source: SHVCSoftware/branches/SHM-1.1-dev/source/Lib/TLibEncoder/TEncCu.h @ 687

Last change on this file since 687 was 20, checked in by seregin, 12 years ago

ENCODER_FAST_MODE: enable encoder fast mode (L0174)

File size: 8.2 KB
Line 
1/* The copyright in this software is being made available under the BSD
2 * License, included below. This software may be subject to other third party
3 * and contributor rights, including patent rights, and no such rights are
4 * granted under this license. 
5 *
6 * Copyright (c) 2010-2012, ITU/ISO/IEC
7 * All rights reserved.
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13 *    this list of conditions and the following disclaimer.
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18 *    be used to endorse or promote products derived from this software without
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30 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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32 */
33
34/** \file     TEncCu.h
35    \brief    Coding Unit (CU) encoder class (header)
36*/
37
38#ifndef __TENCCU__
39#define __TENCCU__
40
41// Include files
42#include "TLibCommon/CommonDef.h"
43#include "TLibCommon/TComYuv.h"
44#include "TLibCommon/TComPrediction.h"
45#include "TLibCommon/TComTrQuant.h"
46#include "TLibCommon/TComBitCounter.h"
47#include "TLibCommon/TComDataCU.h"
48
49#include "TEncEntropy.h"
50#include "TEncSearch.h"
51#include "TEncRateCtrl.h"
52//! \ingroup TLibEncoder
53//! \{
54
55class TEncTop;
56class TEncSbac;
57class TEncCavlc;
58class TEncSlice;
59
60// ====================================================================================================================
61// Class definition
62// ====================================================================================================================
63
64/// CU encoder class
65class TEncCu
66{
67private:
68 
69  TComDataCU**            m_ppcBestCU;      ///< Best CUs in each depth
70  TComDataCU**            m_ppcTempCU;      ///< Temporary CUs in each depth
71  UChar                   m_uhTotalDepth;
72 
73  TComYuv**               m_ppcPredYuvBest; ///< Best Prediction Yuv for each depth
74  TComYuv**               m_ppcResiYuvBest; ///< Best Residual Yuv for each depth
75  TComYuv**               m_ppcRecoYuvBest; ///< Best Reconstruction Yuv for each depth
76  TComYuv**               m_ppcPredYuvTemp; ///< Temporary Prediction Yuv for each depth
77  TComYuv**               m_ppcResiYuvTemp; ///< Temporary Residual Yuv for each depth
78  TComYuv**               m_ppcRecoYuvTemp; ///< Temporary Reconstruction Yuv for each depth
79  TComYuv**               m_ppcOrigYuv;     ///< Original Yuv for each depth
80 
81  //  Data : encoder control
82  Bool                    m_bEncodeDQP;
83  Bool                    m_checkBurstIPCMFlag;
84
85  //  Access channel
86  TEncCfg*                m_pcEncCfg;
87#if INTRA_BL
88  TComPicYuv*             m_pcPicYuvRecBase;       ///< reconstructed base layer
89#endif
90  TEncSearch*             m_pcPredSearch;
91  TComTrQuant*            m_pcTrQuant;
92  TComBitCounter*         m_pcBitCounter;
93  TComRdCost*             m_pcRdCost;
94 
95#if SVC_EXTENSION
96  TEncTop**               m_ppcTEncTop;
97#endif
98 
99  TEncEntropy*            m_pcEntropyCoder;
100  TEncCavlc*              m_pcCavlcCoder;
101  TEncSbac*               m_pcSbacCoder;
102  TEncBinCABAC*           m_pcBinCABAC;
103 
104  // SBAC RD
105  TEncSbac***             m_pppcRDSbacCoder;
106  TEncSbac*               m_pcRDGoOnSbacCoder;
107  Bool                    m_bUseSBACRD;
108  TEncRateCtrl*           m_pcRateCtrl;
109public:
110  /// copy parameters from encoder class
111  Void  init                ( TEncTop* pcEncTop );
112 
113  /// create internal buffers
114  Void  create              ( UChar uhTotalDepth, UInt iMaxWidth, UInt iMaxHeight );
115 
116  /// destroy internal buffers
117  Void  destroy             ();
118 
119  /// CU analysis function
120  Void  compressCU          ( TComDataCU*&  rpcCU );
121 
122  /// CU encoding function
123  Void  encodeCU            ( TComDataCU*    pcCU, Bool bForceTerminate = false  );
124 
125  Void setBitCounter        ( TComBitCounter* pcBitCounter ) { m_pcBitCounter = pcBitCounter; }
126#if INTRA_BL
127  Void  setBaseRecPic       ( TComPicYuv* p ) { m_pcPicYuvRecBase = p; }   
128#endif
129protected:
130  Void  finishCU            ( TComDataCU*  pcCU, UInt uiAbsPartIdx,           UInt uiDepth        );
131#if AMP_ENC_SPEEDUP
132  Void  xCompressCU         ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, UInt uiDepth, PartSize eParentPartSize = SIZE_NONE );
133#else
134  Void  xCompressCU         ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, UInt uiDepth        );
135#endif
136  Void  xEncodeCU           ( TComDataCU*  pcCU, UInt uiAbsPartIdx,           UInt uiDepth        );
137 
138  Int   xComputeQP          ( TComDataCU* pcCU, UInt uiDepth );
139  Void  xCheckBestMode      ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, UInt uiDepth        );
140 
141  Void  xCheckRDCostMerge2Nx2N( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, Bool *earlyDetectionSkipMode);
142
143#if AMP_MRG
144  Void  xCheckRDCostInter   ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, PartSize ePartSize, Bool bUseMRG = false  );
145#else
146  Void  xCheckRDCostInter   ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, PartSize ePartSize  );
147#endif
148  Void  xCheckRDCostIntra   ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU, PartSize ePartSize  );
149#if INTRA_BL
150  Void  xCheckRDCostIntraBL ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU  );
151#endif
152#if ENCODER_FAST_MODE
153  Void  xCheckRDCostILRUni  ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU );
154#endif
155
156  Void  xCheckBestMode      ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU                      );
157  Void  xCheckDQP           ( TComDataCU*  pcCU );
158 
159  Void  xCheckIntraPCM      ( TComDataCU*& rpcBestCU, TComDataCU*& rpcTempCU                      );
160  Void  xCopyAMVPInfo       ( AMVPInfo* pSrc, AMVPInfo* pDst );
161  Void  xCopyYuv2Pic        (TComPic* rpcPic, UInt uiCUAddr, UInt uiAbsPartIdx, UInt uiDepth, UInt uiSrcDepth, TComDataCU* pcCU, UInt uiLPelX, UInt uiTPelY );
162  Void  xCopyYuv2Tmp        ( UInt uhPartUnitIdx, UInt uiDepth );
163
164  Bool getdQPFlag           ()                        { return m_bEncodeDQP;        }
165  Void setdQPFlag           ( Bool b )                { m_bEncodeDQP = b;           }
166
167  Bool getCheckBurstIPCMFlag()                        { return m_checkBurstIPCMFlag;   }
168  Void setCheckBurstIPCMFlag( Bool b )                { m_checkBurstIPCMFlag = b;      }
169
170  Bool checkLastCUSucIPCM   ( TComDataCU* pcCU, UInt uiCurAbsPartIdx );
171  Int  countNumSucIPCM      ( TComDataCU* pcCU, UInt uiCurAbsPartIdx );
172
173#if ADAPTIVE_QP_SELECTION
174  // Adaptive reconstruction level (ARL) statistics collection functions
175  Void xLcuCollectARLStats(TComDataCU* rpcCU);
176  Int  xTuCollectARLStats(TCoeff* rpcCoeff, Int* rpcArlCoeff, Int NumCoeffInCU, Double* cSum, UInt* numSamples );
177#endif
178
179#if AMP_ENC_SPEEDUP
180#if AMP_MRG
181  Void deriveTestModeAMP (TComDataCU *&rpcBestCU, PartSize eParentPartSize, Bool &bTestAMP_Hor, Bool &bTestAMP_Ver, Bool &bTestMergeAMP_Hor, Bool &bTestMergeAMP_Ver);
182#else
183  Void deriveTestModeAMP (TComDataCU *&rpcBestCU, PartSize eParentPartSize, Bool &bTestAMP_Hor, Bool &bTestAMP_Ver);
184#endif
185#endif
186
187#if SVC_EXTENSION
188  TEncTop*   getLayerEnc(UInt LayerId)  {return m_ppcTEncTop[LayerId]; }
189#endif
190
191  Void  xFillPCMBuffer     ( TComDataCU*& pCU, TComYuv* pOrgYuv ); 
192};
193
194//! \}
195
196#endif // __TENCMB__
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