropySliceArgument; UInt m_uiEntropySliceCurStartCUAddr; UInt m_uiEntropySliceCurEndCUAddr; Bool m_bNextSlice; Bool m_bNextEntropySlice; UInt m_uiSliceBits; #ifdef WEIGHT_PRED wpScalingParam m_weightPredTable[2][MAX_NUM_REF][3]; // [REF_PIC_LIST_0 or REF_PIC_LIST_1][refIdx][0:Y, 1:U, 2:V] wpACDCParam m_weightACDCParam[3]; // [0:Y, 1:U, 2:V] #endif #if POZNAN_MP TComMP* m_pcMP; #endif public: TComSlice(); #if POZNAN_MP ~TComSlice(); #else virtual ~TComSlice(); #endif Void initSlice (); Void setSPS ( TComSPS* pcSPS ) { m_pcSPS = pcSPS; } TComSPS* getSPS () { return m_pcSPS; } Void setPPS ( TComPPS* pcPPS ) { m_pcPPS = pcPPS; } TComPPS* getPPS () { return m_pcPPS; } UInt getPPSId () { return m_uiPPSId; } SliceType getSliceType () { return m_eSliceType; } Int getPOC () { return m_iPOC; } #if SONY_COLPIC_AVAILABILITY Int getViewOrderIdx () { return m_iViewOrderIdx; } #endif Int getSliceQp () { return m_iSliceQp; } Int getSliceQpDelta () { return m_iSliceQpDelta; } Int getSymbolMode () { return m_iSymbolMode; } Bool getLoopFilterDisable() { return m_bLoopFilterDisable; } Int getNumRefIdx ( RefPicList e ) { 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]; } Int getDepth () { return m_iDepth; } UInt getColDir () { return m_uiColDir; } #if DCM_COMB_LIST Int getRefIdxOfLC (RefPicList e, Int iRefIdx) { return m_iRefIdxOfLC[e][iRefIdx]; } Int getListIdFromIdxOfLC(Int iRefIdx) { return m_eListIdFromIdxOfLC[iRefIdx]; } Int getRefIdxFromIdxOfLC(Int iRefIdx) { return m_iRefIdxFromIdxOfLC[iRefIdx]; } Int getRefIdxOfL0FromRefIdxOfL1(Int iRefIdx) { return m_iRefIdxOfL0FromRefIdxOfL1[iRefIdx];} Int getRefIdxOfL1FromRefIdxOfL0(Int iRefIdx) { return m_iRefIdxOfL1FromRefIdxOfL0[iRefIdx];} Bool getRefPicListModificationFlagLC() {return m_bRefPicListModificationFlagLC;} Void setRefPicListModificationFlagLC(Bool bflag) {m_bRefPicListModificationFlagLC=bflag;} Bool getRefPicListCombinationFlag() {return m_bRefPicListCombinationFlag;} Void setRefPicListCombinationFlag(Bool bflag) {m_bRefPicListCombinationFlag=bflag;} Void setListIdFromIdxOfLC(Int iRefIdx, UInt uiVal) { m_eListIdFromIdxOfLC[iRefIdx]=uiVal; } Void setRefIdxFromIdxOfLC(Int iRefIdx, UInt uiVal) { m_iRefIdxFromIdxOfLC[iRefIdx]=uiVal; } Void setRefIdxOfLC (RefPicList e, Int iRefIdx, Int RefIdxLC) { m_iRefIdxOfLC[e][iRefIdx]=RefIdxLC;} #endif Void setReferenced(Bool b) { m_bRefenced = b; } Bool isReferenced() { return m_bRefenced; } #ifdef ROUNDING_CONTROL_BIPRED Void setRounding(Bool bRound) { m_bRounding = bRound; } Bool isRounding() { return m_bRounding; } #endif Void setPPSId ( UInt u ) { m_uiPPSId = u; } Void setPOC ( Int i ) { m_iPOC = i; } #if SONY_COLPIC_AVAILABILITY Void setViewOrderIdx ( Int i ) { m_iViewOrderIdx = i; } #endif #if DCM_DECODING_REFRESH Void setNalUnitType ( NalUnitType e ) { m_eNalUnitType = e; } NalUnitType getNalUnitType () { return m_eNalUnitType; } Void decodingRefreshMarking(UInt& uiPOCCDR, Bool& bRefreshPending, TComList& rcListPic); #endif Void setSliceType ( SliceType e ) { m_eSliceType = e; } Void setSliceQp ( Int i ) { m_iSliceQp = i; } Void setSliceQpDelta ( Int i ) { m_iSliceQpDelta = i; } Void setSymbolMode ( Int b ) { m_iSymbolMode = b; } Void setLoopFilterDisable( Bool b ) { m_bLoopFilterDisable= b; } 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; } Void setRefPicList ( TComList& rcListPic ); Void setRefPOCList (); Void setColDir ( UInt uiDir ) { m_uiColDir = uiDir; } Void setRefPicListFromGOPSTring( TComList& rcListPic, std::vector& rapcSpatRefPics ); Void setRefPicListExplicitlyDecoderSided( TComList& rcListPic, std::vector& rapcSpatRefPics ); Bool isIntra () { return m_eSliceType == I_SLICE; } Bool isInterB () { return m_eSliceType == B_SLICE; } Bool isInterP () { return m_eSliceType == P_SLICE; } Void setLambda( Double d ) { m_dLambda = d; } Double getLambda() { return m_dLambda; } #if BITSTREAM_EXTRACTION Void setLayerId( UInt u ) { m_uiLayerId = u; } UInt getLayerId() { return m_uiLayerId; } #endif Void setViewIdx(Int i) { m_iViewIdx = i; } Int getViewIdx() { return m_iViewIdx; } Void setRefViewIdx ( Int i, RefPicList e, Int iRefIdx ) { m_aiRefViewList[e][iRefIdx] = i; } Int getRefViewIdx ( RefPicList e, Int iRefIdx) { return m_aiRefViewList[e][iRefIdx]; } Void initEqualRef(); Bool isEqualRef ( RefPicList e, Int iRefIdx1, Int iRefIdx2 ) { if (iRefIdx1 < 0 || iRefIdx2 < 0) return false; return m_abEqualRef[e][iRefIdx1][iRefIdx2]; } Void setEqualRef( RefPicList e, Int iRefIdx1, Int iRefIdx2, Bool b) { m_abEqualRef[e][iRefIdx1][iRefIdx2] = m_abEqualRef[e][iRefIdx2][iRefIdx1] = b; } static Void sortPicList ( TComList& rcListPic ); Bool getNoBackPredFlag() { return m_bNoBackPredFlag; } Void setNoBackPredFlag( Bool b ) { m_bNoBackPredFlag = b; } #if MS_LCEC_LOOKUP_TABLE_EXCEPTION Bool getRefIdxCombineCoding() { return m_bRefIdxCombineCoding; } Void setRefIdxCombineCoding( Bool b ) { m_bRefIdxCombineCoding = b; } #endif #if DCM_COMB_LIST Void generateCombinedList (); #endif Void setSliceMode ( UInt uiMode ) { m_uiSliceMode = uiMode; } UInt getSliceMode () { return m_uiSliceMode; } Void setSliceArgument ( UInt uiArgument ) { m_uiSliceArgument = uiArgument; } UInt getSliceArgument () { return m_uiSliceArgument; } Void setSliceCurStartCUAddr ( UInt uiAddr ) { m_uiSliceCurStartCUAddr = uiAddr; } UInt getSliceCurStartCUAddr () { return m_uiSliceCurStartCUAddr; } Void setSliceCurEndCUAddr ( UInt uiAddr ) { m_uiSliceCurEndCUAddr = uiAddr; } UInt getSliceCurEndCUAddr () { return m_uiSliceCurEndCUAddr; } Void setSliceIdx ( UInt i) { m_uiSliceIdx = i; } UInt getSliceIdx () { return m_uiSliceIdx; } Void copySliceInfo (TComSlice *pcSliceSrc); Void setEntropySliceMode ( UInt uiMode ) { m_uiEntropySliceMode = uiMode; } UInt getEntropySliceMode () { return m_uiEntropySliceMode; } Void setEntropySliceArgument ( UInt uiArgument ) { m_uiEntropySliceArgument = uiArgument; } UInt getEntropySliceArgument () { return m_uiEntropySliceArgument; } Void setEntropySliceCurStartCUAddr ( UInt uiAddr ) { m_uiEntropySliceCurStartCUAddr = uiAddr; } UInt getEntropySliceCurStartCUAddr () { return m_uiEntropySliceCurStartCUAddr; } Void setEntropySliceCurEndCUAddr ( UInt uiAddr ) { m_uiEntropySliceCurEndCUAddr = uiAddr; } UInt getEntropySliceCurEndCUAddr () { return m_uiEntropySliceCurEndCUAddr; } Void setNextSlice ( Bool b ) { m_bNextSlice = b; } Bool isNextSlice () { return m_bNextSlice; } Void setNextEntropySlice ( Bool b ) { m_bNextEntropySlice = b; } Bool isNextEntropySlice () { return m_bNextEntropySlice; } Void setSliceBits ( UInt uiVal ) { m_uiSliceBits = uiVal; } UInt getSliceBits () { return m_uiSliceBits; } Void initMultiviewSlice ( Int** aaiScale = 0, Int** aaiOffset = 0 ); Int* getCodedScale () { return m_aaiCodedScale [0]; } Int* getCodedOffset () { return m_aaiCodedOffset[0]; } Int* getInvCodedScale () { return m_aaiCodedScale [1]; } Int* getInvCodedOffset () { return m_aaiCodedOffset[1]; } Void setTexturePic( TComPic *pcTexturePic ) { m_pcTexturePic = pcTexturePic; } Void setDepthPic ( TComPic *pcDepthPic ) { m_pcDepthPic = pcDepthPic; } TComPic *getTexturePic() const { return m_pcTexturePic; } TComPic *getDepthPic() const { return m_pcDepthPic; } #ifdef WEIGHT_PRED Void setWpScaling( wpScalingParam wp[2][MAX_NUM_REF][3] ) { memcpy(m_weightPredTable, wp, sizeof(wpScalingParam)*2*MAX_NUM_REF*3); } Void getWpScaling( RefPicList e, Int iRefIdx, wpScalingParam *&wp); Void displayWpScaling(); Void resetWpScaling(wpScalingParam wp[2][MAX_NUM_REF][3]); Void initWpScaling(wpScalingParam wp[2][MAX_NUM_REF][3]); Void initWpScaling(); inline Bool applyWP() { return( (m_eSliceType==P_SLICE && m_pcPPS->getUseWP()) || (m_eSliceType==B_SLICE && m_pcPPS->getWPBiPredIdc()) ); } Void setWpAcDcParam ( wpACDCParam wp[3] ) { memcpy(m_weightACDCParam, wp, sizeof(wpACDCParam)*3); } Void getWpAcDcParam ( wpACDCParam *&wp ); Void initWpAcDcParam(); #endif #if POZNAN_MP Void setMP(TComMP* pcMP) { m_pcMP = pcMP; } TComMP* getMP() { return m_pcMP; } #endif protected: #if 0 TComPic* xGetRefPic (TComList& rcListPic, Bool bDRBFlag, ERBIndex eERBIndex, UInt uiPOCCurr, RefPicList eRefPicList, UInt uiNthRefPic ); #endif };// END CLASS DEFINITION TComSlice #endif // __TCOMSLICE__