/* 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 TDecSlice.cpp \brief slice decoder class */ #include "TDecSlice.h" //! \ingroup TLibDecoder //! \{ #if SVC_EXTENSION ParameterSetMap ParameterSetManagerDecoder::m_vpsBuffer(MAX_NUM_VPS); #endif ////////////////////////////////////////////////////////////////////// // Construction/Destruction ////////////////////////////////////////////////////////////////////// TDecSlice::TDecSlice() { m_pcBufferSbacDecoders = NULL; m_pcBufferBinCABACs = NULL; m_pcBufferLowLatSbacDecoders = NULL; m_pcBufferLowLatBinCABACs = NULL; } TDecSlice::~TDecSlice() { for (std::vector::iterator i = CTXMem.begin(); i != CTXMem.end(); i++) { delete (*i); } CTXMem.clear(); } Void TDecSlice::initCtxMem( UInt i ) { for (std::vector::iterator j = CTXMem.begin(); j != CTXMem.end(); j++) { delete (*j); } CTXMem.clear(); CTXMem.resize(i); } Void TDecSlice::create() { } Void TDecSlice::destroy() { if ( m_pcBufferSbacDecoders ) { delete[] m_pcBufferSbacDecoders; m_pcBufferSbacDecoders = NULL; } if ( m_pcBufferBinCABACs ) { delete[] m_pcBufferBinCABACs; m_pcBufferBinCABACs = NULL; } if ( m_pcBufferLowLatSbacDecoders ) { delete[] m_pcBufferLowLatSbacDecoders; m_pcBufferLowLatSbacDecoders = NULL; } if ( m_pcBufferLowLatBinCABACs ) { delete[] m_pcBufferLowLatBinCABACs; m_pcBufferLowLatBinCABACs = NULL; } } #if SVC_EXTENSION Void TDecSlice::init(TDecTop** ppcDecTop,TDecEntropy* pcEntropyDecoder, TDecCu* pcCuDecoder) { m_pcEntropyDecoder = pcEntropyDecoder; m_pcCuDecoder = pcCuDecoder; m_ppcTDecTop = ppcDecTop; } #else Void TDecSlice::init(TDecEntropy* pcEntropyDecoder, TDecCu* pcCuDecoder) { m_pcEntropyDecoder = pcEntropyDecoder; m_pcCuDecoder = pcCuDecoder; } #endif Void TDecSlice::decompressSlice(TComInputBitstream** ppcSubstreams, TComPic*& rpcPic, TDecSbac* pcSbacDecoder, TDecSbac* pcSbacDecoders) { TComDataCU* pcCU; UInt uiIsLast = 0; Int iStartCUEncOrder = max(rpcPic->getSlice(rpcPic->getCurrSliceIdx())->getSliceCurStartCUAddr()/rpcPic->getNumPartInCU(), rpcPic->getSlice(rpcPic->getCurrSliceIdx())->getSliceSegmentCurStartCUAddr()/rpcPic->getNumPartInCU()); Int iStartCUAddr = rpcPic->getPicSym()->getCUOrderMap(iStartCUEncOrder); // decoder don't need prediction & residual frame buffer rpcPic->setPicYuvPred( 0 ); rpcPic->setPicYuvResi( 0 ); #if ENC_DEC_TRACE g_bJustDoIt = g_bEncDecTraceEnable; #endif DTRACE_CABAC_VL( g_nSymbolCounter++ ); DTRACE_CABAC_T( "\tPOC: " ); DTRACE_CABAC_V( rpcPic->getPOC() ); DTRACE_CABAC_T( "\n" ); #if ENC_DEC_TRACE g_bJustDoIt = g_bEncDecTraceDisable; #endif UInt uiTilesAcross = rpcPic->getPicSym()->getNumColumnsMinus1()+1; TComSlice* pcSlice = rpcPic->getSlice(rpcPic->getCurrSliceIdx()); Int iNumSubstreams = pcSlice->getPPS()->getNumSubstreams(); // delete decoders if already allocated in previous slice if (m_pcBufferSbacDecoders) { delete [] m_pcBufferSbacDecoders; } if (m_pcBufferBinCABACs) { delete [] m_pcBufferBinCABACs; } // allocate new decoders based on tile numbaer m_pcBufferSbacDecoders = new TDecSbac [uiTilesAcross]; m_pcBufferBinCABACs = new TDecBinCABAC[uiTilesAcross]; for (UInt ui = 0; ui < uiTilesAcross; ui++) { m_pcBufferSbacDecoders[ui].init(&m_pcBufferBinCABACs[ui]); } //save init. state for (UInt ui = 0; ui < uiTilesAcross; ui++) { m_pcBufferSbacDecoders[ui].load(pcSbacDecoder); } // free memory if already allocated in previous call if (m_pcBufferLowLatSbacDecoders) { delete [] m_pcBufferLowLatSbacDecoders; } if (m_pcBufferLowLatBinCABACs) { delete [] m_pcBufferLowLatBinCABACs; } m_pcBufferLowLatSbacDecoders = new TDecSbac [uiTilesAcross]; m_pcBufferLowLatBinCABACs = new TDecBinCABAC[uiTilesAcross]; for (UInt ui = 0; ui < uiTilesAcross; ui++) { m_pcBufferLowLatSbacDecoders[ui].init(&m_pcBufferLowLatBinCABACs[ui]); } //save init. state for (UInt ui = 0; ui < uiTilesAcross; ui++) { m_pcBufferLowLatSbacDecoders[ui].load(pcSbacDecoder); } UInt uiWidthInLCUs = rpcPic->getPicSym()->getFrameWidthInCU(); //UInt uiHeightInLCUs = rpcPic->getPicSym()->getFrameHeightInCU(); UInt uiCol=0, uiLin=0, uiSubStrm=0; UInt uiTileCol; UInt uiTileStartLCU; UInt uiTileLCUX; Int iNumSubstreamsPerTile = 1; // if independent. #if INTRA_BL m_pcCuDecoder->setBaseRecPic( rpcPic->getLayerId() > 0 ? rpcPic->getFullPelBaseRec(rpcPic->getLayerId()-1) : NULL); #endif Bool depSliceSegmentsEnabled = rpcPic->getSlice(rpcPic->getCurrSliceIdx())->getPPS()->getDependentSliceSegmentsEnabledFlag(); uiTileStartLCU = rpcPic->getPicSym()->getTComTile(rpcPic->getPicSym()->getTileIdxMap(iStartCUAddr))->getFirstCUAddr(); if( depSliceSegmentsEnabled ) { if( (!rpcPic->getSlice(rpcPic->getCurrSliceIdx())->isNextSlice()) && iStartCUAddr != rpcPic->getPicSym()->getTComTile(rpcPic->getPicSym()->getTileIdxMap(iStartCUAddr))->getFirstCUAddr()) { if(pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag()) { uiTileCol = rpcPic->getPicSym()->getTileIdxMap(iStartCUAddr) % (rpcPic->getPicSym()->getNumColumnsMinus1()+1); m_pcBufferSbacDecoders[uiTileCol].loadContexts( CTXMem[1] );//2.LCU if ( (iStartCUAddr%uiWidthInLCUs+1) >= uiWidthInLCUs ) { uiTileLCUX = uiTileStartLCU % uiWidthInLCUs; uiCol = iStartCUAddr % uiWidthInLCUs; if(uiCol==uiTileLCUX) { CTXMem[0]->loadContexts(pcSbacDecoder); } } } pcSbacDecoder->loadContexts(CTXMem[0] ); //end of depSlice-1 pcSbacDecoders[uiSubStrm].loadContexts(pcSbacDecoder); } else { if(pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag()) { CTXMem[1]->loadContexts(pcSbacDecoder); } CTXMem[0]->loadContexts(pcSbacDecoder); } } for( Int iCUAddr = iStartCUAddr; !uiIsLast && iCUAddr < rpcPic->getNumCUsInFrame(); iCUAddr = rpcPic->getPicSym()->xCalculateNxtCUAddr(iCUAddr) ) { pcCU = rpcPic->getCU( iCUAddr ); pcCU->initCU( rpcPic, iCUAddr ); uiTileCol = rpcPic->getPicSym()->getTileIdxMap(iCUAddr) % (rpcPic->getPicSym()->getNumColumnsMinus1()+1); // what column of tiles are we in? uiTileStartLCU = rpcPic->getPicSym()->getTComTile(rpcPic->getPicSym()->getTileIdxMap(iCUAddr))->getFirstCUAddr(); uiTileLCUX = uiTileStartLCU % uiWidthInLCUs; uiCol = iCUAddr % uiWidthInLCUs; // The 'line' is now relative to the 1st line in the slice, not the 1st line in the picture. uiLin = (iCUAddr/uiWidthInLCUs)-(iStartCUAddr/uiWidthInLCUs); // inherit from TR if necessary, select substream to use. if( (pcSlice->getPPS()->getNumSubstreams() > 1) || ( depSliceSegmentsEnabled && (uiCol == uiTileLCUX)&&(pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag()) )) { // independent tiles => substreams are "per tile". iNumSubstreams has already been multiplied. iNumSubstreamsPerTile = iNumSubstreams/rpcPic->getPicSym()->getNumTiles(); uiSubStrm = rpcPic->getPicSym()->getTileIdxMap(iCUAddr)*iNumSubstreamsPerTile + uiLin%iNumSubstreamsPerTile; m_pcEntropyDecoder->setBitstream( ppcSubstreams[uiSubStrm] ); // Synchronize cabac probabilities with upper-right LCU if it's available and we're at the start of a line. if (((pcSlice->getPPS()->getNumSubstreams() > 1) || depSliceSegmentsEnabled ) && (uiCol == uiTileLCUX)&&(pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag())) { // We'll sync if the TR is available. TComDataCU *pcCUUp = pcCU->getCUAbove(); UInt uiWidthInCU = rpcPic->getFrameWidthInCU(); TComDataCU *pcCUTR = NULL; if ( pcCUUp && ((iCUAddr%uiWidthInCU+1) < uiWidthInCU) ) { pcCUTR = rpcPic->getCU( iCUAddr - uiWidthInCU + 1 ); } UInt uiMaxParts = 1<<(pcSlice->getSPS()->getMaxCUDepth()<<1); if ( (true/*bEnforceSliceRestriction*/ && ((pcCUTR==NULL) || (pcCUTR->getSlice()==NULL) || ((pcCUTR->getSCUAddr()+uiMaxParts-1) < pcSlice->getSliceCurStartCUAddr()) || ((rpcPic->getPicSym()->getTileIdxMap( pcCUTR->getAddr() ) != rpcPic->getPicSym()->getTileIdxMap(iCUAddr))) )) ) { // TR not available. } else { // TR is available, we use it. pcSbacDecoders[uiSubStrm].loadContexts( &m_pcBufferSbacDecoders[uiTileCol] ); } } pcSbacDecoder->load(&pcSbacDecoders[uiSubStrm]); //this load is used to simplify the code (avoid to change all the call to pcSbacDecoders) } else if ( pcSlice->getPPS()->getNumSubstreams() <= 1 ) { // Set variables to appropriate values to avoid later code change. iNumSubstreamsPerTile = 1; } if ( (iCUAddr == rpcPic->getPicSym()->getTComTile(rpcPic->getPicSym()->getTileIdxMap(iCUAddr))->getFirstCUAddr()) && // 1st in tile. (iCUAddr!=0) && (iCUAddr!=rpcPic->getPicSym()->getPicSCUAddr(rpcPic->getSlice(rpcPic->getCurrSliceIdx())->getSliceCurStartCUAddr())/rpcPic->getNumPartInCU()) && (iCUAddr!=rpcPic->getPicSym()->getPicSCUAddr(rpcPic->getSlice(rpcPic->getCurrSliceIdx())->getSliceSegmentCurStartCUAddr())/rpcPic->getNumPartInCU()) ) // !1st in frame && !1st in slice { if (pcSlice->getPPS()->getNumSubstreams() > 1) { // We're crossing into another tile, tiles are independent. // When tiles are independent, we have "substreams per tile". Each substream has already been terminated, and we no longer // have to perform it here. // For TILES_DECODER, there can be a header at the start of the 1st substream in a tile. These are read when the substreams // are extracted, not here. } else { SliceType sliceType = pcSlice->getSliceType(); if (pcSlice->getCabacInitFlag()) { switch (sliceType) { case P_SLICE: // change initialization table to B_SLICE intialization sliceType = B_SLICE; break; case B_SLICE: // change initialization table to P_SLICE intialization sliceType = P_SLICE; break; default : // should not occur assert(0); } } m_pcEntropyDecoder->updateContextTables( sliceType, pcSlice->getSliceQp() ); } } #if ENC_DEC_TRACE g_bJustDoIt = g_bEncDecTraceEnable; #endif if ( pcSlice->getSPS()->getUseSAO() && (pcSlice->getSaoEnabledFlag()||pcSlice->getSaoEnabledFlagChroma()) ) { SAOParam *saoParam = rpcPic->getPicSym()->getSaoParam(); saoParam->bSaoFlag[0] = pcSlice->getSaoEnabledFlag(); if (iCUAddr == iStartCUAddr) { saoParam->bSaoFlag[1] = pcSlice->getSaoEnabledFlagChroma(); } Int numCuInWidth = saoParam->numCuInWidth; Int cuAddrInSlice = iCUAddr - rpcPic->getPicSym()->getCUOrderMap(pcSlice->getSliceCurStartCUAddr()/rpcPic->getNumPartInCU()); Int cuAddrUpInSlice = cuAddrInSlice - numCuInWidth; Int rx = iCUAddr % numCuInWidth; Int ry = iCUAddr / numCuInWidth; Int allowMergeLeft = 1; Int allowMergeUp = 1; if (rx!=0) { if (rpcPic->getPicSym()->getTileIdxMap(iCUAddr-1) != rpcPic->getPicSym()->getTileIdxMap(iCUAddr)) { allowMergeLeft = 0; } } if (ry!=0) { if (rpcPic->getPicSym()->getTileIdxMap(iCUAddr-numCuInWidth) != rpcPic->getPicSym()->getTileIdxMap(iCUAddr)) { allowMergeUp = 0; } } pcSbacDecoder->parseSaoOneLcuInterleaving(rx, ry, saoParam,pcCU, cuAddrInSlice, cuAddrUpInSlice, allowMergeLeft, allowMergeUp); } else if ( pcSlice->getSPS()->getUseSAO() ) { Int addr = pcCU->getAddr(); SAOParam *saoParam = rpcPic->getPicSym()->getSaoParam(); for (Int cIdx=0; cIdx<3; cIdx++) { SaoLcuParam *saoLcuParam = &(saoParam->saoLcuParam[cIdx][addr]); if ( ((cIdx == 0) && !pcSlice->getSaoEnabledFlag()) || ((cIdx == 1 || cIdx == 2) && !pcSlice->getSaoEnabledFlagChroma())) { saoLcuParam->mergeUpFlag = 0; saoLcuParam->mergeLeftFlag = 0; saoLcuParam->subTypeIdx = 0; saoLcuParam->typeIdx = -1; saoLcuParam->offset[0] = 0; saoLcuParam->offset[1] = 0; saoLcuParam->offset[2] = 0; saoLcuParam->offset[3] = 0; } } } m_pcCuDecoder->decodeCU ( pcCU, uiIsLast ); m_pcCuDecoder->decompressCU ( pcCU ); #if ENC_DEC_TRACE g_bJustDoIt = g_bEncDecTraceDisable; #endif pcSbacDecoders[uiSubStrm].load(pcSbacDecoder); if ( uiCol == rpcPic->getPicSym()->getTComTile(rpcPic->getPicSym()->getTileIdxMap(iCUAddr))->getRightEdgePosInCU() && pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag() && !uiIsLast ) { // Parse end_of_substream_one_bit for WPP case UInt binVal; pcSbacDecoder->parseTerminatingBit( binVal ); assert( binVal ); } //Store probabilities of second LCU in line into buffer if ( (uiCol == uiTileLCUX+1)&& (depSliceSegmentsEnabled || (pcSlice->getPPS()->getNumSubstreams() > 1)) && (pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag()) ) { m_pcBufferSbacDecoders[uiTileCol].loadContexts( &pcSbacDecoders[uiSubStrm] ); } if( uiIsLast && depSliceSegmentsEnabled ) { if (pcSlice->getPPS()->getEntropyCodingSyncEnabledFlag()) { CTXMem[1]->loadContexts( &m_pcBufferSbacDecoders[uiTileCol] );//ctx 2.LCU } CTXMem[0]->loadContexts( pcSbacDecoder );//ctx end of dep.slice return; } } } ParameterSetManagerDecoder::ParameterSetManagerDecoder() #if SVC_EXTENSION : m_spsBuffer(MAX_NUM_SPS) , m_ppsBuffer(MAX_NUM_PPS) #else : m_vpsBuffer(MAX_NUM_VPS) , m_spsBuffer(MAX_NUM_SPS) , m_ppsBuffer(MAX_NUM_PPS) #endif { } ParameterSetManagerDecoder::~ParameterSetManagerDecoder() { } TComVPS* ParameterSetManagerDecoder::getPrefetchedVPS (Int vpsId) { if (m_vpsBuffer.getPS(vpsId) != NULL ) { return m_vpsBuffer.getPS(vpsId); } else { return getVPS(vpsId); } } TComSPS* ParameterSetManagerDecoder::getPrefetchedSPS (Int spsId) { if (m_spsBuffer.getPS(spsId) != NULL ) { return m_spsBuffer.getPS(spsId); } else { return getSPS(spsId); } } TComPPS* ParameterSetManagerDecoder::getPrefetchedPPS (Int ppsId) { if (m_ppsBuffer.getPS(ppsId) != NULL ) { return m_ppsBuffer.getPS(ppsId); } else { return getPPS(ppsId); } } Void ParameterSetManagerDecoder::applyPrefetchedPS() { m_vpsMap.mergePSList(m_vpsBuffer); m_ppsMap.mergePSList(m_ppsBuffer); m_spsMap.mergePSList(m_spsBuffer); } //! \}