/* 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 TComPicSym.cpp \brief picture symbol class */ #include "TComPicSym.h" #include "TComSampleAdaptiveOffset.h" #include "TComSlice.h" //! \ingroup TLibCommon //! \{ // ==================================================================================================================== // Constructor / destructor / create / destroy // ==================================================================================================================== TComPicSym::TComPicSym() :m_frameWidthInCtus(0) ,m_frameHeightInCtus(0) ,m_uiMaxCUWidth(0) ,m_uiMaxCUHeight(0) ,m_uiMinCUWidth(0) ,m_uiMinCUHeight(0) ,m_uhTotalDepth(0) ,m_numPartitionsInCtu(0) ,m_numPartInCtuWidth(0) ,m_numPartInCtuHeight(0) ,m_numCtusInFrame(0) ,m_apcTComSlice(NULL) ,m_uiNumAllocatedSlice(0) ,m_pictureCtuArray(NULL) ,m_numTileColumnsMinus1(0) ,m_numTileRowsMinus1(0) ,m_ctuTsToRsAddrMap(NULL) ,m_puiTileIdxMap(NULL) ,m_ctuRsToTsAddrMap(NULL) ,m_saoBlkParams(NULL) {} Void TComPicSym::create ( ChromaFormat chromaFormatIDC, Int iPicWidth, Int iPicHeight, UInt uiMaxWidth, UInt uiMaxHeight, UInt uiMaxDepth ) { UInt i; m_uhTotalDepth = uiMaxDepth; m_numPartitionsInCtu = 1<<(m_uhTotalDepth<<1); m_uiMaxCUWidth = uiMaxWidth; m_uiMaxCUHeight = uiMaxHeight; m_uiMinCUWidth = uiMaxWidth >> m_uhTotalDepth; m_uiMinCUHeight = uiMaxHeight >> m_uhTotalDepth; m_numPartInCtuWidth = m_uiMaxCUWidth / m_uiMinCUWidth; // equivalent to 1<0) { for ( i=0; icreate( chromaFormatIDC, m_numPartitionsInCtu, m_uiMaxCUWidth, m_uiMaxCUHeight, false, m_uiMaxCUWidth >> m_uhTotalDepth #if ADAPTIVE_QP_SELECTION , true #endif ); } m_ctuTsToRsAddrMap = new UInt[m_numCtusInFrame+1]; m_puiTileIdxMap = new UInt[m_numCtusInFrame]; m_ctuRsToTsAddrMap = new UInt[m_numCtusInFrame+1]; #if N0383_IL_CONSTRAINED_TILE_SETS_SEI m_piTileSetIdxMap = new Int[m_numCtusInFrame]; m_pucTileSetType = new UChar[m_numCtusInFrame]; m_pbSkippedTileSetFlag = new Bool[m_numCtusInFrame]; #endif for( i=0; i0) { for (Int i = 0; idestroy(); delete m_pictureCtuArray[i]; m_pictureCtuArray[i] = NULL; } delete [] m_pictureCtuArray; m_pictureCtuArray = NULL; delete [] m_ctuTsToRsAddrMap; m_ctuTsToRsAddrMap = NULL; delete [] m_puiTileIdxMap; m_puiTileIdxMap = NULL; #if N0383_IL_CONSTRAINED_TILE_SETS_SEI delete [] m_piTileSetIdxMap; m_piTileSetIdxMap = NULL; delete [] m_pucTileSetType; m_pucTileSetType = NULL; delete [] m_pbSkippedTileSetFlag; m_pbSkippedTileSetFlag = NULL; #endif delete [] m_ctuRsToTsAddrMap; m_ctuRsToTsAddrMap = NULL; if(m_saoBlkParams) { delete[] m_saoBlkParams; m_saoBlkParams = NULL; } } Void TComPicSym::allocateNewSlice() { assert ((m_uiNumAllocatedSlice + 1) <= m_numCtusInFrame); m_apcTComSlice[m_uiNumAllocatedSlice ++] = new TComSlice; if (m_uiNumAllocatedSlice>=2) { m_apcTComSlice[m_uiNumAllocatedSlice-1]->copySliceInfo( m_apcTComSlice[m_uiNumAllocatedSlice-2] ); #if SVC_EXTENSION m_apcTComSlice[m_uiNumAllocatedSlice-1]->initSlice( m_apcTComSlice[m_uiNumAllocatedSlice-1]->getLayerId() ); #else m_apcTComSlice[m_uiNumAllocatedSlice-1]->initSlice(); #endif } } Void TComPicSym::clearSliceBuffer() { UInt i; for (i = 1; i < m_uiNumAllocatedSlice; i++) { delete m_apcTComSlice[i]; } m_uiNumAllocatedSlice = 1; } Void TComPicSym::initCtuTsRsAddrMaps() { //generate the Coding Order Map and Inverse Coding Order Map for(Int ctuTsAddr=0, ctuRsAddr=0; ctuTsAddrgetNumTileColumnsMinus1() ); setNumTileRowsMinus1( pps->getNumTileRowsMinus1() ); const Int numCols = pps->getNumTileColumnsMinus1() + 1; const Int numRows = pps->getNumTileRowsMinus1() + 1; const Int numTiles = numRows * numCols; // allocate memory for tile parameters m_tileParameters.resize(numTiles); if( pps->getTileUniformSpacingFlag() ) { //set width and height for each (uniform) tile for(Int row=0; row < numRows; row++) { for(Int col=0; col < numCols; col++) { const Int tileIdx = row * numCols + col; m_tileParameters[tileIdx].setTileWidthInCtus( (col+1)*getFrameWidthInCtus( )/numCols - (col*getFrameWidthInCtus( ))/numCols ); m_tileParameters[tileIdx].setTileHeightInCtus( (row+1)*getFrameHeightInCtus()/numRows - (row*getFrameHeightInCtus())/numRows ); } } } else { //set the width for each tile for(Int row=0; row < numRows; row++) { Int cumulativeTileWidth = 0; for(Int col=0; col < getNumTileColumnsMinus1(); col++) { m_tileParameters[row * numCols + col].setTileWidthInCtus( pps->getTileColumnWidth(col) ); cumulativeTileWidth += pps->getTileColumnWidth(col); } m_tileParameters[row * numCols + getNumTileColumnsMinus1()].setTileWidthInCtus( getFrameWidthInCtus()-cumulativeTileWidth ); } //set the height for each tile for(Int col=0; col < numCols; col++) { Int cumulativeTileHeight = 0; for(Int row=0; row < getNumTileRowsMinus1(); row++) { m_tileParameters[row * numCols + col].setTileHeightInCtus( pps->getTileRowHeight(row) ); cumulativeTileHeight += pps->getTileRowHeight(row); } m_tileParameters[getNumTileRowsMinus1() * numCols + col].setTileHeightInCtus( getFrameHeightInCtus()-cumulativeTileHeight ); } } #if TILE_SIZE_CHECK Int minWidth = 1; Int minHeight = 1; const Int profileIdc = pps->getSPS()->getPTL()->getGeneralPTL()->getProfileIdc(); if ( profileIdc == Profile::MAIN || profileIdc == Profile::MAIN10) //TODO: add more profiles to the tile-size check... { if (pps->getTilesEnabledFlag()) { minHeight = 64 / g_uiMaxCUHeight; minWidth = 256 / g_uiMaxCUWidth; } } for(Int row=0; row < numRows; row++) { for(Int col=0; col < numCols; col++) { const Int tileIdx = row * numCols + col; assert (m_tileParameters[tileIdx].getTileWidthInCtus() >= minWidth); assert (m_tileParameters[tileIdx].getTileHeightInCtus() >= minHeight); } } #endif //initialize each tile of the current picture for( Int row=0; row < numRows; row++ ) { for( Int col=0; col < numCols; col++ ) { const Int tileIdx = row * numCols + col; //initialize the RightEdgePosInCU for each tile Int rightEdgePosInCTU = 0; for( Int i=0; i <= col; i++ ) { rightEdgePosInCTU += m_tileParameters[row * numCols + i].getTileWidthInCtus(); } m_tileParameters[tileIdx].setRightEdgePosInCtus(rightEdgePosInCTU-1); //initialize the BottomEdgePosInCU for each tile Int bottomEdgePosInCTU = 0; for( Int i=0; i <= row; i++ ) { bottomEdgePosInCTU += m_tileParameters[i * numCols + col].getTileHeightInCtus(); } m_tileParameters[tileIdx].setBottomEdgePosInCtus(bottomEdgePosInCTU-1); //initialize the FirstCUAddr for each tile m_tileParameters[tileIdx].setFirstCtuRsAddr( (m_tileParameters[tileIdx].getBottomEdgePosInCtus() - m_tileParameters[tileIdx].getTileHeightInCtus() + 1) * getFrameWidthInCtus() + m_tileParameters[tileIdx].getRightEdgePosInCtus() - m_tileParameters[tileIdx].getTileWidthInCtus() + 1); } } Int columnIdx = 0; Int rowIdx = 0; //initialize the TileIdxMap for( Int i=0; igetRightEdgePosInCtus() && currCtuRsAddr / m_frameWidthInCtus == getTComTile(uiTileIdx)->getBottomEdgePosInCtus() ) //the current CTU is the last CTU of the tile { if(uiTileIdx+1 == getNumTiles()) { nextCtuRsAddr = m_numCtusInFrame; } else { nextCtuRsAddr = getTComTile(uiTileIdx+1)->getFirstCtuRsAddr(); } } else //the current CTU is not the last CTU of the tile { if( currCtuRsAddr % m_frameWidthInCtus == getTComTile(uiTileIdx)->getRightEdgePosInCtus() ) //the current CTU is on the rightmost edge of the tile { nextCtuRsAddr = currCtuRsAddr + m_frameWidthInCtus - getTComTile(uiTileIdx)->getTileWidthInCtus() + 1; } else { nextCtuRsAddr = currCtuRsAddr + 1; } } return nextCtuRsAddr; } Void TComPicSym::deriveLoopFilterBoundaryAvailibility(Int ctuRsAddr, Bool& isLeftAvail, Bool& isRightAvail, Bool& isAboveAvail, Bool& isBelowAvail, Bool& isAboveLeftAvail, Bool& isAboveRightAvail, Bool& isBelowLeftAvail, Bool& isBelowRightAvail ) { isLeftAvail = (ctuRsAddr % m_frameWidthInCtus != 0); isRightAvail = (ctuRsAddr % m_frameWidthInCtus != m_frameWidthInCtus-1); isAboveAvail = (ctuRsAddr >= m_frameWidthInCtus ); isBelowAvail = (ctuRsAddr < m_numCtusInFrame - m_frameWidthInCtus); isAboveLeftAvail = (isAboveAvail && isLeftAvail); isAboveRightAvail= (isAboveAvail && isRightAvail); isBelowLeftAvail = (isBelowAvail && isLeftAvail); isBelowRightAvail= (isBelowAvail && isRightAvail); Bool isLoopFiltAcrossTilePPS = getCtu(ctuRsAddr)->getSlice()->getPPS()->getLoopFilterAcrossTilesEnabledFlag(); { TComDataCU* ctuCurr = getCtu(ctuRsAddr); TComDataCU* ctuLeft = isLeftAvail ?getCtu(ctuRsAddr-1):NULL; TComDataCU* ctuRight = isRightAvail?getCtu(ctuRsAddr+1):NULL; TComDataCU* ctuAbove = isAboveAvail?getCtu(ctuRsAddr-m_frameWidthInCtus):NULL; TComDataCU* ctuBelow = isBelowAvail?getCtu(ctuRsAddr+m_frameWidthInCtus):NULL; TComDataCU* ctuAboveLeft = isAboveLeftAvail ? getCtu(ctuRsAddr-m_frameWidthInCtus-1):NULL; TComDataCU* ctuAboveRight = isAboveRightAvail? getCtu(ctuRsAddr-m_frameWidthInCtus+1):NULL; TComDataCU* ctuBelowLeft = isBelowLeftAvail ? getCtu(ctuRsAddr+m_frameWidthInCtus-1):NULL; TComDataCU* ctuBelowRight = isBelowRightAvail? getCtu(ctuRsAddr+m_frameWidthInCtus+1):NULL; { //left if(ctuLeft != NULL) { isLeftAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuLeft->getSlice()->getSliceCurStartCtuTsAddr())?ctuCurr->getSlice()->getLFCrossSliceBoundaryFlag():true; } //above if(ctuAbove != NULL) { isAboveAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuAbove->getSlice()->getSliceCurStartCtuTsAddr())?ctuCurr->getSlice()->getLFCrossSliceBoundaryFlag():true; } //right if(ctuRight != NULL) { isRightAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuRight->getSlice()->getSliceCurStartCtuTsAddr())?ctuRight->getSlice()->getLFCrossSliceBoundaryFlag():true; } //below if(ctuBelow != NULL) { isBelowAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuBelow->getSlice()->getSliceCurStartCtuTsAddr())?ctuBelow->getSlice()->getLFCrossSliceBoundaryFlag():true; } //above-left if(ctuAboveLeft != NULL) { isAboveLeftAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuAboveLeft->getSlice()->getSliceCurStartCtuTsAddr())?ctuCurr->getSlice()->getLFCrossSliceBoundaryFlag():true; } //below-right if(ctuBelowRight != NULL) { isBelowRightAvail = (ctuCurr->getSlice()->getSliceCurStartCtuTsAddr() != ctuBelowRight->getSlice()->getSliceCurStartCtuTsAddr())?ctuBelowRight->getSlice()->getLFCrossSliceBoundaryFlag():true; } //above-right if(ctuAboveRight != NULL) { Int curSliceStartTsAddr = ctuCurr->getSlice()->getSliceCurStartCtuTsAddr(); Int aboveRightSliceStartTsAddr = ctuAboveRight->getSlice()->getSliceCurStartCtuTsAddr(); isAboveRightAvail = (curSliceStartTsAddr == aboveRightSliceStartTsAddr)?(true): ( (curSliceStartTsAddr > aboveRightSliceStartTsAddr)?(ctuCurr->getSlice()->getLFCrossSliceBoundaryFlag()) :(ctuAboveRight->getSlice()->getLFCrossSliceBoundaryFlag()) ); } //below-left if(ctuBelowLeft != NULL) { Int curSliceStartTsAddr = ctuCurr->getSlice()->getSliceCurStartCtuTsAddr(); Int belowLeftSliceStartTsAddr = ctuBelowLeft->getSlice()->getSliceCurStartCtuTsAddr(); isBelowLeftAvail = (curSliceStartTsAddr == belowLeftSliceStartTsAddr)?(true): ( (curSliceStartTsAddr > belowLeftSliceStartTsAddr)?(ctuCurr->getSlice()->getLFCrossSliceBoundaryFlag()) :(ctuBelowLeft->getSlice()->getLFCrossSliceBoundaryFlag()) ); } } if(!isLoopFiltAcrossTilePPS) { isLeftAvail = (!isLeftAvail ) ?false:(getTileIdxMap( ctuLeft->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isAboveAvail = (!isAboveAvail ) ?false:(getTileIdxMap( ctuAbove->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isRightAvail = (!isRightAvail ) ?false:(getTileIdxMap( ctuRight->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isBelowAvail = (!isBelowAvail ) ?false:(getTileIdxMap( ctuBelow->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isAboveLeftAvail = (!isAboveLeftAvail ) ?false:(getTileIdxMap( ctuAboveLeft->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isAboveRightAvail= (!isAboveRightAvail) ?false:(getTileIdxMap( ctuAboveRight->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isBelowLeftAvail = (!isBelowLeftAvail ) ?false:(getTileIdxMap( ctuBelowLeft->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); isBelowRightAvail= (!isBelowRightAvail) ?false:(getTileIdxMap( ctuBelowRight->getCtuRsAddr() ) == getTileIdxMap( ctuRsAddr )); } } } TComTile::TComTile() : m_tileWidthInCtus (0) , m_tileHeightInCtus (0) , m_rightEdgePosInCtus (0) , m_bottomEdgePosInCtus (0) , m_firstCtuRsAddr (0) { } TComTile::~TComTile() { } //! \}