/* 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) 2010-2012, 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 TComDataCU.h \brief CU data structure (header) \todo not all entities are documented */ #ifndef _TCOMDATACU_ #define _TCOMDATACU_ #include // Include files #include "CommonDef.h" #include "TComMotionInfo.h" #include "TComSlice.h" #include "TComRdCost.h" #include "TComPattern.h" #if HHI_INTER_VIEW_RESIDUAL_PRED #include "TComYuv.h" #endif #include #include //! \ingroup TLibCommon //! \{ // ==================================================================================================================== // Non-deblocking in-loop filter processing block data structure // ==================================================================================================================== /// Non-deblocking filter processing block border tag enum NDBFBlockBorderTag { SGU_L = 0, SGU_R, SGU_T, SGU_B, SGU_TL, SGU_TR, SGU_BL, SGU_BR, NUM_SGU_BORDER }; /// Non-deblocking filter processing block information struct NDBFBlockInfo { Int tileID; //!< tile ID Int sliceID; //!< slice ID UInt startSU; //!< starting SU z-scan address in LCU UInt endSU; //!< ending SU z-scan address in LCU UInt widthSU; //!< number of SUs in width UInt heightSU; //!< number of SUs in height UInt posX; //!< top-left X coordinate in picture UInt posY; //!< top-left Y coordinate in picture UInt width; //!< number of pixels in width UInt height; //!< number of pixels in height Bool isBorderAvailable[NUM_SGU_BORDER]; //!< the border availabilities #if LCU_SYNTAX_ALF Bool allBordersAvailable; #endif NDBFBlockInfo():tileID(0), sliceID(0), startSU(0), endSU(0) {} //!< constructor const NDBFBlockInfo& operator= (const NDBFBlockInfo& src); //!< "=" operator }; // ==================================================================================================================== // Class definition // ==================================================================================================================== /// CU data structure class class TComDataCU { private: // ------------------------------------------------------------------------------------------------------------------- // class pointers // ------------------------------------------------------------------------------------------------------------------- TComPic* m_pcPic; ///< picture class pointer TComSlice* m_pcSlice; ///< slice header pointer TComPattern* m_pcPattern; ///< neighbour access class pointer // ------------------------------------------------------------------------------------------------------------------- // CU description // ------------------------------------------------------------------------------------------------------------------- UInt m_uiCUAddr; ///< CU address in a slice UInt m_uiAbsIdxInLCU; ///< absolute address in a CU. It's Z scan order UInt m_uiCUPelX; ///< CU position in a pixel (X) UInt m_uiCUPelY; ///< CU position in a pixel (Y) UInt m_uiNumPartition; ///< total number of minimum partitions in a CU UChar* m_puhWidth; ///< array of widths UChar* m_puhHeight; ///< array of heights UChar* m_puhDepth; ///< array of depths Int m_unitSize; ///< size of a "minimum partition" #if HHI_MPI Int* m_piTextureModeDepth; ///< at which depth are prediction data inherited from texture picture ( -1 : none ) #endif // ------------------------------------------------------------------------------------------------------------------- // CU data // ------------------------------------------------------------------------------------------------------------------- Char* m_pePartSize; ///< array of partition sizes #if HHI_INTERVIEW_SKIP Bool* m_pbRenderable; ///< array of merge flags #endif Char* m_pePredMode; ///< array of prediction modes #if H0736_AVC_STYLE_QP_RANGE Char* m_phQP; ///< array of QP values #else UChar* m_phQP; ///< array of QP values #endif UChar* m_puhTrIdx; ///< array of transform indices UChar* m_nsqtPartIdx; ///< array of absPartIdx mapping table, map zigzag to NSQT UChar* m_puhCbf[3]; ///< array of coded block flags (CBF) TComCUMvField m_acCUMvField[2]; ///< array of motion vectors TCoeff* m_pcTrCoeffY; ///< transformed coefficient buffer (Y) TCoeff* m_pcTrCoeffCb; ///< transformed coefficient buffer (Cb) TCoeff* m_pcTrCoeffCr; ///< transformed coefficient buffer (Cr) #if ADAPTIVE_QP_SELECTION Int* m_pcArlCoeffY; ///< ARL coefficient buffer (Y) Int* m_pcArlCoeffCb; ///< ARL coefficient buffer (Cb) Int* m_pcArlCoeffCr; ///< ARL coefficient buffer (Cr) Bool m_ArlCoeffIsAliasedAllocation; ///< ARL coefficient buffer is an alias of the global buffer and must not be free()'d static Int* m_pcGlbArlCoeffY; ///< ARL coefficient buffer (Y) static Int* m_pcGlbArlCoeffCb; ///< ARL coefficient buffer (Cb) static Int* m_pcGlbArlCoeffCr; ///< ARL coefficient buffer (Cr) #endif Pel* m_pcIPCMSampleY; ///< PCM sample buffer (Y) Pel* m_pcIPCMSampleCb; ///< PCM sample buffer (Cb) Pel* m_pcIPCMSampleCr; ///< PCM sample buffer (Cr) Int* m_piSliceSUMap; ///< pointer of slice ID map std::vector m_vNDFBlock; // ------------------------------------------------------------------------------------------------------------------- // neighbour access variables // ------------------------------------------------------------------------------------------------------------------- TComDataCU* m_pcCUAboveLeft; ///< pointer of above-left CU TComDataCU* m_pcCUAboveRight; ///< pointer of above-right CU TComDataCU* m_pcCUAbove; ///< pointer of above CU TComDataCU* m_pcCULeft; ///< pointer of left CU TComDataCU* m_apcCUColocated[2]; ///< pointer of temporally colocated CU's for both directions TComMvField m_cMvFieldA; ///< motion vector of position A TComMvField m_cMvFieldB; ///< motion vector of position B TComMvField m_cMvFieldC; ///< motion vector of position C TComMv m_cMvPred; ///< motion vector predictor // ------------------------------------------------------------------------------------------------------------------- // coding tool information // ------------------------------------------------------------------------------------------------------------------- Bool* m_pbMergeFlag; ///< array of merge flags #if LGE_ILLUCOMP_B0045 Bool* m_pbICFlag; ///< array of IC flags #endif UChar* m_puhMergeIndex; ///< array of merge candidate indices #if MERL_VSP_C0152 Char* m_piVSPIndex; ///< array of VSP flags to indicate the current block uses synthetic predictor or not ///< value 0: non-VSP, value 1: VSP #endif #if AMP_MRG Bool m_bIsMergeAMP; #endif UChar* m_puhLumaIntraDir; ///< array of intra directions (luma) UChar* m_puhChromaIntraDir; ///< array of intra directions (chroma) UChar* m_puhInterDir; ///< array of inter directions Char* m_apiMVPIdx[2]; ///< array of motion vector predictor candidates Char* m_apiMVPNum[2]; ///< array of number of possible motion vectors predictors Bool* m_puiAlfCtrlFlag; ///< array of ALF flags Bool* m_puiTmpAlfCtrlFlag; ///< temporal array of ALF flags Bool* m_pbIPCMFlag; ///< array of intra_pcm flags #if BURST_IPCM Int m_numSucIPCM; ///< the number of succesive IPCM blocks associated with the current log2CUSize Bool m_lastCUSucIPCMFlag; ///< True indicates that the last CU is IPCM and shares the same root as the current CU. #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Bool* m_pbResPredAvailable; ///< array of residual prediction available flags Bool* m_pbResPredFlag; ///< array of residual prediction flags #endif #if LGE_EDGE_INTRA_A0070 UChar* m_pucEdgeCode; ///< array of edge code UChar* m_pucEdgeNumber; ///< total number of edge UChar* m_pucEdgeStartPos; ///< starting point position Bool* m_pbEdgeLeftFirst; ///< true if edge should be checked in left boundary first Bool* m_pbEdgePartition; ///< true if it belongs to region 1, otherwise, region 0 #if LGE_EDGE_INTRA_DELTA_DC Int* m_piEdgeDeltaDC0; Int* m_piEdgeDeltaDC1; #endif #endif // ------------------------------------------------------------------------------------------------------------------- // misc. variables // ------------------------------------------------------------------------------------------------------------------- Bool m_bDecSubCu; ///< indicates decoder-mode Double m_dTotalCost; ///< sum of partition RD costs #if FIX_RDO_NEGDIST Dist m_uiTotalDistortion; ///< sum of partition distortion #else UInt m_uiTotalDistortion; ///< sum of partition distortion #endif UInt m_uiTotalBits; ///< sum of partition bits UInt m_uiTotalBins; ///< sum of partition bins UInt* m_uiSliceStartCU; ///< Start CU address of current slice UInt* m_uiEntropySliceStartCU; ///< Start CU address of current slice // ------------------------------------------------------------------------------------------------------------------- // depth model mode data // ------------------------------------------------------------------------------------------------------------------- #if HHI_DMM_WEDGE_INTRA UInt* m_puiWedgeFullTabIdx; Int* m_piWedgeFullDeltaDC1; Int* m_piWedgeFullDeltaDC2; UInt* m_puiWedgePredDirTabIdx; Int* m_piWedgePredDirDeltaDC1; Int* m_piWedgePredDirDeltaDC2; Int* m_piWedgePredDirDeltaEnd; #endif #if HHI_DMM_PRED_TEX UInt* m_puiWedgePredTexTabIdx; Int* m_piWedgePredTexDeltaDC1; Int* m_piWedgePredTexDeltaDC2; Int* m_piContourPredTexDeltaDC1; Int* m_piContourPredTexDeltaDC2; #endif #if RWTH_SDC_DLT_B0036 Bool* m_pbSDCFlag; Pel* m_apSegmentDCOffset[2]; #endif protected: /// add possible motion vector predictor candidates Bool xAddMVPCand ( AMVPInfo* pInfo, RefPicList eRefPicList, Int iRefIdx, UInt uiPartUnitIdx, MVP_DIR eDir ); Bool xAddMVPCandOrder ( AMVPInfo* pInfo, RefPicList eRefPicList, Int iRefIdx, UInt uiPartUnitIdx, MVP_DIR eDir ); #if MERL_VSP_C0152 inline Bool xAddVspMergeCand ( UChar ucVspMergePos, Int vspIdx, Bool* bVspMvZeroDone, UInt uiDepth, Bool* abCandIsInter, Int& iCount, UChar* puhInterDirNeighbours, TComMvField* pcMvFieldNeighbours, Int* iVSPIndexTrue, Int mrgCandIdx, DisInfo* pDisInfo ); inline Void xInheritVspMode ( TComDataCU* pcCURef, UInt uiIdx, Bool* bVspMvZeroDone, Int iCount, Int* iVSPIndexTrue, TComMvField* pcMvFieldNeighbours, DisInfo* pDInfo ) ; #endif Void deriveRightBottomIdx ( PartSize eCUMode, UInt uiPartIdx, UInt& ruiPartIdxRB ); Bool xGetColMVP( RefPicList eRefPicList, Int uiCUAddr, Int uiPartUnitIdx, TComMv& rcMv, Int& riRefIdx ); #if QC_MULTI_DIS_CAN_A0097 Bool xGetColDisMV( RefPicList eRefPicList, Int refidx, Int uiCUAddr, Int uiPartUnitIdx, TComMv& rcMv, Int & iTargetViewIdx, Int & iStartViewIdx ); #endif #if !AMVP_PRUNING_SIMPLIFICATION /// remove redundant candidates Void xUniqueMVPCand ( AMVPInfo* pInfo ); #endif Void xCheckCornerCand( TComDataCU* pcCorner, UInt uiCornerIdx, UInt uiIter, Bool& rbValidCand ); /// compute required bits to encode MVD (used in AMVP) UInt xGetMvdBits ( TComMv cMvd ); UInt xGetComponentBits ( Int iVal ); /// compute scaling factor from POC difference Int xGetDistScaleFactor ( Int iCurrPOC, Int iCurrRefPOC, Int iColPOC, Int iColRefPOC ); Void xDeriveCenterIdx( PartSize eCUMode, UInt uiPartIdx, UInt& ruiPartIdxCenter ); Bool xGetCenterCol( UInt uiPartIdx, RefPicList eRefPicList, int iRefIdx, TComMv *pcMv ); Void xCheckDuplicateCand(TComMvField* pcMvFieldNeighbours, UChar* puhInterDirNeighbours, bool* pbCandIsInter, UInt& ruiArrayAddr); #if !BURST_IPCM Int getLastValidPartIdx ( Int iAbsPartIdx ); #endif public: TComDataCU(); virtual ~TComDataCU(); // ------------------------------------------------------------------------------------------------------------------- // create / destroy / initialize / copy // ------------------------------------------------------------------------------------------------------------------- Void create ( UInt uiNumPartition, UInt uiWidth, UInt uiHeight, Bool bDecSubCu, Int unitSize #if ADAPTIVE_QP_SELECTION , Bool bGlobalRMARLBuffer = false #endif ); Void destroy (); Void initCU ( TComPic* pcPic, UInt uiCUAddr ); #if H0736_AVC_STYLE_QP_RANGE Void initEstData ( UInt uiDepth, Int qp ); Void initSubCU ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth, Int qp ); #else Void initEstData ( UInt uiDepth, UInt uiQP ); Void initSubCU ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth, UInt uiQP ); #endif Void setOutsideCUPart ( UInt uiAbsPartIdx, UInt uiDepth ); Void copySubCU ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth ); Void copyInterPredInfoFrom ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefPicList ); Void copyPartFrom ( TComDataCU* pcCU, UInt uiPartUnitIdx, UInt uiDepth ); Void copyToPic ( UChar uiDepth ); Void copyToPic ( UChar uiDepth, UInt uiPartIdx, UInt uiPartDepth ); // ------------------------------------------------------------------------------------------------------------------- // member functions for CU description // ------------------------------------------------------------------------------------------------------------------- TComPic* getPic () { return m_pcPic; } TComSlice* getSlice () { return m_pcSlice; } UInt& getAddr () { return m_uiCUAddr; } UInt& getZorderIdxInCU () { return m_uiAbsIdxInLCU; } UInt getSCUAddr (); UInt getCUPelX () { return m_uiCUPelX; } UInt getCUPelY () { return m_uiCUPelY; } TComPattern* getPattern () { return m_pcPattern; } UChar* getDepth () { return m_puhDepth; } UChar getDepth ( UInt uiIdx ) { return m_puhDepth[uiIdx]; } Void setDepth ( UInt uiIdx, UChar uh ) { m_puhDepth[uiIdx] = uh; } Void setDepthSubParts ( UInt uiDepth, UInt uiAbsPartIdx ); Void getPosInPic ( UInt uiAbsPartIndex, Int& riPosX, Int& riPosY ); #if HHI_MPI Int* getTextureModeDepth () { return m_piTextureModeDepth; } Int getTextureModeDepth ( UInt uiIdx ) { return m_piTextureModeDepth[uiIdx]; } Void setTextureModeDepth ( UInt uiIdx, Int iTextureModeDepth ){ m_piTextureModeDepth[uiIdx] = iTextureModeDepth; } Void setTextureModeDepthSubParts( Int iTextureModeDepth, UInt uiAbsPartIdx, UInt uiDepth ); Void copyTextureMotionDataFrom( TComDataCU* pcCU, UInt uiDepth, UInt uiAbsPartIdxSrc, UInt uiAbsPartIdxDst = 0 ); #endif // ------------------------------------------------------------------------------------------------------------------- // member functions for CU data // ------------------------------------------------------------------------------------------------------------------- Char* getPartitionSize () { return m_pePartSize; } PartSize getPartitionSize ( UInt uiIdx ) { return static_cast( m_pePartSize[uiIdx] ); } Void setPartitionSize ( UInt uiIdx, PartSize uh){ m_pePartSize[uiIdx] = uh; } Void setPartSizeSubParts ( PartSize eMode, UInt uiAbsPartIdx, UInt uiDepth ); #if HHI_INTERVIEW_SKIP Bool* getRenderable () { return m_pbRenderable; } Bool getRenderable ( UInt uiIdx ) { return m_pbRenderable[uiIdx]; } Void setRenderable ( UInt uiIdx, Bool b ) { m_pbRenderable[uiIdx] = b; } Void setRenderableSubParts ( Bool bRenderable, UInt uiAbsPartIdx, UInt uiDepth ); #endif Char* getPredictionMode () { return m_pePredMode; } PredMode getPredictionMode ( UInt uiIdx ) { return static_cast( m_pePredMode[uiIdx] ); } Void setPredictionMode ( UInt uiIdx, PredMode uh){ m_pePredMode[uiIdx] = uh; } Void setPredModeSubParts ( PredMode eMode, UInt uiAbsPartIdx, UInt uiDepth ); UChar* getWidth () { return m_puhWidth; } UChar getWidth ( UInt uiIdx ) { return m_puhWidth[uiIdx]; } Void setWidth ( UInt uiIdx, UChar uh ) { m_puhWidth[uiIdx] = uh; } UChar* getHeight () { return m_puhHeight; } UChar getHeight ( UInt uiIdx ) { return m_puhHeight[uiIdx]; } Void setHeight ( UInt uiIdx, UChar uh ) { m_puhHeight[uiIdx] = uh; } Void setSizeSubParts ( UInt uiWidth, UInt uiHeight, UInt uiAbsPartIdx, UInt uiDepth ); #if H0736_AVC_STYLE_QP_RANGE Char* getQP () { return m_phQP; } Char getQP ( UInt uiIdx ) { return m_phQP[uiIdx]; } Void setQP ( UInt uiIdx, Char value ){ m_phQP[uiIdx] = value; } Void setQPSubParts ( Int qp, UInt uiAbsPartIdx, UInt uiDepth ); #if BURST_IPCM Int getLastValidPartIdx ( Int iAbsPartIdx ); #endif Char getLastCodedQP ( UInt uiAbsPartIdx ); #else UChar* getQP () { return m_phQP; } UChar getQP ( UInt uiIdx ) { return m_phQP[uiIdx]; } Void setQP ( UInt uiIdx, UChar uh ) { m_phQP[uiIdx] = uh; } Void setQPSubParts ( UInt uiQP, UInt uiAbsPartIdx, UInt uiDepth ); #if BURST_IPCM Int getLastValidPartIdx ( Int iAbsPartIdx ); #endif UChar getLastCodedQP ( UInt uiAbsPartIdx ); #endif #if LOSSLESS_CODING Bool isLosslessCoded(UInt absPartIdx); #endif UChar* getNSQTPartIdx () { return m_nsqtPartIdx; } UChar getNSQTPartIdx ( UInt idx ) { return m_nsqtPartIdx[idx]; } Void setNSQTIdxSubParts ( UInt absPartIdx, UInt depth ); Void setNSQTIdxSubParts ( UInt log2TrafoSize, UInt absPartIdx, UInt absTUPartIdx, UInt trMode ); UChar* getTransformIdx () { return m_puhTrIdx; } UChar getTransformIdx ( UInt uiIdx ) { return m_puhTrIdx[uiIdx]; } Void setTrIdxSubParts ( UInt uiTrIdx, UInt uiAbsPartIdx, UInt uiDepth ); UInt getQuadtreeTULog2MinSizeInCU( UInt absPartIdx ); TComCUMvField* getCUMvField ( RefPicList e ) { return &m_acCUMvField[e]; } TCoeff*& getCoeffY () { return m_pcTrCoeffY; } TCoeff*& getCoeffCb () { return m_pcTrCoeffCb; } TCoeff*& getCoeffCr () { return m_pcTrCoeffCr; } #if ADAPTIVE_QP_SELECTION Int*& getArlCoeffY () { return m_pcArlCoeffY; } Int*& getArlCoeffCb () { return m_pcArlCoeffCb; } Int*& getArlCoeffCr () { return m_pcArlCoeffCr; } #endif Pel*& getPCMSampleY () { return m_pcIPCMSampleY; } Pel*& getPCMSampleCb () { return m_pcIPCMSampleCb; } Pel*& getPCMSampleCr () { return m_pcIPCMSampleCr; } UChar getCbf ( UInt uiIdx, TextType eType ) { return m_puhCbf[g_aucConvertTxtTypeToIdx[eType]][uiIdx]; } UChar* getCbf ( TextType eType ) { return m_puhCbf[g_aucConvertTxtTypeToIdx[eType]]; } UChar getCbf ( UInt uiIdx, TextType eType, UInt uiTrDepth ) { return ( ( getCbf( uiIdx, eType ) >> uiTrDepth ) & 0x1 ); } Void setCbf ( UInt uiIdx, TextType eType, UChar uh ) { m_puhCbf[g_aucConvertTxtTypeToIdx[eType]][uiIdx] = uh; } Void clearCbf ( UInt uiIdx, TextType eType, UInt uiNumParts ); UChar getQtRootCbf ( UInt uiIdx ) { return getCbf( uiIdx, TEXT_LUMA, 0 ) || getCbf( uiIdx, TEXT_CHROMA_U, 0 ) || getCbf( uiIdx, TEXT_CHROMA_V, 0 ); } Void setCbfSubParts ( UInt uiCbfY, UInt uiCbfU, UInt uiCbfV, UInt uiAbsPartIdx, UInt uiDepth ); Void setCbfSubParts ( UInt uiCbf, TextType eTType, UInt uiAbsPartIdx, UInt uiDepth ); Void setCbfSubParts ( UInt uiCbf, TextType eTType, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); // ------------------------------------------------------------------------------------------------------------------- // member functions for coding tool information // ------------------------------------------------------------------------------------------------------------------- Bool* getMergeFlag () { return m_pbMergeFlag; } Bool getMergeFlag ( UInt uiIdx ) { return m_pbMergeFlag[uiIdx]; } Void setMergeFlag ( UInt uiIdx, Bool b ) { m_pbMergeFlag[uiIdx] = b; } Void setMergeFlagSubParts ( Bool bMergeFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); UChar* getMergeIndex () { return m_puhMergeIndex; } UChar getMergeIndex ( UInt uiIdx ) { return m_puhMergeIndex[uiIdx]; } Void setMergeIndex ( UInt uiIdx, UInt uiMergeIndex ) { m_puhMergeIndex[uiIdx] = uiMergeIndex; } Void setMergeIndexSubParts ( UInt uiMergeIndex, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); #if MERL_VSP_C0152 Char* getVSPIndex () { return m_piVSPIndex; } Char getVSPIndex ( UInt uiIdx ) { return m_piVSPIndex[uiIdx]; } Void setVSPIndex ( UInt uiIdx, Int n ) { m_piVSPIndex[uiIdx] = n; } Void setVSPIndexSubParts( Char bVSPIndex, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); #endif template Void setSubPart ( T bParameter, T* pbBaseLCU, UInt uiCUAddr, UInt uiCUDepth, UInt uiPUIdx ); #if LGE_ILLUCOMP_B0045 Bool* getICFlag () { return m_pbICFlag; } Bool getICFlag ( UInt uiIdx ) { return m_pbICFlag[uiIdx]; } Void setICFlag ( UInt uiIdx, Bool uh ) { m_pbICFlag[uiIdx] = uh; } Void setICFlagSubParts ( Bool bICFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Bool isICFlagRequired (UInt uiAbsPartIdx); #endif #if AMP_MRG Void setMergeAMP( Bool b ) { m_bIsMergeAMP = b; } Bool getMergeAMP( ) { return m_bIsMergeAMP; } #endif UChar* getLumaIntraDir () { return m_puhLumaIntraDir; } UChar getLumaIntraDir ( UInt uiIdx ) { return m_puhLumaIntraDir[uiIdx]; } Void setLumaIntraDir ( UInt uiIdx, UChar uh ) { m_puhLumaIntraDir[uiIdx] = uh; } Void setLumaIntraDirSubParts( UInt uiDir, UInt uiAbsPartIdx, UInt uiDepth ); UChar* getChromaIntraDir () { return m_puhChromaIntraDir; } UChar getChromaIntraDir ( UInt uiIdx ) { return m_puhChromaIntraDir[uiIdx]; } Void setChromaIntraDir ( UInt uiIdx, UChar uh ) { m_puhChromaIntraDir[uiIdx] = uh; } Void setChromIntraDirSubParts( UInt uiDir, UInt uiAbsPartIdx, UInt uiDepth ); UChar* getInterDir () { return m_puhInterDir; } UChar getInterDir ( UInt uiIdx ) { return m_puhInterDir[uiIdx]; } Void setInterDir ( UInt uiIdx, UChar uh ) { m_puhInterDir[uiIdx] = uh; } Void setInterDirSubParts ( UInt uiDir, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Bool* getAlfCtrlFlag () { return m_puiAlfCtrlFlag; } Bool getAlfCtrlFlag ( UInt uiIdx ) { return m_puiAlfCtrlFlag[uiIdx]; } Void setAlfCtrlFlag ( UInt uiIdx, Bool uiFlag){ m_puiAlfCtrlFlag[uiIdx] = uiFlag; } Void setAlfCtrlFlagSubParts( Bool uiFlag, UInt uiAbsPartIdx, UInt uiDepth ); Void createTmpAlfCtrlFlag (); Void destroyTmpAlfCtrlFlag (); Void copyAlfCtrlFlagToTmp (); Void copyAlfCtrlFlagFromTmp(); Bool* getIPCMFlag () { return m_pbIPCMFlag; } Bool getIPCMFlag (UInt uiIdx ) { return m_pbIPCMFlag[uiIdx]; } Void setIPCMFlag (UInt uiIdx, Bool b ) { m_pbIPCMFlag[uiIdx] = b; } Void setIPCMFlagSubParts (Bool bIpcmFlag, UInt uiAbsPartIdx, UInt uiDepth); #if BURST_IPCM Int getNumSucIPCM () { return m_numSucIPCM; } Void setNumSucIPCM ( Int num ) { m_numSucIPCM = num; } Bool getLastCUSucIPCMFlag () { return m_lastCUSucIPCMFlag; } Void setLastCUSucIPCMFlag ( Bool flg ) { m_lastCUSucIPCMFlag = flg; } #endif /// get slice ID for SU Int getSUSliceID (UInt uiIdx) {return m_piSliceSUMap[uiIdx]; } /// get the pointer of slice ID map Int* getSliceSUMap () {return m_piSliceSUMap; } /// set the pointer of slice ID map Void setSliceSUMap (Int *pi) {m_piSliceSUMap = pi; } std::vector* getNDBFilterBlocks() {return &m_vNDFBlock;} Void setNDBFilterBlockBorderAvailability(UInt numLCUInPicWidth, UInt numLCUInPicHeight, UInt numSUInLCUWidth, UInt numSUInLCUHeight, UInt picWidth, UInt picHeight ,Bool bIndependentSliceBoundaryEnabled ,Bool bTopTileBoundary, Bool bDownTileBoundary, Bool bLeftTileBoundary, Bool bRightTileBoundary ,Bool bIndependentTileBoundaryEnabled ); #if HHI_INTER_VIEW_MOTION_PRED #if !QC_MULTI_DIS_CAN_A0097 Int getPdmMergeCandidate( UInt uiPartIdx, Int* paiPdmRefIdx, TComMv* pacPdmMv ); Bool getPdmMvPred( UInt uiPartIdx, RefPicList eRefPicList, Int iRefIdx, TComMv& rcMv, Bool bMerge = false ); #else Bool getPdmMvPredDisCan( UInt uiPartIdx, RefPicList eRefPicList, Int iRefIdx, TComMv& rcMv, DisInfo* pDInfo, Bool bMerge = false ); Int getPdmMergeCandidateDisCan( UInt uiPartIdx, Int* paiPdmRefIdx, TComMv* pacPdmMv, DisInfo* pDInfo #if QC_MRG_CANS_B0048 , Int* iPdm #endif ); Void getDisMvpCand ( UInt uiPartIdx, UInt uiPartAddr, DisInfo* pDInfo ); #if LGE_DVMCP_A0126 #if QC_SIMPLE_NBDV_B0047 Void getDisMvpCand2( UInt uiPartIdx, UInt uiPartAddr, DisInfo* pDInfo #if LGE_IVMP_PARALLEL_MERGE_B0136 , Bool bParMerg = false #endif #if MERL_VSP_C0152 , Bool bDepthRefine = false #endif ); #else Void getDisMvpCand2( UInt uiPartIdx, UInt uiPartAddr, DisInfo* pDInfo, Bool bMerge=false, RefPicList eRefPicList=REF_PIC_LIST_X, Int iRefIdx=-1 #if LGE_IVMP_PARALLEL_MERGE_B0136 , Bool bParMerg = false #endif ); #endif #endif #endif #if MERL_VSP_C0152 Pel getMcpFromDM(TComPicYuv* pcBaseViewDepthPicYuv, TComMv* mv, Int iBlkX, Int iBlkY, Int iWidth, Int iHeight, Int* aiShiftLUT, Int iShiftPrec); Void estimateDVFromDM(UInt uiPartIdx, TComPic* picDepth, UInt uiPartAddr, TComMv* cMvPred); #endif Bool getIViewOrgDepthMvPred( UInt uiPartIdx, RefPicList eRefPicList, Int iRefIdx, TComMv& rcMv ); #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Bool* getResPredAvail () { return m_pbResPredAvailable; } Bool getResPredAvail ( UInt uiIdx ) { return m_pbResPredAvailable[uiIdx]; } Void setResPredAvail ( UInt uiIdx, Bool b ) { m_pbResPredAvailable[uiIdx] = b; } Void setResPredAvailSubParts ( Bool b, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Bool* getResPredFlag () { return m_pbResPredFlag; } Bool getResPredFlag ( UInt uiIdx ) { return m_pbResPredFlag[uiIdx]; } Void setResPredFlag ( UInt uiIdx, Bool b ) { m_pbResPredFlag[uiIdx] = b; } Void setResPredFlagSubParts ( Bool b, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Void setResPredIndicator ( Bool bAv, Bool bRP ) { m_pbResPredAvailable[0] = bAv; m_pbResPredFlag[0] = bRP; } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Bool getResidualSamples( UInt uiPartIdx, #if QC_SIMPLIFIEDIVRP_M24938 Bool bRecon , #endif TComYuv* pcYuv = 0 ); #endif // ------------------------------------------------------------------------------------------------------------------- // member functions for accessing partition information // ------------------------------------------------------------------------------------------------------------------- #if LG_RESTRICTEDRESPRED_M24766 Void getPartIndexAndSize( UInt uiPartIdx, UInt& ruiPartAddr, Int& riWidth, Int& riHeight, UInt uiAbsPartIdx = 0, Bool bLCU = false); #else Void getPartIndexAndSize ( UInt uiPartIdx, UInt& ruiPartAddr, Int& riWidth, Int& riHeight ); #endif #if LG_RESTRICTEDRESPRED_M24766 Int getResiPredMode(UInt uiPartAddr); Void getPUResiPredShift (Int *iPUPredResiShift, UInt uiAbsPartIndex); #endif UChar getNumPartInter (); Bool isFirstAbsZorderIdxInDepth (UInt uiAbsPartIdx, UInt uiDepth); // ------------------------------------------------------------------------------------------------------------------- // member functions for motion vector // ------------------------------------------------------------------------------------------------------------------- Void getMvField ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefPicList, TComMvField& rcMvField ); AMVP_MODE getAMVPMode ( UInt uiIdx ); #if SHARP_INTERVIEW_DECOUPLE_B0111 Void fillMvpCandBase ( UInt uiPartIdx, UInt uiPartAddr, RefPicList eRefPicList, Int iRefIdx, AMVPInfo* pInfo ); Void fillMvpCand ( UInt uiPartIdx, UInt uiPartAddr, RefPicList eRefPicList, Int iRefIdx, AMVPInfo* pInfo , Int iMVPIdx=-1); #else Void fillMvpCand ( UInt uiPartIdx, UInt uiPartAddr, RefPicList eRefPicList, Int iRefIdx, AMVPInfo* pInfo ); #endif #if PARALLEL_MERGE Bool isDiffMER ( Int xN, Int yN, Int xP, Int yP); Void getPartPosition ( UInt partIdx, Int& xP, Int& yP, Int& nPSW, Int& nPSH); #endif Void setMVPIdx ( RefPicList eRefPicList, UInt uiIdx, Int iMVPIdx) { m_apiMVPIdx[eRefPicList][uiIdx] = iMVPIdx; } Int getMVPIdx ( RefPicList eRefPicList, UInt uiIdx) { return m_apiMVPIdx[eRefPicList][uiIdx]; } Char* getMVPIdx ( RefPicList eRefPicList ) { return m_apiMVPIdx[eRefPicList]; } Void setMVPNum ( RefPicList eRefPicList, UInt uiIdx, Int iMVPNum ) { m_apiMVPNum[eRefPicList][uiIdx] = iMVPNum; } Int getMVPNum ( RefPicList eRefPicList, UInt uiIdx ) { return m_apiMVPNum[eRefPicList][uiIdx]; } Char* getMVPNum ( RefPicList eRefPicList ) { return m_apiMVPNum[eRefPicList]; } Void setMVPIdxSubParts ( Int iMVPIdx, RefPicList eRefPicList, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Void setMVPNumSubParts ( Int iMVPNum, RefPicList eRefPicList, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); Void clipMv ( TComMv& rcMv ); Void getMvPredLeft ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldA.getMv(); } Void getMvPredAbove ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldB.getMv(); } Void getMvPredAboveRight ( TComMv& rcMvPred ) { rcMvPred = m_cMvFieldC.getMv(); } Void compressMV (); // ------------------------------------------------------------------------------------------------------------------- // utility functions for neighbouring information // ------------------------------------------------------------------------------------------------------------------- TComDataCU* getCULeft () { return m_pcCULeft; } TComDataCU* getCUAbove () { return m_pcCUAbove; } TComDataCU* getCUAboveLeft () { return m_pcCUAboveLeft; } TComDataCU* getCUAboveRight () { return m_pcCUAboveRight; } TComDataCU* getCUColocated ( RefPicList eRefPicList ) { return m_apcCUColocated[eRefPicList]; } TComDataCU* getPULeft ( UInt& uiLPartUnitIdx , UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true , Bool bEnforceTileRestriction=true ); TComDataCU* getPUAbove ( UInt& uiAPartUnitIdx , UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true, Bool MotionDataCompresssion = false , Bool planarAtLCUBoundary = false , Bool bEnforceTileRestriction=true ); TComDataCU* getPUAboveLeft ( UInt& uiALPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true, Bool MotionDataCompresssion = false ); TComDataCU* getPUAboveRight ( UInt& uiARPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true, Bool MotionDataCompresssion = false ); TComDataCU* getPUBelowLeft ( UInt& uiBLPartUnitIdx, UInt uiCurrPartUnitIdx, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true ); TComDataCU* getQpMinCuLeft ( UInt& uiLPartUnitIdx , UInt uiCurrAbsIdxInLCU, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true ); #if H0204_QP_PREDICTION TComDataCU* getQpMinCuAbove ( UInt& aPartUnitIdx , UInt currAbsIdxInLCU, Bool enforceSliceRestriction=true, Bool enforceEntropySliceRestriction=true ); #endif #if H0736_AVC_STYLE_QP_RANGE Char getRefQP ( UInt uiCurrAbsIdxInLCU ); #else UChar getRefQP ( UInt uiCurrAbsIdxInLCU ); #endif TComDataCU* getPUAboveRightAdi ( UInt& uiARPartUnitIdx, UInt uiPuWidth, UInt uiCurrPartUnitIdx, UInt uiPartUnitOffset = 1, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true ); TComDataCU* getPUBelowLeftAdi ( UInt& uiBLPartUnitIdx, UInt uiPuHeight, UInt uiCurrPartUnitIdx, UInt uiPartUnitOffset = 1, Bool bEnforceSliceRestriction=true, Bool bEnforceEntropySliceRestriction=true ); Void deriveLeftRightTopIdx ( PartSize eCUMode, UInt uiPartIdx, UInt& ruiPartIdxLT, UInt& ruiPartIdxRT ); Void deriveLeftBottomIdx ( PartSize eCUMode, UInt uiPartIdx, UInt& ruiPartIdxLB ); Void deriveLeftRightTopIdxAdi ( UInt& ruiPartIdxLT, UInt& ruiPartIdxRT, UInt uiPartOffset, UInt uiPartDepth ); Void deriveLeftBottomIdxAdi ( UInt& ruiPartIdxLB, UInt uiPartOffset, UInt uiPartDepth ); Bool hasEqualMotion ( UInt uiAbsPartIdx, TComDataCU* pcCandCU, UInt uiCandAbsPartIdx ); #if SIMP_MRG_PRUN #if MERL_VSP_C0152 Void getInterMergeCandidates ( UInt uiAbsPartIdx, UInt uiPUIdx, UInt uiDepth, TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours, Int& numValidMergeCand, Int* uiVSPIndexTrue, Int mrgCandIdx = -1 ); #else Void getInterMergeCandidates ( UInt uiAbsPartIdx, UInt uiPUIdx, UInt uiDepth, TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours, Int& numValidMergeCand, Int mrgCandIdx = -1 ); #endif #else Void getInterMergeCandidates ( UInt uiAbsPartIdx, UInt uiPUIdx, UInt uiDepth, TComMvField* pcMFieldNeighbours, UChar* puhInterDirNeighbours, Int& numValidMergeCand ); #endif Void deriveLeftRightTopIdxGeneral( PartSize eCUMode, UInt uiAbsPartIdx, UInt uiPartIdx, UInt& ruiPartIdxLT, UInt& ruiPartIdxRT ); Void deriveLeftBottomIdxGeneral ( PartSize eCUMode, UInt uiAbsPartIdx, UInt uiPartIdx, UInt& ruiPartIdxLB ); // ------------------------------------------------------------------------------------------------------------------- // member functions for modes // ------------------------------------------------------------------------------------------------------------------- Bool isIntra ( UInt uiPartIdx ) { return m_pePredMode[ uiPartIdx ] == MODE_INTRA; } Bool isSkipped ( UInt uiPartIdx ); ///< SKIP (no residual) // ------------------------------------------------------------------------------------------------------------------- // member functions for symbol prediction (most probable / mode conversion) // ------------------------------------------------------------------------------------------------------------------- UInt getIntraSizeIdx ( UInt uiAbsPartIdx ); Void convertTransIdx ( UInt uiAbsPartIdx, UInt uiTrIdx, UInt& ruiLumaTrMode, UInt& ruiChromaTrMode ); Void getAllowedChromaDir ( UInt uiAbsPartIdx, UInt* uiModeList ); Int getIntraDirLumaPredictor ( UInt uiAbsPartIdx, Int* uiIntraDirPred, Int* piMode = NULL ); // ------------------------------------------------------------------------------------------------------------------- // member functions for SBAC context // ------------------------------------------------------------------------------------------------------------------- UInt getCtxSplitFlag ( UInt uiAbsPartIdx, UInt uiDepth ); UInt getCtxQtCbf ( UInt uiAbsPartIdx, TextType eType, UInt uiTrDepth ); UInt getCtxSkipFlag ( UInt uiAbsPartIdx ); #if LGE_ILLUCOMP_B0045 UInt getCtxICFlag ( UInt uiAbsPartIdx ); #endif UInt getCtxInterDir ( UInt uiAbsPartIdx ); #if HHI_INTER_VIEW_RESIDUAL_PRED UInt getCtxResPredFlag ( UInt uiAbsPartIdx ); #endif UInt getSliceStartCU ( UInt pos ) { return m_uiSliceStartCU[pos-m_uiAbsIdxInLCU]; } UInt getEntropySliceStartCU ( UInt pos ) { return m_uiEntropySliceStartCU[pos-m_uiAbsIdxInLCU]; } UInt& getTotalBins () { return m_uiTotalBins; } #if LGE_EDGE_INTRA_A0070 UInt getCtxEdgeIntra ( UInt uiAbsPartIdx ); #endif // ------------------------------------------------------------------------------------------------------------------- // member functions for RD cost storage // ------------------------------------------------------------------------------------------------------------------- Double& getTotalCost() { return m_dTotalCost; } #if FIX_RDO_NEGDIST Dist& getTotalDistortion() { return m_uiTotalDistortion; } #else UInt& getTotalDistortion() { return m_uiTotalDistortion; } #endif UInt& getTotalBits() { return m_uiTotalBits; } UInt& getTotalNumPart() { return m_uiNumPartition; } UInt getCoefScanIdx(UInt uiAbsPartIdx, UInt uiWidth, Bool bIsLuma, Bool bIsIntra); Bool useNonSquareTrans( UInt uiTrMode, Int absPartIdx ); Void getNSQTSize(Int trMode, Int absPartIdx, Int &trWidth, Int &trHeight); Bool useNonSquarePU ( UInt absPartIdx); UInt getInterTUSplitDirection ( Int width, Int height, Int trLastWidth, Int trLastHeight ); UInt getNSAbsPartIdx ( UInt log2TrafoSize, UInt absPartIdx, UInt absTUPartIdx, UInt innerQuadIdx, UInt trMode ); UInt getNSAddrChroma ( UInt uiLog2TrSizeC, UInt uiTrModeC, UInt uiQuadrant, UInt absTUPartIdx ); // ------------------------------------------------------------------------------------------------------------------- // member functions for depth model modes // ------------------------------------------------------------------------------------------------------------------- #if HHI_DMM_WEDGE_INTRA UInt* getWedgeFullTabIdx () { return m_puiWedgeFullTabIdx; } UInt getWedgeFullTabIdx ( UInt uiIdx ) { return m_puiWedgeFullTabIdx[uiIdx]; } Void setWedgeFullTabIdx ( UInt uiIdx, UInt uh ) { m_puiWedgeFullTabIdx[uiIdx] = uh; } Void setWedgeFullTabIdxSubParts ( UInt uiTIdx, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgeFullDeltaDC1 () { return m_piWedgeFullDeltaDC1; } Int getWedgeFullDeltaDC1 ( UInt uiIdx ) { return m_piWedgeFullDeltaDC1[uiIdx]; } Void setWedgeFullDeltaDC1 ( UInt uiIdx, Int i ) { m_piWedgeFullDeltaDC1[uiIdx] = i; } Void setWedgeFullDeltaDC1SubParts ( Int iDC1, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgeFullDeltaDC2 () { return m_piWedgeFullDeltaDC2; } Int getWedgeFullDeltaDC2 ( UInt uiIdx ) { return m_piWedgeFullDeltaDC2[uiIdx]; } Void setWedgeFullDeltaDC2 ( UInt uiIdx, Int i ) { m_piWedgeFullDeltaDC2[uiIdx] = i; } Void setWedgeFullDeltaDC2SubParts ( Int iDC2, UInt uiAbsPartIdx, UInt uiDepth ); UInt* getWedgePredDirTabIdx () { return m_puiWedgePredDirTabIdx; } UInt getWedgePredDirTabIdx ( UInt uiIdx ) { return m_puiWedgePredDirTabIdx[uiIdx]; } Void setWedgePredDirTabIdx ( UInt uiIdx, UInt uh ) { m_puiWedgePredDirTabIdx[uiIdx] = uh; } Void setWedgePredDirTabIdxSubParts ( UInt uiTIdx, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgePredDirDeltaDC1 () { return m_piWedgePredDirDeltaDC1; } Int getWedgePredDirDeltaDC1 ( UInt uiIdx ) { return m_piWedgePredDirDeltaDC1[uiIdx]; } Void setWedgePredDirDeltaDC1 ( UInt uiIdx, Int i ) { m_piWedgePredDirDeltaDC1[uiIdx] = i; } Void setWedgePredDirDeltaDC1SubParts ( Int iDC1, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgePredDirDeltaDC2 () { return m_piWedgePredDirDeltaDC2; } Int getWedgePredDirDeltaDC2 ( UInt uiIdx ) { return m_piWedgePredDirDeltaDC2[uiIdx]; } Void setWedgePredDirDeltaDC2 ( UInt uiIdx, Int i ) { m_piWedgePredDirDeltaDC2[uiIdx] = i; } Void setWedgePredDirDeltaDC2SubParts ( Int iDC2, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgePredDirDeltaEnd () { return m_piWedgePredDirDeltaEnd; } Int getWedgePredDirDeltaEnd ( UInt uiIdx ) { return m_piWedgePredDirDeltaEnd[uiIdx]; } Void setWedgePredDirDeltaEnd ( UInt uiIdx, Int iD ) { m_piWedgePredDirDeltaEnd[uiIdx] = iD; } Void setWedgePredDirDeltaEndSubParts ( Int iDelta, UInt uiAbsPartIdx, UInt uiDepth ); #endif #if HHI_DMM_PRED_TEX UInt* getWedgePredTexTabIdx () { return m_puiWedgePredTexTabIdx; } UInt getWedgePredTexTabIdx ( UInt uiIdx ) { return m_puiWedgePredTexTabIdx[uiIdx]; } Void setWedgePredTexTabIdx ( UInt uiIdx, UInt uh ) { m_puiWedgePredTexTabIdx[uiIdx] = uh; } Void setWedgePredTexTabIdxSubParts ( UInt uiTIdx, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgePredTexDeltaDC1 () { return m_piWedgePredTexDeltaDC1; } Int getWedgePredTexDeltaDC1 ( UInt uiIdx ) { return m_piWedgePredTexDeltaDC1[uiIdx]; } Void setWedgePredTexDeltaDC1 ( UInt uiIdx, Int i ) { m_piWedgePredTexDeltaDC1[uiIdx] = i; } Void setWedgePredTexDeltaDC1SubParts ( Int iDC1, UInt uiAbsPartIdx, UInt uiDepth ); Int* getWedgePredTexDeltaDC2 () { return m_piWedgePredTexDeltaDC2; } Int getWedgePredTexDeltaDC2 ( UInt uiIdx ) { return m_piWedgePredTexDeltaDC2[uiIdx]; } Void setWedgePredTexDeltaDC2 ( UInt uiIdx, Int i ) { m_piWedgePredTexDeltaDC2[uiIdx] = i; } Void setWedgePredTexDeltaDC2SubParts ( Int iDC2, UInt uiAbsPartIdx, UInt uiDepth ); Int* getContourPredTexDeltaDC1 () { return m_piContourPredTexDeltaDC1; } Int getContourPredTexDeltaDC1 ( UInt uiIdx ) { return m_piContourPredTexDeltaDC1[uiIdx]; } Void setContourPredTexDeltaDC1 ( UInt uiIdx, Int i ) { m_piContourPredTexDeltaDC1[uiIdx] = i; } Void setContourPredTexDeltaDC1SubParts ( Int iDC1, UInt uiAbsPartIdx, UInt uiDepth ); Int* getContourPredTexDeltaDC2 () { return m_piContourPredTexDeltaDC2; } Int getContourPredTexDeltaDC2 ( UInt uiIdx ) { return m_piContourPredTexDeltaDC2[uiIdx]; } Void setContourPredTexDeltaDC2 ( UInt uiIdx, Int i ) { m_piContourPredTexDeltaDC2[uiIdx] = i; } Void setContourPredTexDeltaDC2SubParts ( Int iDC2, UInt uiAbsPartIdx, UInt uiDepth ); #endif #if LGE_EDGE_INTRA_A0070 UChar* getEdgeCode( UInt uiIdx ) { return &m_pucEdgeCode[uiIdx * LGE_EDGE_INTRA_MAX_EDGE_NUM_PER_4x4]; } UChar* getEdgeNumber( ) { return m_pucEdgeNumber; } UChar getEdgeNumber( UInt uiIdx ) { return m_pucEdgeNumber[uiIdx]; } Void setEdgeNumber( UInt uiIdx, UChar val ) { m_pucEdgeNumber[uiIdx] = val; } UChar* getEdgeStartPos( ) { return m_pucEdgeStartPos; } UChar getEdgeStartPos( UInt uiIdx ) { return m_pucEdgeStartPos[uiIdx]; } Void setEdgeStartPos( UInt uiIdx, UChar val ) { m_pucEdgeStartPos[uiIdx] = val; } Bool* getEdgeLeftFirst( ) { return m_pbEdgeLeftFirst; } Bool getEdgeLeftFirst( UInt uiIdx ) { return m_pbEdgeLeftFirst[uiIdx]; } Void setEdgeLeftFirst( UInt uiIdx, Bool val ) { m_pbEdgeLeftFirst[uiIdx] = val; } Bool* getEdgePartition( UInt uiIdx ) { return &m_pbEdgePartition[uiIdx * 16]; } Void reconPartition( UInt uiAbsPartIdx, UInt uiDepth, Bool bLeft, UChar ucStartPos, UChar ucNumEdge, UChar* pucEdgeCode, Bool* pbRegion ); #if LGE_EDGE_INTRA_DELTA_DC Int* getEdgeDeltaDC0( ) { return m_piEdgeDeltaDC0; } Int* getEdgeDeltaDC1( ) { return m_piEdgeDeltaDC1; } Int getEdgeDeltaDC0( UInt uiIdx ) { return m_piEdgeDeltaDC0[uiIdx]; } Int getEdgeDeltaDC1( UInt uiIdx ) { return m_piEdgeDeltaDC1[uiIdx]; } Void setEdgeDeltaDC0( UInt uiIdx, Int val ) { m_piEdgeDeltaDC0[uiIdx] = val; } Void setEdgeDeltaDC1( UInt uiIdx, Int val ) { m_piEdgeDeltaDC1[uiIdx] = val; } #endif #endif #if RWTH_SDC_DLT_B0036 Bool* getSDCFlag () { return m_pbSDCFlag; } Bool getSDCFlag ( UInt uiIdx ) { return m_pbSDCFlag[uiIdx]; } Void setSDCFlagSubParts ( Bool bSDCFlag, UInt uiAbsPartIdx, UInt uiPartIdx, UInt uiDepth ); UInt getCtxSDCFlag ( UInt uiAbsPartIdx ); Bool getSDCAvailable ( UInt uiAbsPartIdx ); Pel* getSDCSegmentDCOffset( UInt uiSeg ) { return m_apSegmentDCOffset[uiSeg]; } Pel getSDCSegmentDCOffset( UInt uiSeg, UInt uiPartIdx ) { return m_apSegmentDCOffset[uiSeg][uiPartIdx]; } Void setSDCSegmentDCOffset( Pel pOffset, UInt uiSeg, UInt uiPartIdx) { m_apSegmentDCOffset[uiSeg][uiPartIdx] = pOffset; } #endif }; namespace RasterAddress { /** Check whether 2 addresses point to the same column * \param addrA First address in raster scan order * \param addrB Second address in raters scan order * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool isEqualCol( Int addrA, Int addrB, Int numUnitsPerRow ) { // addrA % numUnitsPerRow == addrB % numUnitsPerRow return (( addrA ^ addrB ) & ( numUnitsPerRow - 1 ) ) == 0; } /** Check whether 2 addresses point to the same row * \param addrA First address in raster scan order * \param addrB Second address in raters scan order * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool isEqualRow( Int addrA, Int addrB, Int numUnitsPerRow ) { // addrA / numUnitsPerRow == addrB / numUnitsPerRow return (( addrA ^ addrB ) &~ ( numUnitsPerRow - 1 ) ) == 0; } /** Check whether 2 addresses point to the same row or column * \param addrA First address in raster scan order * \param addrB Second address in raters scan order * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool isEqualRowOrCol( Int addrA, Int addrB, Int numUnitsPerRow ) { return isEqualCol( addrA, addrB, numUnitsPerRow ) | isEqualRow( addrA, addrB, numUnitsPerRow ); } /** Check whether one address points to the first column * \param addr Address in raster scan order * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool isZeroCol( Int addr, Int numUnitsPerRow ) { // addr % numUnitsPerRow == 0 return ( addr & ( numUnitsPerRow - 1 ) ) == 0; } /** Check whether one address points to the first row * \param addr Address in raster scan order * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool isZeroRow( Int addr, Int numUnitsPerRow ) { // addr / numUnitsPerRow == 0 return ( addr &~ ( numUnitsPerRow - 1 ) ) == 0; } /** Check whether one address points to a column whose index is smaller than a given value * \param addr Address in raster scan order * \param val Given column index value * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool lessThanCol( Int addr, Int val, Int numUnitsPerRow ) { // addr % numUnitsPerRow < val return ( addr & ( numUnitsPerRow - 1 ) ) < val; } /** Check whether one address points to a row whose index is smaller than a given value * \param addr Address in raster scan order * \param val Given row index value * \param numUnitsPerRow Number of units in a row * \return Result of test */ static inline Bool lessThanRow( Int addr, Int val, Int numUnitsPerRow ) { // addr / numUnitsPerRow < val return addr < val * numUnitsPerRow; } }; //! \} #endif