EncAppCfg.cpp

        if (absPOC >= 0)
        {
          bool alreadyExist = false;
          for (int j = 0; !alreadyExist && j < numRefs; j++)
          {
            if (refList[j] == absPOC)
            {
              alreadyExist = true;
            }
          }
          if (!alreadyExist)
          {
            refList[numRefs] = absPOC;
            numRefs++;
          }
        }
      }
      refList[numRefs] = curPOC;
      numRefs++;
    }
    checkGOP++;
  }
  xConfirmPara(errorGOP, "Invalid GOP structure given");

  m_maxTempLayer = 1;

  for(int i=0; i<m_iGOPSize; i++)
  {
    if(m_GOPList[i].m_temporalId >= m_maxTempLayer)
    {
      m_maxTempLayer = m_GOPList[i].m_temporalId+1;
    }
    xConfirmPara(m_GOPList[i].m_sliceType!='B' && m_GOPList[i].m_sliceType!='P' && m_GOPList[i].m_sliceType!='I', "Slice type must be equal to B or P or I");
  }
  for(int i=0; i<MAX_TLAYER; i++)
  {
    m_numReorderPics[i] = 0;
    m_maxDecPicBuffering[i] = 1;
  }
  for(int i=0; i<m_iGOPSize; i++)
  {
    int numRefPic = m_RPLList0[i].m_numRefPics;
    for (int tmp = 0; tmp < m_RPLList1[i].m_numRefPics; tmp++)
    {
      bool notSame = true;
      for (int jj = 0; notSame && jj < m_RPLList0[i].m_numRefPics; jj++)
      {
        if (m_RPLList1[i].m_deltaRefPics[tmp] == m_RPLList0[i].m_deltaRefPics[jj]) notSame = false;
      }
      if (notSame) numRefPic++;
    }
    if (numRefPic + 1 > m_maxDecPicBuffering[m_GOPList[i].m_temporalId])
    {
      m_maxDecPicBuffering[m_GOPList[i].m_temporalId] = numRefPic + 1;
    }
    int highestDecodingNumberWithLowerPOC = 0;
    for(int j=0; j<m_iGOPSize; j++)
    {
      if(m_GOPList[j].m_POC <= m_GOPList[i].m_POC)
      {
        highestDecodingNumberWithLowerPOC = j;
      }
    }
    int numReorder = 0;
    for(int j=0; j<highestDecodingNumberWithLowerPOC; j++)
    {
      if(m_GOPList[j].m_temporalId <= m_GOPList[i].m_temporalId &&
        m_GOPList[j].m_POC > m_GOPList[i].m_POC)
      {
        numReorder++;
      }
    }
    if(numReorder > m_numReorderPics[m_GOPList[i].m_temporalId])
    {
      m_numReorderPics[m_GOPList[i].m_temporalId] = numReorder;
    }
  }

  for(int i=0; i<MAX_TLAYER-1; i++)
  {
    // a lower layer can not have higher value of m_numReorderPics than a higher layer
    if(m_numReorderPics[i+1] < m_numReorderPics[i])
    {
      m_numReorderPics[i+1] = m_numReorderPics[i];
    }
    // the value of num_reorder_pics[ i ] shall be in the range of 0 to max_dec_pic_buffering[ i ] - 1, inclusive
    if(m_numReorderPics[i] > m_maxDecPicBuffering[i] - 1)
    {
      m_maxDecPicBuffering[i] = m_numReorderPics[i] + 1;
    }
    // a lower layer can not have higher value of m_uiMaxDecPicBuffering than a higher layer
    if(m_maxDecPicBuffering[i+1] < m_maxDecPicBuffering[i])
    {
      m_maxDecPicBuffering[i+1] = m_maxDecPicBuffering[i];
    }
  }

  // the value of num_reorder_pics[ i ] shall be in the range of 0 to max_dec_pic_buffering[ i ] -  1, inclusive
  if(m_numReorderPics[MAX_TLAYER-1] > m_maxDecPicBuffering[MAX_TLAYER-1] - 1)
  {
    m_maxDecPicBuffering[MAX_TLAYER-1] = m_numReorderPics[MAX_TLAYER-1] + 1;
  }

  if( m_picPartitionFlag ) 
  {
    PPS pps;
    uint32_t colIdx, rowIdx;
    uint32_t remSize;
 
    pps.setPicWidthInLumaSamples( m_iSourceWidth );
    pps.setPicHeightInLumaSamples( m_iSourceHeight );
    pps.setLog2CtuSize( floorLog2(m_uiCTUSize) );

    // set default tile column if not provided
    if( m_tileColumnWidth.size() == 0 ) 
    {
      m_tileColumnWidth.push_back( pps.getPicWidthInCtu() );
    }
    // set default tile row if not provided
    if( m_tileRowHeight.size() == 0 ) 
    {
      m_tileRowHeight.push_back( pps.getPicHeightInCtu() );
    }

    // remove any tile columns that can be specified implicitly
    while( m_tileColumnWidth.size() > 1 && m_tileColumnWidth.end()[-1] == m_tileColumnWidth.end()[-2] )
    {
      m_tileColumnWidth.pop_back();
    }

    // remove any tile rows that can be specified implicitly
    while( m_tileRowHeight.size() > 1 && m_tileRowHeight.end()[-1] == m_tileRowHeight.end()[-2] )
    {
      m_tileRowHeight.pop_back();
    }

    // setup tiles in temporary PPS structure
    remSize = pps.getPicWidthInCtu();
    for( colIdx=0; remSize > 0 && colIdx<m_tileColumnWidth.size(); colIdx++ )
    {
      xConfirmPara(m_tileColumnWidth[ colIdx ] == 0, "Tile column widths cannot be equal to 0");
      m_tileColumnWidth[ colIdx ] = std::min( remSize, m_tileColumnWidth[ colIdx ]);
      pps.addTileColumnWidth( m_tileColumnWidth[ colIdx ] );
      remSize -= m_tileColumnWidth[ colIdx ];
    }
    m_tileColumnWidth.resize( colIdx );
    pps.setNumExpTileColumns( (uint32_t)m_tileColumnWidth.size() );    
    remSize = pps.getPicHeightInCtu();
    for( rowIdx=0; remSize > 0 && rowIdx<m_tileRowHeight.size(); rowIdx++ )
    {
      xConfirmPara(m_tileRowHeight[ rowIdx ] == 0, "Tile row heights cannot be equal to 0");
      m_tileRowHeight[ rowIdx ] = std::min( remSize, m_tileRowHeight[ rowIdx ]);
      pps.addTileRowHeight( m_tileRowHeight[ rowIdx ] );
      remSize -= m_tileRowHeight[ rowIdx ];
    }
    m_tileRowHeight.resize( rowIdx );
    pps.setNumExpTileRows( (uint32_t)m_tileRowHeight.size() );
    pps.initTiles();
    xConfirmPara(pps.getNumTileColumns() > getMaxTileColsByLevel( m_level ), "Number of tile columns exceeds maximum number allowed according to specified level");
    xConfirmPara(pps.getNumTileRows()    > getMaxTileRowsByLevel( m_level ), "Number of tile rows exceeds maximum number allowed according to specified level");
    m_numTileCols = pps.getNumTileColumns();
    m_numTileRows = pps.getNumTileRows();

    // rectangular slices
    if( !m_rasterSliceFlag )
    {
      uint32_t sliceIdx;
      bool     needTileIdxDelta = false;

      // generate slice list for the simplified fixed-rectangular-slice-size config option
      if( m_rectSliceFixedWidth > 0 && m_rectSliceFixedHeight > 0 )
      {
        int tileIdx = 0;
        m_rectSlicePos.clear();
        while( tileIdx < pps.getNumTiles() ) 
        {
          uint32_t startTileX = tileIdx % pps.getNumTileColumns();
          uint32_t startTileY = tileIdx / pps.getNumTileColumns();
          uint32_t startCtuX  = pps.getTileColumnBd( startTileX );
          uint32_t startCtuY  = pps.getTileRowBd( startTileY );
          uint32_t stopCtuX   = (startTileX + m_rectSliceFixedWidth)  >= pps.getNumTileColumns() ? pps.getPicWidthInCtu() - 1  : pps.getTileColumnBd( startTileX + m_rectSliceFixedWidth ) - 1;
          uint32_t stopCtuY   = (startTileY + m_rectSliceFixedHeight) >= pps.getNumTileRows()    ? pps.getPicHeightInCtu() - 1 : pps.getTileRowBd( startTileY + m_rectSliceFixedHeight ) - 1;
          uint32_t stopTileX  = pps.ctuToTileCol( stopCtuX );
          uint32_t stopTileY  = pps.ctuToTileRow( stopCtuY );
          
          // add rectangular slice to list
          m_rectSlicePos.push_back( startCtuY * pps.getPicWidthInCtu() + startCtuX );          
          m_rectSlicePos.push_back( stopCtuY  * pps.getPicWidthInCtu() + stopCtuX  );
          
          // get slice size in tiles
          uint32_t sliceWidth  = stopTileX - startTileX + 1;
          uint32_t sliceHeight = stopTileY - startTileY + 1;

          // move to next tile in raster scan order
          tileIdx += sliceWidth;
          if( tileIdx % pps.getNumTileColumns() == 0 )
          {
            tileIdx += (sliceHeight - 1) * pps.getNumTileColumns();
          }
        }
      }

      xConfirmPara( m_rectSlicePos.size() & 1, "Odd number of rectangular slice positions provided. Rectangular slice positions must be specified in pairs of (top-left / bottom-right) raster-scan CTU addresses.");
      
      // set default slice size if not provided
      if( m_rectSlicePos.size() == 0 ) 
      {
        m_rectSlicePos.push_back( 0 );
        m_rectSlicePos.push_back( pps.getPicWidthInCtu() * pps.getPicHeightInCtu() - 1 );
      }
      pps.setNumSlicesInPic( (uint32_t)(m_rectSlicePos.size() >> 1) );
      xConfirmPara(pps.getNumSlicesInPic() > getMaxSlicesByLevel( m_level ), "Number of rectangular slices exceeds maximum number allowed according to specified level");
      pps.initRectSlices();

      // set slice parameters from CTU addresses
      for( sliceIdx = 0; sliceIdx < pps.getNumSlicesInPic(); sliceIdx++ )
      {
        xConfirmPara( m_rectSlicePos[2*sliceIdx]     >= pps.getPicWidthInCtu() * pps.getPicHeightInCtu(), "Rectangular slice position exceeds total number of CTU in picture.");
        xConfirmPara( m_rectSlicePos[2*sliceIdx + 1] >= pps.getPicWidthInCtu() * pps.getPicHeightInCtu(), "Rectangular slice position exceeds total number of CTU in picture.");

        // map raster scan CTU address to X/Y position
        uint32_t startCtuX = m_rectSlicePos[2*sliceIdx]     % pps.getPicWidthInCtu();
        uint32_t startCtuY = m_rectSlicePos[2*sliceIdx]     / pps.getPicWidthInCtu();
        uint32_t stopCtuX  = m_rectSlicePos[2*sliceIdx + 1] % pps.getPicWidthInCtu();
        uint32_t stopCtuY  = m_rectSlicePos[2*sliceIdx + 1] / pps.getPicWidthInCtu();
        
        // get corresponding tile index
        uint32_t startTileX = pps.ctuToTileCol( startCtuX );
        uint32_t startTileY = pps.ctuToTileRow( startCtuY );
        uint32_t stopTileX  = pps.ctuToTileCol( stopCtuX );
        uint32_t stopTileY  = pps.ctuToTileRow( stopCtuY );
        uint32_t tileIdx    = startTileY * pps.getNumTileColumns() + startTileX;

        // get slice size in tiles
        uint32_t sliceWidth  = stopTileX - startTileX + 1;
        uint32_t sliceHeight = stopTileY - startTileY + 1;
        
        // check for slice / tile alignment
        xConfirmPara( startCtuX != pps.getTileColumnBd( startTileX ), "Rectangular slice position does not align with a left tile edge.");
        xConfirmPara( stopCtuX  != (pps.getTileColumnBd( stopTileX + 1 ) - 1), "Rectangular slice position does not align with a right tile edge.");
        if( sliceWidth > 1 || sliceHeight > 1 )
        {
          xConfirmPara( startCtuY != pps.getTileRowBd( startTileY ), "Rectangular slice position does not align with a top tile edge.");
          xConfirmPara( stopCtuY  != (pps.getTileRowBd( stopTileY + 1 ) - 1), "Rectangular slice position does not align with a bottom tile edge.");
        }

        // set slice size and tile index
        pps.setSliceWidthInTiles( sliceIdx, sliceWidth );
        pps.setSliceHeightInTiles( sliceIdx, sliceHeight );
        pps.setSliceTileIdx( sliceIdx, tileIdx );
        if( sliceIdx > 0 && !needTileIdxDelta )
        {
          uint32_t lastTileIdx = pps.getSliceTileIdx( sliceIdx-1 );
          lastTileIdx += pps.getSliceWidthInTiles( sliceIdx-1 );
          if( lastTileIdx % pps.getNumTileColumns() == 0)
          {
            lastTileIdx += (pps.getSliceHeightInTiles( sliceIdx-1 ) - 1) * pps.getNumTileColumns();
          }
          if( lastTileIdx != tileIdx )
          {
            needTileIdxDelta = true;
          }
        }

        // special case for multiple slices within a single tile
        if( sliceWidth == 1 && sliceHeight == 1 )
        {
          uint32_t firstSliceIdx = sliceIdx;
          uint32_t numSlicesInTile = 1;
          pps.setSliceHeightInCtu( sliceIdx, stopCtuY - startCtuY + 1 );
          
          while( sliceIdx < pps.getNumSlicesInPic()-1 ) 
          {
            uint32_t nextTileIdx;
            startCtuX   = m_rectSlicePos[2*(sliceIdx+1)]     % pps.getPicWidthInCtu();
            startCtuY   = m_rectSlicePos[2*(sliceIdx+1)]     / pps.getPicWidthInCtu();
            stopCtuX    = m_rectSlicePos[2*(sliceIdx+1) + 1] % pps.getPicWidthInCtu();
            stopCtuY    = m_rectSlicePos[2*(sliceIdx+1) + 1] / pps.getPicWidthInCtu();          
            startTileX  = pps.ctuToTileCol( startCtuX );
            startTileY  = pps.ctuToTileRow( startCtuY );
            stopTileX   = pps.ctuToTileCol( stopCtuX );
            stopTileY   = pps.ctuToTileRow( stopCtuY );
            nextTileIdx = startTileY * pps.getNumTileColumns() + startTileX;
            sliceWidth  = stopTileX - startTileX + 1;
            sliceHeight = stopTileY - startTileY + 1;
            if(nextTileIdx != tileIdx || sliceWidth != 1 || sliceHeight != 1) 
            {
              break;
            }
            numSlicesInTile++;
            sliceIdx++;
            pps.setSliceWidthInTiles( sliceIdx, 1 );
            pps.setSliceHeightInTiles( sliceIdx, 1 );
            pps.setSliceTileIdx( sliceIdx, tileIdx );    
            pps.setSliceHeightInCtu( sliceIdx, stopCtuY - startCtuY + 1 );
          }
          pps.setNumSlicesInTile( firstSliceIdx, numSlicesInTile );
        }
      }
      pps.setTileIdxDeltaPresentFlag( needTileIdxDelta );
      m_tileIdxDeltaPresentFlag = needTileIdxDelta;
      
      // check rectangular slice mapping and full picture CTU coverage
      pps.initRectSliceMap();

      // store rectangular slice parameters from temporary PPS structure
      m_numSlicesInPic = pps.getNumSlicesInPic();
      m_rectSlices.resize( pps.getNumSlicesInPic() );
      for( sliceIdx = 0; sliceIdx < pps.getNumSlicesInPic(); sliceIdx++ )
      {
        m_rectSlices[sliceIdx].setSliceWidthInTiles( pps.getSliceWidthInTiles(sliceIdx) );
        m_rectSlices[sliceIdx].setSliceHeightInTiles( pps.getSliceHeightInTiles(sliceIdx) );
        m_rectSlices[sliceIdx].setNumSlicesInTile( pps.getNumSlicesInTile(sliceIdx) );
        m_rectSlices[sliceIdx].setSliceHeightInCtu( pps.getSliceHeightInCtu(sliceIdx) );
        m_rectSlices[sliceIdx].setTileIdx( pps.getSliceTileIdx(sliceIdx) );
      }
    }
    // raster-scan slices
    else
    {
      uint32_t listIdx = 0;
      uint32_t remTiles = pps.getNumTiles();

      // set default slice size if not provided
      if( m_rasterSliceSize.size() == 0 ) 
      {
        m_rasterSliceSize.push_back( remTiles );
      }

      // set raster slice sizes
      while( remTiles > 0 )
      {
        // truncate if size exceeds number of remaining tiles
        if( listIdx < m_rasterSliceSize.size() )
        {
          m_rasterSliceSize[listIdx] = std::min( remTiles, m_rasterSliceSize[listIdx] );
          remTiles -= m_rasterSliceSize[listIdx];
        }
        // replicate last size uniformly as needed to cover the remainder of the picture
        else
        {
          m_rasterSliceSize.push_back( std::min( remTiles, m_rasterSliceSize.back() ) );
          remTiles -= m_rasterSliceSize.back();
        }
        listIdx++;
      }
      // shrink list if too many sizes were provided
      m_rasterSliceSize.resize( listIdx );
      
      m_numSlicesInPic = (uint32_t)m_rasterSliceSize.size();
      xConfirmPara(m_rasterSliceSize.size() > getMaxSlicesByLevel( m_level ), "Number of raster-scan slices exceeds maximum number allowed according to specified level");
    }
  }
  else 
  {
    m_numTileCols = 1;
    m_numTileRows = 1;
    m_numSlicesInPic = 1;
  }

  if ((m_MCTSEncConstraint) && (!m_disableLFCrossTileBoundaryFlag))
  {
    printf("Warning: Constrained Encoding for Motion Constrained Tile Sets (MCTS) is enabled. Disabling filtering across tile boundaries!\n");
    m_disableLFCrossTileBoundaryFlag = true;
  }
  if ((m_MCTSEncConstraint) && (m_TMVPModeId))
  {
    printf("Warning: Constrained Encoding for Motion Constrained Tile Sets (MCTS) is enabled. Disabling TMVP!\n");
    m_TMVPModeId = 0;
  }

  if ((m_MCTSEncConstraint) && ( m_alf ))
  {
    printf("Warning: Constrained Encoding for Motion Constrained Tile Sets (MCTS) is enabled. Disabling ALF!\n");
    m_alf = false;
  }
  if( ( m_MCTSEncConstraint ) && ( m_BIO ) )
  {
    printf( "Warning: Constrained Encoding for Motion Constrained Tile Sets (MCTS) is enabled. Disabling BIO!\n" );
    m_BIO = false;
  }

  // If m_PPSorSliceFlag is equal to 1, for each PPS parameter below,
  //     0:  value is signaled in slice header
  //     >0: value is derived from PPS parameter as value - 1
  switch (m_PPSorSliceMode)
  {
  case 0: // All parameter values are signaled in slice header
    m_constantSliceHeaderParamsEnabledFlag = 0;
    m_PPSDepQuantEnabledIdc = 0;
    m_PPSRefPicListSPSIdc0 = 0;
    m_PPSRefPicListSPSIdc1 = 0;
    m_PPSMvdL1ZeroIdc = 0;
    m_PPSCollocatedFromL0Idc = 0;
    m_PPSSixMinusMaxNumMergeCandPlus1 = 0;
#if !JVET_Q0806
    m_PPSMaxNumMergeCandMinusMaxNumTriangleCandPlus1 = 0;
#else
    m_PPSMaxNumMergeCandMinusMaxNumGeoCandPlus1 = 0;
#endif
    break;
  case 1: // RA setting
    m_constantSliceHeaderParamsEnabledFlag = 1;
    m_PPSDepQuantEnabledIdc = (m_depQuantEnabledFlag ? 1 : 0) + 1;
    m_PPSRefPicListSPSIdc0 = 0;
    m_PPSRefPicListSPSIdc1 = 0;
    m_PPSMvdL1ZeroIdc = 0;
    m_PPSCollocatedFromL0Idc = 0;
    m_PPSSixMinusMaxNumMergeCandPlus1 = 6 - m_maxNumMergeCand + 1;
#if !JVET_Q0806
    m_PPSMaxNumMergeCandMinusMaxNumTriangleCandPlus1 = m_maxNumMergeCand - m_maxNumTriangleCand + 1;
#else
    m_PPSMaxNumMergeCandMinusMaxNumGeoCandPlus1 = m_maxNumMergeCand - m_maxNumGeoCand + 1;
#endif
    break;
  case 2: // LDB setting
    m_constantSliceHeaderParamsEnabledFlag = 1;
    m_PPSDepQuantEnabledIdc = (m_depQuantEnabledFlag ? 1 : 0) + 1;
    m_PPSRefPicListSPSIdc0 = 2;
    m_PPSRefPicListSPSIdc1 = 2;
    m_PPSMvdL1ZeroIdc = 2;
    m_PPSCollocatedFromL0Idc = 1;
    m_PPSSixMinusMaxNumMergeCandPlus1 = 6 - m_maxNumMergeCand + 1;
#if !JVET_Q0806
    m_PPSMaxNumMergeCandMinusMaxNumTriangleCandPlus1 = m_maxNumMergeCand - m_maxNumTriangleCand + 1;
#else
    m_PPSMaxNumMergeCandMinusMaxNumGeoCandPlus1 = m_maxNumMergeCand - m_maxNumGeoCand + 1;
#endif
    break;
  case 3: // LDP setting
    m_constantSliceHeaderParamsEnabledFlag = 1;
    m_PPSDepQuantEnabledIdc = (m_depQuantEnabledFlag ? 1 : 0) + 1;
    m_PPSRefPicListSPSIdc0 = 2;
    m_PPSRefPicListSPSIdc1 = 2;
    m_PPSMvdL1ZeroIdc = 0;
    m_PPSCollocatedFromL0Idc = 0;
    m_PPSSixMinusMaxNumMergeCandPlus1 = 6 - m_maxNumMergeCand + 1;
#if !JVET_Q0806
    m_PPSMaxNumMergeCandMinusMaxNumTriangleCandPlus1 = 0;
#else
    m_PPSMaxNumMergeCandMinusMaxNumGeoCandPlus1 = 0;
#endif
    break;
  default:
    THROW("Invalid value for PPSorSliceMode");
  }
  xConfirmPara(m_drapPeriod > 0 && m_PPSRefPicListSPSIdc0 > 0, "PPSRefPicListSPSIdc0 shall be 0 when DRAP is used. This can be fixed by setting PPSorSliceMode=0.");
  xConfirmPara(m_drapPeriod > 0 && m_PPSRefPicListSPSIdc1 > 0, "PPSRefPicListSPSIdc1 shall be 0 when DRAP is used. This can be fixed by setting PPSorSliceMode=0.");

#if HEVC_SEI
  if (m_toneMappingInfoSEIEnabled)
  {
    xConfirmPara( m_toneMapCodedDataBitDepth < 8 || m_toneMapCodedDataBitDepth > 14 , "SEIToneMapCodedDataBitDepth must be in rage 8 to 14");
    xConfirmPara( m_toneMapTargetBitDepth < 1 || (m_toneMapTargetBitDepth > 16 && m_toneMapTargetBitDepth < 255) , "SEIToneMapTargetBitDepth must be in rage 1 to 16 or equal to 255");
    xConfirmPara( m_toneMapModelId < 0 || m_toneMapModelId > 4 , "SEIToneMapModelId must be in rage 0 to 4");
    xConfirmPara( m_cameraIsoSpeedValue == 0, "SEIToneMapCameraIsoSpeedValue shall not be equal to 0");
    xConfirmPara( m_exposureIndexValue  == 0, "SEIToneMapExposureIndexValue shall not be equal to 0");
    xConfirmPara( m_extendedRangeWhiteLevel < 100, "SEIToneMapExtendedRangeWhiteLevel should be greater than or equal to 100");
    xConfirmPara( m_nominalBlackLevelLumaCodeValue >= m_nominalWhiteLevelLumaCodeValue, "SEIToneMapNominalWhiteLevelLumaCodeValue shall be greater than SEIToneMapNominalBlackLevelLumaCodeValue");
    xConfirmPara( m_extendedWhiteLevelLumaCodeValue < m_nominalWhiteLevelLumaCodeValue, "SEIToneMapExtendedWhiteLevelLumaCodeValue shall be greater than or equal to SEIToneMapNominalWhiteLevelLumaCodeValue");
  }

  if (m_kneeSEIEnabled && !m_kneeSEICancelFlag)
  {
    xConfirmPara( m_kneeSEINumKneePointsMinus1 < 0 || m_kneeSEINumKneePointsMinus1 > 998, "SEIKneeFunctionNumKneePointsMinus1 must be in the range of 0 to 998");
    for ( uint32_t i=0; i<=m_kneeSEINumKneePointsMinus1; i++ )
    {
      xConfirmPara( m_kneeSEIInputKneePoint[i] < 1 || m_kneeSEIInputKneePoint[i] > 999, "SEIKneeFunctionInputKneePointValue must be in the range of 1 to 999");
      xConfirmPara( m_kneeSEIOutputKneePoint[i] < 0 || m_kneeSEIOutputKneePoint[i] > 1000, "SEIKneeFunctionInputKneePointValue must be in the range of 0 to 1000");
      if ( i > 0 )
      {
        xConfirmPara( m_kneeSEIInputKneePoint[i-1] >= m_kneeSEIInputKneePoint[i],  "The i-th SEIKneeFunctionInputKneePointValue must be greater than the (i-1)-th value");
        xConfirmPara( m_kneeSEIOutputKneePoint[i-1] > m_kneeSEIOutputKneePoint[i],  "The i-th SEIKneeFunctionOutputKneePointValue must be greater than or equal to the (i-1)-th value");
      }
    }
  }

  if (m_chromaResamplingFilterSEIenabled)
  {
    xConfirmPara( (m_chromaFormatIDC == CHROMA_400 ), "chromaResamplingFilterSEI is not allowed to be present when ChromaFormatIDC is equal to zero (4:0:0)" );
    xConfirmPara(m_vuiParametersPresentFlag && m_chromaLocInfoPresentFlag && (m_chromaSampleLocTypeTopField != m_chromaSampleLocTypeBottomField ), "When chromaResamplingFilterSEI is enabled, ChromaSampleLocTypeTopField has to be equal to ChromaSampleLocTypeBottomField" );
  }
#endif
  xConfirmPara( m_sariAspectRatioIdc < 0 || m_sariAspectRatioIdc > 255, "SEISARISampleAspectRatioIdc must be in the range of 0 to 255");

  if ( m_RCEnableRateControl )
  {
    if ( m_RCForceIntraQP )
    {
      if ( m_RCInitialQP == 0 )
      {
        msg( WARNING, "\nInitial QP for rate control is not specified. Reset not to use force intra QP!" );
        m_RCForceIntraQP = false;
      }
    }
    xConfirmPara( m_uiDeltaQpRD > 0, "Rate control cannot be used together with slice level multiple-QP optimization!\n" );
#if U0132_TARGET_BITS_SATURATION
    if ((m_RCCpbSaturationEnabled) && (m_level!=Level::NONE) && (m_profile!=Profile::NONE))
    {
      uint32_t uiLevelIdx = (m_level / 10) + (uint32_t)((m_level % 10) / 3);    // (m_level / 30)*3 + ((m_level % 10) / 3);
      xConfirmPara(m_RCCpbSize > g_uiMaxCpbSize[m_levelTier][uiLevelIdx], "RCCpbSize should be smaller than or equal to Max CPB size according to tier and level");
      xConfirmPara(m_RCInitialCpbFullness > 1, "RCInitialCpbFullness should be smaller than or equal to 1");
    }
#endif
  }
#if U0132_TARGET_BITS_SATURATION
  else
  {
    xConfirmPara( m_RCCpbSaturationEnabled != 0, "Target bits saturation cannot be processed without Rate control" );
  }
#endif

  if (m_framePackingSEIEnabled)
  {
    xConfirmPara(m_framePackingSEIType < 3 || m_framePackingSEIType > 5 , "SEIFramePackingType must be in rage 3 to 5");
  }

  if( m_erpSEIEnabled && !m_erpSEICancelFlag )
  {
    xConfirmPara( m_erpSEIGuardBandType < 0 || m_erpSEIGuardBandType > 8, "SEIEquirectangularprojectionGuardBandType must be in the range of 0 to 7");
    xConfirmPara( (m_chromaFormatIDC == CHROMA_420 || m_chromaFormatIDC == CHROMA_422) && (m_erpSEILeftGuardBandWidth%2 == 1), "SEIEquirectangularprojectionLeftGuardBandWidth must be an even number for 4:2:0 or 4:2:2 chroma format");
    xConfirmPara( (m_chromaFormatIDC == CHROMA_420 || m_chromaFormatIDC == CHROMA_422) && (m_erpSEIRightGuardBandWidth%2 == 1), "SEIEquirectangularprojectionRightGuardBandWidth must be an even number for 4:2:0 or 4:2:2 chroma format");
  }

  if( m_sphereRotationSEIEnabled && !m_sphereRotationSEICancelFlag )
  {
    xConfirmPara( m_sphereRotationSEIYaw  < -(180<<16) || m_sphereRotationSEIYaw > (180<<16)-1, "SEISphereRotationYaw must be in the range of -11 796 480 to 11 796 479");
    xConfirmPara( m_sphereRotationSEIPitch < -(90<<16) || m_sphereRotationSEIYaw > (90<<16),    "SEISphereRotationPitch must be in the range of -5 898 240 to 5 898 240");
    xConfirmPara( m_sphereRotationSEIRoll < -(180<<16) || m_sphereRotationSEIYaw > (180<<16)-1, "SEISphereRotationRoll must be in the range of -11 796 480 to 11 796 479");
  }

  if ( m_omniViewportSEIEnabled && !m_omniViewportSEICancelFlag )
  {
    xConfirmPara( m_omniViewportSEIId < 0 || m_omniViewportSEIId > 1023, "SEIomniViewportId must be in the range of 0 to 1023");
    xConfirmPara( m_omniViewportSEICntMinus1 < 0 || m_omniViewportSEICntMinus1 > 15, "SEIomniViewportCntMinus1 must be in the range of 0 to 15");
    for ( uint32_t i=0; i<=m_omniViewportSEICntMinus1; i++ )
    {
      xConfirmPara( m_omniViewportSEIAzimuthCentre[i] < -(180<<16)  || m_omniViewportSEIAzimuthCentre[i] > (180<<16)-1, "SEIOmniViewportAzimuthCentre must be in the range of -11 796 480 to 11 796 479");
      xConfirmPara( m_omniViewportSEIElevationCentre[i] < -(90<<16) || m_omniViewportSEIElevationCentre[i] > (90<<16),  "SEIOmniViewportSEIElevationCentre must be in the range of -5 898 240 to 5 898 240");
      xConfirmPara( m_omniViewportSEITiltCentre[i] < -(180<<16)     || m_omniViewportSEITiltCentre[i] > (180<<16)-1,    "SEIOmniViewportTiltCentre must be in the range of -11 796 480 to 11 796 479");
      xConfirmPara( m_omniViewportSEIHorRange[i] < 1 || m_omniViewportSEIHorRange[i] > (360<<16), "SEIOmniViewportHorRange must be in the range of 1 to 360*2^16");
      xConfirmPara( m_omniViewportSEIVerRange[i] < 1 || m_omniViewportSEIVerRange[i] > (180<<16), "SEIOmniViewportVerRange must be in the range of 1 to 180*2^16");
    }
  }

  if (m_gcmpSEIEnabled && !m_gcmpSEICancelFlag)
  {
    xConfirmPara( m_gcmpSEIMappingFunctionType < 0 || m_gcmpSEIMappingFunctionType > 2, "SEIGcmpMappingFunctionType must be in the range of 0 to 2");
    int numFace = m_gcmpSEIPackingType == 4 || m_gcmpSEIPackingType == 5 ? 5 : 6;
    for ( int i = 0; i < numFace; i++ )
    {
      xConfirmPara( m_gcmpSEIFaceIndex[i] < 0 || m_gcmpSEIFaceIndex[i] > 5,       "SEIGcmpFaceIndex must be in the range of 0 to 5");
      xConfirmPara( m_gcmpSEIFaceRotation[i] < 0 || m_gcmpSEIFaceRotation[i] > 3, "SEIGcmpFaceRotation must be in the range of 0 to 3");
      if (m_gcmpSEIMappingFunctionType == 2)
      {
        xConfirmPara( m_gcmpSEIFunctionCoeffU[i] <= 0.0 || m_gcmpSEIFunctionCoeffU[i] > 1.0, "SEIGcmpFunctionCoeffU must be in the range (0, 1]");
        xConfirmPara( m_gcmpSEIFunctionCoeffV[i] <= 0.0 || m_gcmpSEIFunctionCoeffV[i] > 1.0, "SEIGcmpFunctionCoeffV must be in the range (0, 1]");
      }
    }
    if (m_gcmpSEIGuardBandFlag)
    {
      xConfirmPara( m_gcmpSEIGuardBandSamplesMinus1 < 0 || m_gcmpSEIGuardBandSamplesMinus1 > 15, "SEIGcmpGuardBandSamplesMinus1 must be in the range of 0 to 15");
    }
  }
#if JVET_Q0297_MER
  xConfirmPara(m_log2ParallelMergeLevel < 2, "Log2ParallelMergeLevel should be larger than or equal to 2");
#endif
#if U0033_ALTERNATIVE_TRANSFER_CHARACTERISTICS_SEI
  xConfirmPara(m_preferredTransferCharacteristics > 255, "transfer_characteristics_idc should not be greater than 255.");
#endif
  xConfirmPara( unsigned(m_ImvMode) > 1, "ImvMode exceeds range (0 to 1)" );
  xConfirmPara( m_decodeBitstreams[0] == m_bitstreamFileName, "Debug bitstream and the output bitstream cannot be equal.\n" );
  xConfirmPara( m_decodeBitstreams[1] == m_bitstreamFileName, "Decode2 bitstream and the output bitstream cannot be equal.\n" );
  xConfirmPara(unsigned(m_LMChroma) > 1, "LMMode exceeds range (0 to 1)");
  if (m_gopBasedTemporalFilterEnabled)
  {
    xConfirmPara(m_temporalSubsampleRatio != 1, "GOP Based Temporal Filter only support Temporal sub-sample ratio 1");
  }
#if EXTENSION_360_VIDEO
  check_failed |= m_ext360.verifyParameters();
#endif

#if !JVET_Q0089_SLICE_LOSSLESS_CODING_CHROMA_BDPCM
  xConfirmPara(m_useBDPCM < 0 || m_useBDPCM > 2, "BDPCM must be in range 0..2");
#endif
#if JVET_Q0820_ACT
  xConfirmPara(m_useColorTrans && (m_log2MaxTbSize == 6), "Log2MaxTbSize must be less than 6 when ACT is enabled, otherwise ACT needs to be disabled");
#endif

#undef xConfirmPara
  return check_failed;
}

const char *profileToString(const Profile::Name profile)
{
  static const uint32_t numberOfProfiles = sizeof(strToProfile)/sizeof(*strToProfile);

  for (uint32_t profileIndex = 0; profileIndex < numberOfProfiles; profileIndex++)
  {
    if (strToProfile[profileIndex].value == profile)
    {
      return strToProfile[profileIndex].str;
    }
  }

  //if we get here, we didn't find this profile in the list - so there is an error
  EXIT( "ERROR: Unknown profile \"" << profile << "\" in profileToString" );
  return "";
}

void EncAppCfg::xPrintParameter()
{
  //msg( DETAILS, "\n" );
  msg( DETAILS, "Input          File                    : %s\n", m_inputFileName.c_str() );
  msg( DETAILS, "Bitstream      File                    : %s\n", m_bitstreamFileName.c_str() );
  msg( DETAILS, "Reconstruction File                    : %s\n", m_reconFileName.c_str() );
  msg( DETAILS, "Real     Format                        : %dx%d %gHz\n", m_iSourceWidth - m_confWinLeft - m_confWinRight, m_iSourceHeight - m_confWinTop - m_confWinBottom, (double)m_iFrameRate / m_temporalSubsampleRatio );
  msg( DETAILS, "Internal Format                        : %dx%d %gHz\n", m_iSourceWidth, m_iSourceHeight, (double)m_iFrameRate / m_temporalSubsampleRatio );
  msg( DETAILS, "Sequence PSNR output                   : %s\n", ( m_printMSEBasedSequencePSNR ? "Linear average, MSE-based" : "Linear average only" ) );
  msg( DETAILS, "Hexadecimal PSNR output                : %s\n", ( m_printHexPsnr ? "Enabled" : "Disabled" ) );
  msg( DETAILS, "Sequence MSE output                    : %s\n", ( m_printSequenceMSE ? "Enabled" : "Disabled" ) );
  msg( DETAILS, "Frame MSE output                       : %s\n", ( m_printFrameMSE ? "Enabled" : "Disabled" ) );
  msg( DETAILS, "Cabac-zero-word-padding                : %s\n", ( m_cabacZeroWordPaddingEnabled ? "Enabled" : "Disabled" ) );
  if (m_isField)
  {
    msg( DETAILS, "Frame/Field                            : Field based coding\n" );
    msg( DETAILS, "Field index                            : %u - %d (%d fields)\n", m_FrameSkip, m_FrameSkip + m_framesToBeEncoded - 1, m_framesToBeEncoded );
    msg( DETAILS, "Field Order                            : %s field first\n", m_isTopFieldFirst ? "Top" : "Bottom" );

  }
  else
  {
    msg( DETAILS, "Frame/Field                            : Frame based coding\n" );
    msg( DETAILS, "Frame index                            : %u - %d (%d frames)\n", m_FrameSkip, m_FrameSkip + m_framesToBeEncoded - 1, m_framesToBeEncoded );
  }
  {
    msg( DETAILS, "Profile                                : %s\n", profileToString(m_profile) );
  }
  msg( DETAILS, "CU size / depth / total-depth          : %d / %d / %d\n", m_uiMaxCUWidth, m_uiMaxCUDepth, m_uiMaxCodingDepth );
#if JVET_Q0119_CLEANUPS
  msg(DETAILS, "subpicture info present flag                       : %d\n", m_subPicInfoPresentFlag);
  if (m_subPicInfoPresentFlag)
#else
  msg(DETAILS, "subpicture present flag                            : %d\n", m_subPicPresentFlag);
  if (m_subPicPresentFlag) 
#endif
  {
    msg(DETAILS, "number of subpictures                            : %d\n", m_numSubPics);
    for (int i = 0; i < m_numSubPics; i++) 
    {
      msg(DETAILS, "[%d]th subpictures location                           :[%d %d]\n", i, m_subPicCtuTopLeftX[i], m_subPicCtuTopLeftY[i]);
      msg(DETAILS, "[%d]th subpictures size                           :[%d %d]\n", i, m_subPicWidth[i], m_subPicHeight[i]);
      msg(DETAILS, "[%d]th subpictures treated as picture flag                           :%d\n", i, m_subPicTreatedAsPicFlag[i]);
      msg(DETAILS, "loop filter cross [%d]th subpictures enabled flag                           :%d\n", i, m_loopFilterAcrossSubpicEnabledFlag[i]);

    }
  }

#if JVET_Q0119_CLEANUPS
  msg(DETAILS, "subpicture ID present flag                            : %d\n", m_subPicIdMappingExplicitlySignalledFlag);
  if (m_subPicIdMappingExplicitlySignalledFlag)
  {
    msg(DETAILS, "subpicture ID signalling present flag                            : %d\n", m_subPicIdMappingInSpsFlag);
#else
  msg(DETAILS, "subpicture ID present flag                            : %d\n", m_subPicIdPresentFlag);
  if (m_subPicIdPresentFlag) 
  {
    msg(DETAILS, "subpicture ID signalling present flag                            : %d\n", m_subPicIdSignallingPresentFlag);
#endif
    for (int i = 0; i < m_numSubPics; i++) 
    {
      msg(DETAILS, "[%d]th subpictures ID length                           :%d\n", i, m_subPicIdLen);
      msg(DETAILS, "[%d]th subpictures ID                          :%d\n", i, m_subPicId[i]);

    }
  }
  msg( DETAILS, "Max TB size                            : %d \n", 1 << m_log2MaxTbSize );
  msg( DETAILS, "Motion search range                    : %d\n", m_iSearchRange );
  msg( DETAILS, "Intra period                           : %d\n", m_iIntraPeriod );
  msg( DETAILS, "Decoding refresh type                  : %d\n", m_iDecodingRefreshType );
  msg( DETAILS, "DRAP period                            : %d\n", m_drapPeriod );
#if QP_SWITCHING_FOR_PARALLEL
  if (m_qpIncrementAtSourceFrame.bPresent)
  {
    msg( DETAILS, "QP                                     : %d (incrementing internal QP at source frame %d)\n", m_iQP, m_qpIncrementAtSourceFrame.value);
  }
  else
  {
    msg( DETAILS, "QP                                     : %d\n", m_iQP);
  }
#else
  msg( DETAILS, "QP                                     : %5.2f\n", m_fQP );
#endif
  msg( DETAILS, "Max dQP signaling subdiv               : %d\n", m_cuQpDeltaSubdiv);

  msg( DETAILS, "Cb QP Offset (dual tree)               : %d (%d)\n", m_cbQpOffset, m_cbQpOffsetDualTree);
  msg( DETAILS, "Cr QP Offset (dual tree)               : %d (%d)\n", m_crQpOffset, m_crQpOffsetDualTree);
  msg( DETAILS, "QP adaptation                          : %d (range=%d)\n", m_bUseAdaptiveQP, (m_bUseAdaptiveQP ? m_iQPAdaptationRange : 0) );
  msg( DETAILS, "GOP size                               : %d\n", m_iGOPSize );
  msg( DETAILS, "Input bit depth                        : (Y:%d, C:%d)\n", m_inputBitDepth[CHANNEL_TYPE_LUMA], m_inputBitDepth[CHANNEL_TYPE_CHROMA] );
  msg( DETAILS, "MSB-extended bit depth                 : (Y:%d, C:%d)\n", m_MSBExtendedBitDepth[CHANNEL_TYPE_LUMA], m_MSBExtendedBitDepth[CHANNEL_TYPE_CHROMA] );
  msg( DETAILS, "Internal bit depth                     : (Y:%d, C:%d)\n", m_internalBitDepth[CHANNEL_TYPE_LUMA], m_internalBitDepth[CHANNEL_TYPE_CHROMA] );
  msg( DETAILS, "Intra reference smoothing              : %s\n", (m_enableIntraReferenceSmoothing           ? "Enabled" : "Disabled") );
  msg( DETAILS, "cu_chroma_qp_offset_subdiv             : %d\n", m_cuChromaQpOffsetSubdiv);
  msg( DETAILS, "extended_precision_processing_flag     : %s\n", (m_extendedPrecisionProcessingFlag         ? "Enabled" : "Disabled") );
  msg( DETAILS, "implicit_rdpcm_enabled_flag            : %s\n", (m_rdpcmEnabledFlag[RDPCM_SIGNAL_IMPLICIT] ? "Enabled" : "Disabled") );
  msg( DETAILS, "explicit_rdpcm_enabled_flag            : %s\n", (m_rdpcmEnabledFlag[RDPCM_SIGNAL_EXPLICIT] ? "Enabled" : "Disabled") );
  msg( DETAILS, "transform_skip_rotation_enabled_flag   : %s\n", (m_transformSkipRotationEnabledFlag        ? "Enabled" : "Disabled") );
  msg( DETAILS, "transform_skip_context_enabled_flag    : %s\n", (m_transformSkipContextEnabledFlag         ? "Enabled" : "Disabled") );
  msg( DETAILS, "cross_component_prediction_enabled_flag: %s\n", (m_crossComponentPredictionEnabledFlag     ? (m_reconBasedCrossCPredictionEstimate ? "Enabled (reconstructed-residual-based estimate)" : "Enabled (encoder-side-residual-based estimate)") : "Disabled") );
  msg( DETAILS, "high_precision_offsets_enabled_flag    : %s\n", (m_highPrecisionOffsetsEnabledFlag         ? "Enabled" : "Disabled") );
  msg( DETAILS, "persistent_rice_adaptation_enabled_flag: %s\n", (m_persistentRiceAdaptationEnabledFlag     ? "Enabled" : "Disabled") );
  msg( DETAILS, "cabac_bypass_alignment_enabled_flag    : %s\n", (m_cabacBypassAlignmentEnabledFlag         ? "Enabled" : "Disabled") );
  if (m_bUseSAO)
  {
    msg( DETAILS, "log2_sao_offset_scale_luma             : %d\n", m_log2SaoOffsetScale[CHANNEL_TYPE_LUMA] );
    msg( DETAILS, "log2_sao_offset_scale_chroma           : %d\n", m_log2SaoOffsetScale[CHANNEL_TYPE_CHROMA] );
  }

  switch (m_costMode)
  {
    case COST_STANDARD_LOSSY:               msg( DETAILS, "Cost function:                         : Lossy coding (default)\n"); break;
    case COST_SEQUENCE_LEVEL_LOSSLESS:      msg( DETAILS, "Cost function:                         : Sequence_level_lossless coding\n"); break;
    case COST_LOSSLESS_CODING:              msg( DETAILS, "Cost function:                         : Lossless coding with fixed QP of %d\n", LOSSLESS_AND_MIXED_LOSSLESS_RD_COST_TEST_QP); break;
    case COST_MIXED_LOSSLESS_LOSSY_CODING:  msg( DETAILS, "Cost function:                         : Mixed_lossless_lossy coding with QP'=%d for lossless evaluation\n", LOSSLESS_AND_MIXED_LOSSLESS_RD_COST_TEST_QP_PRIME); break;
    default:                                msg( DETAILS, "Cost function:                         : Unknown\n"); break;
  }

  msg( DETAILS, "RateControl                            : %d\n", m_RCEnableRateControl );
  msg( DETAILS, "WeightedPredMethod                     : %d\n", int(m_weightedPredictionMethod));

  if(m_RCEnableRateControl)
  {
    msg( DETAILS, "TargetBitrate                          : %d\n", m_RCTargetBitrate );
    msg( DETAILS, "KeepHierarchicalBit                    : %d\n", m_RCKeepHierarchicalBit );
    msg( DETAILS, "LCULevelRC                             : %d\n", m_RCLCULevelRC );
    msg( DETAILS, "UseLCUSeparateModel                    : %d\n", m_RCUseLCUSeparateModel );
    msg( DETAILS, "InitialQP                              : %d\n", m_RCInitialQP );
    msg( DETAILS, "ForceIntraQP                           : %d\n", m_RCForceIntraQP );
#if U0132_TARGET_BITS_SATURATION
    msg( DETAILS, "CpbSaturation                          : %d\n", m_RCCpbSaturationEnabled );
    if (m_RCCpbSaturationEnabled)
    {
      msg( DETAILS, "CpbSize                                : %d\n", m_RCCpbSize);
      msg( DETAILS, "InitalCpbFullness                      : %.2f\n", m_RCInitialCpbFullness);
    }
#endif
  }

  msg( DETAILS, "Max Num Merge Candidates               : %d\n", m_maxNumMergeCand );
  msg( DETAILS, "Max Num Affine Merge Candidates        : %d\n", m_maxNumAffineMergeCand );
#if !JVET_Q0806
  msg( DETAILS, "Max Num Triangle Merge Candidates      : %d\n", m_maxNumTriangleCand );
#else
  msg( DETAILS, "Max Num Geo Merge Candidates           : %d\n", m_maxNumGeoCand );
#endif
  msg( DETAILS, "Max Num IBC Merge Candidates           : %d\n", m_maxNumIBCMergeCand );
  msg( DETAILS, "\n");

  msg( VERBOSE, "TOOL CFG: ");
  msg( VERBOSE, "IBD:%d ", ((m_internalBitDepth[CHANNEL_TYPE_LUMA] > m_MSBExtendedBitDepth[CHANNEL_TYPE_LUMA]) || (m_internalBitDepth[CHANNEL_TYPE_CHROMA] > m_MSBExtendedBitDepth[CHANNEL_TYPE_CHROMA])));
  msg( VERBOSE, "HAD:%d ", m_bUseHADME                          );
  msg( VERBOSE, "RDQ:%d ", m_useRDOQ                            );
  msg( VERBOSE, "RDQTS:%d ", m_useRDOQTS                        );
  msg( VERBOSE, "RDpenalty:%d ", m_rdPenalty                    );
#if SHARP_LUMA_DELTA_QP
  msg( VERBOSE, "LQP:%d ", m_lumaLevelToDeltaQPMapping.mode     );
#endif
  msg( VERBOSE, "SQP:%d ", m_uiDeltaQpRD                        );
  msg( VERBOSE, "ASR:%d ", m_bUseASR                            );
  msg( VERBOSE, "MinSearchWindow:%d ", m_minSearchWindow        );
  msg( VERBOSE, "RestrictMESampling:%d ", m_bRestrictMESampling );
  msg( VERBOSE, "FEN:%d ", int(m_fastInterSearchMode)           );
  msg( VERBOSE, "ECU:%d ", m_bUseEarlyCU                        );
  msg( VERBOSE, "FDM:%d ", m_useFastDecisionForMerge            );
  msg( VERBOSE, "CFM:%d ", m_bUseCbfFastMode                    );
  msg( VERBOSE, "ESD:%d ", m_useEarlySkipDetection              );
  msg( VERBOSE, "TransformSkip:%d ",     m_useTransformSkip     );
  msg( VERBOSE, "TransformSkipFast:%d ", m_useTransformSkipFast );
  msg( VERBOSE, "TransformSkipLog2MaxSize:%d ", m_log2MaxTransformSkipBlockSize);
  msg(VERBOSE, "ChromaTS:%d ", m_useChromaTS);
  msg( VERBOSE, "BDPCM:%d ", m_useBDPCM                         );
  msg( VERBOSE, "Tiles: %dx%d ", m_numTileCols, m_numTileRows );
  msg( VERBOSE, "Slices: %d ", m_numSlicesInPic);
  msg( VERBOSE, "MCTS:%d ", m_MCTSEncConstraint );
  msg( VERBOSE, "SAO:%d ", (m_bUseSAO)?(1):(0));
  msg( VERBOSE, "ALF:%d ", m_alf ? 1 : 0 );
#if JVET_Q0795_CCALF
  msg( VERBOSE, "CCALF:%d ", m_ccalf ? 1 : 0 );
#endif

  msg( VERBOSE, "WPP:%d ", (int)m_useWeightedPred);
  msg( VERBOSE, "WPB:%d ", (int)m_useWeightedBiPred);
#if JVET_Q0297_MER
  msg( VERBOSE, "PME:%d ", m_log2ParallelMergeLevel);
#endif
  const int iWaveFrontSubstreams = m_entropyCodingSyncEnabledFlag ? (m_iSourceHeight + m_uiMaxCUHeight - 1) / m_uiMaxCUHeight : 1;
  msg( VERBOSE, " WaveFrontSynchro:%d WaveFrontSubstreams:%d", m_entropyCodingSyncEnabledFlag?1:0, iWaveFrontSubstreams);
  msg( VERBOSE, " ScalingList:%d ", m_useScalingListId );
  msg( VERBOSE, "TMVPMode:%d ", m_TMVPModeId );
  msg( VERBOSE, " DQ:%d ", m_depQuantEnabledFlag);
  msg( VERBOSE, " SignBitHidingFlag:%d ", m_signDataHidingEnabledFlag);
  msg( VERBOSE, "RecalQP:%d ", m_recalculateQPAccordingToLambda ? 1 : 0 );

  {
    msg( VERBOSE, "\nTOOL CFG: " );
    msg( VERBOSE, "LFNST:%d ", m_LFNST );
    msg( VERBOSE, "MMVD:%d ", m_MMVD);
    msg( VERBOSE, "Affine:%d ", m_Affine );
    if ( m_Affine )
    {
      msg( VERBOSE, "AffineType:%d ", m_AffineType );
    }
    msg(VERBOSE, "PROF:%d ", m_PROF);
    msg(VERBOSE, "SubPuMvp:%d+%d ", m_SubPuMvpMode & 1, (m_SubPuMvpMode & 2) == 2);
    msg( VERBOSE, "DualITree:%d ", m_dualTree );
    msg( VERBOSE, "IMV:%d ", m_ImvMode );
    msg( VERBOSE, "BIO:%d ", m_BIO );
    msg( VERBOSE, "LMChroma:%d ", m_LMChroma );
    msg( VERBOSE, "HorCollocatedChroma:%d ", m_horCollocatedChromaFlag );
    msg( VERBOSE, "VerCollocatedChroma:%d ", m_verCollocatedChromaFlag );
    msg( VERBOSE, "MTS: %1d(intra) %1d(inter) ", m_MTS & 1, ( m_MTS >> 1 ) & 1 );
    msg( VERBOSE, "SBT:%d ", m_SBT );
    msg( VERBOSE, "ISP:%d ", m_ISP );
    msg( VERBOSE, "SMVD:%d ", m_SMVD );
    msg( VERBOSE, "CompositeLTReference:%d ", m_compositeRefEnabled);
    msg( VERBOSE, "Bcw:%d ", m_bcw );
    msg( VERBOSE, "BcwFast:%d ", m_BcwFast );
#if LUMA_ADAPTIVE_DEBLOCKING_FILTER_QP_OFFSET
    msg( VERBOSE, "LADF:%d ", m_LadfEnabed );
#endif
    msg(VERBOSE, "CIIP:%d ", m_ciip);
#if !JVET_Q0806
    msg( VERBOSE, "Triangle:%d ", m_Triangle );
#else
    msg( VERBOSE, "Geo:%d ", m_Geo );
#endif
    m_allowDisFracMMVD = m_MMVD ? m_allowDisFracMMVD : false;
    if ( m_MMVD )
      msg(VERBOSE, "AllowDisFracMMVD:%d ", m_allowDisFracMMVD);
    msg( VERBOSE, "AffineAmvr:%d ", m_AffineAmvr );
    m_AffineAmvrEncOpt = m_AffineAmvr ? m_AffineAmvrEncOpt : false;
    msg( VERBOSE, "AffineAmvrEncOpt:%d ", m_AffineAmvrEncOpt );
    msg(VERBOSE, "DMVR:%d ", m_DMVR);
    msg(VERBOSE, "MmvdDisNum:%d ", m_MmvdDisNum);
    msg(VERBOSE, "JointCbCr:%d ", m_JointCbCrMode);
  }
#if JVET_Q0820_ACT
  m_useColorTrans = (m_chromaFormatIDC == CHROMA_444) ? m_useColorTrans : 0u;
#else
  m_useColorTrans = (m_chromaFormatIDC == CHROMA_444 && m_costMode != COST_LOSSLESS_CODING) ? m_useColorTrans : 0u;
#endif
  msg(VERBOSE, "ACT:%d ", m_useColorTrans);
#if !JVET_Q0504_PLT_NON444
    m_PLTMode = ( m_chromaFormatIDC == CHROMA_444) ? m_PLTMode : 0u;
#endif
    msg(VERBOSE, "PLT:%d ", m_PLTMode);
    msg(VERBOSE, "IBC:%d ", m_IBCMode);
  msg( VERBOSE, "HashME:%d ", m_HashME );
  msg( VERBOSE, "WrapAround:%d ", m_wrapAround);
  if( m_wrapAround )
  {
    msg( VERBOSE, "WrapAroundOffset:%d ", m_wrapAroundOffset );
  }
  // ADD_NEW_TOOL (add some output indicating the usage of tools)
  msg(VERBOSE, "LoopFilterAcrossVirtualBoundaries:%d ", m_loopFilterAcrossVirtualBoundariesDisabledFlag);
  if ( m_loopFilterAcrossVirtualBoundariesDisabledFlag )
  {
    msg(VERBOSE, "vertical virtual boundaries:[");
    for (unsigned i = 0; i < m_numVerVirtualBoundaries; i++)
    {
      msg(VERBOSE, " %d", m_virtualBoundariesPosX[i]);
    }
    msg(VERBOSE, " ] horizontal virtual boundaries:[");
    for (unsigned i = 0; i < m_numHorVirtualBoundaries; i++)
    {
      msg(VERBOSE, " %d", m_virtualBoundariesPosY[i]);
    }
    msg(VERBOSE, " ] ");
  }
    msg(VERBOSE, "Reshape:%d ", m_lmcsEnabled);
    if (m_lmcsEnabled)
    {
      msg(VERBOSE, "(Signal:%s ", m_reshapeSignalType == 0 ? "SDR" : (m_reshapeSignalType == 2 ? "HDR-HLG" : "HDR-PQ"));
      msg(VERBOSE, "Opt:%d", m_adpOption);
      if (m_adpOption > 0) { msg(VERBOSE, " CW:%d", m_initialCW); }
      msg(VERBOSE, " CSoffset:%d", m_CSoffset);
      msg(VERBOSE, ") ");
    }
    msg(VERBOSE, "MRL:%d ", m_MRL);
    msg(VERBOSE, "MIP:%d ", m_MIP);
    msg(VERBOSE, "EncDbOpt:%d ", m_encDbOpt);
  msg( VERBOSE, "\nFAST TOOL CFG: " );
  msg( VERBOSE, "LCTUFast:%d ", m_useFastLCTU );
  msg( VERBOSE, "FastMrg:%d ", m_useFastMrg );
  msg( VERBOSE, "PBIntraFast:%d ", m_usePbIntraFast );
  if( m_ImvMode ) msg( VERBOSE, "IMV4PelFast:%d ", m_Imv4PelFast );
  if( m_MTS ) msg( VERBOSE, "MTSMaxCand: %1d(intra) %1d(inter) ", m_MTSIntraMaxCand, m_MTSInterMaxCand );
  if( m_ISP ) msg( VERBOSE, "ISPFast:%d ", m_useFastISP );
  if( m_LFNST ) msg( VERBOSE, "FastLFNST:%d ", m_useFastLFNST );
  msg( VERBOSE, "AMaxBT:%d ", m_useAMaxBT );
  msg( VERBOSE, "E0023FastEnc:%d ", m_e0023FastEnc );
  msg( VERBOSE, "ContentBasedFastQtbt:%d ", m_contentBasedFastQtbt );
  msg( VERBOSE, "UseNonLinearAlfLuma:%d ", m_useNonLinearAlfLuma );
  msg( VERBOSE, "UseNonLinearAlfChroma:%d ", m_useNonLinearAlfChroma );
  msg( VERBOSE, "MaxNumAlfAlternativesChroma:%d ", m_maxNumAlfAlternativesChroma );
  if( m_MIP ) msg(VERBOSE, "FastMIP:%d ", m_useFastMIP);
  msg( VERBOSE, "FastLocalDualTree:%d ", m_fastLocalDualTreeMode );

  msg( VERBOSE, "NumSplitThreads:%d ", m_numSplitThreads );
  if( m_numSplitThreads > 1 )
  {
    msg( VERBOSE, "ForceSingleSplitThread:%d ", m_forceSplitSequential );
  }
  msg( VERBOSE, "NumWppThreads:%d+%d ", m_numWppThreads, m_numWppExtraLines );
  msg( VERBOSE, "EnsureWppBitEqual:%d ", m_ensureWppBitEqual );

  if( m_rprEnabled )
  {
    msg( VERBOSE, "RPR:(%1.2lfx, %1.2lfx)|%d ", m_scalingRatioHor, m_scalingRatioVer, m_switchPocPeriod );
  }
  else
  {
    msg( VERBOSE, "RPR:%d ", 0 );
  }
  msg(VERBOSE, "TemporalFilter:%d ", m_gopBasedTemporalFilterEnabled);
#if EXTENSION_360_VIDEO
  m_ext360.outputConfigurationSummary();
#endif

  msg( VERBOSE, "\n\n");

  msg( NOTICE, "\n");

  fflush( stdout );
}

bool EncAppCfg::xHasNonZeroTemporalID ()
{
  for (unsigned int i = 0; i < m_iGOPSize; i++)
  {
    if ( m_GOPList[i].m_temporalId != 0 )
    {
      return true;
    }
  }
  return false;
}

bool EncAppCfg::xHasLeadingPicture ()
{
  for (unsigned int i = 0; i < m_iGOPSize; i++)
  {
    for ( unsigned int j = 0; j < m_GOPList[i].m_numRefPics0; j++)
    {
      if ( m_GOPList[i].m_deltaRefPics0[j] < 0 )
      {
        return true;
      }
    }
    for ( unsigned int j = 0; j < m_GOPList[i].m_numRefPics1; j++)
    {
      if ( m_GOPList[i].m_deltaRefPics1[j] < 0 )
      {
        return true;
      }
    }
  }
  return false;
}


bool confirmPara(bool bflag, const char* message)
{
  if (!bflag)
  {
    return false;
  }

  msg( ERROR, "Error: %s\n",message);
  return true;
}



//! \}