/////////////////////////////////////////////////////////////////////////////// // Simple x264 Launcher // Copyright (C) 2004-2023 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_abstract.h" //Internal #include "global.h" #include "model_options.h" #include "model_preferences.h" #include "model_sysinfo.h" #include "model_status.h" #include "source_abstract.h" //MUtils #include #include #include //Qt #include #include #include #include #include #include #include #include // ------------------------------------------------------------ // Constructor & Destructor // ------------------------------------------------------------ AbstractEncoder::AbstractEncoder(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) : AbstractTool(jobObject, options, sysinfo, preferences, jobStatus, abort, pause, semaphorePause), m_sourceFile(sourceFile), m_outputFile(outputFile), m_indexFile(QString("%1/~%2.ffindex").arg(QDir::tempPath(), stringToHash(m_sourceFile))) { /*Nothing to do here*/ } AbstractEncoder::~AbstractEncoder(void) { /*Nothing to do here*/ } // ------------------------------------------------------------ // Encoding Functions // ------------------------------------------------------------ bool AbstractEncoder::runEncodingPass(AbstractSource* pipedSource, const QString outputFile, const ClipInfo &clipInfo, const int &pass, const QString &passLogFile) { QProcess processEncode, processInput; if(pipedSource) { pipedSource->createProcess(processEncode, processInput); } QStringList cmdLine_Encode; buildCommandLine(cmdLine_Encode, (pipedSource != NULL), clipInfo, m_indexFile, pass, passLogFile); log("Creating encoder process:"); if(!startProcess(processEncode, getBinaryPath(), cmdLine_Encode, true, &getExtraPaths(), &getExtraEnv())) { return false; } QList patterns; runEncodingPass_init(patterns); double last_progress = 0.0; double size_estimate = 0.0; bool bTimeout = false; bool bAborted = false; //Main processing loop while(processEncode.state() != QProcess::NotRunning) { unsigned int waitCounter = 0; //Wait until new output is available forever { if(*m_abort) { processEncode.kill(); processInput.kill(); bAborted = true; break; } if((*m_pause) && (processEncode.state() == QProcess::Running)) { JobStatus previousStatus = m_jobStatus; setStatus(JobStatus_Paused); log(tr("Job paused by user at %1, %2.").arg(QDate::currentDate().toString(Qt::ISODate), QTime::currentTime().toString( Qt::ISODate))); bool ok[2] = {false, false}; QProcess *proc[2] = { &processEncode, &processInput }; ok[0] = MUtils::OS::suspend_process(proc[0], true); ok[1] = MUtils::OS::suspend_process(proc[1], true); while(*m_pause) m_semaphorePause->tryAcquire(1, 5000); while(m_semaphorePause->tryAcquire(1, 0)); ok[0] = MUtils::OS::suspend_process(proc[0], false); ok[1] = MUtils::OS::suspend_process(proc[1], false); if(!(*m_abort)) setStatus(previousStatus); log(tr("Job resumed by user at %1, %2.").arg(QDate::currentDate().toString(Qt::ISODate), QTime::currentTime().toString( Qt::ISODate))); waitCounter = 0; continue; } if(!processEncode.waitForReadyRead(m_processTimeoutInterval)) { if(processEncode.state() == QProcess::Running) { if(++waitCounter > m_processTimeoutMaxCounter) { if(m_preferences->getAbortOnTimeout()) { processEncode.kill(); qWarning("encoder process timed out <-- killing!"); log("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } } else if(waitCounter == m_processTimeoutWarning) { unsigned int timeOut = (waitCounter * m_processTimeoutInterval) / 1000U; log(tr("Warning: encoder did not respond for %1 seconds, potential deadlock...").arg(QString::number(timeOut))); } continue; } } if((*m_abort) || ((*m_pause) && (processEncode.state() == QProcess::Running))) { continue; } break; } //Exit main processing loop now? if(bAborted || bTimeout) { break; } //Process all output PROCESS_PENDING_LINES(processEncode, runEncodingPass_parseLine, patterns, clipInfo, pass, last_progress, size_estimate); } if(!(bTimeout || bAborted)) { PROCESS_PENDING_LINES(processEncode, runEncodingPass_parseLine, patterns, clipInfo, pass, last_progress, size_estimate); } processEncode.waitForFinished(5000); if(processEncode.state() != QProcess::NotRunning) { qWarning("Encoder process still running, going to kill it!"); processEncode.kill(); processEncode.waitForFinished(-1); } if(pipedSource) { processInput.waitForFinished(5000); if(processInput.state() != QProcess::NotRunning) { qWarning("Input process still running, going to kill it!"); processInput.kill(); processInput.waitForFinished(-1); } if(!(bTimeout || bAborted)) { pipedSource->flushProcess(processInput); } } while(!patterns.isEmpty()) { QRegExp *pattern = patterns.takeFirst(); MUTILS_DELETE(pattern); } if(bTimeout || bAborted || processEncode.exitCode() != EXIT_SUCCESS) { if(!(bTimeout || bAborted)) { const int exitCode = processEncode.exitCode(); if((exitCode < -1) || (exitCode >= 32)) { log(tr("\nFATAL ERROR: The encoder process has *crashed* -> your encode probably is *incomplete* !!!")); log(tr("Note that this indicates a bug in the current encoder, *not* in Simple x264/x265 Launcher.")); } log(tr("\nPROCESS EXITED WITH ERROR CODE: %1").arg(QString::number(exitCode))); } processEncode.close(); processInput.close(); return false; } QThread::yieldCurrentThread(); QFileInfo completedFileInfo(m_outputFile); const qint64 finalSize = (completedFileInfo.exists() && completedFileInfo.isFile()) ? completedFileInfo.size() : 0; log(tr("Final file size is %1 bytes.").arg(sizeToString(finalSize))); switch(pass) { case 1: setStatus(JobStatus_Running_Pass1); setDetails(tr("First pass completed. Preparing for second pass...")); break; case 2: setStatus(JobStatus_Running_Pass2); setDetails(tr("Second pass completed successfully. Final size is %1.").arg(sizeToString(finalSize))); break; default: setStatus(JobStatus_Running); setDetails(tr("Encode completed successfully. Final size is %1.").arg(sizeToString(finalSize))); break; } setProgress(100); processEncode.close(); processInput.close(); return true; } // ------------------------------------------------------------ // Utilities // ------------------------------------------------------------ double AbstractEncoder::estimateSize(const QString &fileName, const double &progress) { double estimatedSize = 0.0; if(progress >= 0.03) { QFileInfo fileInfo(fileName); if(fileInfo.exists() && fileInfo.isFile()) { const qint64 currentSize = QFileInfo(fileName).size(); estimatedSize = static_cast(currentSize) * (1.0 / qBound(0.0, progress, 1.0)); } } return estimatedSize; } QString AbstractEncoder::sizeToString(qint64 size) { static char *prefix[5] = {"Byte", "KB", "MB", "GB", "TB"}; if(size > 1024I64) { qint64 estimatedSize = size; qint64 remainderSize = 0I64; int prefixIdx = 0; while((estimatedSize > 1024I64) && (prefixIdx < 4)) { remainderSize = estimatedSize % 1024I64; estimatedSize = estimatedSize / 1024I64; prefixIdx++; } double value = static_cast(estimatedSize) + (static_cast(remainderSize) / 1024.0); return QString().sprintf((value < 10.0) ? "%.2f %s" : "%.1f %s", value, prefix[prefixIdx]); } return tr("N/A"); } // ------------------------------------------------------------ // Encoder Info // ------------------------------------------------------------ template static T getElementAt(const QList &list, const quint32 &index) { if (index >= quint32(list.count())) { MUTILS_THROW("Index is out of bounds!"); } return list[index]; } QStringList AbstractEncoderInfo::getDependencies(const SysinfoModel *sysinfo, const quint32 &encArch, const quint32 &encVariant) const { return QStringList(); } QString AbstractEncoderInfo::getFullName(const quint32 &encArch, const quint32 &encVariant) const { return QString("%1, %2, %3").arg(getName(), archToString(encArch), variantToString(encVariant)); } QString AbstractEncoderInfo::archToString(const quint32 &index) const { return getElementAt(getArchitectures(), index).first; } AbstractEncoderInfo::ArchBit AbstractEncoderInfo::archToType(const quint32 &index) const { return getElementAt(getArchitectures(), index).second; } QString AbstractEncoderInfo::variantToString(const quint32 &index) const { return getElementAt(getVariants(), index); } QString AbstractEncoderInfo::rcModeToString(const quint32 &index) const { return getElementAt(getRCModes(), index).first; } AbstractEncoderInfo::RCType AbstractEncoderInfo::rcModeToType(const quint32 &index) const { return getElementAt(getRCModes(), index).second; }