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source: 3DVCSoftware/branches/HTM-DEV-0.3-dev1/source/App/TAppEncoder/TAppEncTop.cpp @ 459

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Last change on this file since 459 was 459, checked in by hhi, 11 years ago

Integation of depth intra methods in macro H_3D_DIM, including:

DMM coding modes in H_3D_DIM_DMM.
RBC coding mode in H_3D_DIM_RBC.

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File size: 38.2 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.
5	*
6	* Copyright (c) 2010-2013, ITU/ISO/IEC
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
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18	* be used to endorse or promote products derived from this software without
19	* specific prior written permission.
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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
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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
31	* THE POSSIBILITY OF SUCH DAMAGE.
32	*/
33
34	/** \file TAppEncTop.cpp
35	\brief Encoder application class
36	*/
37
38	#include <list>
39	#include <fstream>
40	#include <stdlib.h>
41	#include <stdio.h>
42	#include <fcntl.h>
43	#include <assert.h>
44
45	#include "TAppEncTop.h"
46	#include "TLibEncoder/AnnexBwrite.h"
47
48	using namespace std;
49
50	//! \ingroup TAppEncoder
51	//! \{
52
53	// ====================================================================================================================
54	// Constructor / destructor / initialization / destroy
55	// ====================================================================================================================
56
57	TAppEncTop::TAppEncTop()
58	{
59	#if !H_MV
60	m_iFrameRcvd = 0;
61	#endif
62	m_totalBytes = 0;
63	m_essentialBytes = 0;
64	}
65
66	TAppEncTop::~TAppEncTop()
67	{
68	}
69
70	Void TAppEncTop::xInitLibCfg()
71	{
72	#if H_MV
73	TComVPS& vps = m_vps;
74	#else
75	TComVPS vps;
76	#endif
77
78	#if H_MV
79	Int maxTempLayer = -1;
80	for (Int j = 0; j < m_numberOfLayers; j++)
81	{
82	maxTempLayer = max( m_maxTempLayerMvc[ j ], maxTempLayer );
83	}
84
85	vps.setMaxTLayers ( maxTempLayer );
86	if ( maxTempLayer )
87	{
88	vps.setTemporalNestingFlag(true);
89	}
90	vps.setMaxLayers( m_numberOfLayers );
91	for(Int i = 0; i < MAX_TLAYER; i++)
92	{
93	Int maxNumReOrderPics = 0;
94	Int maxDecPicBuffering = 0;
95	for (Int j = 0; j < m_numberOfLayers; j++)
96	{
97	maxNumReOrderPics = max( maxNumReOrderPics, m_numReorderPicsMvc [ j ][ i ] );
98	maxDecPicBuffering = max( maxDecPicBuffering, m_maxDecPicBufferingMvc[ j ][ i ] );
99	}
100
101	vps.setNumReorderPics ( maxNumReOrderPics ,i );
102	vps.setMaxDecPicBuffering ( maxDecPicBuffering ,i );
103	}
104	#else
105	vps.setMaxTLayers ( m_maxTempLayer );
106	if (m_maxTempLayer == 1)
107	{
108	vps.setTemporalNestingFlag(true);
109	}
110	vps.setMaxLayers ( 1 );
111	for(Int i = 0; i < MAX_TLAYER; i++)
112	{
113	vps.setNumReorderPics ( m_numReorderPics[i], i );
114	vps.setMaxDecPicBuffering ( m_maxDecPicBuffering[i], i );
115	}
116	#endif
117	#if H_MV
118	xSetLayerIds ( vps );
119	xSetDimensionIdAndLength ( vps );
120	xSetDirectDependencyFlags( vps );
121	#if H_3D
122	for( Int layer = 0; layer < m_numberOfLayers; layer++ )
123	{
124	vps.setVpsDepthModesFlag( layer, ((vps.getDepthId( layer ) != 0) && (m_useDMM \|\| m_useRBC \|\| m_useSDC \|\| m_useDLT)) ? true : false );
125	}
126
127	vps.initViewIndex();
128	m_ivPicLists.setVPS ( &vps );
129	#endif
130
131	for(Int layer = 0; layer < m_numberOfLayers; layer++)
132	{
133	m_frameRcvd .push_back(0);
134	m_acTEncTopList .push_back(new TEncTop);
135	m_acTVideoIOYuvInputFileList.push_back(new TVideoIOYuv);
136	m_acTVideoIOYuvReconFileList.push_back(new TVideoIOYuv);
137	m_picYuvRec .push_back(new TComList<TComPicYuv*>) ;
138
139	m_ivPicLists.push_back( m_acTEncTopList[ layer ]->getListPic() );
140	TEncTop& m_cTEncTop = *m_acTEncTopList[ layer ]; // It is not a member, but this name helps avoiding code duplication !!!
141
142	m_cTEncTop.setLayerIdInVps ( layer );
143	m_cTEncTop.setLayerId ( vps.getLayerIdInNuh( layer ) );
144	m_cTEncTop.setViewId ( vps.getViewId ( layer ) );
145	#if H_3D
146	Bool isDepth = ( vps.getDepthId ( layer ) != 0 ) ;
147	m_cTEncTop.setViewIndex ( vps.getViewIndex ( layer ) );
148	m_cTEncTop.setIsDepth ( isDepth );
149	//====== Camera Parameters =========
150	m_cTEncTop.setCameraParameters ( &m_cCameraData );
151	m_cTEncTop.setCamParPrecision ( isDepth ? false : m_cCameraData.getCamParsCodedPrecision () );
152	m_cTEncTop.setCamParInSliceHeader ( isDepth ? 0 : m_cCameraData.getVaryingCameraParameters() );
153	m_cTEncTop.setCodedScale ( isDepth ? 0 : m_cCameraData.getCodedScale () );
154	m_cTEncTop.setCodedOffset ( isDepth ? 0 : m_cCameraData.getCodedOffset () );
155	#if H_3D_VSO
156	//====== VSO =========
157	m_cTEncTop.setRenderModelParameters ( &m_cRenModStrParser );
158	m_cTEncTop.setForceLambdaScaleVSO ( isDepth ? m_bForceLambdaScaleVSO : false );
159	m_cTEncTop.setLambdaScaleVSO ( isDepth ? m_dLambdaScaleVSO : 1 );
160	m_cTEncTop.setVSOMode ( isDepth ? m_uiVSOMode : 0 );
161
162	m_cTEncTop.setAllowNegDist ( isDepth ? m_bAllowNegDist : false );
163
164	// SAIT_VSO_EST_A0033
165	m_cTEncTop.setUseEstimatedVSD ( isDepth ? m_bUseEstimatedVSD : false );
166
167	// LGE_WVSO_A0119
168	m_cTEncTop.setUseWVSO ( isDepth ? m_bUseWVSO : false );
169	m_cTEncTop.setVSOWeight ( isDepth ? m_iVSOWeight : 0 );
170	m_cTEncTop.setVSDWeight ( isDepth ? m_iVSDWeight : 0 );
171	m_cTEncTop.setDWeight ( isDepth ? m_iDWeight : 0 );
172	#endif // H_3D_VSO
173
174	//========== Depth intra modes ==========
175	#if H_3D_DIM
176	m_cTEncTop.setUseDMM ( isDepth ? m_useDMM : false );
177	m_cTEncTop.setUseRBC ( isDepth ? m_useRBC : false );
178	m_cTEncTop.setUseSDC ( isDepth ? m_useSDC : false );
179	m_cTEncTop.setUseDLT ( isDepth ? m_useDLT : false );
180	#endif
181	#endif // H_3D
182
183	m_cTEncTop.setIvPicLists ( &m_ivPicLists );
184	#endif // H_MV
185	m_cTEncTop.setVPS(&vps);
186
187	m_cTEncTop.setProfile(m_profile);
188	m_cTEncTop.setLevel(m_levelTier, m_level);
189	#if L0046_CONSTRAINT_FLAGS
190	m_cTEncTop.setProgressiveSourceFlag(m_progressiveSourceFlag);
191	m_cTEncTop.setInterlacedSourceFlag(m_interlacedSourceFlag);
192	m_cTEncTop.setNonPackedConstraintFlag(m_nonPackedConstraintFlag);
193	m_cTEncTop.setFrameOnlyConstraintFlag(m_frameOnlyConstraintFlag);
194	#endif
195
196	m_cTEncTop.setFrameRate ( m_iFrameRate );
197	m_cTEncTop.setFrameSkip ( m_FrameSkip );
198	m_cTEncTop.setSourceWidth ( m_iSourceWidth );
199	m_cTEncTop.setSourceHeight ( m_iSourceHeight );
200	m_cTEncTop.setConformanceWindow ( m_confLeft, m_confRight, m_confTop, m_confBottom );
201	m_cTEncTop.setFramesToBeEncoded ( m_framesToBeEncoded );
202
203	//====== Coding Structure ========
204	m_cTEncTop.setIntraPeriod ( m_iIntraPeriod );
205	m_cTEncTop.setDecodingRefreshType ( m_iDecodingRefreshType );
206	m_cTEncTop.setGOPSize ( m_iGOPSize );
207	#if H_MV
208	m_cTEncTop.setGopList ( m_GOPListMvc[layer] );
209	m_cTEncTop.setExtraRPSs ( m_extraRPSsMvc[layer] );
210	for(Int i = 0; i < MAX_TLAYER; i++)
211	{
212	m_cTEncTop.setNumReorderPics ( m_numReorderPicsMvc[layer][i], i );
213	m_cTEncTop.setMaxDecPicBuffering ( m_maxDecPicBufferingMvc[layer][i], i );
214	}
215	#else
216	m_cTEncTop.setGopList ( m_GOPList );
217	m_cTEncTop.setExtraRPSs ( m_extraRPSs );
218	for(Int i = 0; i < MAX_TLAYER; i++)
219	{
220	m_cTEncTop.setNumReorderPics ( m_numReorderPics[i], i );
221	m_cTEncTop.setMaxDecPicBuffering ( m_maxDecPicBuffering[i], i );
222	}
223	#endif
224	for( UInt uiLoop = 0; uiLoop < MAX_TLAYER; ++uiLoop )
225	{
226	m_cTEncTop.setLambdaModifier( uiLoop, m_adLambdaModifier[ uiLoop ] );
227	}
228	#if H_MV
229	m_cTEncTop.setQP ( m_iQP[layer] );
230	#else
231	m_cTEncTop.setQP ( m_iQP );
232	#endif
233
234	m_cTEncTop.setPad ( m_aiPad );
235
236	#if H_MV
237	m_cTEncTop.setMaxTempLayer ( m_maxTempLayerMvc[layer] );
238	#else
239	m_cTEncTop.setMaxTempLayer ( m_maxTempLayer );
240	#endif
241	m_cTEncTop.setUseAMP( m_enableAMP );
242
243	//===== Slice ========
244
245	//====== Loop/Deblock Filter ========
246	#if H_MV
247	m_cTEncTop.setLoopFilterDisable ( m_bLoopFilterDisable[layer]);
248	#else
249	m_cTEncTop.setLoopFilterDisable ( m_bLoopFilterDisable );
250	#endif
251	m_cTEncTop.setLoopFilterOffsetInPPS ( m_loopFilterOffsetInPPS );
252	m_cTEncTop.setLoopFilterBetaOffset ( m_loopFilterBetaOffsetDiv2 );
253	m_cTEncTop.setLoopFilterTcOffset ( m_loopFilterTcOffsetDiv2 );
254	m_cTEncTop.setDeblockingFilterControlPresent( m_DeblockingFilterControlPresent);
255	#if L0386_DB_METRIC
256	m_cTEncTop.setDeblockingFilterMetric ( m_DeblockingFilterMetric );
257	#endif
258
259	//====== Motion search ========
260	m_cTEncTop.setFastSearch ( m_iFastSearch );
261	m_cTEncTop.setSearchRange ( m_iSearchRange );
262	m_cTEncTop.setBipredSearchRange ( m_bipredSearchRange );
263
264	//====== Quality control ========
265	m_cTEncTop.setMaxDeltaQP ( m_iMaxDeltaQP );
266	m_cTEncTop.setMaxCuDQPDepth ( m_iMaxCuDQPDepth );
267
268	m_cTEncTop.setChromaCbQpOffset ( m_cbQpOffset );
269	m_cTEncTop.setChromaCrQpOffset ( m_crQpOffset );
270
271	#if ADAPTIVE_QP_SELECTION
272	m_cTEncTop.setUseAdaptQpSelect ( m_bUseAdaptQpSelect );
273	#endif
274
275	Int lowestQP;
276	lowestQP = - 6*(g_bitDepthY - 8); // XXX: check
277
278	#if H_MV
279	if ((m_iMaxDeltaQP == 0 ) && (m_iQP[layer] == lowestQP) && (m_useLossless == true))
280	#else
281	if ((m_iMaxDeltaQP == 0 ) && (m_iQP == lowestQP) && (m_useLossless == true))
282	#endif
283	{
284	m_bUseAdaptiveQP = false;
285	}
286	m_cTEncTop.setUseAdaptiveQP ( m_bUseAdaptiveQP );
287	m_cTEncTop.setQPAdaptationRange ( m_iQPAdaptationRange );
288
289	//====== Tool list ========
290	m_cTEncTop.setUseSBACRD ( m_bUseSBACRD );
291	m_cTEncTop.setDeltaQpRD ( m_uiDeltaQpRD );
292	m_cTEncTop.setUseASR ( m_bUseASR );
293	m_cTEncTop.setUseHADME ( m_bUseHADME );
294	m_cTEncTop.setUseLossless ( m_useLossless );
295	#if !L0034_COMBINED_LIST_CLEANUP
296	m_cTEncTop.setUseLComb ( m_bUseLComb );
297	#endif
298	#if H_MV
299	m_cTEncTop.setdQPs ( m_aidQP[layer] );
300	#else
301	m_cTEncTop.setdQPs ( m_aidQP );
302	#endif
303	m_cTEncTop.setUseRDOQ ( m_useRDOQ );
304	m_cTEncTop.setUseRDOQTS ( m_useRDOQTS );
305	#if L0232_RD_PENALTY
306	m_cTEncTop.setRDpenalty ( m_rdPenalty );
307	#endif
308	m_cTEncTop.setQuadtreeTULog2MaxSize ( m_uiQuadtreeTULog2MaxSize );
309	m_cTEncTop.setQuadtreeTULog2MinSize ( m_uiQuadtreeTULog2MinSize );
310	m_cTEncTop.setQuadtreeTUMaxDepthInter ( m_uiQuadtreeTUMaxDepthInter );
311	m_cTEncTop.setQuadtreeTUMaxDepthIntra ( m_uiQuadtreeTUMaxDepthIntra );
312	m_cTEncTop.setUseFastEnc ( m_bUseFastEnc );
313	m_cTEncTop.setUseEarlyCU ( m_bUseEarlyCU );
314	m_cTEncTop.setUseFastDecisionForMerge ( m_useFastDecisionForMerge );
315	m_cTEncTop.setUseCbfFastMode ( m_bUseCbfFastMode );
316	m_cTEncTop.setUseEarlySkipDetection ( m_useEarlySkipDetection );
317
318	m_cTEncTop.setUseTransformSkip ( m_useTransformSkip );
319	m_cTEncTop.setUseTransformSkipFast ( m_useTransformSkipFast );
320	m_cTEncTop.setUseConstrainedIntraPred ( m_bUseConstrainedIntraPred );
321	m_cTEncTop.setPCMLog2MinSize ( m_uiPCMLog2MinSize);
322	m_cTEncTop.setUsePCM ( m_usePCM );
323	m_cTEncTop.setPCMLog2MaxSize ( m_pcmLog2MaxSize);
324	m_cTEncTop.setMaxNumMergeCand ( m_maxNumMergeCand );
325
326
327	//====== Weighted Prediction ========
328	m_cTEncTop.setUseWP ( m_useWeightedPred );
329	m_cTEncTop.setWPBiPred ( m_useWeightedBiPred );
330	//====== Parallel Merge Estimation ========
331	m_cTEncTop.setLog2ParallelMergeLevelMinus2 ( m_log2ParallelMergeLevel - 2 );
332
333	//====== Slice ========
334	m_cTEncTop.setSliceMode ( m_sliceMode );
335	m_cTEncTop.setSliceArgument ( m_sliceArgument );
336
337	//====== Dependent Slice ========
338	m_cTEncTop.setSliceSegmentMode ( m_sliceSegmentMode );
339	m_cTEncTop.setSliceSegmentArgument ( m_sliceSegmentArgument );
340	Int iNumPartInCU = 1<<(m_uiMaxCUDepth<<1);
341	if(m_sliceSegmentMode==FIXED_NUMBER_OF_LCU)
342	{
343	m_cTEncTop.setSliceSegmentArgument ( m_sliceSegmentArgument * iNumPartInCU );
344	}
345	if(m_sliceMode==FIXED_NUMBER_OF_LCU)
346	{
347	m_cTEncTop.setSliceArgument ( m_sliceArgument * iNumPartInCU );
348	}
349	if(m_sliceMode==FIXED_NUMBER_OF_TILES)
350	{
351	m_cTEncTop.setSliceArgument ( m_sliceArgument );
352	}
353
354	if(m_sliceMode == 0 )
355	{
356	m_bLFCrossSliceBoundaryFlag = true;
357	}
358	m_cTEncTop.setLFCrossSliceBoundaryFlag( m_bLFCrossSliceBoundaryFlag );
359	#if H_MV
360	m_cTEncTop.setUseSAO ( m_bUseSAO[layer] );
361	#else
362	m_cTEncTop.setUseSAO ( m_bUseSAO );
363	#endif
364	m_cTEncTop.setMaxNumOffsetsPerPic (m_maxNumOffsetsPerPic);
365
366	m_cTEncTop.setSaoLcuBoundary (m_saoLcuBoundary);
367	m_cTEncTop.setSaoLcuBasedOptimization (m_saoLcuBasedOptimization);
368	m_cTEncTop.setPCMInputBitDepthFlag ( m_bPCMInputBitDepthFlag);
369	m_cTEncTop.setPCMFilterDisableFlag ( m_bPCMFilterDisableFlag);
370
371	m_cTEncTop.setDecodedPictureHashSEIEnabled(m_decodedPictureHashSEIEnabled);
372	m_cTEncTop.setRecoveryPointSEIEnabled( m_recoveryPointSEIEnabled );
373	m_cTEncTop.setBufferingPeriodSEIEnabled( m_bufferingPeriodSEIEnabled );
374	m_cTEncTop.setPictureTimingSEIEnabled( m_pictureTimingSEIEnabled );
375	#if J0149_TONE_MAPPING_SEI
376	m_cTEncTop.setToneMappingInfoSEIEnabled ( m_toneMappingInfoSEIEnabled );
377	m_cTEncTop.setTMISEIToneMapId ( m_toneMapId );
378	m_cTEncTop.setTMISEIToneMapCancelFlag ( m_toneMapCancelFlag );
379	m_cTEncTop.setTMISEIToneMapPersistenceFlag ( m_toneMapPersistenceFlag );
380	m_cTEncTop.setTMISEICodedDataBitDepth ( m_toneMapCodedDataBitDepth );
381	m_cTEncTop.setTMISEITargetBitDepth ( m_toneMapTargetBitDepth );
382	m_cTEncTop.setTMISEIModelID ( m_toneMapModelId );
383	m_cTEncTop.setTMISEIMinValue ( m_toneMapMinValue );
384	m_cTEncTop.setTMISEIMaxValue ( m_toneMapMaxValue );
385	m_cTEncTop.setTMISEISigmoidMidpoint ( m_sigmoidMidpoint );
386	m_cTEncTop.setTMISEISigmoidWidth ( m_sigmoidWidth );
387	m_cTEncTop.setTMISEIStartOfCodedInterva ( m_startOfCodedInterval );
388	m_cTEncTop.setTMISEINumPivots ( m_numPivots );
389	m_cTEncTop.setTMISEICodedPivotValue ( m_codedPivotValue );
390	m_cTEncTop.setTMISEITargetPivotValue ( m_targetPivotValue );
391	m_cTEncTop.setTMISEICameraIsoSpeedIdc ( m_cameraIsoSpeedIdc );
392	m_cTEncTop.setTMISEICameraIsoSpeedValue ( m_cameraIsoSpeedValue );
393	m_cTEncTop.setTMISEIExposureCompensationValueSignFlag ( m_exposureCompensationValueSignFlag );
394	m_cTEncTop.setTMISEIExposureCompensationValueNumerator ( m_exposureCompensationValueNumerator );
395	m_cTEncTop.setTMISEIExposureCompensationValueDenomIdc ( m_exposureCompensationValueDenomIdc );
396	m_cTEncTop.setTMISEIRefScreenLuminanceWhite ( m_refScreenLuminanceWhite );
397	m_cTEncTop.setTMISEIExtendedRangeWhiteLevel ( m_extendedRangeWhiteLevel );
398	m_cTEncTop.setTMISEINominalBlackLevelLumaCodeValue ( m_nominalBlackLevelLumaCodeValue );
399	m_cTEncTop.setTMISEINominalWhiteLevelLumaCodeValue ( m_nominalWhiteLevelLumaCodeValue );
400	m_cTEncTop.setTMISEIExtendedWhiteLevelLumaCodeValue ( m_extendedWhiteLevelLumaCodeValue );
401	#endif
402	m_cTEncTop.setFramePackingArrangementSEIEnabled( m_framePackingSEIEnabled );
403	m_cTEncTop.setFramePackingArrangementSEIType( m_framePackingSEIType );
404	m_cTEncTop.setFramePackingArrangementSEIId( m_framePackingSEIId );
405	m_cTEncTop.setFramePackingArrangementSEIQuincunx( m_framePackingSEIQuincunx );
406	m_cTEncTop.setFramePackingArrangementSEIInterpretation( m_framePackingSEIInterpretation );
407	m_cTEncTop.setDisplayOrientationSEIAngle( m_displayOrientationSEIAngle );
408	m_cTEncTop.setTemporalLevel0IndexSEIEnabled( m_temporalLevel0IndexSEIEnabled );
409	m_cTEncTop.setGradualDecodingRefreshInfoEnabled( m_gradualDecodingRefreshInfoEnabled );
410	m_cTEncTop.setDecodingUnitInfoSEIEnabled( m_decodingUnitInfoSEIEnabled );
411	#if L0208_SOP_DESCRIPTION_SEI
412	m_cTEncTop.setSOPDescriptionSEIEnabled( m_SOPDescriptionSEIEnabled );
413	#endif
414	#if K0180_SCALABLE_NESTING_SEI
415	m_cTEncTop.setScalableNestingSEIEnabled( m_scalableNestingSEIEnabled );
416	#endif
417	m_cTEncTop.setUniformSpacingIdr ( m_iUniformSpacingIdr );
418	m_cTEncTop.setNumColumnsMinus1 ( m_iNumColumnsMinus1 );
419	m_cTEncTop.setNumRowsMinus1 ( m_iNumRowsMinus1 );
420	if(m_iUniformSpacingIdr==0)
421	{
422	m_cTEncTop.setColumnWidth ( m_pColumnWidth );
423	m_cTEncTop.setRowHeight ( m_pRowHeight );
424	}
425	m_cTEncTop.xCheckGSParameters();
426	Int uiTilesCount = (m_iNumRowsMinus1+1) * (m_iNumColumnsMinus1+1);
427	if(uiTilesCount == 1)
428	{
429	m_bLFCrossTileBoundaryFlag = true;
430	}
431	m_cTEncTop.setLFCrossTileBoundaryFlag( m_bLFCrossTileBoundaryFlag );
432	m_cTEncTop.setWaveFrontSynchro ( m_iWaveFrontSynchro );
433	m_cTEncTop.setWaveFrontSubstreams ( m_iWaveFrontSubstreams );
434	m_cTEncTop.setTMVPModeId ( m_TMVPModeId );
435	m_cTEncTop.setUseScalingListId ( m_useScalingListId );
436	m_cTEncTop.setScalingListFile ( m_scalingListFile );
437	m_cTEncTop.setSignHideFlag(m_signHideFlag);
438	#if RATE_CONTROL_LAMBDA_DOMAIN
439	m_cTEncTop.setUseRateCtrl ( m_RCEnableRateControl );
440	m_cTEncTop.setTargetBitrate ( m_RCTargetBitrate );
441	m_cTEncTop.setKeepHierBit ( m_RCKeepHierarchicalBit );
442	m_cTEncTop.setLCULevelRC ( m_RCLCULevelRC );
443	m_cTEncTop.setUseLCUSeparateModel ( m_RCUseLCUSeparateModel );
444	m_cTEncTop.setInitialQP ( m_RCInitialQP );
445	m_cTEncTop.setForceIntraQP ( m_RCForceIntraQP );
446	#else
447	m_cTEncTop.setUseRateCtrl ( m_enableRateCtrl);
448	m_cTEncTop.setTargetBitrate ( m_targetBitrate);
449	m_cTEncTop.setNumLCUInUnit ( m_numLCUInUnit);
450	#endif
451	m_cTEncTop.setTransquantBypassEnableFlag(m_TransquantBypassEnableFlag);
452	m_cTEncTop.setCUTransquantBypassFlagValue(m_CUTransquantBypassFlagValue);
453	m_cTEncTop.setUseRecalculateQPAccordingToLambda( m_recalculateQPAccordingToLambda );
454	m_cTEncTop.setUseStrongIntraSmoothing( m_useStrongIntraSmoothing );
455	m_cTEncTop.setActiveParameterSetsSEIEnabled ( m_activeParameterSetsSEIEnabled );
456	m_cTEncTop.setVuiParametersPresentFlag( m_vuiParametersPresentFlag );
457	m_cTEncTop.setAspectRatioIdc( m_aspectRatioIdc );
458	m_cTEncTop.setSarWidth( m_sarWidth );
459	m_cTEncTop.setSarHeight( m_sarHeight );
460	m_cTEncTop.setOverscanInfoPresentFlag( m_overscanInfoPresentFlag );
461	m_cTEncTop.setOverscanAppropriateFlag( m_overscanAppropriateFlag );
462	m_cTEncTop.setVideoSignalTypePresentFlag( m_videoSignalTypePresentFlag );
463	m_cTEncTop.setVideoFormat( m_videoFormat );
464	m_cTEncTop.setVideoFullRangeFlag( m_videoFullRangeFlag );
465	m_cTEncTop.setColourDescriptionPresentFlag( m_colourDescriptionPresentFlag );
466	m_cTEncTop.setColourPrimaries( m_colourPrimaries );
467	m_cTEncTop.setTransferCharacteristics( m_transferCharacteristics );
468	m_cTEncTop.setMatrixCoefficients( m_matrixCoefficients );
469	m_cTEncTop.setChromaLocInfoPresentFlag( m_chromaLocInfoPresentFlag );
470	m_cTEncTop.setChromaSampleLocTypeTopField( m_chromaSampleLocTypeTopField );
471	m_cTEncTop.setChromaSampleLocTypeBottomField( m_chromaSampleLocTypeBottomField );
472	m_cTEncTop.setNeutralChromaIndicationFlag( m_neutralChromaIndicationFlag );
473	m_cTEncTop.setDefaultDisplayWindow( m_defDispWinLeftOffset, m_defDispWinRightOffset, m_defDispWinTopOffset, m_defDispWinBottomOffset );
474	m_cTEncTop.setFrameFieldInfoPresentFlag( m_frameFieldInfoPresentFlag );
475	m_cTEncTop.setPocProportionalToTimingFlag( m_pocProportionalToTimingFlag );
476	m_cTEncTop.setNumTicksPocDiffOneMinus1 ( m_numTicksPocDiffOneMinus1 );
477	m_cTEncTop.setBitstreamRestrictionFlag( m_bitstreamRestrictionFlag );
478	m_cTEncTop.setTilesFixedStructureFlag( m_tilesFixedStructureFlag );
479	m_cTEncTop.setMotionVectorsOverPicBoundariesFlag( m_motionVectorsOverPicBoundariesFlag );
480	m_cTEncTop.setMinSpatialSegmentationIdc( m_minSpatialSegmentationIdc );
481	m_cTEncTop.setMaxBytesPerPicDenom( m_maxBytesPerPicDenom );
482	m_cTEncTop.setMaxBitsPerMinCuDenom( m_maxBitsPerMinCuDenom );
483	m_cTEncTop.setLog2MaxMvLengthHorizontal( m_log2MaxMvLengthHorizontal );
484	m_cTEncTop.setLog2MaxMvLengthVertical( m_log2MaxMvLengthVertical );
485	#if SIGNAL_BITRATE_PICRATE_IN_VPS
486	TComBitRatePicRateInfo *bitRatePicRateInfo = m_cTEncTop.getVPS()->getBitratePicrateInfo();
487	// The number of bit rate/pic rate have to equal to number of sub-layers.
488	if(m_bitRatePicRateMaxTLayers)
489	{
490	assert(m_bitRatePicRateMaxTLayers == m_cTEncTop.getVPS()->getMaxTLayers());
491	}
492	for(Int i = 0; i < m_bitRatePicRateMaxTLayers; i++)
493	{
494	bitRatePicRateInfo->setBitRateInfoPresentFlag( i, m_bitRateInfoPresentFlag[i] );
495	if( bitRatePicRateInfo->getBitRateInfoPresentFlag(i) )
496	{
497	bitRatePicRateInfo->setAvgBitRate(i, m_avgBitRate[i]);
498	bitRatePicRateInfo->setMaxBitRate(i, m_maxBitRate[i]);
499	}
500	}
501	for(Int i = 0; i < m_bitRatePicRateMaxTLayers; i++)
502	{
503	bitRatePicRateInfo->setPicRateInfoPresentFlag( i, m_picRateInfoPresentFlag[i] );
504	if( bitRatePicRateInfo->getPicRateInfoPresentFlag(i) )
505	{
506	bitRatePicRateInfo->setAvgPicRate (i, m_avgPicRate[i]);
507	bitRatePicRateInfo->setConstantPicRateIdc(i, m_constantPicRateIdc[i]);
508	}
509	}
510	#endif
511	#if H_MV
512	}
513	#endif
514	#if H_3D_VSO
515	if ( m_bUseVSO )
516	{
517	if ( m_uiVSOMode == 4 )
518	{
519	#if H_3D_VSO_EARLY_SKIP
520	m_cRendererModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, g_uiMaxCUHeight , LOG2_DISP_PREC_LUT, 0, m_bVSOEarlySkip );
521	#else
522	m_cRendererModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, g_uiMaxCUHeight , LOG2_DISP_PREC_LUT, 0 );
523	#endif
524	for ( Int layer = 0; layer < m_numberOfLayers ; layer++ )
525	{
526	TEncTop* pcEncTop = m_acTEncTopList[ layer ];
527	Int iViewNum = pcEncTop->getViewIndex();
528	Int iContent = pcEncTop->getIsDepth() ? 1 : 0;
529	Int iNumOfModels = m_cRenModStrParser.getNumOfModelsForView(iViewNum, iContent);
530
531	Bool bUseVSO = (iNumOfModels != 0);
532
533	pcEncTop->setUseVSO( bUseVSO );
534	pcEncTop->getRdCost()->setRenModel( bUseVSO ? &m_cRendererModel : NULL );
535
536	for (Int iCurModel = 0; iCurModel < iNumOfModels; iCurModel++ )
537	{
538	Int iModelNum; Int iLeftViewNum; Int iRightViewNum; Int iDump; Int iOrgRefNum; Int iBlendMode;
539
540	m_cRenModStrParser.getSingleModelData ( iViewNum, iContent, iCurModel, iModelNum, iBlendMode, iLeftViewNum, iRightViewNum, iOrgRefNum, iDump ) ;
541	m_cRendererModel .createSingleModel ( iViewNum, iContent, iModelNum, iLeftViewNum, iRightViewNum, (iOrgRefNum != -1), iBlendMode );
542	}
543	}
544	}
545	else
546	{
547	AOT(true);
548	}
549	}
550	#endif
551	}
552
553	Void TAppEncTop::xCreateLib()
554	{
555	#if H_MV
556	// initialize global variables
557	initROM();
558	#if H_3D_DIM_DMM
559	initWedgeLists( true );
560	#endif
561
562	for( Int layer=0; layer < m_numberOfLayers; layer++)
563	{
564	m_acTVideoIOYuvInputFileList[layer]->open( m_pchInputFileList[layer], false, m_inputBitDepthY, m_inputBitDepthC, m_internalBitDepthY, m_internalBitDepthC ); // read mode
565	m_acTVideoIOYuvInputFileList[layer]->skipFrames( m_FrameSkip, m_iSourceWidth - m_aiPad[0], m_iSourceHeight - m_aiPad[1]);
566
567	if (m_pchReconFileList[layer])
568	{
569	m_acTVideoIOYuvReconFileList[layer]->open( m_pchReconFileList[layer], true, m_outputBitDepthY, m_outputBitDepthC, m_internalBitDepthY, m_internalBitDepthC); // write mode
570	}
571	m_acTEncTopList[layer]->create();
572	}
573	#else
574	// Video I/O
575	m_cTVideoIOYuvInputFile.open( m_pchInputFile, false, m_inputBitDepthY, m_inputBitDepthC, m_internalBitDepthY, m_internalBitDepthC ); // read mode
576	m_cTVideoIOYuvInputFile.skipFrames(m_FrameSkip, m_iSourceWidth - m_aiPad[0], m_iSourceHeight - m_aiPad[1]);
577
578	if (m_pchReconFile)
579	m_cTVideoIOYuvReconFile.open(m_pchReconFile, true, m_outputBitDepthY, m_outputBitDepthC, m_internalBitDepthY, m_internalBitDepthC); // write mode
580
581	// Neo Decoder
582	m_cTEncTop.create();
583	#endif
584	}
585
586	Void TAppEncTop::xDestroyLib()
587	{
588	#if H_MV
589	// destroy ROM
590	destroyROM();
591
592	for(Int layer=0; layer<m_numberOfLayers; layer++)
593	{
594	m_acTVideoIOYuvInputFileList[layer]->close();
595	m_acTVideoIOYuvReconFileList[layer]->close();
596	delete m_acTVideoIOYuvInputFileList[layer] ;
597	m_acTVideoIOYuvInputFileList[layer] = NULL;
598	delete m_acTVideoIOYuvReconFileList[layer] ;
599	m_acTVideoIOYuvReconFileList[layer] = NULL;
600	m_acTEncTopList[layer]->deletePicBuffer();
601	m_acTEncTopList[layer]->destroy();
602	delete m_acTEncTopList[layer] ;
603	m_acTEncTopList[layer] = NULL;
604	delete m_picYuvRec[layer] ;
605	m_picYuvRec[layer] = NULL;
606	}
607	#else
608	// Video I/O
609	m_cTVideoIOYuvInputFile.close();
610	m_cTVideoIOYuvReconFile.close();
611
612	// Neo Decoder
613	m_cTEncTop.destroy();
614	#endif
615	}
616
617	Void TAppEncTop::xInitLib()
618	{
619	#if H_MV
620	for(Int layer=0; layer<m_numberOfLayers; layer++)
621	{
622	m_acTEncTopList[layer]->init( );
623	}
624	#else
625	m_cTEncTop.init();
626	#endif
627	}
628
629	// ====================================================================================================================
630	// Public member functions
631	// ====================================================================================================================
632
633	/**
634	- create internal class
635	- initialize internal variable
636	- until the end of input YUV file, call encoding function in TEncTop class
637	- delete allocated buffers
638	- destroy internal class
639	.
640	*/
641	Void TAppEncTop::encode()
642	{
643	fstream bitstreamFile(m_pchBitstreamFile, fstream::binary \| fstream::out);
644	if (!bitstreamFile)
645	{
646	fprintf(stderr, "\nfailed to open bitstream file `%s' for writing\n", m_pchBitstreamFile);
647	exit(EXIT_FAILURE);
648	}
649
650	TComPicYuv* pcPicYuvOrg = new TComPicYuv;
651	TComPicYuv* pcPicYuvRec = NULL;
652
653	// initialize internal class & member variables
654	xInitLibCfg();
655	xCreateLib();
656	xInitLib();
657
658	// main encoder loop
659	#if H_MV
660	Bool allEos = false;
661	std::vector<Bool> eos ;
662	std::vector<Bool> flush ;
663
664	Int gopSize = 1;
665	Int maxGopSize = 0;
666	maxGopSize = (std::max)(maxGopSize, m_acTEncTopList[0]->getGOPSize());
667
668	for(Int layer=0; layer < m_numberOfLayers; layer++ )
669	{
670	eos .push_back( false );
671	flush.push_back( false );
672	}
673	#else
674	Int iNumEncoded = 0;
675	Bool bEos = false;
676	#endif
677
678	list<AccessUnit> outputAccessUnits; ///< list of access units to write out. is populated by the encoding process
679
680	// allocate original YUV buffer
681	pcPicYuvOrg->create( m_iSourceWidth, m_iSourceHeight, m_uiMaxCUWidth, m_uiMaxCUHeight, m_uiMaxCUDepth );
682
683	#if H_MV
684	while ( !allEos )
685	{
686	for(Int layer=0; layer < m_numberOfLayers; layer++ )
687	{
688	Int frmCnt = 0;
689	while ( !eos[layer] && !(frmCnt == gopSize))
690	{
691	// get buffers
692	xGetBuffer(pcPicYuvRec, layer);
693
694	// read input YUV file
695	m_acTVideoIOYuvInputFileList[layer]->read ( pcPicYuvOrg, m_aiPad );
696	m_acTEncTopList [layer]->initNewPic( pcPicYuvOrg );
697
698	// increase number of received frames
699	m_frameRcvd[layer]++;
700
701	frmCnt++;
702
703	eos[layer] = (m_frameRcvd[layer] == m_framesToBeEncoded);
704	allEos = allEos\|\|eos[layer];
705
706	// if end of file (which is only detected on a read failure) flush the encoder of any queued pictures
707	if (m_acTVideoIOYuvInputFileList[layer]->isEof())
708	{
709	flush [layer] = true;
710	eos [layer] = true;
711	m_frameRcvd [layer]--;
712	m_acTEncTopList[layer]->setFramesToBeEncoded(m_frameRcvd[layer]);
713	}
714	}
715	}
716	for ( Int gopId=0; gopId < gopSize; gopId++ )
717	{
718	#if H_3D
719	UInt iNextPoc = m_acTEncTopList[0] -> getFrameId( gopId );
720	if ( iNextPoc < m_framesToBeEncoded )
721	{
722	m_cCameraData.update( iNextPoc );
723	}
724	#endif
725	for(Int layer=0; layer < m_numberOfLayers; layer++ )
726	{
727	#if H_3D_VSO
728	if( m_bUseVSO && m_bUseEstimatedVSD && iNextPoc < m_framesToBeEncoded )
729	{
730	m_cCameraData.setDispCoeff( iNextPoc, m_acTEncTopList[layer]->getViewIndex() );
731	m_acTEncTopList[layer] ->setDispCoeff( m_cCameraData.getDispCoeff() );
732	}
733	#endif
734	Int iNumEncoded = 0;
735
736	// call encoding function for one frame
737	m_acTEncTopList[layer]->encode( eos[layer], flush[layer] ? 0 : pcPicYuvOrg, *m_picYuvRec[layer], outputAccessUnits, iNumEncoded, gopId );
738	xWriteOutput(bitstreamFile, iNumEncoded, outputAccessUnits, layer);
739	outputAccessUnits.clear();
740	}
741	}
742	gopSize = maxGopSize;
743	}
744	for(Int layer=0; layer < m_numberOfLayers; layer++ )
745	{
746	m_acTEncTopList[layer]->printSummary( m_acTEncTopList[layer]->getNumAllPicCoded() );
747	}
748	#else
749	while ( !bEos )
750	{
751	// get buffers
752	xGetBuffer(pcPicYuvRec);
753
754	// read input YUV file
755	m_cTVideoIOYuvInputFile.read( pcPicYuvOrg, m_aiPad );
756
757	// increase number of received frames
758	m_iFrameRcvd++;
759
760	bEos = (m_iFrameRcvd == m_framesToBeEncoded);
761
762	Bool flush = 0;
763	// if end of file (which is only detected on a read failure) flush the encoder of any queued pictures
764	if (m_cTVideoIOYuvInputFile.isEof())
765	{
766	flush = true;
767	bEos = true;
768	m_iFrameRcvd--;
769	m_cTEncTop.setFramesToBeEncoded(m_iFrameRcvd);
770	}
771
772	// call encoding function for one frame
773	m_cTEncTop.encode( bEos, flush ? 0 : pcPicYuvOrg, m_cListPicYuvRec, outputAccessUnits, iNumEncoded );
774
775	// write bistream to file if necessary
776	if ( iNumEncoded > 0 )
777	{
778	xWriteOutput(bitstreamFile, iNumEncoded, outputAccessUnits);
779	outputAccessUnits.clear();
780	}
781	}
782
783	m_cTEncTop.printSummary();
784	#endif
785
786	// delete original YUV buffer
787	pcPicYuvOrg->destroy();
788	delete pcPicYuvOrg;
789	pcPicYuvOrg = NULL;
790
791	#if !H_MV
792	// delete used buffers in encoder class
793	m_cTEncTop.deletePicBuffer();
794	#endif
795
796	// delete buffers & classes
797	xDeleteBuffer();
798	xDestroyLib();
799
800	printRateSummary();
801
802	return;
803	}
804
805	// ====================================================================================================================
806	// Protected member functions
807	// ====================================================================================================================
808
809	/**
810	- application has picture buffer list with size of GOP
811	- picture buffer list acts as ring buffer
812	- end of the list has the latest picture
813	.
814	*/
815	#if H_MV
816	Void TAppEncTop::xGetBuffer( TComPicYuv*& rpcPicYuvRec, UInt layer)
817	#else
818	Void TAppEncTop::xGetBuffer( TComPicYuv*& rpcPicYuvRec)
819	#endif
820	{
821	assert( m_iGOPSize > 0 );
822
823	// org. buffer
824	#if H_MV
825	if ( m_picYuvRec[layer]->size() == (UInt)m_iGOPSize )
826	{
827	rpcPicYuvRec = m_picYuvRec[layer]->popFront();
828	#else
829	if ( m_cListPicYuvRec.size() == (UInt)m_iGOPSize )
830	{
831	rpcPicYuvRec = m_cListPicYuvRec.popFront();
832	#endif
833
834	}
835	else
836	{
837	rpcPicYuvRec = new TComPicYuv;
838
839	rpcPicYuvRec->create( m_iSourceWidth, m_iSourceHeight, m_uiMaxCUWidth, m_uiMaxCUHeight, m_uiMaxCUDepth );
840
841	}
842	#if H_MV
843	m_picYuvRec[layer]->pushBack( rpcPicYuvRec );
844	#else
845	m_cListPicYuvRec.pushBack( rpcPicYuvRec );
846	#endif
847	}
848
849	Void TAppEncTop::xDeleteBuffer( )
850	{
851	#if H_MV
852	for(Int layer=0; layer<m_picYuvRec.size(); layer++)
853	{
854	if(m_picYuvRec[layer])
855	{
856	TComList<TComPicYuv*>::iterator iterPicYuvRec = m_picYuvRec[layer]->begin();
857	Int iSize = Int( m_picYuvRec[layer]->size() );
858	#else
859	TComList<TComPicYuv*>::iterator iterPicYuvRec = m_cListPicYuvRec.begin();
860
861	Int iSize = Int( m_cListPicYuvRec.size() );
862	#endif
863
864	for ( Int i = 0; i < iSize; i++ )
865	{
866	TComPicYuv* pcPicYuvRec = *(iterPicYuvRec++);
867	pcPicYuvRec->destroy();
868	delete pcPicYuvRec; pcPicYuvRec = NULL;
869	}
870
871	#if H_MV
872	}
873	}
874	#endif
875	}
876
877	/** \param iNumEncoded number of encoded frames
878	*/
879	#if H_MV
880	Void TAppEncTop::xWriteOutput(std::ostream& bitstreamFile, Int iNumEncoded, std::list<AccessUnit>& accessUnits, UInt layerId)
881	#else
882	Void TAppEncTop::xWriteOutput(std::ostream& bitstreamFile, Int iNumEncoded, const std::list<AccessUnit>& accessUnits)
883	#endif
884	{
885	Int i;
886
887	#if H_MV
888	if( iNumEncoded > 0 )
889	{
890	TComList<TComPicYuv*>::iterator iterPicYuvRec = m_picYuvRec[layerId]->end();
891	#else
892	TComList<TComPicYuv*>::iterator iterPicYuvRec = m_cListPicYuvRec.end();
893	list<AccessUnit>::const_iterator iterBitstream = accessUnits.begin();
894	#endif
895
896	for ( i = 0; i < iNumEncoded; i++ )
897	{
898	--iterPicYuvRec;
899	}
900
901	for ( i = 0; i < iNumEncoded; i++ )
902	{
903	TComPicYuv* pcPicYuvRec = *(iterPicYuvRec++);
904	#if H_MV
905	if (m_pchReconFileList[layerId])
906	{
907	m_acTVideoIOYuvReconFileList[layerId]->write( pcPicYuvRec, m_confLeft, m_confRight, m_confTop, m_confBottom );
908	}
909	}
910	}
911	if( ! accessUnits.empty() )
912	{
913	list<AccessUnit>::iterator aUIter;
914	for( aUIter = accessUnits.begin(); aUIter != accessUnits.end(); aUIter++ )
915	{
916	const vector<unsigned>& stats = writeAnnexB(bitstreamFile, *aUIter);
917	rateStatsAccum(*aUIter, stats);
918	}
919	}
920	#else
921	if (m_pchReconFile)
922	{
923	m_cTVideoIOYuvReconFile.write( pcPicYuvRec, m_confLeft, m_confRight, m_confTop, m_confBottom );
924	}
925
926	const AccessUnit& au = *(iterBitstream++);
927	const vector<UInt>& stats = writeAnnexB(bitstreamFile, au);
928	rateStatsAccum(au, stats);
929	}
930	#endif
931	}
932
933	/**
934	*
935	*/
936	void TAppEncTop::rateStatsAccum(const AccessUnit& au, const std::vector<UInt>& annexBsizes)
937	{
938	AccessUnit::const_iterator it_au = au.begin();
939	vector<UInt>::const_iterator it_stats = annexBsizes.begin();
940
941	for (; it_au != au.end(); it_au++, it_stats++)
942	{
943	switch ((*it_au)->m_nalUnitType)
944	{
945	case NAL_UNIT_CODED_SLICE_TRAIL_R:
946	case NAL_UNIT_CODED_SLICE_TRAIL_N:
947	case NAL_UNIT_CODED_SLICE_TLA_R:
948	case NAL_UNIT_CODED_SLICE_TSA_N:
949	case NAL_UNIT_CODED_SLICE_STSA_R:
950	case NAL_UNIT_CODED_SLICE_STSA_N:
951	case NAL_UNIT_CODED_SLICE_BLA_W_LP:
952	case NAL_UNIT_CODED_SLICE_BLA_W_RADL:
953	case NAL_UNIT_CODED_SLICE_BLA_N_LP:
954	case NAL_UNIT_CODED_SLICE_IDR_W_RADL:
955	case NAL_UNIT_CODED_SLICE_IDR_N_LP:
956	case NAL_UNIT_CODED_SLICE_CRA:
957	case NAL_UNIT_CODED_SLICE_RADL_N:
958	case NAL_UNIT_CODED_SLICE_RADL_R:
959	case NAL_UNIT_CODED_SLICE_RASL_N:
960	case NAL_UNIT_CODED_SLICE_RASL_R:
961	case NAL_UNIT_VPS:
962	case NAL_UNIT_SPS:
963	case NAL_UNIT_PPS:
964	m_essentialBytes += *it_stats;
965	break;
966	default:
967	break;
968	}
969
970	m_totalBytes += *it_stats;
971	}
972	}
973
974	void TAppEncTop::printRateSummary()
975	{
976	#if H_MV
977	Double time = (Double) m_frameRcvd[0] / m_iFrameRate;
978	printf("\n");
979	#else
980	Double time = (Double) m_iFrameRcvd / m_iFrameRate;
981	#endif
982	printf("Bytes written to file: %u (%.3f kbps)\n", m_totalBytes, 0.008 * m_totalBytes / time);
983	#if VERBOSE_RATE
984	printf("Bytes for SPS/PPS/Slice (Incl. Annex B): %u (%.3f kbps)\n", m_essentialBytes, 0.008 * m_essentialBytes / time);
985	#endif
986	}
987
988	#if H_MV
989	Void TAppEncTop::xSetDimensionIdAndLength( TComVPS& vps )
990	{
991	vps.setScalabilityMask( m_scalabilityMask );
992	for( Int dim = 0; dim < m_dimIds.size(); dim++ )
993	{
994	vps.setDimensionIdLen( dim, m_dimensionIdLen[ dim ] );
995	for( Int layer = 0; layer < vps.getMaxLayers(); layer++ )
996	{
997	vps.setDimensionId( layer, dim, m_dimIds[ dim ][ layer ] );
998	}
999	}
1000	}
1001
1002	Void TAppEncTop::xSetDirectDependencyFlags( TComVPS& vps )
1003	{
1004	for( Int layer = 0; layer < m_numberOfLayers; layer++ )
1005	{
1006	if( m_GOPListMvc[layer][MAX_GOP].m_POC == -1 )
1007	{
1008	continue;
1009	}
1010	for( Int i = 0; i < getGOPSize()+1; i++ )
1011	{
1012	GOPEntry ge = ( i < getGOPSize() ) ? m_GOPListMvc[layer][i] : m_GOPListMvc[layer][MAX_GOP];
1013	for( Int j = 0; j < ge.m_numInterViewRefPics; j++ )
1014	{
1015	Int interLayerRef = layer + ge.m_interViewRefs[j];
1016	vps.setDirectDependencyFlag( layer, interLayerRef, true );
1017	}
1018	}
1019	}
1020
1021	vps.checkVPSExtensionSyntax();
1022	vps.calcIvRefLayers();
1023	}
1024
1025	Void TAppEncTop::xSetLayerIds( TComVPS& vps )
1026	{
1027	vps.setSplittingFlag ( m_splittingFlag );
1028
1029	Bool nuhLayerIdPresentFlag = !( m_layerIdInNuh.size() == 1 );
1030	Int maxNuhLayerId = nuhLayerIdPresentFlag ? xGetMax( m_layerIdInNuh ) : ( m_numberOfLayers - 1 ) ;
1031
1032	vps.setMaxNuhLayerId( maxNuhLayerId );
1033	vps.setVpsNuhLayerIdPresentFlag( nuhLayerIdPresentFlag );
1034
1035	for (Int layer = 0; layer < m_numberOfLayers; layer++ )
1036	{
1037	vps.setLayerIdInNuh( layer, nuhLayerIdPresentFlag ? m_layerIdInNuh[ layer ] : layer );
1038	vps.setLayerIdInVps( vps.getLayerIdInNuh( layer ), layer );
1039	}
1040	}
1041
1042	Int TAppEncTop::xGetMax( std::vector<Int>& vec )
1043	{
1044	Int maxVec = 0;
1045	for ( Int i = 0; i < vec.size(); i++)
1046	maxVec = max( vec[i], maxVec );
1047	return maxVec;
1048	}
1049	#endif
1050	//! \}

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