EncCu.cpp

#if JVET_L0646_GBI
  if( testGbi && gbiIdx == GBI_DEFAULT ) // Enabled GBi but the search results is uni.
  {
    tempCS->initStructData(encTestMode.qp, encTestMode.lossless);
    continue;
  }
  CHECK(!(testGbi || (!testGbi && gbiIdx == GBI_DEFAULT)), " !( bTestGbi || (!bTestGbi && gbiIdx == GBI_DEFAULT ) )");

  bool isEqualUni = false;
  if( m_pcEncCfg->getUseGBiFast() )
  {
    if( cu.firstPU->interDir != 3 && testGbi == 0 )
    {
      isEqualUni = true;
    }
  }
#endif

  if( !CU::hasSubCUNonZeroMVd( cu ) )
  {
    m_modeCtrl->useModeResult( encTestModeBase, tempCS, partitioner );
    return false;
  }

  xEncodeInterResidual( tempCS, bestCS, partitioner, encTestModeBase, 0
    , NULL
    , true
    , 0
#if JVET_L0646_GBI
    , &equGBiCost
#endif
  );

#if JVET_L0646_GBI
  tempCS->initStructData(encTestMode.qp, encTestMode.lossless);

  double skipTH = MAX_DOUBLE;
  skipTH = (m_pcEncCfg->getUseGBiFast() ? 1.05 : MAX_DOUBLE);
  if( equGBiCost > curBestCost * skipTH )
  {
    break;
  }

  if( m_pcEncCfg->getUseGBiFast() )
  {
    if( isEqualUni == true && m_pcEncCfg->getIntraPeriod() == -1 )
    {
      break;
    }
  }
  if( g_GbiSearchOrder[gbiLoopIdx] == GBI_DEFAULT && xIsGBiSkip(cu) && m_pcEncCfg->getUseGBiFast() )
  {
    break;
  }
 } // for( UChar gbiLoopIdx = 0; gbiLoopIdx < gbiLoopNum; gbiLoopIdx++ )
#endif

  return true;
}

void EncCu::xEncodeInterResidual( CodingStructure *&tempCS, CodingStructure *&bestCS, Partitioner &partitioner, const EncTestMode& encTestMode, int residualPass
  , CodingStructure* imvCS
  , int emtMode
  , bool* bestHasNonResi
#if JVET_L0646_GBI
  , double* equGBiCost
#endif
  )
{
  if( residualPass == 1 && encTestMode.lossless )
  {
    return;
  }

  CodingUnit*            cu        = tempCS->getCU( partitioner.chType );
  double   bestCostInternal        = MAX_DOUBLE;
  double           bestCost        = bestCS->cost;
  const SPS&            sps        = *tempCS->sps;
  const int      maxSizeEMT        = tempCS->pcv->noRQT ? EMT_INTER_MAX_CU_WITH_QTBT : EMT_INTER_MAX_CU;
  bool              swapped        = false; // avoid unwanted data copy
  bool             reloadCU        = false;
  const bool considerEmtSecondPass = emtMode && sps.getSpsNext().getUseInterEMT() && partitioner.currArea().lwidth() <= maxSizeEMT && partitioner.currArea().lheight() <= maxSizeEMT;

  int minEMTMode = 0;
  int maxEMTMode = (considerEmtSecondPass?1:0);

  if( emtMode == 2 )
  {
    minEMTMode = maxEMTMode = (cu->emtFlag?1:0);
  }

  for( int curEmtMode = minEMTMode; curEmtMode <= maxEMTMode; curEmtMode++ )
  {
    if( reloadCU )
    {
      if( bestCost == bestCS->cost ) //The first EMT pass didn't become the bestCS, so we clear the TUs generated
      {
        tempCS->clearTUs();
      }
      else if( false == swapped )
      {
        tempCS->initStructData( encTestMode.qp, encTestMode.lossless );
        tempCS->copyStructure( *bestCS, partitioner.chType );
        tempCS->getPredBuf().copyFrom( bestCS->getPredBuf() );
        bestCost = bestCS->cost;
        cu       = tempCS->getCU( partitioner.chType );
        swapped = true;
      }
      else
      {
        tempCS->clearTUs();
        bestCost = bestCS->cost;
        cu       = tempCS->getCU( partitioner.chType );
      }

      //we need to restart the distortion for the new tempCS, the bit count and the cost
      tempCS->dist     = 0;
      tempCS->fracBits = 0;
      tempCS->cost     = MAX_DOUBLE;
    }

    reloadCU    = true; // enable cu reloading
    cu->skip    = false;
    cu->emtFlag = curEmtMode;

    const bool skipResidual = residualPass == 1;
    m_pcInterSearch->encodeResAndCalcRdInterCU( *tempCS, partitioner, skipResidual );

    xEncodeDontSplit( *tempCS, partitioner );

    xCheckDQP( *tempCS, partitioner );

#if JVET_L0646_GBI
    if( ETM_INTER_ME == encTestMode.type )
    {
      if( equGBiCost != NULL )
      {
        if( tempCS->cost < (*equGBiCost) && cu->GBiIdx == GBI_DEFAULT )
        {
          (*equGBiCost) = tempCS->cost;
        }
      }
      else
      {
        CHECK(equGBiCost == NULL, "equGBiCost == NULL");
      }
      if( tempCS->slice->getCheckLDC() && !cu->imv && cu->GBiIdx != GBI_DEFAULT && tempCS->cost < m_bestGbiCost[1] )
      {
        if( tempCS->cost < m_bestGbiCost[0] )
        {
          m_bestGbiCost[1] = m_bestGbiCost[0];
          m_bestGbiCost[0] = tempCS->cost;
          m_bestGbiIdx[1] = m_bestGbiIdx[0];
          m_bestGbiIdx[0] = cu->GBiIdx;
        }
        else
        {
          m_bestGbiCost[1] = tempCS->cost;
          m_bestGbiIdx[1] = cu->GBiIdx;
        }
      }
    }
#endif

    double emtFirstPassCost = tempCS->cost;
    if( imvCS && (tempCS->cost < imvCS->cost) )
    {
      if( imvCS->cost != MAX_DOUBLE )
      {
        imvCS->initStructData( encTestMode.qp, encTestMode.lossless );
      }
      imvCS->copyStructure( *tempCS, partitioner.chType );
    }
    if( NULL != bestHasNonResi && (bestCostInternal > tempCS->cost) )
    {
      bestCostInternal = tempCS->cost;
#if JVET_L0100_MULTI_HYPOTHESIS_INTRA
      if (!(tempCS->getPU(partitioner.chType)->mhIntraFlag))
#endif
      *bestHasNonResi  = !cu->rootCbf;
    }

#if JVET_L0100_MULTI_HYPOTHESIS_INTRA
    if (cu->rootCbf == false)
    {
      if (tempCS->getPU(partitioner.chType)->mhIntraFlag)
      {
        tempCS->cost = MAX_DOUBLE;
        return;
      }
    }
#endif

#if WCG_EXT
    DTRACE_MODE_COST( *tempCS, m_pcRdCost->getLambda( true ) );
#else
    DTRACE_MODE_COST( *tempCS, m_pcRdCost->getLambda() );
#endif
    xCheckBestMode( tempCS, bestCS, partitioner, encTestMode );

    //now we check whether the second pass should be skipped or not
    if( !curEmtMode && maxEMTMode )
    {
      const double thresholdToSkipEmtSecondPass = 1.1; // Skip checking EMT transforms
      const bool bCond1 = !cu->firstTU->cbf[COMPONENT_Y];

      const bool bCond3 = emtFirstPassCost > ( bestCost * thresholdToSkipEmtSecondPass );

      if( m_pcEncCfg->getFastInterEMT() && (bCond1 || bCond3 ) ) 
      {
        maxEMTMode = 0; // do not test EMT
      }
    }
  } //end emt loop
}


void EncCu::xEncodeDontSplit( CodingStructure &cs, Partitioner &partitioner )
{
  m_CABACEstimator->resetBits();

  {
    if( partitioner.canSplit( CU_QUAD_SPLIT, cs ) )
    {
      m_CABACEstimator->split_cu_flag( false, cs, partitioner );
    }
    if( partitioner.canSplit( CU_MT_SPLIT, cs ) )
    {
      m_CABACEstimator->split_cu_mode_mt( CU_DONT_SPLIT, cs, partitioner );
    }
  }

  cs.fracBits += m_CABACEstimator->getEstFracBits(); // split bits
  cs.cost      = m_pcRdCost->calcRdCost( cs.fracBits, cs.dist );

}

#if REUSE_CU_RESULTS
void EncCu::xReuseCachedResult( CodingStructure *&tempCS, CodingStructure *&bestCS, Partitioner &partitioner )
{
  const SPS &sps = *tempCS->sps;

  BestEncInfoCache* bestEncCache = dynamic_cast<BestEncInfoCache*>( m_modeCtrl );
  CHECK( !bestEncCache, "If this mode is chosen, mode controller has to implement the mode caching capabilities" );
  EncTestMode cachedMode;

  if( bestEncCache->setCsFrom( *tempCS, cachedMode, partitioner ) )
  {
    CodingUnit& cu = *tempCS->cus.front();
    partitioner.setCUData( cu );

    if( CU::isIntra( cu ) )
    {
      xReconIntraQT( cu );
    }
    else
    {
      xDeriveCUMV( cu );
      xReconInter( cu );
    }

    Distortion finalDistortion = 0;
    const int  numValidComponents = getNumberValidComponents( tempCS->area.chromaFormat );

    for( int comp = 0; comp < numValidComponents; comp++ )
    {
      const ComponentID compID = ComponentID( comp );

      if( CS::isDualITree( *tempCS ) && toChannelType( compID ) != partitioner.chType )
      {
        continue;
      }

      CPelBuf reco = tempCS->getRecoBuf( compID );
      CPelBuf org  = tempCS->getOrgBuf ( compID );

#if WCG_EXT
      if( m_pcEncCfg->getLumaLevelToDeltaQPMapping().isEnabled() )
      {
        const CPelBuf orgLuma = tempCS->getOrgBuf(tempCS->area.blocks[COMPONENT_Y]);
        finalDistortion += m_pcRdCost->getDistPart( org, reco, sps.getBitDepth( toChannelType( compID ) ), compID, DF_SSE_WTD, &orgLuma );
      }
      else
#endif
      finalDistortion += m_pcRdCost->getDistPart( org, reco, sps.getBitDepth( toChannelType( compID ) ), compID, DF_SSE );
    }

    m_CABACEstimator->getCtx() = m_CurrCtx->start;
    m_CABACEstimator->resetBits();

    CUCtx cuCtx;
    cuCtx.isDQPCoded = true;
    cuCtx.isChromaQpAdjCoded = true;
    m_CABACEstimator->coding_unit( cu, partitioner, cuCtx );

    tempCS->dist     = finalDistortion;
    tempCS->fracBits = m_CABACEstimator->getEstFracBits();
    tempCS->cost     = m_pcRdCost->calcRdCost( tempCS->fracBits, tempCS->dist );

    xEncodeDontSplit( *tempCS,         partitioner );
    xCheckDQP       ( *tempCS,         partitioner );
    xCheckBestMode  (  tempCS, bestCS, partitioner, cachedMode );
  }
  else
  {
    THROW( "Should never happen!" );
  }
}

#endif


//! \}