[313] | 1 | /* The copyright in this software is being made available under the BSD |
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| 2 | * License, included below. This software may be subject to other third party |
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| 3 | * and contributor rights, including patent rights, and no such rights are |
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| 4 | * granted under this license. |
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| 5 | * |
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| 6 | * Copyright (c) 2010-2013, ITU/ISO/IEC |
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| 7 | * All rights reserved. |
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| 8 | * |
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| 9 | * Redistribution and use in source and binary forms, with or without |
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| 10 | * modification, are permitted provided that the following conditions are met: |
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| 11 | * |
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| 12 | * * Redistributions of source code must retain the above copyright notice, |
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| 13 | * this list of conditions and the following disclaimer. |
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| 14 | * * Redistributions in binary form must reproduce the above copyright notice, |
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| 15 | * this list of conditions and the following disclaimer in the documentation |
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| 16 | * and/or other materials provided with the distribution. |
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| 17 | * * Neither the name of the ITU/ISO/IEC nor the names of its contributors may |
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| 18 | * be used to endorse or promote products derived from this software without |
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| 19 | * specific prior written permission. |
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| 20 | * |
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| 21 | * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
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| 22 | * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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| 23 | * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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| 24 | * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS |
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| 25 | * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR |
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| 26 | * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF |
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| 27 | * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS |
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| 28 | * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN |
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| 29 | * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) |
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| 30 | * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF |
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| 31 | * THE POSSIBILITY OF SUCH DAMAGE. |
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| 32 | */ |
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| 33 | |
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| 34 | /** \file TComPrediction.cpp |
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| 35 | \brief prediction class |
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| 36 | */ |
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| 37 | |
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| 38 | #include <memory.h> |
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| 39 | #include "TComPrediction.h" |
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| 40 | |
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| 41 | //! \ingroup TLibCommon |
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| 42 | //! \{ |
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| 43 | |
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| 44 | // ==================================================================================================================== |
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| 45 | // Constructor / destructor / initialize |
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| 46 | // ==================================================================================================================== |
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| 47 | |
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| 48 | TComPrediction::TComPrediction() |
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| 49 | : m_pLumaRecBuffer(0) |
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| 50 | , m_iLumaRecStride(0) |
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| 51 | { |
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| 52 | m_piYuvExt = NULL; |
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| 53 | } |
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| 54 | |
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| 55 | TComPrediction::~TComPrediction() |
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| 56 | { |
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| 57 | |
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| 58 | delete[] m_piYuvExt; |
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| 59 | |
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| 60 | m_acYuvPred[0].destroy(); |
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| 61 | m_acYuvPred[1].destroy(); |
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| 62 | |
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| 63 | m_cYuvPredTemp.destroy(); |
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| 64 | |
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| 65 | if( m_pLumaRecBuffer ) |
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| 66 | { |
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| 67 | delete [] m_pLumaRecBuffer; |
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| 68 | } |
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| 69 | |
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| 70 | Int i, j; |
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| 71 | for (i = 0; i < 4; i++) |
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| 72 | { |
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| 73 | for (j = 0; j < 4; j++) |
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| 74 | { |
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| 75 | m_filteredBlock[i][j].destroy(); |
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| 76 | } |
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| 77 | m_filteredBlockTmp[i].destroy(); |
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| 78 | } |
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| 79 | } |
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| 80 | |
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| 81 | Void TComPrediction::initTempBuff() |
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| 82 | { |
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| 83 | if( m_piYuvExt == NULL ) |
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| 84 | { |
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| 85 | Int extWidth = MAX_CU_SIZE + 16; |
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| 86 | Int extHeight = MAX_CU_SIZE + 1; |
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| 87 | Int i, j; |
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| 88 | for (i = 0; i < 4; i++) |
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| 89 | { |
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| 90 | m_filteredBlockTmp[i].create(extWidth, extHeight + 7); |
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| 91 | for (j = 0; j < 4; j++) |
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| 92 | { |
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| 93 | m_filteredBlock[i][j].create(extWidth, extHeight); |
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| 94 | } |
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| 95 | } |
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| 96 | m_iYuvExtHeight = ((MAX_CU_SIZE + 2) << 4); |
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| 97 | m_iYuvExtStride = ((MAX_CU_SIZE + 8) << 4); |
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| 98 | m_piYuvExt = new Int[ m_iYuvExtStride * m_iYuvExtHeight ]; |
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| 99 | |
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| 100 | // new structure |
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| 101 | m_acYuvPred[0] .create( MAX_CU_SIZE, MAX_CU_SIZE ); |
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| 102 | m_acYuvPred[1] .create( MAX_CU_SIZE, MAX_CU_SIZE ); |
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| 103 | |
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| 104 | m_cYuvPredTemp.create( MAX_CU_SIZE, MAX_CU_SIZE ); |
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| 105 | } |
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| 106 | |
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| 107 | if (m_iLumaRecStride != (MAX_CU_SIZE>>1) + 1) |
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| 108 | { |
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| 109 | m_iLumaRecStride = (MAX_CU_SIZE>>1) + 1; |
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| 110 | if (!m_pLumaRecBuffer) |
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| 111 | { |
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| 112 | m_pLumaRecBuffer = new Pel[ m_iLumaRecStride * m_iLumaRecStride ]; |
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| 113 | } |
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| 114 | } |
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| 115 | } |
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| 116 | |
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| 117 | // ==================================================================================================================== |
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| 118 | // Public member functions |
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| 119 | // ==================================================================================================================== |
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| 120 | |
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| 121 | // Function for calculating DC value of the reference samples used in Intra prediction |
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| 122 | Pel TComPrediction::predIntraGetPredValDC( Int* pSrc, Int iSrcStride, UInt iWidth, UInt iHeight, Bool bAbove, Bool bLeft ) |
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| 123 | { |
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| 124 | assert(iWidth > 0 && iHeight > 0); |
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| 125 | Int iInd, iSum = 0; |
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| 126 | Pel pDcVal; |
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| 127 | |
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| 128 | if (bAbove) |
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| 129 | { |
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| 130 | for (iInd = 0;iInd < iWidth;iInd++) |
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| 131 | { |
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| 132 | iSum += pSrc[iInd-iSrcStride]; |
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| 133 | } |
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| 134 | } |
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| 135 | if (bLeft) |
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| 136 | { |
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| 137 | for (iInd = 0;iInd < iHeight;iInd++) |
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| 138 | { |
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| 139 | iSum += pSrc[iInd*iSrcStride-1]; |
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| 140 | } |
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| 141 | } |
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| 142 | |
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| 143 | if (bAbove && bLeft) |
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| 144 | { |
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| 145 | pDcVal = (iSum + iWidth) / (iWidth + iHeight); |
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| 146 | } |
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| 147 | else if (bAbove) |
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| 148 | { |
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| 149 | pDcVal = (iSum + iWidth/2) / iWidth; |
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| 150 | } |
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| 151 | else if (bLeft) |
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| 152 | { |
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| 153 | pDcVal = (iSum + iHeight/2) / iHeight; |
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| 154 | } |
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| 155 | else |
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| 156 | { |
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| 157 | pDcVal = pSrc[-1]; // Default DC value already calculated and placed in the prediction array if no neighbors are available |
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| 158 | } |
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| 159 | |
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| 160 | return pDcVal; |
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| 161 | } |
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| 162 | |
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| 163 | // Function for deriving the angular Intra predictions |
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| 164 | |
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| 165 | /** Function for deriving the simplified angular intra predictions. |
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| 166 | * \param pSrc pointer to reconstructed sample array |
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| 167 | * \param srcStride the stride of the reconstructed sample array |
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| 168 | * \param rpDst reference to pointer for the prediction sample array |
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| 169 | * \param dstStride the stride of the prediction sample array |
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| 170 | * \param width the width of the block |
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| 171 | * \param height the height of the block |
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| 172 | * \param dirMode the intra prediction mode index |
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| 173 | * \param blkAboveAvailable boolean indication if the block above is available |
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| 174 | * \param blkLeftAvailable boolean indication if the block to the left is available |
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| 175 | * |
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| 176 | * This function derives the prediction samples for the angular mode based on the prediction direction indicated by |
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| 177 | * the prediction mode index. The prediction direction is given by the displacement of the bottom row of the block and |
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| 178 | * the reference row above the block in the case of vertical prediction or displacement of the rightmost column |
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| 179 | * of the block and reference column left from the block in the case of the horizontal prediction. The displacement |
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| 180 | * is signalled at 1/32 pixel accuracy. When projection of the predicted pixel falls inbetween reference samples, |
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| 181 | * the predicted value for the pixel is linearly interpolated from the reference samples. All reference samples are taken |
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| 182 | * from the extended main reference. |
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| 183 | */ |
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| 184 | Void TComPrediction::xPredIntraAng(Int bitDepth, Int* pSrc, Int srcStride, Pel*& rpDst, Int dstStride, UInt width, UInt height, UInt dirMode, Bool blkAboveAvailable, Bool blkLeftAvailable, Bool bFilter ) |
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| 185 | { |
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| 186 | Int k,l; |
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| 187 | Int blkSize = width; |
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| 188 | Pel* pDst = rpDst; |
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| 189 | |
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| 190 | // Map the mode index to main prediction direction and angle |
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| 191 | assert( dirMode > 0 ); //no planar |
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| 192 | Bool modeDC = dirMode < 2; |
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| 193 | Bool modeHor = !modeDC && (dirMode < 18); |
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| 194 | Bool modeVer = !modeDC && !modeHor; |
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| 195 | Int intraPredAngle = modeVer ? (Int)dirMode - VER_IDX : modeHor ? -((Int)dirMode - HOR_IDX) : 0; |
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| 196 | Int absAng = abs(intraPredAngle); |
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| 197 | Int signAng = intraPredAngle < 0 ? -1 : 1; |
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| 198 | |
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| 199 | // Set bitshifts and scale the angle parameter to block size |
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| 200 | Int angTable[9] = {0, 2, 5, 9, 13, 17, 21, 26, 32}; |
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| 201 | Int invAngTable[9] = {0, 4096, 1638, 910, 630, 482, 390, 315, 256}; // (256 * 32) / Angle |
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| 202 | Int invAngle = invAngTable[absAng]; |
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| 203 | absAng = angTable[absAng]; |
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| 204 | intraPredAngle = signAng * absAng; |
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| 205 | |
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| 206 | // Do the DC prediction |
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| 207 | if (modeDC) |
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| 208 | { |
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| 209 | Pel dcval = predIntraGetPredValDC(pSrc, srcStride, width, height, blkAboveAvailable, blkLeftAvailable); |
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| 210 | |
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| 211 | for (k=0;k<blkSize;k++) |
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| 212 | { |
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| 213 | for (l=0;l<blkSize;l++) |
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| 214 | { |
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| 215 | pDst[k*dstStride+l] = dcval; |
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| 216 | } |
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| 217 | } |
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| 218 | } |
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| 219 | |
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| 220 | // Do angular predictions |
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| 221 | else |
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| 222 | { |
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| 223 | Pel* refMain; |
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| 224 | Pel* refSide; |
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| 225 | Pel refAbove[2*MAX_CU_SIZE+1]; |
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| 226 | Pel refLeft[2*MAX_CU_SIZE+1]; |
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| 227 | |
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| 228 | // Initialise the Main and Left reference array. |
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| 229 | if (intraPredAngle < 0) |
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| 230 | { |
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| 231 | for (k=0;k<blkSize+1;k++) |
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| 232 | { |
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| 233 | refAbove[k+blkSize-1] = pSrc[k-srcStride-1]; |
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| 234 | } |
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| 235 | for (k=0;k<blkSize+1;k++) |
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| 236 | { |
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| 237 | refLeft[k+blkSize-1] = pSrc[(k-1)*srcStride-1]; |
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| 238 | } |
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| 239 | refMain = (modeVer ? refAbove : refLeft) + (blkSize-1); |
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| 240 | refSide = (modeVer ? refLeft : refAbove) + (blkSize-1); |
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| 241 | |
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| 242 | // Extend the Main reference to the left. |
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| 243 | Int invAngleSum = 128; // rounding for (shift by 8) |
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| 244 | for (k=-1; k>blkSize*intraPredAngle>>5; k--) |
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| 245 | { |
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| 246 | invAngleSum += invAngle; |
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| 247 | refMain[k] = refSide[invAngleSum>>8]; |
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| 248 | } |
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| 249 | } |
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| 250 | else |
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| 251 | { |
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| 252 | for (k=0;k<2*blkSize+1;k++) |
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| 253 | { |
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| 254 | refAbove[k] = pSrc[k-srcStride-1]; |
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| 255 | } |
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| 256 | for (k=0;k<2*blkSize+1;k++) |
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| 257 | { |
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| 258 | refLeft[k] = pSrc[(k-1)*srcStride-1]; |
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| 259 | } |
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| 260 | refMain = modeVer ? refAbove : refLeft; |
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| 261 | refSide = modeVer ? refLeft : refAbove; |
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| 262 | } |
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| 263 | |
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| 264 | if (intraPredAngle == 0) |
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| 265 | { |
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| 266 | for (k=0;k<blkSize;k++) |
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| 267 | { |
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| 268 | for (l=0;l<blkSize;l++) |
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| 269 | { |
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| 270 | pDst[k*dstStride+l] = refMain[l+1]; |
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| 271 | } |
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| 272 | } |
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| 273 | |
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| 274 | if ( bFilter ) |
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| 275 | { |
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| 276 | for (k=0;k<blkSize;k++) |
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| 277 | { |
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| 278 | pDst[k*dstStride] = Clip3(0, (1<<bitDepth)-1, pDst[k*dstStride] + (( refSide[k+1] - refSide[0] ) >> 1) ); |
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| 279 | } |
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| 280 | } |
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| 281 | } |
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| 282 | else |
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| 283 | { |
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| 284 | Int deltaPos=0; |
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| 285 | Int deltaInt; |
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| 286 | Int deltaFract; |
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| 287 | Int refMainIndex; |
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| 288 | |
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| 289 | for (k=0;k<blkSize;k++) |
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| 290 | { |
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| 291 | deltaPos += intraPredAngle; |
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| 292 | deltaInt = deltaPos >> 5; |
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| 293 | deltaFract = deltaPos & (32 - 1); |
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| 294 | |
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| 295 | if (deltaFract) |
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| 296 | { |
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| 297 | // Do linear filtering |
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| 298 | for (l=0;l<blkSize;l++) |
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| 299 | { |
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| 300 | refMainIndex = l+deltaInt+1; |
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| 301 | pDst[k*dstStride+l] = (Pel) ( ((32-deltaFract)*refMain[refMainIndex]+deltaFract*refMain[refMainIndex+1]+16) >> 5 ); |
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| 302 | } |
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| 303 | } |
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| 304 | else |
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| 305 | { |
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| 306 | // Just copy the integer samples |
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| 307 | for (l=0;l<blkSize;l++) |
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| 308 | { |
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| 309 | pDst[k*dstStride+l] = refMain[l+deltaInt+1]; |
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| 310 | } |
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| 311 | } |
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| 312 | } |
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| 313 | } |
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| 314 | |
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| 315 | // Flip the block if this is the horizontal mode |
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| 316 | if (modeHor) |
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| 317 | { |
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| 318 | Pel tmp; |
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| 319 | for (k=0;k<blkSize-1;k++) |
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| 320 | { |
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| 321 | for (l=k+1;l<blkSize;l++) |
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| 322 | { |
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| 323 | tmp = pDst[k*dstStride+l]; |
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| 324 | pDst[k*dstStride+l] = pDst[l*dstStride+k]; |
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| 325 | pDst[l*dstStride+k] = tmp; |
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| 326 | } |
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| 327 | } |
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| 328 | } |
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| 329 | } |
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| 330 | } |
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| 331 | |
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| 332 | Void TComPrediction::predIntraLumaAng(TComPattern* pcTComPattern, UInt uiDirMode, Pel* piPred, UInt uiStride, Int iWidth, Int iHeight, Bool bAbove, Bool bLeft ) |
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| 333 | { |
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| 334 | Pel *pDst = piPred; |
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| 335 | Int *ptrSrc; |
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| 336 | |
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| 337 | assert( g_aucConvertToBit[ iWidth ] >= 0 ); // 4x 4 |
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| 338 | assert( g_aucConvertToBit[ iWidth ] <= 5 ); // 128x128 |
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| 339 | assert( iWidth == iHeight ); |
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| 340 | |
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| 341 | ptrSrc = pcTComPattern->getPredictorPtr( uiDirMode, g_aucConvertToBit[ iWidth ] + 2, m_piYuvExt ); |
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| 342 | |
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| 343 | // get starting pixel in block |
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| 344 | Int sw = 2 * iWidth + 1; |
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| 345 | |
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| 346 | // Create the prediction |
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| 347 | if ( uiDirMode == PLANAR_IDX ) |
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| 348 | { |
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| 349 | xPredIntraPlanar( ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight ); |
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| 350 | } |
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| 351 | else |
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| 352 | { |
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| 353 | if ( (iWidth > 16) || (iHeight > 16) ) |
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| 354 | { |
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| 355 | xPredIntraAng(g_bitDepthY, ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight, uiDirMode, bAbove, bLeft, false ); |
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| 356 | } |
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| 357 | else |
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| 358 | { |
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| 359 | xPredIntraAng(g_bitDepthY, ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight, uiDirMode, bAbove, bLeft, true ); |
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| 360 | |
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| 361 | if( (uiDirMode == DC_IDX ) && bAbove && bLeft ) |
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| 362 | { |
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| 363 | xDCPredFiltering( ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight); |
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| 364 | } |
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| 365 | } |
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| 366 | } |
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| 367 | } |
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| 368 | |
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| 369 | // Angular chroma |
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| 370 | Void TComPrediction::predIntraChromaAng( Int* piSrc, UInt uiDirMode, Pel* piPred, UInt uiStride, Int iWidth, Int iHeight, Bool bAbove, Bool bLeft ) |
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| 371 | { |
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| 372 | Pel *pDst = piPred; |
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| 373 | Int *ptrSrc = piSrc; |
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| 374 | |
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| 375 | // get starting pixel in block |
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| 376 | Int sw = 2 * iWidth + 1; |
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| 377 | |
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| 378 | if ( uiDirMode == PLANAR_IDX ) |
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| 379 | { |
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| 380 | xPredIntraPlanar( ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight ); |
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| 381 | } |
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| 382 | else |
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| 383 | { |
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| 384 | // Create the prediction |
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| 385 | xPredIntraAng(g_bitDepthC, ptrSrc+sw+1, sw, pDst, uiStride, iWidth, iHeight, uiDirMode, bAbove, bLeft, false ); |
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| 386 | } |
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| 387 | } |
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| 388 | |
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| 389 | /** Function for checking identical motion. |
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| 390 | * \param TComDataCU* pcCU |
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| 391 | * \param UInt PartAddr |
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| 392 | */ |
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| 393 | Bool TComPrediction::xCheckIdenticalMotion ( TComDataCU* pcCU, UInt PartAddr ) |
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| 394 | { |
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| 395 | if( pcCU->getSlice()->isInterB() && !pcCU->getSlice()->getPPS()->getWPBiPred() ) |
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| 396 | { |
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| 397 | if( pcCU->getCUMvField(REF_PIC_LIST_0)->getRefIdx(PartAddr) >= 0 && pcCU->getCUMvField(REF_PIC_LIST_1)->getRefIdx(PartAddr) >= 0) |
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| 398 | { |
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| 399 | Int RefPOCL0 = pcCU->getSlice()->getRefPic(REF_PIC_LIST_0, pcCU->getCUMvField(REF_PIC_LIST_0)->getRefIdx(PartAddr))->getPOC(); |
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| 400 | Int RefPOCL1 = pcCU->getSlice()->getRefPic(REF_PIC_LIST_1, pcCU->getCUMvField(REF_PIC_LIST_1)->getRefIdx(PartAddr))->getPOC(); |
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| 401 | if(RefPOCL0 == RefPOCL1 && pcCU->getCUMvField(REF_PIC_LIST_0)->getMv(PartAddr) == pcCU->getCUMvField(REF_PIC_LIST_1)->getMv(PartAddr)) |
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| 402 | { |
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| 403 | return true; |
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| 404 | } |
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| 405 | } |
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| 406 | } |
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| 407 | return false; |
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| 408 | } |
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| 409 | |
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| 410 | Void TComPrediction::motionCompensation ( TComDataCU* pcCU, TComYuv* pcYuvPred, RefPicList eRefPicList, Int iPartIdx ) |
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| 411 | { |
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| 412 | Int iWidth; |
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| 413 | Int iHeight; |
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| 414 | UInt uiPartAddr; |
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| 415 | |
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| 416 | if ( iPartIdx >= 0 ) |
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| 417 | { |
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| 418 | pcCU->getPartIndexAndSize( iPartIdx, uiPartAddr, iWidth, iHeight ); |
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| 419 | if ( eRefPicList != REF_PIC_LIST_X ) |
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| 420 | { |
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| 421 | if( pcCU->getSlice()->getPPS()->getUseWP()) |
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| 422 | { |
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| 423 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred, true ); |
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| 424 | } |
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| 425 | else |
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| 426 | { |
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| 427 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred ); |
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| 428 | } |
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| 429 | if ( pcCU->getSlice()->getPPS()->getUseWP() ) |
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| 430 | { |
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| 431 | xWeightedPredictionUni( pcCU, pcYuvPred, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred ); |
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| 432 | } |
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| 433 | } |
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| 434 | else |
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| 435 | { |
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| 436 | if ( xCheckIdenticalMotion( pcCU, uiPartAddr ) ) |
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| 437 | { |
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| 438 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, REF_PIC_LIST_0, pcYuvPred ); |
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| 439 | } |
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| 440 | else |
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| 441 | { |
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| 442 | xPredInterBi (pcCU, uiPartAddr, iWidth, iHeight, pcYuvPred ); |
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| 443 | } |
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| 444 | } |
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| 445 | return; |
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| 446 | } |
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| 447 | |
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| 448 | for ( iPartIdx = 0; iPartIdx < pcCU->getNumPartInter(); iPartIdx++ ) |
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| 449 | { |
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| 450 | pcCU->getPartIndexAndSize( iPartIdx, uiPartAddr, iWidth, iHeight ); |
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| 451 | |
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| 452 | if ( eRefPicList != REF_PIC_LIST_X ) |
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| 453 | { |
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| 454 | if( pcCU->getSlice()->getPPS()->getUseWP()) |
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| 455 | { |
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| 456 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred, true ); |
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| 457 | } |
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| 458 | else |
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| 459 | { |
---|
| 460 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred ); |
---|
| 461 | } |
---|
| 462 | if ( pcCU->getSlice()->getPPS()->getUseWP() ) |
---|
| 463 | { |
---|
| 464 | xWeightedPredictionUni( pcCU, pcYuvPred, uiPartAddr, iWidth, iHeight, eRefPicList, pcYuvPred ); |
---|
| 465 | } |
---|
| 466 | } |
---|
| 467 | else |
---|
| 468 | { |
---|
| 469 | if ( xCheckIdenticalMotion( pcCU, uiPartAddr ) ) |
---|
| 470 | { |
---|
| 471 | xPredInterUni (pcCU, uiPartAddr, iWidth, iHeight, REF_PIC_LIST_0, pcYuvPred ); |
---|
| 472 | } |
---|
| 473 | else |
---|
| 474 | { |
---|
| 475 | xPredInterBi (pcCU, uiPartAddr, iWidth, iHeight, pcYuvPred ); |
---|
| 476 | } |
---|
| 477 | } |
---|
| 478 | } |
---|
| 479 | return; |
---|
| 480 | } |
---|
| 481 | |
---|
| 482 | Void TComPrediction::xPredInterUni ( TComDataCU* pcCU, UInt uiPartAddr, Int iWidth, Int iHeight, RefPicList eRefPicList, TComYuv*& rpcYuvPred, Bool bi ) |
---|
| 483 | { |
---|
| 484 | Int iRefIdx = pcCU->getCUMvField( eRefPicList )->getRefIdx( uiPartAddr ); assert (iRefIdx >= 0); |
---|
| 485 | TComMv cMv = pcCU->getCUMvField( eRefPicList )->getMv( uiPartAddr ); |
---|
| 486 | pcCU->clipMv(cMv); |
---|
| 487 | |
---|
| 488 | #if REF_IDX_ME_ZEROMV |
---|
| 489 | assert( ( pcCU->getSlice()->getRefPic(eRefPicList, iRefIdx)->isILR(pcCU->getLayerId()) && cMv.getHor() == 0 && cMv.getVer() == 0 ) || pcCU->getSlice()->getRefPic(eRefPicList, iRefIdx)->isILR(pcCU->getLayerId()) == false ); |
---|
| 490 | #endif |
---|
| 491 | |
---|
| 492 | xPredInterLumaBlk ( pcCU, pcCU->getSlice()->getRefPic( eRefPicList, iRefIdx )->getPicYuvRec(), uiPartAddr, &cMv, iWidth, iHeight, rpcYuvPred, bi ); |
---|
| 493 | xPredInterChromaBlk( pcCU, pcCU->getSlice()->getRefPic( eRefPicList, iRefIdx )->getPicYuvRec(), uiPartAddr, &cMv, iWidth, iHeight, rpcYuvPred, bi ); |
---|
| 494 | } |
---|
| 495 | |
---|
| 496 | Void TComPrediction::xPredInterBi ( TComDataCU* pcCU, UInt uiPartAddr, Int iWidth, Int iHeight, TComYuv*& rpcYuvPred ) |
---|
| 497 | { |
---|
| 498 | TComYuv* pcMbYuv; |
---|
| 499 | Int iRefIdx[2] = {-1, -1}; |
---|
| 500 | |
---|
| 501 | for ( Int iRefList = 0; iRefList < 2; iRefList++ ) |
---|
| 502 | { |
---|
| 503 | RefPicList eRefPicList = (iRefList ? REF_PIC_LIST_1 : REF_PIC_LIST_0); |
---|
| 504 | iRefIdx[iRefList] = pcCU->getCUMvField( eRefPicList )->getRefIdx( uiPartAddr ); |
---|
| 505 | |
---|
| 506 | if ( iRefIdx[iRefList] < 0 ) |
---|
| 507 | { |
---|
| 508 | continue; |
---|
| 509 | } |
---|
| 510 | |
---|
| 511 | assert( iRefIdx[iRefList] < pcCU->getSlice()->getNumRefIdx(eRefPicList) ); |
---|
| 512 | |
---|
| 513 | pcMbYuv = &m_acYuvPred[iRefList]; |
---|
| 514 | if( pcCU->getCUMvField( REF_PIC_LIST_0 )->getRefIdx( uiPartAddr ) >= 0 && pcCU->getCUMvField( REF_PIC_LIST_1 )->getRefIdx( uiPartAddr ) >= 0 ) |
---|
| 515 | { |
---|
| 516 | xPredInterUni ( pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcMbYuv, true ); |
---|
| 517 | } |
---|
| 518 | else |
---|
| 519 | { |
---|
| 520 | if ( ( pcCU->getSlice()->getPPS()->getUseWP() && pcCU->getSlice()->getSliceType() == P_SLICE ) || |
---|
| 521 | ( pcCU->getSlice()->getPPS()->getWPBiPred() && pcCU->getSlice()->getSliceType() == B_SLICE ) ) |
---|
| 522 | { |
---|
| 523 | xPredInterUni ( pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcMbYuv, true ); |
---|
| 524 | } |
---|
| 525 | else |
---|
| 526 | { |
---|
| 527 | xPredInterUni ( pcCU, uiPartAddr, iWidth, iHeight, eRefPicList, pcMbYuv ); |
---|
| 528 | } |
---|
| 529 | } |
---|
| 530 | } |
---|
| 531 | |
---|
| 532 | if ( pcCU->getSlice()->getPPS()->getWPBiPred() && pcCU->getSlice()->getSliceType() == B_SLICE ) |
---|
| 533 | { |
---|
| 534 | xWeightedPredictionBi( pcCU, &m_acYuvPred[0], &m_acYuvPred[1], iRefIdx[0], iRefIdx[1], uiPartAddr, iWidth, iHeight, rpcYuvPred ); |
---|
| 535 | } |
---|
| 536 | else if ( pcCU->getSlice()->getPPS()->getUseWP() && pcCU->getSlice()->getSliceType() == P_SLICE ) |
---|
| 537 | { |
---|
| 538 | xWeightedPredictionUni( pcCU, &m_acYuvPred[0], uiPartAddr, iWidth, iHeight, REF_PIC_LIST_0, rpcYuvPred ); |
---|
| 539 | } |
---|
| 540 | else |
---|
| 541 | { |
---|
| 542 | xWeightedAverage( &m_acYuvPred[0], &m_acYuvPred[1], iRefIdx[0], iRefIdx[1], uiPartAddr, iWidth, iHeight, rpcYuvPred ); |
---|
| 543 | } |
---|
| 544 | } |
---|
| 545 | |
---|
| 546 | /** |
---|
| 547 | * \brief Generate motion-compensated luma block |
---|
| 548 | * |
---|
| 549 | * \param cu Pointer to current CU |
---|
| 550 | * \param refPic Pointer to reference picture |
---|
| 551 | * \param partAddr Address of block within CU |
---|
| 552 | * \param mv Motion vector |
---|
| 553 | * \param width Width of block |
---|
| 554 | * \param height Height of block |
---|
| 555 | * \param dstPic Pointer to destination picture |
---|
| 556 | * \param bi Flag indicating whether bipred is used |
---|
| 557 | */ |
---|
| 558 | Void TComPrediction::xPredInterLumaBlk( TComDataCU *cu, TComPicYuv *refPic, UInt partAddr, TComMv *mv, Int width, Int height, TComYuv *&dstPic, Bool bi ) |
---|
| 559 | { |
---|
| 560 | Int refStride = refPic->getStride(); |
---|
| 561 | Int refOffset = ( mv->getHor() >> 2 ) + ( mv->getVer() >> 2 ) * refStride; |
---|
| 562 | Pel *ref = refPic->getLumaAddr( cu->getAddr(), cu->getZorderIdxInCU() + partAddr ) + refOffset; |
---|
| 563 | |
---|
| 564 | Int dstStride = dstPic->getStride(); |
---|
| 565 | Pel *dst = dstPic->getLumaAddr( partAddr ); |
---|
| 566 | |
---|
| 567 | Int xFrac = mv->getHor() & 0x3; |
---|
| 568 | Int yFrac = mv->getVer() & 0x3; |
---|
| 569 | |
---|
| 570 | if ( yFrac == 0 ) |
---|
| 571 | { |
---|
| 572 | m_if.filterHorLuma( ref, refStride, dst, dstStride, width, height, xFrac, !bi ); |
---|
| 573 | } |
---|
| 574 | else if ( xFrac == 0 ) |
---|
| 575 | { |
---|
| 576 | m_if.filterVerLuma( ref, refStride, dst, dstStride, width, height, yFrac, true, !bi ); |
---|
| 577 | } |
---|
| 578 | else |
---|
| 579 | { |
---|
| 580 | Int tmpStride = m_filteredBlockTmp[0].getStride(); |
---|
| 581 | Short *tmp = m_filteredBlockTmp[0].getLumaAddr(); |
---|
| 582 | |
---|
| 583 | Int filterSize = NTAPS_LUMA; |
---|
| 584 | Int halfFilterSize = ( filterSize >> 1 ); |
---|
| 585 | |
---|
| 586 | m_if.filterHorLuma(ref - (halfFilterSize-1)*refStride, refStride, tmp, tmpStride, width, height+filterSize-1, xFrac, false ); |
---|
| 587 | m_if.filterVerLuma(tmp + (halfFilterSize-1)*tmpStride, tmpStride, dst, dstStride, width, height, yFrac, false, !bi); |
---|
| 588 | } |
---|
| 589 | } |
---|
| 590 | |
---|
| 591 | /** |
---|
| 592 | * \brief Generate motion-compensated chroma block |
---|
| 593 | * |
---|
| 594 | * \param cu Pointer to current CU |
---|
| 595 | * \param refPic Pointer to reference picture |
---|
| 596 | * \param partAddr Address of block within CU |
---|
| 597 | * \param mv Motion vector |
---|
| 598 | * \param width Width of block |
---|
| 599 | * \param height Height of block |
---|
| 600 | * \param dstPic Pointer to destination picture |
---|
| 601 | * \param bi Flag indicating whether bipred is used |
---|
| 602 | */ |
---|
| 603 | Void TComPrediction::xPredInterChromaBlk( TComDataCU *cu, TComPicYuv *refPic, UInt partAddr, TComMv *mv, Int width, Int height, TComYuv *&dstPic, Bool bi ) |
---|
| 604 | { |
---|
| 605 | Int refStride = refPic->getCStride(); |
---|
| 606 | Int dstStride = dstPic->getCStride(); |
---|
| 607 | |
---|
| 608 | Int refOffset = (mv->getHor() >> 3) + (mv->getVer() >> 3) * refStride; |
---|
| 609 | |
---|
| 610 | Pel* refCb = refPic->getCbAddr( cu->getAddr(), cu->getZorderIdxInCU() + partAddr ) + refOffset; |
---|
| 611 | Pel* refCr = refPic->getCrAddr( cu->getAddr(), cu->getZorderIdxInCU() + partAddr ) + refOffset; |
---|
| 612 | |
---|
| 613 | Pel* dstCb = dstPic->getCbAddr( partAddr ); |
---|
| 614 | Pel* dstCr = dstPic->getCrAddr( partAddr ); |
---|
| 615 | |
---|
| 616 | Int xFrac = mv->getHor() & 0x7; |
---|
| 617 | Int yFrac = mv->getVer() & 0x7; |
---|
| 618 | UInt cxWidth = width >> 1; |
---|
| 619 | UInt cxHeight = height >> 1; |
---|
| 620 | |
---|
| 621 | Int extStride = m_filteredBlockTmp[0].getStride(); |
---|
| 622 | Short* extY = m_filteredBlockTmp[0].getLumaAddr(); |
---|
| 623 | |
---|
| 624 | Int filterSize = NTAPS_CHROMA; |
---|
| 625 | |
---|
| 626 | Int halfFilterSize = (filterSize>>1); |
---|
| 627 | |
---|
| 628 | if ( yFrac == 0 ) |
---|
| 629 | { |
---|
| 630 | m_if.filterHorChroma(refCb, refStride, dstCb, dstStride, cxWidth, cxHeight, xFrac, !bi); |
---|
| 631 | m_if.filterHorChroma(refCr, refStride, dstCr, dstStride, cxWidth, cxHeight, xFrac, !bi); |
---|
| 632 | } |
---|
| 633 | else if ( xFrac == 0 ) |
---|
| 634 | { |
---|
| 635 | m_if.filterVerChroma(refCb, refStride, dstCb, dstStride, cxWidth, cxHeight, yFrac, true, !bi); |
---|
| 636 | m_if.filterVerChroma(refCr, refStride, dstCr, dstStride, cxWidth, cxHeight, yFrac, true, !bi); |
---|
| 637 | } |
---|
| 638 | else |
---|
| 639 | { |
---|
| 640 | m_if.filterHorChroma(refCb - (halfFilterSize-1)*refStride, refStride, extY, extStride, cxWidth, cxHeight+filterSize-1, xFrac, false); |
---|
| 641 | m_if.filterVerChroma(extY + (halfFilterSize-1)*extStride, extStride, dstCb, dstStride, cxWidth, cxHeight , yFrac, false, !bi); |
---|
| 642 | |
---|
| 643 | m_if.filterHorChroma(refCr - (halfFilterSize-1)*refStride, refStride, extY, extStride, cxWidth, cxHeight+filterSize-1, xFrac, false); |
---|
| 644 | m_if.filterVerChroma(extY + (halfFilterSize-1)*extStride, extStride, dstCr, dstStride, cxWidth, cxHeight , yFrac, false, !bi); |
---|
| 645 | } |
---|
| 646 | } |
---|
| 647 | |
---|
| 648 | Void TComPrediction::xWeightedAverage( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, Int iRefIdx0, Int iRefIdx1, UInt uiPartIdx, Int iWidth, Int iHeight, TComYuv*& rpcYuvDst ) |
---|
| 649 | { |
---|
| 650 | if( iRefIdx0 >= 0 && iRefIdx1 >= 0 ) |
---|
| 651 | { |
---|
| 652 | rpcYuvDst->addAvg( pcYuvSrc0, pcYuvSrc1, uiPartIdx, iWidth, iHeight ); |
---|
| 653 | } |
---|
| 654 | else if ( iRefIdx0 >= 0 && iRefIdx1 < 0 ) |
---|
| 655 | { |
---|
| 656 | pcYuvSrc0->copyPartToPartYuv( rpcYuvDst, uiPartIdx, iWidth, iHeight ); |
---|
| 657 | } |
---|
| 658 | else if ( iRefIdx0 < 0 && iRefIdx1 >= 0 ) |
---|
| 659 | { |
---|
| 660 | pcYuvSrc1->copyPartToPartYuv( rpcYuvDst, uiPartIdx, iWidth, iHeight ); |
---|
| 661 | } |
---|
| 662 | } |
---|
| 663 | |
---|
| 664 | // AMVP |
---|
| 665 | Void TComPrediction::getMvPredAMVP( TComDataCU* pcCU, UInt uiPartIdx, UInt uiPartAddr, RefPicList eRefPicList, TComMv& rcMvPred ) |
---|
| 666 | { |
---|
| 667 | AMVPInfo* pcAMVPInfo = pcCU->getCUMvField(eRefPicList)->getAMVPInfo(); |
---|
| 668 | if( pcAMVPInfo->iN <= 1 ) |
---|
| 669 | { |
---|
| 670 | rcMvPred = pcAMVPInfo->m_acMvCand[0]; |
---|
| 671 | |
---|
| 672 | pcCU->setMVPIdxSubParts( 0, eRefPicList, uiPartAddr, uiPartIdx, pcCU->getDepth(uiPartAddr)); |
---|
| 673 | pcCU->setMVPNumSubParts( pcAMVPInfo->iN, eRefPicList, uiPartAddr, uiPartIdx, pcCU->getDepth(uiPartAddr)); |
---|
| 674 | return; |
---|
| 675 | } |
---|
| 676 | |
---|
| 677 | assert(pcCU->getMVPIdx(eRefPicList,uiPartAddr) >= 0); |
---|
| 678 | rcMvPred = pcAMVPInfo->m_acMvCand[pcCU->getMVPIdx(eRefPicList,uiPartAddr)]; |
---|
| 679 | return; |
---|
| 680 | } |
---|
| 681 | |
---|
| 682 | /** Function for deriving planar intra prediction. |
---|
| 683 | * \param pSrc pointer to reconstructed sample array |
---|
| 684 | * \param srcStride the stride of the reconstructed sample array |
---|
| 685 | * \param rpDst reference to pointer for the prediction sample array |
---|
| 686 | * \param dstStride the stride of the prediction sample array |
---|
| 687 | * \param width the width of the block |
---|
| 688 | * \param height the height of the block |
---|
| 689 | * |
---|
| 690 | * This function derives the prediction samples for planar mode (intra coding). |
---|
| 691 | */ |
---|
| 692 | Void TComPrediction::xPredIntraPlanar( Int* pSrc, Int srcStride, Pel* rpDst, Int dstStride, UInt width, UInt height ) |
---|
| 693 | { |
---|
| 694 | assert(width == height); |
---|
| 695 | |
---|
| 696 | Int k, l, bottomLeft, topRight; |
---|
| 697 | Int horPred; |
---|
[442] | 698 | Int leftColumn[MAX_CU_SIZE+1], topRow[MAX_CU_SIZE+1], bottomRow[MAX_CU_SIZE], rightColumn[MAX_CU_SIZE]; |
---|
[313] | 699 | UInt blkSize = width; |
---|
| 700 | UInt offset2D = width; |
---|
| 701 | UInt shift1D = g_aucConvertToBit[ width ] + 2; |
---|
| 702 | UInt shift2D = shift1D + 1; |
---|
| 703 | |
---|
| 704 | // Get left and above reference column and row |
---|
| 705 | for(k=0;k<blkSize+1;k++) |
---|
| 706 | { |
---|
| 707 | topRow[k] = pSrc[k-srcStride]; |
---|
| 708 | leftColumn[k] = pSrc[k*srcStride-1]; |
---|
| 709 | } |
---|
| 710 | |
---|
| 711 | // Prepare intermediate variables used in interpolation |
---|
| 712 | bottomLeft = leftColumn[blkSize]; |
---|
| 713 | topRight = topRow[blkSize]; |
---|
| 714 | for (k=0;k<blkSize;k++) |
---|
| 715 | { |
---|
| 716 | bottomRow[k] = bottomLeft - topRow[k]; |
---|
| 717 | rightColumn[k] = topRight - leftColumn[k]; |
---|
| 718 | topRow[k] <<= shift1D; |
---|
| 719 | leftColumn[k] <<= shift1D; |
---|
| 720 | } |
---|
| 721 | |
---|
| 722 | // Generate prediction signal |
---|
| 723 | for (k=0;k<blkSize;k++) |
---|
| 724 | { |
---|
| 725 | horPred = leftColumn[k] + offset2D; |
---|
| 726 | for (l=0;l<blkSize;l++) |
---|
| 727 | { |
---|
| 728 | horPred += rightColumn[k]; |
---|
| 729 | topRow[l] += bottomRow[l]; |
---|
| 730 | rpDst[k*dstStride+l] = ( (horPred + topRow[l]) >> shift2D ); |
---|
| 731 | } |
---|
| 732 | } |
---|
| 733 | } |
---|
| 734 | |
---|
| 735 | /** Function for filtering intra DC predictor. |
---|
| 736 | * \param pSrc pointer to reconstructed sample array |
---|
| 737 | * \param iSrcStride the stride of the reconstructed sample array |
---|
| 738 | * \param rpDst reference to pointer for the prediction sample array |
---|
| 739 | * \param iDstStride the stride of the prediction sample array |
---|
| 740 | * \param iWidth the width of the block |
---|
| 741 | * \param iHeight the height of the block |
---|
| 742 | * |
---|
| 743 | * This function performs filtering left and top edges of the prediction samples for DC mode (intra coding). |
---|
| 744 | */ |
---|
| 745 | Void TComPrediction::xDCPredFiltering( Int* pSrc, Int iSrcStride, Pel*& rpDst, Int iDstStride, Int iWidth, Int iHeight ) |
---|
| 746 | { |
---|
| 747 | Pel* pDst = rpDst; |
---|
| 748 | Int x, y, iDstStride2, iSrcStride2; |
---|
| 749 | |
---|
| 750 | // boundary pixels processing |
---|
| 751 | pDst[0] = (Pel)((pSrc[-iSrcStride] + pSrc[-1] + 2 * pDst[0] + 2) >> 2); |
---|
| 752 | |
---|
| 753 | for ( x = 1; x < iWidth; x++ ) |
---|
| 754 | { |
---|
| 755 | pDst[x] = (Pel)((pSrc[x - iSrcStride] + 3 * pDst[x] + 2) >> 2); |
---|
| 756 | } |
---|
| 757 | |
---|
| 758 | for ( y = 1, iDstStride2 = iDstStride, iSrcStride2 = iSrcStride-1; y < iHeight; y++, iDstStride2+=iDstStride, iSrcStride2+=iSrcStride ) |
---|
| 759 | { |
---|
| 760 | pDst[iDstStride2] = (Pel)((pSrc[iSrcStride2] + 3 * pDst[iDstStride2] + 2) >> 2); |
---|
| 761 | } |
---|
| 762 | |
---|
| 763 | return; |
---|
| 764 | } |
---|
| 765 | |
---|
| 766 | #if SVC_UPSAMPLING |
---|
[464] | 767 | #if O0215_PHASE_ALIGNMENT |
---|
[489] | 768 | #if O0194_JOINT_US_BITSHIFT |
---|
| 769 | Void TComPrediction::upsampleBasePic( TComSlice* currSlice, UInt refLayerIdc, TComPicYuv* pcUsPic, TComPicYuv* pcBasePic, TComPicYuv* pcTempPic, const Window window, bool phaseAlignFlag ) |
---|
| 770 | { |
---|
| 771 | m_cUsf.upsampleBasePic( currSlice, refLayerIdc, pcUsPic, pcBasePic, pcTempPic, window, phaseAlignFlag ); |
---|
| 772 | } |
---|
| 773 | #else |
---|
[464] | 774 | Void TComPrediction::upsampleBasePic( UInt refLayerIdc, TComPicYuv* pcUsPic, TComPicYuv* pcBasePic, TComPicYuv* pcTempPic, const Window window, bool phaseAlignFlag ) |
---|
| 775 | { |
---|
| 776 | m_cUsf.upsampleBasePic( refLayerIdc, pcUsPic, pcBasePic, pcTempPic, window, phaseAlignFlag ); |
---|
| 777 | } |
---|
[489] | 778 | #endif |
---|
[464] | 779 | #else |
---|
[489] | 780 | #if O0194_JOINT_US_BITSHIFT |
---|
| 781 | Void TComPrediction::upsampleBasePic( TComSlice* currSlice, UInt refLayerIdc, TComPicYuv* pcUsPic, TComPicYuv* pcBasePic, TComPicYuv* pcTempPic, const Window window) |
---|
| 782 | { |
---|
| 783 | m_cUsf.upsampleBasePic( refLayerIdc, pcUsPic, pcBasePic, pcTempPic, window); |
---|
| 784 | } |
---|
| 785 | #else |
---|
[313] | 786 | Void TComPrediction::upsampleBasePic( UInt refLayerIdc, TComPicYuv* pcUsPic, TComPicYuv* pcBasePic, TComPicYuv* pcTempPic, const Window window) |
---|
| 787 | { |
---|
| 788 | m_cUsf.upsampleBasePic( refLayerIdc, pcUsPic, pcBasePic, pcTempPic, window); |
---|
| 789 | } |
---|
| 790 | #endif |
---|
[464] | 791 | #endif |
---|
[489] | 792 | #endif |
---|
[313] | 793 | //! \} |
---|