source: SHVCSoftware/branches/SHM-upgrade/source/Lib/TLibCommon/TComPattern.cpp @ 1311

Last change on this file since 1311 was 916, checked in by seregin, 10 years ago

initial porting

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[313]1/* The copyright in this software is being made available under the BSD
2 * License, included below. This software may be subject to other third party
3 * and contributor rights, including patent rights, and no such rights are
[916]4 * granted under this license.
[313]5 *
[595]6 * Copyright (c) 2010-2014, ITU/ISO/IEC
[313]7 * All rights reserved.
8 *
9 * Redistribution and use in source and binary forms, with or without
10 * modification, are permitted provided that the following conditions are met:
11 *
12 *  * Redistributions of source code must retain the above copyright notice,
13 *    this list of conditions and the following disclaimer.
14 *  * Redistributions in binary form must reproduce the above copyright notice,
15 *    this list of conditions and the following disclaimer in the documentation
16 *    and/or other materials provided with the distribution.
17 *  * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
18 *    be used to endorse or promote products derived from this software without
19 *    specific prior written permission.
20 *
21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
22 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
25 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
26 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
27 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
28 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
29 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
30 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
31 * THE POSSIBILITY OF SUCH DAMAGE.
32 */
33
34/** \file     TComPattern.cpp
35    \brief    neighbouring pixel access classes
36*/
37
38#include "TComPic.h"
39#include "TComPattern.h"
40#include "TComDataCU.h"
[916]41#include "TComTU.h"
42#include "Debug.h"
43#include "TComPrediction.h"
[313]44
45//! \ingroup TLibCommon
46//! \{
47
[916]48// Forward declarations
[313]49
[916]50/// padding of unavailable reference samples for intra prediction
51#if O0043_BEST_EFFORT_DECODING
52Void fillReferenceSamples( const Int bitDepth, const Int bitDepthDelta, TComDataCU* pcCU, const Pel* piRoiOrigin, Pel* piAdiTemp, const Bool* bNeighborFlags,
53#else
54Void fillReferenceSamples( const Int bitDepth, TComDataCU* pcCU, const Pel* piRoiOrigin, Pel* piAdiTemp, const Bool* bNeighborFlags,
55#endif
56                           const Int iNumIntraNeighbor, const Int unitWidth, const Int unitHeight, const Int iAboveUnits, const Int iLeftUnits,
57                           const UInt uiCuWidth, const UInt uiCuHeight, const UInt uiWidth, const UInt uiHeight, const Int iPicStride,
58                           const ChannelType chType, const ChromaFormat chFmt );
[313]59
[916]60/// constrained intra prediction
61Bool  isAboveLeftAvailable  ( TComDataCU* pcCU, UInt uiPartIdxLT );
62Int   isAboveAvailable      ( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxRT, Bool* bValidFlags );
63Int   isLeftAvailable       ( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxLB, Bool* bValidFlags );
64Int   isAboveRightAvailable ( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxRT, Bool* bValidFlags );
65Int   isBelowLeftAvailable  ( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxLB, Bool* bValidFlags );
66
67
[313]68// ====================================================================================================================
69// Public member functions (TComPatternParam)
70// ====================================================================================================================
71
72/** \param  piTexture     pixel data
73 \param  iRoiWidth     pattern width
74 \param  iRoiHeight    pattern height
75 \param  iStride       buffer stride
76 \param  iOffsetLeft   neighbour offset (left)
[916]77 \param  iOffsetRight  neighbour offset (right)
[313]78 \param  iOffsetAbove  neighbour offset (above)
[916]79 \param  iOffsetBottom neighbour offset (bottom)
[313]80 */
81Void TComPatternParam::setPatternParamPel ( Pel* piTexture,
82                                           Int iRoiWidth,
83                                           Int iRoiHeight,
[916]84                                           Int iStride
85                                           )
[313]86{
[916]87  m_piROIOrigin    = piTexture;
[313]88  m_iROIWidth       = iRoiWidth;
89  m_iROIHeight      = iRoiHeight;
90  m_iPatternStride  = iStride;
91}
92
93// ====================================================================================================================
94// Public member functions (TComPattern)
95// ====================================================================================================================
96
[916]97Void TComPattern::initPattern (Pel* piY,
[313]98                               Int iRoiWidth,
99                               Int iRoiHeight,
[916]100                               Int iStride)
[313]101{
[916]102  m_cPatternY. setPatternParamPel( piY,  iRoiWidth, iRoiHeight, iStride);
[313]103}
104
[916]105
106// TODO: move this function to TComPrediction.cpp.
107Void TComPrediction::initAdiPatternChType( TComTU &rTu, Bool& bAbove, Bool& bLeft, const ComponentID compID, const Bool bFilterRefSamples DEBUG_STRING_FN_DECLARE(sDebug))
[313]108{
[916]109  const ChannelType chType    = toChannelType(compID);
[313]110
[916]111  TComDataCU *pcCU=rTu.getCU();
112  const UInt uiZorderIdxInPart=rTu.GetAbsPartIdxTU();
113  const UInt uiTuWidth        = rTu.getRect(compID).width;
114  const UInt uiTuHeight       = rTu.getRect(compID).height;
115  const UInt uiTuWidth2       = uiTuWidth  << 1;
116  const UInt uiTuHeight2      = uiTuHeight << 1;
117
118  const Int  iBaseUnitSize    = g_uiMaxCUWidth >> g_uiMaxCUDepth;
119  const Int  iUnitWidth       = iBaseUnitSize  >> pcCU->getPic()->getPicYuvRec()->getComponentScaleX(compID);
120  const Int  iUnitHeight      = iBaseUnitSize  >> pcCU->getPic()->getPicYuvRec()->getComponentScaleY(compID);
121  const Int  iTUWidthInUnits  = uiTuWidth  / iUnitWidth;
122  const Int  iTUHeightInUnits = uiTuHeight / iUnitHeight;
123  const Int  iAboveUnits      = iTUWidthInUnits  << 1;
124  const Int  iLeftUnits       = iTUHeightInUnits << 1;
125
126  assert(iTUHeightInUnits > 0 && iTUWidthInUnits > 0);
127
128  const Int  iPartIdxStride   = pcCU->getPic()->getNumPartInCtuWidth();
129  const UInt uiPartIdxLT      = pcCU->getZorderIdxInCtu() + uiZorderIdxInPart;
130  const UInt uiPartIdxRT      = g_auiRasterToZscan[ g_auiZscanToRaster[ uiPartIdxLT ] +   iTUWidthInUnits  - 1                   ];
131  const UInt uiPartIdxLB      = g_auiRasterToZscan[ g_auiZscanToRaster[ uiPartIdxLT ] + ((iTUHeightInUnits - 1) * iPartIdxStride)];
132
133  Int   iPicStride = pcCU->getPic()->getStride(compID);
[313]134  Bool  bNeighborFlags[4 * MAX_NUM_SPU_W + 1];
135  Int   iNumIntraNeighbor = 0;
136
[916]137  bNeighborFlags[iLeftUnits] = isAboveLeftAvailable( pcCU, uiPartIdxLT );
138  iNumIntraNeighbor += bNeighborFlags[iLeftUnits] ? 1 : 0;
139  iNumIntraNeighbor  += isAboveAvailable     ( pcCU, uiPartIdxLT, uiPartIdxRT, (bNeighborFlags + iLeftUnits + 1)                    );
140  iNumIntraNeighbor  += isAboveRightAvailable( pcCU, uiPartIdxLT, uiPartIdxRT, (bNeighborFlags + iLeftUnits + 1 + iTUWidthInUnits ) );
141  iNumIntraNeighbor  += isLeftAvailable      ( pcCU, uiPartIdxLT, uiPartIdxLB, (bNeighborFlags + iLeftUnits - 1)                    );
142  iNumIntraNeighbor  += isBelowLeftAvailable ( pcCU, uiPartIdxLT, uiPartIdxLB, (bNeighborFlags + iLeftUnits - 1 - iTUHeightInUnits) );
[313]143
144  bAbove = true;
145  bLeft  = true;
146
[916]147  const ChromaFormat chFmt       = rTu.GetChromaFormat();
148  const UInt         uiROIWidth  = uiTuWidth2+1;
149  const UInt         uiROIHeight = uiTuHeight2+1;
[313]150
[916]151  assert(uiROIWidth*uiROIHeight <= m_iYuvExtSize);
[313]152
[916]153#ifdef DEBUG_STRING
154  std::stringstream ss(stringstream::out);
155#endif
[313]156
157  {
[916]158    Pel *piAdiTemp   = m_piYuvExt[compID][PRED_BUF_UNFILTERED];
159    Pel *piRoiOrigin = pcCU->getPic()->getPicYuvRec()->getAddr(compID, pcCU->getCtuRsAddr(), pcCU->getZorderIdxInCtu()+uiZorderIdxInPart);
160#if O0043_BEST_EFFORT_DECODING
161    fillReferenceSamples (g_bitDepthInStream[chType], g_bitDepthInStream[chType] - g_bitDepth[chType], pcCU, piRoiOrigin, piAdiTemp, bNeighborFlags, iNumIntraNeighbor,  iUnitWidth, iUnitHeight, iAboveUnits, iLeftUnits,
162#else
163    fillReferenceSamples (g_bitDepth[chType], pcCU, piRoiOrigin, piAdiTemp, bNeighborFlags, iNumIntraNeighbor,  iUnitWidth, iUnitHeight, iAboveUnits, iLeftUnits,
164#endif
165                          uiTuWidth, uiTuHeight, uiROIWidth, uiROIHeight, iPicStride, toChannelType(compID), chFmt);
[313]166
[916]167
168#ifdef DEBUG_STRING
169    if (DebugOptionList::DebugString_Pred.getInt()&DebugStringGetPredModeMask(MODE_INTRA))
[313]170    {
[916]171      ss << "###: generating Ref Samples for channel " << compID << " and " << rTu.getRect(compID).width << " x " << rTu.getRect(compID).height << "\n";
172      for (UInt y=0; y<uiROIHeight; y++)
[313]173      {
[916]174        ss << "###: - ";
175        for (UInt x=0; x<uiROIWidth; x++)
176        {
177          if (x==0 || y==0)
178            ss << piAdiTemp[y*uiROIWidth + x] << ", ";
179//          if (x%16==15) ss << "\nPart size: ~ ";
180        }
181        ss << "\n";
[313]182      }
[916]183    }
184#endif
185
186    if (bFilterRefSamples)
187    {
188      // generate filtered intra prediction samples
189
190            Int          stride    = uiROIWidth;
191      const Pel         *piSrcPtr  = piAdiTemp                             + (stride * uiTuHeight2); // bottom left
192            Pel         *piDestPtr = m_piYuvExt[compID][PRED_BUF_FILTERED] + (stride * uiTuHeight2); // bottom left
193
194      //------------------------------------------------
195
196      Bool useStrongIntraSmoothing = isLuma(chType) && pcCU->getSlice()->getSPS()->getUseStrongIntraSmoothing();
197
198      const Pel bottomLeft = piAdiTemp[stride * uiTuHeight2];
199      const Pel topLeft    = piAdiTemp[0];
200      const Pel topRight   = piAdiTemp[uiTuWidth2];
201
202      if (useStrongIntraSmoothing)
[313]203      {
[916]204#if O0043_BEST_EFFORT_DECODING
205        const Int  threshold     = 1 << (g_bitDepthInStream[chType] - 5);
206#else
207        const Int  threshold     = 1 << (g_bitDepth[chType] - 5);
208#endif
209        const Bool bilinearLeft  = abs((bottomLeft + topLeft ) - (2 * piAdiTemp[stride * uiTuHeight])) < threshold; //difference between the
210        const Bool bilinearAbove = abs((topLeft    + topRight) - (2 * piAdiTemp[         uiTuWidth ])) < threshold; //ends and the middle
211        if ((uiTuWidth < 32) || (!bilinearLeft) || (!bilinearAbove))
212          useStrongIntraSmoothing = false;
[313]213      }
[916]214
215      *piDestPtr = *piSrcPtr; // bottom left is not filtered
216      piDestPtr -= stride;
217      piSrcPtr  -= stride;
218
219      //------------------------------------------------
220
221      //left column (bottom to top)
222
223      if (useStrongIntraSmoothing)
224      {
225        const Int shift = g_aucConvertToBit[uiTuHeight] + 3; //log2(uiTuHeight2)
226
227        for(UInt i=1; i<uiTuHeight2; i++, piDestPtr-=stride)
228        {
229          *piDestPtr = (((uiTuHeight2 - i) * bottomLeft) + (i * topLeft) + uiTuHeight) >> shift;
230        }
231
232        piSrcPtr -= stride * (uiTuHeight2 - 1);
233      }
234      else
235      {
236        for(UInt i=1; i<uiTuHeight2; i++, piDestPtr-=stride, piSrcPtr-=stride)
237        {
238          *piDestPtr = ( piSrcPtr[stride] + 2*piSrcPtr[0] + piSrcPtr[-stride] + 2 ) >> 2;
239        }
240      }
241
242      //------------------------------------------------
243
244      //top-left
245
246      if (useStrongIntraSmoothing)
247      {
248        *piDestPtr = piSrcPtr[0];
249      }
250      else
251      {
252        *piDestPtr = ( piSrcPtr[stride] + 2*piSrcPtr[0] + piSrcPtr[1] + 2 ) >> 2;
253      }
254      piDestPtr += 1;
255      piSrcPtr  += 1;
256
257      //------------------------------------------------
258
259      //top row (left-to-right)
260
261      if (useStrongIntraSmoothing)
262      {
263        const Int shift = g_aucConvertToBit[uiTuWidth] + 3; //log2(uiTuWidth2)
264
265        for(UInt i=1; i<uiTuWidth2; i++, piDestPtr++)
266        {
267          *piDestPtr = (((uiTuWidth2 - i) * topLeft) + (i * topRight) + uiTuWidth) >> shift;
268        }
269
270        piSrcPtr += uiTuWidth2 - 1;
271      }
272      else
273      {
274        for(UInt i=1; i<uiTuWidth2; i++, piDestPtr++, piSrcPtr++)
275        {
276          *piDestPtr = ( piSrcPtr[1] + 2*piSrcPtr[0] + piSrcPtr[-1] + 2 ) >> 2;
277        }
278      }
279
280      //------------------------------------------------
281
282      *piDestPtr=*piSrcPtr; // far right is not filtered
283
284#ifdef DEBUG_STRING
285    if (DebugOptionList::DebugString_Pred.getInt()&DebugStringGetPredModeMask(MODE_INTRA))
[313]286    {
[916]287      ss << "###: filtered result for channel " << compID <<"\n";
288      for (UInt y=0; y<uiROIHeight; y++)
[313]289      {
[916]290        ss << "###: - ";
291        for (UInt x=0; x<uiROIWidth; x++)
292        {
293          if (x==0 || y==0)
294            ss << m_piYuvExt[compID][PRED_BUF_FILTERED][y*uiROIWidth + x] << ", ";
295//          if (x%16==15) ss << "\nPart size: ~ ";
296        }
297        ss << "\n";
[313]298      }
299    }
[916]300#endif
[313]301
302
[916]303    }
[313]304  }
[916]305  DEBUG_STRING_APPEND(sDebug, ss.str())
[313]306}
307
[916]308#if O0043_BEST_EFFORT_DECODING
309Void fillReferenceSamples( const Int bitDepth, const Int bitDepthDelta, TComDataCU* pcCU, const Pel* piRoiOrigin, Pel* piAdiTemp, const Bool* bNeighborFlags,
310#else
311Void fillReferenceSamples( const Int bitDepth, TComDataCU* pcCU, const Pel* piRoiOrigin, Pel* piAdiTemp, const Bool* bNeighborFlags,
312#endif
313                           const Int iNumIntraNeighbor, const Int unitWidth, const Int unitHeight, const Int iAboveUnits, const Int iLeftUnits,
314                           const UInt uiCuWidth, const UInt uiCuHeight, const UInt uiWidth, const UInt uiHeight, const Int iPicStride,
315                           const ChannelType chType, const ChromaFormat chFmt )
[313]316{
[916]317  const Pel* piRoiTemp;
[313]318  Int  i, j;
319  Int  iDCValue = 1 << (bitDepth - 1);
[916]320  const Int iTotalUnits = iAboveUnits + iLeftUnits + 1; //+1 for top-left
[313]321
322  if (iNumIntraNeighbor == 0)
323  {
324    // Fill border with DC value
325    for (i=0; i<uiWidth; i++)
326    {
327      piAdiTemp[i] = iDCValue;
328    }
329    for (i=1; i<uiHeight; i++)
330    {
331      piAdiTemp[i*uiWidth] = iDCValue;
332    }
333  }
334  else if (iNumIntraNeighbor == iTotalUnits)
335  {
[916]336    // Fill top-left border and top and top right with rec. samples
[313]337    piRoiTemp = piRoiOrigin - iPicStride - 1;
338
[916]339    for (i=0; i<uiWidth; i++)
[313]340    {
[916]341#if O0043_BEST_EFFORT_DECODING
342      piAdiTemp[i] = piRoiTemp[i] << bitDepthDelta;
343#else
344      piAdiTemp[i] = piRoiTemp[i];
345#endif
[313]346    }
347
[916]348    // Fill left and below left border with rec. samples
349    piRoiTemp = piRoiOrigin - 1;
[313]350
[916]351    for (i=1; i<uiHeight; i++)
[313]352    {
[916]353#if O0043_BEST_EFFORT_DECODING
354      piAdiTemp[i*uiWidth] = (*(piRoiTemp)) << bitDepthDelta;
355#else
356      piAdiTemp[i*uiWidth] = *(piRoiTemp);
357#endif
[313]358      piRoiTemp += iPicStride;
359    }
360  }
361  else // reference samples are partially available
362  {
[916]363    // all above units have "unitWidth" samples each, all left/below-left units have "unitHeight" samples each
364    const Int  iTotalSamples = (iLeftUnits * unitHeight) + ((iAboveUnits + 1) * unitWidth);
[313]365    Pel  piAdiLine[5 * MAX_CU_SIZE];
[916]366    Pel  *piAdiLineTemp;
367    const Bool *pbNeighborFlags;
[313]368
[916]369
[313]370    // Initialize
371    for (i=0; i<iTotalSamples; i++)
372    {
373      piAdiLine[i] = iDCValue;
374    }
[916]375
[313]376    // Fill top-left sample
377    piRoiTemp = piRoiOrigin - iPicStride - 1;
[916]378    piAdiLineTemp = piAdiLine + (iLeftUnits * unitHeight);
379    pbNeighborFlags = bNeighborFlags + iLeftUnits;
[313]380    if (*pbNeighborFlags)
381    {
[916]382#if O0043_BEST_EFFORT_DECODING
383      Pel topLeftVal=piRoiTemp[0] << bitDepthDelta;
384#else
385      Pel topLeftVal=piRoiTemp[0];
386#endif
387      for (i=0; i<unitWidth; i++)
[313]388      {
[916]389        piAdiLineTemp[i] = topLeftVal;
[313]390      }
391    }
392
[916]393    // Fill left & below-left samples (downwards)
[313]394    piRoiTemp += iPicStride;
395    piAdiLineTemp--;
396    pbNeighborFlags--;
[916]397
398    for (j=0; j<iLeftUnits; j++)
[313]399    {
400      if (*pbNeighborFlags)
401      {
[916]402        for (i=0; i<unitHeight; i++)
[313]403        {
[916]404#if O0043_BEST_EFFORT_DECODING
405          piAdiLineTemp[-i] = piRoiTemp[i*iPicStride] << bitDepthDelta;
406#else
[313]407          piAdiLineTemp[-i] = piRoiTemp[i*iPicStride];
[916]408#endif
[313]409        }
410      }
[916]411      piRoiTemp += unitHeight*iPicStride;
412      piAdiLineTemp -= unitHeight;
[313]413      pbNeighborFlags--;
414    }
415
[916]416    // Fill above & above-right samples (left-to-right) (each unit has "unitWidth" samples)
[313]417    piRoiTemp = piRoiOrigin - iPicStride;
[916]418    // offset line buffer by iNumUints2*unitHeight (for left/below-left) + unitWidth (for above-left)
419    piAdiLineTemp = piAdiLine + (iLeftUnits * unitHeight) + unitWidth;
420    pbNeighborFlags = bNeighborFlags + iLeftUnits + 1;
421    for (j=0; j<iAboveUnits; j++)
[313]422    {
423      if (*pbNeighborFlags)
424      {
[916]425        for (i=0; i<unitWidth; i++)
[313]426        {
[916]427#if O0043_BEST_EFFORT_DECODING
428          piAdiLineTemp[i] = piRoiTemp[i] << bitDepthDelta;
429#else
[313]430          piAdiLineTemp[i] = piRoiTemp[i];
[916]431#endif
[313]432        }
433      }
[916]434      piRoiTemp += unitWidth;
435      piAdiLineTemp += unitWidth;
[313]436      pbNeighborFlags++;
437    }
438
439    // Pad reference samples when necessary
[916]440    Int iCurrJnit = 0;
441    Pel  *piAdiLineCur   = piAdiLine;
442    const UInt piAdiLineTopRowOffset = iLeftUnits * (unitHeight - unitWidth);
443
444    if (!bNeighborFlags[0])
[313]445    {
[916]446      // very bottom unit of bottom-left; at least one unit will be valid.
[313]447      {
[916]448        Int   iNext = 1;
449        while (iNext < iTotalUnits && !bNeighborFlags[iNext])
[313]450        {
[916]451          iNext++;
452        }
453        Pel *piAdiLineNext = piAdiLine + ((iNext < iLeftUnits) ? (iNext * unitHeight) : (piAdiLineTopRowOffset + (iNext * unitWidth)));
454        const Pel refSample = *piAdiLineNext;
455        // Pad unavailable samples with new value
456        Int iNextOrTop = std::min<Int>(iNext, iLeftUnits);
457        // fill left column
458        while (iCurrJnit < iNextOrTop)
459        {
460          for (i=0; i<unitHeight; i++)
[313]461          {
[916]462            piAdiLineCur[i] = refSample;
[313]463          }
[916]464          piAdiLineCur += unitHeight;
465          iCurrJnit++;
466        }
467        // fill top row
468        while (iCurrJnit < iNext)
469        {
470          for (i=0; i<unitWidth; i++)
[313]471          {
[916]472            piAdiLineCur[i] = refSample;
[313]473          }
[916]474          piAdiLineCur += unitWidth;
475          iCurrJnit++;
[313]476        }
[916]477      }
478    }
479
480    // pad all other reference samples.
481    while (iCurrJnit < iTotalUnits)
482    {
483      if (!bNeighborFlags[iCurrJnit]) // samples not available
484      {
[313]485        {
[916]486          const Int numSamplesInCurrUnit = (iCurrJnit >= iLeftUnits) ? unitWidth : unitHeight;
487          const Pel refSample = *(piAdiLineCur-1);
488          for (i=0; i<numSamplesInCurrUnit; i++)
[313]489          {
[916]490            piAdiLineCur[i] = refSample;
[313]491          }
[916]492          piAdiLineCur += numSamplesInCurrUnit;
493          iCurrJnit++;
[313]494        }
495      }
496      else
497      {
[916]498        piAdiLineCur += (iCurrJnit >= iLeftUnits) ? unitWidth : unitHeight;
499        iCurrJnit++;
[313]500      }
501    }
502
503    // Copy processed samples
[916]504
505    piAdiLineTemp = piAdiLine + uiHeight + unitWidth - 2;
506    // top left, top and top right samples
[313]507    for (i=0; i<uiWidth; i++)
508    {
509      piAdiTemp[i] = piAdiLineTemp[i];
510    }
[916]511
[313]512    piAdiLineTemp = piAdiLine + uiHeight - 1;
513    for (i=1; i<uiHeight; i++)
514    {
515      piAdiTemp[i*uiWidth] = piAdiLineTemp[-i];
516    }
517  }
518}
519
520/** Get pointer to reference samples for intra prediction
521 * \param uiDirMode   prediction mode index
522 * \param log2BlkSize size of block (2 = 4x4, 3 = 8x8, 4 = 16x16, 5 = 32x32, 6 = 64x64)
523 * \param piAdiBuf    pointer to unfiltered reference samples
524 * \return            pointer to (possibly filtered) reference samples
525 *
526 * The prediction mode index is used to determine whether a smoothed reference sample buffer is returned.
527 */
[916]528
529Bool TComPrediction::filteringIntraReferenceSamples(const ComponentID compID, UInt uiDirMode, UInt uiTuChWidth, UInt uiTuChHeight, const ChromaFormat chFmt, const Bool intraReferenceSmoothingDisabled)
[313]530{
[916]531  Bool bFilter;
532
533  if (!filterIntraReferenceSamples(toChannelType(compID), chFmt, intraReferenceSmoothingDisabled))
[313]534  {
[916]535    bFilter=false;
[313]536  }
[916]537  else
538  {
539    assert(uiTuChWidth>=4 && uiTuChHeight>=4 && uiTuChWidth<128 && uiTuChHeight<128);
[313]540
[916]541    if (uiDirMode == DC_IDX)
542    {
543      bFilter=false; //no smoothing for DC or LM chroma
544    }
545    else
546    {
547      Int diff = min<Int>(abs((Int) uiDirMode - HOR_IDX), abs((Int)uiDirMode - VER_IDX));
548      UInt sizeIndex=g_aucConvertToBit[uiTuChWidth];
549      assert(sizeIndex < MAX_INTRA_FILTER_DEPTHS);
550      bFilter = diff > m_aucIntraFilter[toChannelType(compID)][sizeIndex];
551    }
[313]552  }
[916]553  return bFilter;
[313]554}
555
[916]556Bool isAboveLeftAvailable( TComDataCU* pcCU, UInt uiPartIdxLT )
[313]557{
558  Bool bAboveLeftFlag;
559  UInt uiPartAboveLeft;
560  TComDataCU* pcCUAboveLeft = pcCU->getPUAboveLeft( uiPartAboveLeft, uiPartIdxLT );
561  if(pcCU->getSlice()->getPPS()->getConstrainedIntraPred())
562  {
[916]563    bAboveLeftFlag = ( pcCUAboveLeft && pcCUAboveLeft->isIntra( uiPartAboveLeft ) );
[313]564  }
565  else
566  {
567    bAboveLeftFlag = (pcCUAboveLeft ? true : false);
568  }
569  return bAboveLeftFlag;
570}
571
[916]572Int isAboveAvailable( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxRT, Bool *bValidFlags )
[313]573{
574  const UInt uiRasterPartBegin = g_auiZscanToRaster[uiPartIdxLT];
575  const UInt uiRasterPartEnd = g_auiZscanToRaster[uiPartIdxRT]+1;
576  const UInt uiIdxStep = 1;
577  Bool *pbValidFlags = bValidFlags;
578  Int iNumIntra = 0;
579
580  for ( UInt uiRasterPart = uiRasterPartBegin; uiRasterPart < uiRasterPartEnd; uiRasterPart += uiIdxStep )
581  {
582    UInt uiPartAbove;
583    TComDataCU* pcCUAbove = pcCU->getPUAbove( uiPartAbove, g_auiRasterToZscan[uiRasterPart] );
584    if(pcCU->getSlice()->getPPS()->getConstrainedIntraPred())
585    {
[916]586      if ( pcCUAbove && pcCUAbove->isIntra( uiPartAbove ) )
[313]587      {
588        iNumIntra++;
589        *pbValidFlags = true;
590      }
591      else
592      {
593        *pbValidFlags = false;
594      }
595    }
596    else
597    {
598      if (pcCUAbove)
599      {
600        iNumIntra++;
601        *pbValidFlags = true;
602      }
603      else
604      {
605        *pbValidFlags = false;
606      }
607    }
608    pbValidFlags++;
609  }
610  return iNumIntra;
611}
612
[916]613Int isLeftAvailable( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxLB, Bool *bValidFlags )
[313]614{
615  const UInt uiRasterPartBegin = g_auiZscanToRaster[uiPartIdxLT];
616  const UInt uiRasterPartEnd = g_auiZscanToRaster[uiPartIdxLB]+1;
[916]617  const UInt uiIdxStep = pcCU->getPic()->getNumPartInCtuWidth();
[313]618  Bool *pbValidFlags = bValidFlags;
619  Int iNumIntra = 0;
620
621  for ( UInt uiRasterPart = uiRasterPartBegin; uiRasterPart < uiRasterPartEnd; uiRasterPart += uiIdxStep )
622  {
623    UInt uiPartLeft;
624    TComDataCU* pcCULeft = pcCU->getPULeft( uiPartLeft, g_auiRasterToZscan[uiRasterPart] );
625    if(pcCU->getSlice()->getPPS()->getConstrainedIntraPred())
626    {
[916]627      if ( pcCULeft && pcCULeft->isIntra( uiPartLeft ) )
[313]628      {
629        iNumIntra++;
630        *pbValidFlags = true;
631      }
632      else
633      {
634        *pbValidFlags = false;
635      }
636    }
637    else
638    {
639      if ( pcCULeft )
640      {
641        iNumIntra++;
642        *pbValidFlags = true;
643      }
644      else
645      {
646        *pbValidFlags = false;
647      }
648    }
649    pbValidFlags--; // opposite direction
650  }
651
652  return iNumIntra;
653}
654
[916]655Int isAboveRightAvailable( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxRT, Bool *bValidFlags )
[313]656{
657  const UInt uiNumUnitsInPU = g_auiZscanToRaster[uiPartIdxRT] - g_auiZscanToRaster[uiPartIdxLT] + 1;
658  Bool *pbValidFlags = bValidFlags;
659  Int iNumIntra = 0;
660
661  for ( UInt uiOffset = 1; uiOffset <= uiNumUnitsInPU; uiOffset++ )
662  {
663    UInt uiPartAboveRight;
664    TComDataCU* pcCUAboveRight = pcCU->getPUAboveRightAdi( uiPartAboveRight, uiPartIdxRT, uiOffset );
665    if(pcCU->getSlice()->getPPS()->getConstrainedIntraPred())
666    {
[916]667      if ( pcCUAboveRight && pcCUAboveRight->isIntra( uiPartAboveRight ) )
[313]668      {
669        iNumIntra++;
670        *pbValidFlags = true;
671      }
672      else
673      {
674        *pbValidFlags = false;
675      }
676    }
677    else
678    {
679      if ( pcCUAboveRight )
680      {
681        iNumIntra++;
682        *pbValidFlags = true;
683      }
684      else
685      {
686        *pbValidFlags = false;
687      }
688    }
689    pbValidFlags++;
690  }
691
692  return iNumIntra;
693}
694
[916]695Int isBelowLeftAvailable( TComDataCU* pcCU, UInt uiPartIdxLT, UInt uiPartIdxLB, Bool *bValidFlags )
[313]696{
[916]697  const UInt uiNumUnitsInPU = (g_auiZscanToRaster[uiPartIdxLB] - g_auiZscanToRaster[uiPartIdxLT]) / pcCU->getPic()->getNumPartInCtuWidth() + 1;
[313]698  Bool *pbValidFlags = bValidFlags;
699  Int iNumIntra = 0;
700
701  for ( UInt uiOffset = 1; uiOffset <= uiNumUnitsInPU; uiOffset++ )
702  {
703    UInt uiPartBelowLeft;
704    TComDataCU* pcCUBelowLeft = pcCU->getPUBelowLeftAdi( uiPartBelowLeft, uiPartIdxLB, uiOffset );
705    if(pcCU->getSlice()->getPPS()->getConstrainedIntraPred())
706    {
[916]707      if ( pcCUBelowLeft && pcCUBelowLeft->isIntra( uiPartBelowLeft ) )
[313]708      {
709        iNumIntra++;
710        *pbValidFlags = true;
711      }
712      else
713      {
714        *pbValidFlags = false;
715      }
716    }
717    else
718    {
719      if ( pcCUBelowLeft )
720      {
721        iNumIntra++;
722        *pbValidFlags = true;
723      }
724      else
725      {
726        *pbValidFlags = false;
727      }
728    }
729    pbValidFlags--; // opposite direction
730  }
731
732  return iNumIntra;
733}
734//! \}
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