source: SHVCSoftware/branches/SHM-dev/source/Lib/TLibEncoder/TEncTop.cpp @ 1590

Last change on this file since 1590 was 1578, checked in by seregin, 9 years ago

fix memory allocation for reference layer picture and REDUCED_ENCODER_MEMORY

  • Property svn:eol-style set to native
File size: 61.9 KB
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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
4 * granted under this license.
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6 * Copyright (c) 2010-2016, ITU/ISO/IEC
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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
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32 */
33
34/** \file     TEncTop.cpp
35    \brief    encoder class
36*/
37
38#include "TLibCommon/CommonDef.h"
39#include "TEncTop.h"
40#include "TEncPic.h"
41#include "TLibCommon/TComChromaFormat.h"
42#if FAST_BIT_EST
43#include "TLibCommon/ContextModel.h"
44#endif
45
46//! \ingroup TLibEncoder
47//! \{
48#if SVC_EXTENSION 
49Int TEncTop::m_iSPSIdCnt = 0;
50Int TEncTop::m_iPPSIdCnt = 0;
51TComVPS TEncCfg::m_cVPS;
52#endif
53
54// ====================================================================================================================
55// Constructor / destructor / create / destroy
56// ====================================================================================================================
57
58TEncTop::TEncTop()
59{
60  m_iPOCLast          = -1;
61  m_iNumPicRcvd       =  0;
62  m_uiNumAllPicCoded  =  0;
63  m_pppcRDSbacCoder   =  NULL;
64  m_pppcBinCoderCABAC =  NULL;
65  m_cRDGoOnSbacCoder.init( &m_cRDGoOnBinCoderCABAC );
66#if ENC_DEC_TRACE
67  if (g_hTrace == NULL)
68  {
69    g_hTrace = fopen( "TraceEnc.txt", "wb" );
70  }
71  g_bJustDoIt = g_bEncDecTraceDisable;
72  g_nSymbolCounter = 0;
73#endif
74
75  m_iMaxRefPicNum     = 0;
76
77#if FAST_BIT_EST
78  ContextModel::buildNextStateTable();
79#endif
80
81#if SVC_EXTENSION
82  memset( m_cIlpPic, 0, sizeof(m_cIlpPic) );
83  m_bMFMEnabledFlag = false;
84  m_numRefLayerLocationOffsets = 0;
85  m_pocAdjustmentValue     = 0;
86#if NO_CLRAS_OUTPUT_FLAG
87  m_noClrasOutputFlag          = false;
88  m_layerInitializedFlag       = false;
89  m_firstPicInLayerDecodedFlag = false;
90  m_noOutputOfPriorPicsFlags   = false;
91#endif
92  m_pocDecrementedInDPBFlag    = false;
93#endif //SVC_EXTENSION
94}
95
96TEncTop::~TEncTop()
97{
98#if ENC_DEC_TRACE
99  if (g_hTrace != stdout)
100  {
101    fclose( g_hTrace );
102  }
103#endif
104}
105
106Void TEncTop::create ()
107{
108#if !SVC_EXTENSION
109  // initialize global variables
110  initROM();
111#endif
112
113  // create processing unit classes
114#if SVC_EXTENSION
115  m_cGOPEncoder.        create( m_layerId );
116#else
117  m_cGOPEncoder.        create( );
118#endif
119  m_cSliceEncoder.      create( getSourceWidth(), getSourceHeight(), m_chromaFormatIDC, m_maxCUWidth, m_maxCUHeight, m_maxTotalCUDepth );
120  m_cCuEncoder.         create( m_maxTotalCUDepth, m_maxCUWidth, m_maxCUHeight, m_chromaFormatIDC );
121  if (m_bUseSAO)
122  {
123    m_cEncSAO.create( getSourceWidth(), getSourceHeight(), m_chromaFormatIDC, m_maxCUWidth, m_maxCUHeight, m_maxTotalCUDepth, m_log2SaoOffsetScale[CHANNEL_TYPE_LUMA], m_log2SaoOffsetScale[CHANNEL_TYPE_CHROMA] );
124    m_cEncSAO.createEncData(getSaoCtuBoundary());
125  }
126#if ADAPTIVE_QP_SELECTION
127  if (m_bUseAdaptQpSelect)
128  {
129    m_cTrQuant.initSliceQpDelta();
130  }
131#endif
132
133  m_cLoopFilter.create( m_maxTotalCUDepth );
134
135  if ( m_RCEnableRateControl )
136  {
137    m_cRateCtrl.init( m_framesToBeEncoded, m_RCTargetBitrate, (Int)( (Double)m_iFrameRate/m_temporalSubsampleRatio + 0.5), m_iGOPSize, m_iSourceWidth, m_iSourceHeight,
138                      m_maxCUWidth, m_maxCUHeight,m_RCKeepHierarchicalBit, m_RCUseLCUSeparateModel, m_GOPList );
139  }
140
141  m_pppcRDSbacCoder = new TEncSbac** [m_maxTotalCUDepth+1];
142#if FAST_BIT_EST
143  m_pppcBinCoderCABAC = new TEncBinCABACCounter** [m_maxTotalCUDepth+1];
144#else
145  m_pppcBinCoderCABAC = new TEncBinCABAC** [m_maxTotalCUDepth+1];
146#endif
147
148  for ( Int iDepth = 0; iDepth < m_maxTotalCUDepth+1; iDepth++ )
149  {
150    m_pppcRDSbacCoder[iDepth] = new TEncSbac* [CI_NUM];
151#if FAST_BIT_EST
152    m_pppcBinCoderCABAC[iDepth] = new TEncBinCABACCounter* [CI_NUM];
153#else
154    m_pppcBinCoderCABAC[iDepth] = new TEncBinCABAC* [CI_NUM];
155#endif
156
157    for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ )
158    {
159      m_pppcRDSbacCoder[iDepth][iCIIdx] = new TEncSbac;
160#if FAST_BIT_EST
161      m_pppcBinCoderCABAC [iDepth][iCIIdx] = new TEncBinCABACCounter;
162#else
163      m_pppcBinCoderCABAC [iDepth][iCIIdx] = new TEncBinCABAC;
164#endif
165      m_pppcRDSbacCoder   [iDepth][iCIIdx]->init( m_pppcBinCoderCABAC [iDepth][iCIIdx] );
166    }
167  }
168
169#if LAYER_CTB
170  memcpy(g_auiLayerZscanToRaster[m_layerId], g_auiZscanToRaster, sizeof( g_auiZscanToRaster ) );
171  memcpy(g_auiLayerRasterToZscan[m_layerId], g_auiRasterToZscan, sizeof( g_auiRasterToZscan ) );
172  memcpy(g_auiLayerRasterToPelX[m_layerId],  g_auiRasterToPelX,  sizeof( g_auiRasterToPelX ) );
173  memcpy(g_auiLayerRasterToPelY[m_layerId],  g_auiRasterToPelY,  sizeof( g_auiRasterToPelY ) );
174#endif
175}
176
177Void TEncTop::destroy ()
178{
179  // destroy processing unit classes
180  m_cGOPEncoder.        destroy();
181  m_cSliceEncoder.      destroy();
182  m_cCuEncoder.         destroy();
183  m_cEncSAO.            destroyEncData();
184  m_cEncSAO.            destroy();
185  m_cLoopFilter.        destroy();
186  m_cRateCtrl.          destroy();
187  m_cSearch.            destroy();
188  Int iDepth;
189  for ( iDepth = 0; iDepth < m_maxTotalCUDepth+1; iDepth++ )
190  {
191    for (Int iCIIdx = 0; iCIIdx < CI_NUM; iCIIdx ++ )
192    {
193      delete m_pppcRDSbacCoder[iDepth][iCIIdx];
194      delete m_pppcBinCoderCABAC[iDepth][iCIIdx];
195    }
196  }
197
198  for ( iDepth = 0; iDepth < m_maxTotalCUDepth+1; iDepth++ )
199  {
200    delete [] m_pppcRDSbacCoder[iDepth];
201    delete [] m_pppcBinCoderCABAC[iDepth];
202  }
203
204  delete [] m_pppcRDSbacCoder;
205  delete [] m_pppcBinCoderCABAC;
206
207#if SVC_EXTENSION
208  for(Int i=0; i<MAX_NUM_REF; i++)
209  {
210    if(m_cIlpPic[i])
211    {
212      m_cIlpPic[i]->destroy();
213      delete m_cIlpPic[i];
214      m_cIlpPic[i] = NULL;
215    }
216  }
217#else
218  // destroy ROM
219  destroyROM();
220#endif
221  return;
222}
223
224Void TEncTop::init(Bool isFieldCoding)
225{
226  // initialize SPS
227  xInitSPS();
228  xInitVPS();
229
230#if U0132_TARGET_BITS_SATURATION
231  if (m_RCCpbSaturationEnabled)
232  {
233    m_cRateCtrl.initHrdParam(m_cSPS.getVuiParameters()->getHrdParameters(), m_iFrameRate, m_RCInitialCpbFullness);
234  }
235#endif
236  m_cRdCost.setCostMode(m_costMode);
237
238  // initialize PPS
239  xInitPPS();
240  xInitRPS(isFieldCoding);
241
242  xInitPPSforTiles();
243
244  // initialize processing unit classes
245  m_cGOPEncoder.  init( this );
246  m_cSliceEncoder.init( this );
247  m_cCuEncoder.   init( this );
248
249  // initialize transform & quantization class
250  m_pcCavlcCoder = getCavlcCoder();
251
252  m_cTrQuant.init( 1 << m_uiQuadtreeTULog2MaxSize,
253                   m_useRDOQ,
254                   m_useRDOQTS,
255#if T0196_SELECTIVE_RDOQ
256                   m_useSelectiveRDOQ,
257#endif
258                   true
259                  ,m_useTransformSkipFast
260#if ADAPTIVE_QP_SELECTION
261                  ,m_bUseAdaptQpSelect
262#endif
263                  );
264
265  // initialize encoder search class
266  m_cSearch.init( this, &m_cTrQuant, m_iSearchRange, m_bipredSearchRange, m_motionEstimationSearchMethod, m_maxCUWidth, m_maxCUHeight, m_maxTotalCUDepth, &m_cEntropyCoder, &m_cRdCost, getRDSbacCoder(), getRDGoOnSbacCoder() );
267
268  m_iMaxRefPicNum = 0;
269
270  xInitScalingLists();
271
272#if SVC_EXTENSION
273  m_iSPSIdCnt ++;
274  m_iPPSIdCnt ++;
275  xInitILRP();
276#endif
277}
278
279Void TEncTop::xInitScalingLists()
280{
281  // Initialise scaling lists
282  // The encoder will only use the SPS scaling lists. The PPS will never be marked present.
283  const Int maxLog2TrDynamicRange[MAX_NUM_CHANNEL_TYPE] =
284  {
285      m_cSPS.getMaxLog2TrDynamicRange(CHANNEL_TYPE_LUMA),
286      m_cSPS.getMaxLog2TrDynamicRange(CHANNEL_TYPE_CHROMA)
287  };
288  if(getUseScalingListId() == SCALING_LIST_OFF)
289  {
290    getTrQuant()->setFlatScalingList(maxLog2TrDynamicRange, m_cSPS.getBitDepths());
291    getTrQuant()->setUseScalingList(false);
292    m_cSPS.setScalingListPresentFlag(false);
293    m_cPPS.setScalingListPresentFlag(false);
294  }
295  else if(getUseScalingListId() == SCALING_LIST_DEFAULT)
296  {
297#if SVC_EXTENSION
298    // inferring of the scaling list can be moved to the config file
299    UInt refLayerId = 0;
300    if( m_layerId > 0 && !m_cVPS.getNonHEVCBaseLayerFlag() && m_cVPS.getRecursiveRefLayerFlag( m_layerId, refLayerId ) )
301    {
302      m_cSPS.setInferScalingListFlag( true );
303      m_cSPS.setScalingListRefLayerId( refLayerId );
304      m_cSPS.setScalingListPresentFlag( false );
305      m_cPPS.setInferScalingListFlag( false );
306      m_cPPS.setScalingListPresentFlag( false );
307
308      // infer the scaling list from the reference layer
309      getTrQuant()->setScalingList( &m_ppcTEncTop[m_cVPS.getLayerIdxInVps(refLayerId)]->getSPS()->getScalingList(), maxLog2TrDynamicRange, m_ppcTEncTop[m_cVPS.getLayerIdxInVps(refLayerId)]->getSPS()->getBitDepths() );
310    }
311    else
312    {
313#endif
314    m_cSPS.getScalingList().setDefaultScalingList ();
315    m_cSPS.setScalingListPresentFlag(false);
316    m_cPPS.setScalingListPresentFlag(false);
317
318    getTrQuant()->setScalingList(&(m_cSPS.getScalingList()), maxLog2TrDynamicRange, m_cSPS.getBitDepths());
319#if SVC_EXTENSION
320    }
321#endif
322    getTrQuant()->setUseScalingList(true);
323  }
324  else if(getUseScalingListId() == SCALING_LIST_FILE_READ)
325  {
326#if SVC_EXTENSION
327    // inferring of the scaling list can be moved to the config file
328    UInt refLayerId = 0;
329    if( m_layerId > 0 && !m_cVPS.getNonHEVCBaseLayerFlag() && m_cVPS.getRecursiveRefLayerFlag( m_layerId, refLayerId ) )
330    {
331      m_cSPS.setInferScalingListFlag( true );
332      m_cSPS.setScalingListRefLayerId( refLayerId );
333      m_cSPS.setScalingListPresentFlag( false );
334      m_cPPS.setInferScalingListFlag( false );
335      m_cPPS.setScalingListPresentFlag( false );
336
337      // infer the scaling list from the reference layer
338      getTrQuant()->setScalingList( &m_ppcTEncTop[m_cVPS.getLayerIdxInVps(refLayerId)]->getSPS()->getScalingList(), maxLog2TrDynamicRange, m_ppcTEncTop[m_cVPS.getLayerIdxInVps(refLayerId)]->getSPS()->getBitDepths() );
339    }
340    else
341    {
342#endif
343    m_cSPS.getScalingList().setDefaultScalingList ();
344    if(m_cSPS.getScalingList().xParseScalingList(getScalingListFileName()))
345    {
346      Bool bParsedScalingList=false; // Use of boolean so that assertion outputs useful string
347      assert(bParsedScalingList);
348      exit(1);
349    }
350    m_cSPS.getScalingList().checkDcOfMatrix();
351    m_cSPS.setScalingListPresentFlag(m_cSPS.getScalingList().checkDefaultScalingList());
352    m_cPPS.setScalingListPresentFlag(false);
353    getTrQuant()->setScalingList(&(m_cSPS.getScalingList()), maxLog2TrDynamicRange, m_cSPS.getBitDepths());
354#if SVC_EXTENSION
355    }
356#endif
357    getTrQuant()->setUseScalingList(true);
358  }
359  else
360  {
361    printf("error : ScalingList == %d not supported\n",getUseScalingListId());
362    assert(0);
363  }
364
365  if (getUseScalingListId() != SCALING_LIST_OFF)
366  {
367    // Prepare delta's:
368    for(UInt sizeId = 0; sizeId < SCALING_LIST_SIZE_NUM; sizeId++)
369    {
370      const Int predListStep = (sizeId == SCALING_LIST_32x32? (SCALING_LIST_NUM/NUMBER_OF_PREDICTION_MODES) : 1); // if 32x32, skip over chroma entries.
371
372      for(UInt listId = 0; listId < SCALING_LIST_NUM; listId+=predListStep)
373      {
374        m_cSPS.getScalingList().checkPredMode( sizeId, listId );
375      }
376    }
377  }
378}
379
380// ====================================================================================================================
381// Public member functions
382// ====================================================================================================================
383
384Void TEncTop::deletePicBuffer()
385{
386  TComList<TComPic*>::iterator iterPic = m_cListPic.begin();
387  Int iSize = Int( m_cListPic.size() );
388
389  for ( Int i = 0; i < iSize; i++ )
390  {
391    TComPic* pcPic = *(iterPic++);
392
393    pcPic->destroy();
394    delete pcPic;
395    pcPic = NULL;
396  }
397}
398
399/**
400 - Application has picture buffer list with size of GOP + 1
401 - Picture buffer list acts like as ring buffer
402 - End of the list has the latest picture
403 .
404 \param   flush               cause encoder to encode a partial GOP
405 \param   pcPicYuvOrg         original YUV picture
406 \param   pcPicYuvTrueOrg     
407 \param   snrCSC
408 \retval  rcListPicYuvRecOut  list of reconstruction YUV pictures
409 \retval  accessUnitsOut      list of output access units
410 \retval  iNumEncoded         number of encoded pictures
411 */
412#if SVC_EXTENSION
413Void TEncTop::encode( TComPicYuv* pcPicYuvOrg, const InputColourSpaceConversion snrCSC, TComList<TComPicYuv*>& rcListPicYuvRecOut, std::list<AccessUnit>& accessUnitsOut, Int iPicIdInGOP )
414{
415  // compress GOP
416#if !RC_SHVC_HARMONIZATION
417  if ( m_RCEnableRateControl )
418  {
419    m_cRateCtrl.initRCGOP( m_iNumPicRcvd );
420  }
421#endif
422
423  // compress GOP
424  m_cGOPEncoder.compressGOP(iPicIdInGOP, m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, false, false, snrCSC, m_printFrameMSE);
425
426#if !RC_SHVC_HARMONIZATION
427  if ( m_RCEnableRateControl )
428  {
429    m_cRateCtrl.destroyRCGOP();
430  }
431#endif
432 
433  m_uiNumAllPicCoded ++;
434}
435
436Void TEncTop::encodePrep( TComPicYuv* pcPicYuvOrg, TComPicYuv* pcPicYuvTrueOrg )
437{
438  if (pcPicYuvOrg != NULL)
439  {
440    // get original YUV
441    TComPic* pcPicCurr = NULL;
442    xGetNewPicBuffer( pcPicCurr );
443    pcPicYuvOrg->copyToPic( pcPicCurr->getPicYuvOrg() );
444    pcPicYuvTrueOrg->copyToPic( pcPicCurr->getPicYuvTrueOrg() );
445
446    // compute image characteristics
447    if ( getUseAdaptiveQP() )
448    {
449      m_cPreanalyzer.xPreanalyze( dynamic_cast<TEncPic*>( pcPicCurr ) );
450    }
451  }
452}
453#else
454Void TEncTop::encode( Bool flush, TComPicYuv* pcPicYuvOrg, TComPicYuv* pcPicYuvTrueOrg, const InputColourSpaceConversion snrCSC, TComList<TComPicYuv*>& rcListPicYuvRecOut, std::list<AccessUnit>& accessUnitsOut, Int& iNumEncoded )
455{
456  if (pcPicYuvOrg != NULL)
457  {
458    // get original YUV
459    TComPic* pcPicCurr = NULL;
460
461    xGetNewPicBuffer( pcPicCurr );
462    pcPicYuvOrg->copyToPic( pcPicCurr->getPicYuvOrg() );
463    pcPicYuvTrueOrg->copyToPic( pcPicCurr->getPicYuvTrueOrg() );
464
465    // compute image characteristics
466    if ( getUseAdaptiveQP() )
467    {
468      m_cPreanalyzer.xPreanalyze( dynamic_cast<TEncPic*>( pcPicCurr ) );
469    }
470  }
471
472  if ((m_iNumPicRcvd == 0) || (!flush && (m_iPOCLast != 0) && (m_iNumPicRcvd != m_iGOPSize) && (m_iGOPSize != 0)))
473  {
474    iNumEncoded = 0;
475    return;
476  }
477
478  if ( m_RCEnableRateControl )
479  {
480    m_cRateCtrl.initRCGOP( m_iNumPicRcvd );
481  }
482
483  // compress GOP
484  m_cGOPEncoder.compressGOP(m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, false, false, snrCSC, m_printFrameMSE);
485
486  if ( m_RCEnableRateControl )
487  {
488    m_cRateCtrl.destroyRCGOP();
489  }
490
491  iNumEncoded         = m_iNumPicRcvd;
492  m_iNumPicRcvd       = 0;
493  m_uiNumAllPicCoded += iNumEncoded;
494}
495#endif
496
497/**------------------------------------------------
498 Separate interlaced frame into two fields
499 -------------------------------------------------**/
500Void separateFields(Pel* org, Pel* dstField, UInt stride, UInt width, UInt height, Bool isTop)
501{
502  if (!isTop)
503  {
504    org += stride;
505  }
506  for (Int y = 0; y < height>>1; y++)
507  {
508    for (Int x = 0; x < width; x++)
509    {
510      dstField[x] = org[x];
511    }
512
513    dstField += stride;
514    org += stride*2;
515  }
516
517}
518
519#if SVC_EXTENSION
520Void TEncTop::encodePrep( TComPicYuv* pcPicYuvOrg, TComPicYuv* pcPicYuvTrueOrg, Bool isTff )
521{
522  for (Int fieldNum=0; fieldNum<2; fieldNum++)
523  {
524    if (pcPicYuvOrg)
525    {
526      /* -- field initialization -- */
527      const Bool isTopField=isTff==(fieldNum==0);
528
529      TComPic *pcField;
530      xGetNewPicBuffer( pcField );
531      pcField->setReconMark (false);                     // where is this normally?
532           
533      pcField->getSlice(0)->setPOC( m_iPOCLast );        // superfluous?
534#if !REDUCED_ENCODER_MEMORY
535      pcField->getPicYuvRec()->setBorderExtension(false);// where is this normally?
536#endif
537
538      pcField->setTopField(isTopField);                  // interlaced requirement
539
540      for (UInt componentIndex = 0; componentIndex < pcPicYuvOrg->getNumberValidComponents(); componentIndex++)
541      {
542        const ComponentID component = ComponentID(componentIndex);
543        const UInt stride = pcPicYuvOrg->getStride(component);
544
545        separateFields((pcPicYuvOrg->getBuf(component) + pcPicYuvOrg->getMarginX(component) + (pcPicYuvOrg->getMarginY(component) * stride)),
546                       pcField->getPicYuvOrg()->getAddr(component),
547                       pcPicYuvOrg->getStride(component),
548                       pcPicYuvOrg->getWidth(component),
549                       pcPicYuvOrg->getHeight(component),
550                       isTopField);
551
552        separateFields((pcPicYuvTrueOrg->getBuf(component) + pcPicYuvTrueOrg->getMarginX(component) + (pcPicYuvTrueOrg->getMarginY(component) * stride)),
553                       pcField->getPicYuvTrueOrg()->getAddr(component),
554                       pcPicYuvTrueOrg->getStride(component),
555                       pcPicYuvTrueOrg->getWidth(component),
556                       pcPicYuvTrueOrg->getHeight(component),
557                       isTopField);
558      }
559
560      // compute image characteristics
561      if ( getUseAdaptiveQP() )
562      {
563        m_cPreanalyzer.xPreanalyze( dynamic_cast<TEncPic*>( pcField ) );
564      }
565    }
566  }
567}
568
569Void TEncTop::encode( TComPicYuv* pcPicYuvOrg, const InputColourSpaceConversion snrCSC, TComList<TComPicYuv*>& rcListPicYuvRecOut, std::list<AccessUnit>& accessUnitsOut, Int iPicIdInGOP, Bool isTff )
570{
571  for (Int fieldNum=0; fieldNum<2; fieldNum++)
572  {
573    if (pcPicYuvOrg)
574    {
575      if (fieldNum==1)                                   // where is this normally?
576      {
577        TComPicYuv* rpcPicYuvRec;
578
579        // org. buffer
580        if ( rcListPicYuvRecOut.size() >= (UInt)m_iGOPSize+1 ) // need to maintain field 0 in list of RecOuts while processing field 1. Hence +1 on m_iGOPSize.
581        {
582          rpcPicYuvRec = rcListPicYuvRecOut.popFront();
583        }
584        else
585        {
586          rpcPicYuvRec = new TComPicYuv;
587          rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, m_maxCUWidth, m_maxCUHeight, m_maxTotalCUDepth, true);
588        }
589        rcListPicYuvRecOut.pushBack( rpcPicYuvRec );
590      }
591    }
592
593    // compress GOP
594    m_cGOPEncoder.compressGOP(iPicIdInGOP, m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff, snrCSC, m_printFrameMSE);
595  }
596
597  m_uiNumAllPicCoded ++;
598}
599#else
600Void TEncTop::encode(Bool flush, TComPicYuv* pcPicYuvOrg, TComPicYuv* pcPicYuvTrueOrg, const InputColourSpaceConversion snrCSC, TComList<TComPicYuv*>& rcListPicYuvRecOut, std::list<AccessUnit>& accessUnitsOut, Int& iNumEncoded, Bool isTff)
601{
602  iNumEncoded = 0;
603
604  for (Int fieldNum=0; fieldNum<2; fieldNum++)
605  {
606    if (pcPicYuvOrg)
607    {
608
609      /* -- field initialization -- */
610      const Bool isTopField=isTff==(fieldNum==0);
611
612      TComPic *pcField;
613      xGetNewPicBuffer( pcField );
614      pcField->setReconMark (false);                     // where is this normally?
615
616      if (fieldNum==1)                                   // where is this normally?
617      {
618        TComPicYuv* rpcPicYuvRec;
619
620        // org. buffer
621        if ( rcListPicYuvRecOut.size() >= (UInt)m_iGOPSize+1 ) // need to maintain field 0 in list of RecOuts while processing field 1. Hence +1 on m_iGOPSize.
622        {
623          rpcPicYuvRec = rcListPicYuvRecOut.popFront();
624        }
625        else
626        {
627          rpcPicYuvRec = new TComPicYuv;
628          rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, m_chromaFormatIDC, m_maxCUWidth, m_maxCUHeight, m_maxTotalCUDepth, true);
629        }
630        rcListPicYuvRecOut.pushBack( rpcPicYuvRec );
631      }
632
633      pcField->getSlice(0)->setPOC( m_iPOCLast );        // superfluous?
634#if !REDUCED_ENCODER_MEMORY
635      pcField->getPicYuvRec()->setBorderExtension(false);// where is this normally?
636#endif
637
638      pcField->setTopField(isTopField);                  // interlaced requirement
639
640      for (UInt componentIndex = 0; componentIndex < pcPicYuvOrg->getNumberValidComponents(); componentIndex++)
641      {
642        const ComponentID component = ComponentID(componentIndex);
643        const UInt stride = pcPicYuvOrg->getStride(component);
644
645        separateFields((pcPicYuvOrg->getBuf(component) + pcPicYuvOrg->getMarginX(component) + (pcPicYuvOrg->getMarginY(component) * stride)),
646                       pcField->getPicYuvOrg()->getAddr(component),
647                       pcPicYuvOrg->getStride(component),
648                       pcPicYuvOrg->getWidth(component),
649                       pcPicYuvOrg->getHeight(component),
650                       isTopField);
651
652        separateFields((pcPicYuvTrueOrg->getBuf(component) + pcPicYuvTrueOrg->getMarginX(component) + (pcPicYuvTrueOrg->getMarginY(component) * stride)),
653                       pcField->getPicYuvTrueOrg()->getAddr(component),
654                       pcPicYuvTrueOrg->getStride(component),
655                       pcPicYuvTrueOrg->getWidth(component),
656                       pcPicYuvTrueOrg->getHeight(component),
657                       isTopField);
658      }
659
660      // compute image characteristics
661      if ( getUseAdaptiveQP() )
662      {
663        m_cPreanalyzer.xPreanalyze( dynamic_cast<TEncPic*>( pcField ) );
664      }
665    }
666
667    if ( m_iNumPicRcvd && ((flush&&fieldNum==1) || (m_iPOCLast/2)==0 || m_iNumPicRcvd==m_iGOPSize ) )
668    {
669      // compress GOP
670      m_cGOPEncoder.compressGOP(m_iPOCLast, m_iNumPicRcvd, m_cListPic, rcListPicYuvRecOut, accessUnitsOut, true, isTff, snrCSC, m_printFrameMSE);
671
672      iNumEncoded += m_iNumPicRcvd;
673      m_uiNumAllPicCoded += m_iNumPicRcvd;
674      m_iNumPicRcvd = 0;
675    }
676  }
677}
678#endif
679
680// ====================================================================================================================
681// Protected member functions
682// ====================================================================================================================
683
684/**
685 - Application has picture buffer list with size of GOP + 1
686 - Picture buffer list acts like as ring buffer
687 - End of the list has the latest picture
688 .
689 \retval rpcPic obtained picture buffer
690 */
691Void TEncTop::xGetNewPicBuffer ( TComPic*& rpcPic )
692{
693  // At this point, the SPS and PPS can be considered activated - they are copied to the new TComPic.
694
695  TComSlice::sortPicList(m_cListPic);
696
697
698  if (m_cListPic.size() >= (UInt)(m_iGOPSize + getMaxDecPicBuffering(MAX_TLAYER-1) + 2) )
699  {
700    TComList<TComPic*>::iterator iterPic  = m_cListPic.begin();
701    Int iSize = Int( m_cListPic.size() );
702    for ( Int i = 0; i < iSize; i++ )
703    {
704      rpcPic = *(iterPic++);
705      if(rpcPic->getSlice(0)->isReferenced() == false)
706      {
707        break;
708      }
709    }
710#if REDUCED_ENCODER_MEMORY
711    rpcPic->releaseAllReconstructionData();
712    rpcPic->prepareForEncoderSourcePicYuv();
713#endif
714  }
715  else
716  {
717    if ( getUseAdaptiveQP() )
718    {
719      TEncPic* pcEPic = new TEncPic;
720
721#if SVC_EXTENSION //Temporal solution, should be modified
722      if( m_layerId > 0 )
723      {
724        for( UInt i = 0; i < m_cVPS.getNumDirectRefLayers( m_layerId ); i++ )
725        {
726          const Window scalEL = m_cPPS.getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i));
727          const Window altRL = m_cPPS.getRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i));
728          Bool equalOffsets = scalEL.hasEqualOffset(altRL);
729          Bool zeroPhase = m_cPPS.hasZeroResamplingPhase(m_cVPS.getRefLayerId(m_layerId, i));
730
731          TEncTop *pcEncTopBase = (TEncTop *)getRefLayerEnc( i );
732
733          const Int bitDepthLuma = m_cSPS.getBitDepth(CHANNEL_TYPE_LUMA);
734          const Int bitDepthChroma = m_cSPS.getBitDepth(CHANNEL_TYPE_CHROMA);
735          const Int refBitDepthLuma = pcEncTopBase->getSPS()->getBitDepth(CHANNEL_TYPE_LUMA);
736          const Int refBitDepthChroma = pcEncTopBase->getSPS()->getBitDepth(CHANNEL_TYPE_CHROMA);
737
738          Bool sameBitDepths = ( bitDepthLuma == refBitDepthLuma ) && ( bitDepthChroma == refBitDepthChroma );
739
740          if( m_iSourceWidth == pcEncTopBase->getSourceWidth() && m_iSourceHeight == pcEncTopBase->getSourceHeight() && equalOffsets && zeroPhase )
741          {
742            pcEPic->setEqualPictureSizeAndOffsetFlag( i, true );
743          }
744
745          if( !pcEPic->equalPictureSizeAndOffsetFlag(i) || !sameBitDepths
746#if CGS_3D_ASYMLUT
747            || m_cPPS.getCGSFlag() > 0
748#endif
749            )
750          {
751            pcEPic->setRequireResamplingFlag( i, true );
752
753            //only for scalable extension
754            assert( m_cVPS.getScalabilityMask( SCALABILITY_ID ) == true );
755          }
756        }
757      }
758#if REDUCED_ENCODER_MEMORY
759      pcEPic->create( m_cVPS, m_cSPS, m_cPPS, m_cPPS.getMaxCuDQPDepth()+1, m_layerId);
760#else
761      pcEPic->create( m_cVPS, m_cSPS, m_cPPS, m_cPPS.getMaxCuDQPDepth()+1, false, m_layerId);
762#endif
763#else  //SVC_EXTENSION
764#if REDUCED_ENCODER_MEMORY
765      pcEPic->create( m_cSPS, m_cPPS, m_cPPS.getMaxCuDQPDepth()+1);
766#else
767      pcEPic->create( m_cSPS, m_cPPS, m_cPPS.getMaxCuDQPDepth()+1, false);
768#endif
769#endif //SVC_EXTENSION
770      rpcPic = pcEPic;
771    }
772    else
773    {
774      rpcPic = new TComPic;
775
776#if SVC_EXTENSION //Temporal solution, should be modified
777      if( m_layerId > 0 )
778      {
779        for( UInt i = 0; i < m_cVPS.getNumDirectRefLayers( m_layerId ); i++ )
780        {
781          const Window scalEL = m_cPPS.getScaledRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i));
782          const Window altRL = m_cPPS.getRefLayerWindowForLayer(m_cVPS.getRefLayerId(m_layerId, i));
783          Bool equalOffsets = scalEL.hasEqualOffset(altRL);
784          Bool zeroPhase = m_cPPS.hasZeroResamplingPhase(m_cVPS.getRefLayerId(m_layerId, i));
785
786          TEncTop *pcEncTopBase = (TEncTop *)getRefLayerEnc( i );
787
788          const Int bitDepthLuma = m_cSPS.getBitDepth(CHANNEL_TYPE_LUMA);
789          const Int bitDepthChroma = m_cSPS.getBitDepth(CHANNEL_TYPE_CHROMA);
790          const Int refBitDepthLuma = pcEncTopBase->getSPS()->getBitDepth(CHANNEL_TYPE_LUMA);
791          const Int refBitDepthChroma = pcEncTopBase->getSPS()->getBitDepth(CHANNEL_TYPE_CHROMA);
792
793          Bool sameBitDepths = ( bitDepthLuma == refBitDepthLuma ) && ( bitDepthChroma == refBitDepthChroma );
794
795          if( m_iSourceWidth != pcEncTopBase->getSourceWidth() || m_iSourceHeight != pcEncTopBase->getSourceHeight() || !sameBitDepths
796            || !equalOffsets
797            || !zeroPhase
798#if CGS_3D_ASYMLUT
799            || m_cPPS.getCGSFlag() > 0
800#endif
801            )
802          {
803            rpcPic->setRequireResamplingFlag( i, true );
804
805            //only for scalable extension
806            assert( m_cVPS.getScalabilityMask( SCALABILITY_ID ) == true );
807          }
808        }
809      }
810
811#if REDUCED_ENCODER_MEMORY
812      rpcPic->create( m_cSPS, m_cPPS, true, false, m_layerId );
813#else
814      rpcPic->create( m_cSPS, m_cPPS, false, m_layerId );
815#endif
816#else  //SVC_EXTENSION
817#if REDUCED_ENCODER_MEMORY
818      rpcPic->create( m_cSPS, m_cPPS, true, false );
819#else
820      rpcPic->create( m_cSPS, m_cPPS, false );
821#endif     
822#endif //SVC_EXTENSION
823    }
824
825    m_cListPic.pushBack( rpcPic );
826  }
827  rpcPic->setReconMark (false);
828
829  m_iPOCLast++;
830  m_iNumPicRcvd++;
831
832  rpcPic->getSlice(0)->setPOC( m_iPOCLast );
833#if !REDUCED_ENCODER_MEMORY
834  // mark it should be extended
835  rpcPic->getPicYuvRec()->setBorderExtension(false);
836#endif
837}
838
839Void TEncTop::xInitVPS()
840{
841  // The SPS must have already been set up.
842  // set the VPS profile information.
843#if SVC_EXTENSION
844  m_cVPS.setVpsVuiPresentFlag( true );
845#else
846  *m_cVPS.getPTL() = *m_cSPS.getPTL();
847  m_cVPS.setMaxOpSets(1);
848#endif
849  m_cVPS.getTimingInfo()->setTimingInfoPresentFlag       ( false );
850  m_cVPS.setNumHrdParameters( 0 );
851
852  m_cVPS.createHrdParamBuffer();
853  for( UInt i = 0; i < m_cVPS.getNumHrdParameters(); i ++ )
854  {
855    m_cVPS.setHrdOpSetIdx( 0, i );
856    m_cVPS.setCprmsPresentFlag( false, i );
857    // Set up HrdParameters here.
858  }
859}
860
861Void TEncTop::xInitSPS()
862{
863#if SVC_EXTENSION
864  m_cSPS.setExtensionFlag( m_layerId > 0 ? true : false );
865  m_cSPS.setNumDirectRefLayers(m_numDirectRefLayers);
866
867  if( !m_numDirectRefLayers && m_numAddLayerSets )
868  {
869    m_cSPS.setLayerId(0); // layer ID 0 for independent layers
870  }
871  else
872  {
873    m_cSPS.setLayerId(m_layerId);
874  }
875#if VIEW_SCALABILITY
876  if( m_bUseDisparitySearchRangeRestriction )
877  {
878    m_cSPS.setInterViewMvVertConstraintFlag( true );
879  }
880  else
881  {
882    m_cSPS.setInterViewMvVertConstraintFlag( false );
883  }
884#endif
885#endif //SVC_EXTENSION
886
887  ProfileTierLevel& profileTierLevel = *m_cSPS.getPTL()->getGeneralPTL();
888  profileTierLevel.setLevelIdc(m_level);
889  profileTierLevel.setTierFlag(m_levelTier);
890  profileTierLevel.setProfileIdc(m_profile);
891  profileTierLevel.setProfileCompatibilityFlag(m_profile, 1);
892  profileTierLevel.setProgressiveSourceFlag(m_progressiveSourceFlag);
893  profileTierLevel.setInterlacedSourceFlag(m_interlacedSourceFlag);
894  profileTierLevel.setNonPackedConstraintFlag(m_nonPackedConstraintFlag);
895  profileTierLevel.setFrameOnlyConstraintFlag(m_frameOnlyConstraintFlag);
896  profileTierLevel.setBitDepthConstraint(m_bitDepthConstraintValue);
897  profileTierLevel.setChromaFormatConstraint(m_chromaFormatConstraintValue);
898  profileTierLevel.setIntraConstraintFlag(m_intraConstraintFlag);
899  profileTierLevel.setOnePictureOnlyConstraintFlag(m_onePictureOnlyConstraintFlag);
900  profileTierLevel.setLowerBitRateConstraintFlag(m_lowerBitRateConstraintFlag);
901
902  if ((m_profile == Profile::MAIN10) && (m_bitDepth[CHANNEL_TYPE_LUMA] == 8) && (m_bitDepth[CHANNEL_TYPE_CHROMA] == 8))
903  {
904    /* The above constraint is equal to Profile::MAIN */
905    profileTierLevel.setProfileCompatibilityFlag(Profile::MAIN, 1);
906  }
907  if (m_profile == Profile::MAIN)
908  {
909    /* A Profile::MAIN10 decoder can always decode Profile::MAIN */
910    profileTierLevel.setProfileCompatibilityFlag(Profile::MAIN10, 1);
911  }
912  /* XXX: should Main be marked as compatible with still picture? */
913  /* XXX: may be a good idea to refactor the above into a function
914   * that chooses the actual compatibility based upon options */
915
916  m_cSPS.setPicWidthInLumaSamples  ( m_iSourceWidth      );
917  m_cSPS.setPicHeightInLumaSamples ( m_iSourceHeight     );
918  m_cSPS.setConformanceWindow      ( m_conformanceWindow );
919  m_cSPS.setMaxCUWidth             ( m_maxCUWidth        );
920  m_cSPS.setMaxCUHeight            ( m_maxCUHeight       );
921  m_cSPS.setMaxTotalCUDepth        ( m_maxTotalCUDepth   );
922  m_cSPS.setChromaFormatIdc( m_chromaFormatIDC);
923  m_cSPS.setLog2DiffMaxMinCodingBlockSize(m_log2DiffMaxMinCodingBlockSize);
924
925  Int minCUSize = m_cSPS.getMaxCUWidth() >> ( m_cSPS.getLog2DiffMaxMinCodingBlockSize() );
926  Int log2MinCUSize = 0;
927  while(minCUSize > 1)
928  {
929    minCUSize >>= 1;
930    log2MinCUSize++;
931  }
932
933  m_cSPS.setLog2MinCodingBlockSize(log2MinCUSize);
934
935#if SVC_EXTENSION
936  m_cSPS.setSPSId         ( m_iSPSIdCnt       );
937#endif
938
939  m_cSPS.setPCMLog2MinSize (m_uiPCMLog2MinSize);
940  m_cSPS.setUsePCM        ( m_usePCM           );
941  m_cSPS.setPCMLog2MaxSize( m_pcmLog2MaxSize  );
942
943  m_cSPS.setQuadtreeTULog2MaxSize( m_uiQuadtreeTULog2MaxSize );
944  m_cSPS.setQuadtreeTULog2MinSize( m_uiQuadtreeTULog2MinSize );
945  m_cSPS.setQuadtreeTUMaxDepthInter( m_uiQuadtreeTUMaxDepthInter    );
946  m_cSPS.setQuadtreeTUMaxDepthIntra( m_uiQuadtreeTUMaxDepthIntra    );
947
948  m_cSPS.setSPSTemporalMVPEnabledFlag((getTMVPModeId() == 2 || getTMVPModeId() == 1));
949
950  m_cSPS.setMaxTrSize   ( 1 << m_uiQuadtreeTULog2MaxSize );
951
952  m_cSPS.setUseAMP ( m_useAMP );
953
954  for (UInt channelType = 0; channelType < MAX_NUM_CHANNEL_TYPE; channelType++)
955  {
956#if SVC_EXTENSION
957    m_cSPS.setBitDepth    (ChannelType(channelType), m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_cVPS.getLayerIdxInVps( m_layerId ) ) )->getBitDepthVps(ChannelType(channelType))            );   
958#if O0043_BEST_EFFORT_DECODING
959    m_cSPS.setStreamBitDepth(ChannelType(channelType), m_bitDepth[channelType] );
960#endif
961    m_cSPS.setQpBDOffset  (ChannelType(channelType), (6 * (m_cVPS.getVpsRepFormat( m_cVPS.getVpsRepFormatIdx( m_cVPS.getLayerIdxInVps( m_layerId ) ) )->getBitDepthVps(ChannelType(channelType)) - 8)));
962#else
963    m_cSPS.setBitDepth      (ChannelType(channelType), m_bitDepth[channelType] );
964#if O0043_BEST_EFFORT_DECODING
965    m_cSPS.setStreamBitDepth(ChannelType(channelType), m_bitDepth[channelType] );
966#endif
967    m_cSPS.setQpBDOffset  (ChannelType(channelType), (6 * (m_bitDepth[channelType] - 8)));
968#endif
969    m_cSPS.setPCMBitDepth (ChannelType(channelType), m_PCMBitDepth[channelType]         );
970  }
971
972  m_cSPS.setUseSAO( m_bUseSAO );
973
974  m_cSPS.setMaxTLayers( m_maxTempLayer );
975  m_cSPS.setTemporalIdNestingFlag( ( m_maxTempLayer == 1 ) ? true : false );
976
977  for (Int i = 0; i < min(m_cSPS.getMaxTLayers(),(UInt) MAX_TLAYER); i++ )
978  {
979#if SVC_EXTENSION
980    assert( i < MAX_TLAYER );
981#endif
982    m_cSPS.setMaxDecPicBuffering(m_maxDecPicBuffering[i], i);
983    m_cSPS.setNumReorderPics(m_numReorderPics[i], i);
984  }
985
986  m_cSPS.setPCMFilterDisableFlag  ( m_bPCMFilterDisableFlag );
987  m_cSPS.setScalingListFlag ( (m_useScalingListId == SCALING_LIST_OFF) ? 0 : 1 );
988  m_cSPS.setUseStrongIntraSmoothing( m_useStrongIntraSmoothing );
989  m_cSPS.setVuiParametersPresentFlag(getVuiParametersPresentFlag());
990
991  if (m_cSPS.getVuiParametersPresentFlag())
992  {
993    TComVUI* pcVUI = m_cSPS.getVuiParameters();
994    pcVUI->setAspectRatioInfoPresentFlag(getAspectRatioInfoPresentFlag());
995    pcVUI->setAspectRatioIdc(getAspectRatioIdc());
996    pcVUI->setSarWidth(getSarWidth());
997    pcVUI->setSarHeight(getSarHeight());
998    pcVUI->setOverscanInfoPresentFlag(getOverscanInfoPresentFlag());
999    pcVUI->setOverscanAppropriateFlag(getOverscanAppropriateFlag());
1000    pcVUI->setVideoSignalTypePresentFlag(getVideoSignalTypePresentFlag());
1001    pcVUI->setVideoFormat(getVideoFormat());
1002    pcVUI->setVideoFullRangeFlag(getVideoFullRangeFlag());
1003    pcVUI->setColourDescriptionPresentFlag(getColourDescriptionPresentFlag());
1004    pcVUI->setColourPrimaries(getColourPrimaries());
1005    pcVUI->setTransferCharacteristics(getTransferCharacteristics());
1006    pcVUI->setMatrixCoefficients(getMatrixCoefficients());
1007    pcVUI->setChromaLocInfoPresentFlag(getChromaLocInfoPresentFlag());
1008    pcVUI->setChromaSampleLocTypeTopField(getChromaSampleLocTypeTopField());
1009    pcVUI->setChromaSampleLocTypeBottomField(getChromaSampleLocTypeBottomField());
1010    pcVUI->setNeutralChromaIndicationFlag(getNeutralChromaIndicationFlag());
1011    pcVUI->setDefaultDisplayWindow(getDefaultDisplayWindow());
1012    pcVUI->setFrameFieldInfoPresentFlag(getFrameFieldInfoPresentFlag());
1013    pcVUI->setFieldSeqFlag(false);
1014    pcVUI->setHrdParametersPresentFlag(false);
1015    pcVUI->getTimingInfo()->setPocProportionalToTimingFlag(getPocProportionalToTimingFlag());
1016    pcVUI->getTimingInfo()->setNumTicksPocDiffOneMinus1   (getNumTicksPocDiffOneMinus1()   );
1017    pcVUI->setBitstreamRestrictionFlag(getBitstreamRestrictionFlag());
1018    pcVUI->setTilesFixedStructureFlag(getTilesFixedStructureFlag());
1019    pcVUI->setMotionVectorsOverPicBoundariesFlag(getMotionVectorsOverPicBoundariesFlag());
1020    pcVUI->setMinSpatialSegmentationIdc(getMinSpatialSegmentationIdc());
1021    pcVUI->setMaxBytesPerPicDenom(getMaxBytesPerPicDenom());
1022    pcVUI->setMaxBitsPerMinCuDenom(getMaxBitsPerMinCuDenom());
1023    pcVUI->setLog2MaxMvLengthHorizontal(getLog2MaxMvLengthHorizontal());
1024    pcVUI->setLog2MaxMvLengthVertical(getLog2MaxMvLengthVertical());
1025  }
1026  m_cSPS.setNumLongTermRefPicSPS(NUM_LONG_TERM_REF_PIC_SPS);
1027  assert (NUM_LONG_TERM_REF_PIC_SPS <= MAX_NUM_LONG_TERM_REF_PICS);
1028  for (Int k = 0; k < NUM_LONG_TERM_REF_PIC_SPS; k++)
1029  {
1030    m_cSPS.setLtRefPicPocLsbSps(k, 0);
1031    m_cSPS.setUsedByCurrPicLtSPSFlag(k, 0);
1032  }
1033
1034#if U0132_TARGET_BITS_SATURATION
1035  if( getPictureTimingSEIEnabled() || getDecodingUnitInfoSEIEnabled() || getCpbSaturationEnabled() )
1036#else
1037  if( getPictureTimingSEIEnabled() || getDecodingUnitInfoSEIEnabled() )
1038#endif
1039  {
1040    xInitHrdParameters();
1041  }
1042  if( getBufferingPeriodSEIEnabled() || getPictureTimingSEIEnabled() || getDecodingUnitInfoSEIEnabled() )
1043  {
1044    m_cSPS.getVuiParameters()->setHrdParametersPresentFlag( true );
1045  }
1046
1047  // Set up SPS range extension settings
1048  m_cSPS.getSpsRangeExtension().setTransformSkipRotationEnabledFlag(m_transformSkipRotationEnabledFlag);
1049  m_cSPS.getSpsRangeExtension().setTransformSkipContextEnabledFlag(m_transformSkipContextEnabledFlag);
1050  for (UInt signallingModeIndex = 0; signallingModeIndex < NUMBER_OF_RDPCM_SIGNALLING_MODES; signallingModeIndex++)
1051  {
1052    m_cSPS.getSpsRangeExtension().setRdpcmEnabledFlag(RDPCMSignallingMode(signallingModeIndex), m_rdpcmEnabledFlag[signallingModeIndex]);
1053  }
1054  m_cSPS.getSpsRangeExtension().setExtendedPrecisionProcessingFlag(m_extendedPrecisionProcessingFlag);
1055  m_cSPS.getSpsRangeExtension().setIntraSmoothingDisabledFlag( m_intraSmoothingDisabledFlag );
1056  m_cSPS.getSpsRangeExtension().setHighPrecisionOffsetsEnabledFlag(m_highPrecisionOffsetsEnabledFlag);
1057  m_cSPS.getSpsRangeExtension().setPersistentRiceAdaptationEnabledFlag(m_persistentRiceAdaptationEnabledFlag);
1058  m_cSPS.getSpsRangeExtension().setCabacBypassAlignmentEnabledFlag(m_cabacBypassAlignmentEnabledFlag);
1059
1060#if SVC_EXTENSION
1061  m_cSPS.inferSPS( m_layerId, &m_cVPS );
1062#endif
1063}
1064
1065#if U0132_TARGET_BITS_SATURATION
1066// calculate scale value of bitrate and initial delay
1067Int calcScale(Int x)
1068{
1069  if (x==0)
1070  {
1071    return 0;
1072  }
1073  UInt iMask = 0xffffffff;
1074  Int ScaleValue = 32;
1075
1076  while ((x&iMask) != 0)
1077  {
1078    ScaleValue--;
1079    iMask = (iMask >> 1);
1080  }
1081
1082  return ScaleValue;
1083}
1084#endif
1085Void TEncTop::xInitHrdParameters()
1086{
1087  Bool useSubCpbParams = (getSliceMode() > 0) || (getSliceSegmentMode() > 0);
1088  Int  bitRate         = getTargetBitrate();
1089  Bool isRandomAccess  = getIntraPeriod() > 0;
1090# if U0132_TARGET_BITS_SATURATION
1091  Int cpbSize          = getCpbSize();
1092  assert (cpbSize!=0);  // CPB size may not be equal to zero. ToDo: have a better default and check for level constraints
1093  if( !getVuiParametersPresentFlag() && !getCpbSaturationEnabled() )
1094#else
1095  if( !getVuiParametersPresentFlag() )
1096#endif
1097  {
1098    return;
1099  }
1100
1101  TComVUI *vui = m_cSPS.getVuiParameters();
1102  TComHRD *hrd = vui->getHrdParameters();
1103
1104  TimingInfo *timingInfo = vui->getTimingInfo();
1105
1106#if SVC_EXTENSION
1107  if( m_layerId > 0 )
1108  {
1109    timingInfo->setTimingInfoPresentFlag( false );
1110    return;
1111  }
1112#endif
1113
1114  timingInfo->setTimingInfoPresentFlag( true );
1115  switch( getFrameRate() )
1116  {
1117  case 24:
1118    timingInfo->setNumUnitsInTick( 1125000 );    timingInfo->setTimeScale    ( 27000000 );
1119    break;
1120  case 25:
1121    timingInfo->setNumUnitsInTick( 1080000 );    timingInfo->setTimeScale    ( 27000000 );
1122    break;
1123  case 30:
1124    timingInfo->setNumUnitsInTick( 900900 );     timingInfo->setTimeScale    ( 27000000 );
1125    break;
1126  case 50:
1127    timingInfo->setNumUnitsInTick( 540000 );     timingInfo->setTimeScale    ( 27000000 );
1128    break;
1129  case 60:
1130    timingInfo->setNumUnitsInTick( 450450 );     timingInfo->setTimeScale    ( 27000000 );
1131    break;
1132  default:
1133    timingInfo->setNumUnitsInTick( 1001 );       timingInfo->setTimeScale    ( 60000 );
1134    break;
1135  }
1136
1137  if (getTemporalSubsampleRatio()>1)
1138  {
1139    UInt temporalSubsampleRatio = getTemporalSubsampleRatio();
1140    if ( Double(timingInfo->getNumUnitsInTick()) * temporalSubsampleRatio > std::numeric_limits<UInt>::max() )
1141    {
1142      timingInfo->setTimeScale( timingInfo->getTimeScale() / temporalSubsampleRatio );
1143    }
1144    else
1145    {
1146      timingInfo->setNumUnitsInTick( timingInfo->getNumUnitsInTick() * temporalSubsampleRatio );
1147    }
1148  }
1149
1150  Bool rateCnt = ( bitRate > 0 );
1151  hrd->setNalHrdParametersPresentFlag( rateCnt );
1152  hrd->setVclHrdParametersPresentFlag( rateCnt );
1153  hrd->setSubPicCpbParamsPresentFlag( useSubCpbParams );
1154
1155  if( hrd->getSubPicCpbParamsPresentFlag() )
1156  {
1157    hrd->setTickDivisorMinus2( 100 - 2 );                          //
1158    hrd->setDuCpbRemovalDelayLengthMinus1( 7 );                    // 8-bit precision ( plus 1 for last DU in AU )
1159    hrd->setSubPicCpbParamsInPicTimingSEIFlag( true );
1160    hrd->setDpbOutputDelayDuLengthMinus1( 5 + 7 );                 // With sub-clock tick factor of 100, at least 7 bits to have the same value as AU dpb delay
1161  }
1162  else
1163  {
1164    hrd->setSubPicCpbParamsInPicTimingSEIFlag( false );
1165  }
1166
1167#if U0132_TARGET_BITS_SATURATION
1168  if (calcScale(bitRate) <= 6)
1169  {
1170    hrd->setBitRateScale(0);
1171  }
1172  else
1173  {
1174    hrd->setBitRateScale(calcScale(bitRate) - 6);
1175  }
1176
1177  if (calcScale(cpbSize) <= 4)
1178  {
1179    hrd->setCpbSizeScale(0);
1180  }
1181  else
1182  {
1183    hrd->setCpbSizeScale(calcScale(cpbSize) - 4);
1184  }
1185#else
1186  hrd->setBitRateScale( 4 );                                       // in units of 2^( 6 + 4 ) = 1,024 bps
1187  hrd->setCpbSizeScale( 6 );                                       // in units of 2^( 4 + 6 ) = 1,024 bit
1188#endif
1189
1190  hrd->setDuCpbSizeScale( 6 );                                     // in units of 2^( 4 + 6 ) = 1,024 bit
1191
1192  hrd->setInitialCpbRemovalDelayLengthMinus1(15);                  // assuming 0.5 sec, log2( 90,000 * 0.5 ) = 16-bit
1193  if( isRandomAccess )
1194  {
1195    hrd->setCpbRemovalDelayLengthMinus1(5);                        // 32 = 2^5 (plus 1)
1196    hrd->setDpbOutputDelayLengthMinus1 (5);                        // 32 + 3 = 2^6
1197  }
1198  else
1199  {
1200    hrd->setCpbRemovalDelayLengthMinus1(9);                        // max. 2^10
1201    hrd->setDpbOutputDelayLengthMinus1 (9);                        // max. 2^10
1202  }
1203
1204  // Note: parameters for all temporal layers are initialized with the same values
1205  Int i, j;
1206  UInt bitrateValue, cpbSizeValue;
1207  UInt duCpbSizeValue;
1208  UInt duBitRateValue = 0;
1209
1210  for( i = 0; i < MAX_TLAYER; i ++ )
1211  {
1212    hrd->setFixedPicRateFlag( i, 1 );
1213    hrd->setPicDurationInTcMinus1( i, 0 );
1214    hrd->setLowDelayHrdFlag( i, 0 );
1215    hrd->setCpbCntMinus1( i, 0 );
1216
1217    //! \todo check for possible PTL violations
1218    // BitRate[ i ] = ( bit_rate_value_minus1[ i ] + 1 ) * 2^( 6 + bit_rate_scale )
1219    bitrateValue = bitRate / (1 << (6 + hrd->getBitRateScale()) );      // bitRate is in bits, so it needs to be scaled down
1220    // CpbSize[ i ] = ( cpb_size_value_minus1[ i ] + 1 ) * 2^( 4 + cpb_size_scale )
1221#if U0132_TARGET_BITS_SATURATION
1222    cpbSizeValue = cpbSize / (1 << (4 + hrd->getCpbSizeScale()) );      // using bitRate results in 1 second CPB size
1223#else
1224    cpbSizeValue = bitRate / (1 << (4 + hrd->getCpbSizeScale()) );      // using bitRate results in 1 second CPB size
1225#endif
1226
1227
1228    // DU CPB size could be smaller (i.e. bitrateValue / number of DUs), but we don't know
1229    // in how many DUs the slice segment settings will result
1230    duCpbSizeValue = bitrateValue;
1231    duBitRateValue = cpbSizeValue;
1232
1233    for( j = 0; j < ( hrd->getCpbCntMinus1( i ) + 1 ); j ++ )
1234    {
1235      hrd->setBitRateValueMinus1( i, j, 0, ( bitrateValue - 1 ) );
1236      hrd->setCpbSizeValueMinus1( i, j, 0, ( cpbSizeValue - 1 ) );
1237      hrd->setDuCpbSizeValueMinus1( i, j, 0, ( duCpbSizeValue - 1 ) );
1238      hrd->setDuBitRateValueMinus1( i, j, 0, ( duBitRateValue - 1 ) );
1239      hrd->setCbrFlag( i, j, 0, false );
1240
1241      hrd->setBitRateValueMinus1( i, j, 1, ( bitrateValue - 1) );
1242      hrd->setCpbSizeValueMinus1( i, j, 1, ( cpbSizeValue - 1 ) );
1243      hrd->setDuCpbSizeValueMinus1( i, j, 1, ( duCpbSizeValue - 1 ) );
1244      hrd->setDuBitRateValueMinus1( i, j, 1, ( duBitRateValue - 1 ) );
1245      hrd->setCbrFlag( i, j, 1, false );
1246    }
1247  }
1248}
1249
1250Void TEncTop::xInitPPS()
1251{
1252  m_cPPS.setConstrainedIntraPred( m_bUseConstrainedIntraPred );
1253  Bool bUseDQP = (getMaxCuDQPDepth() > 0)? true : false;
1254
1255  if((getMaxDeltaQP() != 0 )|| getUseAdaptiveQP())
1256  {
1257    bUseDQP = true;
1258  }
1259
1260  if (m_costMode==COST_SEQUENCE_LEVEL_LOSSLESS || m_costMode==COST_LOSSLESS_CODING)
1261  {
1262    bUseDQP=false;
1263  }
1264
1265
1266  if ( m_RCEnableRateControl )
1267  {
1268    m_cPPS.setUseDQP(true);
1269    m_cPPS.setMaxCuDQPDepth( 0 );
1270  }
1271  else if(bUseDQP)
1272  {
1273    m_cPPS.setUseDQP(true);
1274    m_cPPS.setMaxCuDQPDepth( m_iMaxCuDQPDepth );
1275  }
1276  else
1277  {
1278    m_cPPS.setUseDQP(false);
1279    m_cPPS.setMaxCuDQPDepth( 0 );
1280  }
1281
1282  if ( m_diffCuChromaQpOffsetDepth >= 0 )
1283  {
1284    m_cPPS.getPpsRangeExtension().setDiffCuChromaQpOffsetDepth(m_diffCuChromaQpOffsetDepth);
1285    m_cPPS.getPpsRangeExtension().clearChromaQpOffsetList();
1286    m_cPPS.getPpsRangeExtension().setChromaQpOffsetListEntry(1, 6, 6);
1287    /* todo, insert table entries from command line (NB, 0 should not be touched) */
1288  }
1289  else
1290  {
1291    m_cPPS.getPpsRangeExtension().setDiffCuChromaQpOffsetDepth(0);
1292    m_cPPS.getPpsRangeExtension().clearChromaQpOffsetList();
1293  }
1294  m_cPPS.getPpsRangeExtension().setCrossComponentPredictionEnabledFlag(m_crossComponentPredictionEnabledFlag);
1295  m_cPPS.getPpsRangeExtension().setLog2SaoOffsetScale(CHANNEL_TYPE_LUMA,   m_log2SaoOffsetScale[CHANNEL_TYPE_LUMA  ]);
1296  m_cPPS.getPpsRangeExtension().setLog2SaoOffsetScale(CHANNEL_TYPE_CHROMA, m_log2SaoOffsetScale[CHANNEL_TYPE_CHROMA]);
1297
1298  m_cPPS.setQpOffset(COMPONENT_Cb, m_chromaCbQpOffset );
1299  m_cPPS.setQpOffset(COMPONENT_Cr, m_chromaCrQpOffset );
1300#if W0038_CQP_ADJ
1301  Bool bChromaDeltaQPEnabled = false;
1302  {
1303    bChromaDeltaQPEnabled = ( m_sliceChromaQpOffsetIntraOrPeriodic[0] || m_sliceChromaQpOffsetIntraOrPeriodic[1] );
1304    if( !bChromaDeltaQPEnabled )
1305    {
1306      for( Int i=0; i<m_iGOPSize; i++ )
1307      {
1308        if( m_GOPList[i].m_CbQPoffset || m_GOPList[i].m_CrQPoffset )
1309        {
1310          bChromaDeltaQPEnabled = true;
1311          break;
1312        }
1313      }
1314    }
1315  }
1316  m_cPPS.setSliceChromaQpFlag(bChromaDeltaQPEnabled);
1317#endif
1318
1319  m_cPPS.setEntropyCodingSyncEnabledFlag( m_entropyCodingSyncEnabledFlag );
1320  m_cPPS.setTilesEnabledFlag( (m_iNumColumnsMinus1 > 0 || m_iNumRowsMinus1 > 0) );
1321  m_cPPS.setUseWP( m_useWeightedPred );
1322  m_cPPS.setWPBiPred( m_useWeightedBiPred );
1323  m_cPPS.setOutputFlagPresentFlag( false );
1324  m_cPPS.setSignDataHidingEnabledFlag(getSignDataHidingEnabledFlag());
1325
1326  if ( getDeblockingFilterMetric() )
1327  {
1328    m_cPPS.setDeblockingFilterOverrideEnabledFlag(true);
1329    m_cPPS.setPPSDeblockingFilterDisabledFlag(false);
1330  }
1331  else
1332  {
1333    m_cPPS.setDeblockingFilterOverrideEnabledFlag( !getLoopFilterOffsetInPPS() );
1334    m_cPPS.setPPSDeblockingFilterDisabledFlag( getLoopFilterDisable() );
1335  }
1336
1337  if (! m_cPPS.getPPSDeblockingFilterDisabledFlag())
1338  {
1339    m_cPPS.setDeblockingFilterBetaOffsetDiv2( getLoopFilterBetaOffset() );
1340    m_cPPS.setDeblockingFilterTcOffsetDiv2( getLoopFilterTcOffset() );
1341  }
1342  else
1343  {
1344    m_cPPS.setDeblockingFilterBetaOffsetDiv2(0);
1345    m_cPPS.setDeblockingFilterTcOffsetDiv2(0);
1346  }
1347
1348  // deblockingFilterControlPresentFlag is true if any of the settings differ from the inferred values:
1349  const Bool deblockingFilterControlPresentFlag = m_cPPS.getDeblockingFilterOverrideEnabledFlag() ||
1350                                                  m_cPPS.getPPSDeblockingFilterDisabledFlag()      ||
1351                                                  m_cPPS.getDeblockingFilterBetaOffsetDiv2() != 0 ||
1352                                                  m_cPPS.getDeblockingFilterTcOffsetDiv2() != 0;
1353
1354  m_cPPS.setDeblockingFilterControlPresentFlag(deblockingFilterControlPresentFlag);
1355
1356  m_cPPS.setLog2ParallelMergeLevelMinus2   (m_log2ParallelMergeLevelMinus2 );
1357  m_cPPS.setCabacInitPresentFlag(CABAC_INIT_PRESENT_FLAG);
1358  m_cPPS.setLoopFilterAcrossSlicesEnabledFlag( m_bLFCrossSliceBoundaryFlag );
1359
1360
1361  Int histogram[MAX_NUM_REF + 1];
1362  for( Int i = 0; i <= MAX_NUM_REF; i++ )
1363  {
1364    histogram[i]=0;
1365  }
1366  for( Int i = 0; i < getGOPSize(); i++)
1367  {
1368    assert(getGOPEntry(i).m_numRefPicsActive >= 0 && getGOPEntry(i).m_numRefPicsActive <= MAX_NUM_REF);
1369    histogram[getGOPEntry(i).m_numRefPicsActive]++;
1370  }
1371
1372  Int maxHist=-1;
1373  Int bestPos=0;
1374  for( Int i = 0; i <= MAX_NUM_REF; i++ )
1375  {
1376    if(histogram[i]>maxHist)
1377    {
1378      maxHist=histogram[i];
1379      bestPos=i;
1380    }
1381  }
1382  assert(bestPos <= 15);
1383  m_cPPS.setNumRefIdxL0DefaultActive(bestPos);
1384  m_cPPS.setNumRefIdxL1DefaultActive(bestPos);
1385  m_cPPS.setTransquantBypassEnabledFlag(getTransquantBypassEnabledFlag());
1386  m_cPPS.setUseTransformSkip( m_useTransformSkip );
1387  m_cPPS.getPpsRangeExtension().setLog2MaxTransformSkipBlockSize( m_log2MaxTransformSkipBlockSize  );
1388
1389  if (m_sliceSegmentMode != NO_SLICES)
1390  {
1391    m_cPPS.setDependentSliceSegmentsEnabledFlag( true );
1392  }
1393 
1394#if SVC_EXTENSION
1395  m_cPPS.setLayerId( m_layerId );
1396
1397  if( !m_numDirectRefLayers && m_numAddLayerSets )
1398  {
1399    m_cPPS.setLayerId(0); // layer ID 0 for independent layers
1400  }
1401
1402  if( m_layerId > 0 )
1403  {
1404    m_cPPS.setListsModificationPresentFlag(true);
1405    m_cPPS.setExtensionFlag(true);
1406  }
1407  else
1408  {
1409    m_cPPS.setListsModificationPresentFlag(false);
1410    m_cPPS.setExtensionFlag(false);
1411  }
1412
1413  m_cPPS.setPPSId( m_iPPSIdCnt );
1414  m_cPPS.setSPSId( m_iSPSIdCnt );
1415
1416  if( m_crossLayerBLAFlag )
1417  {
1418    m_cPPS.setNumExtraSliceHeaderBits( 3 );
1419  }
1420
1421  m_cPPS.setNumRefLayerLocationOffsets(m_numRefLayerLocationOffsets);
1422  for(Int i = 0; i < m_cPPS.getNumRefLayerLocationOffsets(); i++)
1423  {
1424    m_cPPS.setRefLocationOffsetLayerId(i, m_refLocationOffsetLayerId[i]);
1425    m_cPPS.getScaledRefLayerWindow(i) = m_scaledRefLayerWindow[i];
1426    m_cPPS.getRefLayerWindow(i) = m_refLayerWindow[i];
1427    m_cPPS.setScaledRefLayerOffsetPresentFlag( i, m_scaledRefLayerOffsetPresentFlag[i] );
1428    m_cPPS.setRefRegionOffsetPresentFlag( i, m_refRegionOffsetPresentFlag[i] );
1429    m_cPPS.setResamplePhaseSetPresentFlag( i, m_resamplePhaseSetPresentFlag[i] );
1430    m_cPPS.setPhaseHorLuma( m_refLocationOffsetLayerId[i], m_phaseHorLuma[i] );
1431    m_cPPS.setPhaseVerLuma( m_refLocationOffsetLayerId[i], m_phaseVerLuma[i] );
1432    m_cPPS.setPhaseHorChroma( m_refLocationOffsetLayerId[i], m_phaseHorChroma[i] );
1433    m_cPPS.setPhaseVerChroma( m_refLocationOffsetLayerId[i], m_phaseVerChroma[i] );
1434  }
1435#if CGS_3D_ASYMLUT
1436  m_cPPS.setCGSFlag( m_nCGSFlag );
1437#endif
1438  m_cPPS.setPocResetInfoPresentFlag( true );
1439  m_cPPS.setExtensionFlag( true );
1440  m_cPPS.setSliceHeaderExtensionPresentFlag( true );
1441#endif //SVC_EXTENSION
1442}
1443
1444//Function for initializing m_RPSList, a list of TComReferencePictureSet, based on the GOPEntry objects read from the config file.
1445Void TEncTop::xInitRPS(Bool isFieldCoding)
1446{
1447  TComReferencePictureSet*      rps;
1448
1449  m_cSPS.createRPSList(getGOPSize() + m_extraRPSs + 1);
1450  TComRPSList* rpsList = m_cSPS.getRPSList();
1451
1452  for( Int i = 0; i < getGOPSize()+m_extraRPSs; i++)
1453  {
1454    GOPEntry ge = getGOPEntry(i);
1455    rps = rpsList->getReferencePictureSet(i);
1456    rps->setNumberOfPictures(ge.m_numRefPics);
1457    rps->setNumRefIdc(ge.m_numRefIdc);
1458    Int numNeg = 0;
1459    Int numPos = 0;
1460    for( Int j = 0; j < ge.m_numRefPics; j++)
1461    {
1462      rps->setDeltaPOC(j,ge.m_referencePics[j]);
1463      rps->setUsed(j,ge.m_usedByCurrPic[j]);
1464      if(ge.m_referencePics[j]>0)
1465      {
1466        numPos++;
1467      }
1468      else
1469      {
1470        numNeg++;
1471      }
1472    }
1473    rps->setNumberOfNegativePictures(numNeg);
1474    rps->setNumberOfPositivePictures(numPos);
1475
1476    // handle inter RPS intialization from the config file.
1477    rps->setInterRPSPrediction(ge.m_interRPSPrediction > 0);  // not very clean, converting anything > 0 to true.
1478    rps->setDeltaRIdxMinus1(0);                               // index to the Reference RPS is always the previous one.
1479    TComReferencePictureSet*     RPSRef = i>0 ? rpsList->getReferencePictureSet(i-1): NULL;  // get the reference RPS
1480
1481    if (ge.m_interRPSPrediction == 2)  // Automatic generation of the inter RPS idc based on the RIdx provided.
1482    {
1483      assert (RPSRef!=NULL);
1484      Int deltaRPS = getGOPEntry(i-1).m_POC - ge.m_POC;  // the ref POC - current POC
1485      Int numRefDeltaPOC = RPSRef->getNumberOfPictures();
1486
1487      rps->setDeltaRPS(deltaRPS);           // set delta RPS
1488      rps->setNumRefIdc(numRefDeltaPOC+1);  // set the numRefIdc to the number of pictures in the reference RPS + 1.
1489      Int count=0;
1490      for (Int j = 0; j <= numRefDeltaPOC; j++ ) // cycle through pics in reference RPS.
1491      {
1492        Int RefDeltaPOC = (j<numRefDeltaPOC)? RPSRef->getDeltaPOC(j): 0;  // if it is the last decoded picture, set RefDeltaPOC = 0
1493        rps->setRefIdc(j, 0);
1494        for (Int k = 0; k < rps->getNumberOfPictures(); k++ )  // cycle through pics in current RPS.
1495        {
1496          if (rps->getDeltaPOC(k) == ( RefDeltaPOC + deltaRPS))  // if the current RPS has a same picture as the reference RPS.
1497          {
1498              rps->setRefIdc(j, (rps->getUsed(k)?1:2));
1499              count++;
1500              break;
1501          }
1502        }
1503      }
1504      if (count != rps->getNumberOfPictures())
1505      {
1506        printf("Warning: Unable fully predict all delta POCs using the reference RPS index given in the config file.  Setting Inter RPS to false for this RPS.\n");
1507        rps->setInterRPSPrediction(0);
1508      }
1509    }
1510    else if (ge.m_interRPSPrediction == 1)  // inter RPS idc based on the RefIdc values provided in config file.
1511    {
1512      assert (RPSRef!=NULL);
1513      rps->setDeltaRPS(ge.m_deltaRPS);
1514      rps->setNumRefIdc(ge.m_numRefIdc);
1515      for (Int j = 0; j < ge.m_numRefIdc; j++ )
1516      {
1517        rps->setRefIdc(j, ge.m_refIdc[j]);
1518      }
1519      // the following code overwrite the deltaPOC and Used by current values read from the config file with the ones
1520      // computed from the RefIdc.  A warning is printed if they are not identical.
1521      numNeg = 0;
1522      numPos = 0;
1523      TComReferencePictureSet      RPSTemp;  // temporary variable
1524
1525      for (Int j = 0; j < ge.m_numRefIdc; j++ )
1526      {
1527        if (ge.m_refIdc[j])
1528        {
1529          Int deltaPOC = ge.m_deltaRPS + ((j < RPSRef->getNumberOfPictures())? RPSRef->getDeltaPOC(j) : 0);
1530          RPSTemp.setDeltaPOC((numNeg+numPos),deltaPOC);
1531          RPSTemp.setUsed((numNeg+numPos),ge.m_refIdc[j]==1?1:0);
1532          if (deltaPOC<0)
1533          {
1534            numNeg++;
1535          }
1536          else
1537          {
1538            numPos++;
1539          }
1540        }
1541      }
1542      if (numNeg != rps->getNumberOfNegativePictures())
1543      {
1544        printf("Warning: number of negative pictures in RPS is different between intra and inter RPS specified in the config file.\n");
1545        rps->setNumberOfNegativePictures(numNeg);
1546        rps->setNumberOfPictures(numNeg+numPos);
1547      }
1548      if (numPos != rps->getNumberOfPositivePictures())
1549      {
1550        printf("Warning: number of positive pictures in RPS is different between intra and inter RPS specified in the config file.\n");
1551        rps->setNumberOfPositivePictures(numPos);
1552        rps->setNumberOfPictures(numNeg+numPos);
1553      }
1554      RPSTemp.setNumberOfPictures(numNeg+numPos);
1555      RPSTemp.setNumberOfNegativePictures(numNeg);
1556      RPSTemp.sortDeltaPOC();     // sort the created delta POC before comparing
1557      // check if Delta POC and Used are the same
1558      // print warning if they are not.
1559      for (Int j = 0; j < ge.m_numRefIdc; j++ )
1560      {
1561        if (RPSTemp.getDeltaPOC(j) != rps->getDeltaPOC(j))
1562        {
1563          printf("Warning: delta POC is different between intra RPS and inter RPS specified in the config file.\n");
1564          rps->setDeltaPOC(j,RPSTemp.getDeltaPOC(j));
1565        }
1566        if (RPSTemp.getUsed(j) != rps->getUsed(j))
1567        {
1568          printf("Warning: Used by Current in RPS is different between intra and inter RPS specified in the config file.\n");
1569          rps->setUsed(j,RPSTemp.getUsed(j));
1570        }
1571      }
1572    }
1573  }
1574  //In case of field coding, we need to set special parameters for the first bottom field of the sequence, since it is not specified in the cfg file.
1575  //The position = GOPSize + extraRPSs which is (a priori) unused is reserved for this field in the RPS.
1576  if (isFieldCoding)
1577  {
1578    rps = rpsList->getReferencePictureSet(getGOPSize()+m_extraRPSs);
1579    rps->setNumberOfPictures(1);
1580    rps->setNumberOfNegativePictures(1);
1581    rps->setNumberOfPositivePictures(0);
1582    rps->setNumberOfLongtermPictures(0);
1583    rps->setDeltaPOC(0,-1);
1584    rps->setPOC(0,0);
1585    rps->setUsed(0,true);
1586    rps->setInterRPSPrediction(false);
1587    rps->setDeltaRIdxMinus1(0);
1588    rps->setDeltaRPS(0);
1589    rps->setNumRefIdc(0);
1590  }
1591}
1592
1593   // This is a function that
1594   // determines what Reference Picture Set to use
1595   // for a specific slice (with POC = POCCurr)
1596Void TEncTop::selectReferencePictureSet(TComSlice* slice, Int POCCurr, Int GOPid )
1597{
1598  slice->setRPSidx(GOPid);
1599
1600  for(Int extraNum=m_iGOPSize; extraNum<m_extraRPSs+m_iGOPSize; extraNum++)
1601  {
1602    if(m_uiIntraPeriod > 0 && getDecodingRefreshType() > 0)
1603    {
1604      Int POCIndex = POCCurr%m_uiIntraPeriod;
1605      if(POCIndex == 0)
1606      {
1607        POCIndex = m_uiIntraPeriod;
1608      }
1609      if(POCIndex == m_GOPList[extraNum].m_POC)
1610      {
1611        slice->setRPSidx(extraNum);
1612      }
1613    }
1614    else
1615    {
1616      if(POCCurr==m_GOPList[extraNum].m_POC)
1617      {
1618        slice->setRPSidx(extraNum);
1619      }
1620    }
1621  }
1622
1623  if(POCCurr == 1 && slice->getPic()->isField())
1624  {
1625    slice->setRPSidx(m_iGOPSize+m_extraRPSs);
1626  }
1627
1628  const TComReferencePictureSet *rps = (slice->getSPS()->getRPSList()->getReferencePictureSet(slice->getRPSidx()));
1629  slice->setRPS(rps);
1630}
1631
1632Int TEncTop::getReferencePictureSetIdxForSOP(Int POCCurr, Int GOPid )
1633{
1634  Int rpsIdx = GOPid;
1635
1636  for(Int extraNum=m_iGOPSize; extraNum<m_extraRPSs+m_iGOPSize; extraNum++)
1637  {
1638    if(m_uiIntraPeriod > 0 && getDecodingRefreshType() > 0)
1639    {
1640      Int POCIndex = POCCurr%m_uiIntraPeriod;
1641      if(POCIndex == 0)
1642      {
1643        POCIndex = m_uiIntraPeriod;
1644      }
1645      if(POCIndex == m_GOPList[extraNum].m_POC)
1646      {
1647        rpsIdx = extraNum;
1648      }
1649    }
1650    else
1651    {
1652      if(POCCurr==m_GOPList[extraNum].m_POC)
1653      {
1654        rpsIdx = extraNum;
1655      }
1656    }
1657  }
1658
1659  return rpsIdx;
1660}
1661
1662Void  TEncTop::xInitPPSforTiles()
1663{
1664  m_cPPS.setTileUniformSpacingFlag( m_tileUniformSpacingFlag );
1665  m_cPPS.setNumTileColumnsMinus1( m_iNumColumnsMinus1 );
1666  m_cPPS.setNumTileRowsMinus1( m_iNumRowsMinus1 );
1667  if( !m_tileUniformSpacingFlag )
1668  {
1669    m_cPPS.setTileColumnWidth( m_tileColumnWidth );
1670    m_cPPS.setTileRowHeight( m_tileRowHeight );
1671  }
1672  m_cPPS.setLoopFilterAcrossTilesEnabledFlag( m_loopFilterAcrossTilesEnabledFlag );
1673
1674  // # substreams is "per tile" when tiles are independent.
1675}
1676
1677Void  TEncCfg::xCheckGSParameters()
1678{
1679  Int   iWidthInCU = ( m_iSourceWidth%m_maxCUWidth ) ? m_iSourceWidth/m_maxCUWidth + 1 : m_iSourceWidth/m_maxCUWidth;
1680  Int   iHeightInCU = ( m_iSourceHeight%m_maxCUHeight ) ? m_iSourceHeight/m_maxCUHeight + 1 : m_iSourceHeight/m_maxCUHeight;
1681  UInt  uiCummulativeColumnWidth = 0;
1682  UInt  uiCummulativeRowHeight = 0;
1683
1684  //check the column relative parameters
1685  if( m_iNumColumnsMinus1 >= (1<<(LOG2_MAX_NUM_COLUMNS_MINUS1+1)) )
1686  {
1687    printf( "The number of columns is larger than the maximum allowed number of columns.\n" );
1688    exit( EXIT_FAILURE );
1689  }
1690
1691  if( m_iNumColumnsMinus1 >= iWidthInCU )
1692  {
1693    printf( "The current picture can not have so many columns.\n" );
1694    exit( EXIT_FAILURE );
1695  }
1696
1697  if( m_iNumColumnsMinus1 && !m_tileUniformSpacingFlag )
1698  {
1699    for(Int i=0; i<m_iNumColumnsMinus1; i++)
1700    {
1701      uiCummulativeColumnWidth += m_tileColumnWidth[i];
1702    }
1703
1704    if( uiCummulativeColumnWidth >= iWidthInCU )
1705    {
1706      printf( "The width of the column is too large.\n" );
1707      exit( EXIT_FAILURE );
1708    }
1709  }
1710
1711  //check the row relative parameters
1712  if( m_iNumRowsMinus1 >= (1<<(LOG2_MAX_NUM_ROWS_MINUS1+1)) )
1713  {
1714    printf( "The number of rows is larger than the maximum allowed number of rows.\n" );
1715    exit( EXIT_FAILURE );
1716  }
1717
1718  if( m_iNumRowsMinus1 >= iHeightInCU )
1719  {
1720    printf( "The current picture can not have so many rows.\n" );
1721    exit( EXIT_FAILURE );
1722  }
1723
1724  if( m_iNumRowsMinus1 && !m_tileUniformSpacingFlag )
1725  {
1726    for(Int i=0; i<m_iNumRowsMinus1; i++)
1727    {
1728      uiCummulativeRowHeight += m_tileRowHeight[i];
1729    }
1730
1731    if( uiCummulativeRowHeight >= iHeightInCU )
1732    {
1733      printf( "The height of the row is too large.\n" );
1734      exit( EXIT_FAILURE );
1735    }
1736  }
1737}
1738
1739#if SVC_EXTENSION
1740TEncTop* TEncTop::getRefLayerEnc( UInt refLayerIdx )
1741{
1742  if( m_ppcTEncTop[m_cVPS.getLayerIdxInVps(m_layerId)]->getNumDirectRefLayers() <= 0 )
1743  {
1744    return (TEncTop *)getLayerEnc( 0 );
1745  }
1746
1747  return (TEncTop *)getLayerEnc( m_cVPS.getLayerIdxInVps(m_cVPS.getRefLayerId( m_layerId, refLayerIdx )) );
1748}
1749
1750Void TEncTop::xInitILRP()
1751{
1752  if( m_layerId > 0 )
1753  {
1754    if( m_cIlpPic[0] == NULL )
1755    {
1756      for (Int j=0; j < m_numDirectRefLayers; j++)
1757      {
1758        m_cIlpPic[j] = new TComPic;
1759#if REDUCED_ENCODER_MEMORY
1760        m_cIlpPic[j]->create(m_cSPS, m_cPPS, false, true, m_layerId);
1761#else
1762        m_cIlpPic[j]->create(m_cSPS, m_cPPS, true, m_layerId);
1763#endif
1764        for (Int i=0; i<m_cIlpPic[j]->getPicSym()->getNumberOfCtusInFrame(); i++)
1765        {
1766          m_cIlpPic[j]->getPicSym()->getCtu(i)->initCtu(m_cIlpPic[j], i);
1767        }
1768      }
1769    }
1770
1771    if( m_cVPS.getNumRefLayers( m_layerId ) == 0 )
1772    {
1773      UInt layerIdx = m_cVPS.getLayerIdxInVps( m_layerId );
1774      RepFormat* repFmt = m_cVPS.getVpsRepFormat(m_cVPS.getVpsRepFormatIdx(layerIdx));
1775     
1776      if( m_cPPS.getLayerId() == 0 && 
1777          m_cSPS.getLayerId() == 0 &&
1778          repFmt->getChromaFormatVpsIdc() == m_cSPS.getChromaFormatIdc() &&
1779          repFmt->getSeparateColourPlaneVpsFlag() == 0 &&
1780          repFmt->getPicHeightVpsInLumaSamples() == m_cSPS.getPicHeightInLumaSamples() &&
1781          repFmt->getPicWidthVpsInLumaSamples()  == m_cSPS.getPicWidthInLumaSamples() &&
1782          repFmt->getBitDepthVpsLuma()   == m_cSPS.getBitDepth(CHANNEL_TYPE_LUMA) &&
1783          repFmt->getBitDepthVpsChroma() == m_cSPS.getBitDepth(CHANNEL_TYPE_CHROMA) &&
1784          repFmt->getConformanceWindowVps().getWindowLeftOffset()   == m_cSPS.getConformanceWindow().getWindowLeftOffset() &&
1785          repFmt->getConformanceWindowVps().getWindowRightOffset()  == m_cSPS.getConformanceWindow().getWindowRightOffset() &&
1786          repFmt->getConformanceWindowVps().getWindowTopOffset()    == m_cSPS.getConformanceWindow().getWindowTopOffset() &&
1787          repFmt->getConformanceWindowVps().getWindowBottomOffset() == m_cSPS.getConformanceWindow().getWindowBottomOffset() )
1788      {
1789        m_cVPS.setBaseLayerPSCompatibilityFlag(layerIdx, 1);
1790      }
1791      else
1792      {
1793        m_cVPS.setBaseLayerPSCompatibilityFlag(layerIdx, 0);
1794      }
1795    }
1796  }
1797}
1798
1799Window TEncTop::getScaledRefLayerWindowForLayer(Int layerId)
1800{
1801  for (Int i = 0; i < m_numRefLayerLocationOffsets; i++)
1802  {
1803    if (layerId == m_refLocationOffsetLayerId[i])
1804    {
1805      return m_scaledRefLayerWindow[i];
1806    }
1807  }
1808
1809  return Window();
1810}
1811
1812Window TEncTop::getRefLayerWindowForLayer(Int layerId)
1813{
1814  for (Int i = 0; i < m_numRefLayerLocationOffsets; i++)
1815  {
1816    if (layerId == m_refLayerId[i])
1817    {
1818      return m_refLayerWindow[i];
1819    }
1820  }
1821
1822  return Window();
1823}
1824#endif //SVC_EXTENSION
1825//! \}
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