IntraPrediction.cpp 71.4 KB
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/* The copyright in this software is being made available under the BSD
 * License, included below. This software may be subject to other third party
 * and contributor rights, including patent rights, and no such rights are
 * granted under this license.
 *
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 * Copyright (c) 2010-2019, ITU/ISO/IEC
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 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above copyright notice,
 *    this list of conditions and the following disclaimer in the documentation
 *    and/or other materials provided with the distribution.
 *  * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
 *    be used to endorse or promote products derived from this software without
 *    specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */

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

#include "IntraPrediction.h"

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

#include "dtrace_next.h"
#include "Rom.h"

#include <memory.h>

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#include "CommonLib/InterpolationFilter.h"

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//! \ingroup CommonLib
//! \{

// ====================================================================================================================
// Tables
// ====================================================================================================================

const uint8_t IntraPrediction::m_aucIntraFilter[MAX_NUM_CHANNEL_TYPE][MAX_INTRA_FILTER_DEPTHS] =
{
  { // Luma
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#if JVET_O0277_INTRA_SMALL_BLOCK_DCTIF
    24, //   1xn
    24, //   2xn
    24, //   4xn
#else
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    20, //   1xn
    20, //   2xn
    20, //   4xn
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#endif
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    14, //   8xn
    2,  //  16xn
    0,  //  32xn
    0,  //  64xn
    0,  // 128xn
  },
  { // Chroma
    40, //   1xn
    40, //   2xn
    40, //   4xn
    28, //   8xn
    4,  //  16xn
    0,  //  32xn
    0,  //  64xn
    0,  // 128xn
  }
};

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const TFilterCoeff g_intraGaussFilter[32][4] = {
  { 16, 32, 16, 0 },
  { 15, 29, 17, 3 },
  { 15, 29, 17, 3 },
  { 14, 29, 18, 3 },
  { 13, 29, 18, 4 },
  { 13, 28, 19, 4 },
  { 13, 28, 19, 4 },
  { 12, 28, 20, 4 },
  { 11, 28, 20, 5 },
  { 11, 27, 21, 5 },
  { 10, 27, 22, 5 },
  { 9, 27, 22, 6 },
  { 9, 26, 23, 6 },
  { 9, 26, 23, 6 },
  { 8, 25, 24, 7 },
  { 8, 25, 24, 7 },
  { 8, 24, 24, 8 },
  { 7, 24, 25, 8 },
  { 7, 24, 25, 8 },
  { 6, 23, 26, 9 },
  { 6, 23, 26, 9 },
  { 6, 22, 27, 9 },
  { 5, 22, 27, 10 },
  { 5, 21, 27, 11 },
  { 5, 20, 28, 11 },
  { 4, 20, 28, 12 },
  { 4, 19, 28, 13 },
  { 4, 19, 28, 13 },
  { 4, 18, 29, 13 },
  { 3, 18, 29, 14 },
  { 3, 17, 29, 15 },
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  { 3, 17, 29, 15 }
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};

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

IntraPrediction::IntraPrediction()
:
  m_currChromaFormat( NUM_CHROMA_FORMAT )
{
  for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
  {
    for (uint32_t buf = 0; buf < NUM_PRED_BUF; buf++)
    {
      m_piYuvExt[ch][buf] = nullptr;
    }
  }
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  for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
  {
    for (uint32_t buf = 0; buf < 4; buf++)
    {
      m_yuvExt2[ch][buf] = nullptr;
    }
  }
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  m_piTemp = nullptr;
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  m_pMdlmTemp = nullptr;
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}

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

void IntraPrediction::destroy()
{
  for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
  {
    for (uint32_t buf = 0; buf < NUM_PRED_BUF; buf++)
    {
      delete[] m_piYuvExt[ch][buf];
      m_piYuvExt[ch][buf] = nullptr;
    }
  }
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  for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
  {
    for (uint32_t buf = 0; buf < 4; buf++)
    {
      delete[] m_yuvExt2[ch][buf];
      m_yuvExt2[ch][buf] = nullptr;
    }
  }
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  delete[] m_piTemp;
  m_piTemp = nullptr;
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  delete[] m_pMdlmTemp;
  m_pMdlmTemp = nullptr;
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#if JVET_O0119_BASE_PALETTE_444
  if (m_runTypeRD) { xFree(m_runTypeRD);	 m_runTypeRD = NULL; }
  if (m_runLengthRD) { xFree(m_runLengthRD); m_runLengthRD = NULL; }
#endif
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}

void IntraPrediction::init(ChromaFormat chromaFormatIDC, const unsigned bitDepthY)
{
  // if it has been initialised before, but the chroma format has changed, release the memory and start again.
  if (m_piYuvExt[COMPONENT_Y][PRED_BUF_UNFILTERED] != nullptr && m_currChromaFormat != chromaFormatIDC)
  {
    destroy();
  }

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  if (m_yuvExt2[COMPONENT_Y][0] != nullptr && m_currChromaFormat != chromaFormatIDC)
  {
    destroy();
  }

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  m_currChromaFormat = chromaFormatIDC;

  if (m_piYuvExt[COMPONENT_Y][PRED_BUF_UNFILTERED] == nullptr) // check if first is null (in which case, nothing initialised yet)
  {
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    m_iYuvExtSize = (MAX_CU_SIZE * 2 + 1 + MAX_REF_LINE_IDX * 33) * (MAX_CU_SIZE * 2 + 1 + MAX_REF_LINE_IDX * 33);
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    for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
    {
      for (uint32_t buf = 0; buf < NUM_PRED_BUF; buf++)
      {
        m_piYuvExt[ch][buf] = new Pel[m_iYuvExtSize];
      }
    }
  }

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  if (m_yuvExt2[COMPONENT_Y][0] == nullptr) // check if first is null (in which case, nothing initialised yet)
  {
    m_yuvExtSize2 = (MAX_CU_SIZE) * (MAX_CU_SIZE);

    for (uint32_t ch = 0; ch < MAX_NUM_COMPONENT; ch++)
    {
      for (uint32_t buf = 0; buf < 4; buf++)
      {
        m_yuvExt2[ch][buf] = new Pel[m_yuvExtSize2];
      }
    }
  }

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  if (m_piTemp == nullptr)
  {
    m_piTemp = new Pel[(MAX_CU_SIZE + 1) * (MAX_CU_SIZE + 1)];
  }
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  if (m_pMdlmTemp == nullptr)
  {
    m_pMdlmTemp = new Pel[(2 * MAX_CU_SIZE + 1)*(2 * MAX_CU_SIZE + 1)];//MDLM will use top-above and left-below samples.
  }
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#if JVET_O0119_BASE_PALETTE_444
  m_runTypeRD = (bool*)xMalloc(bool, MAX_CU_SIZE*MAX_CU_SIZE);
  m_runLengthRD = (Pel*)xMalloc(Pel, MAX_CU_SIZE*MAX_CU_SIZE);
#endif
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}

// ====================================================================================================================
// Public member functions
// ====================================================================================================================

// Function for calculating DC value of the reference samples used in Intra prediction
//NOTE: Bit-Limit - 25-bit source
Pel IntraPrediction::xGetPredValDc( const CPelBuf &pSrc, const Size &dstSize )
{
  CHECK( dstSize.width == 0 || dstSize.height == 0, "Empty area provided" );

  int idx, sum = 0;
  Pel dcVal;
  const int width  = dstSize.width;
  const int height = dstSize.height;
  const auto denom     = (width == height) ? (width << 1) : std::max(width,height);
  const auto divShift  = g_aucLog2[denom];
  const auto divOffset = (denom >> 1);

  if ( width >= height )
  {
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    for( idx = 0; idx < width; idx++ )
    {
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#if JVET_O0426_MRL_REF_SAMPLES_DC_MODE
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      sum += pSrc.at(m_ipaParam.multiRefIndex + 1 + idx, 0);
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#else
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      sum += pSrc.at( 1 + idx, 0 );
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#endif
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    }
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  }
  if ( width <= height )
  {
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    for( idx = 0; idx < height; idx++ )
    {
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#if JVET_O0426_MRL_REF_SAMPLES_DC_MODE
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      sum += pSrc.at(0, m_ipaParam.multiRefIndex + 1 + idx);
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#else
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      sum += pSrc.at( 0, 1 + idx );
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#endif
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    }
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  }

  dcVal = (sum + divOffset) >> divShift;
  return dcVal;
}

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int IntraPrediction::getWideAngle( int width, int height, int predMode )
{
  if ( predMode > DC_IDX && predMode <= VDIA_IDX )
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  {
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    int modeShift[] = { 0, 6, 10, 12, 14, 15 };
    int deltaSize = abs(g_aucLog2[width] - g_aucLog2[height]);
    if (width > height && predMode < 2 + modeShift[deltaSize])
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    {
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      predMode += (VDIA_IDX - 1);
    }
    else if (height > width && predMode > VDIA_IDX - modeShift[deltaSize])
    {
      predMode -= (VDIA_IDX - 1);
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    }
  }
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  return predMode;
}
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void IntraPrediction::setReferenceArrayLengths( const CompArea &area )
{
  // set Top and Left reference samples length
  const int  width    = area.width;
  const int  height   = area.height;
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  m_leftRefLength     = (height << 1);
  m_topRefLength      = (width << 1);
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}
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void IntraPrediction::predIntraAng( const ComponentID compId, PelBuf &piPred, const PredictionUnit &pu)
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{
  const ComponentID    compID       = MAP_CHROMA( compId );
  const ChannelType    channelType  = toChannelType( compID );
  const int            iWidth       = piPred.width;
  const int            iHeight      = piPred.height;
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  const uint32_t       uiDirMode    = isLuma( compId ) && pu.cu->bdpcmMode ? BDPCM_IDX : PU::getFinalIntraMode( pu, channelType );
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  CHECK( g_aucLog2[iWidth] < 2 && pu.cs->pcv->noChroma2x2, "Size not allowed" );
  CHECK( g_aucLog2[iWidth] > 7, "Size not allowed" );
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  const int multiRefIdx = m_ipaParam.multiRefIndex;
  const int whRatio     = m_ipaParam.whRatio;
  const int hwRatio     = m_ipaParam.hwRatio;

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  const int  srcStride  = m_topRefLength  + 1 + (whRatio + 1) * multiRefIdx;
  const int  srcHStride = m_leftRefLength + 1 + (hwRatio + 1) * multiRefIdx;
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  const CPelBuf & srcBuf = CPelBuf(getPredictorPtr(compID), srcStride, srcHStride);
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  const ClpRng& clpRng(pu.cu->cs->slice->clpRng(compID));

  switch (uiDirMode)
  {
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    case(PLANAR_IDX): xPredIntraPlanar(srcBuf, piPred); break;
    case(DC_IDX):     xPredIntraDc(srcBuf, piPred, channelType, false); break;
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    case(BDPCM_IDX):  xPredIntraBDPCM(srcBuf, piPred, pu.cu->bdpcmMode, clpRng); break;
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    default:          xPredIntraAng(srcBuf, piPred, channelType, clpRng); break;
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  }

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  if (m_ipaParam.applyPDPC)
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  {
    PelBuf dstBuf = piPred;
    const int scale = ((g_aucLog2[iWidth] - 2 + g_aucLog2[iHeight] - 2 + 2) >> 2);
    CHECK(scale < 0 || scale > 31, "PDPC: scale < 0 || scale > 31");

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#if JVET_O0364_PDPC_DC
    if (uiDirMode == PLANAR_IDX || uiDirMode == DC_IDX)
#else
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    if (uiDirMode == PLANAR_IDX)
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#endif
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    {
      for (int y = 0; y < iHeight; y++)
      {
        int wT = 32 >> std::min(31, ((y << 1) >> scale));
        const Pel left = srcBuf.at(0, y + 1);
        for (int x = 0; x < iWidth; x++)
        {
          const Pel top = srcBuf.at(x + 1, 0);
          int wL = 32 >> std::min(31, ((x << 1) >> scale));
          dstBuf.at(x, y) = ClipPel((wL * left + wT * top + (64 - wL - wT) * dstBuf.at(x, y) + 32) >> 6, clpRng);
        }
      }
    }
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#if !JVET_O0364_PDPC_DC
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    else if (uiDirMode == DC_IDX)
    {
      const Pel topLeft = srcBuf.at(0, 0);
      for (int y = 0; y < iHeight; y++)
      {
        int wT = 32 >> std::min(31, ((y << 1) >> scale));
        const Pel left = srcBuf.at(0, y + 1);
        for (int x = 0; x < iWidth; x++)
        {
          const Pel top = srcBuf.at(x + 1, 0);
          int wL = 32 >> std::min(31, ((x << 1) >> scale));
          int wTL = (wL >> 4) + (wT >> 4);
          dstBuf.at(x, y) = ClipPel((wL * left + wT * top - wTL * topLeft + (64 - wL - wT + wTL) * dstBuf.at(x, y) + 32) >> 6, clpRng);
        }
      }
    }
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#endif
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    else if (uiDirMode == HOR_IDX)
    {
      const Pel topLeft = srcBuf.at(0, 0);
      for (int y = 0; y < iHeight; y++)
      {
        int wT = 32 >> std::min(31, ((y << 1) >> scale));
        for (int x = 0; x < iWidth; x++)
        {
          const Pel top = srcBuf.at(x + 1, 0);
          int wTL = wT;
          dstBuf.at(x, y) = ClipPel((wT * top - wTL * topLeft + (64 - wT + wTL) * dstBuf.at(x, y) + 32) >> 6, clpRng);
        }
      }
    }
    else if (uiDirMode == VER_IDX)
    {
      const Pel topLeft = srcBuf.at(0, 0);
      for (int y = 0; y < iHeight; y++)
      {
        const Pel left = srcBuf.at(0, y + 1);
        for (int x = 0; x < iWidth; x++)
        {
          int wL = 32 >> std::min(31, ((x << 1) >> scale));
          int wTL = wL;
          dstBuf.at(x, y) = ClipPel((wL * left - wTL * topLeft + (64 - wL + wTL) * dstBuf.at(x, y) + 32) >> 6, clpRng);
        }
      }
    }
  }
}
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void IntraPrediction::predIntraChromaLM(const ComponentID compID, PelBuf &piPred, const PredictionUnit &pu, const CompArea& chromaArea, int intraDir)
{
  int  iLumaStride = 0;
  PelBuf Temp;
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  if ((intraDir == MDLM_L_IDX) || (intraDir == MDLM_T_IDX))
  {
    iLumaStride = 2 * MAX_CU_SIZE + 1;
    Temp = PelBuf(m_pMdlmTemp + iLumaStride + 1, iLumaStride, Size(chromaArea));
  }
  else
  {
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    iLumaStride = MAX_CU_SIZE + 1;
    Temp = PelBuf(m_piTemp + iLumaStride + 1, iLumaStride, Size(chromaArea));
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  }
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  int a, b, iShift;
  xGetLMParameters(pu, compID, chromaArea, a, b, iShift);

  ////// final prediction
  piPred.copyFrom(Temp);
  piPred.linearTransform(a, iShift, b, true, pu.cs->slice->clpRng(compID));
}

/** Function for deriving planar intra prediction. This function derives the prediction samples for planar mode (intra coding).
 */

//NOTE: Bit-Limit - 24-bit source
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void IntraPrediction::xPredIntraPlanar( const CPelBuf &pSrc, PelBuf &pDst )
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{
  const uint32_t width  = pDst.width;
  const uint32_t height = pDst.height;
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  const uint32_t log2W  = g_aucLog2[width  < 2 ? 2 : width];
  const uint32_t log2H  = g_aucLog2[height < 2 ? 2 : height];
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  int leftColumn[MAX_CU_SIZE + 1], topRow[MAX_CU_SIZE + 1], bottomRow[MAX_CU_SIZE], rightColumn[MAX_CU_SIZE];
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  const uint32_t offset = 1 << (log2W + log2H);
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  // Get left and above reference column and row
  for( int k = 0; k < width + 1; k++ )
  {
    topRow[k] = pSrc.at( k + 1, 0 );
  }

  for( int k = 0; k < height + 1; k++ )
  {
    leftColumn[k] = pSrc.at( 0, k + 1 );
  }

  // Prepare intermediate variables used in interpolation
  int bottomLeft = leftColumn[height];
  int topRight = topRow[width];

  for( int k = 0; k < width; k++ )
  {
    bottomRow[k] = bottomLeft - topRow[k];
    topRow[k]    = topRow[k] << log2H;
  }

  for( int k = 0; k < height; k++ )
  {
    rightColumn[k] = topRight - leftColumn[k];
    leftColumn[k]  = leftColumn[k] << log2W;
  }

  const uint32_t finalShift = 1 + log2W + log2H;
  const uint32_t stride     = pDst.stride;
  Pel*       pred       = pDst.buf;
  for( int y = 0; y < height; y++, pred += stride )
  {
    int horPred = leftColumn[y];

    for( int x = 0; x < width; x++ )
    {
      horPred += rightColumn[y];
      topRow[x] += bottomRow[x];

      int vertPred = topRow[x];
      pred[x]      = ( ( horPred << log2H ) + ( vertPred << log2W ) + offset ) >> finalShift;
    }
  }
}
void IntraPrediction::xPredIntraDc( const CPelBuf &pSrc, PelBuf &pDst, const ChannelType channelType, const bool enableBoundaryFilter )
{
  const Pel dcval = xGetPredValDc( pSrc, pDst );
  pDst.fill( dcval );
}

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// Function for initialization of intra prediction parameters
void IntraPrediction::initPredIntraParams(const PredictionUnit & pu, const CompArea area, const SPS& sps)
{
  const ComponentID compId = area.compID;
  const ChannelType chType = toChannelType(compId);

  const bool        useISP = NOT_INTRA_SUBPARTITIONS != pu.cu->ispMode && isLuma( chType );

  const Size   cuSize    = Size( pu.cu->blocks[compId].width, pu.cu->blocks[compId].height );
  const Size   puSize    = Size( area.width, area.height );
  const Size&  blockSize = useISP ? cuSize : puSize;
  const int      dirMode = PU::getFinalIntraMode(pu, chType);
  const int     predMode = getWideAngle( blockSize.width, blockSize.height, dirMode );

  m_ipaParam.whRatio              = std::max( unsigned( 1 ), blockSize.width  / blockSize.height ) ;
  m_ipaParam.hwRatio              = std::max( unsigned( 1 ), blockSize.height / blockSize.width  ) ;
  m_ipaParam.isModeVer            = predMode >= DIA_IDX;
  m_ipaParam.multiRefIndex        = isLuma (chType) ? pu.multiRefIdx : 0 ;
  m_ipaParam.refFilterFlag        = false;
  m_ipaParam.interpolationFlag    = false;
  m_ipaParam.applyPDPC            = !useISP && m_ipaParam.multiRefIndex == 0;

  const int    intraPredAngleMode = (m_ipaParam.isModeVer) ? predMode - VER_IDX : -(predMode - HOR_IDX);


  int absAng = 0;
  if (dirMode > DC_IDX && dirMode < NUM_LUMA_MODE) // intraPredAngle for directional modes
  {
    static const int angTable[32]    = { 0,    1,    2,    3,    4,    6,     8,   10,   12,   14,   16,   18,   20,   23,   26,   29,   32,   35,   39,  45,  51,  57,  64,  73,  86, 102, 128, 171, 256, 341, 512, 1024 };
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    static const int invAngTable[32] = { 0, 8192, 4096, 2731, 2048, 1365,  1024,  819,  683,  585,  512,  455,  410,  356,  315,  282,  256,  234,  210, 182, 161, 144, 128, 112,  95,  80,  64,  48,  32,  24,  16,    8 }; // (256 * 32) / Angle
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    const int     absAngMode         = abs(intraPredAngleMode);
    const int     signAng            = intraPredAngleMode < 0 ? -1 : 1;
                  absAng             = angTable  [absAngMode];

    m_ipaParam.invAngle              = invAngTable[absAngMode];
    m_ipaParam.intraPredAngle        = signAng * absAng;
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#if JVET_O0364_PDPC_ANGULAR
    if (intraPredAngleMode < 0)
    {
      m_ipaParam.applyPDPC = false;
    }
    else if (intraPredAngleMode > 0)
    {
      const int sideSize = m_ipaParam.isModeVer ? puSize.height : puSize.width;
      const int maxScale = 2;

      m_ipaParam.angularScale = std::min(maxScale, g_aucLog2[sideSize] - (floorLog2(3 * m_ipaParam.invAngle - 2) - 7));
      m_ipaParam.applyPDPC &= m_ipaParam.angularScale >= 0;
    }
#else
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    m_ipaParam.applyPDPC            &= m_ipaParam.intraPredAngle == 0 || m_ipaParam.intraPredAngle >= 12; // intra prediction modes: HOR, VER, x, where x>=VDIA-8 or x<=2+8
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#endif
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  }

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  // high level conditions and DC intra prediction
  if(   sps.getSpsRangeExtension().getIntraSmoothingDisabledFlag()
    || !isLuma( chType )
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    || useISP
    || m_ipaParam.multiRefIndex
    || DC_IDX == dirMode
    )
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  {
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    if (useISP)
    {
      m_ipaParam.interpolationFlag = (m_ipaParam.isModeVer ? puSize.width : puSize.height) > 8 ? true : false ;
    }
  }
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  else if (isLuma( chType ) && pu.cu->bdpcmMode) // BDPCM
  {
    m_ipaParam.refFilterFlag = false;
  }
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  else if (dirMode == PLANAR_IDX) // Planar intra prediction
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  {
    m_ipaParam.refFilterFlag = puSize.width * puSize.height > 32 ? true : false;
  }
  else if (!useISP)// HOR, VER and angular modes (MDIS)
  {
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    bool filterFlag = false;
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#if !JVET_O0277_INTRA_SMALL_BLOCK_DCTIF
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    if (predMode != dirMode ) // wide-anlge mode
    {
      filterFlag = true;
    }
    else
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#endif
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    {
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#if JVET_O0277_INTRA_SMALL_BLOCK_DCTIF
      const int diff = std::min<int>( abs( predMode - HOR_IDX ), abs( predMode - VER_IDX ) );
#else
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      const int diff = std::min<int>( abs( dirMode - HOR_IDX ), abs( dirMode - VER_IDX ) );
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#endif
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      const int log2Size = ((g_aucLog2[puSize.width] + g_aucLog2[puSize.height]) >> 1);
      CHECK( log2Size >= MAX_INTRA_FILTER_DEPTHS, "Size not supported" );
      filterFlag = (diff > m_aucIntraFilter[chType][log2Size]);
    }

    // Selelection of either ([1 2 1] / 4 ) refrence filter OR Gaussian 4-tap interpolation filter
    if (filterFlag)
    {
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      const bool isRefFilter       =  isIntegerSlope(absAng);
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#if JVET_O0277_INTRA_SMALL_BLOCK_DCTIF
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      CHECK( puSize.width * puSize.height <= 32, "DCT-IF interpolation filter is always used for 4x4, 4x8, and 8x4 luma CB" );
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      m_ipaParam.refFilterFlag     =  isRefFilter;
#else
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      m_ipaParam.refFilterFlag = isRefFilter && puSize.width * puSize.height > 32;
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#endif
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      m_ipaParam.interpolationFlag = !isRefFilter;
    }
  }
}

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/** Function for deriving the simplified angular intra predictions.
*
* This function derives the prediction samples for the angular mode based on the prediction direction indicated by
* the prediction mode index. The prediction direction is given by the displacement of the bottom row of the block and
* the reference row above the block in the case of vertical prediction or displacement of the rightmost column
* of the block and reference column left from the block in the case of the horizontal prediction. The displacement
* is signalled at 1/32 pixel accuracy. When projection of the predicted pixel falls inbetween reference samples,
* the predicted value for the pixel is linearly interpolated from the reference samples. All reference samples are taken
* from the extended main reference.
*/
//NOTE: Bit-Limit - 25-bit source
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void IntraPrediction::xPredIntraAng( const CPelBuf &pSrc, PelBuf &pDst, const ChannelType channelType, const ClpRng& clpRng)
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{
  int width =int(pDst.width);
  int height=int(pDst.height);

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  const bool bIsModeVer     = m_ipaParam.isModeVer;
  const int  whRatio        = m_ipaParam.whRatio;
  const int  hwRatio        = m_ipaParam.hwRatio;
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  const int  multiRefIdx    = m_ipaParam.multiRefIndex;
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  const int  intraPredAngle = m_ipaParam.intraPredAngle;
  const int  invAngle       = m_ipaParam.invAngle;
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  Pel* refMain;
  Pel* refSide;

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  Pel  refAbove[2 * MAX_CU_SIZE + 3 + 33 * MAX_REF_LINE_IDX];
  Pel  refLeft [2 * MAX_CU_SIZE + 3 + 33 * MAX_REF_LINE_IDX];
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  // Initialize the Main and Left reference array.
  if (intraPredAngle < 0)
  {
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    const int width    = pDst.width + 1;
    const int height   = pDst.height + 1;
    const int lastIdx  = (bIsModeVer ? width : height) + multiRefIdx;
    const int firstIdx = (((bIsModeVer ? height : width) - 1) * intraPredAngle) >> 5;

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    for (int x = 0; x < width + 1 + multiRefIdx; x++)
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    {
      refAbove[x + height - 1] = pSrc.at( x, 0 );
    }
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    for (int y = 0; y < height + 1 + multiRefIdx; y++)
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    {
      refLeft[y + width - 1] = pSrc.at( 0, y );
    }
    refMain = (bIsModeVer ? refAbove + height : refLeft  + width ) - 1;
    refSide = (bIsModeVer ? refLeft  + width  : refAbove + height) - 1;

    // Extend the Main reference to the left.
    int invAngleSum    = 128;       // rounding for (shift by 8)
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    for( int k = -1; k > firstIdx; k-- )
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    {
      invAngleSum += invAngle;
      refMain[k] = refSide[invAngleSum>>8];
    }
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    refMain[lastIdx] = refMain[lastIdx-1];
    refMain[firstIdx] = refMain[firstIdx+1];
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  }
  else
  {
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    for (int x = 0; x < m_topRefLength + 1 + (whRatio + 1) * multiRefIdx; x++)
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    {
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      refAbove[x+1] = pSrc.at(x, 0);
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    }
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    for (int y = 0; y < m_leftRefLength + 1 + (hwRatio + 1) * multiRefIdx; y++)
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    {
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      refLeft[y+1]  = pSrc.at(0, y);
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    }
    refMain = bIsModeVer ? refAbove : refLeft ;
    refSide = bIsModeVer ? refLeft  : refAbove;
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    refMain++;
    refSide++;
    refMain[-1] = refMain[0];
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    auto lastIdx = 1 + ((bIsModeVer) ? m_topRefLength + (whRatio + 1) * multiRefIdx : m_leftRefLength +  (hwRatio + 1) * multiRefIdx);
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    refMain[lastIdx] = refMain[lastIdx-1];
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  }

  // swap width/height if we are doing a horizontal mode:
  Pel tempArray[MAX_CU_SIZE*MAX_CU_SIZE];
  const int dstStride = bIsModeVer ? pDst.stride : MAX_CU_SIZE;
  Pel *pDstBuf = bIsModeVer ? pDst.buf : tempArray;
  if (!bIsModeVer)
  {
    std::swap(width, height);
  }

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  // compensate for line offset in reference line buffers
  refMain += multiRefIdx;
  refSide += multiRefIdx;
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  if( intraPredAngle == 0 )  // pure vertical or pure horizontal
  {
    for( int y = 0; y < height; y++ )
    {
      for( int x = 0; x < width; x++ )
      {
        pDstBuf[y*dstStride + x] = refMain[x + 1];
      }
    }
  }
  else
  {
    Pel *pDsty=pDstBuf;
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    for (int y = 0, deltaPos = intraPredAngle * (1 + multiRefIdx); y<height; y++, deltaPos += intraPredAngle, pDsty += dstStride)
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    {
      const int deltaInt   = deltaPos >> 5;
      const int deltaFract = deltaPos & (32 - 1);

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      if ( !isIntegerSlope( abs(intraPredAngle) ) )
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      {
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        if( isLuma(channelType) )
        {
          Pel                        p[4];
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          const bool                 useCubicFilter = !m_ipaParam.interpolationFlag;
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          TFilterCoeff const * const f              = (useCubicFilter) ? InterpolationFilter::getChromaFilterTable(deltaFract) : g_intraGaussFilter[deltaFract];

          int         refMainIndex   = deltaInt + 1;

          for( int x = 0; x < width; x++, refMainIndex++ )
          {
            p[0] = refMain[refMainIndex - 1];
            p[1] = refMain[refMainIndex];
            p[2] = refMain[refMainIndex + 1];
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            p[3] = f[3] != 0 ? refMain[refMainIndex + 2] : 0;
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            pDstBuf[y*dstStride + x] = static_cast<Pel>((static_cast<int>(f[0] * p[0]) + static_cast<int>(f[1] * p[1]) + static_cast<int>(f[2] * p[2]) + static_cast<int>(f[3] * p[3]) + 32) >> 6);

            if( useCubicFilter ) // only cubic filter has negative coefficients and requires clipping
            {
              pDstBuf[y*dstStride + x] = ClipPel( pDstBuf[y*dstStride + x], clpRng );
            }
          }
        }
        else
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        {
          // Do linear filtering
          const Pel *pRM = refMain + deltaInt + 1;
          int lastRefMainPel = *pRM++;
          for( int x = 0; x < width; pRM++, x++ )
          {
            int thisRefMainPel = *pRM;
            pDsty[x + 0] = ( Pel ) ( ( ( 32 - deltaFract )*lastRefMainPel + deltaFract*thisRefMainPel + 16 ) >> 5 );
            lastRefMainPel = thisRefMainPel;
          }
        }
      }
      else
      {
        // Just copy the integer samples
        for( int x = 0; x < width; x++ )
        {
          pDsty[x] = refMain[x + deltaInt + 1];
        }
      }
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#if JVET_O0364_PDPC_ANGULAR
      if (m_ipaParam.applyPDPC)
      {
        const int scale       = m_ipaParam.angularScale;
        int       invAngleSum = 128;

        for (int x = 0; x < std::min(3 << scale, width); x++)
        {
          invAngleSum += invAngle;

          int wL   = 32 >> (2 * x >> scale);
          Pel left = refSide[y + (invAngleSum >> 8) + 1];
          pDsty[x] = pDsty[x] + ((wL * (left - pDsty[x]) + 32) >> 6);
        }
      }
#else
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      const int scale = ((g_aucLog2[width] - 2 + g_aucLog2[height] - 2 + 2) >> 2);
      CHECK(scale < 0 || scale > 31, "PDPC: scale < 0 || scale > 31");
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      if (m_ipaParam.applyPDPC)
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      {
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        if (m_ipaParam.intraPredAngle == 32) // intra prediction modes: 2 and VDIA
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        {
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          int wT = 16 >> std::min(31, ((y << 1) >> scale));
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          for (int x = 0; x < width; x++)
          {
            int wL = 16 >> std::min(31, ((x << 1) >> scale));
            if (wT + wL == 0) break;

            int c = x + y + 1;
            if (c >= 2 * height) { wL = 0; }
            if (c >= 2 * width)  { wT = 0; }
            const Pel left = (wL != 0) ? refSide[c + 1] : 0;
            const Pel top  = (wT != 0) ? refMain[c + 1] : 0;
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            pDsty[x] = ClipPel((wL * left + wT * top + (64 - wL - wT) * pDsty[x] + 32) >> 6, clpRng);
          }
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        }
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        else
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        {
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          int invAngleSum0 = 2;
          for (int x = 0; x < width; x++)
          {
            invAngleSum0 += invAngle;
            int deltaPos0 = invAngleSum0 >> 2;
            int deltaFrac0 = deltaPos0 & 63;
            int deltaInt0 = deltaPos0 >> 6;
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            int deltay = y + deltaInt0 + 1;
            if (deltay >(bIsModeVer ? m_leftRefLength : m_topRefLength) - 1) break;
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            int wL = 32 >> std::min(31, ((x << 1) >> scale));
            if (wL == 0) break;
            Pel *p = refSide + deltay;
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            Pel left = p[deltaFrac0 >> 5];
            pDsty[x] = ClipPel((wL * left + (64 - wL) * pDsty[x] + 32) >> 6, clpRng);
          }
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        }
      }
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#endif
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    }
  }

  // Flip the block if this is the horizontal mode
  if( !bIsModeVer )
  {
    for( int y = 0; y < height; y++ )
    {
      for( int x = 0; x < width; x++ )
      {
        pDst.at( y, x ) = pDstBuf[x];
      }
      pDstBuf += dstStride;
    }
  }
}

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void IntraPrediction::xPredIntraBDPCM(const CPelBuf &pSrc, PelBuf &pDst, const uint32_t dirMode, const ClpRng& clpRng )
{
  const int wdt = pDst.width;
  const int hgt = pDst.height;

  const int strideP = pDst.stride;
  const int strideS = pSrc.stride;

  CHECK( !( dirMode == 1 || dirMode == 2 ), "Incorrect BDPCM mode parameter." );

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  Pel* pred = &pDst.buf[0];
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  if( dirMode == 1 )
  {
    Pel  val;
    for( int y = 0; y < hgt; y++ )
    {
      val = pSrc.buf[(y + 1) * strideS];
      for( int x = 0; x < wdt; x++ )
      {
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        pred[x] = val;
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      }
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      pred += strideP;
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    }
  }
  else
  {
    for( int y = 0; y < hgt; y++ )
    {
      for( int x = 0; x < wdt; x++ )
      {
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        pred[x] = pSrc.buf[x + 1];
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      }
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      pred += strideP;
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    }
  }
}
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bool IntraPrediction::useDPCMForFirstPassIntraEstimation(const PredictionUnit &pu, const uint32_t &uiDirMode)
{
  return CU::isRDPCMEnabled(*pu.cu) && pu.cu->transQuantBypass && (uiDirMode == HOR_IDX || uiDirMode == VER_IDX);
}

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void IntraPrediction::geneWeightedPred(const ComponentID compId, PelBuf &pred, const PredictionUnit &pu, Pel *srcBuf)
{
  const int            width = pred.width;
  const int            height = pred.height;
  const int            srcStride = width;
  const int            dstStride = pred.stride;

  Pel*                 dstBuf = pred.buf;
  int wIntra, wMerge;

  const Position posBL = pu.Y().bottomLeft();
  const Position posTR = pu.Y().topRight();
  const PredictionUnit *neigh0 = pu.cs->getPURestricted(posBL.offset(-1, 0), pu, CHANNEL_TYPE_LUMA);
  const PredictionUnit *neigh1 = pu.cs->getPURestricted(posTR.offset(0, -1), pu, CHANNEL_TYPE_LUMA);
  bool isNeigh0Intra = neigh0 && (CU::isIntra(*neigh0->cu));
  bool isNeigh1Intra = neigh1 && (CU::isIntra(*neigh1->cu));

  if (isNeigh0Intra && isNeigh1Intra)
  {
    wIntra = 3; wMerge = 1;
  }
  else
  {
    if (!isNeigh0Intra && !isNeigh1Intra)
    {
      wIntra = 1; wMerge = 3;
    }
    else
    {
      wIntra = 2; wMerge = 2;
    }
  }
  for (int y = 0; y < height; y++)
  {
    for (int x = 0; x < width; x++)
    {
      dstBuf[y*dstStride + x] = (wMerge * dstBuf[y*dstStride + x] + wIntra * srcBuf[y*srcStride + x] + 2) >> 2;
    }
  }
}
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void IntraPrediction::switchBuffer(const PredictionUnit &pu, ComponentID compID, PelBuf srcBuff, Pel *dst)
{
  Pel  *src = srcBuff.bufAt(0, 0);
  int compWidth = compID == COMPONENT_Y ? pu.Y().width : pu.Cb().width;
  int compHeight = compID == COMPONENT_Y ? pu.Y().height : pu.Cb().height;
  for (int i = 0; i < compHeight; i++)
  {
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    memcpy(dst, src, compWidth * sizeof(Pel));
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    src += srcBuff.stride;
    dst += compWidth;
  }
}

void IntraPrediction::geneIntrainterPred(const CodingUnit &cu)
{
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  if (!cu.firstPU->mhIntraFlag)
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  {
    return;
  }

  const PredictionUnit* pu = cu.firstPU;

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  initIntraPatternChType(cu, pu->Y());
  predIntraAng(COMPONENT_Y, cu.cs->getPredBuf(*pu).Y(), *pu);

  initIntraPatternChType(cu, pu->Cb());
  predIntraAng(COMPONENT_Cb, cu.cs->getPredBuf(*pu).Cb(), *pu);

  initIntraPatternChType(cu, pu->Cr());
  predIntraAng(COMPONENT_Cr, cu.cs->getPredBuf(*pu).Cr(), *pu);
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  for (int currCompID = 0; currCompID < 3; currCompID++)
  {
    ComponentID currCompID2 = (ComponentID)currCompID;
    PelBuf tmpBuf = currCompID == 0 ? cu.cs->getPredBuf(*pu).Y() : (currCompID == 1 ? cu.cs->getPredBuf(*pu).Cb() : cu.cs->getPredBuf(*pu).Cr());
    switchBuffer(*pu, currCompID2, tmpBuf, getPredictorPtr2(currCompID2, 0));
  }
}

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inline bool isAboveLeftAvailable  ( const CodingUnit &cu, const ChannelType &chType, const Position &posLT );
inline int  isAboveAvailable      ( const CodingUnit &cu, const ChannelType &chType, const Position &posLT, const uint32_t uiNumUnitsInPU, const uint32_t unitWidth, bool *validFlags );
inline int  isLeftAvailable       ( const CodingUnit &cu, const ChannelType &chType, const Position &posLT, const uint32_t uiNumUnitsInPU, const uint32_t unitWidth, bool *validFlags );
inline int  isAboveRightAvailable ( const CodingUnit &cu, const ChannelType &chType, const Position &posRT, const uint32_t uiNumUnitsInPU, const uint32_t unitHeight, bool *validFlags );
inline int  isBelowLeftAvailable  ( const CodingUnit &cu, const ChannelType &chType, const Position &posLB, const uint32_t uiNumUnitsInPU, const uint32_t unitHeight, bool *validFlags );

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void IntraPrediction::initIntraPatternChType(const CodingUnit &cu, const CompArea &area, const bool forceRefFilterFlag)
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{
  const CodingStructure& cs   = *cu.cs;

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  if (!forceRefFilterFlag)
  {
    initPredIntraParams(*cu.firstPU, area, *cs.sps);
  }

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  Pel *refBufUnfiltered   = m_piYuvExt[area.compID][PRED_BUF_UNFILTERED];
  Pel *refBufFiltered     = m_piYuvExt[area.compID][PRED_BUF_FILTERED];

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  setReferenceArrayLengths( cu.ispMode && isLuma( area.compID ) ? cu.blocks[area.compID] : area );
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  // ----- Step 1: unfiltered reference samples -----
  xFillReferenceSamples( cs.picture->getRecoBuf( area ), refBufUnfiltered, area, cu );
  // ----- Step 2: filtered reference samples -----
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  if( m_ipaParam.refFilterFlag || forceRefFilterFlag )
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  {
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    xFilterReferenceSamples( refBufUnfiltered, refBufFiltered, area, *cs.sps, cu.firstPU->multiRefIdx );
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  }
}

void IntraPrediction::xFillReferenceSamples( const CPelBuf &recoBuf, Pel* refBufUnfiltered, const CompArea &area, const CodingUnit &cu )
{
  const ChannelType      chType = toChannelType( area.compID );