/* 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) 2010-2013, 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 TDecEntropy.cpp \brief entropy decoder class */ #include "TDecEntropy.h" //! \ingroup TLibDecoder //! \{ Void TDecEntropy::setEntropyDecoder ( TDecEntropyIf* p ) { m_pcEntropyDecoderIf = p; } #include "TLibCommon/TComSampleAdaptiveOffset.h" Void TDecEntropy::decodeSkipFlag( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parseSkipFlag( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodeCUTransquantBypassFlag(TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parseCUTransquantBypassFlag( pcCU, uiAbsPartIdx, uiDepth ); } /** decode merge flag * \param pcSubCU * \param uiAbsPartIdx * \param uiDepth * \param uiPUIdx * \returns Void */ Void TDecEntropy::decodeMergeFlag( TComDataCU* pcSubCU, UInt uiAbsPartIdx, UInt uiDepth, UInt uiPUIdx ) { // at least one merge candidate exists m_pcEntropyDecoderIf->parseMergeFlag( pcSubCU, uiAbsPartIdx, uiDepth, uiPUIdx ); } /** decode merge index * \param pcCU * \param uiPartIdx * \param uiAbsPartIdx * \param puhInterDirNeighbours pointer to list of inter direction from the casual neighbours * \param pcMvFieldNeighbours pointer to list of motion vector field from the casual neighbours * \param uiDepth * \returns Void */ Void TDecEntropy::decodeMergeIndex( TComDataCU* pcCU, UInt uiPartIdx, UInt uiAbsPartIdx, UInt uiDepth ) { UInt uiMergeIndex = 0; m_pcEntropyDecoderIf->parseMergeIndex( pcCU, uiMergeIndex ); pcCU->setMergeIndexSubParts( uiMergeIndex, uiAbsPartIdx, uiPartIdx, uiDepth ); } #if H_3D_ARP Void TDecEntropy::decodeARPW( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { if( !pcCU->getSlice()->getARPStepNum() || pcCU->isIntra( uiAbsPartIdx ) ) { return; } if( pcCU->getPartitionSize(uiAbsPartIdx) != SIZE_2Nx2N ) { pcCU->setARPWSubParts( 0 , uiAbsPartIdx, uiDepth ); } else { m_pcEntropyDecoderIf->parseARPW( pcCU , uiAbsPartIdx , uiDepth ); } } #endif #if H_3D_IC Void TDecEntropy::decodeICFlag( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { pcCU->setICFlagSubParts( false , uiAbsPartIdx, 0, uiDepth ); #if SEC_ONLY_TEXTURE_IC_F0151 if ( pcCU->isIntra( uiAbsPartIdx ) || ( pcCU->getSlice()->getViewIndex() == 0 ) || pcCU->getSlice()->getIsDepth() ) #else if ( pcCU->isIntra( uiAbsPartIdx ) || ( pcCU->getSlice()->getViewIndex() == 0 ) ) #endif { return; } if( !pcCU->getSlice()->getApplyIC() ) return; if( pcCU->isICFlagRequired( uiAbsPartIdx ) ) m_pcEntropyDecoderIf->parseICFlag( pcCU, uiAbsPartIdx, uiDepth ); } #endif Void TDecEntropy::decodeSplitFlag ( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parseSplitFlag( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodePredMode( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parsePredMode( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodePartSize( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parsePartSize( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodePredInfo ( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, TComDataCU* pcSubCU ) { if( pcCU->isIntra( uiAbsPartIdx ) ) // If it is Intra mode, encode intra prediction mode. { decodeIntraDirModeLuma ( pcCU, uiAbsPartIdx, uiDepth ); #if H_3D_DIM_SDC if(!pcCU->getSDCFlag(uiAbsPartIdx)) #endif decodeIntraDirModeChroma( pcCU, uiAbsPartIdx, uiDepth ); } else // if it is Inter mode, encode motion vector and reference index { decodePUWise( pcCU, uiAbsPartIdx, uiDepth, pcSubCU ); } } /** Parse I_PCM information. * \param pcCU pointer to CUpointer to CU * \param uiAbsPartIdx CU index * \param uiDepth CU depth * \returns Void */ Void TDecEntropy::decodeIPCMInfo( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { if(!pcCU->getSlice()->getSPS()->getUsePCM() || pcCU->getWidth(uiAbsPartIdx) > (1<getSlice()->getSPS()->getPCMLog2MaxSize()) || pcCU->getWidth(uiAbsPartIdx) < (1<getSlice()->getSPS()->getPCMLog2MinSize()) ) { return; } #if H_3D_DIM_SDC if( pcCU->getSDCFlag(uiAbsPartIdx) ) { return; } #endif m_pcEntropyDecoderIf->parseIPCMInfo( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodeIntraDirModeLuma ( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parseIntraDirLumaAng( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodeIntraDirModeChroma( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { m_pcEntropyDecoderIf->parseIntraDirChroma( pcCU, uiAbsPartIdx, uiDepth ); } /** decode motion information for every PU block. * \param pcCU * \param uiAbsPartIdx * \param uiDepth * \param pcSubCU * \returns Void */ Void TDecEntropy::decodePUWise( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, TComDataCU* pcSubCU ) { PartSize ePartSize = pcCU->getPartitionSize( uiAbsPartIdx ); UInt uiNumPU = ( ePartSize == SIZE_2Nx2N ? 1 : ( ePartSize == SIZE_NxN ? 4 : 2 ) ); UInt uiPUOffset = ( g_auiPUOffset[UInt( ePartSize )] << ( ( pcCU->getSlice()->getSPS()->getMaxCUDepth() - uiDepth ) << 1 ) ) >> 4; #if H_3D_IV_MERGE TComMvField cMvFieldNeighbours[MRG_MAX_NUM_CANDS_MEM << 1]; // double length for mv of both lists UChar uhInterDirNeighbours[MRG_MAX_NUM_CANDS_MEM]; #else TComMvField cMvFieldNeighbours[MRG_MAX_NUM_CANDS << 1]; // double length for mv of both lists UChar uhInterDirNeighbours[MRG_MAX_NUM_CANDS]; #endif #if MTK_SPIVMP_F0110 Bool bSPIVMPFlag[MRG_MAX_NUM_CANDS_MEM]; TComMvField* pcMvFieldSP; UChar* puhInterDirSP; pcMvFieldSP = new TComMvField[pcCU->getPic()->getPicSym()->getNumPartition()*2]; puhInterDirSP = new UChar[pcCU->getPic()->getPicSym()->getNumPartition()]; #endif for ( UInt ui = 0; ui < pcCU->getSlice()->getMaxNumMergeCand(); ui++ ) { uhInterDirNeighbours[ui] = 0; } Int numValidMergeCand = 0; Bool isMerged = false; pcSubCU->copyInterPredInfoFrom( pcCU, uiAbsPartIdx, REF_PIC_LIST_0 ); pcSubCU->copyInterPredInfoFrom( pcCU, uiAbsPartIdx, REF_PIC_LIST_1 ); #if H_3D_IV_MERGE pcSubCU->copyDVInfoFrom( pcCU, uiAbsPartIdx); #endif for ( UInt uiPartIdx = 0, uiSubPartIdx = uiAbsPartIdx; uiPartIdx < uiNumPU; uiPartIdx++, uiSubPartIdx += uiPUOffset ) { #if H_MV_ENC_DEC_TRAC DTRACE_PU_S("=========== prediction_unit ===========\n") // ToDo: //DTRACE_PU("x0", uiLPelX) //DTRACE_PU("x1", uiTPelY) #endif decodeMergeFlag( pcCU, uiSubPartIdx, uiDepth, uiPartIdx ); if ( pcCU->getMergeFlag( uiSubPartIdx ) ) { decodeMergeIndex( pcCU, uiPartIdx, uiSubPartIdx, uiDepth ); UInt uiMergeIndex = pcCU->getMergeIndex(uiSubPartIdx); #if LGE_SHARP_VSP_INHERIT_F0104 #if H_3D_IC decodeICFlag( pcCU, uiAbsPartIdx, uiDepth ); #endif #if H_3D_ARP decodeARPW ( pcCU, uiAbsPartIdx, uiDepth ); #endif #endif if ( pcCU->getSlice()->getPPS()->getLog2ParallelMergeLevelMinus2() && ePartSize != SIZE_2Nx2N && pcSubCU->getWidth( 0 ) <= 8 ) { pcSubCU->setPartSizeSubParts( SIZE_2Nx2N, 0, uiDepth ); if ( !isMerged ) { #if H_3D_VSP Int vspFlag[MRG_MAX_NUM_CANDS_MEM]; memset(vspFlag, 0, sizeof(Int)*MRG_MAX_NUM_CANDS_MEM); InheritedVSPDisInfo inheritedVSPDisInfo[MRG_MAX_NUM_CANDS_MEM]; #if MTK_SPIVMP_F0110 memset(bSPIVMPFlag, false, sizeof(Bool)*MRG_MAX_NUM_CANDS_MEM); #endif #if ETRIKHU_MERGE_REUSE_F0093 pcSubCU->initAvailableFlags(); pcSubCU->getInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand); pcSubCU->xGetInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, vspFlag, inheritedVSPDisInfo #if MTK_SPIVMP_F0110 , bSPIVMPFlag, pcMvFieldSP, puhInterDirSP #endif , numValidMergeCand ); #else pcSubCU->getInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, vspFlag, inheritedVSPDisInfo, numValidMergeCand ); #endif pcCU->setVSPFlagSubParts( vspFlag[uiMergeIndex], uiSubPartIdx, uiPartIdx, uiDepth ); if(vspFlag[uiMergeIndex]) { pcCU->setDvInfoSubParts(inheritedVSPDisInfo[uiMergeIndex].m_acDvInfo, uiSubPartIdx, uiPartIdx, uiDepth); } #else #if ETRIKHU_MERGE_REUSE_F0093 pcSubCU->initAvailableFlags(); pcSubCU->getInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand); pcSubCU->xGetInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand ); #else pcSubCU->getInterMergeCandidates( 0, 0, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand ); #endif #endif isMerged = true; } pcSubCU->setPartSizeSubParts( ePartSize, 0, uiDepth ); } else { uiMergeIndex = pcCU->getMergeIndex(uiSubPartIdx); #if H_3D_VSP Int vspFlag[MRG_MAX_NUM_CANDS_MEM]; memset(vspFlag, 0, sizeof(Int)*MRG_MAX_NUM_CANDS_MEM); InheritedVSPDisInfo inheritedVSPDisInfo[MRG_MAX_NUM_CANDS_MEM]; #if MTK_SPIVMP_F0110 memset(bSPIVMPFlag, false, sizeof(Bool)*MRG_MAX_NUM_CANDS_MEM); #endif #if ETRIKHU_MERGE_REUSE_F0093 pcSubCU->initAvailableFlags(); pcSubCU->getInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand, uiMergeIndex ); pcSubCU->xGetInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, vspFlag, inheritedVSPDisInfo #if MTK_SPIVMP_F0110 , bSPIVMPFlag, pcMvFieldSP, puhInterDirSP #endif ,numValidMergeCand, uiMergeIndex ); #else pcSubCU->getInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, vspFlag, inheritedVSPDisInfo,numValidMergeCand, uiMergeIndex ); #endif pcCU->setVSPFlagSubParts( vspFlag[uiMergeIndex], uiSubPartIdx, uiPartIdx, uiDepth ); if(vspFlag[uiMergeIndex]) { pcCU->setDvInfoSubParts(inheritedVSPDisInfo[uiMergeIndex].m_acDvInfo, uiSubPartIdx, uiPartIdx, uiDepth); } #else #if ETRIKHU_MERGE_REUSE_F0093 pcSubCU->initAvailableFlags(); pcSubCU->getInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand, uiMergeIndex ); pcSubCU->xGetInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand, uiMergeIndex ); #else pcSubCU->getInterMergeCandidates( uiSubPartIdx-uiAbsPartIdx, uiPartIdx, cMvFieldNeighbours, uhInterDirNeighbours, numValidMergeCand, uiMergeIndex ); #endif #endif } pcCU->setInterDirSubParts( uhInterDirNeighbours[uiMergeIndex], uiSubPartIdx, uiPartIdx, uiDepth ); TComMv cTmpMv( 0, 0 ); for ( UInt uiRefListIdx = 0; uiRefListIdx < 2; uiRefListIdx++ ) { if ( pcCU->getSlice()->getNumRefIdx( RefPicList( uiRefListIdx ) ) > 0 ) { pcCU->setMVPIdxSubParts( 0, RefPicList( uiRefListIdx ), uiSubPartIdx, uiPartIdx, uiDepth); pcCU->setMVPNumSubParts( 0, RefPicList( uiRefListIdx ), uiSubPartIdx, uiPartIdx, uiDepth); pcCU->getCUMvField( RefPicList( uiRefListIdx ) )->setAllMvd( cTmpMv, ePartSize, uiSubPartIdx, uiDepth, uiPartIdx ); pcCU->getCUMvField( RefPicList( uiRefListIdx ) )->setAllMvField( cMvFieldNeighbours[ 2*uiMergeIndex + uiRefListIdx ], ePartSize, uiSubPartIdx, uiDepth, uiPartIdx ); } } #if MTK_SPIVMP_F0110 pcCU->setSPIVMPFlagSubParts(bSPIVMPFlag[uiMergeIndex], uiSubPartIdx, uiPartIdx, uiDepth ); if (bSPIVMPFlag[uiMergeIndex] != 0) { Int iWidth, iHeight; UInt uiIdx; pcCU->getPartIndexAndSize( uiPartIdx, uiIdx, iWidth, iHeight, uiSubPartIdx, true ); UInt uiSPAddr; Int iNumSPInOneLine, iNumSP, iSPWidth, iSPHeight; pcCU->getSPPara(iWidth, iHeight, iNumSP, iNumSPInOneLine, iSPWidth, iSPHeight); for (Int iPartitionIdx = 0; iPartitionIdx < iNumSP; iPartitionIdx++) { pcCU->getSPAbsPartIdx(uiSubPartIdx, iSPWidth, iSPHeight, iPartitionIdx, iNumSPInOneLine, uiSPAddr); pcCU->setInterDirSP(puhInterDirSP[iPartitionIdx], uiSPAddr, iSPWidth, iSPHeight); pcCU->getCUMvField( REF_PIC_LIST_0 )->setMvFieldSP(pcCU, uiSPAddr, pcMvFieldSP[2*iPartitionIdx], iSPWidth, iSPHeight); pcCU->getCUMvField( REF_PIC_LIST_1 )->setMvFieldSP(pcCU, uiSPAddr, pcMvFieldSP[2*iPartitionIdx + 1], iSPWidth, iSPHeight); } } #endif } else { decodeInterDirPU( pcCU, uiSubPartIdx, uiDepth, uiPartIdx ); for ( UInt uiRefListIdx = 0; uiRefListIdx < 2; uiRefListIdx++ ) { if ( pcCU->getSlice()->getNumRefIdx( RefPicList( uiRefListIdx ) ) > 0 ) { decodeRefFrmIdxPU( pcCU, uiSubPartIdx, uiDepth, uiPartIdx, RefPicList( uiRefListIdx ) ); decodeMvdPU ( pcCU, uiSubPartIdx, uiDepth, uiPartIdx, RefPicList( uiRefListIdx ) ); decodeMVPIdxPU ( pcSubCU, uiSubPartIdx-uiAbsPartIdx, uiDepth, uiPartIdx, RefPicList( uiRefListIdx ) ); } } #if LGE_SHARP_VSP_INHERIT_F0104 #if H_3D_IC decodeICFlag( pcCU, uiAbsPartIdx, uiDepth ); #endif #if H_3D_ARP decodeARPW ( pcCU, uiAbsPartIdx, uiDepth ); #endif #endif } #if H_3D_VSP if ( (pcCU->getInterDir(uiSubPartIdx) == 3) && pcSubCU->isBipredRestriction(uiPartIdx) && (pcCU->getVSPFlag(uiSubPartIdx) == false)) #else if ( (pcCU->getInterDir(uiSubPartIdx) == 3) && pcSubCU->isBipredRestriction(uiPartIdx) ) #endif { pcCU->getCUMvField( REF_PIC_LIST_1 )->setAllMv( TComMv(0,0), ePartSize, uiSubPartIdx, uiDepth, uiPartIdx); pcCU->getCUMvField( REF_PIC_LIST_1 )->setAllRefIdx( -1, ePartSize, uiSubPartIdx, uiDepth, uiPartIdx); pcCU->setInterDirSubParts( 1, uiSubPartIdx, uiPartIdx, uiDepth); } } #if MTK_SPIVMP_F0110 #if MTK_F0110_FIX delete[] pcMvFieldSP; delete[] puhInterDirSP; #else delete pcMvFieldSP; delete puhInterDirSP; #endif #endif return; } /** decode inter direction for a PU block * \param pcCU * \param uiAbsPartIdx * \param uiDepth * \param uiPartIdx * \returns Void */ Void TDecEntropy::decodeInterDirPU( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, UInt uiPartIdx ) { UInt uiInterDir; if ( pcCU->getSlice()->isInterP() ) { uiInterDir = 1; } else { m_pcEntropyDecoderIf->parseInterDir( pcCU, uiInterDir, uiAbsPartIdx ); } pcCU->setInterDirSubParts( uiInterDir, uiAbsPartIdx, uiPartIdx, uiDepth ); } Void TDecEntropy::decodeRefFrmIdxPU( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, UInt uiPartIdx, RefPicList eRefList ) { Int iRefFrmIdx = 0; Int iParseRefFrmIdx = pcCU->getInterDir( uiAbsPartIdx ) & ( 1 << eRefList ); if ( pcCU->getSlice()->getNumRefIdx( eRefList ) > 1 && iParseRefFrmIdx ) { m_pcEntropyDecoderIf->parseRefFrmIdx( pcCU, iRefFrmIdx, eRefList ); } else if ( !iParseRefFrmIdx ) { iRefFrmIdx = NOT_VALID; } else { iRefFrmIdx = 0; } PartSize ePartSize = pcCU->getPartitionSize( uiAbsPartIdx ); pcCU->getCUMvField( eRefList )->setAllRefIdx( iRefFrmIdx, ePartSize, uiAbsPartIdx, uiDepth, uiPartIdx ); } /** decode motion vector difference for a PU block * \param pcCU * \param uiAbsPartIdx * \param uiDepth * \param uiPartIdx * \param eRefList * \returns Void */ Void TDecEntropy::decodeMvdPU( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, UInt uiPartIdx, RefPicList eRefList ) { if ( pcCU->getInterDir( uiAbsPartIdx ) & ( 1 << eRefList ) ) { m_pcEntropyDecoderIf->parseMvd( pcCU, uiAbsPartIdx, uiPartIdx, uiDepth, eRefList ); } } Void TDecEntropy::decodeMVPIdxPU( TComDataCU* pcSubCU, UInt uiPartAddr, UInt uiDepth, UInt uiPartIdx, RefPicList eRefList ) { Int iMVPIdx = -1; TComMv cZeroMv( 0, 0 ); TComMv cMv = cZeroMv; Int iRefIdx = -1; TComCUMvField* pcSubCUMvField = pcSubCU->getCUMvField( eRefList ); AMVPInfo* pAMVPInfo = pcSubCUMvField->getAMVPInfo(); iRefIdx = pcSubCUMvField->getRefIdx(uiPartAddr); cMv = cZeroMv; if ( (pcSubCU->getInterDir(uiPartAddr) & ( 1 << eRefList )) ) { m_pcEntropyDecoderIf->parseMVPIdx( iMVPIdx ); #if H_MV_ENC_DEC_TRAC #if ENC_DEC_TRACE if ( eRefList == REF_PIC_LIST_0 ) { DTRACE_PU("mvp_l0_flag", iMVPIdx) } else { DTRACE_PU("mvp_l1_flag", iMVPIdx) } #endif #endif } pcSubCU->fillMvpCand(uiPartIdx, uiPartAddr, eRefList, iRefIdx, pAMVPInfo); pcSubCU->setMVPNumSubParts(pAMVPInfo->iN, eRefList, uiPartAddr, uiPartIdx, uiDepth); pcSubCU->setMVPIdxSubParts( iMVPIdx, eRefList, uiPartAddr, uiPartIdx, uiDepth ); if ( iRefIdx >= 0 ) { m_pcPrediction->getMvPredAMVP( pcSubCU, uiPartIdx, uiPartAddr, eRefList, cMv); cMv += pcSubCUMvField->getMvd( uiPartAddr ); } PartSize ePartSize = pcSubCU->getPartitionSize( uiPartAddr ); pcSubCU->getCUMvField( eRefList )->setAllMv(cMv, ePartSize, uiPartAddr, 0, uiPartIdx); } Void TDecEntropy::xDecodeTransform( TComDataCU* pcCU, UInt offsetLuma, UInt offsetChroma, UInt uiAbsPartIdx, UInt uiDepth, UInt width, UInt height, UInt uiTrIdx, Bool& bCodeDQP) { UInt uiSubdiv; const UInt uiLog2TrafoSize = g_aucConvertToBit[pcCU->getSlice()->getSPS()->getMaxCUWidth()]+2 - uiDepth; if(uiTrIdx==0) { m_bakAbsPartIdxCU = uiAbsPartIdx; } if( uiLog2TrafoSize == 2 ) { UInt partNum = pcCU->getPic()->getNumPartInCU() >> ( ( uiDepth - 1 ) << 1 ); if( ( uiAbsPartIdx % partNum ) == 0 ) { m_uiBakAbsPartIdx = uiAbsPartIdx; m_uiBakChromaOffset = offsetChroma; } } if( pcCU->getPredictionMode(uiAbsPartIdx) == MODE_INTRA && pcCU->getPartitionSize(uiAbsPartIdx) == SIZE_NxN && uiDepth == pcCU->getDepth(uiAbsPartIdx) ) { uiSubdiv = 1; } else if( (pcCU->getSlice()->getSPS()->getQuadtreeTUMaxDepthInter() == 1) && (pcCU->getPredictionMode(uiAbsPartIdx) == MODE_INTER) && ( pcCU->getPartitionSize(uiAbsPartIdx) != SIZE_2Nx2N ) && (uiDepth == pcCU->getDepth(uiAbsPartIdx)) ) { uiSubdiv = (uiLog2TrafoSize > pcCU->getQuadtreeTULog2MinSizeInCU(uiAbsPartIdx)); } else if( uiLog2TrafoSize > pcCU->getSlice()->getSPS()->getQuadtreeTULog2MaxSize() ) { uiSubdiv = 1; } else if( uiLog2TrafoSize == pcCU->getSlice()->getSPS()->getQuadtreeTULog2MinSize() ) { uiSubdiv = 0; } else if( uiLog2TrafoSize == pcCU->getQuadtreeTULog2MinSizeInCU(uiAbsPartIdx) ) { uiSubdiv = 0; } else { assert( uiLog2TrafoSize > pcCU->getQuadtreeTULog2MinSizeInCU(uiAbsPartIdx) ); m_pcEntropyDecoderIf->parseTransformSubdivFlag( uiSubdiv, 5 - uiLog2TrafoSize ); } const UInt uiTrDepth = uiDepth - pcCU->getDepth( uiAbsPartIdx ); { const Bool bFirstCbfOfCU = uiTrDepth == 0; if( bFirstCbfOfCU ) { pcCU->setCbfSubParts( 0, TEXT_CHROMA_U, uiAbsPartIdx, uiDepth ); pcCU->setCbfSubParts( 0, TEXT_CHROMA_V, uiAbsPartIdx, uiDepth ); } if( bFirstCbfOfCU || uiLog2TrafoSize > 2 ) { if( bFirstCbfOfCU || pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_U, uiTrDepth - 1 ) ) { m_pcEntropyDecoderIf->parseQtCbf( pcCU, uiAbsPartIdx, TEXT_CHROMA_U, uiTrDepth, uiDepth ); } if( bFirstCbfOfCU || pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_V, uiTrDepth - 1 ) ) { m_pcEntropyDecoderIf->parseQtCbf( pcCU, uiAbsPartIdx, TEXT_CHROMA_V, uiTrDepth, uiDepth ); } } else { pcCU->setCbfSubParts( pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_U, uiTrDepth - 1 ) << uiTrDepth, TEXT_CHROMA_U, uiAbsPartIdx, uiDepth ); pcCU->setCbfSubParts( pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_V, uiTrDepth - 1 ) << uiTrDepth, TEXT_CHROMA_V, uiAbsPartIdx, uiDepth ); } } if( uiSubdiv ) { UInt size; width >>= 1; height >>= 1; size = width*height; uiTrIdx++; ++uiDepth; const UInt uiQPartNum = pcCU->getPic()->getNumPartInCU() >> (uiDepth << 1); const UInt uiStartAbsPartIdx = uiAbsPartIdx; UInt uiYCbf = 0; UInt uiUCbf = 0; UInt uiVCbf = 0; for( Int i = 0; i < 4; i++ ) { xDecodeTransform( pcCU, offsetLuma, offsetChroma, uiAbsPartIdx, uiDepth, width, height, uiTrIdx, bCodeDQP ); uiYCbf |= pcCU->getCbf( uiAbsPartIdx, TEXT_LUMA, uiTrDepth+1 ); uiUCbf |= pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_U, uiTrDepth+1 ); uiVCbf |= pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_V, uiTrDepth+1 ); uiAbsPartIdx += uiQPartNum; offsetLuma += size; offsetChroma += (size>>2); } for( UInt ui = 0; ui < 4 * uiQPartNum; ++ui ) { pcCU->getCbf( TEXT_LUMA )[uiStartAbsPartIdx + ui] |= uiYCbf << uiTrDepth; pcCU->getCbf( TEXT_CHROMA_U )[uiStartAbsPartIdx + ui] |= uiUCbf << uiTrDepth; pcCU->getCbf( TEXT_CHROMA_V )[uiStartAbsPartIdx + ui] |= uiVCbf << uiTrDepth; } } else { assert( uiDepth >= pcCU->getDepth( uiAbsPartIdx ) ); pcCU->setTrIdxSubParts( uiTrDepth, uiAbsPartIdx, uiDepth ); #if !H_MV_ENC_DEC_TRAC { DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tTrIdx: abspart=" ); DTRACE_CABAC_V( uiAbsPartIdx ); DTRACE_CABAC_T( "\tdepth=" ); DTRACE_CABAC_V( uiDepth ); DTRACE_CABAC_T( "\ttrdepth=" ); DTRACE_CABAC_V( uiTrDepth ); DTRACE_CABAC_T( "\n" ); } #endif pcCU->setCbfSubParts ( 0, TEXT_LUMA, uiAbsPartIdx, uiDepth ); if( pcCU->getPredictionMode(uiAbsPartIdx) != MODE_INTRA && uiDepth == pcCU->getDepth( uiAbsPartIdx ) && !pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_U, 0 ) && !pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_V, 0 ) ) { pcCU->setCbfSubParts( 1 << uiTrDepth, TEXT_LUMA, uiAbsPartIdx, uiDepth ); } else { m_pcEntropyDecoderIf->parseQtCbf( pcCU, uiAbsPartIdx, TEXT_LUMA, uiTrDepth, uiDepth ); } // transform_unit begin UInt cbfY = pcCU->getCbf( uiAbsPartIdx, TEXT_LUMA , uiTrIdx ); UInt cbfU = pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_U, uiTrIdx ); UInt cbfV = pcCU->getCbf( uiAbsPartIdx, TEXT_CHROMA_V, uiTrIdx ); if( uiLog2TrafoSize == 2 ) { UInt partNum = pcCU->getPic()->getNumPartInCU() >> ( ( uiDepth - 1 ) << 1 ); if( ( uiAbsPartIdx % partNum ) == (partNum - 1) ) { cbfU = pcCU->getCbf( m_uiBakAbsPartIdx, TEXT_CHROMA_U, uiTrIdx ); cbfV = pcCU->getCbf( m_uiBakAbsPartIdx, TEXT_CHROMA_V, uiTrIdx ); } } if ( cbfY || cbfU || cbfV ) { // dQP: only for LCU if ( pcCU->getSlice()->getPPS()->getUseDQP() ) { if ( bCodeDQP ) { decodeQP( pcCU, m_bakAbsPartIdxCU); bCodeDQP = false; } } } if( cbfY ) { Int trWidth = width; Int trHeight = height; m_pcEntropyDecoderIf->parseCoeffNxN( pcCU, (pcCU->getCoeffY()+offsetLuma), uiAbsPartIdx, trWidth, trHeight, uiDepth, TEXT_LUMA ); } if( uiLog2TrafoSize > 2 ) { Int trWidth = width >> 1; Int trHeight = height >> 1; if( cbfU ) { m_pcEntropyDecoderIf->parseCoeffNxN( pcCU, (pcCU->getCoeffCb()+offsetChroma), uiAbsPartIdx, trWidth, trHeight, uiDepth, TEXT_CHROMA_U ); } if( cbfV ) { m_pcEntropyDecoderIf->parseCoeffNxN( pcCU, (pcCU->getCoeffCr()+offsetChroma), uiAbsPartIdx, trWidth, trHeight, uiDepth, TEXT_CHROMA_V ); } } else { UInt partNum = pcCU->getPic()->getNumPartInCU() >> ( ( uiDepth - 1 ) << 1 ); if( ( uiAbsPartIdx % partNum ) == (partNum - 1) ) { Int trWidth = width; Int trHeight = height; if( cbfU ) { m_pcEntropyDecoderIf->parseCoeffNxN( pcCU, (pcCU->getCoeffCb()+m_uiBakChromaOffset), m_uiBakAbsPartIdx, trWidth, trHeight, uiDepth, TEXT_CHROMA_U ); } if( cbfV ) { m_pcEntropyDecoderIf->parseCoeffNxN( pcCU, (pcCU->getCoeffCr()+m_uiBakChromaOffset), m_uiBakAbsPartIdx, trWidth, trHeight, uiDepth, TEXT_CHROMA_V ); } } } // transform_unit end } } Void TDecEntropy::decodeQP ( TComDataCU* pcCU, UInt uiAbsPartIdx ) { if ( pcCU->getSlice()->getPPS()->getUseDQP() ) { m_pcEntropyDecoderIf->parseDeltaQP( pcCU, uiAbsPartIdx, pcCU->getDepth( uiAbsPartIdx ) ); } } /** decode coefficients * \param pcCU * \param uiAbsPartIdx * \param uiDepth * \param uiWidth * \param uiHeight * \returns Void */ Void TDecEntropy::decodeCoeff( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth, UInt uiWidth, UInt uiHeight, Bool& bCodeDQP ) { UInt uiMinCoeffSize = pcCU->getPic()->getMinCUWidth()*pcCU->getPic()->getMinCUHeight(); UInt uiLumaOffset = uiMinCoeffSize*uiAbsPartIdx; UInt uiChromaOffset = uiLumaOffset>>2; #if H_3D_DIM_SDC if( pcCU->getSDCFlag( uiAbsPartIdx ) ) { assert( pcCU->getPartitionSize(uiAbsPartIdx) == SIZE_2Nx2N ); assert( pcCU->getTransformIdx(uiAbsPartIdx) == 0 ); assert( pcCU->getCbf(uiAbsPartIdx, TEXT_LUMA) == 1 ); assert( pcCU->getCbf(uiAbsPartIdx, TEXT_CHROMA_U) == 1 ); assert( pcCU->getCbf(uiAbsPartIdx, TEXT_CHROMA_V) == 1 ); return; } #endif #if H_3D_INTER_SDC if( pcCU->getInterSDCFlag( uiAbsPartIdx ) ) { assert( !pcCU->isSkipped( uiAbsPartIdx ) ); assert( !pcCU->isIntra( uiAbsPartIdx) ); assert( pcCU->getSlice()->getIsDepth() ); decodeInterSDCResidualData( pcCU, uiAbsPartIdx, uiDepth ); return; } #endif if( pcCU->isIntra(uiAbsPartIdx) ) { } else { UInt uiQtRootCbf = 1; if( !( pcCU->getPartitionSize( uiAbsPartIdx) == SIZE_2Nx2N && pcCU->getMergeFlag( uiAbsPartIdx ) ) ) { m_pcEntropyDecoderIf->parseQtRootCbf( uiAbsPartIdx, uiQtRootCbf ); } if ( !uiQtRootCbf ) { pcCU->setCbfSubParts( 0, 0, 0, uiAbsPartIdx, uiDepth ); pcCU->setTrIdxSubParts( 0 , uiAbsPartIdx, uiDepth ); return; } } xDecodeTransform( pcCU, uiLumaOffset, uiChromaOffset, uiAbsPartIdx, uiDepth, uiWidth, uiHeight, 0, bCodeDQP ); } #if H_3D_INTER_SDC Void TDecEntropy::decodeInterSDCFlag( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { pcCU->setInterSDCFlagSubParts( false, uiAbsPartIdx, 0, uiDepth); if( !pcCU->getSlice()->getVPS()->getInterSDCFlag( pcCU->getSlice()->getLayerIdInVps() ) ) { return; } if( !pcCU->getSlice()->getIsDepth() || pcCU->isIntra( uiAbsPartIdx ) || pcCU->isSkipped( uiAbsPartIdx ) ) { return; } m_pcEntropyDecoderIf->parseInterSDCFlag( pcCU, uiAbsPartIdx, uiDepth ); } Void TDecEntropy::decodeInterSDCResidualData( TComDataCU* pcCU, UInt uiAbsPartIdx, UInt uiDepth ) { if( !pcCU->getSlice()->getVPS()->getInterSDCFlag( pcCU->getSlice()->getLayerIdInVps() ) ) { return; } if( !pcCU->getSlice()->getIsDepth() || pcCU->isIntra( uiAbsPartIdx ) || !pcCU->getInterSDCFlag( uiAbsPartIdx ) ) { return; } UInt uiNumSegments = ( pcCU->getPartitionSize( uiAbsPartIdx ) == SIZE_2Nx2N ) ? 1 : ( pcCU->getPartitionSize( uiAbsPartIdx ) == SIZE_NxN ? 4 : 2 ); // decode residual data for each segment for( UInt uiSeg = 0; uiSeg < uiNumSegments; uiSeg++ ) { m_pcEntropyDecoderIf->parseInterSDCResidualData( pcCU, uiAbsPartIdx, uiDepth, uiSeg ); } } #endif //! \}