/* 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 TComSampleAdaptiveOffset.cpp \brief sample adaptive offset class */ #include "TComSampleAdaptiveOffset.h" #include #include #include #include //! \ingroup TLibCommon //! \{ SAOParam::~SAOParam() { for (Int i = 0 ; i<3; i++) { if (psSaoPart[i]) { delete [] psSaoPart[i]; } } } // ==================================================================================================================== // Tables // ==================================================================================================================== TComSampleAdaptiveOffset::TComSampleAdaptiveOffset() { m_pcPic = NULL; m_iOffsetBo = NULL; m_pClipTable = NULL; m_pClipTableBase = NULL; m_lumaTableBo = NULL; m_iUpBuff1 = NULL; m_iUpBuff2 = NULL; m_iUpBufft = NULL; ipSwap = NULL; m_pcYuvTmp = NULL; m_pTmpU1 = NULL; m_pTmpU2 = NULL; m_pTmpL1 = NULL; m_pTmpL2 = NULL; m_iLcuPartIdx = NULL; } TComSampleAdaptiveOffset::~TComSampleAdaptiveOffset() { } const Int TComSampleAdaptiveOffset::m_aiNumPartsInRow[5] = { 1, //level 0 2, //level 1 4, //level 2 8, //level 3 16 //level 4 }; const Int TComSampleAdaptiveOffset::m_aiNumPartsLevel[5] = { 1, //level 0 4, //level 1 16, //level 2 64, //level 3 256 //level 4 }; const Int TComSampleAdaptiveOffset::m_aiNumCulPartsLevel[5] = { 1, //level 0 5, //level 1 21, //level 2 85, //level 3 341, //level 4 }; const UInt TComSampleAdaptiveOffset::m_auiEoTable[9] = { 1, //0 2, //1 0, //2 3, //3 4, //4 0, //5 0, //6 0, //7 0 }; const UInt TComSampleAdaptiveOffset::m_iWeightSao[MAX_NUM_SAO_TYPE] = { 2, 2, 2, 2, 1 }; const UInt TComSampleAdaptiveOffset::m_auiEoTable2D[9] = { 1, //0 2, //1 3, //2 0, //3 0, //4 0, //5 4, //6 5, //7 6 }; Int TComSampleAdaptiveOffset::m_iNumClass[MAX_NUM_SAO_TYPE] = { SAO_EO_LEN, SAO_EO_LEN, SAO_EO_LEN, SAO_EO_LEN, SAO_BO_LEN }; UInt TComSampleAdaptiveOffset::m_uiMaxDepth = SAO_MAX_DEPTH; /** convert Level Row Col to Idx * \param level, row, col */ Int TComSampleAdaptiveOffset::convertLevelRowCol2Idx(int level, int row, int col) { Int idx; if (level == 0) { idx = 0; } else if (level == 1) { idx = 1 + row*2 + col; } else if (level == 2) { idx = 5 + row*4 + col; } else if (level == 3) { idx = 21 + row*8 + col; } else // (level == 4) { idx = 85 + row*16 + col; } return idx; } /** convert quadtree Idx to Level, Row, and Col * \param idx, *level, *row, *col */ void TComSampleAdaptiveOffset::convertIdx2LevelRowCol(int idx, int *level, int *row, int *col) { if (idx == 0) { *level = 0; *row = 0; *col = 0; } else if (idx>=1 && idx<=4) { *level = 1; *row = (idx-1) / 2; *col = (idx-1) % 2; } else if (idx>=5 && idx<=20) { *level = 2; *row = (idx-5) / 4; *col = (idx-5) % 4; } else if (idx>=21 && idx<=84) { *level = 3; *row = (idx-21) / 8; *col = (idx-21) % 8; } else // (idx>=85 && idx<=340) { *level = 4; *row = (idx-85) / 16; *col = (idx-85) % 16; } } /** create SampleAdaptiveOffset memory. * \param */ Void TComSampleAdaptiveOffset::create( UInt uiSourceWidth, UInt uiSourceHeight, UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxCUDepth) { m_iPicWidth = uiSourceWidth; m_iPicHeight = uiSourceHeight; m_uiMaxCUWidth = uiMaxCUWidth; m_uiMaxCUHeight = uiMaxCUHeight; m_iNumCuInWidth = m_iPicWidth / m_uiMaxCUWidth; m_iNumCuInWidth += ( m_iPicWidth % m_uiMaxCUWidth ) ? 1 : 0; m_iNumCuInHeight = m_iPicHeight / m_uiMaxCUHeight; m_iNumCuInHeight += ( m_iPicHeight % m_uiMaxCUHeight ) ? 1 : 0; Int iMaxSplitLevelHeight = (Int)(logf((float)m_iNumCuInHeight)/logf(2.0)); Int iMaxSplitLevelWidth = (Int)(logf((float)m_iNumCuInWidth )/logf(2.0)); m_uiMaxSplitLevel = (iMaxSplitLevelHeight < iMaxSplitLevelWidth)?(iMaxSplitLevelHeight):(iMaxSplitLevelWidth); m_uiMaxSplitLevel = (m_uiMaxSplitLevel< m_uiMaxDepth)?(m_uiMaxSplitLevel):(m_uiMaxDepth); /* various structures are overloaded to store per component data. * m_iNumTotalParts must allow for sufficient storage in any allocated arrays */ m_iNumTotalParts = max(3,m_aiNumCulPartsLevel[m_uiMaxSplitLevel]); UInt uiInternalBitDepth = g_uiBitDepth+g_uiBitIncrement; UInt uiPixelRange = 1<>uiBoRangeShift); } m_iUpBuff1 = new Int[m_iPicWidth+2]; m_iUpBuff2 = new Int[m_iPicWidth+2]; m_iUpBufft = new Int[m_iPicWidth+2]; m_iUpBuff1++; m_iUpBuff2++; m_iUpBufft++; Pel i; UInt uiMaxY = g_uiIBDI_MAX; UInt uiMinY = 0; Int iCRangeExt = uiMaxY>>1; m_pClipTableBase = new Pel[uiMaxY+2*iCRangeExt]; m_iOffsetBo = new Int[uiMaxY+2*iCRangeExt]; for(i=0;i<(uiMinY+iCRangeExt);i++) { m_pClipTableBase[i] = uiMinY; } for(i=uiMinY+iCRangeExt;i<(uiMaxY+ iCRangeExt);i++) { m_pClipTableBase[i] = i-iCRangeExt; } for(i=uiMaxY+iCRangeExt;i<(uiMaxY+2*iCRangeExt);i++) { m_pClipTableBase[i] = uiMaxY; } m_pClipTable = &(m_pClipTableBase[iCRangeExt]); m_iLcuPartIdx = new Int [m_iNumCuInHeight*m_iNumCuInWidth]; m_pTmpL1 = new Pel [m_uiMaxCUHeight+1]; m_pTmpL2 = new Pel [m_uiMaxCUHeight+1]; m_pTmpU1 = new Pel [m_iPicWidth]; m_pTmpU2 = new Pel [m_iPicWidth]; } /** destroy SampleAdaptiveOffset memory. * \param */ Void TComSampleAdaptiveOffset::destroy() { if (m_pClipTableBase) { delete [] m_pClipTableBase; m_pClipTableBase = NULL; } if (m_iOffsetBo) { delete [] m_iOffsetBo; m_iOffsetBo = NULL; } if (m_lumaTableBo) { delete[] m_lumaTableBo; m_lumaTableBo = NULL; } m_iUpBuff1--; m_iUpBuff2--; m_iUpBufft--; if (m_iUpBuff1) { delete [] m_iUpBuff1; m_iUpBuff1 = NULL; } if (m_iUpBuff2) { delete [] m_iUpBuff2; m_iUpBuff2 = NULL; } if (m_iUpBufft) { delete [] m_iUpBufft; m_iUpBufft = NULL; } if (m_pTmpL1) { delete [] m_pTmpL1; m_pTmpL1 = NULL; } if (m_pTmpL2) { delete [] m_pTmpL2; m_pTmpL2 = NULL; } if (m_pTmpU1) { delete [] m_pTmpU1; m_pTmpU1 = NULL; } if (m_pTmpU2) { delete [] m_pTmpU2; m_pTmpU2 = NULL; } if(m_iLcuPartIdx) { delete []m_iLcuPartIdx; m_iLcuPartIdx = NULL; } } /** allocate memory for SAO parameters * \param *pcSaoParam */ Void TComSampleAdaptiveOffset::allocSaoParam(SAOParam *pcSaoParam) { pcSaoParam->iMaxSplitLevel = m_uiMaxSplitLevel; pcSaoParam->psSaoPart[0] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ]; initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,0); pcSaoParam->psSaoPart[1] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ]; pcSaoParam->psSaoPart[2] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ]; initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,1); initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,2); for(Int j=0;jiNumClass[j] = m_iNumClass[j]; } pcSaoParam->numCuInWidth = m_iNumCuInWidth; pcSaoParam->numCuInHeight = m_iNumCuInHeight; pcSaoParam->saoLcuParam[0] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth]; pcSaoParam->saoLcuParam[1] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth]; pcSaoParam->saoLcuParam[2] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth]; } /** initialize SAO parameters * \param *pcSaoParam, iPartLevel, iPartRow, iPartCol, iParentPartIdx, StartCUX, EndCUX, StartCUY, EndCUY, iYCbCr */ Void TComSampleAdaptiveOffset::initSAOParam(SAOParam *pcSaoParam, Int iPartLevel, Int iPartRow, Int iPartCol, Int iParentPartIdx, Int StartCUX, Int EndCUX, Int StartCUY, Int EndCUY, Int iYCbCr) { Int j; Int iPartIdx = convertLevelRowCol2Idx(iPartLevel, iPartRow, iPartCol); SAOQTPart* pSaoPart; pSaoPart = &(pcSaoParam->psSaoPart[iYCbCr][iPartIdx]); pSaoPart->PartIdx = iPartIdx; pSaoPart->PartLevel = iPartLevel; pSaoPart->PartRow = iPartRow; pSaoPart->PartCol = iPartCol; pSaoPart->StartCUX = StartCUX; pSaoPart->EndCUX = EndCUX; pSaoPart->StartCUY = StartCUY; pSaoPart->EndCUY = EndCUY; pSaoPart->UpPartIdx = iParentPartIdx; pSaoPart->iBestType = -1; pSaoPart->iLength = 0; pSaoPart->bandPosition = 0; for (j=0;jiOffset[j] = 0; } if(pSaoPart->PartLevel != m_uiMaxSplitLevel) { Int DownLevel = (iPartLevel+1 ); Int DownRowStart = (iPartRow << 1); Int DownColStart = (iPartCol << 1); Int iDownRowIdx, iDownColIdx; Int NumCUWidth, NumCUHeight; Int NumCULeft; Int NumCUTop; Int DownStartCUX, DownStartCUY; Int DownEndCUX, DownEndCUY; NumCUWidth = EndCUX - StartCUX +1; NumCUHeight = EndCUY - StartCUY +1; NumCULeft = (NumCUWidth >> 1); NumCUTop = (NumCUHeight >> 1); DownStartCUX= StartCUX; DownEndCUX = DownStartCUX + NumCULeft - 1; DownStartCUY= StartCUY; DownEndCUY = DownStartCUY + NumCUTop - 1; iDownRowIdx = DownRowStart + 0; iDownColIdx = DownColStart + 0; pSaoPart->DownPartsIdx[0]= convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx); initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr); DownStartCUX = StartCUX + NumCULeft; DownEndCUX = EndCUX; DownStartCUY = StartCUY; DownEndCUY = DownStartCUY + NumCUTop -1; iDownRowIdx = DownRowStart + 0; iDownColIdx = DownColStart + 1; pSaoPart->DownPartsIdx[1] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx); initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr); DownStartCUX = StartCUX; DownEndCUX = DownStartCUX + NumCULeft -1; DownStartCUY = StartCUY + NumCUTop; DownEndCUY = EndCUY; iDownRowIdx = DownRowStart + 1; iDownColIdx = DownColStart + 0; pSaoPart->DownPartsIdx[2] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx); initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr); DownStartCUX = StartCUX+ NumCULeft; DownEndCUX = EndCUX; DownStartCUY = StartCUY + NumCUTop; DownEndCUY = EndCUY; iDownRowIdx = DownRowStart + 1; iDownColIdx = DownColStart + 1; pSaoPart->DownPartsIdx[3] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx); initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx,DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr); } else { pSaoPart->DownPartsIdx[0]=pSaoPart->DownPartsIdx[1]= pSaoPart->DownPartsIdx[2]= pSaoPart->DownPartsIdx[3]= -1; } } /** free memory of SAO parameters * \param pcSaoParam */ Void TComSampleAdaptiveOffset::freeSaoParam(SAOParam *pcSaoParam) { delete [] pcSaoParam->psSaoPart[0]; delete [] pcSaoParam->psSaoPart[1]; delete [] pcSaoParam->psSaoPart[2]; pcSaoParam->psSaoPart[0] = 0; pcSaoParam->psSaoPart[1] = 0; pcSaoParam->psSaoPart[2] = 0; if( pcSaoParam->saoLcuParam[0]) { delete [] pcSaoParam->saoLcuParam[0]; pcSaoParam->saoLcuParam[0] = NULL; } if( pcSaoParam->saoLcuParam[1]) { delete [] pcSaoParam->saoLcuParam[1]; pcSaoParam->saoLcuParam[1] = NULL; } if( pcSaoParam->saoLcuParam[2]) { delete [] pcSaoParam->saoLcuParam[2]; pcSaoParam->saoLcuParam[2] = NULL; } } /** reset SAO parameters * \param pcSaoParam */ Void TComSampleAdaptiveOffset::resetSAOParam(SAOParam *pcSaoParam) { Int iNumComponet = 3; for(Int c=0; cbSaoFlag[c] = 0; for(Int i=0; i< m_aiNumCulPartsLevel[m_uiMaxSplitLevel]; i++) { pcSaoParam->psSaoPart[c][i].iBestType = -1; pcSaoParam->psSaoPart[c][i].iLength = 0; pcSaoParam->psSaoPart[c][i].bSplit = false; pcSaoParam->psSaoPart[c][i].bProcessed = false; pcSaoParam->psSaoPart[c][i].dMinCost = MAX_DOUBLE; pcSaoParam->psSaoPart[c][i].iMinDist = MAX_INT; pcSaoParam->psSaoPart[c][i].iMinRate = MAX_INT; pcSaoParam->psSaoPart[c][i].bandPosition = 0; for (Int j=0;jpsSaoPart[c][i].iOffset[j] = 0; pcSaoParam->psSaoPart[c][i].iOffset[j] = 0; pcSaoParam->psSaoPart[c][i].iOffset[j] = 0; } } pcSaoParam->oneUnitFlag[0] = 0; pcSaoParam->oneUnitFlag[1] = 0; pcSaoParam->oneUnitFlag[2] = 0; resetLcuPart(pcSaoParam->saoLcuParam[0]); resetLcuPart(pcSaoParam->saoLcuParam[1]); resetLcuPart(pcSaoParam->saoLcuParam[2]); } } /** get the sign of input variable * \param x */ inline int xSign(int x) { return ((x >> 31) | ((int)( (((unsigned int) -x)) >> 31))); } /** initialize variables for SAO process * \param pcPic picture data pointer * \param numSlicesInPic number of slices in picture */ Void TComSampleAdaptiveOffset::createPicSaoInfo(TComPic* pcPic, Int numSlicesInPic) { m_pcPic = pcPic; m_uiNumSlicesInPic = numSlicesInPic; m_iSGDepth = pcPic->getSliceGranularityForNDBFilter(); m_bUseNIF = ( pcPic->getIndependentSliceBoundaryForNDBFilter() || pcPic->getIndependentTileBoundaryForNDBFilter() ); if(m_bUseNIF) { m_pcYuvTmp = pcPic->getYuvPicBufferForIndependentBoundaryProcessing(); } } Void TComSampleAdaptiveOffset::destroyPicSaoInfo() { } /** sample adaptive offset process for one LCU * \param iAddr, iSaoType, iYCbCr */ Void TComSampleAdaptiveOffset::processSaoCu(Int iAddr, Int iSaoType, Int iYCbCr) { if(!m_bUseNIF) { processSaoCuOrg( iAddr, iSaoType, iYCbCr); } else { Int isChroma = (iYCbCr != 0)? 1:0; Int stride = (iYCbCr != 0)?(m_pcPic->getCStride()):(m_pcPic->getStride()); Pel* pPicRest = getPicYuvAddr(m_pcPic->getPicYuvRec(), iYCbCr); Pel* pPicDec = getPicYuvAddr(m_pcYuvTmp, iYCbCr); std::vector& vFilterBlocks = *(m_pcPic->getCU(iAddr)->getNDBFilterBlocks()); //variables UInt xPos, yPos, width, height; Bool* pbBorderAvail; UInt posOffset; for(Int i=0; i< vFilterBlocks.size(); i++) { xPos = vFilterBlocks[i].posX >> isChroma; yPos = vFilterBlocks[i].posY >> isChroma; width = vFilterBlocks[i].width >> isChroma; height = vFilterBlocks[i].height >> isChroma; pbBorderAvail = vFilterBlocks[i].isBorderAvailable; posOffset = (yPos* stride) + xPos; processSaoBlock(pPicDec+ posOffset, pPicRest+ posOffset, stride, iSaoType, xPos, yPos, width, height, pbBorderAvail); } } } /** Perform SAO for non-cross-slice or non-cross-tile process * \param pDec to-be-filtered block buffer pointer * \param pRest filtered block buffer pointer * \param stride picture buffer stride * \param saoType SAO offset type * \param xPos x coordinate * \param yPos y coordinate * \param width block width * \param height block height * \param pbBorderAvail availabilities of block border pixels */ Void TComSampleAdaptiveOffset::processSaoBlock(Pel* pDec, Pel* pRest, Int stride, Int saoType, UInt xPos, UInt yPos, UInt width, UInt height, Bool* pbBorderAvail) { //variables Int startX, startY, endX, endY, x, y; Int signLeft,signRight,signDown,signDown1; UInt edgeType; switch (saoType) { case SAO_EO_0: // dir: - { startX = (pbBorderAvail[SGU_L]) ? 0 : 1; endX = (pbBorderAvail[SGU_R]) ? width : (width -1); for (y=0; y< height; y++) { signLeft = xSign(pDec[startX] - pDec[startX-1]); for (x=startX; x< endX; x++) { signRight = xSign(pDec[x] - pDec[x+1]); edgeType = signRight + signLeft + 2; signLeft = -signRight; pRest[x] = m_pClipTable[pDec[x] + m_iOffsetEo[edgeType]]; } pDec += stride; pRest += stride; } break; } case SAO_EO_1: // dir: | { startY = (pbBorderAvail[SGU_T]) ? 0 : 1; endY = (pbBorderAvail[SGU_B]) ? height : height-1; if (!pbBorderAvail[SGU_T]) { pDec += stride; pRest += stride; } for (x=0; x< width; x++) { m_iUpBuff1[x] = xSign(pDec[x] - pDec[x-stride]); } for (y=startY; ygetCU(iAddr); Pel* pRec; Int iStride; Int iLcuWidth = m_uiMaxCUWidth; Int iLcuHeight = m_uiMaxCUHeight; UInt uiLPelX = pTmpCu->getCUPelX(); UInt uiTPelY = pTmpCu->getCUPelY(); UInt uiRPelX; UInt uiBPelY; Int iSignLeft; Int iSignRight; Int iSignDown; Int iSignDown1; Int iSignDown2; UInt uiEdgeType; Int iPicWidthTmp; Int iPicHeightTmp; Int iStartX; Int iStartY; Int iEndX; Int iEndY; Int iIsChroma = (iYCbCr!=0)? 1:0; Int iShift; Int iCuHeightTmp; Pel *pTmpLSwap; Pel *pTmpL; Pel *pTmpU; iPicWidthTmp = m_iPicWidth >> iIsChroma; iPicHeightTmp = m_iPicHeight >> iIsChroma; iLcuWidth = iLcuWidth >> iIsChroma; iLcuHeight = iLcuHeight >> iIsChroma; uiLPelX = uiLPelX >> iIsChroma; uiTPelY = uiTPelY >> iIsChroma; uiRPelX = uiLPelX + iLcuWidth ; uiBPelY = uiTPelY + iLcuHeight ; uiRPelX = uiRPelX > iPicWidthTmp ? iPicWidthTmp : uiRPelX; uiBPelY = uiBPelY > iPicHeightTmp ? iPicHeightTmp : uiBPelY; iLcuWidth = uiRPelX - uiLPelX; iLcuHeight = uiBPelY - uiTPelY; if(pTmpCu->getPic()==0) { return; } if (iYCbCr == 0) { pRec = m_pcPic->getPicYuvRec()->getLumaAddr(iAddr); iStride = m_pcPic->getStride(); } else if (iYCbCr == 1) { pRec = m_pcPic->getPicYuvRec()->getCbAddr(iAddr); iStride = m_pcPic->getCStride(); } else { pRec = m_pcPic->getPicYuvRec()->getCrAddr(iAddr); iStride = m_pcPic->getCStride(); } // if (iSaoType!=SAO_BO_0 || iSaoType!=SAO_BO_1) { iCuHeightTmp = (m_uiMaxCUHeight >> iIsChroma); iShift = (m_uiMaxCUWidth>> iIsChroma)-1; for (Int i=0;ibSaoFlag[0]) { #if FULL_NBIT m_uiSaoBitIncrease = g_uiBitDepth + (g_uiBitDepth-8) - min((Int)(g_uiBitDepth + (g_uiBitDepth-8)), 10); #else m_uiSaoBitIncrease = g_uiBitDepth + g_uiBitIncrement - min((Int)(g_uiBitDepth + g_uiBitIncrement), 10); #endif if(m_bUseNIF) { m_pcPic->getPicYuvRec()->copyToPic(m_pcYuvTmp); } if (m_saoInterleavingFlag) { pcSaoParam->oneUnitFlag[0] = 0; pcSaoParam->oneUnitFlag[1] = 0; pcSaoParam->oneUnitFlag[2] = 0; } Int iY = 0; processSaoUnitAll( pcSaoParam->saoLcuParam[iY], pcSaoParam->oneUnitFlag[iY], iY); Int iCb = 1; Int iCr = 2; if (pcSaoParam->bSaoFlag[iCb]) { processSaoUnitAll( pcSaoParam->saoLcuParam[iCb], pcSaoParam->oneUnitFlag[iCb], iCb); } if (pcSaoParam->bSaoFlag[iCr]) { processSaoUnitAll( pcSaoParam->saoLcuParam[iCr], pcSaoParam->oneUnitFlag[iCr], iCr); } m_pcPic = NULL; } } Pel* TComSampleAdaptiveOffset::getPicYuvAddr(TComPicYuv* pcPicYuv, Int iYCbCr, Int iAddr) { switch (iYCbCr) { case 0: return pcPicYuv->getLumaAddr(iAddr); break; case 1: return pcPicYuv->getCbAddr(iAddr); break; case 2: return pcPicYuv->getCrAddr(iAddr); break; default: return NULL; break; } } /** Process SAO all units * \param saoLcuParam SAO LCU parameters * \param oneUnitFlag one unit flag * \param yCbCr color componet index */ Void TComSampleAdaptiveOffset::processSaoUnitAll(SaoLcuParam* saoLcuParam, Bool oneUnitFlag, Int yCbCr) { Pel *pRec; Int picWidthTmp; if (yCbCr == 0) { pRec = m_pcPic->getPicYuvRec()->getLumaAddr(); picWidthTmp = m_iPicWidth; } else if (yCbCr == 1) { pRec = m_pcPic->getPicYuvRec()->getCbAddr(); picWidthTmp = m_iPicWidth>>1; } else { pRec = m_pcPic->getPicYuvRec()->getCrAddr(); picWidthTmp = m_iPicWidth>>1; } memcpy(m_pTmpU1, pRec, sizeof(Pel)*picWidthTmp); int i; UInt edgeType; Pel* ppLumaTable = NULL; Int typeIdx; static Int offset[LUMA_GROUP_NUM+1]; Int idxX; Int idxY; Int addr; Int frameWidthInCU = m_pcPic->getFrameWidthInCU(); Int frameHeightInCU = m_pcPic->getFrameHeightInCU(); Int stride; Pel *tmpUSwap; Int isChroma = (yCbCr == 0) ? 0:1; Bool mergeLeftFlag; for (idxY = 0; idxY< frameHeightInCU; idxY++) { addr = idxY * frameWidthInCU; if (yCbCr == 0) { pRec = m_pcPic->getPicYuvRec()->getLumaAddr(addr); stride = m_pcPic->getStride(); picWidthTmp = m_iPicWidth; } else if (yCbCr == 1) { pRec = m_pcPic->getPicYuvRec()->getCbAddr(addr); stride = m_pcPic->getCStride(); picWidthTmp = m_iPicWidth>>1; } else { pRec = m_pcPic->getPicYuvRec()->getCrAddr(addr); stride = m_pcPic->getCStride(); picWidthTmp = m_iPicWidth>>1; } // pRec += iStride*(m_uiMaxCUHeight-1); for (i=0;i<(m_uiMaxCUHeight>>isChroma)+1;i++) { m_pTmpL1[i] = pRec[0]; pRec+=stride; } pRec-=(stride<<1); memcpy(m_pTmpU2, pRec, sizeof(Pel)*picWidthTmp); for (idxX = 0; idxX < frameWidthInCU; idxX++) { addr = idxY * frameWidthInCU + idxX; if (oneUnitFlag) { typeIdx = saoLcuParam[0].typeIdx; mergeLeftFlag = (addr == 0)? 0:1; } else { typeIdx = saoLcuParam[addr].typeIdx; mergeLeftFlag = saoLcuParam[addr].mergeLeftFlag; } if (typeIdx>=0) { if (!mergeLeftFlag) { if (typeIdx == SAO_BO) { for (i=0; igetPicYuvRec()->getLumaAddr(addr); stride = m_pcPic->getStride(); } else if (yCbCr == 1) { pRec = m_pcPic->getPicYuvRec()->getCbAddr(addr); stride = m_pcPic->getCStride(); } else { pRec = m_pcPic->getPicYuvRec()->getCrAddr(addr); stride = m_pcPic->getCStride(); } Int widthShift = m_uiMaxCUWidth>>isChroma; for (i=0;i<(m_uiMaxCUHeight>>isChroma)+1;i++) { m_pTmpL1[i] = pRec[widthShift-1]; pRec+=stride; } } } } tmpUSwap = m_pTmpU1; m_pTmpU1 = m_pTmpU2; m_pTmpU2 = tmpUSwap; } } /** Reset SAO LCU part * \param saoLcuParam */ Void TComSampleAdaptiveOffset::resetLcuPart(SaoLcuParam* saoLcuParam) { Int i,j; for (i=0;ipsSaoPart[yCbCr][partIdx]); if (!saoPart->bSplit) { convertOnePart2SaoUnit(saoParam, partIdx, yCbCr); return; } if (saoPart->PartLevel < m_uiMaxSplitLevel) { convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[0], yCbCr); convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[1], yCbCr); convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[2], yCbCr); convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[3], yCbCr); } } /** convert one SAO part to SAO unit * \param saoParam SAO parameter * \param partIdx SAO part index * \param yCbCr color component index */ Void TComSampleAdaptiveOffset::convertOnePart2SaoUnit(SAOParam *saoParam, UInt partIdx, Int yCbCr) { Int j; Int idxX; Int idxY; Int addr; Int frameWidthInCU = m_pcPic->getFrameWidthInCU(); SAOQTPart* saoQTPart = saoParam->psSaoPart[yCbCr]; SaoLcuParam* saoLcuParam = saoParam->saoLcuParam[yCbCr]; for (idxY = saoQTPart[partIdx].StartCUY; idxY<= saoQTPart[partIdx].EndCUY; idxY++) { for (idxX = saoQTPart[partIdx].StartCUX; idxX<= saoQTPart[partIdx].EndCUX; idxX++) { addr = idxY * frameWidthInCU + idxX; saoLcuParam[addr].partIdxTmp = (Int)partIdx; saoLcuParam[addr].typeIdx = saoQTPart[partIdx].iBestType; saoLcuParam[addr].bandPosition = saoQTPart[partIdx].bandPosition; if (saoLcuParam[addr].typeIdx!=-1) { saoLcuParam[addr].length = saoQTPart[partIdx].iLength; for (j=0;j