/** 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(std::vector<Int> sliceStartAddress, Int sliceGranularityDepth
,std::vector<Bool>* LFCrossSliceBoundary
,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();
Int numSlices = (Int) sliceStartAddress.size() - 1;
m_bIndependentSliceBoundaryForNDBFilter = false;
if(numSlices > 1)
{
for(Int s=0; s< numSlices; s++)
{
if((*LFCrossSliceBoundary)[s] == false)
{
m_bIndependentSliceBoundaryForNDBFilter = true;
}
}
}
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;
}
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 = sliceStartAddress[s];
endAddr = sliceStartAddress[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
, *LFCrossSliceBoundary
,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);
}
}
Void TComPic::createNonDBFilterInfo(UInt* puiSliceStartAddress, Int iNumSlices, Int iSliceGranularityDepth
,Bool bNDBFilterCrossSliceBoundary
,Int iNumTiles
,Bool bNDBFilterCrossTileBoundary)
{
UInt uiMaxNumSUInLCU = getNumPartInCU();
UInt uiNumLCUInPic = getNumCUsInFrame();
UInt uiPicWidth = getCU(0)->getSlice()->getSPS()->getWidth();
UInt uiPicHeight = getCU(0)->getSlice()->getSPS()->getHeight();
Int iNumLCUsInPicWidth = getFrameWidthInCU();
Int iNumLCUsInPicHeight= getFrameHeightInCU();
UInt uiMaxNumSUInLCUWidth = getNumPartInWidth();
UInt uiMAxNumSUInLCUHeight= getNumPartInHeight();
m_bIndependentSliceBoundaryForNDBFilter = (bNDBFilterCrossSliceBoundary)?(false):((iNumSlices > 1)?(true):(false)) ;
m_iSliceGranularityForNDBFilter = iSliceGranularityDepth;
m_bIndependentTileBoundaryForNDBFilter = (bNDBFilterCrossTileBoundary)?(false) :((iNumTiles > 1)?(true):(false));
m_pbValidSlice = new Bool[iNumSlices];
for(Int s=0; s< iNumSlices; s++)
{
m_pbValidSlice[s] = true;
}
if( puiSliceStartAddress == NULL || (iNumSlices == 1 && iNumTiles == 1) )
{
return;
}
m_piSliceSUMap = new Int[uiMaxNumSUInLCU * uiNumLCUInPic];
//initialization
for(UInt i=0; i< (uiMaxNumSUInLCU * uiNumLCUInPic); i++ )
{
m_piSliceSUMap[i] = -1;
}
for( UInt uiCUAddr = 0; uiCUAddr < uiNumLCUInPic ; uiCUAddr++ )
{
TComDataCU* pcCU = getCU( uiCUAddr );
pcCU->setSliceSUMap(m_piSliceSUMap + (uiCUAddr* uiMaxNumSUInLCU));
pcCU->getNDBFilterBlocks()->clear();
}
m_vSliceCUDataLink.clear();
m_vSliceCUDataLink.resize(iNumSlices);
UInt uiStartAddr, uiEndAddr, uiFirstCUInStartLCU, uiStartLCU, uiEndLCU, uiLastCUInEndLCU, uiAddr;
UInt uiLPelX, uiTPelY, uiLCUX, uiLCUY;
UInt uiCurrSU;
UInt uiStartSU, uiEndSU;
for(Int s=0; s< iNumSlices; s++)
{
//1st step: decide the real start address
#if FINE_GRANULARITY_SLICES
uiStartAddr = puiSliceStartAddress[s];
uiEndAddr = puiSliceStartAddress[s+1] -1;
#else
uiStartAddr = (puiSliceStartAddress[s]*uiMaxNumSUInLCU);
uiEndAddr = (puiSliceStartAddress[s+1]*uiMaxNumSUInLCU) -1;
#endif
uiStartLCU = uiStartAddr / uiMaxNumSUInLCU;
uiFirstCUInStartLCU = uiStartAddr % uiMaxNumSUInLCU;
uiEndLCU = uiEndAddr / uiMaxNumSUInLCU;
uiLastCUInEndLCU = uiEndAddr % uiMaxNumSUInLCU;
#if TILES
uiAddr = m_apcPicSym->getCUOrderMap(uiStartLCU);
#else
uiAddr = uiStartLCU;
#endif
uiLCUX = getCU(uiAddr)->getCUPelX();
uiLCUY = getCU(uiAddr)->getCUPelY();
uiLPelX = uiLCUX + g_auiRasterToPelX[ g_auiZscanToRaster[uiFirstCUInStartLCU] ];
uiTPelY = uiLCUY + g_auiRasterToPelY[ g_auiZscanToRaster[uiFirstCUInStartLCU] ];
uiCurrSU = uiFirstCUInStartLCU;
Bool bMoveToNextLCU = false;
Bool bSliceInOneLCU = (uiStartLCU == uiEndLCU);
while(!( uiLPelX < uiPicWidth ) || !( uiTPelY < uiPicHeight ))
{
uiCurrSU ++;
if(bSliceInOneLCU)
{
if(uiCurrSU > uiLastCUInEndLCU)
{
m_pbValidSlice[s] = false;
break;
}
}
if(uiCurrSU >= uiMaxNumSUInLCU )
{
bMoveToNextLCU = true;
break;
}
uiLPelX = uiLCUX + g_auiRasterToPelX[ g_auiZscanToRaster[uiCurrSU] ];
uiTPelY = uiLCUY + g_auiRasterToPelY[ g_auiZscanToRaster[uiCurrSU] ];
}
if(!m_pbValidSlice[s])
{
continue;
}
if(uiCurrSU != uiFirstCUInStartLCU)
{
if(!bMoveToNextLCU)
{
uiFirstCUInStartLCU = uiCurrSU;
}
else
{
uiStartLCU++;
uiFirstCUInStartLCU = 0;
assert( uiStartLCU < getNumCUsInFrame());
}
assert(uiStartLCU*uiMaxNumSUInLCU + uiFirstCUInStartLCU < uiEndAddr);
}
//2nd step: assign NonDBFilterInfo to each processing block
for(UInt i= uiStartLCU; i <= uiEndLCU; i++)
{
uiStartSU = (i == uiStartLCU)?(uiFirstCUInStartLCU):(0);
uiEndSU = (i == uiEndLCU )?(uiLastCUInEndLCU ):(uiMaxNumSUInLCU -1);
#if TILES
uiAddr = m_apcPicSym->getCUOrderMap(i);
Int iTileID= m_apcPicSym->getTileIdxMap(uiAddr);
#else
uiAddr = i;
#endif
TComDataCU* pcCU = getCU(uiAddr);
m_vSliceCUDataLink[s].push_back(pcCU);
#if TILES
createNonDBFilterInfoLCU(iTileID, s, pcCU, uiStartSU, uiEndSU, m_iSliceGranularityForNDBFilter, uiPicWidth, uiPicHeight);
#else
createNonDBFilterInfoLCU(s, pcCU, uiStartSU, uiEndSU, m_iSliceGranularityForNDBFilter, uiPicWidth, uiPicHeight);
#endif
}
}
//step 3: border availability
for(Int s=0; s< iNumSlices; 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();
Int iTileID= m_apcPicSym->getTileIdxMap(uiAddr);
Bool bTopTileBoundary = false, bDownTileBoundary= false, bLeftTileBoundary= false, bRightTileBoundary= false;
if(m_bIndependentTileBoundaryForNDBFilter)
{
//left
if( uiAddr % iNumLCUsInPicWidth != 0)
{
bLeftTileBoundary = ( m_apcPicSym->getTileIdxMap(uiAddr -1) != iTileID )?true:false;
}
//right
if( (uiAddr % iNumLCUsInPicWidth) != (iNumLCUsInPicWidth -1) )
{
bRightTileBoundary = ( m_apcPicSym->getTileIdxMap(uiAddr +1) != iTileID)?true:false;
}
//top
if( uiAddr >= iNumLCUsInPicWidth)
{
bTopTileBoundary = (m_apcPicSym->getTileIdxMap(uiAddr - iNumLCUsInPicWidth) != iTileID )?true:false;
}
//down
if( uiAddr + iNumLCUsInPicWidth < uiNumLCUInPic )
{
bDownTileBoundary = (m_apcPicSym->getTileIdxMap(uiAddr + iNumLCUsInPicWidth) != iTileID)?true:false;
}
}
pcCU->setNDBFilterBlockBorderAvailability(iNumLCUsInPicWidth, iNumLCUsInPicHeight, uiMaxNumSUInLCUWidth, uiMAxNumSUInLCUHeight,uiPicWidth, uiPicHeight
,m_bIndependentSliceBoundaryForNDBFilter
,bTopTileBoundary, bDownTileBoundary, bLeftTileBoundary, bRightTileBoundary
,m_bIndependentTileBoundaryForNDBFilter);
}
}
if( m_bIndependentSliceBoundaryForNDBFilter || m_bIndependentTileBoundaryForNDBFilter)
{
m_pcNDBFilterYuvTmp = new TComPicYuv();
m_pcNDBFilterYuvTmp->create(uiPicWidth, uiPicHeight, g_uiMaxCUWidth, g_uiMaxCUHeight, g_uiMaxCUDepth);
}
}
