/* 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 TComPic.cpp \brief picture class */ #include "TComPic.h" #include "SEI.h" //! \ingroup TLibCommon //! \{ // ==================================================================================================================== // Constructor / destructor / create / destroy // ==================================================================================================================== TComPic::TComPic() { m_uiTLayer = 0; m_apcPicSym = NULL; m_apcPicYuv[0] = NULL; m_apcPicYuv[1] = NULL; #if DEPTH_MAP_GENERATION m_pcPredDepthMap = NULL; #if PDM_REMOVE_DEPENDENCE m_pcPredDepthMap_temp = NULL; #endif #endif #if HHI_INTER_VIEW_MOTION_PRED m_pcOrgDepthMap = NULL; #endif #if HHI_INTER_VIEW_RESIDUAL_PRED m_pcResidual = NULL; #endif m_pcPicYuvPred = NULL; m_pcPicYuvResi = NULL; m_bIsLongTerm = false; m_bReconstructed = false; m_usedForTMVP = true; m_bNeededForOutput = false; m_pSliceSUMap = NULL; m_uiCurrSliceIdx = 0; #if HHI_INTERVIEW_SKIP m_pcUsedPelsMap = NULL; #endif #if SONY_COLPIC_AVAILABILITY m_iViewOrderIdx = 0; #endif m_aaiCodedScale = 0; m_aaiCodedOffset = 0; #if QC_SIMPLE_NBDV_B0047 m_bRapCheck = false; m_eRapRefList = REF_PIC_LIST_0; m_uiRapRefIdx = 0; #endif } TComPic::~TComPic() { } Void TComPic::create( Int iWidth, Int iHeight, UInt uiMaxWidth, UInt uiMaxHeight, UInt uiMaxDepth, Bool bIsVirtual ) { m_apcPicSym = new TComPicSym; m_apcPicSym ->create( iWidth, iHeight, uiMaxWidth, uiMaxHeight, uiMaxDepth ); if (!bIsVirtual) { m_apcPicYuv[0] = new TComPicYuv; m_apcPicYuv[0]->create( iWidth, iHeight, uiMaxWidth, uiMaxHeight, uiMaxDepth ); } m_apcPicYuv[1] = new TComPicYuv; m_apcPicYuv[1]->create( iWidth, iHeight, uiMaxWidth, uiMaxHeight, uiMaxDepth ); /* there are no SEI messages associated with this picture initially */ m_SEIs = NULL; m_bUsedByCurr = false; return; } Void TComPic::destroy() { if (m_apcPicSym) { m_apcPicSym->destroy(); delete m_apcPicSym; m_apcPicSym = NULL; } if (m_apcPicYuv[0]) { m_apcPicYuv[0]->destroy(); delete m_apcPicYuv[0]; m_apcPicYuv[0] = NULL; } if (m_apcPicYuv[1]) { m_apcPicYuv[1]->destroy(); delete m_apcPicYuv[1]; m_apcPicYuv[1] = NULL; } #if HHI_INTERVIEW_SKIP if( m_pcUsedPelsMap ) { m_pcUsedPelsMap->destroy(); delete m_pcUsedPelsMap; m_pcUsedPelsMap = NULL; } #endif #if DEPTH_MAP_GENERATION if( m_pcPredDepthMap ) { m_pcPredDepthMap->destroy(); delete m_pcPredDepthMap; m_pcPredDepthMap = NULL; } #if PDM_REMOVE_DEPENDENCE if( m_pcPredDepthMap_temp ) // estimated depth map { m_pcPredDepthMap_temp->destroy(); delete m_pcPredDepthMap_temp; m_pcPredDepthMap_temp = NULL; } #endif #endif #if HHI_INTER_VIEW_MOTION_PRED if( m_pcOrgDepthMap ) { m_pcOrgDepthMap->destroy(); delete m_pcOrgDepthMap; m_pcOrgDepthMap = NULL; } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED if( m_pcResidual ) { m_pcResidual->destroy(); delete m_pcResidual; m_pcResidual = NULL; } #endif delete m_SEIs; } Void TComPic::compressMotion() { TComPicSym* pPicSym = getPicSym(); for ( UInt uiCUAddr = 0; uiCUAddr < pPicSym->getFrameHeightInCU()*pPicSym->getFrameWidthInCU(); uiCUAddr++ ) { TComDataCU* pcCU = pPicSym->getCU(uiCUAddr); pcCU->compressMV(); } } #if DEPTH_MAP_GENERATION Void TComPic::addPrdDepthMapBuffer( UInt uiSubSampExpX, UInt uiSubSampExpY ) { AOT( m_pcPredDepthMap ); AOF( m_apcPicYuv[1] ); Int iWidth = m_apcPicYuv[1]->getWidth (); Int iHeight = m_apcPicYuv[1]->getHeight (); UInt uiMaxCuWidth = m_apcPicYuv[1]->getMaxCuWidth (); UInt uiMaxCuHeight = m_apcPicYuv[1]->getMaxCuHeight(); UInt uiMaxCuDepth = m_apcPicYuv[1]->getMaxCuDepth (); m_pcPredDepthMap = new TComPicYuv; m_pcPredDepthMap ->create( iWidth >> uiSubSampExpX, iHeight >> uiSubSampExpY, uiMaxCuWidth >> uiSubSampExpX, uiMaxCuHeight >> uiSubSampExpY, uiMaxCuDepth ); #if PDM_REMOVE_DEPENDENCE m_pcPredDepthMap_temp = new TComPicYuv; m_pcPredDepthMap_temp ->create( iWidth >> uiSubSampExpX, iHeight >> uiSubSampExpY, uiMaxCuWidth >> uiSubSampExpX, uiMaxCuHeight >> uiSubSampExpY, uiMaxCuDepth ); #endif } #endif #if HHI_INTER_VIEW_MOTION_PRED Void TComPic::addOrgDepthMapBuffer() { AOT( m_pcOrgDepthMap ); AOF( m_apcPicYuv[1] ); Int iWidth = m_apcPicYuv[1]->getWidth (); Int iHeight = m_apcPicYuv[1]->getHeight (); UInt uiMaxCuWidth = m_apcPicYuv[1]->getMaxCuWidth (); UInt uiMaxCuHeight = m_apcPicYuv[1]->getMaxCuHeight(); UInt uiMaxCuDepth = m_apcPicYuv[1]->getMaxCuDepth (); m_pcOrgDepthMap = new TComPicYuv; m_pcOrgDepthMap ->create( iWidth, iHeight, uiMaxCuWidth, uiMaxCuHeight, uiMaxCuDepth ); } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Void TComPic::addResidualBuffer() { AOT( m_pcResidual ); AOF( m_apcPicYuv[1] ); Int iWidth = m_apcPicYuv[1]->getWidth (); Int iHeight = m_apcPicYuv[1]->getHeight (); UInt uiMaxCuWidth = m_apcPicYuv[1]->getMaxCuWidth (); UInt uiMaxCuHeight = m_apcPicYuv[1]->getMaxCuHeight(); UInt uiMaxCuDepth = m_apcPicYuv[1]->getMaxCuDepth (); m_pcResidual = new TComPicYuv; m_pcResidual ->create( iWidth, iHeight, uiMaxCuWidth, uiMaxCuHeight, uiMaxCuDepth ); } #endif #if DEPTH_MAP_GENERATION Void TComPic::removePrdDepthMapBuffer() { if( m_pcPredDepthMap ) { m_pcPredDepthMap->destroy(); delete m_pcPredDepthMap; m_pcPredDepthMap = NULL; } #if PDM_REMOVE_DEPENDENCE if(m_pcPredDepthMap_temp) { m_pcPredDepthMap_temp->destroy(); delete m_pcPredDepthMap_temp; m_pcPredDepthMap_temp = NULL; } #endif } #endif #if HHI_INTER_VIEW_MOTION_PRED Void TComPic::removeOrgDepthMapBuffer() { if( m_pcOrgDepthMap ) { m_pcOrgDepthMap->destroy(); delete m_pcOrgDepthMap; m_pcOrgDepthMap = NULL; } } #endif #if HHI_INTER_VIEW_RESIDUAL_PRED Void TComPic::removeResidualBuffer() { if( m_pcResidual ) { m_pcResidual->destroy(); delete m_pcResidual; m_pcResidual = NULL; } } #endif /** Create non-deblocked filter information * \param pSliceStartAddress array for storing slice start addresses * \param numSlices number of slices in picture * \param sliceGranularityDepth slice granularity * \param bNDBFilterCrossSliceBoundary cross-slice-boundary in-loop filtering; true for "cross". * \param numTiles number of tiles in picture * \param bNDBFilterCrossTileBoundary cross-tile-boundary in-loop filtering; true for "cross". */ Void TComPic::createNonDBFilterInfo(UInt* pSliceStartAddress, Int numSlices, Int sliceGranularityDepth ,Bool bNDBFilterCrossSliceBoundary ,Int numTiles ,Bool bNDBFilterCrossTileBoundary) { UInt maxNumSUInLCU = getNumPartInCU(); UInt numLCUInPic = getNumCUsInFrame(); UInt picWidth = getSlice(0)->getSPS()->getPicWidthInLumaSamples(); UInt picHeight = getSlice(0)->getSPS()->getPicHeightInLumaSamples(); Int numLCUsInPicWidth = getFrameWidthInCU(); Int numLCUsInPicHeight= getFrameHeightInCU(); UInt maxNumSUInLCUWidth = getNumPartInWidth(); UInt maxNumSUInLCUHeight= getNumPartInHeight(); m_bIndependentSliceBoundaryForNDBFilter = (bNDBFilterCrossSliceBoundary)?(false):((numSlices > 1)?(true):(false)) ; m_sliceGranularityForNDBFilter = sliceGranularityDepth; m_bIndependentTileBoundaryForNDBFilter = (bNDBFilterCrossTileBoundary)?(false) :((numTiles > 1)?(true):(false)); m_pbValidSlice = new Bool[numSlices]; for(Int s=0; s< numSlices; s++) { m_pbValidSlice[s] = true; } #if !LCU_SYNTAX_ALF if( pSliceStartAddress == NULL || (numSlices == 1 && numTiles == 1) ) { return; } #endif m_pSliceSUMap = new Int[maxNumSUInLCU * numLCUInPic]; //initialization for(UInt i=0; i< (maxNumSUInLCU * numLCUInPic); i++ ) { m_pSliceSUMap[i] = -1; } for( UInt CUAddr = 0; CUAddr < numLCUInPic ; CUAddr++ ) { TComDataCU* pcCU = getCU( CUAddr ); pcCU->setSliceSUMap(m_pSliceSUMap + (CUAddr* maxNumSUInLCU)); pcCU->getNDBFilterBlocks()->clear(); } m_vSliceCUDataLink.clear(); m_vSliceCUDataLink.resize(numSlices); UInt startAddr, endAddr, firstCUInStartLCU, startLCU, endLCU, lastCUInEndLCU, uiAddr; UInt LPelX, TPelY, LCUX, LCUY; UInt currSU; UInt startSU, endSU; for(Int s=0; s< numSlices; s++) { //1st step: decide the real start address startAddr = pSliceStartAddress[s]; endAddr = pSliceStartAddress[s+1] -1; startLCU = startAddr / maxNumSUInLCU; firstCUInStartLCU = startAddr % maxNumSUInLCU; endLCU = endAddr / maxNumSUInLCU; lastCUInEndLCU = endAddr % maxNumSUInLCU; uiAddr = m_apcPicSym->getCUOrderMap(startLCU); LCUX = getCU(uiAddr)->getCUPelX(); LCUY = getCU(uiAddr)->getCUPelY(); LPelX = LCUX + g_auiRasterToPelX[ g_auiZscanToRaster[firstCUInStartLCU] ]; TPelY = LCUY + g_auiRasterToPelY[ g_auiZscanToRaster[firstCUInStartLCU] ]; currSU = firstCUInStartLCU; Bool bMoveToNextLCU = false; Bool bSliceInOneLCU = (startLCU == endLCU); while(!( LPelX < picWidth ) || !( TPelY < picHeight )) { currSU ++; if(bSliceInOneLCU) { if(currSU > lastCUInEndLCU) { m_pbValidSlice[s] = false; break; } } if(currSU >= maxNumSUInLCU ) { bMoveToNextLCU = true; break; } LPelX = LCUX + g_auiRasterToPelX[ g_auiZscanToRaster[currSU] ]; TPelY = LCUY + g_auiRasterToPelY[ g_auiZscanToRaster[currSU] ]; } if(!m_pbValidSlice[s]) { continue; } if(currSU != firstCUInStartLCU) { if(!bMoveToNextLCU) { firstCUInStartLCU = currSU; } else { startLCU++; firstCUInStartLCU = 0; assert( startLCU < getNumCUsInFrame()); } assert(startLCU*maxNumSUInLCU + firstCUInStartLCU < endAddr); } //2nd step: assign NonDBFilterInfo to each processing block for(UInt i= startLCU; i <= endLCU; i++) { startSU = (i == startLCU)?(firstCUInStartLCU):(0); endSU = (i == endLCU )?(lastCUInEndLCU ):(maxNumSUInLCU -1); uiAddr = m_apcPicSym->getCUOrderMap(i); Int iTileID= m_apcPicSym->getTileIdxMap(uiAddr); TComDataCU* pcCU = getCU(uiAddr); m_vSliceCUDataLink[s].push_back(pcCU); createNonDBFilterInfoLCU(iTileID, s, pcCU, startSU, endSU, m_sliceGranularityForNDBFilter, picWidth, picHeight); } } //step 3: border availability for(Int s=0; s< numSlices; s++) { if(!m_pbValidSlice[s]) { continue; } for(Int i=0; i< m_vSliceCUDataLink[s].size(); i++) { TComDataCU* pcCU = m_vSliceCUDataLink[s][i]; uiAddr = pcCU->getAddr(); if(pcCU->getPic()==0) { continue; } Int iTileID= m_apcPicSym->getTileIdxMap(uiAddr); Bool bTopTileBoundary = false, bDownTileBoundary= false, bLeftTileBoundary= false, bRightTileBoundary= false; if(m_bIndependentTileBoundaryForNDBFilter) { //left if( uiAddr % numLCUsInPicWidth != 0) { bLeftTileBoundary = ( m_apcPicSym->getTileIdxMap(uiAddr -1) != iTileID )?true:false; } //right if( (uiAddr % numLCUsInPicWidth) != (numLCUsInPicWidth -1) ) { bRightTileBoundary = ( m_apcPicSym->getTileIdxMap(uiAddr +1) != iTileID)?true:false; } //top if( uiAddr >= numLCUsInPicWidth) { bTopTileBoundary = (m_apcPicSym->getTileIdxMap(uiAddr - numLCUsInPicWidth) != iTileID )?true:false; } //down if( uiAddr + numLCUsInPicWidth < numLCUInPic ) { bDownTileBoundary = (m_apcPicSym->getTileIdxMap(uiAddr + numLCUsInPicWidth) != iTileID)?true:false; } } pcCU->setNDBFilterBlockBorderAvailability(numLCUsInPicWidth, numLCUsInPicHeight, maxNumSUInLCUWidth, maxNumSUInLCUHeight,picWidth, picHeight ,m_bIndependentSliceBoundaryForNDBFilter ,bTopTileBoundary, bDownTileBoundary, bLeftTileBoundary, bRightTileBoundary ,m_bIndependentTileBoundaryForNDBFilter); } } if( m_bIndependentSliceBoundaryForNDBFilter || m_bIndependentTileBoundaryForNDBFilter) { m_pNDBFilterYuvTmp = new TComPicYuv(); m_pNDBFilterYuvTmp->create(picWidth, picHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth); } } #if QC_SIMPLE_NBDV_B0047 Bool TComPic::getDisCandRefPictures(Int iColPOC) { UInt uiTempLayerCurr=7; TComSlice* currSlice = getCurrSlice(); UInt iPOCCurr=currSlice->getPOC(); UInt iPOCDiff = 255; Bool bRAP=false; Bool bCheck = false; Int MaxRef = currSlice->getNumRefIdx(RefPicList(0)); RefPicList eRefPicList = REF_PIC_LIST_0 ; if(currSlice->isInterB()) { if(currSlice->getNumRefIdx(RefPicList(0))< currSlice->getNumRefIdx(RefPicList(1))) MaxRef = currSlice->getNumRefIdx(RefPicList(1)); } for(Int lpRef = 0; lpRef < MaxRef; lpRef++) { for(Int lpNr = 0; lpNr < (currSlice->isInterB() ? 2: 1); lpNr ++) { eRefPicList = RefPicList(0); if(currSlice->isInterB()) eRefPicList = RefPicList(lpNr==0 ? (currSlice->getColDir()): (1-currSlice->getColDir())); if(iColPOC == currSlice->getRefPOC(eRefPicList, lpRef)) continue; if(lpRef >= currSlice->getNumRefIdx(eRefPicList)||(currSlice->getViewId() != currSlice->getRefPic( eRefPicList, lpRef)->getViewId())) continue; Int iTempPoc = currSlice->getRefPic(eRefPicList, lpRef)->getPOC(); UInt uiTempLayer = currSlice->getRefPic(eRefPicList, lpRef)->getCurrSlice()->getTLayer(); Int iTempDiff = (iTempPoc > iPOCCurr) ? (iTempPoc - iPOCCurr): (iPOCCurr - iTempPoc); bRAP = (currSlice->getRefPic(eRefPicList, lpRef)->getCurrSlice()->getNalUnitType() == NAL_UNIT_CODED_SLICE_IDV? 1:0); if( bRAP) { bCheck = true; this->setRapRefIdx(lpRef); this->setRapRefList(eRefPicList); return bCheck; } if(uiTempLayerCurr > uiTempLayer) { bCheck = true; if(uiTempLayerCurr == uiTempLayer) { if(iPOCDiff > iTempDiff) { iPOCDiff=iTempDiff; if(iPOCDiff < 255) { this->setRapRefIdx(lpRef); this->setRapRefList(eRefPicList); } } } else { iPOCDiff=iTempDiff; uiTempLayerCurr = uiTempLayer; this->setRapRefIdx(lpRef); this->setRapRefList(eRefPicList); } } } } return bCheck; } #endif #if HHI_INTERVIEW_SKIP Void TComPic::addUsedPelsMapBuffer() { AOT( m_pcUsedPelsMap ); AOF( m_apcPicYuv[1] ); Int iWidth = m_apcPicYuv[1]->getWidth (); Int iHeight = m_apcPicYuv[1]->getHeight (); UInt uiMaxCuWidth = m_apcPicSym->getMaxCUWidth(); UInt uiMaxCuHeight = m_apcPicSym->getMaxCUHeight(); UInt uiMaxCuDepth = m_apcPicSym->getMaxCUDepth (); m_pcUsedPelsMap = new TComPicYuv; m_pcUsedPelsMap ->create( iWidth, iHeight, uiMaxCuWidth, uiMaxCuHeight, uiMaxCuDepth ); } Void TComPic::removeUsedPelsMapBuffer() { if( m_pcUsedPelsMap ) { m_pcUsedPelsMap->destroy(); delete m_pcUsedPelsMap; m_pcUsedPelsMap = NULL; } } #endif /** Create non-deblocked filter information for LCU * \param tileID tile index * \param sliceID slice index * \param pcCU CU data pointer * \param startSU start SU index in LCU * \param endSU end SU index in LCU * \param sliceGranularyDepth slice granularity * \param picWidth picture width * \param picHeight picture height */ Void TComPic::createNonDBFilterInfoLCU(Int tileID, Int sliceID, TComDataCU* pcCU, UInt startSU, UInt endSU, Int sliceGranularyDepth, UInt picWidth, UInt picHeight) { UInt LCUX = pcCU->getCUPelX(); UInt LCUY = pcCU->getCUPelY(); Int* pCUSliceMap = pcCU->getSliceSUMap(); UInt maxNumSUInLCU = getNumPartInCU(); UInt maxNumSUInSGU = maxNumSUInLCU >> (sliceGranularyDepth << 1); UInt maxNumSUInLCUWidth = getNumPartInWidth(); UInt LPelX, TPelY; UInt currSU; //get the number of valid NBFilterBLock currSU = startSU; while(currSU <= endSU) { LPelX = LCUX + g_auiRasterToPelX[ g_auiZscanToRaster[currSU] ]; TPelY = LCUY + g_auiRasterToPelY[ g_auiZscanToRaster[currSU] ]; while(!( LPelX < picWidth ) || !( TPelY < picHeight )) { currSU += maxNumSUInSGU; if(currSU >= maxNumSUInLCU || currSU > endSU) { break; } LPelX = LCUX + g_auiRasterToPelX[ g_auiZscanToRaster[currSU] ]; TPelY = LCUY + g_auiRasterToPelY[ g_auiZscanToRaster[currSU] ]; } if(currSU >= maxNumSUInLCU || currSU > endSU) { break; } NDBFBlockInfo NDBFBlock; NDBFBlock.tileID = tileID; NDBFBlock.sliceID = sliceID; NDBFBlock.posY = TPelY; NDBFBlock.posX = LPelX; NDBFBlock.startSU = currSU; UInt uiLastValidSU = currSU; UInt uiIdx, uiLPelX_su, uiTPelY_su; for(uiIdx = currSU; uiIdx < currSU + maxNumSUInSGU; uiIdx++) { if(uiIdx > endSU) { break; } uiLPelX_su = LCUX + g_auiRasterToPelX[ g_auiZscanToRaster[uiIdx] ]; uiTPelY_su = LCUY + g_auiRasterToPelY[ g_auiZscanToRaster[uiIdx] ]; if( !(uiLPelX_su < picWidth ) || !( uiTPelY_su < picHeight )) { continue; } pCUSliceMap[uiIdx] = sliceID; uiLastValidSU = uiIdx; } NDBFBlock.endSU = uiLastValidSU; UInt rTLSU = g_auiZscanToRaster[ NDBFBlock.startSU ]; UInt rBRSU = g_auiZscanToRaster[ NDBFBlock.endSU ]; NDBFBlock.widthSU = (rBRSU % maxNumSUInLCUWidth) - (rTLSU % maxNumSUInLCUWidth)+ 1; NDBFBlock.heightSU = (UInt)(rBRSU / maxNumSUInLCUWidth) - (UInt)(rTLSU / maxNumSUInLCUWidth)+ 1; NDBFBlock.width = NDBFBlock.widthSU * getMinCUWidth(); NDBFBlock.height = NDBFBlock.heightSU * getMinCUHeight(); pcCU->getNDBFilterBlocks()->push_back(NDBFBlock); currSU += maxNumSUInSGU; } } /** destroy non-deblocked filter information for LCU */ Void TComPic::destroyNonDBFilterInfo() { if(m_pbValidSlice != NULL) { delete[] m_pbValidSlice; m_pbValidSlice = NULL; } if(m_pSliceSUMap != NULL) { delete[] m_pSliceSUMap; m_pSliceSUMap = NULL; } for( UInt CUAddr = 0; CUAddr < getNumCUsInFrame() ; CUAddr++ ) { TComDataCU* pcCU = getCU( CUAddr ); pcCU->getNDBFilterBlocks()->clear(); } if( m_bIndependentSliceBoundaryForNDBFilter || m_bIndependentTileBoundaryForNDBFilter) { m_pNDBFilterYuvTmp->destroy(); delete m_pNDBFilterYuvTmp; m_pNDBFilterYuvTmp = NULL; } } //! \}