encodercodingparameter.h
来自「SVC最新更新代码」· C头文件 代码 · 共 1,406 行 · 第 1/5 页
H
1,406 行
{
ROTS( NULL == argv[n] );
UInt uiTlNestFlag = atoi( argv[n] );
CodingParameter::setTlevelNestingFlag( uiTlNestFlag );
continue;
}
// JVT-U085 LMI }
if( equals( pcCom, "-org", 4 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
CodingParameter::getLayerParameters( uiLayer ).setInputFilename( argv[n+1] );
n += 1;
continue;
}
//JVT-W049 {
if( equals( pcCom, "-plr", 4 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
UInt uiPLR = atoi( argv[n+1 ] );
CodingParameter::getLayerParameters( uiLayer ).setPLR( uiPLR );
n += 1;
continue;
}
if( equals( pcCom, "-redu", 5 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
Bool bReduFlag = (atoi( argv[n+1 ] ) > 0 ? true:false);
CodingParameter::getLayerParameters( uiLayer ).setUseRedundantSliceFlag( bReduFlag );
n += 1;
continue;
}
if( equals( pcCom, "-kpredu", 7 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
Bool bReduKeyFlag = (atoi( argv[n+1 ] ) > 0 ? true:false);
CodingParameter::getLayerParameters( uiLayer ).setUseRedundantKeySliceFlag( bReduKeyFlag );
n += 1;
continue;
}
//JVT-W049 }
if( equals( pcCom, "-rec", 4 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
CodingParameter::getLayerParameters( uiLayer ).setOutputFilename( argv[n+1] );
n += 1;
continue;
}
if( equals( pcCom, "-ec", 3 ) )
{
ROTS( NULL == argv[n ] );
ROTS( NULL == argv[n+1] );
UInt uiLayer = atoi( argv[n ] );
ROF( uiLayer < MAX_LAYERS );
UInt uiECmode = atoi( argv[n+1] );
CodingParameter::getLayerParameters( uiLayer ).setEntropyCodingModeFlag( uiECmode != 0 );
n += 1;
continue;
}
if( equals( pcCom, "-vlc", 4 ) )
{
n--;
ROTS( NULL == argv[n] );
for( UInt uiLayer = 0; uiLayer < MAX_LAYERS; uiLayer++ )
{
CodingParameter::getLayerParameters( uiLayer ).setEntropyCodingModeFlag( false );
}
continue;
}
if( equals( pcCom, "-cabac", 6 ) )
{
n--;
ROTS( NULL == argv[n] );
for( UInt uiLayer = 0; uiLayer < MAX_LAYERS; uiLayer++ )
{
CodingParameter::getLayerParameters( uiLayer ).setEntropyCodingModeFlag( true );
}
continue;
}
//JVT-U106 Behaviour at slice boundaries{
if( equals( pcCom, "-ciu", 3 ) )
{
ROTS( NULL == argv[n] );
UInt flag = atoi( argv[n] );
CodingParameter::setCIUFlag( flag );
continue;
}
//JVT-U106 Behaviour at slice boundaries}
if( equals( pcCom, "-h", 2) )
{
printHelp();
return Err::m_nOK;
}
return Err::m_nERR;
}
RNOKS( check() );
return Err::m_nOK;
}
Void EncoderCodingParameter::printHelp()
{
printf("\n supported options:\n\n");
printf(" -pf Parameter File Name\n\n");
printf(" -bf BitStreamFile\n");
printf(" -frms Number of total frames\n");
printf(" -gop GOPSize - GOP size (2,4,8,16,32,64, default: 1)\n");
printf(" -iper Intra period (default: -1) : must be a power of 2 of GOP size (or -1)\n");
printf(" -numl Number Of Layers\n");
printf(" -cabac CABAC for all layers as entropy coding mode\n");
printf(" -vlc VLC for all layers as entropy coding mode\n");
printf(" -ecmf (Layer) (entropy_coding_mod_flag)\n");
printf(" -org (Layer) (original file)\n");
printf(" -rec (Layer) (reconstructed file)\n");
printf(" -ec (Layer) (entropy coding mode)\n");
printf(" -rqp (Layer) (ResidualQP)\n");
printf(" -mqp (Layer) (Stage) (MotionQP)\n");
printf(" -lqp (Layer) (ResidualAndMotionQP)\n");
printf(" -meqplp (Layer) (MotionQPLowpass)\n");
printf(" -ilpred (Layer) (InterLayerPredictionMode)\n");
printf(" -blid (Layer) (BaseLayerId)\n");
printf(" -mfile (Layer) (Mode) (MotionInfoFile)\n");
printf(" -bcip Constrained intra prediction for base layer (needed for single-loop) in scripts\n");
//S051{
printf(" -anasip (Layer) (SIP Analysis Mode)[0: persists all inter-predictions, 1: forbids all inter-prediction.] (File for storing bits information)\n");
printf(" -encsip (Layer) (File with stored SIP information)\n");
//S051}
//JVT-W052 bug_fixed
printf(" -icsei (IntegrityCheckSEIEnableFlag)[0: IntegrityCheckSEI is not applied, 1: IntegrityCheckSEI is applied.]\n");
//JVT-W052 bug_fixed
//JVT-U085 LMI
printf(" -tlnest (TlevelNestingFlag)[0: temporal level nesting constraint is not applied, 1: the nesting constraint is applied.]\n");
//JVT-U116 JVT-V088 JVT-W062 LMI
printf(" -tlidx (Tl0DepRepIdxSeiEnable)[0: tl0_dep_rep_idx is not present, 1: tl0_dep_rep_idx is present.]\n");
//JVT-U106 Behaviour at slice boundaries{
printf(" -ciu (Constrained intra upsampling)[0: no, 1: yes]\n");
//JVT-U106 Behaviour at slice boundaries}
printf(" -kpm (mode) [0:only for FGS(default), 1:FGS&MGS, 2:always]\n");
printf(" -mgsctrl (mode) [0:normal encoding(default), 1:EL ME, 2:EL ME+MC]\n");
printf(" -eqpc (layer) (value) sets explicit QP cascading mode for given layer [0: no, 1: yes]\n");
printf(" -dqp (layer) (level) (value) sets delta QP for given layer and temporal level (in explicit mode)\n");
printf(" -aeqpc (value) sets explicit QP cascading mode for all layers [0: no, 1: yes]\n");
printf(" -adqp (level) (value) sets delta QP for all layers and given temporal level (in explicit mode)\n");
printf(" -xdqp (DQP0) (DDQP1) (DDQPN) sets delta QP for all layers (in explicit mode)\n");
printf(" -mbaff (layer) (Mb Adaptive Frame Field Coding) \n");
printf(" -paff (layer) (Picture Adadptive Frame Field Coding) \n");
printf(" -h Print Option List \n");
printf("\n");
}
ErrVal EncoderCodingParameter::xReadLine( FILE* hFile, std::string* pacTag )
{
ROF( pacTag );
Int n;
UInt uiTagNum = 0;
Bool bComment = false;
std::string* pcTag = &pacTag[0];
for( n = 0; n < 4; n++ )
{
pacTag[n] = "";
}
for( n = 0; ; n++ )
{
Char cChar = (Char) fgetc( hFile );
ROTRS( cChar == '\n' || feof( hFile ), Err::m_nOK ); // end of line
if ( cChar == '#' )
{
bComment = true;
}
if( ! bComment )
{
if ( cChar == '\t' || cChar == ' ' ) // white space
{
ROTR( uiTagNum == 3, Err::m_nERR );
if( ! pcTag->empty() )
{
uiTagNum++;
pcTag = &pacTag[uiTagNum];
}
}
else
{
*pcTag += cChar;
}
}
}
}
ErrVal EncoderCodingParameter::xReadFromFile( std::string& rcFilename, std::string& rcBitstreamFile )
{
std::string acLayerConfigName[MAX_LAYERS];
std::string acTags[4];
UInt uiLayerCnt = 0;
UInt uiParLnCount = 0;
FILE *f = fopen( rcFilename.c_str(), "r");
if( NULL == f )
{
printf( "failed to open %s parameter file\n", rcFilename.c_str() );
return Err::m_nERR;
}
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineStr ("OutputFile", &rcBitstreamFile, "test.264");
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("FrameRate", &m_dMaximumFrameRate, 60.0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("MaxDelay", &m_dMaximumDelay, 1200.0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("FramesToBeEncoded", &m_uiTotalFrames, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("GOPSize", &m_uiGOPSize, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("IntraPeriod", &m_uiIntraPeriod, MSYS_UINT_MAX );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("NumberReferenceFrames", &m_uiNumRefFrames, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("BaseLayerMode", &m_uiBaseLayerMode, 3 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("NumLayers", &m_uiNumberOfLayers, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SearchRange", &(m_cMotionVectorSearchParams.m_uiSearchRange), 96);
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("ELSearchRange", &(m_cMotionVectorSearchParams.m_uiELSearchRange), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("FastBiSearch", &(m_cMotionVectorSearchParams.m_uiFastBiSearch), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("BiPredIter", &(m_cMotionVectorSearchParams.m_uiNumMaxIter), 4 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("IterSearchRange", &(m_cMotionVectorSearchParams.m_uiIterSearchRange), 8 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("LoopFilterDisable", &(m_cLoopFilterParams.m_uiFilterIdc), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineInt ("LoopFilterAlphaC0Offset", &(m_cLoopFilterParams.m_iAlphaOffset), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineInt ("LoopFilterBetaOffset", &(m_cLoopFilterParams.m_iBetaOffset), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("InterLayerLoopFilterDisable", &(m_cInterLayerLoopFilterParams.m_uiFilterIdc), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineInt ("InterLayerLoopFilterAlphaC0Offset", &(m_cInterLayerLoopFilterParams.m_iAlphaOffset), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineInt ("InterLayerLoopFilterBetaOffset", &(m_cInterLayerLoopFilterParams.m_iBetaOffset), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SearchMode", &(m_cMotionVectorSearchParams.m_uiSearchMode), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SearchFuncFullPel", &(m_cMotionVectorSearchParams.m_uiFullPelDFunc), 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SearchFuncSubPel", &(m_cMotionVectorSearchParams.m_uiSubPelDFunc), 0 );
//TMM_WP
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("WeightedPrediction", &m_uiIPMode, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("WeightedBiprediction", &m_uiBMode, 0 );
//TMM_WP
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineInt("NonRequiredEnable", &m_bNonRequiredEnable, 0 ); //NonRequired JVT-Q066
std::string cInputFile, cReconFile;
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("AVCMode", &m_uiAVCmode, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineStr ("InputFile", &cInputFile, "in.yuv");
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineStr ("ReconFile", &cReconFile, "rec.yuv");
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SourceWidth", &m_uiFrameWidth, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SourceHeight", &m_uiFrameHeight, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("SymbolMode", &m_uiSymbolMode, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("Enable8x8Transform", &m_uiEnable8x8Trafo, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("ScalingMatricesPresent", &m_uiScalingMatricesPresent, 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("BasisQP", &m_dBasisQp, 26 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("DPBSize", &m_uiDPBSize, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("NumRefFrames", &m_uiNumDPBRefFrames, 1 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("Log2MaxFrameNum", &m_uiLog2MaxFrameNum, 4 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineUInt("Log2MaxPocLsb", &m_uiLog2MaxPocLsb, 4 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineStr ("SequenceFormatString", &m_cSequenceFormatString, "A0*n{P0}" );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer0Quant", &m_adDeltaQpLayer[0], 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer1Quant", &m_adDeltaQpLayer[1], 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer2Quant", &m_adDeltaQpLayer[2], 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer3Quant", &m_adDeltaQpLayer[3], 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer4Quant", &m_adDeltaQpLayer[4], 0 );
m_pEncoderLines[uiParLnCount++] = new EncoderConfigLineDbl ("DeltaLayer5Quant", &m_adDeltaQpLayer[5], 0 );
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