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/* The copyright in this software is being made available under the BSD
* License, included below. This software may be subject to other third party
* and contributor rights, including patent rights, and no such rights are
* granted under this license.
*
* Copyright (c) 2010-2019, ITU/ISO/IEC
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* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file EncAppCfg.cpp
\brief Handle encoder configuration parameters
*/
#include "EncAppCfg.h"
#include <stdio.h>
#include <stdlib.h>
#include <cstring>
#include <string>
#include <fstream>
#include <limits>
#include "Utilities/program_options_lite.h"
#include "CommonLib/Rom.h"
#include "EncoderLib/RateCtrl.h"
#include "CommonLib/dtrace_next.h"
#define MACRO_TO_STRING_HELPER(val) #val
#define MACRO_TO_STRING(val) MACRO_TO_STRING_HELPER(val)
using namespace std;
namespace po = df::program_options_lite;
enum ExtendedProfileName // this is used for determining profile strings, where multiple profiles map to a single profile idc with various constraint flag combinations
{
NONE = 0,
MAIN = 1,
MAIN10 = 2,
MAINSTILLPICTURE = 3,
MAINREXT = 4,
HIGHTHROUGHPUTREXT = 5, // Placeholder profile for development
// The following are RExt profiles, which would map to the MAINREXT profile idc.
// The enumeration indicates the bit-depth constraint in the bottom 2 digits
// the chroma format in the next digit
// the intra constraint in the next digit
// If it is a RExt still picture, there is a '1' for the top digit.
MONOCHROME_8 = 1008,
MONOCHROME_12 = 1012,
MONOCHROME_16 = 1016,
MAIN_12 = 1112,
MAIN_422_10 = 1210,
MAIN_422_12 = 1212,
MAIN_444 = 1308,
MAIN_444_10 = 1310,
MAIN_444_12 = 1312,
MAIN_444_16 = 1316, // non-standard profile definition, used for development purposes
MAIN_INTRA = 2108,
MAIN_10_INTRA = 2110,
MAIN_12_INTRA = 2112,
MAIN_422_10_INTRA = 2210,
MAIN_422_12_INTRA = 2212,
MAIN_444_INTRA = 2308,
MAIN_444_10_INTRA = 2310,
MAIN_444_12_INTRA = 2312,
MAIN_444_16_INTRA = 2316,
MAIN_444_STILL_PICTURE = 11308,
MAIN_444_16_STILL_PICTURE = 12316,
NEXT = 6
};
//! \ingroup EncoderApp
//! \{
// ====================================================================================================================
// Constructor / destructor / initialization / destroy
// ====================================================================================================================
EncAppCfg::EncAppCfg()
: m_inputColourSpaceConvert(IPCOLOURSPACE_UNCHANGED)
, m_snrInternalColourSpace(false)
, m_outputInternalColourSpace(false)
, m_packedYUVMode(false)
, m_bIntraOnlyConstraintFlag(false)
, m_maxBitDepthConstraintIdc(0)
, m_maxChromaFormatConstraintIdc(CHROMA_420)
, m_bFrameConstraintFlag(false)
, m_bNoQtbttDualTreeIntraConstraintFlag(false)
, m_noPartitionConstraintsOverrideConstraintFlag(false)
, m_bNoSaoConstraintFlag(false)
, m_bNoAlfConstraintFlag(false)
, m_bNoRefWraparoundConstraintFlag(false)
, m_bNoTemporalMvpConstraintFlag(false)
, m_bNoSbtmvpConstraintFlag(false)
, m_bNoAmvrConstraintFlag(false)
, m_bNoBdofConstraintFlag(false)
, m_bNoCclmConstraintFlag(false)
, m_bNoMtsConstraintFlag(false)
, m_bNoAffineMotionConstraintFlag(false)
, m_bNoGbiConstraintFlag(false)
, m_bNoTriangleConstraintFlag(false)
, m_bNoLadfConstraintFlag(false)
, m_noTransformSkipConstraintFlag(false)
, m_noBDPCMConstraintFlag(false)
, m_noJointCbCrConstraintFlag(false)
, m_bNoQpDeltaConstraintFlag(false)
, m_bNoDepQuantConstraintFlag(false)
, m_bNoSignDataHidingConstraintFlag(false)
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#if EXTENSION_360_VIDEO
, m_ext360(*this)
#endif
{
m_aidQP = NULL;
#if HEVC_SEI
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m_startOfCodedInterval = NULL;
m_codedPivotValue = NULL;
m_targetPivotValue = NULL;
#endif
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}
EncAppCfg::~EncAppCfg()
{
if ( m_aidQP )
{
delete[] m_aidQP;
}
#if HEVC_SEI
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if ( m_startOfCodedInterval )
{
delete[] m_startOfCodedInterval;
m_startOfCodedInterval = NULL;
}
if ( m_codedPivotValue )
{
delete[] m_codedPivotValue;
m_codedPivotValue = NULL;
}
if ( m_targetPivotValue )
{
delete[] m_targetPivotValue;
m_targetPivotValue = NULL;
}
#endif
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#if ENABLE_TRACING
tracing_uninit(g_trace_ctx);
#endif
}
void EncAppCfg::create()
{
}
void EncAppCfg::destroy()
{
}
std::istringstream &operator>>(std::istringstream &in, GOPEntry &entry) //input
{
in>>entry.m_sliceType;
in>>entry.m_POC;
in>>entry.m_QPOffset;
#if X0038_LAMBDA_FROM_QP_CAPABILITY
in>>entry.m_QPOffsetModelOffset;
in>>entry.m_QPOffsetModelScale;
#endif
#if W0038_CQP_ADJ
in>>entry.m_CbQPoffset;
in>>entry.m_CrQPoffset;
#endif
in>>entry.m_QPFactor;
in>>entry.m_tcOffsetDiv2;
in>>entry.m_betaOffsetDiv2;
in>>entry.m_temporalId;
in >> entry.m_numRefPicsActive0;
in >> entry.m_numRefPics0;
for (int i = 0; i < entry.m_numRefPics0; i++)
{
in >> entry.m_deltaRefPics0[i];
}
in >> entry.m_numRefPicsActive1;
in >> entry.m_numRefPics1;
for (int i = 0; i < entry.m_numRefPics1; i++)
{
in >> entry.m_deltaRefPics1[i];
}
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return in;
}
std::istringstream &operator>>(std::istringstream &in, BrickSplit &entry) //input
{
in>>entry.m_tileIdx;
in>>entry.m_uniformSplit;
if (entry.m_uniformSplit)
{
in>>entry.m_uniformHeight;
}
else
{
in>>entry.m_numSplits;
for ( int i = 0; i < entry.m_numSplits; i++ )
{
in>>entry.m_brickHeight[i];
}
}
return in;
}
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bool confirmPara(bool bflag, const char* message);
static inline ChromaFormat numberToChromaFormat(const int val)
{
switch (val)
{
case 400: return CHROMA_400; break;
case 420: return CHROMA_420; break;
case 422: return CHROMA_422; break;
case 444: return CHROMA_444; break;
default: return NUM_CHROMA_FORMAT;
}
}
static const struct MapStrToProfile
{
const char* str;
Profile::Name value;
}
strToProfile[] =
{
{"none", Profile::NONE },
{"main", Profile::MAIN },
{"main10", Profile::MAIN10 },
{"main-still-picture", Profile::MAINSTILLPICTURE },
{"main-RExt", Profile::MAINREXT },
{"high-throughput-RExt", Profile::HIGHTHROUGHPUTREXT },
{"next", Profile::NEXT }
};
static const struct MapStrToExtendedProfile
{
const char* str;
ExtendedProfileName value;
}
strToExtendedProfile[] =
{
{"none", NONE },
{"main", MAIN },
{"main10", MAIN10 },
{"main_still_picture", MAINSTILLPICTURE },
{"main-still-picture", MAINSTILLPICTURE },
{"main_RExt", MAINREXT },
{"main-RExt", MAINREXT },
{"main_rext", MAINREXT },
{"main-rext", MAINREXT },
{"high_throughput_RExt", HIGHTHROUGHPUTREXT },
{"high-throughput-RExt", HIGHTHROUGHPUTREXT },
{"high_throughput_rext", HIGHTHROUGHPUTREXT },
{"high-throughput-rext", HIGHTHROUGHPUTREXT },
{"monochrome", MONOCHROME_8 },
{"monochrome12", MONOCHROME_12 },
{"monochrome16", MONOCHROME_16 },
{"main12", MAIN_12 },
{"main_422_10", MAIN_422_10 },
{"main_422_12", MAIN_422_12 },
{"main_444", MAIN_444 },
{"main_444_10", MAIN_444_10 },
{"main_444_12", MAIN_444_12 },
{"main_444_16", MAIN_444_16 },
{"main_intra", MAIN_INTRA },
{"main_10_intra", MAIN_10_INTRA },
{"main_12_intra", MAIN_12_INTRA },
{"main_422_10_intra", MAIN_422_10_INTRA},
{"main_422_12_intra", MAIN_422_12_INTRA},
{"main_444_intra", MAIN_444_INTRA },
{"main_444_still_picture", MAIN_444_STILL_PICTURE },
{"main_444_10_intra", MAIN_444_10_INTRA},
{"main_444_12_intra", MAIN_444_12_INTRA},
{"main_444_16_intra", MAIN_444_16_INTRA},
{"main_444_16_still_picture", MAIN_444_16_STILL_PICTURE },
{"next", NEXT }
};
static const ExtendedProfileName validRExtProfileNames[2/* intraConstraintFlag*/][4/* bit depth constraint 8=0, 10=1, 12=2, 16=3*/][4/*chroma format*/]=
{
{
{ MONOCHROME_8, NONE, NONE, MAIN_444 }, // 8-bit inter for 400, 420, 422 and 444
{ NONE, NONE, MAIN_422_10, MAIN_444_10 }, // 10-bit inter for 400, 420, 422 and 444
{ MONOCHROME_12, MAIN_12, MAIN_422_12, MAIN_444_12 }, // 12-bit inter for 400, 420, 422 and 444
{ MONOCHROME_16, NONE, NONE, MAIN_444_16 } // 16-bit inter for 400, 420, 422 and 444 (the latter is non standard used for development)
},
{
{ NONE, MAIN_INTRA, NONE, MAIN_444_INTRA }, // 8-bit intra for 400, 420, 422 and 444
{ NONE, MAIN_10_INTRA, MAIN_422_10_INTRA, MAIN_444_10_INTRA }, // 10-bit intra for 400, 420, 422 and 444
{ NONE, MAIN_12_INTRA, MAIN_422_12_INTRA, MAIN_444_12_INTRA }, // 12-bit intra for 400, 420, 422 and 444
{ NONE, NONE, NONE, MAIN_444_16_INTRA } // 16-bit intra for 400, 420, 422 and 444
}
};
static const struct MapStrToTier
{
const char* str;
Level::Tier value;
}
strToTier[] =
{
{"main", Level::MAIN},
{"high", Level::HIGH},
};
static const struct MapStrToLevel
{
const char* str;
Level::Name value;
}
strToLevel[] =
{
{"none",Level::NONE},
{"1", Level::LEVEL1},
{"2", Level::LEVEL2},
{"2.1", Level::LEVEL2_1},
{"3", Level::LEVEL3},
{"3.1", Level::LEVEL3_1},
{"4", Level::LEVEL4},
{"4.1", Level::LEVEL4_1},
{"5", Level::LEVEL5},
{"5.1", Level::LEVEL5_1},
{"5.2", Level::LEVEL5_2},
{"6", Level::LEVEL6},
{"6.1", Level::LEVEL6_1},
{"6.2", Level::LEVEL6_2},
{"8.5", Level::LEVEL8_5},
};
#if U0132_TARGET_BITS_SATURATION
uint32_t g_uiMaxCpbSize[2][21] =
{
// LEVEL1, LEVEL2,LEVEL2_1, LEVEL3, LEVEL3_1, LEVEL4, LEVEL4_1, LEVEL5, LEVEL5_1, LEVEL5_2, LEVEL6, LEVEL6_1, LEVEL6_2
{ 0, 0, 0, 350000, 0, 0, 1500000, 3000000, 0, 6000000, 10000000, 0, 12000000, 20000000, 0, 25000000, 40000000, 60000000, 60000000, 120000000, 240000000 },
{ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 30000000, 50000000, 0, 100000000, 160000000, 240000000, 240000000, 480000000, 800000000 }
};
#endif
static const struct MapStrToCostMode
{
const char* str;
CostMode value;
}
strToCostMode[] =
{
{"lossy", COST_STANDARD_LOSSY},
{"sequence_level_lossless", COST_SEQUENCE_LEVEL_LOSSLESS},
{"lossless", COST_LOSSLESS_CODING},
{"mixed_lossless_lossy", COST_MIXED_LOSSLESS_LOSSY_CODING}
};
static const struct MapStrToScalingListMode
{
const char* str;
ScalingListMode value;
}
strToScalingListMode[] =
{
{"0", SCALING_LIST_OFF},
{"1", SCALING_LIST_DEFAULT},
{"2", SCALING_LIST_FILE_READ},
{"off", SCALING_LIST_OFF},
{"default", SCALING_LIST_DEFAULT},
{"file", SCALING_LIST_FILE_READ}
};
template<typename T, typename P>
static std::string enumToString(P map[], uint32_t mapLen, const T val)
{
for (uint32_t i = 0; i < mapLen; i++)
{
if (val == map[i].value)
{
return map[i].str;
}
}
return std::string();
}
template<typename T, typename P>
static istream& readStrToEnum(P map[], uint32_t mapLen, istream &in, T &val)
{
string str;
in >> str;
for (uint32_t i = 0; i < mapLen; i++)
{
if (str == map[i].str)
{
val = map[i].value;
goto found;
}
}
/* not found */
in.setstate(ios::failbit);
found:
return in;
}
//inline to prevent compiler warnings for "unused static function"
static inline istream& operator >> (istream &in, ExtendedProfileName &profile)
{
return readStrToEnum(strToExtendedProfile, sizeof(strToExtendedProfile)/sizeof(*strToExtendedProfile), in, profile);
}
namespace Level
{
static inline istream& operator >> (istream &in, Tier &tier)
{
return readStrToEnum(strToTier, sizeof(strToTier)/sizeof(*strToTier), in, tier);
}
static inline istream& operator >> (istream &in, Name &level)
{
return readStrToEnum(strToLevel, sizeof(strToLevel)/sizeof(*strToLevel), in, level);
}
}
static inline istream& operator >> (istream &in, CostMode &mode)
{
return readStrToEnum(strToCostMode, sizeof(strToCostMode)/sizeof(*strToCostMode), in, mode);
}
static inline istream& operator >> (istream &in, ScalingListMode &mode)
{
return readStrToEnum(strToScalingListMode, sizeof(strToScalingListMode)/sizeof(*strToScalingListMode), in, mode);
}
template <class T>
struct SMultiValueInput
{
const T minValIncl;
const T maxValIncl;
const std::size_t minNumValuesIncl;
const std::size_t maxNumValuesIncl; // Use 0 for unlimited
std::vector<T> values;
SMultiValueInput() : minValIncl(0), maxValIncl(0), minNumValuesIncl(0), maxNumValuesIncl(0), values() { }
SMultiValueInput(std::vector<T> &defaults) : minValIncl(0), maxValIncl(0), minNumValuesIncl(0), maxNumValuesIncl(0), values(defaults) { }
SMultiValueInput(const T &minValue, const T &maxValue, std::size_t minNumberValues=0, std::size_t maxNumberValues=0)
: minValIncl(minValue), maxValIncl(maxValue), minNumValuesIncl(minNumberValues), maxNumValuesIncl(maxNumberValues), values() { }
SMultiValueInput(const T &minValue, const T &maxValue, std::size_t minNumberValues, std::size_t maxNumberValues, const T* defValues, const uint32_t numDefValues)
: minValIncl(minValue), maxValIncl(maxValue), minNumValuesIncl(minNumberValues), maxNumValuesIncl(maxNumberValues), values(defValues, defValues+numDefValues) { }
SMultiValueInput<T> &operator=(const std::vector<T> &userValues) { values=userValues; return *this; }
SMultiValueInput<T> &operator=(const SMultiValueInput<T> &userValues) { values=userValues.values; return *this; }
T readValue(const char *&pStr, bool &bSuccess);
istream& readValues(std::istream &in);
};
template <class T>
static inline istream& operator >> (std::istream &in, SMultiValueInput<T> &values)
{
return values.readValues(in);
}
template<>
uint32_t SMultiValueInput<uint32_t>::readValue(const char *&pStr, bool &bSuccess)
{
char *eptr;
uint32_t val=strtoul(pStr, &eptr, 0);
pStr=eptr;
bSuccess=!(*eptr!=0 && !isspace(*eptr) && *eptr!=',') && !(val<minValIncl || val>maxValIncl);
return val;
}
template<>
uint8_t SMultiValueInput<uint8_t>::readValue(const char *&pStr, bool &bSuccess)
{
char *eptr;
uint32_t val = strtoul(pStr, &eptr, 0);
pStr = eptr;
bSuccess = !(*eptr != 0 && !isspace(*eptr) && *eptr != ',') && !(val<minValIncl || val>maxValIncl);
return val;
}
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template<>
int SMultiValueInput<int>::readValue(const char *&pStr, bool &bSuccess)
{
char *eptr;
int val=strtol(pStr, &eptr, 0);
pStr=eptr;
bSuccess=!(*eptr!=0 && !isspace(*eptr) && *eptr!=',') && !(val<minValIncl || val>maxValIncl);
return val;
}
template<>
double SMultiValueInput<double>::readValue(const char *&pStr, bool &bSuccess)
{
char *eptr;
double val=strtod(pStr, &eptr);
pStr=eptr;
bSuccess=!(*eptr!=0 && !isspace(*eptr) && *eptr!=',') && !(val<minValIncl || val>maxValIncl);
return val;
}
template<>
bool SMultiValueInput<bool>::readValue(const char *&pStr, bool &bSuccess)
{
char *eptr;
int val=strtol(pStr, &eptr, 0);
pStr=eptr;
bSuccess=!(*eptr!=0 && !isspace(*eptr) && *eptr!=',') && !(val<int(minValIncl) || val>int(maxValIncl));
return val!=0;
}
template <class T>
istream& SMultiValueInput<T>::readValues(std::istream &in)
{
values.clear();
string str;
while (!in.eof())
{
string tmp; in >> tmp; str+=" " + tmp;
}
if (!str.empty())
{
const char *pStr=str.c_str();
// soak up any whitespace
for(;isspace(*pStr);pStr++);
while (*pStr != 0)
{
bool bSuccess=true;
T val=readValue(pStr, bSuccess);
if (!bSuccess)
{
in.setstate(ios::failbit);
break;
}
if (maxNumValuesIncl != 0 && values.size() >= maxNumValuesIncl)
{
in.setstate(ios::failbit);
break;
}
values.push_back(val);
// soak up any whitespace and up to 1 comma.
for(;isspace(*pStr);pStr++);
if (*pStr == ',')
{
pStr++;
}
for(;isspace(*pStr);pStr++);
}
}
if (values.size() < minNumValuesIncl)
{
in.setstate(ios::failbit);
}
return in;
}
#if QP_SWITCHING_FOR_PARALLEL
template <class T>
static inline istream& operator >> (std::istream &in, EncAppCfg::OptionalValue<T> &value)
{
in >> std::ws;
if (in.eof())
{
value.bPresent = false;
}
else
{
in >> value.value;
value.bPresent = true;
}
return in;
}
#endif
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#if JVET_O0549_ENCODER_ONLY_FILTER
template <class T1, class T2>
static inline istream& operator >> (std::istream& in, std::map<T1, T2>& map)
{
T1 key;
T2 value;
try
{
in >> key;
in >> value;
}
catch (...)
{
in.setstate(ios::failbit);
}
map[key] = value;
return in;
}
#endif
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static void
automaticallySelectRExtProfile(const bool bUsingGeneralRExtTools,
const bool bUsingChromaQPAdjustment,
const bool bUsingExtendedPrecision,
const bool bIntraConstraintFlag,
uint32_t &bitDepthConstraint,
ChromaFormat &chromaFormatConstraint,
const int maxBitDepth,
const ChromaFormat chromaFormat)
{
// Try to choose profile, according to table in Q1013.
uint32_t trialBitDepthConstraint=maxBitDepth;
if (trialBitDepthConstraint<8)
{
trialBitDepthConstraint=8;
}
else if (trialBitDepthConstraint==9 || trialBitDepthConstraint==11)
{
trialBitDepthConstraint++;
}
else if (trialBitDepthConstraint>12)
{
trialBitDepthConstraint=16;
}
// both format and bit depth constraints are unspecified
if (bUsingExtendedPrecision || trialBitDepthConstraint==16)
{
bitDepthConstraint = 16;
chromaFormatConstraint = (!bIntraConstraintFlag && chromaFormat==CHROMA_400) ? CHROMA_400 : CHROMA_444;
}
else if (bUsingGeneralRExtTools)
{
if (chromaFormat == CHROMA_400 && !bIntraConstraintFlag)
{
bitDepthConstraint = 16;
chromaFormatConstraint = CHROMA_400;
}
else
{
bitDepthConstraint = trialBitDepthConstraint;
chromaFormatConstraint = CHROMA_444;
}
}
else if (chromaFormat == CHROMA_400)
{
if (bIntraConstraintFlag)
{
chromaFormatConstraint = CHROMA_420; // there is no intra 4:0:0 profile.
bitDepthConstraint = trialBitDepthConstraint;
}
else
{
chromaFormatConstraint = CHROMA_400;
bitDepthConstraint = trialBitDepthConstraint == 8 ? 8 : 12;
}
}
else
{
bitDepthConstraint = trialBitDepthConstraint;
chromaFormatConstraint = chromaFormat;
if (bUsingChromaQPAdjustment && chromaFormat == CHROMA_420)
{
chromaFormatConstraint = CHROMA_422; // 4:2:0 cannot use the chroma qp tool.
}
if (chromaFormatConstraint == CHROMA_422 && bitDepthConstraint == 8)
{
bitDepthConstraint = 10; // there is no 8-bit 4:2:2 profile.
}
if (chromaFormatConstraint == CHROMA_420 && !bIntraConstraintFlag)
{
bitDepthConstraint = 12; // there is no 8 or 10-bit 4:2:0 inter RExt profile.
}
}
}
// ====================================================================================================================
// Public member functions
// ====================================================================================================================
/** \param argc number of arguments
\param argv array of arguments
\retval true when success
*/
bool EncAppCfg::parseCfg( int argc, char* argv[] )
{
bool do_help = false;
int tmpChromaFormat;
int tmpInputChromaFormat;
int tmpConstraintChromaFormat;
int tmpWeightedPredictionMethod;
int tmpFastInterSearchMode;
int tmpMotionEstimationSearchMethod;
int tmpSliceMode;
int tmpDecodedPictureHashSEIMappedType;
string inputColourSpaceConvert;
string inputPathPrefix;
ExtendedProfileName extendedProfile;
int saoOffsetBitShift[MAX_NUM_CHANNEL_TYPE];
// Multi-value input fields: // minval, maxval (incl), min_entries, max_entries (incl) [, default values, number of default values]
SMultiValueInput<uint32_t> cfg_ColumnWidth (0, std::numeric_limits<uint32_t>::max(), 0, std::numeric_limits<uint32_t>::max());
SMultiValueInput<uint32_t> cfg_RowHeight (0, std::numeric_limits<uint32_t>::max(), 0, std::numeric_limits<uint32_t>::max());
SMultiValueInput<int> cfg_startOfCodedInterval (std::numeric_limits<int>::min(), std::numeric_limits<int>::max(), 0, 1<<16);
SMultiValueInput<int> cfg_codedPivotValue (std::numeric_limits<int>::min(), std::numeric_limits<int>::max(), 0, 1<<16);
SMultiValueInput<int> cfg_targetPivotValue (std::numeric_limits<int>::min(), std::numeric_limits<int>::max(), 0, 1<<16);
SMultiValueInput<uint32_t> cfg_SliceIdx (0, std::numeric_limits<uint32_t>::max(), 0, std::numeric_limits<uint32_t>::max());
SMultiValueInput<uint32_t> cfg_SignalledSliceId (0, std::numeric_limits<uint32_t>::max(), 0, std::numeric_limits<uint32_t>::max());
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SMultiValueInput<double> cfg_adIntraLambdaModifier (0, std::numeric_limits<double>::max(), 0, MAX_TLAYER); ///< Lambda modifier for Intra pictures, one for each temporal layer. If size>temporalLayer, then use [temporalLayer], else if size>0, use [size()-1], else use m_adLambdaModifier.
#if SHARP_LUMA_DELTA_QP
const int defaultLumaLevelTodQp_QpChangePoints[] = {-3, -2, -1, 0, 1, 2, 3, 4, 5, 6};
const int defaultLumaLevelTodQp_LumaChangePoints[] = { 0, 301, 367, 434, 501, 567, 634, 701, 767, 834};
SMultiValueInput<int> cfg_lumaLeveltoDQPMappingQP (-MAX_QP, MAX_QP, 0, LUMA_LEVEL_TO_DQP_LUT_MAXSIZE, defaultLumaLevelTodQp_QpChangePoints, sizeof(defaultLumaLevelTodQp_QpChangePoints )/sizeof(int));
SMultiValueInput<int> cfg_lumaLeveltoDQPMappingLuma (0, std::numeric_limits<int>::max(), 0, LUMA_LEVEL_TO_DQP_LUT_MAXSIZE, defaultLumaLevelTodQp_LumaChangePoints, sizeof(defaultLumaLevelTodQp_LumaChangePoints)/sizeof(int));
uint32_t lumaLevelToDeltaQPMode;
#endif
const int qpInVals[] = { 25, 33, 43 }; // qpInVal values used to derive the chroma QP mapping table used in VTM-5.0
const int qpOutVals[] = { 25, 32, 37 }; // qpOutVal values used to derive the chroma QP mapping table used in VTM-5.0
SMultiValueInput<int> cfg_qpInValCb (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, qpInVals, sizeof(qpInVals)/sizeof(int));
SMultiValueInput<int> cfg_qpOutValCb (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, qpOutVals, sizeof(qpOutVals) / sizeof(int));
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const int zeroVector[] = { 0 };
SMultiValueInput<int> cfg_qpInValCr (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, zeroVector, 1);
SMultiValueInput<int> cfg_qpOutValCr (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, zeroVector, 1);
SMultiValueInput<int> cfg_qpInValCbCr (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, zeroVector, 1);
SMultiValueInput<int> cfg_qpOutValCbCr (MIN_QP_VALUE_FOR_16_BIT, MAX_QP, 0, MAX_NUM_QP_VALUES, zeroVector, 1);
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const uint32_t defaultInputKneeCodes[3] = { 600, 800, 900 };
const uint32_t defaultOutputKneeCodes[3] = { 100, 250, 450 };
SMultiValueInput<uint32_t> cfg_kneeSEIInputKneePointValue (1, 999, 0, 999, defaultInputKneeCodes, sizeof(defaultInputKneeCodes )/sizeof(uint32_t));
SMultiValueInput<uint32_t> cfg_kneeSEIOutputKneePointValue (0, 1000, 0, 999, defaultOutputKneeCodes, sizeof(defaultOutputKneeCodes)/sizeof(uint32_t));
const int defaultPrimaryCodes[6] = { 0,50000, 0,0, 50000,0 };
const int defaultWhitePointCode[2] = { 16667, 16667 };
SMultiValueInput<int> cfg_DisplayPrimariesCode (0, 50000, 6, 6, defaultPrimaryCodes, sizeof(defaultPrimaryCodes )/sizeof(int));
SMultiValueInput<int> cfg_DisplayWhitePointCode (0, 50000, 2, 2, defaultWhitePointCode, sizeof(defaultWhitePointCode)/sizeof(int));
SMultiValueInput<bool> cfg_timeCodeSeiTimeStampFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiNumUnitFieldBasedFlag(0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiCountingType (0, 6, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiFullTimeStampFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiDiscontinuityFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiCntDroppedFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiNumberOfFrames (0,511, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiSecondsValue (0, 59, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiMinutesValue (0, 59, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiHoursValue (0, 23, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiSecondsFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiMinutesFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<bool> cfg_timeCodeSeiHoursFlag (0, 1, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiTimeOffsetLength (0, 31, 0, MAX_TIMECODE_SEI_SETS);
SMultiValueInput<int> cfg_timeCodeSeiTimeOffsetValue (std::numeric_limits<int>::min(), std::numeric_limits<int>::max(), 0, MAX_TIMECODE_SEI_SETS);
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#if LUMA_ADAPTIVE_DEBLOCKING_FILTER_QP_OFFSET
const int defaultLadfQpOffset[3] = { 1, 0, 1 };
const int defaultLadfIntervalLowerBound[2] = { 350, 833 };
SMultiValueInput<int> cfg_LadfQpOffset ( -MAX_QP, MAX_QP, 2, MAX_LADF_INTERVALS, defaultLadfQpOffset, 3 );
SMultiValueInput<int> cfg_LadfIntervalLowerBound ( 0, std::numeric_limits<int>::max(), 1, MAX_LADF_INTERVALS - 1, defaultLadfIntervalLowerBound, 2 );
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#endif
SMultiValueInput<unsigned> cfg_virtualBoundariesPosX (0, std::numeric_limits<uint32_t>::max(), 0, 3);
SMultiValueInput<unsigned> cfg_virtualBoundariesPosY (0, std::numeric_limits<uint32_t>::max(), 0, 3);
SMultiValueInput<uint8_t> cfg_SubProfile(0, std::numeric_limits<uint8_t>::max(), 0, std::numeric_limits<uint8_t>::max());
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int warnUnknowParameter = 0;
#if ENABLE_TRACING
string sTracingRule;
string sTracingFile;
bool bTracingChannelsList = false;
#endif
#if ENABLE_SIMD_OPT
std::string ignore;
#endif
bool sdr = false;
po::Options opts;
opts.addOptions()
("help", do_help, false, "this help text")
("c", po::parseConfigFile, "configuration file name")
("WarnUnknowParameter,w", warnUnknowParameter, 0, "warn for unknown configuration parameters instead of failing")
("isSDR", sdr, false, "compatibility")
#if ENABLE_SIMD_OPT
("SIMD", ignore, string(""), "SIMD extension to use (SCALAR, SSE41, SSE42, AVX, AVX2, AVX512), default: the highest supported extension\n")
#endif
// File, I/O and source parameters
("InputFile,i", m_inputFileName, string(""), "Original YUV input file name")
("InputPathPrefix,-ipp", inputPathPrefix, string(""), "pathname to prepend to input filename")
("BitstreamFile,b", m_bitstreamFileName, string(""), "Bitstream output file name")
("ReconFile,o", m_reconFileName, string(""), "Reconstructed YUV output file name")
("SourceWidth,-wdt", m_iSourceWidth, 0, "Source picture width")
("SourceHeight,-hgt", m_iSourceHeight, 0, "Source picture height")
("InputBitDepth", m_inputBitDepth[CHANNEL_TYPE_LUMA], 8, "Bit-depth of input file")
("OutputBitDepth", m_outputBitDepth[CHANNEL_TYPE_LUMA], 0, "Bit-depth of output file (default:InternalBitDepth)")
("MSBExtendedBitDepth", m_MSBExtendedBitDepth[CHANNEL_TYPE_LUMA], 0, "bit depth of luma component after addition of MSBs of value 0 (used for synthesising High Dynamic Range source material). (default:InputBitDepth)")
("InternalBitDepth", m_internalBitDepth[CHANNEL_TYPE_LUMA], 0, "Bit-depth the codec operates at. (default: MSBExtendedBitDepth). If different to MSBExtendedBitDepth, source data will be converted")
("InputBitDepthC", m_inputBitDepth[CHANNEL_TYPE_CHROMA], 0, "As per InputBitDepth but for chroma component. (default:InputBitDepth)")
("OutputBitDepthC", m_outputBitDepth[CHANNEL_TYPE_CHROMA], 0, "As per OutputBitDepth but for chroma component. (default: use luma output bit-depth)")
("MSBExtendedBitDepthC", m_MSBExtendedBitDepth[CHANNEL_TYPE_CHROMA], 0, "As per MSBExtendedBitDepth but for chroma component. (default:MSBExtendedBitDepth)")
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("InternalBitDepthC", m_internalBitDepth[CHANNEL_TYPE_CHROMA], 0, "As per InternalBitDepth but for chroma component. (default:InternalBitDepth)")
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("ExtendedPrecision", m_extendedPrecisionProcessingFlag, false, "Increased internal accuracies to support high bit depths (not valid in V1 profiles)")
("HighPrecisionPredictionWeighting", m_highPrecisionOffsetsEnabledFlag, false, "Use high precision option for weighted prediction (not valid in V1 profiles)")
("InputColourSpaceConvert", inputColourSpaceConvert, string(""), "Colour space conversion to apply to input video. Permitted values are (empty string=UNCHANGED) " + getListOfColourSpaceConverts(true))
("SNRInternalColourSpace", m_snrInternalColourSpace, false, "If true, then no colour space conversion is applied prior to SNR, otherwise inverse of input is applied.")
("OutputInternalColourSpace", m_outputInternalColourSpace, false, "If true, then no colour space conversion is applied for reconstructed video, otherwise inverse of input is applied.")
("InputChromaFormat", tmpInputChromaFormat, 420, "InputChromaFormatIDC")
("MSEBasedSequencePSNR", m_printMSEBasedSequencePSNR, false, "0 (default) emit sequence PSNR only as a linear average of the frame PSNRs, 1 = also emit a sequence PSNR based on an average of the frame MSEs")
("PrintHexPSNR", m_printHexPsnr, false, "0 (default) don't emit hexadecimal PSNR for each frame, 1 = also emit hexadecimal PSNR values")
("PrintFrameMSE", m_printFrameMSE, false, "0 (default) emit only bit count and PSNRs for each frame, 1 = also emit MSE values")
("PrintSequenceMSE", m_printSequenceMSE, false, "0 (default) emit only bit rate and PSNRs for the whole sequence, 1 = also emit MSE values")
("CabacZeroWordPaddingEnabled", m_cabacZeroWordPaddingEnabled, true, "0 do not add conforming cabac-zero-words to bit streams, 1 (default) = add cabac-zero-words as required")
("ChromaFormatIDC,-cf", tmpChromaFormat, 0, "ChromaFormatIDC (400|420|422|444 or set 0 (default) for same as InputChromaFormat)")
("ConformanceMode", m_conformanceWindowMode, 0, "Deprecated alias of ConformanceWindowMode")
("ConformanceWindowMode", m_conformanceWindowMode, 0, "Window conformance mode (0: no window, 1:automatic padding, 2:padding, 3:conformance")
("HorizontalPadding,-pdx", m_aiPad[0], 0, "Horizontal source padding for conformance window mode 2")
("VerticalPadding,-pdy", m_aiPad[1], 0, "Vertical source padding for conformance window mode 2")
("ConfLeft", m_confWinLeft, 0, "Deprecated alias of ConfWinLeft")
("ConfRight", m_confWinRight, 0, "Deprecated alias of ConfWinRight")
("ConfTop", m_confWinTop, 0, "Deprecated alias of ConfWinTop")
("ConfBottom", m_confWinBottom, 0, "Deprecated alias of ConfWinBottom")
("ConfWinLeft", m_confWinLeft, 0, "Left offset for window conformance mode 3")
("ConfWinRight", m_confWinRight, 0, "Right offset for window conformance mode 3")
("ConfWinTop", m_confWinTop, 0, "Top offset for window conformance mode 3")
("ConfWinBottom", m_confWinBottom, 0, "Bottom offset for window conformance mode 3")
("AccessUnitDelimiter", m_AccessUnitDelimiter, true, "Enable Access Unit Delimiter NALUs")
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("FrameRate,-fr", m_iFrameRate, 0, "Frame rate")
("FrameSkip,-fs", m_FrameSkip, 0u, "Number of frames to skip at start of input YUV")
("TemporalSubsampleRatio,-ts", m_temporalSubsampleRatio, 1u, "Temporal sub-sample ratio when reading input YUV")
("FramesToBeEncoded,f", m_framesToBeEncoded, 0, "Number of frames to be encoded (default=all)")
("ClipInputVideoToRec709Range", m_bClipInputVideoToRec709Range, false, "If true then clip input video to the Rec. 709 Range on loading when InternalBitDepth is less than MSBExtendedBitDepth")
("ClipOutputVideoToRec709Range", m_bClipOutputVideoToRec709Range, false, "If true then clip output video to the Rec. 709 Range on saving when OutputBitDepth is less than InternalBitDepth")
("PYUV", m_packedYUVMode, false, "If true then output 10-bit and 12-bit YUV data as 5-byte and 3-byte (respectively) packed YUV data. Ignored for interlaced output.")
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("SummaryOutFilename", m_summaryOutFilename, string(), "Filename to use for producing summary output file. If empty, do not produce a file.")
("SummaryPicFilenameBase", m_summaryPicFilenameBase, string(), "Base filename to use for producing summary picture output files. The actual filenames used will have I.txt, P.txt and B.txt appended. If empty, do not produce a file.")
("SummaryVerboseness", m_summaryVerboseness, 0u, "Specifies the level of the verboseness of the text output")
("Verbosity,v", m_verbosity, (int)VERBOSE, "Specifies the level of the verboseness")
#if JVET_O0756_CONFIG_HDRMETRICS || JVET_O0756_CALCULATE_HDRMETRICS
( "WhitePointDeltaE1", m_whitePointDeltaE[0], 100.0, "1st reference white point value")
( "WhitePointDeltaE2", m_whitePointDeltaE[1], 1000.0, "2nd reference white point value")
( "WhitePointDeltaE3", m_whitePointDeltaE[2], 5000.0, "3rd reference white point value")
( "MaxSampleValue", m_maxSampleValue, 10000.0, "Maximum sample value for floats")
( "InputSampleRange", m_sampleRange, 0, "Sample Range")
( "InputColorPrimaries", m_colorPrimaries, 1, "Input Color Primaries")
( "EnableTFunctionLUT", m_enableTFunctionLUT, false, "Input Color Primaries")
( "ChromaLocation", m_chromaLocation, 2, "Location of Chroma Samples")
( "ChromaUpsampleFilter", m_chromaUPFilter, 1, "420 to 444 conversion filters")
( "CropOffsetLeft", m_cropOffsetLeft, 0, "Crop Offset Left position")
( "CropOffsetTop", m_cropOffsetTop, 0, "Crop Offset Top position")
( "CropOffsetRight", m_cropOffsetRight, 0, "Crop Offset Right position")
( "CropOffsetBottom", m_cropOffsetBottom, 0, "Crop Offset Bottom position")
( "CalculateHdrMetrics", m_calculateHdrMetrics, false, "Enable HDR metric calculation")
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//Field coding parameters
("FieldCoding", m_isField, false, "Signals if it's a field based coding")
("TopFieldFirst, Tff", m_isTopFieldFirst, false, "In case of field based coding, signals whether if it's a top field first or not")
("EfficientFieldIRAPEnabled", m_bEfficientFieldIRAPEnabled, true, "Enable to code fields in a specific, potentially more efficient, order.")
("HarmonizeGopFirstFieldCoupleEnabled", m_bHarmonizeGopFirstFieldCoupleEnabled, true, "Enables harmonization of Gop first field couple")
// Profile and level
("Profile", extendedProfile, NONE, "Profile name to use for encoding. Use main (for main), main10 (for main10), main-still-picture, main-RExt (for Range Extensions profile), any of the RExt specific profile names, or none")
("Level", m_level, Level::NONE, "Level limit to be used, eg 5.1, or none")
("Tier", m_levelTier, Level::MAIN, "Tier to use for interpretation of --Level (main or high only)")
("SubProfile", cfg_SubProfile, cfg_SubProfile, "Sub-profile idc")
("EnableDecodingParameterSet", m_decodingParameterSetEnabled, false, "Enables writing of Decoding Parameter Set")
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("MaxBitDepthConstraint", m_bitDepthConstraint, 0u, "Bit depth to use for profile-constraint for RExt profiles. 0=automatically choose based upon other parameters")
("MaxChromaFormatConstraint", tmpConstraintChromaFormat, 0, "Chroma-format to use for the profile-constraint for RExt profiles. 0=automatically choose based upon other parameters")
("IntraConstraintFlag", m_intraConstraintFlag, false, "Value of general_intra_constraint_flag to use for RExt profiles (not used if an explicit RExt sub-profile is specified)")
("OnePictureOnlyConstraintFlag", m_onePictureOnlyConstraintFlag, false, "Value of general_one_picture_only_constraint_flag to use for RExt profiles (not used if an explicit RExt sub-profile is specified)")
("LowerBitRateConstraintFlag", m_lowerBitRateConstraintFlag, true, "Value of general_lower_bit_rate_constraint_flag to use for RExt profiles")
("ProgressiveSource", m_progressiveSourceFlag, false, "Indicate that source is progressive")
("InterlacedSource", m_interlacedSourceFlag, false, "Indicate that source is interlaced")
("NonPackedSource", m_nonPackedConstraintFlag, false, "Indicate that source does not contain frame packing")
("FrameOnly", m_frameOnlyConstraintFlag, false, "Indicate that the bitstream contains only frames")
("CTUSize", m_uiCTUSize, 128u, "CTUSize (specifies the CTU size if QTBT is on) [default: 128]")
("EnablePartitionConstraintsOverride", m_SplitConsOverrideEnabledFlag, true, "Enable partition constraints override")
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("MinQTISlice", m_uiMinQT[0], 8u, "MinQTISlice")
("MinQTLumaISlice", m_uiMinQT[0], 8u, "MinQTLumaISlice")
("MinQTChromaISlice", m_uiMinQT[2], 4u, "MinQTChromaISlice")
("MinQTNonISlice", m_uiMinQT[1], 8u, "MinQTNonISlice")
("MaxMTTHierarchyDepth", m_uiMaxMTTHierarchyDepth, 3u, "MaxMTTHierarchyDepth")
("MaxMTTHierarchyDepthI", m_uiMaxMTTHierarchyDepthI, 3u, "MaxMTTHierarchyDepthI")
("MaxMTTHierarchyDepthISliceL", m_uiMaxMTTHierarchyDepthI, 3u, "MaxMTTHierarchyDepthISliceL")
("MaxMTTHierarchyDepthISliceC", m_uiMaxMTTHierarchyDepthIChroma, 3u, "MaxMTTHierarchyDepthISliceC")
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("DualITree", m_dualTree, false, "Use separate QTBT trees for intra slice luma and chroma channel types")
( "LFNST", m_LFNST, false, "Enable LFNST (0:off, 1:on) [default: off]" )
( "FastLFNST", m_useFastLFNST, false, "Fast methods for LFNST" )
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("SubPuMvp", m_SubPuMvpMode, 0, "Enable Sub-PU temporal motion vector prediction (0:off, 1:ATMVP, 2:STMVP, 3:ATMVP+STMVP) [default: off]")
("MMVD", m_MMVD, true, "Enable Merge mode with Motion Vector Difference (0:off, 1:on) [default: 1]")
("Affine", m_Affine, false, "Enable affine prediction (0:off, 1:on) [default: off]")
("AffineType", m_AffineType, true, "Enable affine type prediction (0:off, 1:on) [default: on]" )
("PROF", m_PROF, false, "Enable Prediction refinement with optical flow for affine mode (0:off, 1:on) [default: off]")
("BIO", m_BIO, false, "Enable bi-directional optical flow")
("IMV", m_ImvMode, 1, "Adaptive MV precision Mode (IMV)\n"
"\t0: disabled\n"
"\t1: enabled (1/2-Pel, Full-Pel and 4-PEL)\n")
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("IMV4PelFast", m_Imv4PelFast, 1, "Fast 4-Pel Adaptive MV precision Mode 0:disabled, 1:enabled) [default: 1]")
("LMChroma", m_LMChroma, 1, " LMChroma prediction "
"\t0: Disable LMChroma\n"
"\t1: Enable LMChroma\n")
("CclmCollocatedChroma", m_cclmCollocatedChromaFlag, false, "Specifies the location of the top-left downsampled luma sample in cross-component linear model intra prediction relative to the top-left luma sample\n"
"\t0: horizontally co-sited, vertically shifted by 0.5 units of luma samples\n"
"\t1: collocated\n")
("MTS", m_MTS, 0, "Multiple Transform Set (MTS)\n"
"\t0: Disable MTS\n"
"\t1: Enable only Intra MTS\n"
"\t2: Enable only Inter MTS\n"
"\t3: Enable both Intra & Inter MTS\n")
("MTSIntraMaxCand", m_MTSIntraMaxCand, 3, "Number of additional candidates to test in encoder search for MTS in intra slices\n")
("MTSInterMaxCand", m_MTSInterMaxCand, 4, "Number of additional candidates to test in encoder search for MTS in inter slices\n")
("MTSImplicit", m_MTSImplicit, 0, "Enable implicit MTS (when explicit MTS is off)\n")
( "SBT", m_SBT, false, "Enable Sub-Block Transform for inter blocks\n" )
Mohammed Golam Sarwer
committed
#if JVET_P0983_REMOVE_SPS_SBT_MAX_SIZE_FLAG
( "SBTFast64WidthTh", m_SBTFast64WidthTh, 1920, "Picture width threshold for testing size-64 SBT in RDO (now for HD and above sequences)\n")
Mohammed Golam Sarwer
committed
#endif
( "ISP", m_ISP, false, "Enable Intra Sub-Partitions\n" )
("SMVD", m_SMVD, false, "Enable Symmetric MVD\n")
("CompositeLTReference", m_compositeRefEnabled, false, "Enable Composite Long Term Reference Frame")
("GBi", m_GBi, false, "Enable Generalized Bi-prediction(GBi)")
("GBiFast", m_GBiFast, false, "Fast methods for Generalized Bi-prediction(GBi)\n")
Shunsuke Iwamura
committed
#if LUMA_ADAPTIVE_DEBLOCKING_FILTER_QP_OFFSET
("LADF", m_LadfEnabed, false, "Luma adaptive deblocking filter QP Offset(L0414)")
("LadfNumIntervals", m_LadfNumIntervals, 3, "LADF number of intervals (2-5, inclusive)")
("LadfQpOffset", cfg_LadfQpOffset, cfg_LadfQpOffset, "LADF QP offset")
("LadfIntervalLowerBound", cfg_LadfIntervalLowerBound, cfg_LadfIntervalLowerBound, "LADF lower bound for 2nd lowest interval")
#endif
("MHIntra", m_MHIntra, false, "Enable MHIntra mode")
("Triangle", m_Triangle, false, "Enable triangular shape motion vector prediction (0:off, 1:on)")
("HashME", m_HashME, false, "Enable hash motion estimation (0:off, 1:on)")
("AllowDisFracMMVD", m_allowDisFracMMVD, false, "Disable fractional MVD in MMVD mode adaptively")
("AffineAmvr", m_AffineAmvr, false, "Eanble AMVR for affine inter mode")
Hongbin Liu
committed
("AffineAmvrEncOpt", m_AffineAmvrEncOpt, false, "Enable encoder optimization of affine AMVR")
("DMVR", m_DMVR, false, "Decoder-side Motion Vector Refinement")
("MmvdDisNum", m_MmvdDisNum, 8, "Number of MMVD Distance Entries")
("PLT", m_PLTMode, 0u, "PLTMode (0x1:enabled, 0x0:disabled) [default: disabled]")
("JointCbCr", m_JointCbCrMode, false, "Enable joint coding of chroma residuals (JointCbCr, 0:off, 1:on)")
( "IBC", m_IBCMode, 0u, "IBCMode (0x1:enabled, 0x0:disabled) [default: disabled]")
( "IBCLocalSearchRangeX", m_IBCLocalSearchRangeX, 128u, "Search range of IBC local search in x direction")
( "IBCLocalSearchRangeY", m_IBCLocalSearchRangeY, 128u, "Search range of IBC local search in y direction")
( "IBCHashSearch", m_IBCHashSearch, 1u, "Hash based IBC search")
( "IBCHashSearchMaxCand", m_IBCHashSearchMaxCand, 256u, "Max candidates for hash based IBC search")
( "IBCHashSearchRange4SmallBlk", m_IBCHashSearchRange4SmallBlk, 256u, "Small block search range in based IBC search")
( "IBCFastMethod", m_IBCFastMethod, 6u, "Fast methods for IBC")
("WrapAround", m_wrapAround, false, "Enable horizontal wrap-around motion compensation for inter prediction (0:off, 1:on) [default: off]")
("WrapAroundOffset", m_wrapAroundOffset, 0u, "Offset in luma samples used for computing the horizontal wrap-around position")
Karsten Suehring
committed
// ADD_NEW_TOOL : (encoder app) add parsing parameters here
Sheng-Yen Lin
committed
("LoopFilterAcrossVirtualBoundariesDisabledFlag", m_loopFilterAcrossVirtualBoundariesDisabledFlag, false, "Disable in-loop filtering operations across the virtual boundaries (0:off, 1:on) [default: off]")
("NumVerVirtualBoundaries", m_numVerVirtualBoundaries, 0u, "Number of vertical virtual boundaries (0-3, inclusive)")
("NumHorVirtualBoundaries", m_numHorVirtualBoundaries, 0u, "Number of horizontal virtual boundaries (0-3, inclusive)")
("VirtualBoundariesPosX", cfg_virtualBoundariesPosX, cfg_virtualBoundariesPosX, "Locations of the vertical virtual boundaries in units of luma samples")
("VirtualBoundariesPosY", cfg_virtualBoundariesPosY, cfg_virtualBoundariesPosY, "Locations of the horizontal virtual boundaries in units of luma samples")
("EncDbOpt", m_encDbOpt, false, "Encoder optimization with deblocking filter")
("LMCSEnable", m_lumaReshapeEnable, false, "Enable LMCS (luma mapping with chroma scaling")
("LMCSSignalType", m_reshapeSignalType, 0u, "Input signal type: 0:SDR, 1:HDR-PQ, 2:HDR-HLG")
("LMCSUpdateCtrl", m_updateCtrl, 0, "LMCS model update control: 0:RA, 1:AI, 2:LDB/LDP")
("LMCSAdpOption", m_adpOption, 0, "LMCS adaptation options: 0:automatic(default),"
"1: rsp both (CW66 for QP<=22), 2: rsp TID0 (for all QP),"
"3: rsp inter(CW66 for QP<=22), 4: rsp inter(for all QP).")
("LMCSInitialCW", m_initialCW, 0u, "LMCS initial total codeword (0~1023) when LMCSAdpOption > 0")
#if JVET_P0371_CHROMA_SCALING_OFFSET
("LMCSOffset", m_CSoffset, 0, "LMCS chroma residual scaling offset")
#endif