InterPrediction.cpp

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/** \file     Prediction.cpp
    \brief    prediction class
*/

#include "InterPrediction.h"

#include "Buffer.h"
#include "UnitTools.h"

#include <memory.h>
#include <algorithm>

//! \ingroup CommonLib
//! \{

// ====================================================================================================================
// Constructor / destructor / initialize
// ====================================================================================================================

InterPrediction::InterPrediction()
:
  m_currChromaFormat( NUM_CHROMA_FORMAT )
, m_maxCompIDToPred ( MAX_NUM_COMPONENT )
, m_pcRdCost        ( nullptr )
#if JVET_L0265_AFF_MINIMUM4X4
, m_storedMv        ( nullptr )
#endif
#if JVET_L0256_BIO
, m_gradX0(nullptr)
, m_gradY0(nullptr)
, m_gradX1(nullptr)
, m_gradY1(nullptr)
, m_subPuMC(false)
#endif
{
  for( uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++ )
  {
    for( uint32_t refList = 0; refList < NUM_REF_PIC_LIST_01; refList++ )
    {
      m_acYuvPred[refList][ch] = nullptr;
    }
  }

  for( uint32_t c = 0; c < MAX_NUM_COMPONENT; c++ )
  {
    for( uint32_t i = 0; i < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; i++ )
    {
      for( uint32_t j = 0; j < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; j++ )
      {
        m_filteredBlock[i][j][c] = nullptr;
      }

      m_filteredBlockTmp[i][c] = nullptr;
    }
  }

}

InterPrediction::~InterPrediction()
{
  destroy();
}

void InterPrediction::destroy()
{
  for( uint32_t i = 0; i < NUM_REF_PIC_LIST_01; i++ )
  {
    for( uint32_t c = 0; c < MAX_NUM_COMPONENT; c++ )
    {
      xFree( m_acYuvPred[i][c] );
      m_acYuvPred[i][c] = nullptr;
    }
  }

  for( uint32_t c = 0; c < MAX_NUM_COMPONENT; c++ )
  {
    for( uint32_t i = 0; i < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; i++ )
    {
      for( uint32_t j = 0; j < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; j++ )
      {
        xFree( m_filteredBlock[i][j][c] );
        m_filteredBlock[i][j][c] = nullptr;
      }

      xFree( m_filteredBlockTmp[i][c] );
      m_filteredBlockTmp[i][c] = nullptr;
    }
  }

#if JVET_L0124_L0208_TRIANGLE
  m_tmpTriangleBuf.destroy();
#endif

#if JVET_L0265_AFF_MINIMUM4X4
  if (m_storedMv != nullptr)
  {
    delete[]m_storedMv;
  }
#endif

#if JVET_L0256_BIO
  xFree(m_gradX0);   m_gradX0 = nullptr;
  xFree(m_gradY0);   m_gradY0 = nullptr;
  xFree(m_gradX1);   m_gradX1 = nullptr;
  xFree(m_gradY1);   m_gradY1 = nullptr;
#endif
}

void InterPrediction::init( RdCost* pcRdCost, ChromaFormat chromaFormatIDC )
{
  m_pcRdCost = pcRdCost;


  // if it has been initialised before, but the chroma format has changed, release the memory and start again.
  if( m_acYuvPred[REF_PIC_LIST_0][COMPONENT_Y] != nullptr && m_currChromaFormat != chromaFormatIDC )
  {
    destroy();
  }

  m_currChromaFormat = chromaFormatIDC;
  if( m_acYuvPred[REF_PIC_LIST_0][COMPONENT_Y] == nullptr ) // check if first is null (in which case, nothing initialised yet)
  {
    for( uint32_t c = 0; c < MAX_NUM_COMPONENT; c++ )
    {
#if JVET_L0256_BIO
      int extWidth = MAX_CU_SIZE + (2 * BIO_EXTEND_SIZE + 2) + 16;
      int extHeight = MAX_CU_SIZE + (2 * BIO_EXTEND_SIZE + 2) + 1;
#else
      int extWidth  = MAX_CU_SIZE + 16;
      int extHeight = MAX_CU_SIZE + 1;
#endif
      for( uint32_t i = 0; i < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; i++ )
      {
        m_filteredBlockTmp[i][c] = ( Pel* ) xMalloc( Pel, ( extWidth + 4 ) * ( extHeight + 7 + 4 ) );

        for( uint32_t j = 0; j < LUMA_INTERPOLATION_FILTER_SUB_SAMPLE_POSITIONS; j++ )
        {
          m_filteredBlock[i][j][c] = ( Pel* ) xMalloc( Pel, extWidth * extHeight );
        }
      }

      // new structure
      for( uint32_t i = 0; i < NUM_REF_PIC_LIST_01; i++ )
      {
        m_acYuvPred[i][c] = ( Pel* ) xMalloc( Pel, MAX_CU_SIZE * MAX_CU_SIZE );
      }
    }

#if JVET_L0124_L0208_TRIANGLE
    m_tmpTriangleBuf.create(UnitArea(chromaFormatIDC, Area(0, 0, MAX_CU_SIZE, MAX_CU_SIZE)));
#endif

    m_iRefListIdx = -1;
  
#if JVET_L0256_BIO
    m_gradX0 = (Pel*)xMalloc(Pel, BIO_TEMP_BUFFER_SIZE);
    m_gradY0 = (Pel*)xMalloc(Pel, BIO_TEMP_BUFFER_SIZE);
    m_gradX1 = (Pel*)xMalloc(Pel, BIO_TEMP_BUFFER_SIZE);
    m_gradY1 = (Pel*)xMalloc(Pel, BIO_TEMP_BUFFER_SIZE);
#endif
  }

#if !JVET_J0090_MEMORY_BANDWITH_MEASURE
  m_if.initInterpolationFilter( true );
#endif

#if JVET_L0265_AFF_MINIMUM4X4