source: 3DVCSoftware/branches/HTM-DEV-0.2-dev/source/Lib/TLibEncoder/TEncSlice.h @ 446

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/** \file     TEncSlice.h
    \brief    slice encoder class (header)
*/

#ifndef __TENCSLICE__
#define __TENCSLICE__

// Include files
#include "TLibCommon/CommonDef.h"
#include "TLibCommon/TComList.h"
#include "TLibCommon/TComPic.h"
#include "TLibCommon/TComPicYuv.h"
#include "TEncCu.h"
#include "WeightPredAnalysis.h"
#include "TEncRateCtrl.h"

//! \ingroup TLibEncoder
//! \{

class TEncTop;
class TEncGOP;

// ====================================================================================================================
// Class definition
// ====================================================================================================================

/// slice encoder class
class TEncSlice
  : public WeightPredAnalysis
{
private:
  // encoder configuration
  TEncCfg*                m_pcCfg;                              ///< encoder configuration class
  
  // pictures
  TComList<TComPic*>*     m_pcListPic;                          ///< list of pictures
  TComPicYuv*             m_apcPicYuvPred;                      ///< prediction picture buffer
  TComPicYuv*             m_apcPicYuvResi;                      ///< residual picture buffer
  
  // processing units
  TEncGOP*                m_pcGOPEncoder;                       ///< GOP encoder
  TEncCu*                 m_pcCuEncoder;                        ///< CU encoder
  
  // encoder search
  TEncSearch*             m_pcPredSearch;                       ///< encoder search class
  
  // coding tools
  TEncEntropy*            m_pcEntropyCoder;                     ///< entropy encoder
  TEncCavlc*              m_pcCavlcCoder;                       ///< CAVLC encoder
  TEncSbac*               m_pcSbacCoder;                        ///< SBAC encoder
  TEncBinCABAC*           m_pcBinCABAC;                         ///< Bin encoder CABAC
  TComTrQuant*            m_pcTrQuant;                          ///< transform & quantization
  
  // RD optimization
  TComBitCounter*         m_pcBitCounter;                       ///< bit counter
  TComRdCost*             m_pcRdCost;                           ///< RD cost computation
  TEncSbac***             m_pppcRDSbacCoder;                    ///< storage for SBAC-based RD optimization
  TEncSbac*               m_pcRDGoOnSbacCoder;                  ///< go-on SBAC encoder
  UInt64                  m_uiPicTotalBits;                     ///< total bits for the picture
#if H_3D_VSO
  Dist64                  m_uiPicDist;                          ///< total distortion for the picture
#else
  UInt64                  m_uiPicDist;                          ///< total distortion for the picture
#endif
  Double                  m_dPicRdCost;                         ///< picture-level RD cost
  Double*                 m_pdRdPicLambda;                      ///< array of lambda candidates
  Double*                 m_pdRdPicQp;                          ///< array of picture QP candidates (double-type for lambda)
  Int*                    m_piRdPicQp;                          ///< array of picture QP candidates (Int-type)
  TEncBinCABAC*           m_pcBufferBinCoderCABACs;       ///< line of bin coder CABAC
  TEncSbac*               m_pcBufferSbacCoders;                 ///< line to store temporary contexts
  TEncBinCABAC*           m_pcBufferLowLatBinCoderCABACs;       ///< dependent tiles: line of bin coder CABAC
  TEncSbac*               m_pcBufferLowLatSbacCoders;           ///< dependent tiles: line to store temporary contexts
  TEncRateCtrl*           m_pcRateCtrl;                         ///< Rate control manager
  UInt                    m_uiSliceIdx;
  std::vector<TEncSbac*> CTXMem;
public:
  TEncSlice();
  virtual ~TEncSlice();
  
  Void    create              ( Int iWidth, Int iHeight, UInt iMaxCUWidth, UInt iMaxCUHeight, UChar uhTotalDepth );
  Void    destroy             ();
  Void    init                ( TEncTop* pcEncTop );
  
  /// preparation of slice encoding (reference marking, QP and lambda)
  Void    initEncSlice        ( TComPic*  pcPic, Int pocLast, Int pocCurr, Int iNumPicRcvd,
                                Int iGOPid,   TComSlice*& rpcSlice, TComSPS* pSPS, TComPPS *pPPS );
#if RATE_CONTROL_LAMBDA_DOMAIN
  Void    resetQP             ( TComPic* pic, Int sliceQP, Double lambda );
#else
  Void    xLamdaRecalculation ( Int changeQP, Int idGOP, Int depth, SliceType eSliceType, TComSPS* pcSPS, TComSlice* pcSlice);
#endif
  // compress and encode slice
  Void    precompressSlice    ( TComPic*& rpcPic                                );      ///< precompress slice for multi-loop opt.
  Void    compressSlice       ( TComPic*& rpcPic                                );      ///< analysis stage of slice
  Void    encodeSlice         ( TComPic*& rpcPic, TComOutputBitstream* pcSubstreams  );
  
  // misc. functions
  Void    setSearchRange      ( TComSlice* pcSlice  );                                  ///< set ME range adaptively
  UInt64  getTotalBits        ()  { return m_uiPicTotalBits; }
  
  TEncCu*        getCUEncoder() { return m_pcCuEncoder; }                        ///< CU encoder
  Void    xDetermineStartAndBoundingCUAddr  ( UInt& uiStartCUAddr, UInt& uiBoundingCUAddr, TComPic*& rpcPic, Bool bEncodeSlice );
  UInt    getSliceIdx()         { return m_uiSliceIdx;                    }
  Void    setSliceIdx(UInt i)   { m_uiSliceIdx = i;                       }
  Void      initCtxMem( UInt i );
  Void      setCtxMem( TEncSbac* sb, Int b )   { CTXMem[b] = sb; }

private:
  Double  xGetQPValueAccordingToLambda ( Double lambda );
};

//! \}

#endif // __TENCSLICE__