ErrVal
SliceEncoder::updatePictureResTransform( ControlData& rcControlData,
UInt uiMbInRow )
{
ROF( m_bInitDone );
SliceHeader& rcSliceHeader = *rcControlData.getSliceHeader ();
MbDataCtrl* pcMbDataCtrl = rcControlData.getMbDataCtrl ();
MbDataCtrl* pcBaseLayerCtrl = rcControlData.getBaseLayerCtrl ();
UInt uiMbAddress = 0;
UInt uiLastMbAddress = rcSliceHeader.getMbInPic() - 1;
//====== initialization ======
RNOK( pcMbDataCtrl->initSlice( rcSliceHeader, DECODE_PROCESS, false, NULL ) );
// Update the macroblock state
// Must be done after the bit-stream has been constructed
for( ; uiMbAddress <= uiLastMbAddress; )
{
UInt uiMbY = 0;
UInt uiMbX = 0;
MbDataAccess* pcMbDataAccess = 0;
MbDataAccess* pcMbDataAccessBase = 0;
rcSliceHeader.getMbPositionFromAddress( uiMbY, uiMbX, uiMbAddress );
RNOK( pcMbDataCtrl ->initMb ( pcMbDataAccess, uiMbY, uiMbX ) );
if( pcBaseLayerCtrl )
{
RNOK( pcBaseLayerCtrl ->initMb ( pcMbDataAccessBase, uiMbY, uiMbX ) );
pcMbDataAccess->setMbDataAccessBase( pcMbDataAccessBase );
}
// modify QP values (as specified in G.8.1.5.1.2)
if( pcMbDataAccess->getMbData().getMbCbp() == 0 && ( pcMbDataAccess->getMbData().getMbMode() == INTRA_BL || pcMbDataAccess->getMbData().getResidualPredFlag() ) )
{
pcMbDataAccess->getMbData().setQp ( pcMbDataAccessBase->getMbData().getQp() );
pcMbDataAccess->getMbData().setQp4LF( pcMbDataAccessBase->getMbData().getQp() );
}
// if cbp==0, tranform size is not transmitted, in this case inherit the transform size from base layer
if( ( pcMbDataAccess->getMbData().getResidualPredFlag() && ! pcMbDataAccess->getMbData().isIntra() && ! pcMbDataAccessBase->getMbData().isIntra() ) || ( pcMbDataAccess->getMbData().getMbMode() == INTRA_BL ) )
{
if( ( pcMbDataAccess->getMbData().getMbCbp() & 0x0F ) == 0 )
{
pcMbDataAccess->getMbData().setTransformSize8x8( pcMbDataAccessBase->getMbData().isTransformSize8x8() );
}
}
// set I_PCM mode (for deblocking) when CBP is 0, mbMode is I_BL, and base layer mbMode is I_PCM
if( pcMbDataAccess->getMbData().getMbCbp() == 0 && pcMbDataAccess->getMbData().isIntraBL() && pcMbDataAccessBase->getMbData().isPCM() )
{
pcMbDataAccess->getMbData().setMbMode( MODE_PCM );
}
uiMbAddress++;
}
return Err::m_nOK;
}
ErrVal
SliceEncoder::encodeSlice( SliceHeader& rcSliceHeader,
Frame* pcFrame,
MbDataCtrl* pcMbDataCtrl,
RefListStruct& rcRefListStruct,
Bool bMCBlks8x8Disable,
UInt uiMbInRow,
Double dlambda )
{
ROF( pcFrame );
ROF( pcMbDataCtrl );
UInt uiMaxMvPerMb = rcSliceHeader.getSPS().getMaxMVsPer2Mb () >> 1; // hard limit (don't take into account last macroblock)
//===== get co-located picture =====
MbDataCtrl* pcMbDataCtrlL1 = NULL;
RefFrameList& rcList1 = rcRefListStruct.acRefFrameListME[1];
if( rcList1.getActive() && rcList1.getEntry( 0 )->getRecPicBufUnit() )
{
pcMbDataCtrlL1 = rcList1.getEntry( 0 )->getRecPicBufUnit()->getMbDataCtrl();
}
ROT( rcSliceHeader.isBSlice() && ! pcMbDataCtrlL1 );
//===== initialization =====
RNOK( pcMbDataCtrl ->initSlice ( rcSliceHeader, ENCODE_PROCESS, false, pcMbDataCtrlL1 ) );
RNOK( m_pcControlMng->initSliceForCoding( rcSliceHeader ) );
//===== loop over macroblocks =====
for( UInt uiMbAddress = rcSliceHeader.getFirstMbInSlice(); uiMbAddress <= rcSliceHeader.getLastMbInSlice(); uiMbAddress = rcSliceHeader.getFMO()->getNextMBNr( uiMbAddress ) )
{
UInt uiMbY = uiMbAddress / uiMbInRow;
UInt uiMbX = uiMbAddress % uiMbInRow;
MbDataAccess* pcMbDataAccess = 0;
RNOK( pcMbDataCtrl ->initMb ( pcMbDataAccess, uiMbY, uiMbX ) );
RNOK( m_pcControlMng->initMbForCoding ( *pcMbDataAccess, uiMbY, uiMbX, false, false ) );
pcMbDataAccess->setMbDataAccessBase ( NULL );
RNOK( m_pcMbEncoder ->encodeMacroblock( *pcMbDataAccess,
pcFrame,
rcRefListStruct,
uiMaxMvPerMb,
bMCBlks8x8Disable,
m_pcCodingParameter->getBiPred8x8Disable() > 0,
m_pcCodingParameter->getMotionVectorSearchParams().getNumMaxIter(),
m_pcCodingParameter->getMotionVectorSearchParams().getIterSearchRange(),
dlambda ) );
RNOK( m_pcMbCoder ->encode ( *pcMbDataAccess,
NULL,
( uiMbAddress == rcSliceHeader.getLastMbInSlice() )
,true ) );
}
return Err::m_nOK;
}
// JVT-V035
ErrVal
SliceEncoder::updatePictureAVCRewrite( ControlData& rcControlData, UInt uiMbInRow )
{
ROF( m_bInitDone );
SliceHeader& rcSliceHeader = *rcControlData.getSliceHeader();
FMO& rcFMO = *rcSliceHeader.getFMO();
MbDataCtrl* pcMbDataCtrl = rcControlData.getMbDataCtrl();
MbDataCtrl* pcBaseLayerCtrl = rcControlData.getBaseLayerCtrl();
//====== initialization ======
RNOK( pcMbDataCtrl->initSlice( rcSliceHeader, DECODE_PROCESS, false, NULL ) );
if( rcSliceHeader.getTCoeffLevelPredictionFlag() == true )
{
// Update the macroblock state
// Must be done after the bit-stream has been constructed
for( Int iSliceGroupId = rcFMO.getFirstSliceGroupId(); ! rcFMO.SliceGroupCompletelyCoded( iSliceGroupId ); iSliceGroupId = rcFMO.getNextSliceGroupId( iSliceGroupId ) )
{
UInt uiFirstMbInSliceGroup = rcFMO.getFirstMBOfSliceGroup( iSliceGroupId );
UInt uiLastMbInSliceGroup = rcFMO.getLastMBInSliceGroup ( iSliceGroupId );
for( UInt uiMbAddress = uiFirstMbInSliceGroup; uiMbAddress <= uiLastMbInSliceGroup; uiMbAddress = rcFMO.getNextMBNr( uiMbAddress ) )
{
UInt uiMbY = 0;
UInt uiMbX = 0;
MbDataAccess* pcMbDataAccess = 0;
MbDataAccess* pcMbDataAccessBase = 0;
rcSliceHeader.getMbPositionFromAddress( uiMbY, uiMbX, uiMbAddress );
RNOK( pcMbDataCtrl->initMb( pcMbDataAccess, uiMbY, uiMbX ) );
if( pcBaseLayerCtrl )
{
RNOK( pcBaseLayerCtrl ->initMb( pcMbDataAccessBase, uiMbY, uiMbX ) );
pcMbDataAccess->setMbDataAccessBase( pcMbDataAccessBase );
}
// modify QP values (as specified in G.8.1.5.1.2)
if( pcMbDataAccess->getMbData().getMbCbp() == 0 && ( pcMbDataAccess->getMbData().getMbMode() == INTRA_BL || pcMbDataAccess->getMbData().getResidualPredFlag() ) )
{
pcMbDataAccess->getMbData().setQp( pcMbDataAccessBase->getMbData().getQp() );
}
if( pcMbDataAccess->isTCoeffPred() )
{
if( pcMbDataAccess->getMbData().getMbMode() == INTRA_BL )
{
// We're going to use the BL skip flag to correctly decode the intra prediction mode
AOT( pcMbDataAccess->getMbData().getBLSkipFlag() == false );
// Inherit the mode of the base block
pcMbDataAccess->getMbData().setMbMode( pcMbDataAccessBase->getMbData().getMbMode() );
// Inherit intra prediction modes
for( B4x4Idx cIdx; cIdx.isLegal(); cIdx++ )
pcMbDataAccess->getMbData().intraPredMode(cIdx) = pcMbDataAccessBase->getMbData().intraPredMode(cIdx);
pcMbDataAccess->getMbData().setChromaPredMode( pcMbDataAccessBase->getMbData().getChromaPredMode() );
}
// The 8x8 transform flag is present in the bit-stream unless transform coefficients
// are not transmitted at the enhancement layer. In this case, inherit the base layer
// transform type. This makes intra predition work correctly, etc.
if( ( pcMbDataAccess->getMbData().getMbCbp() & 0x0F ) == 0 )
{
pcMbDataAccess->getMbData().setTransformSize8x8( pcMbDataAccessBase->getMbData().isTransformSize8x8() );
}
xAddTCoeffs2( *pcMbDataAccess, *pcMbDataAccessBase );
}
if( pcMbDataAccess->getMbAddress() != uiFirstMbInSliceGroup &&
pcMbDataAccess->getSH().getTCoeffLevelPredictionFlag() &&
!pcMbDataAccess->getSH().getNoInterLayerPredFlag() &&
!pcMbDataAccess->getMbData().isIntra16x16() &&
pcMbDataAccess->getMbData().getMbExtCbp() == 0 )
{
pcMbDataAccess->getMbData().setQp4LF( pcMbDataAccess->getLastQp4LF() );
}
else
{
pcMbDataAccess->getMbData().setQp4LF( pcMbDataAccess->getMbData().getQp() );
}
}
}
}
return Err::m_nOK;
}
