Simple-x264-Launcher/src/encoder_x265.cpp

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///////////////////////////////////////////////////////////////////////////////
// Simple x264 Launcher
// Copyright (C) 2004-2014 LoRd_MuldeR <MuldeR2@GMX.de>
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with this program; if not, write to the Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//
// http://www.gnu.org/licenses/gpl-2.0.txt
///////////////////////////////////////////////////////////////////////////////
#include "encoder_x265.h"
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#include "global.h"
#include "model_options.h"
#include "model_status.h"
#include "binaries.h"
#include "mediainfo.h"
#include <QStringList>
#include <QDir>
#include <QRegExp>
//x265 version info
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static const unsigned int VERSION_X265_MINIMUM_VER = 14;
static const unsigned int VERSION_X265_MINIMUM_REV = 424;
// ------------------------------------------------------------
// Helper Macros
// ------------------------------------------------------------
#define X265_UPDATE_PROGRESS(X) do \
{ \
bool ok[2] = { false, false }; \
unsigned int progressInt = (X)->cap(1).toUInt(&ok[0]); \
unsigned int progressFrc = (X)->cap(2).toUInt(&ok[1]); \
setStatus((pass == 2) ? JobStatus_Running_Pass2 : ((pass == 1) ? JobStatus_Running_Pass1 : JobStatus_Running)); \
if(ok[0] && ok[1]) \
{ \
const double progress = (double(progressInt) / 100.0) + (double(progressFrc) / 1000.0); \
if(!qFuzzyCompare(progress, last_progress)) \
{ \
setProgress(floor(progress * 100.0)); \
size_estimate = qFuzzyIsNull(size_estimate) ? estimateSize(m_outputFile, progress) : ((0.667 * size_estimate) + (0.333 * estimateSize(m_outputFile, progress))); \
last_progress = progress; \
} \
} \
setDetails(tr("%1, est. file size %2").arg(line.mid(offset).trimmed(), sizeToString(qRound64(size_estimate)))); \
} \
while(0)
#define REMOVE_CUSTOM_ARG(LIST, ITER, FLAG, PARAM) do \
{ \
if(ITER != LIST.end()) \
{ \
if((*ITER).compare(PARAM, Qt::CaseInsensitive) == 0) \
{ \
log(tr("WARNING: Custom parameter \"" PARAM "\" will be ignored in Pipe'd mode!\n")); \
ITER = LIST.erase(ITER); \
if(ITER != LIST.end()) \
{ \
if(!((*ITER).startsWith("--", Qt::CaseInsensitive))) ITER = LIST.erase(ITER); \
} \
FLAG = true; \
} \
} \
} \
while(0)
static QString MAKE_NAME(const char *baseName, const OptionsModel *options)
{
const QString arch = (options->encArch() == OptionsModel::EncArch_x64) ? "x64" : "x86";
const QString vari = (options->encVariant() == OptionsModel::EncVariant_HiBit ) ? "16-Bit" : "8-Bit";
return QString("%1, %2, %3").arg(QString::fromLatin1(baseName), arch, vari);
}
// ------------------------------------------------------------
// Encoder Info
// ------------------------------------------------------------
class X265EncoderInfo : public AbstractEncoderInfo
{
public:
virtual QString getVariantId(const int &variant) const
{
switch(variant)
{
case OptionsModel::EncVariant_LoBit:
return QString::fromLatin1("8-Bit");
case OptionsModel::EncVariant_HiBit:
return QString::fromLatin1("16-Bit");
default:
return QString::fromLatin1("N/A");
}
}
virtual QStringList getTunings(void) const
{
QStringList tunings;
tunings << "Grain" << "PSNR" << "SSIM" << "FastDecode" << "ZeroLatency";
return tunings;
}
virtual QStringList getProfiles(const int &variant) const
{
return QStringList();
}
virtual QStringList supportedOutputFormats(void) const
{
QStringList extLst;
extLst << "hevc";
return extLst;
}
virtual bool isRCModeSupported(const int rcMode) const
{
switch(rcMode)
{
case OptionsModel::RCMode_CRF:
case OptionsModel::RCMode_CQ:
case OptionsModel::RCMode_2Pass:
case OptionsModel::RCMode_ABR:
return true;
default:
return false;
}
}
virtual bool isInputTypeSupported(const int format) const
{
switch(format)
{
case MediaInfo::FILETYPE_YUV4MPEG2:
return true;
default:
return false;
}
}
};
static const X265EncoderInfo s_x265EncoderInfo;
const AbstractEncoderInfo &X265Encoder::getEncoderInfo(void)
{
return s_x265EncoderInfo;
}
// ------------------------------------------------------------
// Constructor & Destructor
// ------------------------------------------------------------
X265Encoder::X265Encoder(JobObject *jobObject, const OptionsModel *options, const SysinfoModel *const sysinfo, const PreferencesModel *const preferences, JobStatus &jobStatus, volatile bool *abort, volatile bool *pause, QSemaphore *semaphorePause, const QString &sourceFile, const QString &outputFile)
:
AbstractEncoder(jobObject, options, sysinfo, preferences, jobStatus, abort, pause, semaphorePause, sourceFile, outputFile),
m_encoderName(MAKE_NAME("x265 (H.265/HEVC)", m_options)),
m_binaryFile(ENC_BINARY(sysinfo, options))
{
if(options->encType() != OptionsModel::EncType_X265)
{
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THROW("Invalid encoder type!");
}
}
X265Encoder::~X265Encoder(void)
{
/*Nothing to do here*/
}
const QString &X265Encoder::getName(void)
{
return m_encoderName;
}
// ------------------------------------------------------------
// Check Version
// ------------------------------------------------------------
void X265Encoder::checkVersion_init(QList<QRegExp*> &patterns, QStringList &cmdLine)
{
cmdLine << "--version";
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patterns << new QRegExp("\\bHEVC\\s+encoder\\s+version\\s+(\\d)\\.(\\d+)\\+(\\d+)\\b", Qt::CaseInsensitive);
patterns << new QRegExp("\\bHEVC\\s+encoder\\s+version\\s+(\\d)\\.(\\d+)\\b", Qt::CaseInsensitive);
}
void X265Encoder::checkVersion_parseLine(const QString &line, QList<QRegExp*> &patterns, unsigned int &core, unsigned int &build, bool &modified)
{
int offset = -1;
if((offset = patterns[0]->lastIndexIn(line)) >= 0)
{
bool ok[3] = { false, false, false };
unsigned int temp[3];
temp[0] = patterns[0]->cap(1).toUInt(&ok[0]);
temp[1] = patterns[0]->cap(2).toUInt(&ok[1]);
temp[2] = patterns[0]->cap(3).toUInt(&ok[2]);
if(ok[0] && ok[1])
{
core = (10 * temp[0]) + temp[1];
}
if(ok[2]) build = temp[2];
}
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else if((offset = patterns[1]->lastIndexIn(line)) >= 0)
{
bool ok[2] = { false, false };
unsigned int temp[2];
temp[0] = patterns[1]->cap(1).toUInt(&ok[0]);
temp[1] = patterns[1]->cap(2).toUInt(&ok[1]);
if(ok[0] && ok[1])
{
core = (10 * temp[0]) + temp[1];
}
build = 0;
}
if(!line.isEmpty())
{
log(line);
}
}
QString X265Encoder::printVersion(const unsigned int &revision, const bool &modified)
{
unsigned int core, build;
splitRevision(revision, core, build);
return tr("x265 version: %1.%2+%3").arg(QString::number(core / 10), QString::number(core % 10), QString::number(build));
}
bool X265Encoder::isVersionSupported(const unsigned int &revision, const bool &modified)
{
unsigned int core, build;
splitRevision(revision, core, build);
if((core < VERSION_X265_MINIMUM_VER) || ((core == VERSION_X265_MINIMUM_VER) && (build < VERSION_X265_MINIMUM_REV)))
{
log(tr("\nERROR: Your version of x265 is too old! (Minimum required revision is 0.%1+%2)").arg(QString::number(VERSION_X265_MINIMUM_VER), QString::number(VERSION_X265_MINIMUM_REV)));
return false;
}
else if(core > VERSION_X265_MINIMUM_VER)
{
log(tr("\nWARNING: Your version of x265 is newer than the latest tested version, take care!"));
log(tr("This application works best with x265 version %1.%2. Newer versions may work or not.").arg(QString::number(VERSION_X265_MINIMUM_VER / 10), QString::number(VERSION_X265_MINIMUM_VER % 10)));
}
return true;
}
// ------------------------------------------------------------
// Encoding Functions
// ------------------------------------------------------------
void X265Encoder::buildCommandLine(QStringList &cmdLine, const bool &usePipe, const unsigned int &frames, const QString &indexFile, const int &pass, const QString &passLogFile)
{
double crf_int = 0.0, crf_frc = 0.0;
switch(m_options->rcMode())
{
case OptionsModel::RCMode_CQ:
cmdLine << "--qp" << QString::number(qRound(m_options->quantizer()));
break;
case OptionsModel::RCMode_CRF:
crf_frc = modf(m_options->quantizer(), &crf_int);
cmdLine << "--crf" << QString("%1.%2").arg(QString::number(qRound(crf_int)), QString::number(qRound(crf_frc * 10.0)));
break;
case OptionsModel::RCMode_2Pass:
case OptionsModel::RCMode_ABR:
cmdLine << "--bitrate" << QString::number(m_options->bitrate());
break;
default:
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THROW("Bad rate-control mode !!!");
break;
}
if((pass == 1) || (pass == 2))
{
cmdLine << "--pass" << QString::number(pass);
cmdLine << "--stats" << QDir::toNativeSeparators(passLogFile);
}
cmdLine << "--preset" << m_options->preset().toLower();
if(!m_options->tune().simplified().isEmpty())
{
if(m_options->tune().simplified().compare(QString::fromLatin1(OptionsModel::TUNING_UNSPECIFIED), Qt::CaseInsensitive) != 0)
{
cmdLine << "--tune" << m_options->tune().simplified().toLower();
}
}
if(m_options->profile().compare("auto", Qt::CaseInsensitive) != 0)
{
if((m_options->encType() == OptionsModel::EncType_X264) && (m_options->encVariant() == OptionsModel::EncVariant_LoBit))
{
cmdLine << "--profile" << m_options->profile().toLower();
}
}
if(!m_options->customEncParams().isEmpty())
{
QStringList customArgs = splitParams(m_options->customEncParams(), m_sourceFile, m_outputFile);
if(usePipe)
{
QStringList::iterator i = customArgs.begin();
while(i != customArgs.end())
{
bool bModified = false;
REMOVE_CUSTOM_ARG(customArgs, i, bModified, "--fps");
REMOVE_CUSTOM_ARG(customArgs, i, bModified, "--frames");
if(!bModified) i++;
}
}
cmdLine.append(customArgs);
}
cmdLine << "--output" << QDir::toNativeSeparators(m_outputFile);
if(usePipe)
{
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if(frames < 1) THROW("Frames not set!");
cmdLine << "--frames" << QString::number(frames);
cmdLine << "--y4m" << "-";
}
else
{
cmdLine << QDir::toNativeSeparators(m_sourceFile);
}
}
void X265Encoder::runEncodingPass_init(QList<QRegExp*> &patterns)
{
patterns << new QRegExp("\\[(\\d+)\\.(\\d+)%\\].+frames"); //regExpProgress
patterns << new QRegExp("indexing.+\\[(\\d+)\\.(\\d+)%\\]"); //regExpIndexing
patterns << new QRegExp("^(\\d+) frames:"); //regExpFrameCnt
patterns << new QRegExp("\\[\\s*(\\d+)\\.(\\d+)%\\]\\s+(\\d+)/(\\d+)\\s(\\d+).(\\d+)\\s(\\d+).(\\d+)\\s+(\\d+):(\\d+):(\\d+)\\s+(\\d+):(\\d+):(\\d+)"); //regExpModified
}
void X265Encoder::runEncodingPass_parseLine(const QString &line, QList<QRegExp*> &patterns, const int &pass, double &last_progress, double &size_estimate)
{
int offset = -1;
if((offset = patterns[0]->lastIndexIn(line)) >= 0)
{
X265_UPDATE_PROGRESS(patterns[0]);
}
else if((offset = patterns[1]->lastIndexIn(line)) >= 0)
{
bool ok = false;
unsigned int progress = patterns[1]->cap(1).toUInt(&ok);
setStatus(JobStatus_Indexing);
if(ok)
{
setProgress(progress);
}
setDetails(line.mid(offset).trimmed());
}
else if((offset = patterns[2]->lastIndexIn(line)) >= 0)
{
setStatus((pass == 2) ? JobStatus_Running_Pass2 : ((pass == 1) ? JobStatus_Running_Pass1 : JobStatus_Running));
setDetails(line.mid(offset).trimmed());
}
else if((offset = patterns[3]->lastIndexIn(line)) >= 0)
{
X265_UPDATE_PROGRESS(patterns[3]);
}
else if(!line.isEmpty())
{
log(line);
}
}