/////////////////////////////////////////////////////////////////////////////// // Simple x264 Launcher // Copyright (C) 2004-2012 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 "thread_encode.h" #include "global.h" #include "model_options.h" #include "version.h" #include #include #include #include #include #include #include #include /* * Win32 API definitions */ typedef HANDLE (WINAPI *CreateJobObjectFun)(__in_opt LPSECURITY_ATTRIBUTES lpJobAttributes, __in_opt LPCSTR lpName); typedef BOOL (WINAPI *SetInformationJobObjectFun)(__in HANDLE hJob, __in JOBOBJECTINFOCLASS JobObjectInformationClass, __in_bcount(cbJobObjectInformationLength) LPVOID lpJobObjectInformation, __in DWORD cbJobObjectInformationLength); typedef BOOL (WINAPI *AssignProcessToJobObjectFun)(__in HANDLE hJob, __in HANDLE hProcess); /* * Static vars */ QMutex EncodeThread::m_mutex_startProcess; /* * Macros */ #define CHECK_STATUS(ABORT_FLAG, OK_FLAG) \ { \ if(ABORT_FLAG) \ { \ log("\nPROCESS ABORTED BY USER !!!"); \ setStatus(JobStatus_Aborted); \ return; \ } \ else if(!(OK_FLAG)) \ { \ setStatus(JobStatus_Failed); \ return; \ } \ } /* * Static vars */ static const unsigned int REV_MULT = 10000; /////////////////////////////////////////////////////////////////////////////// // Constructor & Destructor /////////////////////////////////////////////////////////////////////////////// EncodeThread::EncodeThread(const QString &sourceFileName, const QString &outputFileName, const OptionsModel *options, const QString &binDir, bool x64) : m_jobId(QUuid::createUuid()), m_sourceFileName(sourceFileName), m_outputFileName(outputFileName), m_options(new OptionsModel(*options)), m_binDir(binDir), m_x64(x64), m_handle_jobObject(NULL) { m_abort = false; } EncodeThread::~EncodeThread(void) { X264_DELETE(m_options); if(m_handle_jobObject) { CloseHandle(m_handle_jobObject); m_handle_jobObject = NULL; } } /////////////////////////////////////////////////////////////////////////////// // Thread entry point /////////////////////////////////////////////////////////////////////////////// void EncodeThread::run(void) { m_progress = 0; m_status = JobStatus_Starting; try { encode(); } catch(char *msg) { log(tr("EXCEPTION ERROR: ").append(QString::fromLatin1(msg))); } catch(...) { log(tr("EXCEPTION ERROR !!!")); } if(m_handle_jobObject) { CloseHandle(m_handle_jobObject); m_handle_jobObject = NULL; } } /////////////////////////////////////////////////////////////////////////////// // Encode functions /////////////////////////////////////////////////////////////////////////////// void EncodeThread::encode(void) { QDateTime startTime = QDateTime::currentDateTime(); //Print some basic info log(tr("Job started at %1, %2.\n").arg(QDate::currentDate().toString(Qt::ISODate), QTime::currentTime().toString( Qt::ISODate))); log(tr("Source file: %1").arg(m_sourceFileName)); log(tr("Output file: %1").arg(m_outputFileName)); //Print encoder settings log(tr("\n--- SETTINGS ---\n")); log(tr("RC Mode: %1").arg(OptionsModel::rcMode2String(m_options->rcMode()))); log(tr("Preset: %1").arg(m_options->preset())); log(tr("Tuning: %1").arg(m_options->tune())); log(tr("Profile: %1").arg(m_options->profile())); log(tr("Custom: %1").arg(m_options->custom().isEmpty() ? tr("(None)") : m_options->custom())); bool ok = false; unsigned int frames = 0; //Use Avisynth? const bool usePipe = (QFileInfo(m_sourceFileName).suffix().compare("avs", Qt::CaseInsensitive) == 0); //Checking x264 version log(tr("\n--- CHECK VERSION ---\n")); unsigned int revision_x264 = UINT_MAX; ok = ((revision_x264 = checkVersionX264(m_x64)) != UINT_MAX); CHECK_STATUS(m_abort, ok); //Checking avs2yuv version unsigned int revision_avs2yuv = UINT_MAX; if(usePipe) { ok = ((revision_avs2yuv = checkVersionAvs2yuv()) != UINT_MAX); CHECK_STATUS(m_abort, ok); } //Print versions log(tr("\nx264 revision: %1 (core #%2)").arg(QString::number(revision_x264 % REV_MULT), QString::number(revision_x264 / REV_MULT))); if(revision_avs2yuv != UINT_MAX) log(tr("Avs2YUV version: %1.%2.%3").arg(QString::number(revision_avs2yuv / REV_MULT), QString::number((revision_avs2yuv % REV_MULT) / 10),QString::number((revision_avs2yuv % REV_MULT) % 10))); //Is x264 revision supported? if((revision_x264 % REV_MULT) < VER_X264_MINIMUM_REV) { log(tr("\nERROR: Your revision of x264 is too old! (Minimum required revision is %2)").arg(QString::number(VER_X264_MINIMUM_REV))); setStatus(JobStatus_Failed); return; } if((revision_x264 / REV_MULT) != VER_X264_CURRENT_API) { log(tr("\nWARNING: Your revision of x264 uses an unsupported core (API) version, take care!")); log(tr("This application works best with x264 core (API) version %2.").arg(QString::number(VER_X264_CURRENT_API))); } if((revision_avs2yuv != UINT_MAX) && ((revision_avs2yuv % REV_MULT) != 242)) { log(tr("\nERROR: Your version of avs2yuv is unsupported (Required version is v0.24bm2)")); setStatus(JobStatus_Failed); return; } //Detect source info if(usePipe) { log(tr("\n--- AVS INFO ---\n")); ok = checkProperties(frames); CHECK_STATUS(m_abort, ok); } //Run encoding passes if(m_options->rcMode() == OptionsModel::RCMode_2Pass) { QFileInfo info(m_outputFileName); QString passLogFile = QString("%1/%2.stats").arg(info.path(), info.completeBaseName()); if(QFileInfo(passLogFile).exists()) { int n = 2; while(QFileInfo(passLogFile).exists()) { passLogFile = QString("%1/%2.%3.stats").arg(info.path(), info.completeBaseName(), QString::number(n++)); } } log(tr("\n--- PASS 1 ---\n")); ok = runEncodingPass(m_x64, usePipe, frames, 1, passLogFile); CHECK_STATUS(m_abort, ok); log(tr("\n--- PASS 2 ---\n")); ok = runEncodingPass(m_x64, usePipe, frames, 2, passLogFile); CHECK_STATUS(m_abort, ok); } else { log(tr("\n--- ENCODING ---\n")); ok = runEncodingPass(m_x64, usePipe, frames); CHECK_STATUS(m_abort, ok); } log(tr("\n--- DONE ---\n")); int timePassed = startTime.secsTo(QDateTime::currentDateTime()); log(tr("Job finished at %1, %2. Process took %3 minutes, %4 seconds.").arg(QDate::currentDate().toString(Qt::ISODate), QTime::currentTime().toString( Qt::ISODate), QString::number(timePassed / 60), QString::number(timePassed % 60))); setStatus(JobStatus_Completed); } bool EncodeThread::runEncodingPass(bool x64, bool usePipe, unsigned int frames, int pass, const QString &passLogFile) { QProcess processEncode, processAvisynth; if(usePipe) { QStringList cmdLine_Avisynth; cmdLine_Avisynth << QDir::toNativeSeparators(m_sourceFileName); cmdLine_Avisynth << "-"; processAvisynth.setStandardOutputProcess(&processEncode); log("Creating Avisynth process:"); if(!startProcess(processAvisynth, QString("%1/avs2yuv.exe").arg(m_binDir), cmdLine_Avisynth, false)) { return false; } } QStringList cmdLine_Encode = buildCommandLine(usePipe, frames, pass, passLogFile); log("Creating x264 process:"); if(!startProcess(processEncode, QString("%1/%2.exe").arg(m_binDir, x64 ? "x264_x64" : "x264"), cmdLine_Encode)) { return false; } QRegExp regExpIndexing("indexing.+\\[(\\d+)\\.\\d+%\\]"); QRegExp regExpProgress("\\[(\\d+)\\.\\d+%\\].+frames"); QRegExp regExpFrameCnt("^(\\d+) frames:"); bool bTimeout = false; bool bAborted = false; while(processEncode.state() != QProcess::NotRunning) { if(m_abort) { processEncode.kill(); processAvisynth.kill(); bAborted = true; break; } if(!processEncode.waitForReadyRead(m_processTimeoutInterval)) { if(processEncode.state() == QProcess::Running) { processEncode.kill(); qWarning("x264 process timed out <-- killing!"); log("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } } while(processEncode.bytesAvailable() > 0) { QList lines = processEncode.readLine().split('\r'); while(!lines.isEmpty()) { QString text = QString::fromUtf8(lines.takeFirst().constData()).simplified(); int offset = -1; if((offset = regExpProgress.lastIndexIn(text)) >= 0) { bool ok = false; unsigned int progress = regExpProgress.cap(1).toUInt(&ok); setStatus((pass == 2) ? JobStatus_Running_Pass2 : ((pass == 1) ? JobStatus_Running_Pass1 : JobStatus_Running)); setDetails(text.mid(offset).trimmed()); if(ok) setProgress(progress); } else if((offset = regExpIndexing.lastIndexIn(text)) >= 0) { bool ok = false; unsigned int progress = regExpIndexing.cap(1).toUInt(&ok); setStatus(JobStatus_Indexing); setDetails(text.mid(offset).trimmed()); if(ok) setProgress(progress); } else if((offset = regExpFrameCnt.lastIndexIn(text)) >= 0) { setStatus((pass == 2) ? JobStatus_Running_Pass2 : ((pass == 1) ? JobStatus_Running_Pass1 : JobStatus_Running)); setDetails(text.mid(offset).trimmed()); } else if(!text.isEmpty()) { log(text); } } } } processEncode.waitForFinished(5000); if(processEncode.state() != QProcess::NotRunning) { qWarning("x264 process still running, going to kill it!"); processEncode.kill(); processEncode.waitForFinished(-1); } processAvisynth.waitForFinished(5000); if(processAvisynth.state() != QProcess::NotRunning) { qWarning("Avisynth process still running, going to kill it!"); processAvisynth.kill(); processAvisynth.waitForFinished(-1); } while(processAvisynth.bytesAvailable() > 0) { log(tr("av2y [info]: %1").arg(QString::fromUtf8(processAvisynth.readLine()).simplified())); } if(usePipe && (processAvisynth.exitCode() != EXIT_SUCCESS)) { if(!(bTimeout || bAborted)) { log(tr("\nWARNING: Avisynth process exited with error code: %1").arg(QString::number(processAvisynth.exitCode()))); } } if(bTimeout || bAborted || processEncode.exitCode() != EXIT_SUCCESS) { if(!(bTimeout || bAborted)) { log(tr("\nPROCESS EXITED WITH ERROR CODE: %1").arg(QString::number(processEncode.exitCode()))); } processEncode.close(); processAvisynth.close(); return false; } 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.")); break; default: setStatus(JobStatus_Running); setDetails(tr("Encode completed successfully.")); break; } setProgress(100); processEncode.close(); processAvisynth.close(); return true; } QStringList EncodeThread::buildCommandLine(bool usePipe, unsigned int frames, int pass, const QString &passLogFile) { QStringList cmdLine; switch(m_options->rcMode()) { case OptionsModel::RCMode_CRF: cmdLine << "--crf" << QString::number(m_options->quantizer()); break; case OptionsModel::RCMode_CQ: cmdLine << "--qp" << QString::number(m_options->quantizer()); break; case OptionsModel::RCMode_2Pass: case OptionsModel::RCMode_ABR: cmdLine << "--bitrate" << QString::number(m_options->bitrate()); break; default: throw "Bad rate-control mode !!!"; break; } if((pass == 1) || (pass == 2)) { cmdLine << "--pass" << QString::number(pass); cmdLine << "--stats" << QDir::toNativeSeparators(passLogFile); } if(m_options->tune().compare("none", Qt::CaseInsensitive)) { cmdLine << "--tune" << m_options->tune().toLower(); } cmdLine << "--preset" << m_options->preset().toLower(); if(!m_options->custom().isEmpty()) { //FIXME: Handle custom parameters that contain spaces! cmdLine.append(m_options->custom().split(" ")); } cmdLine << "--output" << QDir::toNativeSeparators(m_outputFileName); if(usePipe) { if(frames < 1) throw "Frames not set!"; cmdLine << "--frames" << QString::number(frames); cmdLine << "--demuxer" << "y4m"; cmdLine << "--stdin" << "y4m" << "-"; } else { cmdLine << QDir::toNativeSeparators(m_sourceFileName); } return cmdLine; } unsigned int EncodeThread::checkVersionX264(bool x64) { QProcess process; QStringList cmdLine = QStringList() << "--version"; log("Creating process:"); if(!startProcess(process, QString("%1/%2.exe").arg(m_binDir, x64 ? "x264_x64" : "x264"), cmdLine)) { return false;; } QRegExp regExpVersion("x264 (\\d)\\.(\\d+)\\.(\\d+) ([0-9A-Fa-f]{7})"); bool bTimeout = false; bool bAborted = false; unsigned int revision = UINT_MAX; unsigned int coreVers = UINT_MAX; while(process.state() != QProcess::NotRunning) { if(m_abort) { process.kill(); bAborted = true; break; } if(!process.waitForReadyRead(m_processTimeoutInterval)) { if(process.state() == QProcess::Running) { process.kill(); qWarning("x264 process timed out <-- killing!"); log("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } } while(process.bytesAvailable() > 0) { QList lines = process.readLine().split('\r'); while(!lines.isEmpty()) { QString text = QString::fromUtf8(lines.takeFirst().constData()).simplified(); int offset = -1; if((offset = regExpVersion.lastIndexIn(text)) >= 0) { bool ok1 = false, ok2 = false; unsigned int temp1 = regExpVersion.cap(2).toUInt(&ok1); unsigned int temp2 = regExpVersion.cap(3).toUInt(&ok2); if(ok1) coreVers = temp1; if(ok2) revision = temp2; } if(!text.isEmpty()) { log(text); } } } } process.waitForFinished(); if(process.state() != QProcess::NotRunning) { process.kill(); process.waitForFinished(-1); } if(bTimeout || bAborted || process.exitCode() != EXIT_SUCCESS) { if(!(bTimeout || bAborted)) { log(tr("\nPROCESS EXITED WITH ERROR CODE: %1").arg(QString::number(process.exitCode()))); } return UINT_MAX; } if((revision == UINT_MAX) || (coreVers == UINT_MAX)) { log(tr("\nFAILED TO DETERMINE X264 VERSION !!!")); return UINT_MAX; } return (coreVers * REV_MULT) + (revision % REV_MULT); } unsigned int EncodeThread::checkVersionAvs2yuv(void) { QProcess process; log("\nCreating process:"); if(!startProcess(process, QString("%1/avs2yuv.exe").arg(m_binDir), QStringList())) { return false;; } QRegExp regExpVersion("Avs2YUV (\\d+).(\\d+)bm(\\d)"); bool bTimeout = false; bool bAborted = false; unsigned int ver_maj = UINT_MAX; unsigned int ver_min = UINT_MAX; unsigned int ver_bld = UINT_MAX; while(process.state() != QProcess::NotRunning) { if(m_abort) { process.kill(); bAborted = true; break; } if(!process.waitForReadyRead(m_processTimeoutInterval)) { if(process.state() == QProcess::Running) { process.kill(); qWarning("Avs2YUV process timed out <-- killing!"); log("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } } while(process.bytesAvailable() > 0) { QList lines = process.readLine().split('\r'); while(!lines.isEmpty()) { QString text = QString::fromUtf8(lines.takeFirst().constData()).simplified(); int offset = -1; if((ver_maj == UINT_MAX) || (ver_min == UINT_MAX) || (ver_bld == UINT_MAX)) { if(!text.isEmpty()) { log(text); } } if((offset = regExpVersion.lastIndexIn(text)) >= 0) { bool ok1 = false, ok2 = false, ok3 = false; unsigned int temp1 = regExpVersion.cap(1).toUInt(&ok1); unsigned int temp2 = regExpVersion.cap(2).toUInt(&ok2); unsigned int temp3 = regExpVersion.cap(3).toUInt(&ok3); if(ok1) ver_maj = temp1; if(ok2) ver_min = temp2; if(ok3) ver_bld = temp3; } } } } process.waitForFinished(); if(process.state() != QProcess::NotRunning) { process.kill(); process.waitForFinished(-1); } if(bTimeout || bAborted || ((process.exitCode() != EXIT_SUCCESS) && (process.exitCode() != 2))) { if(!(bTimeout || bAborted)) { log(tr("\nPROCESS EXITED WITH ERROR CODE: %1").arg(QString::number(process.exitCode()))); } return UINT_MAX; } if((ver_maj == UINT_MAX) || (ver_min == UINT_MAX) || (ver_bld == UINT_MAX)) { log(tr("\nFAILED TO DETERMINE AVS2YUV VERSION !!!")); return UINT_MAX; } return (ver_maj * REV_MULT) + ((ver_min % REV_MULT) * 10) + (ver_bld % 10); } bool EncodeThread::checkProperties(unsigned int &frames) { QProcess process; QStringList cmdLine = QStringList() << "-frames" << "1"; cmdLine << QDir::toNativeSeparators(m_sourceFileName) << "NUL"; log("Creating process:"); if(!startProcess(process, QString("%1/avs2yuv.exe").arg(m_binDir), cmdLine)) { return false;; } QRegExp regExpInt(": (\\d+)x(\\d+), (\\d+) fps, (\\d+) frames"); QRegExp regExpFrc(": (\\d+)x(\\d+), (\\d+)/(\\d+) fps, (\\d+) frames"); bool bTimeout = false; bool bAborted = false; frames = 0; unsigned int fpsNom = 0; unsigned int fpsDen = 0; unsigned int fSizeW = 0; unsigned int fSizeH = 0; while(process.state() != QProcess::NotRunning) { if(m_abort) { process.kill(); bAborted = true; break; } if(!process.waitForReadyRead(m_processTimeoutInterval)) { if(process.state() == QProcess::Running) { process.kill(); qWarning("x264 process timed out <-- killing!"); log("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } } while(process.bytesAvailable() > 0) { QList lines = process.readLine().split('\r'); while(!lines.isEmpty()) { QString text = QString::fromUtf8(lines.takeFirst().constData()).simplified(); int offset = -1; if((offset = regExpInt.lastIndexIn(text)) >= 0) { bool ok1 = false, ok2 = false; bool ok3 = false, ok4 = false; unsigned int temp1 = regExpInt.cap(1).toUInt(&ok1); unsigned int temp2 = regExpInt.cap(2).toUInt(&ok2); unsigned int temp3 = regExpInt.cap(3).toUInt(&ok3); unsigned int temp4 = regExpInt.cap(4).toUInt(&ok4); if(ok1) fSizeW = temp1; if(ok2) fSizeH = temp2; if(ok3) fpsNom = temp3; if(ok4) frames = temp4; } else if((offset = regExpFrc.lastIndexIn(text)) >= 0) { bool ok1 = false, ok2 = false; bool ok3 = false, ok4 = false, ok5 = false; unsigned int temp1 = regExpFrc.cap(1).toUInt(&ok1); unsigned int temp2 = regExpFrc.cap(2).toUInt(&ok2); unsigned int temp3 = regExpFrc.cap(3).toUInt(&ok3); unsigned int temp4 = regExpFrc.cap(4).toUInt(&ok4); unsigned int temp5 = regExpFrc.cap(5).toUInt(&ok5); if(ok1) fSizeW = temp1; if(ok2) fSizeH = temp2; if(ok3) fpsNom = temp3; if(ok4) fpsDen = temp4; if(ok5) frames = temp5; } if(!text.isEmpty()) { log(text); } } } } process.waitForFinished(); if(process.state() != QProcess::NotRunning) { process.kill(); process.waitForFinished(-1); } if(bTimeout || bAborted || process.exitCode() != EXIT_SUCCESS) { if(!(bTimeout || bAborted)) { log(tr("\nPROCESS EXITED WITH ERROR CODE: %1").arg(QString::number(process.exitCode()))); } return false; } if(frames == 0) { log(tr("\nFAILED TO DETERMINE AVS PROPERTIES !!!")); return false; } log(""); if((fSizeW > 0) && (fSizeH > 0)) { log(tr("Resolution: %1x%2").arg(QString::number(fSizeW), QString::number(fSizeH))); } if((fpsNom > 0) && (fpsDen > 0)) { log(tr("Frame Rate: %1/%2").arg(QString::number(fpsNom), QString::number(fpsDen))); } if((fpsNom > 0) && (fpsDen == 0)) { log(tr("Frame Rate: %1").arg(QString::number(fpsNom))); } if(frames > 0) { log(tr("No. Frames: %1").arg(QString::number(frames))); } return true; } /////////////////////////////////////////////////////////////////////////////// // Misc functions /////////////////////////////////////////////////////////////////////////////// void EncodeThread::setStatus(JobStatus newStatus) { if(m_status != newStatus) { m_status = newStatus; if((newStatus != JobStatus_Completed) && (newStatus != JobStatus_Failed) && (newStatus != JobStatus_Aborted)) { setProgress(0); } if(newStatus == JobStatus_Failed) { setDetails("The job has failed. See log for details!"); } if(newStatus == JobStatus_Aborted) { setDetails("The job was aborted by the user!"); } emit statusChanged(m_jobId, newStatus); } } void EncodeThread::setProgress(unsigned int newProgress) { if(m_progress != newProgress) { m_progress = newProgress; emit progressChanged(m_jobId, m_progress); } } void EncodeThread::setDetails(const QString &text) { emit detailsChanged(m_jobId, text); } bool EncodeThread::startProcess(QProcess &process, const QString &program, const QStringList &args, bool mergeChannels) { static AssignProcessToJobObjectFun AssignProcessToJobObjectPtr = NULL; static CreateJobObjectFun CreateJobObjectPtr = NULL; static SetInformationJobObjectFun SetInformationJobObjectPtr = NULL; QMutexLocker lock(&m_mutex_startProcess); log(commandline2string(program, args) + "\n"); //Create a new job object, if not done yet if(!m_handle_jobObject) { if(!CreateJobObjectPtr || !SetInformationJobObjectPtr) { QLibrary Kernel32Lib("kernel32.dll"); CreateJobObjectPtr = (CreateJobObjectFun) Kernel32Lib.resolve("CreateJobObjectA"); SetInformationJobObjectPtr = (SetInformationJobObjectFun) Kernel32Lib.resolve("SetInformationJobObject"); } if(CreateJobObjectPtr && SetInformationJobObjectPtr) { m_handle_jobObject = CreateJobObjectPtr(NULL, NULL); if(m_handle_jobObject == INVALID_HANDLE_VALUE) { m_handle_jobObject = NULL; } if(m_handle_jobObject) { JOBOBJECT_EXTENDED_LIMIT_INFORMATION jobExtendedLimitInfo; memset(&jobExtendedLimitInfo, 0, sizeof(JOBOBJECT_EXTENDED_LIMIT_INFORMATION)); jobExtendedLimitInfo.BasicLimitInformation.LimitFlags = JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE | JOB_OBJECT_LIMIT_DIE_ON_UNHANDLED_EXCEPTION; SetInformationJobObjectPtr(m_handle_jobObject, JobObjectExtendedLimitInformation, &jobExtendedLimitInfo, sizeof(JOBOBJECT_EXTENDED_LIMIT_INFORMATION)); } } } //Initialize AssignProcessToJobObject function if(!AssignProcessToJobObjectPtr) { QLibrary Kernel32Lib("kernel32.dll"); AssignProcessToJobObjectPtr = (AssignProcessToJobObjectFun) Kernel32Lib.resolve("AssignProcessToJobObject"); } if(mergeChannels) { process.setProcessChannelMode(QProcess::MergedChannels); process.setReadChannel(QProcess::StandardOutput); } else { process.setProcessChannelMode(QProcess::SeparateChannels); process.setReadChannel(QProcess::StandardError); } process.start(program, args); if(process.waitForStarted()) { if(AssignProcessToJobObjectPtr) { AssignProcessToJobObjectPtr(m_handle_jobObject, process.pid()->hProcess); } if(!SetPriorityClass(process.pid()->hProcess, BELOW_NORMAL_PRIORITY_CLASS)) { SetPriorityClass(process.pid()->hProcess, IDLE_PRIORITY_CLASS); } lock.unlock(); return true; } log("Process creation has failed :-("); QString errorMsg= process.errorString().trimmed(); if(!errorMsg.isEmpty()) log(errorMsg); process.kill(); process.waitForFinished(-1); return false; } QString EncodeThread::commandline2string(const QString &program, const QStringList &arguments) { QString commandline = (program.contains(' ') ? QString("\"%1\"").arg(program) : program); for(int i = 0; i < arguments.count(); i++) { commandline += (arguments.at(i).contains(' ') ? QString(" \"%1\"").arg(arguments.at(i)) : QString(" %1").arg(arguments.at(i))); } return commandline; }