/////////////////////////////////////////////////////////////////////////////// // LameXP - Audio Encoder Front-End // 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_Process.h" #include "Global.h" #include "Model_AudioFile.h" #include "Model_Progress.h" #include "Encoder_Abstract.h" #include "Decoder_Abstract.h" #include "Filter_Abstract.h" #include "Filter_Downmix.h" #include "Filter_Resample.h" #include "Tool_WaveProperties.h" #include "Registry_Decoder.h" #include "Model_Settings.h" #include #include #include #include #include #include #include #include #include #define DIFF(X,Y) ((X > Y) ? (X-Y) : (Y-X)) #define IS_WAVE(X) ((X.formatContainerType().compare("Wave", Qt::CaseInsensitive) == 0) && (X.formatAudioType().compare("PCM", Qt::CaseInsensitive) == 0)) #define STRDEF(STR,DEF) ((!STR.isEmpty()) ? STR : DEF) QMutex *ProcessThread::m_mutex_genFileName = NULL; //////////////////////////////////////////////////////////// // Constructor //////////////////////////////////////////////////////////// ProcessThread::ProcessThread(const AudioFileModel &audioFile, const QString &outputDirectory, const QString &tempDirectory, AbstractEncoder *encoder, const bool prependRelativeSourcePath) : m_audioFile(audioFile), m_outputDirectory(outputDirectory), m_tempDirectory(tempDirectory), m_encoder(encoder), m_jobId(QUuid::createUuid()), m_prependRelativeSourcePath(prependRelativeSourcePath), m_renamePattern(""), m_aborted(false), m_propDetect(new WaveProperties()) { if(m_mutex_genFileName) { m_mutex_genFileName = new QMutex; } connect(m_encoder, SIGNAL(statusUpdated(int)), this, SLOT(handleUpdate(int)), Qt::DirectConnection); connect(m_encoder, SIGNAL(messageLogged(QString)), this, SLOT(handleMessage(QString)), Qt::DirectConnection); connect(m_propDetect, SIGNAL(statusUpdated(int)), this, SLOT(handleUpdate(int)), Qt::DirectConnection); connect(m_propDetect, SIGNAL(messageLogged(QString)), this, SLOT(handleMessage(QString)), Qt::DirectConnection); m_currentStep = UnknownStep; } ProcessThread::~ProcessThread(void) { while(!m_tempFiles.isEmpty()) { lamexp_remove_file(m_tempFiles.takeFirst()); } while(!m_filters.isEmpty()) { delete m_filters.takeFirst(); } LAMEXP_DELETE(m_encoder); LAMEXP_DELETE(m_propDetect); } //////////////////////////////////////////////////////////// // Thread Entry Point //////////////////////////////////////////////////////////// void ProcessThread::run() { try { processFile(); } catch(...) { fflush(stdout); fflush(stderr); fprintf(stderr, "\nGURU MEDITATION !!!\n"); FatalAppExit(0, L"Unhandeled exception error, application will exit!"); TerminateProcess(GetCurrentProcess(), -1); } } void ProcessThread::processFile() { m_aborted = false; bool bSuccess = true; qDebug("Process thread %s has started.", m_jobId.toString().toLatin1().constData()); emit processStateInitialized(m_jobId, QFileInfo(m_audioFile.filePath()).fileName(), tr("Starting..."), ProgressModel::JobRunning); handleMessage(QString().sprintf("LameXP v%u.%02u (Build #%u), compiled on %s at %s", lamexp_version_major(), lamexp_version_minor(), lamexp_version_build(), lamexp_version_date().toString(Qt::ISODate).toLatin1().constData(), lamexp_version_time())); handleMessage("\n-------------------------------\n"); //Generate output file name QString outFileName = generateOutFileName(); if(outFileName.isEmpty()) { emit processStateChanged(m_jobId, tr("Not found!"), ProgressModel::JobFailed); emit processStateFinished(m_jobId, outFileName, false); return; } QString sourceFile = m_audioFile.filePath(); //------------------ //Decode source file //------------------ if(!m_filters.isEmpty() || !m_encoder->isFormatSupported(m_audioFile.formatContainerType(), m_audioFile.formatContainerProfile(), m_audioFile.formatAudioType(), m_audioFile.formatAudioProfile(), m_audioFile.formatAudioVersion())) { m_currentStep = DecodingStep; AbstractDecoder *decoder = DecoderRegistry::lookup(m_audioFile.formatContainerType(), m_audioFile.formatContainerProfile(), m_audioFile.formatAudioType(), m_audioFile.formatAudioProfile(), m_audioFile.formatAudioVersion()); if(decoder) { QString tempFile = generateTempFileName(); connect(decoder, SIGNAL(statusUpdated(int)), this, SLOT(handleUpdate(int)), Qt::DirectConnection); connect(decoder, SIGNAL(messageLogged(QString)), this, SLOT(handleMessage(QString)), Qt::DirectConnection); bSuccess = decoder->decode(sourceFile, tempFile, &m_aborted); LAMEXP_DELETE(decoder); if(bSuccess) { sourceFile = tempFile; handleMessage("\n-------------------------------\n"); m_audioFile.setFormatContainerType(QString::fromLatin1("Wave")); m_audioFile.setFormatAudioType(QString::fromLatin1("PCM")); } } else { handleMessage(QString("%1\n%2\n\n%3\t%4\n%5\t%6").arg(tr("The format of this file is NOT supported:"), m_audioFile.filePath(), tr("Container Format:"), m_audioFile.formatContainerInfo(), tr("Audio Format:"), m_audioFile.formatAudioCompressInfo())); emit processStateChanged(m_jobId, tr("Unsupported!"), ProgressModel::JobFailed); emit processStateFinished(m_jobId, outFileName, false); return; } } //------------------------------------ //Update audio properties after decode //------------------------------------ if(bSuccess && !m_aborted && IS_WAVE(m_audioFile)) { if(m_encoder->supportedSamplerates() || m_encoder->supportedBitdepths() || m_encoder->supportedChannelCount() || !m_filters.isEmpty()) { m_currentStep = AnalyzeStep; bSuccess = m_propDetect->detect(sourceFile, &m_audioFile, &m_aborted); if(bSuccess) { handleMessage("\n-------------------------------\n"); //Do we need to take care if Stereo downmix? if(m_encoder->supportedChannelCount()) { insertDownmixFilter(); } //Do we need to take care of downsampling the input? if(m_encoder->supportedSamplerates() || m_encoder->supportedBitdepths()) { insertDownsampleFilter(); } } } } //----------------------- //Apply all audio filters //----------------------- if(bSuccess) { while(!m_filters.isEmpty() && !m_aborted) { QString tempFile = generateTempFileName(); AbstractFilter *poFilter = m_filters.takeFirst(); m_currentStep = FilteringStep; connect(poFilter, SIGNAL(statusUpdated(int)), this, SLOT(handleUpdate(int)), Qt::DirectConnection); connect(poFilter, SIGNAL(messageLogged(QString)), this, SLOT(handleMessage(QString)), Qt::DirectConnection); if(poFilter->apply(sourceFile, tempFile, &m_audioFile, &m_aborted)) { sourceFile = tempFile; } handleMessage("\n-------------------------------\n"); delete poFilter; } } //----------------- //Encode audio file //----------------- if(bSuccess && !m_aborted) { m_currentStep = EncodingStep; bSuccess = m_encoder->encode(sourceFile, m_audioFile, outFileName, &m_aborted); } //Make sure output file exists if(bSuccess && !m_aborted) { QFileInfo fileInfo(outFileName); bSuccess = fileInfo.exists() && fileInfo.isFile() && (fileInfo.size() > 0); } QThread::msleep(500); //Report result emit processStateChanged(m_jobId, (m_aborted ? tr("Aborted!") : (bSuccess ? tr("Done.") : tr("Failed!"))), ((bSuccess && !m_aborted) ? ProgressModel::JobComplete : ProgressModel::JobFailed)); emit processStateFinished(m_jobId, outFileName, bSuccess); qDebug("Process thread is done."); } //////////////////////////////////////////////////////////// // SLOTS //////////////////////////////////////////////////////////// void ProcessThread::handleUpdate(int progress) { //printf("Progress: %d\n", progress); switch(m_currentStep) { case EncodingStep: emit processStateChanged(m_jobId, QString("%1 (%2%)").arg(tr("Encoding"), QString::number(progress)), ProgressModel::JobRunning); break; case AnalyzeStep: emit processStateChanged(m_jobId, QString("%1 (%2%)").arg(tr("Analyzing"), QString::number(progress)), ProgressModel::JobRunning); break; case FilteringStep: emit processStateChanged(m_jobId, QString("%1 (%2%)").arg(tr("Filtering"), QString::number(progress)), ProgressModel::JobRunning); break; case DecodingStep: emit processStateChanged(m_jobId, QString("%1 (%2%)").arg(tr("Decoding"), QString::number(progress)), ProgressModel::JobRunning); break; } } void ProcessThread::handleMessage(const QString &line) { emit processMessageLogged(m_jobId, line); } //////////////////////////////////////////////////////////// // PRIVAE FUNCTIONS //////////////////////////////////////////////////////////// QString ProcessThread::generateOutFileName(void) { QMutexLocker lock(m_mutex_genFileName); int n = 1; QFileInfo sourceFile(m_audioFile.filePath()); if(!sourceFile.exists() || !sourceFile.isFile()) { handleMessage(QString("%1\n%2").arg(tr("The source audio file could not be found:"), sourceFile.absoluteFilePath())); return QString(); } QFile readTest(sourceFile.canonicalFilePath()); if(!readTest.open(QIODevice::ReadOnly)) { handleMessage(QString("%1\n%2").arg(tr("The source audio file could not be opened for reading:"), readTest.fileName())); return QString(); } else { readTest.close(); } QString baseName = sourceFile.completeBaseName(); QDir targetDir(m_outputDirectory.isEmpty() ? sourceFile.canonicalPath() : m_outputDirectory); if(m_prependRelativeSourcePath && !m_outputDirectory.isEmpty()) { QDir rootDir = sourceFile.dir(); while(!rootDir.isRoot()) { if(!rootDir.cdUp()) break; } targetDir.setPath(QString("%1/%2").arg(targetDir.absolutePath(), QFileInfo(rootDir.relativeFilePath(sourceFile.canonicalFilePath())).path())); } if(!targetDir.exists()) { targetDir.mkpath("."); if(!targetDir.exists()) { handleMessage(QString("%1\n%2").arg(tr("The target output directory doesn't exist and could NOT be created:"), targetDir.absolutePath())); return QString(); } } QFile writeTest(QString("%1/.%2").arg(targetDir.canonicalPath(), lamexp_rand_str())); if(!writeTest.open(QIODevice::ReadWrite)) { handleMessage(QString("%1\n%2").arg(tr("The target output directory is NOT writable:"), targetDir.absolutePath())); return QString(); } else { writeTest.close(); writeTest.remove(); } QString fileName = m_renamePattern; fileName.replace("", STRDEF(baseName, tr("Unknown File Name")), Qt::CaseInsensitive); fileName.replace("", QString().sprintf("%02d", m_audioFile.filePosition()), Qt::CaseInsensitive); fileName.replace("", STRDEF(m_audioFile.fileName(), tr("Unknown Title")) , Qt::CaseInsensitive); fileName.replace("<Artist>", STRDEF(m_audioFile.fileArtist(), tr("Unknown Artist")), Qt::CaseInsensitive); fileName.replace("<Album>", STRDEF(m_audioFile.fileAlbum(), tr("Unknown Album")), Qt::CaseInsensitive); fileName.replace("<Year>", QString().sprintf("%04d", m_audioFile.fileYear()), Qt::CaseInsensitive); fileName.replace("<Comment>", STRDEF(m_audioFile.fileComment(), tr("Unknown Comment")), Qt::CaseInsensitive); fileName = lamexp_clean_filename(fileName).simplified(); QString outFileName = QString("%1/%2.%3").arg(targetDir.canonicalPath(), fileName, m_encoder->extension()); while(QFileInfo(outFileName).exists()) { outFileName = QString("%1/%2 (%3).%4").arg(targetDir.canonicalPath(), fileName, QString::number(++n), m_encoder->extension()); } QFile placeholder(outFileName); if(placeholder.open(QIODevice::WriteOnly)) { placeholder.close(); } return outFileName; } QString ProcessThread::generateTempFileName(void) { QMutexLocker lock(m_mutex_genFileName); QString tempFileName = QString("%1/%2.wav").arg(m_tempDirectory, lamexp_rand_str()); while(QFileInfo(tempFileName).exists()) { tempFileName = QString("%1/%2.wav").arg(m_tempDirectory, lamexp_rand_str()); } QFile file(tempFileName); if(file.open(QFile::ReadWrite)) { file.close(); } m_tempFiles << tempFileName; return tempFileName; } void ProcessThread::insertDownsampleFilter(void) { int targetSampleRate = 0; int targetBitDepth = 0; /* Adjust sample rate */ if(m_encoder->supportedSamplerates() && m_audioFile.formatAudioSamplerate()) { bool applyDownsampling = true; //Check if downsampling filter is already in the chain for(int i = 0; i < m_filters.count(); i++) { if(dynamic_cast<ResampleFilter*>(m_filters.at(i))) { qWarning("Encoder requires downsampling, but user has already set resamling filter!"); handleMessage("WARNING: Encoder may need resampling, but already using resample filter. Encoding *may* fail!\n"); applyDownsampling = false; } } //Now determine the target sample rate, if required if(applyDownsampling) { const unsigned int *supportedRates = m_encoder->supportedSamplerates(); const unsigned int inputRate = m_audioFile.formatAudioSamplerate(); unsigned int currentDiff = UINT_MAX, minimumDiff = UINT_MAX, bestRate = UINT_MAX; //Find the most suitable supported sampling rate for(int i = 0; supportedRates[i]; i++) { currentDiff = DIFF(inputRate, supportedRates[i]); if((currentDiff < minimumDiff) || ((currentDiff == minimumDiff) && (bestRate < supportedRates[i]))) { bestRate = supportedRates[i]; minimumDiff = currentDiff; if(!(minimumDiff > 0)) break; } } if(bestRate != inputRate) { targetSampleRate = (bestRate != UINT_MAX) ? bestRate : supportedRates[0]; } } } /* Adjust bit depth (word size) */ if(m_encoder->supportedBitdepths() && m_audioFile.formatAudioBitdepth()) { const unsigned int *supportedBPS = m_encoder->supportedBitdepths(); const unsigned int inputBPS = m_audioFile.formatAudioBitdepth(); unsigned int currentDiff = UINT_MAX, minimumDiff = UINT_MAX, bestBPS = UINT_MAX; //Find the most suitable supported bit depth for(int i = 0; supportedBPS[i]; i++) { currentDiff = DIFF(inputBPS, supportedBPS[i]); if((currentDiff < minimumDiff) || ((currentDiff == minimumDiff) && (bestBPS < supportedBPS[i]))) { bestBPS = supportedBPS[i]; minimumDiff = currentDiff; if(!(minimumDiff > 0)) break; } } if(bestBPS != inputBPS) { targetBitDepth = (bestBPS != UINT_MAX) ? bestBPS : supportedBPS[0]; } } /* Insert the filter */ if(targetSampleRate || targetBitDepth) { m_filters.append(new ResampleFilter(targetSampleRate, targetBitDepth)); } } void ProcessThread::insertDownmixFilter(void) { bool applyDownmixing = true; //Check if downmixing filter is already in the chain for(int i = 0; i < m_filters.count(); i++) { if(dynamic_cast<DownmixFilter*>(m_filters.at(i))) { qWarning("Encoder requires Stereo downmix, but user has already forced downmix!"); handleMessage("WARNING: Encoder may need downmixning, but already using downmixning filter. Encoding *may* fail!\n"); applyDownmixing = false; } } //Now add the downmixing filter, if needed if(applyDownmixing) { bool requiresDownmix = true; const unsigned int *supportedChannels = m_encoder->supportedChannelCount(); unsigned int channels = m_audioFile.formatAudioChannels(); for(int i = 0; supportedChannels[i]; i++) { if(supportedChannels[i] == channels) { requiresDownmix = false; break; } } if(requiresDownmix) { m_filters.append(new DownmixFilter()); } } } //////////////////////////////////////////////////////////// // PUBLIC FUNCTIONS //////////////////////////////////////////////////////////// void ProcessThread::addFilter(AbstractFilter *filter) { m_filters.append(filter); } void ProcessThread::setRenamePattern(const QString &pattern) { QString newPattern = pattern.simplified(); if(!newPattern.isEmpty()) m_renamePattern = newPattern; } //////////////////////////////////////////////////////////// // EVENTS //////////////////////////////////////////////////////////// /*NONE*/