/* 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 TEncSbac.cpp \brief SBAC encoder class */ #include "TEncTop.h" #include "TEncSbac.h" #include #include #if RWTH_SDC_DLT_B0036 #define GetNumDepthValues() (pcCU->getSlice()->getSPS()->getNumDepthValues()) #define GetBitsPerDepthValue() (pcCU->getSlice()->getSPS()->getBitsPerDepthValue()) #endif //! \ingroup TLibEncoder //! \{ // ==================================================================================================================== // Constructor / destructor / create / destroy // ==================================================================================================================== TEncSbac::TEncSbac() // new structure here : m_pcBitIf ( NULL ) , m_pcSlice ( NULL ) , m_pcBinIf ( NULL ) , m_bAlfCtrl ( false ) , m_uiCoeffCost ( 0 ) , m_uiMaxAlfCtrlDepth ( 0 ) , m_numContextModels ( 0 ) , m_cCUSplitFlagSCModel ( 1, 1, NUM_SPLIT_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels ) , m_cCUSkipFlagSCModel ( 1, 1, NUM_SKIP_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) #if LGE_ILLUCOMP_B0045 , m_cCUICFlagSCModel ( 1, 1, NUM_IC_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif , m_cCUMergeFlagExtSCModel ( 1, 1, NUM_MERGE_FLAG_EXT_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUMergeIdxExtSCModel ( 1, 1, NUM_MERGE_IDX_EXT_CTX , m_contextModels + m_numContextModels, m_numContextModels) #if HHI_INTER_VIEW_RESIDUAL_PRED , m_cResPredFlagSCModel ( 1, 1, NUM_RES_PRED_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif , m_cCUPartSizeSCModel ( 1, 1, NUM_PART_SIZE_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUPredModeSCModel ( 1, 1, NUM_PRED_MODE_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUAlfCtrlFlagSCModel ( 1, 1, NUM_ALF_CTRL_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUIntraPredSCModel ( 1, 1, NUM_ADI_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUChromaPredSCModel ( 1, 1, NUM_CHROMA_PRED_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUDeltaQpSCModel ( 1, 1, NUM_DELTA_QP_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUInterDirSCModel ( 1, 1, NUM_INTER_DIR_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCURefPicSCModel ( 1, 1, NUM_REF_NO_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUMvdSCModel ( 1, 1, NUM_MV_RES_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUQtCbfSCModel ( 1, 2, NUM_QT_CBF_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUTransSubdivFlagSCModel ( 1, 1, NUM_TRANS_SUBDIV_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUQtRootCbfSCModel ( 1, 1, NUM_QT_ROOT_CBF_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUSigCoeffGroupSCModel ( 1, 2, NUM_SIG_CG_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUSigSCModel ( 1, 1, NUM_SIG_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCuCtxLastX ( 1, 2, NUM_CTX_LAST_FLAG_XY , m_contextModels + m_numContextModels, m_numContextModels) , m_cCuCtxLastY ( 1, 2, NUM_CTX_LAST_FLAG_XY , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUOneSCModel ( 1, 1, NUM_ONE_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUAbsSCModel ( 1, 1, NUM_ABS_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cMVPIdxSCModel ( 1, 1, NUM_MVP_IDX_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cALFFlagSCModel ( 1, 1, NUM_ALF_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cALFUvlcSCModel ( 1, 1, NUM_ALF_UVLC_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cALFSvlcSCModel ( 1, 1, NUM_ALF_SVLC_CTX , m_contextModels + m_numContextModels, m_numContextModels) #if AMP_CTX , m_cCUAMPSCModel ( 1, 1, NUM_CU_AMP_CTX , m_contextModels + m_numContextModels, m_numContextModels) #else , m_cCUXPosiSCModel ( 1, 1, NUM_CU_X_POS_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cCUYPosiSCModel ( 1, 1, NUM_CU_Y_POS_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif , m_cSaoFlagSCModel ( 1, 1, NUM_SAO_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSaoUvlcSCModel ( 1, 1, NUM_SAO_UVLC_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSaoSvlcSCModel ( 1, 1, NUM_SAO_SVLC_CTX , m_contextModels + m_numContextModels, m_numContextModels) #if SAO_UNIT_INTERLEAVING , m_cSaoMergeLeftSCModel ( 1, 1, NUM_SAO_MERGE_LEFT_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSaoMergeUpSCModel ( 1, 1, NUM_SAO_MERGE_UP_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSaoTypeIdxSCModel ( 1, 1, NUM_SAO_TYPE_IDX_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX , m_cDmmFlagSCModel ( 1, 1, NUM_DMM_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cDmmModeSCModel ( 1, 1, NUM_DMM_MODE_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cDmmDataSCModel ( 1, 1, NUM_DMM_DATA_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif #if LGE_EDGE_INTRA_A0070 , m_cEdgeIntraSCModel ( 1, 1, NUM_EDGE_INTRA_CTX , m_contextModels + m_numContextModels, m_numContextModels) #if LGE_EDGE_INTRA_DELTA_DC , m_cEdgeIntraDeltaDCSCModel ( 1, 1, NUM_EDGE_INTRA_DELTA_DC_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif #endif #if RWTH_SDC_DLT_B0036 , m_cSDCFlagSCModel ( 1, 1, SDC_NUM_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSDCResidualFlagSCModel ( 1, 2, SDC_NUM_RESIDUAL_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSDCResidualSignFlagSCModel ( 1, 2, SDC_NUM_SIGN_FLAG_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSDCResidualSCModel ( 1, 2, SDC_NUM_RESIDUAL_CTX , m_contextModels + m_numContextModels, m_numContextModels) , m_cSDCPredModeSCModel ( 1, 3, SDC_NUM_PRED_MODE_CTX , m_contextModels + m_numContextModels, m_numContextModels) #endif { assert( m_numContextModels <= MAX_NUM_CTX_MOD ); m_iSliceGranularity = 0; } TEncSbac::~TEncSbac() { } // ==================================================================================================================== // Public member functions // ==================================================================================================================== Void TEncSbac::resetEntropy () { Int iQp = m_pcSlice->getSliceQp(); SliceType eSliceType = m_pcSlice->getSliceType(); #if CABAC_INIT_FLAG Int encCABACTableIdx = m_pcSlice->getPPS()->getEncCABACTableIdx(); if (!m_pcSlice->isIntra() && (encCABACTableIdx==B_SLICE || encCABACTableIdx==P_SLICE) && m_pcSlice->getPPS()->getCabacInitPresentFlag()) { eSliceType = (SliceType) encCABACTableIdx; } #endif m_cCUSplitFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SPLIT_FLAG ); m_cCUSkipFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SKIP_FLAG ); #if LGE_ILLUCOMP_B0045 m_cCUICFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_IC_FLAG ); #endif m_cCUAlfCtrlFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_CTRL_FLAG ); m_cCUMergeFlagExtSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MERGE_FLAG_EXT); m_cCUMergeIdxExtSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MERGE_IDX_EXT); #if HHI_INTER_VIEW_RESIDUAL_PRED m_cResPredFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_RES_PRED_FLAG ); #endif m_cCUPartSizeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_PART_SIZE ); #if AMP_CTX m_cCUAMPSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_AMP_POS ); #else m_cCUXPosiSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_X_POS ); m_cCUYPosiSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_Y_POS ); #endif m_cCUPredModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_PRED_MODE ); m_cCUIntraPredSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_INTRA_PRED_MODE ); m_cCUChromaPredSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CHROMA_PRED_MODE ); m_cCUInterDirSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_INTER_DIR ); m_cCUMvdSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MVD ); m_cCURefPicSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_REF_PIC ); m_cCUDeltaQpSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DQP ); m_cCUQtCbfSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_QT_CBF ); m_cCUQtRootCbfSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_QT_ROOT_CBF ); m_cCUSigCoeffGroupSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SIG_CG_FLAG ); m_cCUSigSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SIG_FLAG ); m_cCuCtxLastX.initBuffer ( eSliceType, iQp, (UChar*)INIT_LAST ); m_cCuCtxLastY.initBuffer ( eSliceType, iQp, (UChar*)INIT_LAST ); m_cCUOneSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ONE_FLAG ); m_cCUAbsSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ABS_FLAG ); m_cMVPIdxSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MVP_IDX ); m_cALFFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_FLAG ); m_cALFUvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_UVLC ); m_cALFSvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_SVLC ); m_cCUTransSubdivFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_TRANS_SUBDIV_FLAG ); m_cSaoFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_FLAG ); m_cSaoUvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_UVLC ); m_cSaoSvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_SVLC ); #if SAO_UNIT_INTERLEAVING m_cSaoMergeLeftSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_MERGE_LEFT_FLAG ); m_cSaoMergeUpSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_MERGE_UP_FLAG ); m_cSaoTypeIdxSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_TYPE_IDX ); #endif #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX m_cDmmFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_FLAG ); m_cDmmModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_MODE ); m_cDmmDataSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_DATA ); #endif #if LGE_EDGE_INTRA_A0070 m_cEdgeIntraSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_EDGE_INTRA ); #if LGE_EDGE_INTRA_DELTA_DC m_cEdgeIntraDeltaDCSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_EDGE_INTRA_DELTA_DC ); #endif #endif #if RWTH_SDC_DLT_B0036 m_cSDCFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_FLAG ); m_cSDCResidualFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_RESIDUAL_FLAG ); m_cSDCResidualSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_RESIDUAL ); m_cSDCResidualSignFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_SIGN_FLAG ); m_cSDCPredModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_PRED_MODE ); #endif // new structure m_uiLastQp = iQp; m_pcBinIf->start(); return; } #if CABAC_INIT_FLAG /** The function does the following: * If current slice type is P/B then it determines the distance of initialisation type 1 and 2 from the current CABAC states and * stores the index of the closest table. This index is used for the next P/B slice when cabac_init_present_flag is true. */ Void TEncSbac::determineCabacInitIdx() { Int qp = m_pcSlice->getSliceQp(); if (!m_pcSlice->isIntra()) { SliceType aSliceTypeChoices[] = {B_SLICE, P_SLICE}; UInt bestCost = MAX_UINT; SliceType bestSliceType = aSliceTypeChoices[0]; for (UInt idx=0; idx<2; idx++) { UInt curCost = 0; SliceType curSliceType = aSliceTypeChoices[idx]; curCost = m_cCUSplitFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SPLIT_FLAG ); curCost += m_cCUSkipFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SKIP_FLAG ); #if LGE_ILLUCOMP_B0045 curCost += m_cCUICFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_IC_FLAG ); #endif curCost += m_cCUAlfCtrlFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ALF_CTRL_FLAG ); curCost += m_cCUMergeFlagExtSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_MERGE_FLAG_EXT); curCost += m_cCUMergeIdxExtSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_MERGE_IDX_EXT); #if HHI_INTER_VIEW_RESIDUAL_PRED curCost += m_cResPredFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_RES_PRED_FLAG); #endif curCost += m_cCUPartSizeSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_PART_SIZE ); #if AMP_CTX curCost += m_cCUAMPSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_CU_AMP_POS ); #else curCost += m_cCUXPosiSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_CU_X_POS ); curCost += m_cCUYPosiSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_CU_Y_POS ); #endif curCost += m_cCUPredModeSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_PRED_MODE ); curCost += m_cCUIntraPredSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_INTRA_PRED_MODE ); curCost += m_cCUChromaPredSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_CHROMA_PRED_MODE ); curCost += m_cCUInterDirSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_INTER_DIR ); curCost += m_cCUMvdSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_MVD ); curCost += m_cCURefPicSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_REF_PIC ); curCost += m_cCUDeltaQpSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_DQP ); curCost += m_cCUQtCbfSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_QT_CBF ); curCost += m_cCUQtRootCbfSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_QT_ROOT_CBF ); curCost += m_cCUSigCoeffGroupSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SIG_CG_FLAG ); curCost += m_cCUSigSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SIG_FLAG ); curCost += m_cCuCtxLastX.calcCost ( curSliceType, qp, (UChar*)INIT_LAST ); curCost += m_cCuCtxLastY.calcCost ( curSliceType, qp, (UChar*)INIT_LAST ); curCost += m_cCUOneSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ONE_FLAG ); curCost += m_cCUAbsSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ABS_FLAG ); curCost += m_cMVPIdxSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_MVP_IDX ); curCost += m_cALFFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ALF_FLAG ); curCost += m_cALFUvlcSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ALF_UVLC ); curCost += m_cALFSvlcSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_ALF_SVLC ); curCost += m_cCUTransSubdivFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_TRANS_SUBDIV_FLAG ); curCost += m_cSaoFlagSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_FLAG ); curCost += m_cSaoUvlcSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_UVLC ); curCost += m_cSaoSvlcSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_SVLC ); #if SAO_UNIT_INTERLEAVING curCost += m_cSaoMergeLeftSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_MERGE_LEFT_FLAG ); curCost += m_cSaoMergeUpSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_MERGE_UP_FLAG ); curCost += m_cSaoTypeIdxSCModel.calcCost ( curSliceType, qp, (UChar*)INIT_SAO_TYPE_IDX ); #endif if (curCost < bestCost) { bestSliceType = curSliceType; bestCost = curCost; } } m_pcSlice->getPPS()->setEncCABACTableIdx( bestSliceType ); } else { m_pcSlice->getPPS()->setEncCABACTableIdx( I_SLICE ); } #if CABAC_INIT_FLAG && FIX_POZNAN_CABAC_INIT_FLAG m_pcSlice->getPPS()->setEncPrevPOC( m_pcSlice->getPOC() ); #endif } #endif /** The function does the followng: Write out terminate bit. Flush CABAC. Intialize CABAC states. Start CABAC. */ Void TEncSbac::updateContextTables( SliceType eSliceType, Int iQp, Bool bExecuteFinish ) { m_pcBinIf->encodeBinTrm(1); if (bExecuteFinish) m_pcBinIf->finish(); m_cCUSplitFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SPLIT_FLAG ); m_cCUSkipFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SKIP_FLAG ); #if LGE_ILLUCOMP_B0045 m_cCUICFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_IC_FLAG ); #endif m_cCUAlfCtrlFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_CTRL_FLAG ); m_cCUMergeFlagExtSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MERGE_FLAG_EXT); m_cCUMergeIdxExtSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MERGE_IDX_EXT); #if HHI_INTER_VIEW_RESIDUAL_PRED m_cResPredFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_RES_PRED_FLAG ); #endif m_cCUPartSizeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_PART_SIZE ); #if AMP_CTX m_cCUAMPSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_AMP_POS ); #else m_cCUXPosiSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_X_POS ); m_cCUYPosiSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CU_Y_POS ); #endif m_cCUPredModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_PRED_MODE ); m_cCUIntraPredSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_INTRA_PRED_MODE ); m_cCUChromaPredSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_CHROMA_PRED_MODE ); m_cCUInterDirSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_INTER_DIR ); m_cCUMvdSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MVD ); m_cCURefPicSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_REF_PIC ); m_cCUDeltaQpSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DQP ); m_cCUQtCbfSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_QT_CBF ); m_cCUQtRootCbfSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_QT_ROOT_CBF ); m_cCUSigCoeffGroupSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SIG_CG_FLAG ); m_cCUSigSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SIG_FLAG ); m_cCuCtxLastX.initBuffer ( eSliceType, iQp, (UChar*)INIT_LAST ); m_cCuCtxLastY.initBuffer ( eSliceType, iQp, (UChar*)INIT_LAST ); m_cCUOneSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ONE_FLAG ); m_cCUAbsSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ABS_FLAG ); m_cMVPIdxSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_MVP_IDX ); m_cALFFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_FLAG ); m_cALFUvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_UVLC ); m_cALFSvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_ALF_SVLC ); m_cCUTransSubdivFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_TRANS_SUBDIV_FLAG ); m_cSaoFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_FLAG ); m_cSaoUvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_UVLC ); m_cSaoSvlcSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_SVLC ); #if SAO_UNIT_INTERLEAVING m_cSaoMergeLeftSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_MERGE_LEFT_FLAG ); m_cSaoMergeUpSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_MERGE_UP_FLAG ); m_cSaoTypeIdxSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SAO_TYPE_IDX ); #endif #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX m_cDmmFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_FLAG ); m_cDmmModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_MODE ); m_cDmmDataSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_DMM_DATA ); #endif #if RWTH_SDC_DLT_B0036 m_cSDCFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_FLAG ); m_cSDCResidualFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_RESIDUAL_FLAG ); m_cSDCResidualSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_RESIDUAL ); m_cSDCResidualSignFlagSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_SIGN_FLAG ); m_cSDCPredModeSCModel.initBuffer ( eSliceType, iQp, (UChar*)INIT_SDC_PRED_MODE ); #endif m_pcBinIf->start(); } Void TEncSbac::writeTileMarker( UInt uiTileIdx, UInt uiBitsUsed ) { for (Int iShift=uiBitsUsed-1; iShift>=0; iShift--) { m_pcBinIf->encodeBinEP ( (uiTileIdx & (1 << iShift)) >> iShift ); } } void TEncSbac::codeSEI(const SEI&) { assert(0); } #if VIDYO_VPS_INTEGRATION|QC_MVHEVC_B0046 Void TEncSbac::codeVPS( TComVPS* pcVPS ) { assert (0); return; } #endif #if HHI_MPI Void TEncSbac::codeSPS( TComSPS* pcSPS, Bool bIsDepth ) #else Void TEncSbac::codeSPS( TComSPS* pcSPS ) #endif { assert (0); return; } Void TEncSbac::codePPS( TComPPS* pcPPS ) { assert (0); return; } Void TEncSbac::codeSliceHeader( TComSlice* pcSlice ) { assert (0); return; } #if TILES_WPP_ENTRY_POINT_SIGNALLING Void TEncSbac::codeTilesWPPEntryPoint( TComSlice* pSlice ) { assert (0); return; } #else Void TEncSbac::codeSliceHeaderSubstreamTable( TComSlice* pcSlice ) { assert (0); } #endif Void TEncSbac::codeTerminatingBit( UInt uilsLast ) { m_pcBinIf->encodeBinTrm( uilsLast ); } Void TEncSbac::codeSliceFinish() { m_pcBinIf->finish(); } #if OL_FLUSH Void TEncSbac::codeFlush() { m_pcBinIf->flush(); } Void TEncSbac::encodeStart() { m_pcBinIf->start(); } #endif Void TEncSbac::xWriteUnarySymbol( UInt uiSymbol, ContextModel* pcSCModel, Int iOffset ) { m_pcBinIf->encodeBin( uiSymbol ? 1 : 0, pcSCModel[0] ); if( 0 == uiSymbol) { return; } while( uiSymbol-- ) { m_pcBinIf->encodeBin( uiSymbol ? 1 : 0, pcSCModel[ iOffset ] ); } return; } Void TEncSbac::xWriteUnaryMaxSymbol( UInt uiSymbol, ContextModel* pcSCModel, Int iOffset, UInt uiMaxSymbol ) { if (uiMaxSymbol == 0) { return; } m_pcBinIf->encodeBin( uiSymbol ? 1 : 0, pcSCModel[ 0 ] ); if ( uiSymbol == 0 ) { return; } Bool bCodeLast = ( uiMaxSymbol > uiSymbol ); while( --uiSymbol ) { m_pcBinIf->encodeBin( 1, pcSCModel[ iOffset ] ); } if( bCodeLast ) { m_pcBinIf->encodeBin( 0, pcSCModel[ iOffset ] ); } return; } Void TEncSbac::xWriteEpExGolomb( UInt uiSymbol, UInt uiCount ) { UInt bins = 0; Int numBins = 0; while( uiSymbol >= (UInt)(1<encodeBinsEP( bins, numBins ); } /** Coding of coeff_abs_level_minus3 * \param uiSymbol value of coeff_abs_level_minus3 * \param ruiGoRiceParam reference to Rice parameter * \returns Void */ Void TEncSbac::xWriteGoRiceExGolomb( UInt uiSymbol, UInt &ruiGoRiceParam ) { UInt uiMaxVlc = g_auiGoRiceRange[ ruiGoRiceParam ]; Bool bExGolomb = ( uiSymbol > uiMaxVlc ); UInt uiCodeWord = min( uiSymbol, ( uiMaxVlc + 1 ) ); UInt uiQuotient = uiCodeWord >> ruiGoRiceParam; UInt uiMaxPreLen = g_auiGoRicePrefixLen[ ruiGoRiceParam ]; UInt binValues; Int numBins; if ( uiQuotient >= uiMaxPreLen ) { numBins = uiMaxPreLen; binValues = ( 1 << numBins ) - 1; } else { numBins = uiQuotient + 1; binValues = ( 1 << numBins ) - 2; } m_pcBinIf->encodeBinsEP( ( binValues << ruiGoRiceParam ) + uiCodeWord - ( uiQuotient << ruiGoRiceParam ), numBins + ruiGoRiceParam ); #if EIGHT_BITS_RICE_CODE ruiGoRiceParam = g_aauiGoRiceUpdate[ ruiGoRiceParam ][ min( uiSymbol, 23 ) ]; #else ruiGoRiceParam = g_aauiGoRiceUpdate[ ruiGoRiceParam ][ min( uiSymbol, 15 ) ]; #endif if( bExGolomb ) { uiSymbol -= uiMaxVlc + 1; xWriteEpExGolomb( uiSymbol, 0 ); } } // SBAC RD Void TEncSbac::load ( TEncSbac* pSrc) { this->xCopyFrom(pSrc); } Void TEncSbac::loadIntraDirModeLuma( TEncSbac* pSrc) { m_pcBinIf->copyState( pSrc->m_pcBinIf ); this->m_cCUIntraPredSCModel .copyFrom( &pSrc->m_cCUIntraPredSCModel ); } Void TEncSbac::store( TEncSbac* pDest) { pDest->xCopyFrom( this ); } Void TEncSbac::xCopyFrom( TEncSbac* pSrc ) { m_pcBinIf->copyState( pSrc->m_pcBinIf ); this->m_uiCoeffCost = pSrc->m_uiCoeffCost; this->m_uiLastQp = pSrc->m_uiLastQp; memcpy( m_contextModels, pSrc->m_contextModels, m_numContextModels * sizeof( ContextModel ) ); } #if HHI_INTER_VIEW_MOTION_PRED Void TEncSbac::codeMVPIdx ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefList, Int iNum ) #else Void TEncSbac::codeMVPIdx ( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefList ) #endif { Int iSymbol = pcCU->getMVPIdx(eRefList, uiAbsPartIdx); #if HHI_INTER_VIEW_MOTION_PRED #else Int iNum = AMVP_MAX_NUM_CANDS; #endif xWriteUnaryMaxSymbol(iSymbol, m_cMVPIdxSCModel.get(0), 1, iNum-1); } Void TEncSbac::codePartSize( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { PartSize eSize = pcCU->getPartitionSize( uiAbsPartIdx ); #if OL_QTLIMIT_PREDCODING_B0068 TComSPS *sps = pcCU->getPic()->getSlice(0)->getSPS(); TComPic *pcTexture = pcCU->getSlice()->getTexturePic(); Bool bDepthMapDetect = (pcTexture != NULL); Bool bIntraSliceDetect = (pcCU->getSlice()->getSliceType() == I_SLICE); if(bDepthMapDetect && !bIntraSliceDetect && sps->getUseQTLPC() && pcCU->getPic()->getReduceBitsFlag()) { TComDataCU *pcTextureCU = pcTexture->getCU(pcCU->getAddr()); UInt uiCUIdx = (pcCU->getZorderIdxInCU() == 0) ? uiAbsPartIdx : pcCU->getZorderIdxInCU(); assert(pcTextureCU->getDepth(uiCUIdx) >= uiDepth); if (pcTextureCU->getDepth(uiCUIdx) == uiDepth && pcTextureCU->getPartitionSize( uiCUIdx ) != SIZE_NxN) { assert( eSize == SIZE_2Nx2N ); return; } } #endif if ( pcCU->isIntra( uiAbsPartIdx ) ) { if( uiDepth == g_uiMaxCUDepth - g_uiAddCUDepth ) { m_pcBinIf->encodeBin( eSize == SIZE_2Nx2N? 1 : 0, m_cCUPartSizeSCModel.get( 0, 0, 0 ) ); } return; } switch(eSize) { case SIZE_2Nx2N: { m_pcBinIf->encodeBin( 1, m_cCUPartSizeSCModel.get( 0, 0, 0) ); break; } case SIZE_2NxN: case SIZE_2NxnU: case SIZE_2NxnD: { m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 0) ); m_pcBinIf->encodeBin( 1, m_cCUPartSizeSCModel.get( 0, 0, 1) ); if ( pcCU->getSlice()->getSPS()->getAMPAcc( uiDepth ) ) { if (eSize == SIZE_2NxN) { #if AMP_CTX m_pcBinIf->encodeBin(1, m_cCUAMPSCModel.get( 0, 0, 0 )); #else m_pcBinIf->encodeBin(1, m_cCUYPosiSCModel.get( 0, 0, 0 )); #endif } else { #if AMP_CTX m_pcBinIf->encodeBin(0, m_cCUAMPSCModel.get( 0, 0, 0 )); m_pcBinIf->encodeBinEP((eSize == SIZE_2NxnU? 0: 1)); #else m_pcBinIf->encodeBin(0, m_cCUYPosiSCModel.get( 0, 0, 0 )); m_pcBinIf->encodeBin((eSize == SIZE_2NxnU? 0: 1), m_cCUYPosiSCModel.get( 0, 0, 1 )); #endif } } break; } case SIZE_Nx2N: case SIZE_nLx2N: case SIZE_nRx2N: { m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 0) ); m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 1) ); if( uiDepth == g_uiMaxCUDepth - g_uiAddCUDepth && !( pcCU->getSlice()->getSPS()->getDisInter4x4() && pcCU->getWidth(uiAbsPartIdx) == 8 && pcCU->getHeight(uiAbsPartIdx) == 8 ) ) { m_pcBinIf->encodeBin( 1, m_cCUPartSizeSCModel.get( 0, 0, 2) ); } if ( pcCU->getSlice()->getSPS()->getAMPAcc( uiDepth ) ) { if (eSize == SIZE_Nx2N) { #if AMP_CTX m_pcBinIf->encodeBin(1, m_cCUAMPSCModel.get( 0, 0, 0 )); #else m_pcBinIf->encodeBin(1, m_cCUXPosiSCModel.get( 0, 0, 0 )); #endif } else { #if AMP_CTX m_pcBinIf->encodeBin(0, m_cCUAMPSCModel.get( 0, 0, 0 )); m_pcBinIf->encodeBinEP((eSize == SIZE_nLx2N? 0: 1)); #else m_pcBinIf->encodeBin(0, m_cCUXPosiSCModel.get( 0, 0, 0 )); m_pcBinIf->encodeBin((eSize == SIZE_nLx2N? 0: 1), m_cCUXPosiSCModel.get( 0, 0, 1 )); #endif } } break; } case SIZE_NxN: { if( uiDepth == g_uiMaxCUDepth - g_uiAddCUDepth && !( pcCU->getSlice()->getSPS()->getDisInter4x4() && pcCU->getWidth(uiAbsPartIdx) == 8 && pcCU->getHeight(uiAbsPartIdx) == 8 ) ) { m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 0) ); m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 1) ); m_pcBinIf->encodeBin( 0, m_cCUPartSizeSCModel.get( 0, 0, 2) ); } break; } default: { assert(0); } } } /** code prediction mode * \param pcCU * \param uiAbsPartIdx * \returns Void */ Void TEncSbac::codePredMode( TComDataCU* pcCU, UInt uiAbsPartIdx ) { #if RWTH_SDC_DLT_B0036 if ( pcCU->getSlice()->isIntra() ) { assert( pcCU->isIntra(uiAbsPartIdx) ); return; } #endif // get context function is here Int iPredMode = pcCU->getPredictionMode( uiAbsPartIdx ); m_pcBinIf->encodeBin( iPredMode == MODE_INTER ? 0 : 1, m_cCUPredModeSCModel.get( 0, 0, 0 ) ); } Void TEncSbac::codeAlfCtrlFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { if (!m_bAlfCtrl) return; if( pcCU->getDepth(uiAbsPartIdx) > m_uiMaxAlfCtrlDepth && !pcCU->isFirstAbsZorderIdxInDepth(uiAbsPartIdx, m_uiMaxAlfCtrlDepth)) { return; } const UInt uiSymbol = pcCU->getAlfCtrlFlag( uiAbsPartIdx ) ? 1 : 0; m_pcBinIf->encodeBin( uiSymbol, *m_cCUAlfCtrlFlagSCModel.get( 0 ) ); } Void TEncSbac::codeAlfCtrlDepth() { if (!m_bAlfCtrl) return; UInt uiDepth = m_uiMaxAlfCtrlDepth; xWriteUnaryMaxSymbol(uiDepth, m_cALFUvlcSCModel.get(0), 1, g_uiMaxCUDepth-1); } /** code skip flag * \param pcCU * \param uiAbsPartIdx * \returns Void */ Void TEncSbac::codeSkipFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { // get context function is here UInt uiSymbol = pcCU->isSkipped( uiAbsPartIdx ) ? 1 : 0; UInt uiCtxSkip = pcCU->getCtxSkipFlag( uiAbsPartIdx ) ; m_pcBinIf->encodeBin( uiSymbol, m_cCUSkipFlagSCModel.get( 0, 0, uiCtxSkip ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tSkipFlag" ); DTRACE_CABAC_T( "\tuiCtxSkip: "); DTRACE_CABAC_V( uiCtxSkip ); DTRACE_CABAC_T( "\tuiSymbol: "); DTRACE_CABAC_V( uiSymbol ); DTRACE_CABAC_T( "\n"); } #if LGE_ILLUCOMP_B0045 /** code Illumination Compensation flag * \param pcCU * \param uiAbsPartIdx * \returns Void */ Void TEncSbac::codeICFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { // get context function is here UInt uiSymbol = pcCU->getICFlag( uiAbsPartIdx ) ? 1 : 0; UInt uiCtxIC = pcCU->getCtxICFlag( uiAbsPartIdx ) ; m_pcBinIf->encodeBin( uiSymbol, m_cCUICFlagSCModel.get( 0, 0, uiCtxIC ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tICFlag" ); DTRACE_CABAC_T( "\tuiCtxIC: "); DTRACE_CABAC_V( uiCtxIC ); DTRACE_CABAC_T( "\tuiSymbol: "); DTRACE_CABAC_V( uiSymbol ); DTRACE_CABAC_T( "\n"); } #endif /** code merge flag * \param pcCU * \param uiAbsPartIdx * \returns Void */ Void TEncSbac::codeMergeFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { const UInt uiSymbol = pcCU->getMergeFlag( uiAbsPartIdx ) ? 1 : 0; m_pcBinIf->encodeBin( uiSymbol, *m_cCUMergeFlagExtSCModel.get( 0 ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tMergeFlag: " ); DTRACE_CABAC_V( uiSymbol ); DTRACE_CABAC_T( "\tAddress: " ); DTRACE_CABAC_V( pcCU->getAddr() ); DTRACE_CABAC_T( "\tuiAbsPartIdx: " ); DTRACE_CABAC_V( uiAbsPartIdx ); DTRACE_CABAC_T( "\n" ); } /** code merge index * \param pcCU * \param uiAbsPartIdx * \returns Void */ Void TEncSbac::codeMergeIndex( TComDataCU* pcCU, UInt uiAbsPartIdx ) { UInt uiNumCand = MRG_MAX_NUM_CANDS; #if !MRG_IDX_CTX_RED UInt auiCtx[4] = { 0, 1, 2, 3 }; #endif UInt uiUnaryIdx = pcCU->getMergeIndex( uiAbsPartIdx ); uiNumCand = pcCU->getSlice()->getMaxNumMergeCand(); #if HHI_MPI const Bool bMVIAvailable = pcCU->getSlice()->getSPS()->getUseMVI() && pcCU->getSlice()->getSliceType() != I_SLICE; if( bMVIAvailable ) { const Bool bUseMVI = pcCU->getTextureModeDepth( uiAbsPartIdx ) != -1; if( bUseMVI ) { uiUnaryIdx = (UInt)HHI_MPI_MERGE_POS; } else if( (Int)uiUnaryIdx >= (Int)HHI_MPI_MERGE_POS ) { uiUnaryIdx++; } } #endif if ( uiNumCand > 1 ) { for( UInt ui = 0; ui < uiNumCand - 1; ++ui ) { const UInt uiSymbol = ui == uiUnaryIdx ? 0 : 1; #if MRG_IDX_CTX_RED if ( ui==0 ) { m_pcBinIf->encodeBin( uiSymbol, m_cCUMergeIdxExtSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBinEP( uiSymbol ); } #else m_pcBinIf->encodeBin( uiSymbol, m_cCUMergeIdxExtSCModel.get( 0, 0, auiCtx[ui] ) ); #endif if( uiSymbol == 0 ) { break; } } } DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tparseMergeIndex()" ); DTRACE_CABAC_T( "\tuiMRGIdx= " ); DTRACE_CABAC_V( pcCU->getMergeIndex( uiAbsPartIdx ) ); DTRACE_CABAC_T( "\n" ); } #if HHI_INTER_VIEW_RESIDUAL_PRED Void TEncSbac::codeResPredFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { UInt uiCtx = pcCU->getCtxResPredFlag( uiAbsPartIdx ); UInt uiSymbol = ( pcCU->getResPredFlag( uiAbsPartIdx ) ? 1 : 0 ); m_pcBinIf->encodeBin( uiSymbol, m_cResPredFlagSCModel.get( 0, 0, uiCtx ) ); } #endif Void TEncSbac::codeSplitFlag ( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { if( uiDepth == g_uiMaxCUDepth - g_uiAddCUDepth ) return; UInt uiCtx = pcCU->getCtxSplitFlag( uiAbsPartIdx, uiDepth ); UInt uiCurrSplitFlag = ( pcCU->getDepth( uiAbsPartIdx ) > uiDepth ) ? 1 : 0; assert( uiCtx < 3 ); #if OL_QTLIMIT_PREDCODING_B0068 Bool bCodeSplitFlag = true; TComSPS *sps = pcCU->getPic()->getSlice(0)->getSPS(); TComPic *pcTexture = pcCU->getSlice()->getTexturePic(); Bool bDepthMapDetect = (pcTexture != NULL); Bool bIntraSliceDetect = (pcCU->getSlice()->getSliceType() == I_SLICE); if(bDepthMapDetect && !bIntraSliceDetect && sps->getUseQTLPC() && pcCU->getPic()->getReduceBitsFlag()) { TComDataCU *pcTextureCU = pcTexture->getCU(pcCU->getAddr()); UInt uiCUIdx = (pcCU->getZorderIdxInCU() == 0) ? uiAbsPartIdx : pcCU->getZorderIdxInCU(); assert(pcTextureCU->getDepth(uiCUIdx) >= uiDepth); bCodeSplitFlag = (pcTextureCU->getDepth(uiCUIdx) > uiDepth); } if(!bCodeSplitFlag) { assert(uiCurrSplitFlag == 0); return; } #endif m_pcBinIf->encodeBin( uiCurrSplitFlag, m_cCUSplitFlagSCModel.get( 0, 0, uiCtx ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ) DTRACE_CABAC_T( "\tSplitFlag\n" ) return; } Void TEncSbac::codeTransformSubdivFlag( UInt uiSymbol, UInt uiCtx ) { m_pcBinIf->encodeBin( uiSymbol, m_cCUTransSubdivFlagSCModel.get( 0, 0, uiCtx ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ) DTRACE_CABAC_T( "\tparseTransformSubdivFlag()" ) DTRACE_CABAC_T( "\tsymbol=" ) DTRACE_CABAC_V( uiSymbol ) DTRACE_CABAC_T( "\tctx=" ) DTRACE_CABAC_V( uiCtx ) DTRACE_CABAC_T( "\n" ) } #if LGE_EDGE_INTRA_A0070 Void TEncSbac::xCodeEdgeIntraInfo( TComDataCU* pcCU, UInt uiPartIdx ) { UInt uiDepth = pcCU->getDepth( uiPartIdx ) + (pcCU->getPartitionSize( uiPartIdx ) == SIZE_NxN ? 1 : 0); UInt uiCtxEdgeIntra = pcCU->getCtxEdgeIntra( uiPartIdx ); UChar* pucSymbolList = pcCU->getEdgeCode( uiPartIdx ); UChar ucEdgeNumber = pcCU->getEdgeNumber( uiPartIdx ); Bool bLeft = pcCU->getEdgeLeftFirst( uiPartIdx ); UChar ucStart = pcCU->getEdgeStartPos( uiPartIdx ); UInt uiSymbol; // 1. Top(0) or Left(1) uiSymbol = (bLeft == false) ? 0 : 1; m_pcBinIf->encodeBinEP( uiSymbol ); // 2. Start position (lowest bit first) uiSymbol = ucStart; for( UInt ui = 6; ui > uiDepth; ui-- ) // 64(0)->6, 32(1)->5, 16(2)->4, 8(3)->3, 4(4)->2 { m_pcBinIf->encodeBinEP( uiSymbol & 0x1 ); uiSymbol >>= 1; } // 3. Number of edges uiSymbol = ucEdgeNumber > 0 ? ucEdgeNumber - 1 : 0; for( UInt ui = 7; ui > uiDepth; ui-- ) // 64(0)->7, 32(1)->6, 16(2)->5, 8(3)->4, 4(4)->3 { m_pcBinIf->encodeBinEP( uiSymbol & 0x1 ); uiSymbol >>= 1; } if(uiSymbol != 0) { printf(" ucEdgeNumber %d at depth %d\n",ucEdgeNumber, uiDepth); assert(false); } // 4. Edges for( Int iPtr2 = 0; iPtr2 < ucEdgeNumber; iPtr2++ ) { UInt uiReorderSymbol = pucSymbolList[iPtr2]; //printf ("Ptr = %d, Symbol = %d\n", iPtr2, uiSymbol); // Left-friendly direction (Top start) // 0 ( 0deg) => 0 // 1 ( 45deg) => 10 // 2 ( -45deg) => 110 // 3 ( 90deg) => 1110 // 4 ( -90deg) => 11110 // 5 ( 135deg) => 111110 // 6 (-135deg) => 111111 // Right-friendly direction (Left start) // 0 ( 0deg) => 0 // 2 ( -45deg) => 10 // 1 ( 45deg) => 110 // 4 ( -90deg) => 1110 // 3 ( 90deg) => 11110 // 6 (-135deg) => 111110 // 5 ( 135deg) => 111111 // refer to a paper "An efficient chain code with Huffman coding" for( UInt ui = 0; ui < uiReorderSymbol; ui++ ) { m_pcBinIf->encodeBin( 1, m_cEdgeIntraSCModel.get( 0, 0, uiCtxEdgeIntra ) ); } if( uiReorderSymbol != 6 ) m_pcBinIf->encodeBin( 0, m_cEdgeIntraSCModel.get( 0, 0, uiCtxEdgeIntra ) ); } } #endif Void TEncSbac::codeIntraDirLumaAng( TComDataCU* pcCU, UInt uiAbsPartIdx ) { UInt uiDir = pcCU->getLumaIntraDir( uiAbsPartIdx ); #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX if( pcCU->getSlice()->getSPS()->getUseDMM() && pcCU->getWidth( uiAbsPartIdx ) <= DMM_WEDGEMODEL_MAX_SIZE ) { #if LGE_EDGE_INTRA_A0070 m_pcBinIf->encodeBin( uiDir >= NUM_INTRA_MODE && uiDir < EDGE_INTRA_IDX, m_cDmmFlagSCModel.get(0, 0, 0) ); #else m_pcBinIf->encodeBin( uiDir >= NUM_INTRA_MODE, m_cDmmFlagSCModel.get(0, 0, 0) ); #endif } #if LGE_EDGE_INTRA_A0070 if( uiDir >= NUM_INTRA_MODE && uiDir < EDGE_INTRA_IDX ) #else if( uiDir >= NUM_INTRA_MODE ) #endif { assert( pcCU->getWidth( uiAbsPartIdx ) <= DMM_WEDGEMODEL_MAX_SIZE ); UInt uiDMMode = uiDir - NUM_INTRA_MODE; #if HHI_DMM_WEDGE_INTRA && HHI_DMM_PRED_TEX m_pcBinIf->encodeBin( (uiDMMode & 0x01), m_cDmmModeSCModel.get(0, 0, 0) ); m_pcBinIf->encodeBin( (uiDMMode & 0x02) >> 1, m_cDmmModeSCModel.get(0, 0, 0) ); if( pcCU->getPartitionSize( uiAbsPartIdx ) != SIZE_NxN && pcCU->getWidth( uiAbsPartIdx ) > 4 ) { m_pcBinIf->encodeBin( (uiDMMode & 0x04) >> 2, m_cDmmModeSCModel.get(0, 0, 0) ); } #else m_pcBinIf->encodeBin( (uiDMMode & 0x01), m_cDmmModeSCModel.get(0, 0, 0) ); if( pcCU->getPartitionSize( uiAbsPartIdx ) != SIZE_NxN && pcCU->getWidth( uiAbsPartIdx ) > 4 ) { m_pcBinIf->encodeBin( (uiDMMode & 0x02) >> 1, m_cDmmModeSCModel.get(0, 0, 0) ); } #endif #if HHI_DMM_WEDGE_INTRA if( uiDir == DMM_WEDGE_FULL_IDX ) { xCodeWedgeFullInfo ( pcCU, uiAbsPartIdx ); } if( uiDir == DMM_WEDGE_FULL_D_IDX ) { xCodeWedgeFullDeltaInfo ( pcCU, uiAbsPartIdx ); } if( uiDir == DMM_WEDGE_PREDDIR_IDX ) { xCodeWedgePredDirInfo ( pcCU, uiAbsPartIdx ); } if( uiDir == DMM_WEDGE_PREDDIR_D_IDX ) { xCodeWedgePredDirDeltaInfo ( pcCU, uiAbsPartIdx ); } #endif #if HHI_DMM_PRED_TEX #if FLEX_CODING_ORDER_M23723 if ( !pcCU->getSlice()->getSPS()->getUseDMM34() ) { assert( uiDir != DMM_WEDGE_PREDTEX_D_IDX ); assert( uiDir != DMM_CONTOUR_PREDTEX_D_IDX ); } #endif if( uiDir == DMM_WEDGE_PREDTEX_D_IDX ) { xCodeWedgePredTexDeltaInfo ( pcCU, uiAbsPartIdx ); } if( uiDir == DMM_CONTOUR_PREDTEX_D_IDX ) { xCodeContourPredTexDeltaInfo( pcCU, uiAbsPartIdx ); } #endif } else #if LGE_EDGE_INTRA_A0070 if ( uiDir >= EDGE_INTRA_IDX) { m_pcBinIf->encodeBin( 0, m_cCUIntraPredSCModel.get( 0, 0, 0 ) ); m_pcBinIf->encodeBinsEP( 63, 6 ); xCodeEdgeIntraInfo( pcCU, uiAbsPartIdx ); #if LGE_EDGE_INTRA_DELTA_DC m_pcBinIf->encodeBin( (uiDir == EDGE_INTRA_DELTA_IDX), m_cEdgeIntraDeltaDCSCModel.get(0, 0, 0) ); if( uiDir == EDGE_INTRA_DELTA_IDX ) { Int iDeltaDC0 = pcCU->getEdgeDeltaDC0( uiAbsPartIdx ); Int iDeltaDC1 = pcCU->getEdgeDeltaDC1( uiAbsPartIdx ); xWriteExGolombLevel( UInt( abs( iDeltaDC0 ) ), m_cEdgeIntraDeltaDCSCModel.get(0, 0, 1) ); if ( iDeltaDC0 != 0 ) { UInt uiSign = iDeltaDC0 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } xWriteExGolombLevel( UInt( abs( iDeltaDC1 ) ), m_cEdgeIntraDeltaDCSCModel.get(0, 0, 1) ); if ( iDeltaDC1 != 0 ) { UInt uiSign = iDeltaDC1 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } #endif } else #endif // LGE_EDGE_INTRA { #endif #if !LOGI_INTRA_NAME_3MPM Int iIntraIdx = pcCU->getIntraSizeIdx(uiAbsPartIdx); #endif #if LGE_EDGE_INTRA_A0070 Bool bCodeEdgeIntra = false; if( pcCU->getSlice()->getSPS()->isDepth() ) { UInt uiPUWidth = pcCU->getWidth( uiAbsPartIdx ) >> (pcCU->getPartitionSize( uiAbsPartIdx ) == SIZE_NxN ? 1 : 0); if( uiPUWidth <= LGE_EDGE_INTRA_MAX_SIZE && uiPUWidth >= LGE_EDGE_INTRA_MIN_SIZE ) bCodeEdgeIntra = true; } #endif #if LOGI_INTRA_NAME_3MPM Int uiPreds[3] = {-1, -1, -1}; #else Int uiPreds[2] = {-1, -1}; #endif Int uiPredNum = pcCU->getIntraDirLumaPredictor(uiAbsPartIdx, uiPreds); Int uiPredIdx = -1; for(UInt i = 0; i < uiPredNum; i++) { if(uiDir == uiPreds[i]) { uiPredIdx = i; } } if(uiPredIdx != -1) { m_pcBinIf->encodeBin( 1, m_cCUIntraPredSCModel.get( 0, 0, 0 ) ); #if LOGI_INTRA_NAME_3MPM m_pcBinIf->encodeBinEP( uiPredIdx ? 1 : 0 ); if (uiPredIdx) { m_pcBinIf->encodeBinEP( uiPredIdx-1 ); } #else m_pcBinIf->encodeBinEP( uiPredIdx ); #endif } else { m_pcBinIf->encodeBin( 0, m_cCUIntraPredSCModel.get( 0, 0, 0 ) ); #if LOGI_INTRA_NAME_3MPM if (uiPreds[0] > uiPreds[1]) { std::swap(uiPreds[0], uiPreds[1]); } if (uiPreds[0] > uiPreds[2]) { std::swap(uiPreds[0], uiPreds[2]); } if (uiPreds[1] > uiPreds[2]) { std::swap(uiPreds[1], uiPreds[2]); } #endif for(Int i = (uiPredNum - 1); i >= 0; i--) { uiDir = uiDir > uiPreds[i] ? uiDir - 1 : uiDir; } #if LOGI_INTRA_NAME_3MPM m_pcBinIf->encodeBinsEP( uiDir, 5 ); #if LGE_EDGE_INTRA_A0070 if (bCodeEdgeIntra) if (uiDir == 31) m_pcBinIf->encodeBinsEP(0,1); #endif #else if ( uiDir < 31 ) { m_pcBinIf->encodeBinsEP( uiDir, g_aucIntraModeBitsAng[ iIntraIdx ] - 1 ); } else { m_pcBinIf->encodeBinsEP( 31, 5 ); m_pcBinIf->encodeBinEP( uiDir - 31 ); } #endif } #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX } #endif return; } Void TEncSbac::codeIntraDirChroma( TComDataCU* pcCU, UInt uiAbsPartIdx ) { UInt uiIntraDirChroma = pcCU->getChromaIntraDir( uiAbsPartIdx ); if( uiIntraDirChroma == DM_CHROMA_IDX ) { m_pcBinIf->encodeBin( 0, m_cCUChromaPredSCModel.get( 0, 0, 0 ) ); } else if( uiIntraDirChroma == LM_CHROMA_IDX ) { m_pcBinIf->encodeBin( 1, m_cCUChromaPredSCModel.get( 0, 0, 0 ) ); m_pcBinIf->encodeBin( 0, m_cCUChromaPredSCModel.get( 0, 0, 1 ) ); } else { UInt uiAllowedChromaDir[ NUM_CHROMA_MODE ]; pcCU->getAllowedChromaDir( uiAbsPartIdx, uiAllowedChromaDir ); for( Int i = 0; i < NUM_CHROMA_MODE - 2; i++ ) { if( uiIntraDirChroma == uiAllowedChromaDir[i] ) { uiIntraDirChroma = i; break; } } m_pcBinIf->encodeBin( 1, m_cCUChromaPredSCModel.get( 0, 0, 0 ) ); if (pcCU->getSlice()->getSPS()->getUseLMChroma()) { m_pcBinIf->encodeBin( 1, m_cCUChromaPredSCModel.get( 0, 0, 1 )); } #if CHROMA_MODE_CODING m_pcBinIf->encodeBinsEP( uiIntraDirChroma, 2 ); #else xWriteUnaryMaxSymbol( uiIntraDirChroma, m_cCUChromaPredSCModel.get( 0, 0 ) + 1, 0, 3 ); #endif } return; } Void TEncSbac::codeInterDir( TComDataCU* pcCU, UInt uiAbsPartIdx ) { const UInt uiInterDir = pcCU->getInterDir( uiAbsPartIdx ) - 1; const UInt uiCtx = pcCU->getCtxInterDir( uiAbsPartIdx ); ContextModel *pCtx = m_cCUInterDirSCModel.get( 0 ); m_pcBinIf->encodeBin( uiInterDir == 2 ? 1 : 0, *( pCtx + uiCtx ) ); return; } Void TEncSbac::codeRefFrmIdx( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefList ) { if ( pcCU->getSlice()->getNumRefIdx(REF_PIC_LIST_C) > 0 && pcCU->getInterDir( uiAbsPartIdx ) != 3) { Int iRefFrame = pcCU->getSlice()->getRefIdxOfLC(eRefList, pcCU->getCUMvField( eRefList )->getRefIdx( uiAbsPartIdx )); ContextModel *pCtx = m_cCURefPicSCModel.get( 0 ); m_pcBinIf->encodeBin( ( iRefFrame == 0 ? 0 : 1 ), *pCtx ); if( iRefFrame > 0 ) { xWriteUnaryMaxSymbol( iRefFrame - 1, pCtx + 1, 1, pcCU->getSlice()->getNumRefIdx( REF_PIC_LIST_C )-2 ); } } else { Int iRefFrame = pcCU->getCUMvField( eRefList )->getRefIdx( uiAbsPartIdx ); ContextModel *pCtx = m_cCURefPicSCModel.get( 0 ); m_pcBinIf->encodeBin( ( iRefFrame == 0 ? 0 : 1 ), *pCtx ); if( iRefFrame > 0 ) { xWriteUnaryMaxSymbol( iRefFrame - 1, pCtx + 1, 1, pcCU->getSlice()->getNumRefIdx( eRefList )-2 ); } } return; } Void TEncSbac::codeMvd( TComDataCU* pcCU, UInt uiAbsPartIdx, RefPicList eRefList ) { #if H0111_MVD_L1_ZERO if(pcCU->getSlice()->getMvdL1ZeroFlag() && eRefList == REF_PIC_LIST_1 && pcCU->getInterDir(uiAbsPartIdx)==3) { return; } #endif const TComCUMvField* pcCUMvField = pcCU->getCUMvField( eRefList ); const Int iHor = pcCUMvField->getMvd( uiAbsPartIdx ).getHor(); const Int iVer = pcCUMvField->getMvd( uiAbsPartIdx ).getVer(); ContextModel* pCtx = m_cCUMvdSCModel.get( 0 ); m_pcBinIf->encodeBin( iHor != 0 ? 1 : 0, *pCtx ); m_pcBinIf->encodeBin( iVer != 0 ? 1 : 0, *pCtx ); const Bool bHorAbsGr0 = iHor != 0; const Bool bVerAbsGr0 = iVer != 0; const UInt uiHorAbs = 0 > iHor ? -iHor : iHor; const UInt uiVerAbs = 0 > iVer ? -iVer : iVer; pCtx++; if( bHorAbsGr0 ) { m_pcBinIf->encodeBin( uiHorAbs > 1 ? 1 : 0, *pCtx ); } if( bVerAbsGr0 ) { m_pcBinIf->encodeBin( uiVerAbs > 1 ? 1 : 0, *pCtx ); } if( bHorAbsGr0 ) { if( uiHorAbs > 1 ) { xWriteEpExGolomb( uiHorAbs-2, 1 ); } m_pcBinIf->encodeBinEP( 0 > iHor ? 1 : 0 ); } if( bVerAbsGr0 ) { if( uiVerAbs > 1 ) { xWriteEpExGolomb( uiVerAbs-2, 1 ); } m_pcBinIf->encodeBinEP( 0 > iVer ? 1 : 0 ); } return; } Void TEncSbac::codeDeltaQP( TComDataCU* pcCU, UInt uiAbsPartIdx ) { Int iDQp = pcCU->getQP( uiAbsPartIdx ) - pcCU->getRefQP( uiAbsPartIdx ); #if H0736_AVC_STYLE_QP_RANGE Int qpBdOffsetY = pcCU->getSlice()->getSPS()->getQpBDOffsetY(); iDQp = (iDQp + 78 + qpBdOffsetY + (qpBdOffsetY/2)) % (52 + qpBdOffsetY) - 26 - (qpBdOffsetY/2); #else #if LOSSLESS_CODING if(pcCU->getSlice()->getSPS()->getUseLossless()) { if(iDQp > 25) { iDQp = iDQp - 52; } if(iDQp < -26) { iDQp = iDQp + 52; } } #endif #endif if ( iDQp == 0 ) { m_pcBinIf->encodeBin( 0, m_cCUDeltaQpSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cCUDeltaQpSCModel.get( 0, 0, 0 ) ); UInt uiSign = (iDQp > 0 ? 0 : 1); #if !H0736_AVC_STYLE_QP_RANGE UInt uiQpBdOffsetY = 6*(g_uiBitIncrement + g_uiBitDepth - 8); #endif m_pcBinIf->encodeBinEP(uiSign); #if H0736_AVC_STYLE_QP_RANGE assert(iDQp >= -(26+(qpBdOffsetY/2))); assert(iDQp <= (25+(qpBdOffsetY/2))); UInt uiMaxAbsDQpMinus1 = 24 + (qpBdOffsetY/2) + (uiSign); #else assert(iDQp >= -(26+(Int)(uiQpBdOffsetY/2))); assert(iDQp <= (25+(Int)(uiQpBdOffsetY/2))); UInt uiMaxAbsDQpMinus1 = 24 + (uiQpBdOffsetY/2) + (uiSign); #endif UInt uiAbsDQpMinus1 = (UInt)((iDQp > 0)? iDQp : (-iDQp)) - 1; xWriteUnaryMaxSymbol( uiAbsDQpMinus1, &m_cCUDeltaQpSCModel.get( 0, 0, 1 ), 1, uiMaxAbsDQpMinus1); } return; } Void TEncSbac::codeQtCbf( TComDataCU* pcCU, UInt uiAbsPartIdx, TextType eType, UInt uiTrDepth ) { UInt uiCbf = pcCU->getCbf ( uiAbsPartIdx, eType, uiTrDepth ); UInt uiCtx = pcCU->getCtxQtCbf( uiAbsPartIdx, eType, uiTrDepth ); m_pcBinIf->encodeBin( uiCbf , m_cCUQtCbfSCModel.get( 0, eType ? TEXT_CHROMA : eType, uiCtx ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ) DTRACE_CABAC_T( "\tparseQtCbf()" ) DTRACE_CABAC_T( "\tsymbol=" ) DTRACE_CABAC_V( uiCbf ) DTRACE_CABAC_T( "\tctx=" ) DTRACE_CABAC_V( uiCtx ) DTRACE_CABAC_T( "\tetype=" ) DTRACE_CABAC_V( eType ) DTRACE_CABAC_T( "\tuiAbsPartIdx=" ) DTRACE_CABAC_V( uiAbsPartIdx ) DTRACE_CABAC_T( "\n" ) } #if BURST_IPCM /** Code I_PCM information. * \param pcCU pointer to CU * \param uiAbsPartIdx CU index * \param numIPCM the number of succesive IPCM blocks with the same size * \param firstIPCMFlag * \returns Void */ Void TEncSbac::codeIPCMInfo( TComDataCU* pcCU, UInt uiAbsPartIdx, Int numIPCM, Bool firstIPCMFlag) #else /** Code I_PCM information. * \param pcCU pointer to CU * \param uiAbsPartIdx CU index * \returns Void * * If I_PCM flag indicates that the CU is I_PCM, code its PCM alignment bits and codes. */ Void TEncSbac::codeIPCMInfo( TComDataCU* pcCU, UInt uiAbsPartIdx) #endif { UInt uiIPCM = (pcCU->getIPCMFlag(uiAbsPartIdx) == true)? 1 : 0; #if BURST_IPCM Bool writePCMSampleFlag = pcCU->getIPCMFlag(uiAbsPartIdx); if( uiIPCM == 0 || firstIPCMFlag) { m_pcBinIf->encodeBinTrm (uiIPCM); if ( firstIPCMFlag ) { m_pcBinIf->encodeNumSubseqIPCM( numIPCM - 1 ); m_pcBinIf->encodePCMAlignBits(); } } #else m_pcBinIf->encodeBinTrm (uiIPCM); #endif #if BURST_IPCM if (writePCMSampleFlag) #else if (uiIPCM) #endif { #if !BURST_IPCM m_pcBinIf->encodePCMAlignBits(); #endif UInt uiMinCoeffSize = pcCU->getPic()->getMinCUWidth()*pcCU->getPic()->getMinCUHeight(); UInt uiLumaOffset = uiMinCoeffSize*uiAbsPartIdx; UInt uiChromaOffset = uiLumaOffset>>2; Pel* piPCMSample; UInt uiWidth; UInt uiHeight; UInt uiSampleBits; UInt uiX, uiY; piPCMSample = pcCU->getPCMSampleY() + uiLumaOffset; uiWidth = pcCU->getWidth(uiAbsPartIdx); uiHeight = pcCU->getHeight(uiAbsPartIdx); uiSampleBits = pcCU->getSlice()->getSPS()->getPCMBitDepthLuma(); for(uiY = 0; uiY < uiHeight; uiY++) { for(uiX = 0; uiX < uiWidth; uiX++) { UInt uiSample = piPCMSample[uiX]; m_pcBinIf->xWritePCMCode(uiSample, uiSampleBits); } piPCMSample += uiWidth; } piPCMSample = pcCU->getPCMSampleCb() + uiChromaOffset; uiWidth = pcCU->getWidth(uiAbsPartIdx)/2; uiHeight = pcCU->getHeight(uiAbsPartIdx)/2; uiSampleBits = pcCU->getSlice()->getSPS()->getPCMBitDepthChroma(); for(uiY = 0; uiY < uiHeight; uiY++) { for(uiX = 0; uiX < uiWidth; uiX++) { UInt uiSample = piPCMSample[uiX]; m_pcBinIf->xWritePCMCode(uiSample, uiSampleBits); } piPCMSample += uiWidth; } piPCMSample = pcCU->getPCMSampleCr() + uiChromaOffset; uiWidth = pcCU->getWidth(uiAbsPartIdx)/2; uiHeight = pcCU->getHeight(uiAbsPartIdx)/2; uiSampleBits = pcCU->getSlice()->getSPS()->getPCMBitDepthChroma(); for(uiY = 0; uiY < uiHeight; uiY++) { for(uiX = 0; uiX < uiWidth; uiX++) { UInt uiSample = piPCMSample[uiX]; m_pcBinIf->xWritePCMCode(uiSample, uiSampleBits); } piPCMSample += uiWidth; } #if BURST_IPCM numIPCM--; if(numIPCM == 0) { m_pcBinIf->resetBac(); } #else m_pcBinIf->resetBac(); #endif } } Void TEncSbac::codeQtRootCbf( TComDataCU* pcCU, UInt uiAbsPartIdx ) { UInt uiCbf = pcCU->getQtRootCbf( uiAbsPartIdx ); UInt uiCtx = 0; m_pcBinIf->encodeBin( uiCbf , m_cCUQtRootCbfSCModel.get( 0, 0, uiCtx ) ); DTRACE_CABAC_VL( g_nSymbolCounter++ ) DTRACE_CABAC_T( "\tparseQtRootCbf()" ) DTRACE_CABAC_T( "\tsymbol=" ) DTRACE_CABAC_V( uiCbf ) DTRACE_CABAC_T( "\tctx=" ) DTRACE_CABAC_V( uiCtx ) DTRACE_CABAC_T( "\tuiAbsPartIdx=" ) DTRACE_CABAC_V( uiAbsPartIdx ) DTRACE_CABAC_T( "\n" ) } /** Encode (X,Y) position of the last significant coefficient * \param uiPosX X component of last coefficient * \param uiPosY Y component of last coefficient * \param width Block width * \param height Block height * \param eTType plane type / luminance or chrominance * \param uiScanIdx scan type (zig-zag, hor, ver) * This method encodes the X and Y component within a block of the last significant coefficient. */ Void TEncSbac::codeLastSignificantXY( UInt uiPosX, UInt uiPosY, Int width, Int height, TextType eTType, UInt uiScanIdx ) { // swap if( uiScanIdx == SCAN_VER ) { swap( uiPosX, uiPosY ); } UInt uiCtxLast; ContextModel *pCtxX = m_cCuCtxLastX.get( 0, eTType ); ContextModel *pCtxY = m_cCuCtxLastY.get( 0, eTType ); UInt uiGroupIdxX = g_uiGroupIdx[ uiPosX ]; UInt uiGroupIdxY = g_uiGroupIdx[ uiPosY ]; // posX #if LAST_CTX_REDUCTION Int widthCtx = eTType? 4: width; const UInt *puiCtxIdxX = g_uiLastCtx + ( g_aucConvertToBit[ widthCtx ] * ( g_aucConvertToBit[ widthCtx ] + 3 ) ); #else const UInt *puiCtxIdxX = g_uiLastCtx + ( g_aucConvertToBit[ width ] * ( g_aucConvertToBit[ width ] + 3 ) ); #endif for( uiCtxLast = 0; uiCtxLast < uiGroupIdxX; uiCtxLast++ ) { #if LAST_CTX_REDUCTION if (eTType) { m_pcBinIf->encodeBin( 1, *( pCtxX + (uiCtxLast>>g_aucConvertToBit[ width ]) ) ); } else { #endif m_pcBinIf->encodeBin( 1, *( pCtxX + puiCtxIdxX[ uiCtxLast ] ) ); #if LAST_CTX_REDUCTION } #endif } if( uiGroupIdxX < g_uiGroupIdx[ width - 1 ]) { #if LAST_CTX_REDUCTION if ( eTType ) { m_pcBinIf->encodeBin( 0, *( pCtxX + (uiCtxLast>>g_aucConvertToBit[ width ]) ) ); } else { #endif m_pcBinIf->encodeBin( 0, *( pCtxX + puiCtxIdxX[ uiCtxLast ] ) ); #if LAST_CTX_REDUCTION } #endif } // posY #if LAST_CTX_REDUCTION Int heightCtx = eTType? 4: height; const UInt *puiCtxIdxY = g_uiLastCtx + ( g_aucConvertToBit[ heightCtx ] * ( g_aucConvertToBit[ heightCtx ] + 3 ) ); #else const UInt *puiCtxIdxY = g_uiLastCtx + ( g_aucConvertToBit[ height ] * ( g_aucConvertToBit[ height ] + 3 ) ); #endif for( uiCtxLast = 0; uiCtxLast < uiGroupIdxY; uiCtxLast++ ) { #if LAST_CTX_REDUCTION if (eTType) { m_pcBinIf->encodeBin( 1, *( pCtxY + (uiCtxLast>>g_aucConvertToBit[ height ]))); } else { #endif m_pcBinIf->encodeBin( 1, *( pCtxY + puiCtxIdxY[ uiCtxLast ] ) ); #if LAST_CTX_REDUCTION } #endif } if( uiGroupIdxY < g_uiGroupIdx[ height - 1 ]) { #if LAST_CTX_REDUCTION if (eTType) { m_pcBinIf->encodeBin( 0, *( pCtxY + (uiCtxLast>>g_aucConvertToBit[ height ]) ) ); } else { #endif m_pcBinIf->encodeBin( 0, *( pCtxY + puiCtxIdxY[ uiCtxLast ] ) ); #if LAST_CTX_REDUCTION } #endif } if ( uiGroupIdxX > 3 ) { UInt uiCount = ( uiGroupIdxX - 2 ) >> 1; uiPosX = uiPosX - g_uiMinInGroup[ uiGroupIdxX ]; for (Int i = uiCount - 1 ; i >= 0; i-- ) { m_pcBinIf->encodeBinEP( ( uiPosX >> i ) & 1 ); } } if ( uiGroupIdxY > 3 ) { UInt uiCount = ( uiGroupIdxY - 2 ) >> 1; uiPosY = uiPosY - g_uiMinInGroup[ uiGroupIdxY ]; for ( Int i = uiCount - 1 ; i >= 0; i-- ) { m_pcBinIf->encodeBinEP( ( uiPosY >> i ) & 1 ); } } } Void TEncSbac::codeCoeffNxN( TComDataCU* pcCU, TCoeff* pcCoef, UInt uiAbsPartIdx, UInt uiWidth, UInt uiHeight, UInt uiDepth, TextType eTType ) { DTRACE_CABAC_VL( g_nSymbolCounter++ ) DTRACE_CABAC_T( "\tparseCoeffNxN()\teType=" ) DTRACE_CABAC_V( eTType ) DTRACE_CABAC_T( "\twidth=" ) DTRACE_CABAC_V( uiWidth ) DTRACE_CABAC_T( "\theight=" ) DTRACE_CABAC_V( uiHeight ) DTRACE_CABAC_T( "\tdepth=" ) DTRACE_CABAC_V( uiDepth ) DTRACE_CABAC_T( "\tabspartidx=" ) DTRACE_CABAC_V( uiAbsPartIdx ) DTRACE_CABAC_T( "\ttoCU-X=" ) DTRACE_CABAC_V( pcCU->getCUPelX() ) DTRACE_CABAC_T( "\ttoCU-Y=" ) DTRACE_CABAC_V( pcCU->getCUPelY() ) DTRACE_CABAC_T( "\tCU-addr=" ) DTRACE_CABAC_V( pcCU->getAddr() ) DTRACE_CABAC_T( "\tinCU-X=" ) DTRACE_CABAC_V( g_auiRasterToPelX[ g_auiZscanToRaster[uiAbsPartIdx] ] ) DTRACE_CABAC_T( "\tinCU-Y=" ) DTRACE_CABAC_V( g_auiRasterToPelY[ g_auiZscanToRaster[uiAbsPartIdx] ] ) DTRACE_CABAC_T( "\tpredmode=" ) DTRACE_CABAC_V( pcCU->getPredictionMode( uiAbsPartIdx ) ) DTRACE_CABAC_T( "\n" ) if( uiWidth > m_pcSlice->getSPS()->getMaxTrSize() ) { uiWidth = m_pcSlice->getSPS()->getMaxTrSize(); uiHeight = m_pcSlice->getSPS()->getMaxTrSize(); } UInt uiNumSig = 0; // compute number of significant coefficients uiNumSig = TEncEntropy::countNonZeroCoeffs(pcCoef, uiWidth * uiHeight); if ( uiNumSig == 0 ) return; eTType = eTType == TEXT_LUMA ? TEXT_LUMA : ( eTType == TEXT_NONE ? TEXT_NONE : TEXT_CHROMA ); //----- encode significance map ----- const UInt uiLog2BlockSize = g_aucConvertToBit[ uiWidth ] + 2; UInt uiScanIdx = pcCU->getCoefScanIdx(uiAbsPartIdx, uiWidth, eTType==TEXT_LUMA, pcCU->isIntra(uiAbsPartIdx)); if (uiScanIdx == SCAN_ZIGZAG) { // Map zigzag to diagonal scan uiScanIdx = SCAN_DIAG; } Int blockType = uiLog2BlockSize; if (uiWidth != uiHeight) { uiScanIdx = SCAN_DIAG; blockType = 4; } const UInt * scan; if (uiWidth == uiHeight) { scan = g_auiSigLastScan[ uiScanIdx ][ uiLog2BlockSize - 1 ]; } else { scan = g_sigScanNSQT[ uiLog2BlockSize - 2 ]; } #if MULTIBITS_DATA_HIDING UInt const tsig = pcCU->getSlice()->getPPS()->getTSIG(); #if LOSSLESS_CODING Bool beValid; if (pcCU->isLosslessCoded(uiAbsPartIdx)) { beValid = false; } else { beValid = pcCU->getSlice()->getPPS()->getSignHideFlag() > 0; } #else Bool beValid = pcCU->getSlice()->getPPS()->getSignHideFlag() > 0; #endif #endif // Find position of last coefficient Int scanPosLast = -1; Int posLast; const UInt * scanCG; if (uiWidth == uiHeight) { scanCG = g_auiSigLastScan[ uiScanIdx ][ uiLog2BlockSize > 3 ? uiLog2BlockSize-2-1 : 0 ]; #if MULTILEVEL_SIGMAP_EXT if( uiLog2BlockSize == 3 ) { scanCG = g_sigLastScan8x8[ uiScanIdx ]; } else if( uiLog2BlockSize == 5 ) { scanCG = g_sigLastScanCG32x32; } #endif } else { scanCG = g_sigCGScanNSQT[ uiLog2BlockSize - 2 ]; } UInt uiSigCoeffGroupFlag[ MLS_GRP_NUM ]; static const UInt uiShift = MLS_CG_SIZE >> 1; const UInt uiNumBlkSide = uiWidth >> uiShift; #if !MULTILEVEL_SIGMAP_EXT if( blockType > 3 ) { #endif ::memset( uiSigCoeffGroupFlag, 0, sizeof(UInt) * MLS_GRP_NUM ); do { posLast = scan[ ++scanPosLast ]; // get L1 sig map UInt uiPosY = posLast >> uiLog2BlockSize; UInt uiPosX = posLast - ( uiPosY << uiLog2BlockSize ); UInt uiBlkIdx = uiNumBlkSide * (uiPosY >> uiShift) + (uiPosX >> uiShift); #if MULTILEVEL_SIGMAP_EXT if( uiWidth == 8 && uiHeight == 8 && (uiScanIdx == SCAN_HOR || uiScanIdx == SCAN_VER) ) { if( uiScanIdx == SCAN_HOR ) { uiBlkIdx = uiPosY >> 1; } else if( uiScanIdx == SCAN_VER ) { uiBlkIdx = uiPosX >> 1; } } #endif if( pcCoef[ posLast ] ) { uiSigCoeffGroupFlag[ uiBlkIdx ] = 1; } uiNumSig -= ( pcCoef[ posLast ] != 0 ); } while ( uiNumSig > 0 ); #if !MULTILEVEL_SIGMAP_EXT } else { do { posLast = scan[ ++scanPosLast ]; uiNumSig -= ( pcCoef[ posLast ] != 0 ); } while ( uiNumSig > 0 ); } #endif // Code position of last coefficient Int posLastY = posLast >> uiLog2BlockSize; Int posLastX = posLast - ( posLastY << uiLog2BlockSize ); codeLastSignificantXY(posLastX, posLastY, uiWidth, uiHeight, eTType, uiScanIdx); //===== code significance flag ===== ContextModel * const baseCoeffGroupCtx = m_cCUSigCoeffGroupSCModel.get( 0, eTType ); ContextModel * const baseCtx = (eTType==TEXT_LUMA) ? m_cCUSigSCModel.get( 0, 0 ) : m_cCUSigSCModel.get( 0, 0 ) + NUM_SIG_FLAG_CTX_LUMA; const Int iLastScanSet = scanPosLast >> LOG2_SCAN_SET_SIZE; UInt uiNumOne = 0; UInt uiGoRiceParam = 0; Int iScanPosSig = scanPosLast; for( Int iSubSet = iLastScanSet; iSubSet >= 0; iSubSet-- ) { Int numNonZero = 0; Int iSubPos = iSubSet << LOG2_SCAN_SET_SIZE; uiGoRiceParam = 0; Int absCoeff[16]; UInt coeffSigns = 0; #if MULTIBITS_DATA_HIDING Int lastNZPosInCG = -1, firstNZPosInCG = SCAN_SET_SIZE; #endif if( iScanPosSig == scanPosLast ) { absCoeff[ 0 ] = abs( pcCoef[ posLast ] ); coeffSigns = ( pcCoef[ posLast ] < 0 ); numNonZero = 1; #if MULTIBITS_DATA_HIDING lastNZPosInCG = iScanPosSig; firstNZPosInCG = iScanPosSig; #endif iScanPosSig--; } #if !MULTILEVEL_SIGMAP_EXT if( blockType > 3 ) { #endif // encode significant_coeffgroup_flag Int iCGBlkPos = scanCG[ iSubSet ]; Int iCGPosY = iCGBlkPos / uiNumBlkSide; Int iCGPosX = iCGBlkPos - (iCGPosY * uiNumBlkSide); #if MULTILEVEL_SIGMAP_EXT if( uiWidth == 8 && uiHeight == 8 && (uiScanIdx == SCAN_HOR || uiScanIdx == SCAN_VER) ) { iCGPosY = (uiScanIdx == SCAN_HOR ? iCGBlkPos : 0); iCGPosX = (uiScanIdx == SCAN_VER ? iCGBlkPos : 0); } #endif #if !REMOVE_INFER_SIGGRP Bool bInferredCGFlag = false; #endif #if REMOVE_INFER_SIGGRP if( iSubSet == iLastScanSet || iSubSet == 0) #else if( iSubSet == iLastScanSet ) #endif { uiSigCoeffGroupFlag[ iCGBlkPos ] = 1; } else { #if !REMOVE_INFER_SIGGRP #if MULTILEVEL_SIGMAP_EXT if( !TComTrQuant::bothCGNeighboursOne( uiSigCoeffGroupFlag, iCGPosX, iCGPosY, uiScanIdx, uiWidth, uiHeight ) && ( iSubSet ) ) #else if( !TComTrQuant::bothCGNeighboursOne( uiSigCoeffGroupFlag, iCGPosX, iCGPosY, uiWidth, uiHeight ) && ( iSubSet ) ) #endif { #endif UInt uiSigCoeffGroup = (uiSigCoeffGroupFlag[ iCGBlkPos ] != 0); #if MULTILEVEL_SIGMAP_EXT UInt uiCtxSig = TComTrQuant::getSigCoeffGroupCtxInc( uiSigCoeffGroupFlag, iCGPosX, iCGPosY, uiScanIdx, uiWidth, uiHeight ); #else UInt uiCtxSig = TComTrQuant::getSigCoeffGroupCtxInc( uiSigCoeffGroupFlag, iCGPosX, iCGPosY, uiWidth, uiHeight ); #endif m_pcBinIf->encodeBin( uiSigCoeffGroup, baseCoeffGroupCtx[ uiCtxSig ] ); #if !REMOVE_INFER_SIGGRP } else { uiSigCoeffGroupFlag[ iCGBlkPos ] = 1; bInferredCGFlag = true; } #endif } // encode significant_coeff_flag if( uiSigCoeffGroupFlag[ iCGBlkPos ] ) { UInt uiBlkPos, uiPosY, uiPosX, uiSig, uiCtxSig; for( ; iScanPosSig >= iSubPos; iScanPosSig-- ) { uiBlkPos = scan[ iScanPosSig ]; uiPosY = uiBlkPos >> uiLog2BlockSize; uiPosX = uiBlkPos - ( uiPosY << uiLog2BlockSize ); uiSig = (pcCoef[ uiBlkPos ] != 0); #if REMOVE_INFER_SIGGRP if( iScanPosSig > iSubPos || iSubSet == 0 || numNonZero ) #else if( iScanPosSig > iSubPos || bInferredCGFlag || numNonZero ) #endif { uiCtxSig = TComTrQuant::getSigCtxInc( pcCoef, uiPosX, uiPosY, blockType, uiWidth, uiHeight, eTType ); m_pcBinIf->encodeBin( uiSig, baseCtx[ uiCtxSig ] ); } if( uiSig ) { absCoeff[ numNonZero ] = abs( pcCoef[ uiBlkPos ] ); coeffSigns = 2 * coeffSigns + ( pcCoef[ uiBlkPos ] < 0 ); numNonZero++; #if MULTIBITS_DATA_HIDING if( lastNZPosInCG == -1 ) { lastNZPosInCG = iScanPosSig; } firstNZPosInCG = iScanPosSig; #endif } } } else { iScanPosSig = iSubPos - 1; } #if !MULTILEVEL_SIGMAP_EXT } else { for( ; iScanPosSig >= iSubPos; iScanPosSig-- ) { UInt uiBlkPos = scan[ iScanPosSig ]; UInt uiPosY = uiBlkPos >> uiLog2BlockSize; UInt uiPosX = uiBlkPos - ( uiPosY << uiLog2BlockSize ); UInt uiSig = 0; if( pcCoef[ uiBlkPos ] != 0 ) { uiSig = 1; absCoeff[ numNonZero ] = abs( pcCoef[ uiBlkPos ] ); coeffSigns = 2 * coeffSigns + ( pcCoef[ uiBlkPos ] < 0 ); numNonZero++; #if MULTIBITS_DATA_HIDING if( lastNZPosInCG == -1 ) { lastNZPosInCG = iScanPosSig; } firstNZPosInCG = iScanPosSig; #endif } UInt uiCtxSig = TComTrQuant::getSigCtxInc( pcCoef, uiPosX, uiPosY, blockType, uiWidth, uiHeight, eTType ); m_pcBinIf->encodeBin( uiSig, baseCtx[ uiCtxSig ] ); } } #endif if( numNonZero > 0 ) { #if MULTIBITS_DATA_HIDING Bool signHidden = ( lastNZPosInCG - firstNZPosInCG >= (Int)tsig ); #endif // MULTIBITS_DATA_HIDING UInt c1 = 1; #if !RESTRICT_GR1GR2FLAG_NUMBER UInt c2 = 0; #endif #if LEVEL_CTX_LUMA_RED UInt uiCtxSet = (iSubSet > 0 && eTType==TEXT_LUMA) ? 2 : 0; #else UInt uiCtxSet = (iSubSet > 0 && eTType==TEXT_LUMA) ? 3 : 0; #endif if( uiNumOne > 0 ) { uiCtxSet++; #if !LEVEL_CTX_LUMA_RED if( uiNumOne > 3 && eTType==TEXT_LUMA) { uiCtxSet++; } #endif } uiNumOne >>= 1; ContextModel *baseCtxMod = ( eTType==TEXT_LUMA ) ? m_cCUOneSCModel.get( 0, 0 ) + 4 * uiCtxSet : m_cCUOneSCModel.get( 0, 0 ) + NUM_ONE_FLAG_CTX_LUMA + 4 * uiCtxSet; #if RESTRICT_GR1GR2FLAG_NUMBER Int numC1Flag = min(numNonZero, C1FLAG_NUMBER); Int firstC2FlagIdx = -1; for( Int idx = 0; idx < numC1Flag; idx++ ) #else for ( Int idx = 0; idx < numNonZero; idx++ ) #endif { UInt uiSymbol = absCoeff[ idx ] > 1; m_pcBinIf->encodeBin( uiSymbol, baseCtxMod[c1] ); if( uiSymbol ) { c1 = 0; #if RESTRICT_GR1GR2FLAG_NUMBER if (firstC2FlagIdx == -1) { firstC2FlagIdx = idx; } #endif } else if( (c1 < 3) && (c1 > 0) ) { c1++; } } if (c1 == 0) { #if RESTRICT_GR1GR2FLAG_NUMBER baseCtxMod = ( eTType==TEXT_LUMA ) ? m_cCUAbsSCModel.get( 0, 0 ) + uiCtxSet : m_cCUAbsSCModel.get( 0, 0 ) + NUM_ABS_FLAG_CTX_LUMA + uiCtxSet; if ( firstC2FlagIdx != -1) { UInt symbol = absCoeff[ firstC2FlagIdx ] > 2; m_pcBinIf->encodeBin( symbol, baseCtxMod[0] ); } #else baseCtxMod = ( eTType==TEXT_LUMA ) ? m_cCUAbsSCModel.get( 0, 0 ) + 3 * uiCtxSet : m_cCUAbsSCModel.get( 0, 0 ) + NUM_ABS_FLAG_CTX_LUMA + 3 * uiCtxSet; for ( Int idx = 0; idx < numNonZero; idx++ ) { if( absCoeff[ idx ] > 1 ) { UInt symbol = absCoeff[ idx ] > 2; m_pcBinIf->encodeBin( symbol, baseCtxMod[c2] ); c2 += (c2 < 2); uiNumOne++; } } #endif } #if MULTIBITS_DATA_HIDING if( beValid && signHidden ) { m_pcBinIf->encodeBinsEP( (coeffSigns >> 1), numNonZero-1 ); } else { m_pcBinIf->encodeBinsEP( coeffSigns, numNonZero ); } #else m_pcBinIf->encodeBinsEP( coeffSigns, numNonZero ); #endif #if RESTRICT_GR1GR2FLAG_NUMBER Int iFirstCoeff2 = 1; if (c1 == 0 || numNonZero > C1FLAG_NUMBER) #else if (c1 == 0) #endif { for ( Int idx = 0; idx < numNonZero; idx++ ) { #if RESTRICT_GR1GR2FLAG_NUMBER UInt baseLevel = (idx < C1FLAG_NUMBER)? (2 + iFirstCoeff2 ) : 1; if( absCoeff[ idx ] >= baseLevel) { xWriteGoRiceExGolomb( absCoeff[ idx ] - baseLevel, uiGoRiceParam ); } if(absCoeff[ idx ] >= 2) { iFirstCoeff2 = 0; uiNumOne++; } #else if ( absCoeff[ idx ] > 2 ) { xWriteGoRiceExGolomb( absCoeff[ idx ] - 3, uiGoRiceParam ); } #endif } } } else { uiNumOne >>= 1; } } return; } Void TEncSbac::codeAlfFlag ( UInt uiCode ) { UInt uiSymbol = ( ( uiCode == 0 ) ? 0 : 1 ); m_pcBinIf->encodeBin( uiSymbol, m_cALFFlagSCModel.get( 0, 0, 0 ) ); } Void TEncSbac::codeAlfCtrlFlag( UInt uiSymbol ) { m_pcBinIf->encodeBin( uiSymbol, m_cCUAlfCtrlFlagSCModel.get( 0, 0, 0) ); } Void TEncSbac::codeAlfUvlc ( UInt uiCode ) { Int i; if ( uiCode == 0 ) { m_pcBinIf->encodeBin( 0, m_cALFUvlcSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cALFUvlcSCModel.get( 0, 0, 0 ) ); for ( i=0; iencodeBin( 1, m_cALFUvlcSCModel.get( 0, 0, 1 ) ); } m_pcBinIf->encodeBin( 0, m_cALFUvlcSCModel.get( 0, 0, 1 ) ); } } Void TEncSbac::codeAlfSvlc ( Int iCode ) { Int i; if ( iCode == 0 ) { m_pcBinIf->encodeBin( 0, m_cALFSvlcSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cALFSvlcSCModel.get( 0, 0, 0 ) ); // write sign if ( iCode > 0 ) { m_pcBinIf->encodeBin( 0, m_cALFSvlcSCModel.get( 0, 0, 1 ) ); } else { m_pcBinIf->encodeBin( 1, m_cALFSvlcSCModel.get( 0, 0, 1 ) ); iCode = -iCode; } // write magnitude for ( i=0; iencodeBin( 1, m_cALFSvlcSCModel.get( 0, 0, 2 ) ); } m_pcBinIf->encodeBin( 0, m_cALFSvlcSCModel.get( 0, 0, 2 ) ); } } Void TEncSbac::codeSaoFlag ( UInt uiCode ) { UInt uiSymbol = ( ( uiCode == 0 ) ? 0 : 1 ); m_pcBinIf->encodeBin( uiSymbol, m_cSaoFlagSCModel.get( 0, 0, 0 ) ); } Void TEncSbac::codeSaoUvlc ( UInt uiCode ) { Int i; if ( uiCode == 0 ) { m_pcBinIf->encodeBin( 0, m_cSaoUvlcSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cSaoUvlcSCModel.get( 0, 0, 0 ) ); for ( i=0; iencodeBin( 1, m_cSaoUvlcSCModel.get( 0, 0, 1 ) ); } m_pcBinIf->encodeBin( 0, m_cSaoUvlcSCModel.get( 0, 0, 1 ) ); } } Void TEncSbac::codeSaoSvlc ( Int iCode ) { Int i; if ( iCode == 0 ) { m_pcBinIf->encodeBin( 0, m_cSaoSvlcSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cSaoSvlcSCModel.get( 0, 0, 0 ) ); // write sign if ( iCode > 0 ) { m_pcBinIf->encodeBin( 0, m_cSaoSvlcSCModel.get( 0, 0, 1 ) ); } else { m_pcBinIf->encodeBin( 1, m_cSaoSvlcSCModel.get( 0, 0, 1 ) ); iCode = -iCode; } // write magnitude for ( i=0; iencodeBin( 1, m_cSaoSvlcSCModel.get( 0, 0, 2 ) ); } m_pcBinIf->encodeBin( 0, m_cSaoSvlcSCModel.get( 0, 0, 2 ) ); } } #if SAO_UNIT_INTERLEAVING /** Code SAO band position * \param uiCode */ Void TEncSbac::codeSaoUflc ( UInt uiCode ) { for (Int i=0;i<5;i++) { m_pcBinIf->encodeBinEP ( (uiCode>>i) &0x01 ); } } /** Code SAO merge left flag * \param uiCode * \param uiCompIdx */ Void TEncSbac::codeSaoMergeLeft ( UInt uiCode, UInt uiCompIdx ) { if (uiCode == 0) { m_pcBinIf->encodeBin(0, m_cSaoMergeLeftSCModel.get( 0, 0, uiCompIdx )); } else { m_pcBinIf->encodeBin(1, m_cSaoMergeLeftSCModel.get( 0, 0, uiCompIdx )); } } /** Code SAO merge up flag * \param uiCode */ Void TEncSbac::codeSaoMergeUp ( UInt uiCode) { if (uiCode == 0) { m_pcBinIf->encodeBin(0, m_cSaoMergeUpSCModel.get( 0, 0, 0 )); } else { m_pcBinIf->encodeBin(1, m_cSaoMergeUpSCModel.get( 0, 0, 0 )); } } /** Code SAO type index * \param uiCode */ Void TEncSbac::codeSaoTypeIdx ( UInt uiCode) { Int i; if ( uiCode == 0 ) { m_pcBinIf->encodeBin( 0, m_cSaoTypeIdxSCModel.get( 0, 0, 0 ) ); } else { m_pcBinIf->encodeBin( 1, m_cSaoTypeIdxSCModel.get( 0, 0, 0 ) ); for ( i=0; iencodeBin( 1, m_cSaoTypeIdxSCModel.get( 0, 0, 1 ) ); } m_pcBinIf->encodeBin( 0, m_cSaoTypeIdxSCModel.get( 0, 0, 1 ) ); } } #endif /*! **************************************************************************** * \brief * estimate bit cost for CBP, significant map and significant coefficients **************************************************************************** */ Void TEncSbac::estBit( estBitsSbacStruct* pcEstBitsSbac, Int width, Int height, TextType eTType ) { estCBFBit( pcEstBitsSbac, 0, eTType ); estSignificantCoeffGroupMapBit( pcEstBitsSbac, 0, eTType ); // encode significance map estSignificantMapBit( pcEstBitsSbac, width, height, eTType ); // encode significant coefficients estSignificantCoefficientsBit( pcEstBitsSbac, 0, eTType ); } /*! **************************************************************************** * \brief * estimate bit cost for each CBP bit **************************************************************************** */ Void TEncSbac::estCBFBit( estBitsSbacStruct* pcEstBitsSbac, UInt uiCTXIdx, TextType eTType ) { ContextModel *pCtx = m_cCUQtCbfSCModel.get( 0 ); for( UInt uiCtxInc = 0; uiCtxInc < 3*NUM_QT_CBF_CTX; uiCtxInc++ ) { pcEstBitsSbac->blockCbpBits[ uiCtxInc ][ 0 ] = pCtx[ uiCtxInc ].getEntropyBits( 0 ); pcEstBitsSbac->blockCbpBits[ uiCtxInc ][ 1 ] = pCtx[ uiCtxInc ].getEntropyBits( 1 ); } pCtx = m_cCUQtRootCbfSCModel.get( 0 ); for( UInt uiCtxInc = 0; uiCtxInc < 4; uiCtxInc++ ) { pcEstBitsSbac->blockRootCbpBits[ uiCtxInc ][ 0 ] = pCtx[ uiCtxInc ].getEntropyBits( 0 ); pcEstBitsSbac->blockRootCbpBits[ uiCtxInc ][ 1 ] = pCtx[ uiCtxInc ].getEntropyBits( 1 ); } } /*! **************************************************************************** * \brief * estimate SAMBAC bit cost for significant coefficient group map **************************************************************************** */ Void TEncSbac::estSignificantCoeffGroupMapBit( estBitsSbacStruct* pcEstBitsSbac, UInt uiCTXIdx, TextType eTType ) { Int firstCtx = 0, numCtx = NUM_SIG_CG_FLAG_CTX; for ( Int ctxIdx = firstCtx; ctxIdx < firstCtx + numCtx; ctxIdx++ ) { for( UInt uiBin = 0; uiBin < 2; uiBin++ ) { pcEstBitsSbac->significantCoeffGroupBits[ ctxIdx ][ uiBin ] = m_cCUSigCoeffGroupSCModel.get( 0, eTType, ctxIdx ).getEntropyBits( uiBin ); } } } /*! **************************************************************************** * \brief * estimate SAMBAC bit cost for significant coefficient map **************************************************************************** */ Void TEncSbac::estSignificantMapBit( estBitsSbacStruct* pcEstBitsSbac, Int width, Int height, TextType eTType ) { Int firstCtx = 0, numCtx = (eTType == TEXT_LUMA) ? 9 : 6; if (std::max(width, height) >= 16) { firstCtx = (eTType == TEXT_LUMA) ? 20 : 17; numCtx = (eTType == TEXT_LUMA) ? 7 : 4; } else if (width == 8) { firstCtx = (eTType == TEXT_LUMA) ? 9 : 6; numCtx = 11; } if (eTType == TEXT_LUMA ) { for ( Int ctxIdx = firstCtx; ctxIdx < firstCtx + numCtx; ctxIdx++ ) { for( UInt uiBin = 0; uiBin < 2; uiBin++ ) { pcEstBitsSbac->significantBits[ ctxIdx ][ uiBin ] = m_cCUSigSCModel.get( 0, 0, ctxIdx ).getEntropyBits( uiBin ); } } } else { for ( Int ctxIdx = firstCtx; ctxIdx < firstCtx + numCtx; ctxIdx++ ) { for( UInt uiBin = 0; uiBin < 2; uiBin++ ) { pcEstBitsSbac->significantBits[ ctxIdx ][ uiBin ] = m_cCUSigSCModel.get( 0, 0, NUM_SIG_FLAG_CTX_LUMA + ctxIdx ).getEntropyBits( uiBin ); } } } Int iBitsX = 0, iBitsY = 0; const UInt *puiCtxIdx; Int ctx; #if LAST_CTX_REDUCTION Int widthCtx = eTType? 4 : width; puiCtxIdx = g_uiLastCtx + (g_aucConvertToBit[ widthCtx ]*(g_aucConvertToBit[ widthCtx ]+3)); #else puiCtxIdx = g_uiLastCtx + (g_aucConvertToBit[ width ]*(g_aucConvertToBit[ width ]+3)); #endif ContextModel *pCtxX = m_cCuCtxLastX.get( 0, eTType ); for (ctx = 0; ctx < g_uiGroupIdx[ width - 1 ]; ctx++) { Int ctxOffset = puiCtxIdx[ ctx ]; #if LAST_CTX_REDUCTION if (eTType) { Int ctxOffsetC = ctx>>g_aucConvertToBit[ width ]; pcEstBitsSbac->lastXBits[ ctx ] = iBitsX + pCtxX[ ctxOffsetC ].getEntropyBits( 0 ); iBitsX += pCtxX[ ctxOffsetC].getEntropyBits( 1 ); } else { #endif pcEstBitsSbac->lastXBits[ ctx ] = iBitsX + pCtxX[ ctxOffset ].getEntropyBits( 0 ); iBitsX += pCtxX[ ctxOffset ].getEntropyBits( 1 ); #if LAST_CTX_REDUCTION } #endif } pcEstBitsSbac->lastXBits[ctx] = iBitsX; #if LAST_CTX_REDUCTION Int heightCtx = eTType? 4 : height; puiCtxIdx = g_uiLastCtx + (g_aucConvertToBit[ heightCtx ]*(g_aucConvertToBit[ heightCtx ]+3)); #else puiCtxIdx = g_uiLastCtx + (g_aucConvertToBit[ height ]*(g_aucConvertToBit[ height ]+3)); #endif ContextModel *pCtxY = m_cCuCtxLastY.get( 0, eTType ); for (ctx = 0; ctx < g_uiGroupIdx[ height - 1 ]; ctx++) { Int ctxOffset = puiCtxIdx[ ctx ]; #if LAST_CTX_REDUCTION if (eTType) { Int ctxOffsetC = ctx>>g_aucConvertToBit[ height ]; pcEstBitsSbac->lastYBits[ ctx ] = iBitsY + pCtxY[ ctxOffsetC ].getEntropyBits( 0 ); iBitsY += pCtxY[ctxOffsetC].getEntropyBits( 1 ); } else { #endif pcEstBitsSbac->lastYBits[ ctx ] = iBitsY + pCtxY[ ctxOffset ].getEntropyBits( 0 ); iBitsY += pCtxY[ ctxOffset ].getEntropyBits( 1 ); #if LAST_CTX_REDUCTION } #endif } pcEstBitsSbac->lastYBits[ctx] = iBitsY; } /*! **************************************************************************** * \brief * estimate bit cost of significant coefficient **************************************************************************** */ Void TEncSbac::estSignificantCoefficientsBit( estBitsSbacStruct* pcEstBitsSbac, UInt uiCTXIdx, TextType eTType ) { if (eTType==TEXT_LUMA) { ContextModel *ctxOne = m_cCUOneSCModel.get(0, 0); ContextModel *ctxAbs = m_cCUAbsSCModel.get(0, 0); for (Int ctxIdx = 0; ctxIdx < NUM_ONE_FLAG_CTX_LUMA; ctxIdx++) { pcEstBitsSbac->m_greaterOneBits[ ctxIdx ][ 0 ] = ctxOne[ ctxIdx ].getEntropyBits( 0 ); pcEstBitsSbac->m_greaterOneBits[ ctxIdx ][ 1 ] = ctxOne[ ctxIdx ].getEntropyBits( 1 ); } for (Int ctxIdx = 0; ctxIdx < NUM_ABS_FLAG_CTX_LUMA; ctxIdx++) { pcEstBitsSbac->m_levelAbsBits[ ctxIdx ][ 0 ] = ctxAbs[ ctxIdx ].getEntropyBits( 0 ); pcEstBitsSbac->m_levelAbsBits[ ctxIdx ][ 1 ] = ctxAbs[ ctxIdx ].getEntropyBits( 1 ); } } else { ContextModel *ctxOne = m_cCUOneSCModel.get(0, 0) + NUM_ONE_FLAG_CTX_LUMA; ContextModel *ctxAbs = m_cCUAbsSCModel.get(0, 0) + NUM_ABS_FLAG_CTX_LUMA; for (Int ctxIdx = 0; ctxIdx < NUM_ONE_FLAG_CTX_CHROMA; ctxIdx++) { pcEstBitsSbac->m_greaterOneBits[ ctxIdx ][ 0 ] = ctxOne[ ctxIdx ].getEntropyBits( 0 ); pcEstBitsSbac->m_greaterOneBits[ ctxIdx ][ 1 ] = ctxOne[ ctxIdx ].getEntropyBits( 1 ); } for (Int ctxIdx = 0; ctxIdx < NUM_ABS_FLAG_CTX_CHROMA; ctxIdx++) { pcEstBitsSbac->m_levelAbsBits[ ctxIdx ][ 0 ] = ctxAbs[ ctxIdx ].getEntropyBits( 0 ); pcEstBitsSbac->m_levelAbsBits[ ctxIdx ][ 1 ] = ctxAbs[ ctxIdx ].getEntropyBits( 1 ); } } } /** - Initialize our context information from the nominated source. . \param pSrc From where to copy context information. */ Void TEncSbac::xCopyContextsFrom( TEncSbac* pSrc ) { memcpy(m_contextModels, pSrc->m_contextModels, m_numContextModels*sizeof(m_contextModels[0])); } Void TEncSbac::loadContexts ( TEncSbac* pScr) { this->xCopyContextsFrom(pScr); } #if HHI_DMM_WEDGE_INTRA || HHI_DMM_PRED_TEX || (LGE_EDGE_INTRA_A0070 && LGE_EDGE_INTRA_DELTA_DC) Void TEncSbac::xWriteExGolombLevel( UInt uiSymbol, ContextModel& rcSCModel ) { if( uiSymbol ) { m_pcBinIf->encodeBin( 1, rcSCModel ); UInt uiCount = 0; Bool bNoExGo = (uiSymbol < 13); while( --uiSymbol && ++uiCount < 13 ) { m_pcBinIf->encodeBin( 1, rcSCModel ); } if( bNoExGo ) { m_pcBinIf->encodeBin( 0, rcSCModel ); } else { xWriteEpExGolomb( uiSymbol, 0 ); } } else { m_pcBinIf->encodeBin( 0, rcSCModel ); } return; } #endif #if HHI_DMM_WEDGE_INTRA Void TEncSbac::xCodeWedgeFullInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { Int iIntraIdx = pcCU->getIntraSizeIdx(uiAbsPartIdx); Int iBits = g_aucWedgeFullBitsListIdx[iIntraIdx]; UInt uiTabIdx = pcCU->getWedgeFullTabIdx( uiAbsPartIdx ); for ( Int i = 0; i < iBits; i++ ) { m_pcBinIf->encodeBin( ( uiTabIdx >> i ) & 1, m_cDmmDataSCModel.get(0, 0, 0) ); } } Void TEncSbac::xCodeWedgeFullDeltaInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { Int iIntraIdx = pcCU->getIntraSizeIdx(uiAbsPartIdx); Int iBits = g_aucWedgeFullBitsListIdx[iIntraIdx]; UInt uiTabIdx = pcCU->getWedgeFullTabIdx( uiAbsPartIdx ); for ( Int i = 0; i < iBits; i++ ) { m_pcBinIf->encodeBin( ( uiTabIdx >> i ) & 1, m_cDmmDataSCModel.get(0, 0, 0) ); } Int iDeltaDC1 = pcCU->getWedgeFullDeltaDC1( uiAbsPartIdx ); Int iDeltaDC2 = pcCU->getWedgeFullDeltaDC2( uiAbsPartIdx ); xWriteExGolombLevel( UInt( abs( iDeltaDC1 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC1 != 0 ) { UInt uiSign = iDeltaDC1 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } xWriteExGolombLevel( UInt( abs( iDeltaDC2 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC2 != 0 ) { UInt uiSign = iDeltaDC2 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } Void TEncSbac::xCodeWedgePredDirInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { if( DMM_WEDGE_PREDDIR_DELTAEND_MAX > 0 ) { Int iDeltaEnd = pcCU->getWedgePredDirDeltaEnd( uiAbsPartIdx ); m_pcBinIf->encodeBin( (iDeltaEnd!=0), m_cDmmDataSCModel.get(0, 0, 2) ); if( iDeltaEnd != 0 ) { UInt uiAbsValMinus1 = abs(iDeltaEnd)-1; m_pcBinIf->encodeBin( (uiAbsValMinus1 & 0x01), m_cDmmDataSCModel.get(0, 0, 2) ); m_pcBinIf->encodeBin( (uiAbsValMinus1 & 0x02) >> 1, m_cDmmDataSCModel.get(0, 0, 2) ); UInt uiSign = iDeltaEnd > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } } Void TEncSbac::xCodeWedgePredDirDeltaInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { if( DMM_WEDGE_PREDDIR_DELTAEND_MAX > 0 ) { Int iDeltaEnd = pcCU->getWedgePredDirDeltaEnd( uiAbsPartIdx ); m_pcBinIf->encodeBin( (iDeltaEnd!=0), m_cDmmDataSCModel.get(0, 0, 2) ); if( iDeltaEnd != 0 ) { UInt uiAbsValMinus1 = abs(iDeltaEnd)-1; m_pcBinIf->encodeBin( (uiAbsValMinus1 & 0x01), m_cDmmDataSCModel.get(0, 0, 2) ); m_pcBinIf->encodeBin( (uiAbsValMinus1 & 0x02) >> 1, m_cDmmDataSCModel.get(0, 0, 2) ); UInt uiSign = iDeltaEnd > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } Int iDeltaDC1 = pcCU->getWedgePredDirDeltaDC1( uiAbsPartIdx ); Int iDeltaDC2 = pcCU->getWedgePredDirDeltaDC2( uiAbsPartIdx ); xWriteExGolombLevel( UInt( abs( iDeltaDC1 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC1 != 0 ) { UInt uiSign = iDeltaDC1 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } xWriteExGolombLevel( UInt( abs( iDeltaDC2 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC2 != 0 ) { UInt uiSign = iDeltaDC2 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } #endif #if HHI_DMM_PRED_TEX Void TEncSbac::xCodeWedgePredTexDeltaInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { Int iDeltaDC1 = pcCU->getWedgePredTexDeltaDC1( uiAbsPartIdx ); Int iDeltaDC2 = pcCU->getWedgePredTexDeltaDC2( uiAbsPartIdx ); xWriteExGolombLevel( UInt( abs( iDeltaDC1 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC1 != 0 ) { UInt uiSign = iDeltaDC1 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } xWriteExGolombLevel( UInt( abs( iDeltaDC2 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC2 != 0 ) { UInt uiSign = iDeltaDC2 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } Void TEncSbac::xCodeContourPredTexDeltaInfo( TComDataCU* pcCU, UInt uiAbsPartIdx ) { Int iDeltaDC1 = pcCU->getContourPredTexDeltaDC1( uiAbsPartIdx ); Int iDeltaDC2 = pcCU->getContourPredTexDeltaDC2( uiAbsPartIdx ); xWriteExGolombLevel( UInt( abs( iDeltaDC1 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC1 != 0 ) { UInt uiSign = iDeltaDC1 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } xWriteExGolombLevel( UInt( abs( iDeltaDC2 ) ), m_cDmmDataSCModel.get(0, 0, 1) ); if ( iDeltaDC2 != 0 ) { UInt uiSign = iDeltaDC2 > 0 ? 0 : 1; m_pcBinIf->encodeBinEP( uiSign ); } } #endif #if RWTH_SDC_DLT_B0036 Void TEncSbac::codeSDCPredMode( TComDataCU* pcCU, UInt uiAbsPartIdx ) { assert( pcCU->getSlice()->getSPS()->isDepth() ); assert( pcCU->getPartitionSize(uiAbsPartIdx) == SIZE_2Nx2N ); assert( pcCU->getSDCFlag(uiAbsPartIdx) ); UInt uiPredMode = pcCU->getLumaIntraDir(uiAbsPartIdx); UInt uiCtx = 0; UInt uiMPModeIdx = 0; for(Int i=0; iencodeBin( uiBit, m_cSDCPredModeSCModel.get( 0, i, uiCtx ) ); // if mode is most probable mode, we are done here if ( uiBit == 1 ) break; // else: get next most probable pred mode uiMPModeIdx = (uiMPModeIdx+1)%RWTH_SDC_NUM_PRED_MODES; } #if HHI_DMM_WEDGE_INTRA if( uiPredMode == DMM_WEDGE_FULL_IDX ) { xCodeWedgeFullInfo ( pcCU, uiAbsPartIdx ); } if( uiPredMode == DMM_WEDGE_PREDDIR_IDX ) { xCodeWedgePredDirInfo ( pcCU, uiAbsPartIdx ); } #endif AOF(uiPredMode == g_auiSDCPredModes[uiMPModeIdx]); } Void TEncSbac::codeSDCFlag( TComDataCU* pcCU, UInt uiAbsPartIdx ) { // get context function is here UInt uiSymbol = pcCU->getSDCFlag( uiAbsPartIdx ) ? 1 : 0; UInt uiCtxSDCFlag = pcCU->getCtxSDCFlag( uiAbsPartIdx ); m_pcBinIf->encodeBin( uiSymbol, m_cSDCFlagSCModel.get( 0, 0, uiCtxSDCFlag ) ); } Void TEncSbac::codeSDCResidualData ( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiSegment ) { assert( pcCU->getSlice()->getSPS()->isDepth() ); assert( pcCU->getPartitionSize(uiAbsPartIdx) == SIZE_2Nx2N ); assert( pcCU->getSDCFlag(uiAbsPartIdx) ); assert( uiSegment < 2 ); Pel segmentDCOffset = pcCU->getSDCSegmentDCOffset(uiSegment, uiAbsPartIdx); UInt uiResidual = segmentDCOffset == 0 ? 0 : 1; UInt uiSign = segmentDCOffset < 0 ? 1 : 0; UInt uiAbsIdx = abs(segmentDCOffset); UInt uiBit = 0; UInt uiMaxResidualBits = GetBitsPerDepthValue(); assert( uiMaxResidualBits <= g_uiBitDepth ); // residual flag m_pcBinIf->encodeBin( uiResidual, m_cSDCResidualFlagSCModel.get( 0, uiSegment, 0 ) ); //TODO depthmap: more sophisticated context selection if (uiResidual) { // encode sign bit of residual m_pcBinIf->encodeBin( uiSign, m_cSDCResidualSignFlagSCModel.get( 0, uiSegment, 0 ) ); //TODO depthmap: more sophisticated context selection assert(uiAbsIdx < GetNumDepthValues()); // encode residual magnitude uiAbsIdx -= 1; for (Int i=0; i>i; m_pcBinIf->encodeBin( uiBit, m_cSDCResidualSCModel.get( 0, uiSegment, i ) ); //TODO depthmap: more sophisticated context selection } } } #endif //! \}