source: 3DVCSoftware/trunk/source/Lib/TLibCommon/TComSampleAdaptiveOffset.h @ 443

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/** \file     TComSampleAdaptiveOffset.h
    \brief    sample adaptive offset class (header)
*/

#ifndef __TCOMSAMPLEADAPTIVEOFFSET__
#define __TCOMSAMPLEADAPTIVEOFFSET__

#include "CommonDef.h"
#include "TComPic.h"

//! \ingroup TLibCommon
//! \{

// ====================================================================================================================
// Constants
// ====================================================================================================================

#define SAO_MAX_DEPTH                 4
#define SAO_BO_BITS                   5
#define LUMA_GROUP_NUM                (1<<SAO_BO_BITS)
#define MAX_NUM_SAO_OFFSETS           4
#define MAX_NUM_SAO_CLASS             33
// ====================================================================================================================
// Class definition
// ====================================================================================================================

/// Sample Adaptive Offset class
class TComSampleAdaptiveOffset
{
protected:
  TComPic*          m_pcPic;

  static UInt m_uiMaxDepth;
#if !LGE_SAO_MIGRATION_D0091
  static const Int m_aiNumPartsInRow[5];
  static const Int m_aiNumPartsLevel[5];
#endif
  static const Int m_aiNumCulPartsLevel[5];
  static const UInt m_auiEoTable[9];
#if !LGE_SAO_MIGRATION_D0091
  static const UInt m_auiEoTable2D[9];
  static const UInt m_iWeightSao[MAX_NUM_SAO_TYPE];
#endif
  Int *m_iOffsetBo;
  Int m_iOffsetEo[LUMA_GROUP_NUM];

  Int  m_iPicWidth;
  Int  m_iPicHeight;
  UInt m_uiMaxSplitLevel;
  UInt m_uiMaxCUWidth;
  UInt m_uiMaxCUHeight;
  Int  m_iNumCuInWidth;
  Int  m_iNumCuInHeight;
  Int  m_iNumTotalParts;
  static Int m_iNumClass[MAX_NUM_SAO_TYPE];
  SliceType  m_eSliceType;
  Int        m_iPicNalReferenceIdc;

  UInt m_uiSaoBitIncrease;
  UInt m_uiQP;

  Pel   *m_pClipTable;
  Pel   *m_pClipTableBase;
  Pel   *m_lumaTableBo;
  Int   *m_iUpBuff1;
  Int   *m_iUpBuff2;
  Int   *m_iUpBufft;
  Int   *ipSwap;
  Bool  m_bUseNIF;       //!< true for performing non-cross slice boundary ALF
  UInt  m_uiNumSlicesInPic;      //!< number of slices in picture
  Int   m_iSGDepth;              //!< slice granularity depth
  TComPicYuv* m_pcYuvTmp;    //!< temporary picture buffer pointer when non-across slice/tile boundary SAO is enabled

  Pel* m_pTmpU1;
  Pel* m_pTmpU2;
  Pel* m_pTmpL1;
  Pel* m_pTmpL2;
  Int* m_iLcuPartIdx;
  Int     m_maxNumOffsetsPerPic;
#if LGE_SAO_MIGRATION_D0091
  Bool    m_saoLcuBoundary;
  Bool    m_saoLcuBasedOptimization;

  Void xPCMRestoration        (TComPic* pcPic);
  Void xPCMCURestoration      (TComDataCU* pcCU, UInt uiAbsZorderIdx, UInt uiDepth);
  Void xPCMSampleRestoration  (TComDataCU* pcCU, UInt uiAbsZorderIdx, UInt uiDepth, TextType ttText);
#else
  Bool    m_saoInterleavingFlag;
#endif
public:
  TComSampleAdaptiveOffset         ();
  virtual ~TComSampleAdaptiveOffset();

  Void create( UInt uiSourceWidth, UInt uiSourceHeight, UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxCUDepth );
  Void destroy ();

  Int  convertLevelRowCol2Idx(int level, int row, int col);
#if !LGE_SAO_MIGRATION_D0091
  void convertIdx2LevelRowCol(int idx, int *level, int *row, int *col);
#endif

  Void initSAOParam   (SAOParam *pcSaoParam, Int iPartLevel, Int iPartRow, Int iPartCol, Int iParentPartIdx, Int StartCUX, Int EndCUX, Int StartCUY, Int EndCUY, Int iYCbCr);
  Void allocSaoParam  (SAOParam* pcSaoParam);
  Void resetSAOParam  (SAOParam *pcSaoParam);
#if LGE_SAO_MIGRATION_D0091
  static Void freeSaoParam   (SAOParam *pcSaoParam);
#else
  Void freeSaoParam   (SAOParam *pcSaoParam);
#endif
  

  Void SAOProcess(TComPic* pcPic, SAOParam* pcSaoParam);
  Void processSaoCu(Int iAddr, Int iSaoType, Int iYCbCr);
#if !LGE_SAO_MIGRATION_D0091
  Void processSaoOnePart(SAOQTPart *psQTPart, UInt uiPartIdx, Int iYCbCr);
  Void processSaoQuadTree(SAOQTPart *psQTPart, UInt uiPartIdx, Int iYCbCr);
#endif
  Pel* getPicYuvAddr(TComPicYuv* pcPicYuv, Int iYCbCr,Int iAddr = 0);

  Void processSaoCuOrg(Int iAddr, Int iPartIdx, Int iYCbCr);  //!< LCU-basd SAO process without slice granularity 
  Void createPicSaoInfo(TComPic* pcPic, Int numSlicesInPic = 1);
  Void destroyPicSaoInfo();
  Void processSaoBlock(Pel* pDec, Pel* pRest, Int stride, Int iSaoType, UInt xPos, UInt yPos, UInt width, UInt height, Bool* pbBorderAvail);

  Void resetLcuPart(SaoLcuParam* saoLcuParam);
  Void convertQT2SaoUnit(SAOParam* saoParam, UInt partIdx, Int yCbCr);
  Void convertOnePart2SaoUnit(SAOParam *saoParam, UInt partIdx, Int yCbCr);
  Void processSaoUnitAll(SaoLcuParam* saoLcuParam, Bool oneUnitFlag, Int yCbCr);
#if LGE_SAO_MIGRATION_D0091
  Void setSaoLcuBoundary (Bool bVal)  {m_saoLcuBoundary = bVal;}
  Bool getSaoLcuBoundary ()           {return m_saoLcuBoundary;}
  Void setSaoLcuBasedOptimization (Bool bVal)  {m_saoLcuBasedOptimization = bVal;}
  Bool getSaoLcuBasedOptimization ()           {return m_saoLcuBasedOptimization;}
  Void resetSaoUnit(SaoLcuParam* saoUnit);
  Void copySaoUnit(SaoLcuParam* saoUnitDst, SaoLcuParam* saoUnitSrc );
  Void PCMLFDisableProcess    ( TComPic* pcPic);                        ///< interface function for ALF process 
#else
  Void setSaoInterleavingFlag (Bool bVal)  {m_saoInterleavingFlag = bVal;}
  Bool getSaoInterleavingFlag ()           {return m_saoInterleavingFlag;}
#endif
};

//! \}
#endif