/////////////////////////////////////////////////////////////////////////////// // Simple x264 Launcher // Copyright (C) 2004-2015 LoRd_MuldeR // // 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" //Internal #include "global.h" #include "model_options.h" #include "model_status.h" #include "mediainfo.h" #include "model_sysinfo.h" //MUtils #include //Qt #include #include #include //x265 version info static const unsigned int VERSION_X265_MINIMUM_VER = 17; static const unsigned int VERSION_X265_MINIMUM_REV = 382; // ------------------------------------------------------------ // 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) // ------------------------------------------------------------ // Encoder Info // ------------------------------------------------------------ class X265EncoderInfo : public AbstractEncoderInfo { public: virtual QFlags getVariants(void) const { QFlags variants; variants |= OptionsModel::EncVariant_8Bit; variants |= OptionsModel::EncVariant_10Bit; variants |= OptionsModel::EncVariant_12Bit; return variants; } virtual QStringList getTunings(void) const { QStringList tunings; tunings << "Grain" << "PSNR" << "SSIM" << "FastDecode" << "ZeroLatency"; return tunings; } virtual QStringList getPresets(void) const { QStringList presets; presets << "ultrafast" << "superfast" << "veryfast" << "faster" << "fast"; presets << "medium" << "slow" << "slower" << "veryslow" << "placebo"; return presets; } virtual QStringList getProfiles(const OptionsModel::EncVariant &variant) const { QStringList profiles; switch(variant) { case OptionsModel::EncVariant_8Bit: profiles << "main" << "main-intra" << "mainstillpicture" << "main444-8" << "main444-intra" << "main444-stillpicture"; break; case OptionsModel::EncVariant_10Bit: profiles << "main10" << "main10-intra" << "main422-10" << "main422-10-intra" << "main444-10" << "main444-10-intra"; break; case OptionsModel::EncVariant_12Bit: profiles << "main12" << "main12-intra" << "main422-12" << "main422-12-intra" << "main444-12" << "main444-12-intra"; break; } return profiles; } virtual QStringList supportedOutputFormats(void) const { QStringList extLst; extLst << "hevc"; return extLst; } virtual bool isRCModeSupported(const OptionsModel::RCMode &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; } } virtual QString getBinaryPath(const SysinfoModel *sysinfo, const OptionsModel::EncArch &encArch, const OptionsModel::EncVariant &encVariant) const { QString arch, variant; switch(encArch) { case OptionsModel::EncArch_x86_32: arch = "x86"; break; case OptionsModel::EncArch_x86_64: arch = "x64"; break; default: MUTILS_THROW("Unknown encoder arch!"); } switch(encVariant) { case OptionsModel::EncVariant_8Bit: variant = "8bit"; break; case OptionsModel::EncVariant_10Bit: variant = "10bit"; break; case OptionsModel::EncVariant_12Bit: variant = "12bit"; break; default: MUTILS_THROW("Unknown encoder arch!"); } return QString("%1/toolset/%2/x265_%3_%2.exe").arg(sysinfo->getAppPath(), arch, variant); } }; 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) { if(options->encType() != OptionsModel::EncType_X265) { MUTILS_THROW("Invalid encoder type!"); } } X265Encoder::~X265Encoder(void) { /*Nothing to do here*/ } QString X265Encoder::getName(void) const { QString arch, variant; switch(m_options->encArch()) { case OptionsModel::EncArch_x86_32: arch = "x86"; break; case OptionsModel::EncArch_x86_64: arch = "x64"; break; default: MUTILS_THROW("Unknown encoder arch!"); } switch(m_options->encVariant()) { case OptionsModel::EncVariant_8Bit: variant = "8-Bit"; break; case OptionsModel::EncVariant_10Bit: variant = "10-Bit"; break; case OptionsModel::EncVariant_12Bit: variant = "12-Bit"; break; default: MUTILS_THROW("Unknown encoder arch!"); } return QString("x265 (H.265/HEVC), %1, %2").arg(arch, variant); } // ------------------------------------------------------------ // Check Version // ------------------------------------------------------------ void X265Encoder::checkVersion_init(QList &patterns, QStringList &cmdLine) { cmdLine << "--version"; 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 &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]; } 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: MUTILS_THROW("Bad rate-control mode !!!"); break; } if((pass == 1) || (pass == 2)) { cmdLine << "--pass" << QString::number(pass); cmdLine << "--stats" << QDir::toNativeSeparators(passLogFile); } const QString preset = m_options->preset().simplified().toLower(); if(!preset.isEmpty()) { if(preset.compare(QString::fromLatin1(OptionsModel::SETTING_UNSPECIFIED), Qt::CaseInsensitive) != 0) { cmdLine << "--preset" << preset; } } const QString tune = m_options->tune().simplified().toLower(); if(!tune.isEmpty()) { if(tune.compare(QString::fromLatin1(OptionsModel::SETTING_UNSPECIFIED), Qt::CaseInsensitive) != 0) { cmdLine << "--tune" << tune; } } const QString profile = m_options->profile().simplified().toLower(); if(!profile.isEmpty()) { if(profile.compare(QString::fromLatin1(OptionsModel::PROFILE_UNRESTRICTED), Qt::CaseInsensitive) != 0) { cmdLine << "--profile" << profile; } } 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) { if(frames < 1) MUTILS_THROW("Frames not set!"); cmdLine << "--frames" << QString::number(frames); cmdLine << "--y4m" << "-"; } else { cmdLine << QDir::toNativeSeparators(m_sourceFile); } } void X265Encoder::runEncodingPass_init(QList &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 &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); } }