/* 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) 2010-2014, 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 TEncTop.cpp \brief encoder class */ #include "TLibCommon/CommonDef.h" #include "TEncTop.h" #include "TEncPic.h" #if FAST_BIT_EST #include "TLibCommon/ContextModel.h" #endif //! \ingroup TLibEncoder //! \{ #if SVC_EXTENSION Int TEncTop::m_iSPSIdCnt = 0; Int TEncTop::m_iPPSIdCnt = 0; TComVPS TEncCfg::m_cVPS; #endif // ==================================================================================================================== // Constructor / destructor / create / destroy // ==================================================================================================================== TEncTop::TEncTop() { m_iPOCLast = -1; m_iNumPicRcvd = 0; m_uiNumAllPicCoded = 0; m_pppcRDSbacCoder = NULL; m_pppcBinCoderCABAC = NULL; m_cRDGoOnSbacCoder.init( &m_cRDGoOnBinCoderCABAC ); #if ENC_DEC_TRACE g_hTrace = fopen( "TraceEnc.txt", "wb" ); g_bJustDoIt = g_bEncDecTraceDisable; g_nSymbolCounter = 0; #endif m_iMaxRefPicNum = 0; #if FAST_BIT_EST ContextModel::buildNextStateTable(); #endif m_pcSbacCoders = NULL; m_pcBinCoderCABACs = NULL; m_ppppcRDSbacCoders = NULL; m_ppppcBinCodersCABAC = NULL; m_pcRDGoOnSbacCoders = NULL; m_pcRDGoOnBinCodersCABAC = NULL; m_pcBitCounters = NULL; m_pcRdCosts = NULL; #if SVC_EXTENSION memset(m_cIlpPic, 0, sizeof(m_cIlpPic)); #if REF_IDX_MFM m_bMFMEnabledFlag = false; #endif m_numScaledRefLayerOffsets = 0; #if POC_RESET_FLAG || POC_RESET_IDC_ENCODER m_pocAdjustmentValue = 0; #endif #if NO_CLRAS_OUTPUT_FLAG m_noClrasOutputFlag = false; m_layerInitializedFlag = false; m_firstPicInLayerDecodedFlag = false; m_noOutputOfPriorPicsFlags = false; #endif #if P0297_VPS_POC_LSB_ALIGNED_FLAG m_pocDecrementedInDPBFlag = false; #endif #endif //SVC_EXTENSION } TEncTop::~TEncTop() { #if ENC_DEC_TRACE fclose( g_hTrace ); #endif } Void TEncTop::create () { #if !SVC_EXTENSION // initialize global variables initROM(); #endif // create processing unit classes #if SVC_EXTENSION m_cGOPEncoder. create( m_layerId ); #else m_cGOPEncoder. create(); #endif #if AUXILIARY_PICTURES m_cSliceEncoder. create( getSourceWidth(), getSourceHeight(), m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #else m_cSliceEncoder. create( getSourceWidth(), getSourceHeight(), g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #endif m_cCuEncoder. create( g_uiMaxCUDepth, g_uiMaxCUWidth, g_uiMaxCUHeight ); if (m_bUseSAO) { #if AUXILIARY_PICTURES m_cEncSAO.create( getSourceWidth(), getSourceHeight(), m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #else m_cEncSAO.create( getSourceWidth(), getSourceHeight(), g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #endif #if SAO_ENCODE_ALLOW_USE_PREDEBLOCK m_cEncSAO.createEncData(getSaoLcuBoundary()); #else m_cEncSAO.createEncData(); #endif } #if ADAPTIVE_QP_SELECTION if (m_bUseAdaptQpSelect) { m_cTrQuant.initSliceQpDelta(); } #endif m_cLoopFilter. create( g_uiMaxCUDepth ); if ( m_RCEnableRateControl ) { m_cRateCtrl.init( m_framesToBeEncoded, m_RCTargetBitrate, m_iFrameRate, m_iGOPSize, m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, m_RCKeepHierarchicalBit, m_RCUseLCUSeparateModel, m_GOPList ); } m_pppcRDSbacCoder = new TEncSbac** [g_uiMaxCUDepth+1]; #if FAST_BIT_EST m_pppcBinCoderCABAC = new TEncBinCABACCounter** [g_uiMaxCUDepth+1]; #else m_pppcBinCoderCABAC = new TEncBinCABAC** [g_uiMaxCUDepth+1]; #endif for ( Int iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { m_pppcRDSbacCoder[iDepth] = new TEncSbac* [CI_NUM]; #if FAST_BIT_EST m_pppcBinCoderCABAC[iDepth] = new TEncBinCABACCounter* [CI_NUM]; #else m_pppcBinCoderCABAC[iDepth] = new TEncBinCABAC* [CI_NUM]; #endif for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ ) { m_pppcRDSbacCoder[iDepth][iCIIdx] = new TEncSbac; #if FAST_BIT_EST m_pppcBinCoderCABAC [iDepth][iCIIdx] = new TEncBinCABACCounter; #else m_pppcBinCoderCABAC [iDepth][iCIIdx] = new TEncBinCABAC; #endif m_pppcRDSbacCoder [iDepth][iCIIdx]->init( m_pppcBinCoderCABAC [iDepth][iCIIdx] ); } } #if LAYER_CTB memcpy(g_auiLayerZscanToRaster[m_layerId], g_auiZscanToRaster, sizeof( g_auiZscanToRaster ) ); memcpy(g_auiLayerRasterToZscan[m_layerId], g_auiRasterToZscan, sizeof( g_auiRasterToZscan ) ); memcpy(g_auiLayerRasterToPelX[m_layerId], g_auiRasterToPelX, sizeof( g_auiRasterToPelX ) ); memcpy(g_auiLayerRasterToPelY[m_layerId], g_auiRasterToPelY, sizeof( g_auiRasterToPelY ) ); #endif } /** - Allocate coders required for wavefront for the nominated number of substreams. . \param iNumSubstreams Determines how much information to allocate. */ Void TEncTop::createWPPCoders(Int iNumSubstreams) { if (m_pcSbacCoders != NULL) { return; // already generated. } m_iNumSubstreams = iNumSubstreams; m_pcSbacCoders = new TEncSbac [iNumSubstreams]; m_pcBinCoderCABACs = new TEncBinCABAC [iNumSubstreams]; m_pcRDGoOnSbacCoders = new TEncSbac [iNumSubstreams]; m_pcRDGoOnBinCodersCABAC = new TEncBinCABAC [iNumSubstreams]; m_pcBitCounters = new TComBitCounter [iNumSubstreams]; m_pcRdCosts = new TComRdCost [iNumSubstreams]; for ( UInt ui = 0 ; ui < iNumSubstreams; ui++ ) { m_pcRDGoOnSbacCoders[ui].init( &m_pcRDGoOnBinCodersCABAC[ui] ); m_pcSbacCoders[ui].init( &m_pcBinCoderCABACs[ui] ); } m_ppppcRDSbacCoders = new TEncSbac*** [iNumSubstreams]; m_ppppcBinCodersCABAC = new TEncBinCABAC***[iNumSubstreams]; for ( UInt ui = 0 ; ui < iNumSubstreams ; ui++ ) { m_ppppcRDSbacCoders[ui] = new TEncSbac** [g_uiMaxCUDepth+1]; m_ppppcBinCodersCABAC[ui]= new TEncBinCABAC** [g_uiMaxCUDepth+1]; for ( Int iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { m_ppppcRDSbacCoders[ui][iDepth] = new TEncSbac* [CI_NUM]; m_ppppcBinCodersCABAC[ui][iDepth]= new TEncBinCABAC* [CI_NUM]; for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ ) { m_ppppcRDSbacCoders [ui][iDepth][iCIIdx] = new TEncSbac; m_ppppcBinCodersCABAC[ui][iDepth][iCIIdx] = new TEncBinCABAC; m_ppppcRDSbacCoders [ui][iDepth][iCIIdx]->init( m_ppppcBinCodersCABAC[ui][iDepth][iCIIdx] ); } } } } Void TEncTop::destroy () { // destroy processing unit classes m_cGOPEncoder. destroy(); m_cSliceEncoder. destroy(); m_cCuEncoder. destroy(); if (m_cSPS.getUseSAO()) { m_cEncSAO.destroyEncData(); m_cEncSAO.destroy(); } m_cLoopFilter. destroy(); m_cRateCtrl. destroy(); Int iDepth; for ( iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ ) { delete m_pppcRDSbacCoder[iDepth][iCIIdx]; delete m_pppcBinCoderCABAC[iDepth][iCIIdx]; } } for ( iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { delete [] m_pppcRDSbacCoder[iDepth]; delete [] m_pppcBinCoderCABAC[iDepth]; } delete [] m_pppcRDSbacCoder; delete [] m_pppcBinCoderCABAC; for ( UInt ui = 0; ui < m_iNumSubstreams; ui++ ) { for ( iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ ) { delete m_ppppcRDSbacCoders [ui][iDepth][iCIIdx]; delete m_ppppcBinCodersCABAC[ui][iDepth][iCIIdx]; } } for ( iDepth = 0; iDepth < g_uiMaxCUDepth+1; iDepth++ ) { delete [] m_ppppcRDSbacCoders [ui][iDepth]; delete [] m_ppppcBinCodersCABAC[ui][iDepth]; } delete[] m_ppppcRDSbacCoders [ui]; delete[] m_ppppcBinCodersCABAC[ui]; } delete[] m_ppppcRDSbacCoders; delete[] m_ppppcBinCodersCABAC; delete[] m_pcSbacCoders; delete[] m_pcBinCoderCABACs; delete[] m_pcRDGoOnSbacCoders; delete[] m_pcRDGoOnBinCodersCABAC; delete[] m_pcBitCounters; delete[] m_pcRdCosts; #if SVC_EXTENSION for(Int i=0; idestroy(); delete m_cIlpPic[i]; m_cIlpPic[i] = NULL; } } #else // destroy ROM destroyROM(); #endif return; } Void TEncTop::init(Bool isFieldCoding) { // initialize SPS xInitSPS(); /* set the VPS profile information */ *m_cVPS.getPTL() = *m_cSPS.getPTL(); #if VPS_VUI_BSP_HRD_PARAMS m_cVPS.getTimingInfo()->setTimingInfoPresentFlag ( true ); #else m_cVPS.getTimingInfo()->setTimingInfoPresentFlag ( false ); #endif // initialize PPS m_cPPS.setSPS(&m_cSPS); xInitPPS(); xInitRPS(isFieldCoding); xInitPPSforTiles(); // initialize processing unit classes m_cGOPEncoder. init( this ); m_cSliceEncoder.init( this ); m_cCuEncoder. init( this ); // initialize transform & quantization class m_pcCavlcCoder = getCavlcCoder(); m_cTrQuant.init( 1 << m_uiQuadtreeTULog2MaxSize, m_useRDOQ, m_useRDOQTS, true ,m_useTransformSkipFast #if ADAPTIVE_QP_SELECTION , m_bUseAdaptQpSelect #endif ); // initialize encoder search class m_cSearch.init( this, &m_cTrQuant, m_iSearchRange, m_bipredSearchRange, m_iFastSearch, 0, &m_cEntropyCoder, &m_cRdCost, getRDSbacCoder(), getRDGoOnSbacCoder() ); m_iMaxRefPicNum = 0; #if SVC_EXTENSION m_iSPSIdCnt ++; m_iPPSIdCnt ++; xInitILRP(); #endif } // ==================================================================================================================== // Public member functions // ==================================================================================================================== Void TEncTop::deletePicBuffer() { TComList::iterator iterPic = m_cListPic.begin(); Int iSize = Int( m_cListPic.size() ); for ( Int i = 0; i < iSize; i++ ) { TComPic* pcPic = *(iterPic++); pcPic->destroy(); delete pcPic; pcPic = NULL; } } /** - Application has picture buffer list with size of GOP + 1 - Picture buffer list acts like as ring buffer - End of the list has the latest picture . \param flush cause encoder to encode a partial GOP \param pcPicYuvOrg original YUV picture \retval rcListPicYuvRecOut list of reconstruction YUV pictures \retval rcListBitstreamOut list of output bitstreams \retval iNumEncoded number of encoded pictures */ #if SVC_EXTENSION Void TEncTop::encode( TComPicYuv* pcPicYuvOrg, TComList& rcListPicYuvRecOut, std::list& accessUnitsOut, Int iPicIdInGOP ) { // compress GOP #if !RC_SHVC_HARMONIZATION if ( m_RCEnableRateControl ) { m_cRateCtrl.initRCGOP( m_iNumPicRcvd ); } #endif // compress GOP m_cGOPEncoder.compressGOP(iPicIdInGOP, m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, false, false); #if !RC_SHVC_HARMONIZATION if ( m_RCEnableRateControl ) { m_cRateCtrl.destroyRCGOP(); } #endif m_uiNumAllPicCoded ++; } Void TEncTop::encodePrep( TComPicYuv* pcPicYuvOrg ) { if (pcPicYuvOrg) { // get original YUV TComPic* pcPicCurr = NULL; xGetNewPicBuffer( pcPicCurr ); pcPicYuvOrg->copyToPic( pcPicCurr->getPicYuvOrg() ); // compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcPicCurr ) ); } } } #else Void TEncTop::encode(Bool flush, TComPicYuv* pcPicYuvOrg, TComList& rcListPicYuvRecOut, std::list& accessUnitsOut, Int& iNumEncoded ) { if (pcPicYuvOrg) { // get original YUV TComPic* pcPicCurr = NULL; xGetNewPicBuffer( pcPicCurr ); pcPicYuvOrg->copyToPic( pcPicCurr->getPicYuvOrg() ); // compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcPicCurr ) ); } } if (!m_iNumPicRcvd || (!flush && m_iPOCLast != 0 && m_iNumPicRcvd != m_iGOPSize && m_iGOPSize)) { iNumEncoded = 0; return; } if ( m_RCEnableRateControl ) { m_cRateCtrl.initRCGOP( m_iNumPicRcvd ); } // compress GOP m_cGOPEncoder.compressGOP(m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, false, false); if ( m_RCEnableRateControl ) { m_cRateCtrl.destroyRCGOP(); } iNumEncoded = m_iNumPicRcvd; m_iNumPicRcvd = 0; m_uiNumAllPicCoded += iNumEncoded; } #endif /**------------------------------------------------ Separate interlaced frame into two fields -------------------------------------------------**/ void separateFields(Pel* org, Pel* dstField, UInt stride, UInt width, UInt height, Bool isTop) { if (!isTop) { org += stride; } for (Int y = 0; y < height>>1; y++) { for (Int x = 0; x < width; x++) { dstField[x] = org[x]; } dstField += stride; org += stride*2; } } #if SVC_EXTENSION Void TEncTop::encodePrep( TComPicYuv* pcPicYuvOrg, Bool isTff ) { if (pcPicYuvOrg) { /* -- TOP FIELD -- */ /* -- Top field initialization -- */ TComPic *pcTopField; xGetNewPicBuffer( pcTopField ); pcTopField->setReconMark (false); pcTopField->getSlice(0)->setPOC( m_iPOCLast ); pcTopField->getPicYuvRec()->setBorderExtension(false); pcTopField->setTopField(isTff); Int nHeight = pcPicYuvOrg->getHeight(); Int nWidth = pcPicYuvOrg->getWidth(); Int nStride = pcPicYuvOrg->getStride(); Int nPadLuma = pcPicYuvOrg->getLumaMargin(); Int nPadChroma = pcPicYuvOrg->getChromaMargin(); // Get pointers Pel * PicBufY = pcPicYuvOrg->getBufY(); Pel * PicBufU = pcPicYuvOrg->getBufU(); Pel * PicBufV = pcPicYuvOrg->getBufV(); Pel * pcTopFieldY = pcTopField->getPicYuvOrg()->getLumaAddr(); Pel * pcTopFieldU = pcTopField->getPicYuvOrg()->getCbAddr(); Pel * pcTopFieldV = pcTopField->getPicYuvOrg()->getCrAddr(); // compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcTopField ) ); } /* -- Defield -- */ Bool isTop = isTff; separateFields(PicBufY + nPadLuma + nStride*nPadLuma, pcTopFieldY, nStride, nWidth, nHeight, isTop); separateFields(PicBufU + nPadChroma + (nStride >> 1)*nPadChroma, pcTopFieldU, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); separateFields(PicBufV + nPadChroma + (nStride >> 1)*nPadChroma, pcTopFieldV, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); /* -- BOTTOM FIELD -- */ /* -- Bottom field initialization -- */ TComPic* pcBottomField; xGetNewPicBuffer( pcBottomField ); pcBottomField->setReconMark (false); pcBottomField->getSlice(0)->setPOC( m_iPOCLast); pcBottomField->getPicYuvRec()->setBorderExtension(false); pcBottomField->setTopField(!isTff); nHeight = pcPicYuvOrg->getHeight(); nWidth = pcPicYuvOrg->getWidth(); nStride = pcPicYuvOrg->getStride(); nPadLuma = pcPicYuvOrg->getLumaMargin(); nPadChroma = pcPicYuvOrg->getChromaMargin(); // Get pointers PicBufY = pcPicYuvOrg->getBufY(); PicBufU = pcPicYuvOrg->getBufU(); PicBufV = pcPicYuvOrg->getBufV(); Pel * pcBottomFieldY = pcBottomField->getPicYuvOrg()->getLumaAddr(); Pel * pcBottomFieldU = pcBottomField->getPicYuvOrg()->getCbAddr(); Pel * pcBottomFieldV = pcBottomField->getPicYuvOrg()->getCrAddr(); // compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcBottomField ) ); } /* -- Defield -- */ isTop = !isTff; separateFields(PicBufY + nPadLuma + nStride*nPadLuma, pcBottomFieldY, nStride, nWidth, nHeight, isTop); separateFields(PicBufU + nPadChroma + (nStride >> 1)*nPadChroma, pcBottomFieldU, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); separateFields(PicBufV + nPadChroma + (nStride >> 1)*nPadChroma, pcBottomFieldV, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); } } Void TEncTop::encode( TComPicYuv* pcPicYuvOrg, TComList& rcListPicYuvRecOut, std::list& accessUnitsOut, Int iPicIdInGOP, Bool isTff ) { // compress GOP if (m_iPOCLast == 0) // compress field 0 { m_cGOPEncoder.compressGOP(iPicIdInGOP, m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff); } if (pcPicYuvOrg) { TComPicYuv* rpcPicYuvRec = new TComPicYuv; if ( rcListPicYuvRecOut.size() == (UInt)m_iGOPSize ) { rpcPicYuvRec = rcListPicYuvRecOut.popFront(); } else { #if AUXILIARY_PICTURES rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #else rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); #endif } rcListPicYuvRecOut.pushBack( rpcPicYuvRec ); } // compress GOP m_cGOPEncoder.compressGOP(iPicIdInGOP, m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff); m_uiNumAllPicCoded ++; } #else Void TEncTop::encode(Bool flush, TComPicYuv* pcPicYuvOrg, TComList& rcListPicYuvRecOut, std::list& accessUnitsOut, Int& iNumEncoded, Bool isTff) { /* -- TOP FIELD -- */ if (pcPicYuvOrg) { /* -- Top field initialization -- */ TComPic *pcTopField; xGetNewPicBuffer( pcTopField ); pcTopField->setReconMark (false); pcTopField->getSlice(0)->setPOC( m_iPOCLast ); pcTopField->getPicYuvRec()->setBorderExtension(false); pcTopField->setTopField(isTff); Int nHeight = pcPicYuvOrg->getHeight(); Int nWidth = pcPicYuvOrg->getWidth(); Int nStride = pcPicYuvOrg->getStride(); Int nPadLuma = pcPicYuvOrg->getLumaMargin(); Int nPadChroma = pcPicYuvOrg->getChromaMargin(); // Get pointers Pel * PicBufY = pcPicYuvOrg->getBufY(); Pel * PicBufU = pcPicYuvOrg->getBufU(); Pel * PicBufV = pcPicYuvOrg->getBufV(); Pel * pcTopFieldY = pcTopField->getPicYuvOrg()->getLumaAddr(); Pel * pcTopFieldU = pcTopField->getPicYuvOrg()->getCbAddr(); Pel * pcTopFieldV = pcTopField->getPicYuvOrg()->getCrAddr(); // compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcTopField ) ); } /* -- Defield -- */ Bool isTop = isTff; separateFields(PicBufY + nPadLuma + nStride*nPadLuma, pcTopFieldY, nStride, nWidth, nHeight, isTop); separateFields(PicBufU + nPadChroma + (nStride >> 1)*nPadChroma, pcTopFieldU, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); separateFields(PicBufV + nPadChroma + (nStride >> 1)*nPadChroma, pcTopFieldV, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); } if (m_iPOCLast == 0) // compress field 0 { m_cGOPEncoder.compressGOP(m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff); } /* -- BOTTOM FIELD -- */ if (pcPicYuvOrg) { /* -- Bottom field initialization -- */ TComPic* pcBottomField; xGetNewPicBuffer( pcBottomField ); pcBottomField->setReconMark (false); TComPicYuv* rpcPicYuvRec; if ( rcListPicYuvRecOut.size() == (UInt)m_iGOPSize ) { rpcPicYuvRec = rcListPicYuvRecOut.popFront(); } else { rpcPicYuvRec = new TComPicYuv; rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth ); } rcListPicYuvRecOut.pushBack( rpcPicYuvRec ); pcBottomField->getSlice(0)->setPOC( m_iPOCLast); pcBottomField->getPicYuvRec()->setBorderExtension(false); pcBottomField->setTopField(!isTff); int nHeight = pcPicYuvOrg->getHeight(); int nWidth = pcPicYuvOrg->getWidth(); int nStride = pcPicYuvOrg->getStride(); int nPadLuma = pcPicYuvOrg->getLumaMargin(); int nPadChroma = pcPicYuvOrg->getChromaMargin(); // Get pointers Pel * PicBufY = pcPicYuvOrg->getBufY(); Pel * PicBufU = pcPicYuvOrg->getBufU(); Pel * PicBufV = pcPicYuvOrg->getBufV(); Pel * pcBottomFieldY = pcBottomField->getPicYuvOrg()->getLumaAddr(); Pel * pcBottomFieldU = pcBottomField->getPicYuvOrg()->getCbAddr(); Pel * pcBottomFieldV = pcBottomField->getPicYuvOrg()->getCrAddr(); // Compute image characteristics if ( getUseAdaptiveQP() ) { m_cPreanalyzer.xPreanalyze( dynamic_cast( pcBottomField ) ); } /* -- Defield -- */ Bool isTop = !isTff; separateFields(PicBufY + nPadLuma + nStride*nPadLuma, pcBottomFieldY, nStride, nWidth, nHeight, isTop); separateFields(PicBufU + nPadChroma + (nStride >> 1)*nPadChroma, pcBottomFieldU, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); separateFields(PicBufV + nPadChroma + (nStride >> 1)*nPadChroma, pcBottomFieldV, nStride >> 1, nWidth >> 1, nHeight >> 1, isTop); } if ( ( !(m_iNumPicRcvd) || (!flush && m_iPOCLast != 1 && m_iNumPicRcvd != m_iGOPSize && m_iGOPSize)) ) { iNumEncoded = 0; return; } // compress GOP m_cGOPEncoder.compressGOP(m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff); iNumEncoded = m_iNumPicRcvd; m_iNumPicRcvd = 0; m_uiNumAllPicCoded += iNumEncoded; } #endif // ==================================================================================================================== // Protected member functions // ==================================================================================================================== /** - Application has picture buffer list with size of GOP + 1 - Picture buffer list acts like as ring buffer - End of the list has the latest picture . \retval rpcPic obtained picture buffer */ Void TEncTop::xGetNewPicBuffer ( TComPic*& rpcPic ) { TComSlice::sortPicList(m_cListPic); if (m_cListPic.size() >= (UInt)(m_iGOPSize + getMaxDecPicBuffering(MAX_TLAYER-1) + 2) ) { TComList::iterator iterPic = m_cListPic.begin(); Int iSize = Int( m_cListPic.size() ); for ( Int i = 0; i < iSize; i++ ) { rpcPic = *(iterPic++); if(rpcPic->getSlice(0)->isReferenced() == false) { break; } } } else { if ( getUseAdaptiveQP() ) { TEncPic* pcEPic = new TEncPic; #if SVC_EXTENSION //Temporal solution, should be modified if(m_layerId > 0) { for(UInt i = 0; i < m_cVPS.getNumDirectRefLayers( m_layerId ); i++ ) { #if MOVE_SCALED_OFFSET_TO_PPS #if O0098_SCALED_REF_LAYER_ID const Window scalEL = getPPS()->getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #else const Window scalEL = getPPS()->getScaledRefLayerWindow(i); #endif #else #if O0098_SCALED_REF_LAYER_ID const Window scalEL = getSPS()->getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #else const Window scalEL = getSPS()->getScaledRefLayerWindow(i); #endif #endif #if REF_REGION_OFFSET const Window altRL = getPPS()->getRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #if RESAMPLING_FIX Bool equalOffsets = scalEL.hasEqualOffset(altRL); #if R0209_GENERIC_PHASE Bool zeroPhase = getPPS()->hasZeroResamplingPhase(m_cVPS.getRefLayerId(m_layerId, i)); #endif #else Bool zeroOffsets = ( scalEL.getWindowLeftOffset() == 0 && scalEL.getWindowRightOffset() == 0 && scalEL.getWindowTopOffset() == 0 && scalEL.getWindowBottomOffset() == 0 && altRL.getWindowLeftOffset() == 0 && altRL.getWindowRightOffset() == 0 && altRL.getWindowTopOffset() == 0 && altRL.getWindowBottomOffset() == 0); #endif #else Bool zeroOffsets = ( scalEL.getWindowLeftOffset() == 0 && scalEL.getWindowRightOffset() == 0 && scalEL.getWindowTopOffset() == 0 && scalEL.getWindowBottomOffset() == 0 ); #endif #if VPS_EXTN_DIRECT_REF_LAYERS TEncTop *pcEncTopBase = (TEncTop *)getRefLayerEnc( i ); #else TEncTop *pcEncTopBase = (TEncTop *)getLayerEnc( m_layerId-1 ); #endif #if O0194_DIFFERENT_BITDEPTH_EL_BL UInt refLayerId = m_cVPS.getRefLayerId(m_layerId, i); Bool sameBitDepths = ( g_bitDepthYLayer[m_layerId] == g_bitDepthYLayer[refLayerId] ) && ( g_bitDepthCLayer[m_layerId] == g_bitDepthCLayer[refLayerId] ); #if REF_IDX_MFM if( m_iSourceWidth == pcEncTopBase->getSourceWidth() && m_iSourceHeight == pcEncTopBase->getSourceHeight() && equalOffsets && zeroPhase ) { pcEPic->setEqualPictureSizeAndOffsetFlag( i, true ); } if( !pcEPic->equalPictureSizeAndOffsetFlag(i) || !sameBitDepths #else if( m_iSourceWidth != pcEncTopBase->getSourceWidth() || m_iSourceHeight != pcEncTopBase->getSourceHeight() || !sameBitDepths #if REF_REGION_OFFSET && RESAMPLING_FIX || !equalOffsets #if R0209_GENERIC_PHASE || !zeroPhase #endif #else || !zeroOffsets #endif #endif #if Q0048_CGS_3D_ASYMLUT || m_cPPS.getCGSFlag() > 0 #endif #if LAYER_CTB || pcEncTopBase->getSPS()->getMaxCUWidth() != m_cSPS.getMaxCUWidth() || pcEncTopBase->getSPS()->getMaxCUHeight() != m_cSPS.getMaxCUHeight() || pcEncTopBase->getSPS()->getMaxCUDepth() != m_cSPS.getMaxCUDepth() #endif ) #else if(m_iSourceWidth != pcEncTopBase->getSourceWidth() || m_iSourceHeight != pcEncTopBase->getSourceHeight() #if REF_REGION_OFFSET && RESAMPLING_FIX || !equalOffsets #if R0209_GENERIC_PHASE || !zeroPhase #endif #else || !zeroOffsets #endif ) #endif { pcEPic->setSpatialEnhLayerFlag( i, true ); //only for scalable extension assert( m_cVPS.getScalabilityMask( SCALABILITY_ID ) == true ); } } } #endif #if SVC_EXTENSION #if AUXILIARY_PICTURES pcEPic->create( m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_cPPS.getMaxCuDQPDepth()+1 , m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics, &m_cSPS); #else pcEPic->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_cPPS.getMaxCuDQPDepth()+1 , m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics, &m_cSPS); #endif #else //SVC_EXTENSION pcEPic->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_cPPS.getMaxCuDQPDepth()+1 , m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics); #endif //SVC_EXTENSION rpcPic = pcEPic; } else { rpcPic = new TComPic; #if SVC_EXTENSION //Temporal solution, should be modified if(m_layerId > 0) { for(UInt i = 0; i < m_cVPS.getNumDirectRefLayers( m_layerId ); i++ ) { #if MOVE_SCALED_OFFSET_TO_PPS #if O0098_SCALED_REF_LAYER_ID const Window scalEL = getPPS()->getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #else const Window scalEL = getPPS()->getScaledRefLayerWindow(i); #endif #else #if O0098_SCALED_REF_LAYER_ID const Window scalEL = getSPS()->getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #else const Window scalEL = getSPS()->getScaledRefLayerWindow(i); #endif #endif #if REF_REGION_OFFSET const Window altRL = getPPS()->getRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i)); #if RESAMPLING_FIX Bool equalOffsets = scalEL.hasEqualOffset(altRL); #if R0209_GENERIC_PHASE Bool zeroPhase = getPPS()->hasZeroResamplingPhase(m_cVPS.getRefLayerId(m_layerId, i)); #endif #else Bool zeroOffsets = ( scalEL.getWindowLeftOffset() == 0 && scalEL.getWindowRightOffset() == 0 && scalEL.getWindowTopOffset() == 0 && scalEL.getWindowBottomOffset() == 0 && altRL.getWindowLeftOffset() == 0 && altRL.getWindowRightOffset() == 0 && altRL.getWindowTopOffset() == 0 && altRL.getWindowBottomOffset() == 0); #endif #else Bool zeroOffsets = ( scalEL.getWindowLeftOffset() == 0 && scalEL.getWindowRightOffset() == 0 && scalEL.getWindowTopOffset() == 0 && scalEL.getWindowBottomOffset() == 0 ); #endif #if VPS_EXTN_DIRECT_REF_LAYERS TEncTop *pcEncTopBase = (TEncTop *)getRefLayerEnc( i ); #else TEncTop *pcEncTopBase = (TEncTop *)getLayerEnc( m_layerId-1 ); #endif #if O0194_DIFFERENT_BITDEPTH_EL_BL UInt refLayerId = m_cVPS.getRefLayerId(m_layerId, i); Bool sameBitDepths = ( g_bitDepthYLayer[m_layerId] == g_bitDepthYLayer[refLayerId] ) && ( g_bitDepthCLayer[m_layerId] == g_bitDepthCLayer[refLayerId] ); if( m_iSourceWidth != pcEncTopBase->getSourceWidth() || m_iSourceHeight != pcEncTopBase->getSourceHeight() || !sameBitDepths #if REF_REGION_OFFSET && RESAMPLING_FIX || !equalOffsets #if R0209_GENERIC_PHASE || !zeroPhase #endif #else || !zeroOffsets #endif #if Q0048_CGS_3D_ASYMLUT || m_cPPS.getCGSFlag() > 0 #endif #if LAYER_CTB || pcEncTopBase->getSPS()->getMaxCUWidth() != m_cSPS.getMaxCUWidth() || pcEncTopBase->getSPS()->getMaxCUHeight() != m_cSPS.getMaxCUHeight() || pcEncTopBase->getSPS()->getMaxCUDepth() != m_cSPS.getMaxCUDepth() #endif ) #else if(m_iSourceWidth != pcEncTopBase->getSourceWidth() || m_iSourceHeight != pcEncTopBase->getSourceHeight() #if REF_REGION_OFFSET && RESAMPLING_FIX || !equalOffsets #if R0209_GENERIC_PHASE || !zeroPhase #endif #else || !zeroOffsets #endif ) #endif { rpcPic->setSpatialEnhLayerFlag( i, true ); //only for scalable extension assert( m_cVPS.getScalabilityMask( SCALABILITY_ID ) == true ); } } } #endif #if SVC_EXTENSION #if AUXILIARY_PICTURES rpcPic->create( m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics, &m_cSPS); #else rpcPic->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics, &m_cSPS); #endif #else //SVC_EXTENSION rpcPic->create( m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, m_conformanceWindow, m_defaultDisplayWindow, m_numReorderPics); #endif //SVC_EXTENSION } m_cListPic.pushBack( rpcPic ); } rpcPic->setReconMark (false); m_iPOCLast++; m_iNumPicRcvd++; rpcPic->getSlice(0)->setPOC( m_iPOCLast ); // mark it should be extended rpcPic->getPicYuvRec()->setBorderExtension(false); } Void TEncTop::xInitSPS() { #if SVC_EXTENSION m_cSPS.setExtensionFlag( m_layerId > 0 ? true : false ); #if R0042_PROFILE_INDICATION m_cSPS.setNumDirectRefLayers(m_numAddLayerSets); #endif #if Q0078_ADD_LAYER_SETS if( !m_numDirectRefLayers && m_numAddLayerSets ) { m_cSPS.setLayerId(0); // layer ID 0 for independent layers } else { m_cSPS.setLayerId(m_layerId); } #else m_cSPS.setLayerId(m_layerId); #endif #if !MOVE_SCALED_OFFSET_TO_PPS m_cSPS.setNumScaledRefLayerOffsets(m_numScaledRefLayerOffsets); for(Int i = 0; i < m_cSPS.getNumScaledRefLayerOffsets(); i++) { #if O0098_SCALED_REF_LAYER_ID m_cSPS.setScaledRefLayerId(i, m_scaledRefLayerId[i]); #endif m_cSPS.getScaledRefLayerWindow(i) = m_scaledRefLayerWindow[i]; #if P0312_VERT_PHASE_ADJ m_cSPS.setVertPhasePositionEnableFlag( m_scaledRefLayerId[i], m_scaledRefLayerWindow[i].getVertPhasePositionEnableFlag() ); #endif } #endif #endif //SVC_EXTENSION ProfileTierLevel& profileTierLevel = *m_cSPS.getPTL()->getGeneralPTL(); profileTierLevel.setLevelIdc(m_level); profileTierLevel.setTierFlag(m_levelTier); profileTierLevel.setProfileIdc(m_profile); profileTierLevel.setProfileCompatibilityFlag(m_profile, 1); profileTierLevel.setProgressiveSourceFlag(m_progressiveSourceFlag); profileTierLevel.setInterlacedSourceFlag(m_interlacedSourceFlag); profileTierLevel.setNonPackedConstraintFlag(m_nonPackedConstraintFlag); profileTierLevel.setFrameOnlyConstraintFlag(m_frameOnlyConstraintFlag); if (m_profile == Profile::MAIN10 && g_bitDepthY == 8 && g_bitDepthC == 8) { /* The above constraint is equal to Profile::MAIN */ profileTierLevel.setProfileCompatibilityFlag(Profile::MAIN, 1); } if (m_profile == Profile::MAIN) { /* A Profile::MAIN10 decoder can always decode Profile::MAIN */ profileTierLevel.setProfileCompatibilityFlag(Profile::MAIN10, 1); } /* XXX: should Main be marked as compatible with still picture? */ /* XXX: may be a good idea to refactor the above into a function * that chooses the actual compatibility based upon options */ m_cSPS.setPicWidthInLumaSamples ( m_iSourceWidth ); m_cSPS.setPicHeightInLumaSamples ( m_iSourceHeight ); m_cSPS.setConformanceWindow ( m_conformanceWindow ); m_cSPS.setMaxCUWidth ( g_uiMaxCUWidth ); m_cSPS.setMaxCUHeight ( g_uiMaxCUHeight ); m_cSPS.setMaxCUDepth ( g_uiMaxCUDepth ); #if AUXILIARY_PICTURES m_cSPS.setChromaFormatIdc( m_chromaFormatIDC); #endif Int minCUSize = m_cSPS.getMaxCUWidth() >> ( m_cSPS.getMaxCUDepth()-g_uiAddCUDepth ); Int log2MinCUSize = 0; while(minCUSize > 1) { minCUSize >>= 1; log2MinCUSize++; } m_cSPS.setLog2MinCodingBlockSize(log2MinCUSize); m_cSPS.setLog2DiffMaxMinCodingBlockSize(m_cSPS.getMaxCUDepth()-g_uiAddCUDepth); #if SVC_EXTENSION m_cSPS.setSPSId ( m_iSPSIdCnt ); #endif m_cSPS.setPCMLog2MinSize (m_uiPCMLog2MinSize); m_cSPS.setUsePCM ( m_usePCM ); m_cSPS.setPCMLog2MaxSize( m_pcmLog2MaxSize ); m_cSPS.setQuadtreeTULog2MaxSize( m_uiQuadtreeTULog2MaxSize ); m_cSPS.setQuadtreeTULog2MinSize( m_uiQuadtreeTULog2MinSize ); m_cSPS.setQuadtreeTUMaxDepthInter( m_uiQuadtreeTUMaxDepthInter ); m_cSPS.setQuadtreeTUMaxDepthIntra( m_uiQuadtreeTUMaxDepthIntra ); m_cSPS.setTMVPFlagsPresent(false); m_cSPS.setMaxTrSize ( 1 << m_uiQuadtreeTULog2MaxSize ); Int i; for (i = 0; i < g_uiMaxCUDepth-g_uiAddCUDepth; i++ ) { m_cSPS.setAMPAcc( i, m_useAMP ); //m_cSPS.setAMPAcc( i, 1 ); } m_cSPS.setUseAMP ( m_useAMP ); for (i = g_uiMaxCUDepth-g_uiAddCUDepth; i < g_uiMaxCUDepth; i++ ) { m_cSPS.setAMPAcc(i, 0); } #if REPN_FORMAT_IN_VPS m_cSPS.setBitDepthY( m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_layerId ) )->getBitDepthVpsLuma() ); m_cSPS.setBitDepthC( m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_layerId ) )->getBitDepthVpsChroma() ); m_cSPS.setQpBDOffsetY ( 6*(m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_layerId ) )->getBitDepthVpsLuma() - 8) ); m_cSPS.setQpBDOffsetC ( 6*(m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_layerId ) )->getBitDepthVpsChroma() - 8) ); #else m_cSPS.setBitDepthY( g_bitDepthY ); m_cSPS.setBitDepthC( g_bitDepthC ); m_cSPS.setQpBDOffsetY ( 6*(g_bitDepthY - 8) ); m_cSPS.setQpBDOffsetC ( 6*(g_bitDepthC - 8) ); #endif m_cSPS.setUseSAO( m_bUseSAO ); m_cSPS.setMaxTLayers( m_maxTempLayer ); m_cSPS.setTemporalIdNestingFlag( ( m_maxTempLayer == 1 ) ? true : false ); for ( i = 0; i < min(m_cSPS.getMaxTLayers(),(UInt) MAX_TLAYER); i++ ) { m_cSPS.setMaxDecPicBuffering(m_maxDecPicBuffering[i], i); m_cSPS.setNumReorderPics(m_numReorderPics[i], i); } m_cSPS.setPCMBitDepthLuma (g_uiPCMBitDepthLuma); m_cSPS.setPCMBitDepthChroma (g_uiPCMBitDepthChroma); m_cSPS.setPCMFilterDisableFlag ( m_bPCMFilterDisableFlag ); m_cSPS.setScalingListFlag ( (m_useScalingListId == 0) ? 0 : 1 ); m_cSPS.setUseStrongIntraSmoothing( m_useStrongIntraSmoothing ); m_cSPS.setVuiParametersPresentFlag(getVuiParametersPresentFlag()); if (m_cSPS.getVuiParametersPresentFlag()) { TComVUI* pcVUI = m_cSPS.getVuiParameters(); pcVUI->setAspectRatioInfoPresentFlag(getAspectRatioInfoPresentFlag()); pcVUI->setAspectRatioIdc(getAspectRatioIdc()); pcVUI->setSarWidth(getSarWidth()); pcVUI->setSarHeight(getSarHeight()); pcVUI->setOverscanInfoPresentFlag(getOverscanInfoPresentFlag()); pcVUI->setOverscanAppropriateFlag(getOverscanAppropriateFlag()); pcVUI->setVideoSignalTypePresentFlag(getVideoSignalTypePresentFlag()); pcVUI->setVideoFormat(getVideoFormat()); pcVUI->setVideoFullRangeFlag(getVideoFullRangeFlag()); pcVUI->setColourDescriptionPresentFlag(getColourDescriptionPresentFlag()); pcVUI->setColourPrimaries(getColourPrimaries()); pcVUI->setTransferCharacteristics(getTransferCharacteristics()); pcVUI->setMatrixCoefficients(getMatrixCoefficients()); pcVUI->setChromaLocInfoPresentFlag(getChromaLocInfoPresentFlag()); pcVUI->setChromaSampleLocTypeTopField(getChromaSampleLocTypeTopField()); pcVUI->setChromaSampleLocTypeBottomField(getChromaSampleLocTypeBottomField()); pcVUI->setNeutralChromaIndicationFlag(getNeutralChromaIndicationFlag()); pcVUI->setDefaultDisplayWindow(getDefaultDisplayWindow()); pcVUI->setFrameFieldInfoPresentFlag(getFrameFieldInfoPresentFlag()); pcVUI->setFieldSeqFlag(false); pcVUI->setHrdParametersPresentFlag(false); pcVUI->getTimingInfo()->setPocProportionalToTimingFlag(getPocProportionalToTimingFlag()); pcVUI->getTimingInfo()->setNumTicksPocDiffOneMinus1 (getNumTicksPocDiffOneMinus1() ); pcVUI->setBitstreamRestrictionFlag(getBitstreamRestrictionFlag()); pcVUI->setTilesFixedStructureFlag(getTilesFixedStructureFlag()); pcVUI->setMotionVectorsOverPicBoundariesFlag(getMotionVectorsOverPicBoundariesFlag()); pcVUI->setMinSpatialSegmentationIdc(getMinSpatialSegmentationIdc()); pcVUI->setMaxBytesPerPicDenom(getMaxBytesPerPicDenom()); pcVUI->setMaxBitsPerMinCuDenom(getMaxBitsPerMinCuDenom()); pcVUI->setLog2MaxMvLengthHorizontal(getLog2MaxMvLengthHorizontal()); pcVUI->setLog2MaxMvLengthVertical(getLog2MaxMvLengthVertical()); } } Void TEncTop::xInitPPS() { m_cPPS.setConstrainedIntraPred( m_bUseConstrainedIntraPred ); Bool bUseDQP = (getMaxCuDQPDepth() > 0)? true : false; if((getMaxDeltaQP() != 0 )|| getUseAdaptiveQP()) { bUseDQP = true; } if(bUseDQP) { m_cPPS.setUseDQP(true); m_cPPS.setMaxCuDQPDepth( m_iMaxCuDQPDepth ); m_cPPS.setMinCuDQPSize( m_cPPS.getSPS()->getMaxCUWidth() >> ( m_cPPS.getMaxCuDQPDepth()) ); } else { m_cPPS.setUseDQP(false); m_cPPS.setMaxCuDQPDepth( 0 ); m_cPPS.setMinCuDQPSize( m_cPPS.getSPS()->getMaxCUWidth() >> ( m_cPPS.getMaxCuDQPDepth()) ); } if ( m_RCEnableRateControl ) { m_cPPS.setUseDQP(true); m_cPPS.setMaxCuDQPDepth( 0 ); m_cPPS.setMinCuDQPSize( m_cPPS.getSPS()->getMaxCUWidth() >> ( m_cPPS.getMaxCuDQPDepth()) ); } m_cPPS.setChromaCbQpOffset( m_chromaCbQpOffset ); m_cPPS.setChromaCrQpOffset( m_chromaCrQpOffset ); m_cPPS.setNumSubstreams(m_iWaveFrontSubstreams); m_cPPS.setEntropyCodingSyncEnabledFlag( m_iWaveFrontSynchro > 0 ); m_cPPS.setTilesEnabledFlag( (m_iNumColumnsMinus1 > 0 || m_iNumRowsMinus1 > 0) ); m_cPPS.setUseWP( m_useWeightedPred ); m_cPPS.setWPBiPred( m_useWeightedBiPred ); m_cPPS.setOutputFlagPresentFlag( false ); m_cPPS.setSignHideFlag(getSignHideFlag()); if ( getDeblockingFilterMetric() ) { m_cPPS.setDeblockingFilterControlPresentFlag (true); m_cPPS.setDeblockingFilterOverrideEnabledFlag(true); m_cPPS.setPicDisableDeblockingFilterFlag(false); m_cPPS.setDeblockingFilterBetaOffsetDiv2(0); m_cPPS.setDeblockingFilterTcOffsetDiv2(0); } else { m_cPPS.setDeblockingFilterControlPresentFlag (m_DeblockingFilterControlPresent ); } m_cPPS.setLog2ParallelMergeLevelMinus2 (m_log2ParallelMergeLevelMinus2 ); m_cPPS.setCabacInitPresentFlag(CABAC_INIT_PRESENT_FLAG); m_cPPS.setLoopFilterAcrossSlicesEnabledFlag( m_bLFCrossSliceBoundaryFlag ); Int histogram[MAX_NUM_REF + 1]; for( Int i = 0; i <= MAX_NUM_REF; i++ ) { histogram[i]=0; } for( Int i = 0; i < getGOPSize(); i++ ) { assert(getGOPEntry(i).m_numRefPicsActive >= 0 && getGOPEntry(i).m_numRefPicsActive <= MAX_NUM_REF); histogram[getGOPEntry(i).m_numRefPicsActive]++; } Int maxHist=-1; Int bestPos=0; for( Int i = 0; i <= MAX_NUM_REF; i++ ) { if(histogram[i]>maxHist) { maxHist=histogram[i]; bestPos=i; } } assert(bestPos <= 15); m_cPPS.setNumRefIdxL0DefaultActive(bestPos); m_cPPS.setNumRefIdxL1DefaultActive(bestPos); m_cPPS.setTransquantBypassEnableFlag(getTransquantBypassEnableFlag()); m_cPPS.setUseTransformSkip( m_useTransformSkip ); if (m_sliceSegmentMode) { m_cPPS.setDependentSliceSegmentsEnabledFlag( true ); } if( m_cPPS.getDependentSliceSegmentsEnabledFlag() ) { Int NumCtx = m_cPPS.getEntropyCodingSyncEnabledFlag()?2:1; m_cSliceEncoder.initCtxMem( NumCtx ); for ( UInt st = 0; st < NumCtx; st++ ) { TEncSbac* ctx = NULL; ctx = new TEncSbac; ctx->init( &m_cBinCoderCABAC ); m_cSliceEncoder.setCtxMem( ctx, st ); } } #if SVC_EXTENSION #if SCALINGLIST_INFERRING m_cPPS.setLayerId( m_layerId ); #endif #if Q0078_ADD_LAYER_SETS if( !m_numDirectRefLayers && m_numAddLayerSets ) { m_cPPS.setLayerId(0); // layer ID 0 for independent layers } #endif if( m_layerId > 0 ) { m_cPPS.setListsModificationPresentFlag(true); m_cPPS.setExtensionFlag(true); } else { m_cPPS.setListsModificationPresentFlag(false); m_cPPS.setExtensionFlag(false); } m_cPPS.setPPSId( m_iPPSIdCnt ); m_cPPS.setSPSId( m_iSPSIdCnt ); #if POC_RESET_FLAG m_cPPS.setNumExtraSliceHeaderBits( 2 ); #endif #if O0149_CROSS_LAYER_BLA_FLAG if (m_crossLayerBLAFlag) { m_cPPS.setNumExtraSliceHeaderBits( 3 ); } #endif #if MOVE_SCALED_OFFSET_TO_PPS m_cPPS.setNumScaledRefLayerOffsets(m_numScaledRefLayerOffsets); for(Int i = 0; i < m_cPPS.getNumScaledRefLayerOffsets(); i++) { #if O0098_SCALED_REF_LAYER_ID m_cPPS.setScaledRefLayerId(i, m_scaledRefLayerId[i]); #endif m_cPPS.getScaledRefLayerWindow(i) = m_scaledRefLayerWindow[i]; #if REF_REGION_OFFSET m_cPPS.getRefLayerWindow(i) = m_refLayerWindow[i]; m_cPPS.setScaledRefLayerOffsetPresentFlag( m_scaledRefLayerId[i], m_scaledRefLayerOffsetPresentFlag[i] ); m_cPPS.setRefRegionOffsetPresentFlag( m_scaledRefLayerId[i], m_refRegionOffsetPresentFlag[i] ); #endif #if R0209_GENERIC_PHASE m_cPPS.setResamplePhaseSetPresentFlag( m_scaledRefLayerId[i], m_resamplePhaseSetPresentFlag[i] ); m_cPPS.setPhaseHorLuma( m_scaledRefLayerId[i], m_phaseHorLuma[i] ); m_cPPS.setPhaseVerLuma( m_scaledRefLayerId[i], m_phaseVerLuma[i] ); m_cPPS.setPhaseHorChroma( m_scaledRefLayerId[i], m_phaseHorChroma[i] ); m_cPPS.setPhaseVerChroma( m_scaledRefLayerId[i], m_phaseVerChroma[i] ); #endif #if P0312_VERT_PHASE_ADJ m_cPPS.setVertPhasePositionEnableFlag( m_scaledRefLayerId[i], m_scaledRefLayerWindow[i].getVertPhasePositionEnableFlag() ); #endif } #endif #if Q0048_CGS_3D_ASYMLUT m_cPPS.setCGSFlag( m_nCGSFlag ); #endif #if POC_RESET_IDC_ENCODER m_cPPS.setPocResetInfoPresentFlag( true ); m_cPPS.setExtensionFlag( true ); m_cPPS.setSliceHeaderExtensionPresentFlag( true ); #endif #endif //SVC_EXTENSION } //Function for initializing m_RPSList, a list of TComReferencePictureSet, based on the GOPEntry objects read from the config file. Void TEncTop::xInitRPS(Bool isFieldCoding) { TComReferencePictureSet* rps; m_cSPS.createRPSList(getGOPSize()+m_extraRPSs+1); TComRPSList* rpsList = m_cSPS.getRPSList(); for( Int i = 0; i < getGOPSize()+m_extraRPSs; i++) { GOPEntry ge = getGOPEntry(i); rps = rpsList->getReferencePictureSet(i); rps->setNumberOfPictures(ge.m_numRefPics); rps->setNumRefIdc(ge.m_numRefIdc); Int numNeg = 0; Int numPos = 0; for( Int j = 0; j < ge.m_numRefPics; j++) { rps->setDeltaPOC(j,ge.m_referencePics[j]); rps->setUsed(j,ge.m_usedByCurrPic[j]); if(ge.m_referencePics[j]>0) { numPos++; } else { numNeg++; } } rps->setNumberOfNegativePictures(numNeg); rps->setNumberOfPositivePictures(numPos); // handle inter RPS intialization from the config file. #if AUTO_INTER_RPS rps->setInterRPSPrediction(ge.m_interRPSPrediction > 0); // not very clean, converting anything > 0 to true. rps->setDeltaRIdxMinus1(0); // index to the Reference RPS is always the previous one. TComReferencePictureSet* RPSRef = rpsList->getReferencePictureSet(i-1); // get the reference RPS if (ge.m_interRPSPrediction == 2) // Automatic generation of the inter RPS idc based on the RIdx provided. { Int deltaRPS = getGOPEntry(i-1).m_POC - ge.m_POC; // the ref POC - current POC Int numRefDeltaPOC = RPSRef->getNumberOfPictures(); rps->setDeltaRPS(deltaRPS); // set delta RPS rps->setNumRefIdc(numRefDeltaPOC+1); // set the numRefIdc to the number of pictures in the reference RPS + 1. Int count=0; for (Int j = 0; j <= numRefDeltaPOC; j++ ) // cycle through pics in reference RPS. { Int RefDeltaPOC = (jgetDeltaPOC(j): 0; // if it is the last decoded picture, set RefDeltaPOC = 0 rps->setRefIdc(j, 0); for (Int k = 0; k < rps->getNumberOfPictures(); k++ ) // cycle through pics in current RPS. { if (rps->getDeltaPOC(k) == ( RefDeltaPOC + deltaRPS)) // if the current RPS has a same picture as the reference RPS. { rps->setRefIdc(j, (rps->getUsed(k)?1:2)); count++; break; } } } if (count != rps->getNumberOfPictures()) { printf("Warning: Unable fully predict all delta POCs using the reference RPS index given in the config file. Setting Inter RPS to false for this RPS.\n"); rps->setInterRPSPrediction(0); } } else if (ge.m_interRPSPrediction == 1) // inter RPS idc based on the RefIdc values provided in config file. { rps->setDeltaRPS(ge.m_deltaRPS); rps->setNumRefIdc(ge.m_numRefIdc); for (Int j = 0; j < ge.m_numRefIdc; j++ ) { rps->setRefIdc(j, ge.m_refIdc[j]); } #if WRITE_BACK // the folowing code overwrite the deltaPOC and Used by current values read from the config file with the ones // computed from the RefIdc. A warning is printed if they are not identical. numNeg = 0; numPos = 0; TComReferencePictureSet RPSTemp; // temporary variable for (Int j = 0; j < ge.m_numRefIdc; j++ ) { if (ge.m_refIdc[j]) { Int deltaPOC = ge.m_deltaRPS + ((j < RPSRef->getNumberOfPictures())? RPSRef->getDeltaPOC(j) : 0); RPSTemp.setDeltaPOC((numNeg+numPos),deltaPOC); RPSTemp.setUsed((numNeg+numPos),ge.m_refIdc[j]==1?1:0); if (deltaPOC<0) { numNeg++; } else { numPos++; } } } if (numNeg != rps->getNumberOfNegativePictures()) { printf("Warning: number of negative pictures in RPS is different between intra and inter RPS specified in the config file.\n"); rps->setNumberOfNegativePictures(numNeg); rps->setNumberOfPictures(numNeg+numPos); } if (numPos != rps->getNumberOfPositivePictures()) { printf("Warning: number of positive pictures in RPS is different between intra and inter RPS specified in the config file.\n"); rps->setNumberOfPositivePictures(numPos); rps->setNumberOfPictures(numNeg+numPos); } RPSTemp.setNumberOfPictures(numNeg+numPos); RPSTemp.setNumberOfNegativePictures(numNeg); RPSTemp.sortDeltaPOC(); // sort the created delta POC before comparing // check if Delta POC and Used are the same // print warning if they are not. for (Int j = 0; j < ge.m_numRefIdc; j++ ) { if (RPSTemp.getDeltaPOC(j) != rps->getDeltaPOC(j)) { printf("Warning: delta POC is different between intra RPS and inter RPS specified in the config file.\n"); rps->setDeltaPOC(j,RPSTemp.getDeltaPOC(j)); } if (RPSTemp.getUsed(j) != rps->getUsed(j)) { printf("Warning: Used by Current in RPS is different between intra and inter RPS specified in the config file.\n"); rps->setUsed(j,RPSTemp.getUsed(j)); } } #endif } #else rps->setInterRPSPrediction(ge.m_interRPSPrediction); if (ge.m_interRPSPrediction) { rps->setDeltaRIdxMinus1(0); rps->setDeltaRPS(ge.m_deltaRPS); rps->setNumRefIdc(ge.m_numRefIdc); for (Int j = 0; j < ge.m_numRefIdc; j++ ) { rps->setRefIdc(j, ge.m_refIdc[j]); } #if WRITE_BACK // the folowing code overwrite the deltaPOC and Used by current values read from the config file with the ones // computed from the RefIdc. This is not necessary if both are identical. Currently there is no check to see if they are identical. numNeg = 0; numPos = 0; TComReferencePictureSet* RPSRef = m_RPSList.getReferencePictureSet(i-1); for (Int j = 0; j < ge.m_numRefIdc; j++ ) { if (ge.m_refIdc[j]) { Int deltaPOC = ge.m_deltaRPS + ((j < RPSRef->getNumberOfPictures())? RPSRef->getDeltaPOC(j) : 0); rps->setDeltaPOC((numNeg+numPos),deltaPOC); rps->setUsed((numNeg+numPos),ge.m_refIdc[j]==1?1:0); if (deltaPOC<0) { numNeg++; } else { numPos++; } } } rps->setNumberOfNegativePictures(numNeg); rps->setNumberOfPositivePictures(numPos); rps->sortDeltaPOC(); #endif } #endif //INTER_RPS_AUTO } //In case of field coding, we need to set special parameters for the first bottom field of the sequence, since it is not specified in the cfg file. //The position = GOPSize + extraRPSs which is (a priori) unused is reserved for this field in the RPS. if (isFieldCoding) { rps = rpsList->getReferencePictureSet(getGOPSize()+m_extraRPSs); rps->setNumberOfPictures(1); rps->setNumberOfNegativePictures(1); rps->setNumberOfPositivePictures(0); rps->setNumberOfLongtermPictures(0); rps->setDeltaPOC(0,-1); rps->setPOC(0,0); rps->setUsed(0,true); rps->setInterRPSPrediction(false); rps->setDeltaRIdxMinus1(0); rps->setDeltaRPS(0); rps->setNumRefIdc(0); } } // This is a function that // determines what Reference Picture Set to use // for a specific slice (with POC = POCCurr) Void TEncTop::selectReferencePictureSet(TComSlice* slice, Int POCCurr, Int GOPid ) { slice->setRPSidx(GOPid); for(Int extraNum=m_iGOPSize; extraNum 0 && getDecodingRefreshType() > 0) { Int POCIndex = POCCurr%m_uiIntraPeriod; if(POCIndex == 0) { POCIndex = m_uiIntraPeriod; } if(POCIndex == m_GOPList[extraNum].m_POC) { slice->setRPSidx(extraNum); } } else { if(POCCurr==m_GOPList[extraNum].m_POC) { slice->setRPSidx(extraNum); } } } if(POCCurr == 1 && slice->getPic()->isField()) { slice->setRPSidx(m_iGOPSize+m_extraRPSs); } slice->setRPS(getSPS()->getRPSList()->getReferencePictureSet(slice->getRPSidx())); slice->getRPS()->setNumberOfPictures(slice->getRPS()->getNumberOfNegativePictures()+slice->getRPS()->getNumberOfPositivePictures()); } Int TEncTop::getReferencePictureSetIdxForSOP(TComSlice* slice, Int POCCurr, Int GOPid ) { int rpsIdx = GOPid; for(Int extraNum=m_iGOPSize; extraNum 0 && getDecodingRefreshType() > 0) { Int POCIndex = POCCurr%m_uiIntraPeriod; if(POCIndex == 0) { POCIndex = m_uiIntraPeriod; } if(POCIndex == m_GOPList[extraNum].m_POC) { rpsIdx = extraNum; } } else { if(POCCurr==m_GOPList[extraNum].m_POC) { rpsIdx = extraNum; } } } return rpsIdx; } Void TEncTop::xInitPPSforTiles() { m_cPPS.setTileUniformSpacingFlag( m_tileUniformSpacingFlag ); m_cPPS.setNumTileColumnsMinus1( m_iNumColumnsMinus1 ); m_cPPS.setNumTileRowsMinus1( m_iNumRowsMinus1 ); if( !m_tileUniformSpacingFlag ) { m_cPPS.setTileColumnWidth( m_tileColumnWidth ); m_cPPS.setTileRowHeight( m_tileRowHeight ); } m_cPPS.setLoopFilterAcrossTilesEnabledFlag( m_loopFilterAcrossTilesEnabledFlag ); // # substreams is "per tile" when tiles are independent. if (m_iWaveFrontSynchro ) { m_cPPS.setNumSubstreams(m_iWaveFrontSubstreams * (m_iNumColumnsMinus1+1)); } } Void TEncCfg::xCheckGSParameters() { Int iWidthInCU = ( m_iSourceWidth%g_uiMaxCUWidth ) ? m_iSourceWidth/g_uiMaxCUWidth + 1 : m_iSourceWidth/g_uiMaxCUWidth; Int iHeightInCU = ( m_iSourceHeight%g_uiMaxCUHeight ) ? m_iSourceHeight/g_uiMaxCUHeight + 1 : m_iSourceHeight/g_uiMaxCUHeight; UInt uiCummulativeColumnWidth = 0; UInt uiCummulativeRowHeight = 0; //check the column relative parameters if( m_iNumColumnsMinus1 >= (1<<(LOG2_MAX_NUM_COLUMNS_MINUS1+1)) ) { printf( "The number of columns is larger than the maximum allowed number of columns.\n" ); exit( EXIT_FAILURE ); } if( m_iNumColumnsMinus1 >= iWidthInCU ) { printf( "The current picture can not have so many columns.\n" ); exit( EXIT_FAILURE ); } if( m_iNumColumnsMinus1 && !m_tileUniformSpacingFlag ) { for(Int i=0; i= iWidthInCU ) { printf( "The width of the column is too large.\n" ); exit( EXIT_FAILURE ); } } //check the row relative parameters if( m_iNumRowsMinus1 >= (1<<(LOG2_MAX_NUM_ROWS_MINUS1+1)) ) { printf( "The number of rows is larger than the maximum allowed number of rows.\n" ); exit( EXIT_FAILURE ); } if( m_iNumRowsMinus1 >= iHeightInCU ) { printf( "The current picture can not have so many rows.\n" ); exit( EXIT_FAILURE ); } if( m_iNumRowsMinus1 && !m_tileUniformSpacingFlag ) { for(Int i=0; i= iHeightInCU ) { printf( "The height of the row is too large.\n" ); exit( EXIT_FAILURE ); } } } #if SVC_EXTENSION #if VPS_EXTN_DIRECT_REF_LAYERS TEncTop* TEncTop::getRefLayerEnc( UInt refLayerIdc ) { if( m_ppcTEncTop[m_layerId]->getNumDirectRefLayers() <= 0 ) { return (TEncTop *)getLayerEnc( 0 ); } return (TEncTop *)getLayerEnc( m_cVPS.getRefLayerId( m_layerId, refLayerIdc ) ); } #endif #if !REPN_FORMAT_IN_VPS Void TEncTop::xInitILRP() { if(m_layerId>0) { g_bitDepthY = m_cSPS.getBitDepthY(); g_bitDepthC = m_cSPS.getBitDepthC(); g_uiMaxCUWidth = m_cSPS.getMaxCUWidth(); g_uiMaxCUHeight = m_cSPS.getMaxCUHeight(); g_uiMaxCUDepth = m_cSPS.getMaxCUDepth(); g_uiAddCUDepth = max (0, m_cSPS.getLog2MinCodingBlockSize() - (Int)m_cSPS.getQuadtreeTULog2MinSize() ); Int numReorderPics[MAX_TLAYER]; Window &conformanceWindow = m_cSPS.getConformanceWindow(); Window defaultDisplayWindow = m_cSPS.getVuiParametersPresentFlag() ? m_cSPS.getVuiParameters()->getDefaultDisplayWindow() : Window(); if (m_cIlpPic[0] == NULL) { for (Int j=0; j < m_numLayer; j++) // consider to set to NumDirectRefLayers[LayerIdInVps[nuh_layer_id]] { m_cIlpPic[j] = new TComPic; #if AUXILIARY_PICTURES m_cIlpPic[j]->create(m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, conformanceWindow, defaultDisplayWindow, numReorderPics, &m_cSPS, true); #else m_cIlpPic[j]->create(m_iSourceWidth, m_iSourceHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, conformanceWindow, defaultDisplayWindow, numReorderPics, &m_cSPS, true); #endif for (Int i=0; igetPicSym()->getNumberOfCUsInFrame(); i++) { m_cIlpPic[j]->getPicSym()->getCU(i)->initCU(m_cIlpPic[j], i); } } } } } #else Void TEncTop::xInitILRP() { #if O0096_REP_FORMAT_INDEX RepFormat *repFormat = m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_cSPS.getUpdateRepFormatFlag() ? m_cSPS.getUpdateRepFormatIndex() : m_layerId ) ); #else RepFormat *repFormat = m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_layerId ) ); #endif Int bitDepthY,bitDepthC,picWidth,picHeight; #if O0096_REP_FORMAT_INDEX bitDepthY = repFormat->getBitDepthVpsLuma(); bitDepthC = repFormat->getBitDepthVpsChroma(); picWidth = repFormat->getPicWidthVpsInLumaSamples(); picHeight = repFormat->getPicHeightVpsInLumaSamples(); #else if( m_cSPS.getUpdateRepFormatFlag() ) { bitDepthY = m_cSPS.getBitDepthY(); bitDepthC = m_cSPS.getBitDepthC(); picWidth = m_cSPS.getPicWidthInLumaSamples(); picHeight = m_cSPS.getPicHeightInLumaSamples(); } else { bitDepthY = repFormat->getBitDepthVpsLuma(); bitDepthC = repFormat->getBitDepthVpsChroma(); picWidth = repFormat->getPicWidthVpsInLumaSamples(); picHeight = repFormat->getPicHeightVpsInLumaSamples(); } #endif if(m_layerId > 0) { g_bitDepthY = bitDepthY; g_bitDepthC = bitDepthC; g_uiMaxCUWidth = m_cSPS.getMaxCUWidth(); g_uiMaxCUHeight = m_cSPS.getMaxCUHeight(); g_uiMaxCUDepth = m_cSPS.getMaxCUDepth(); g_uiAddCUDepth = max (0, m_cSPS.getLog2MinCodingBlockSize() - (Int)m_cSPS.getQuadtreeTULog2MinSize() ); Int numReorderPics[MAX_TLAYER]; #if R0156_CONF_WINDOW_IN_REP_FORMAT Window &conformanceWindow = repFormat->getConformanceWindowVps(); #else Window &conformanceWindow = m_cSPS.getConformanceWindow(); #endif Window defaultDisplayWindow = m_cSPS.getVuiParametersPresentFlag() ? m_cSPS.getVuiParameters()->getDefaultDisplayWindow() : Window(); if (m_cIlpPic[0] == NULL) { for (Int j=0; j < m_numDirectRefLayers; j++) { m_cIlpPic[j] = new TComPic; #if AUXILIARY_PICTURES m_cIlpPic[j]->create(picWidth, picHeight, m_chromaFormatIDC, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, conformanceWindow, defaultDisplayWindow, numReorderPics, &m_cSPS, true); #else m_cIlpPic[j]->create(picWidth, picHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth, conformanceWindow, defaultDisplayWindow, numReorderPics, &m_cSPS, true); #endif for (Int i=0; igetPicSym()->getNumberOfCUsInFrame(); i++) { m_cIlpPic[j]->getPicSym()->getCU(i)->initCU(m_cIlpPic[j], i); } } } } } #endif #if O0098_SCALED_REF_LAYER_ID Window& TEncTop::getScaledRefLayerWindowForLayer(Int layerId) { static Window win; for (Int i = 0; i < m_numScaledRefLayerOffsets; i++) { if (layerId == m_scaledRefLayerId[i]) { return m_scaledRefLayerWindow[i]; } } win.resetWindow(); // scaled reference layer offsets are inferred to be zero when not present return win; } #if REF_REGION_OFFSET Window& TEncTop::getRefLayerWindowForLayer(Int layerId) { static Window win; for (Int i = 0; i < m_numScaledRefLayerOffsets; i++) { if (layerId == m_refLayerId[i]) { return m_refLayerWindow[i]; } } win.resetWindow(); // reference offsets are inferred to be zero when not present return win; } #endif #endif #endif //SVC_EXTENSION //! \}