/////////////////////////////////////////////////////////////////////////////// // LameXP - Audio Encoder Front-End // Copyright (C) 2004-2016 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, but always including the *additional* // restrictions defined in the "License.txt" file. // // 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_AAC.h" #include "Global.h" #include "Model_Settings.h" #include #include static int index2bitrate(const int index) { return (index < 32) ? ((index + 1) * 8) : ((index - 15) * 16); } /////////////////////////////////////////////////////////////////////////////// // Encoder Info /////////////////////////////////////////////////////////////////////////////// class AACEncoderInfo : public AbstractEncoderInfo { virtual bool isModeSupported(int mode) const { switch(mode) { case SettingsModel::VBRMode: case SettingsModel::ABRMode: case SettingsModel::CBRMode: return true; break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual int valueCount(int mode) const { switch(mode) { case SettingsModel::VBRMode: return 21; break; case SettingsModel::ABRMode: case SettingsModel::CBRMode: return 41; break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual int valueAt(int mode, int index) const { switch(mode) { case SettingsModel::VBRMode: return qBound(0, index * 5, 100); break; case SettingsModel::ABRMode: case SettingsModel::CBRMode: return qBound(8, index2bitrate(index), 400); break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual int valueType(int mode) const { switch(mode) { case SettingsModel::VBRMode: return TYPE_QUALITY_LEVEL_FLT; break; case SettingsModel::ABRMode: return TYPE_APPROX_BITRATE; break; case SettingsModel::CBRMode: return TYPE_BITRATE; break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual const char *description(void) const { static const char* s_description = "Nero AAC Encoder (\x0C2\x0A9 Nero AG)"; return s_description; } virtual const char *extension(void) const { static const char* s_extension = "mp4"; return s_extension; } virtual bool isResamplingSupported(void) const { return false; } } static const g_aacEncoderInfo; /////////////////////////////////////////////////////////////////////////////// // Encoder implementation /////////////////////////////////////////////////////////////////////////////// AACEncoder::AACEncoder(void) : m_binary_enc(lamexp_tools_lookup(L1S("neroAacEnc.exe"))), m_binary_tag(lamexp_tools_lookup(L1S("neroAacTag.exe"))) { if(m_binary_enc.isEmpty() || m_binary_tag.isEmpty()) { MUTILS_THROW("Error initializing AAC encoder. Tool 'neroAacEnc.exe' is not registred!"); } m_configProfile = 0; m_configEnable2Pass = true; } AACEncoder::~AACEncoder(void) { } bool AACEncoder::encode(const QString &sourceFile, const AudioFileModel_MetaInfo &metaInfo, const unsigned int duration, const QString &outputFile, volatile bool *abortFlag) { QProcess process; QStringList args; const QString baseName = QFileInfo(outputFile).fileName(); switch(m_configRCMode) { case SettingsModel::VBRMode: args << L1S("-q") << QString().sprintf("%.2f", double(qBound(0, m_configBitrate * 5, 100)) / 100.0); break; case SettingsModel::ABRMode: args << L1S("-br") << QString::number(qBound(8, index2bitrate(m_configBitrate), 400) * 1000); break; case SettingsModel::CBRMode: args << L1S("-cbr") << QString::number(qBound(8, index2bitrate(m_configBitrate), 400) * 1000); break; default: MUTILS_THROW("Bad rate-control mode!"); break; } if(m_configEnable2Pass && (m_configRCMode == SettingsModel::ABRMode)) { args << L1S("-2pass"); } switch(m_configProfile) { case 1: args << L1S("-lc"); //Forces use of LC AAC profile break; case 2: args << L1S("-he"); //Forces use of HE AAC profile break; case 3: args << L1S("-hev2"); //Forces use of HEv2 AAC profile break; } if(!m_configCustomParams.isEmpty()) args << m_configCustomParams.split(" ", QString::SkipEmptyParts); args << L1S("-if") << QDir::toNativeSeparators(sourceFile); args << L1S("-of") << QDir::toNativeSeparators(outputFile); if(!startProcess(process, m_binary_enc, args)) { return false; } bool bTimeout = false; bool bAborted = false; int prevProgress = -1; QRegExp regExp(L1S("Processed\\s+(\\d+)\\s+seconds")); QRegExp regExp_pass1(L1S("First\\s+pass:\\s+processed\\s+(\\d+)\\s+seconds")); QRegExp regExp_pass2(L1S("Second\\s+pass:\\s+processed\\s+(\\d+)\\s+seconds")); while(process.state() != QProcess::NotRunning) { if(*abortFlag) { process.kill(); bAborted = true; emit messageLogged(L1S("\nABORTED BY USER !!!")); break; } process.waitForReadyRead(m_processTimeoutInterval); if(!process.bytesAvailable() && process.state() == QProcess::Running) { process.kill(); qWarning("NeroAacEnc process timed out <-- killing!"); emit messageLogged(L1S("\nPROCESS TIMEOUT !!!")); bTimeout = true; break; } while(process.bytesAvailable() > 0) { QByteArray line = process.readLine(); QString text = QString::fromUtf8(line.constData()).simplified(); if(regExp_pass1.lastIndexIn(text) >= 0) { bool ok = false; int progress = regExp_pass1.cap(1).toInt(&ok); if(ok && (duration > 0)) { int newProgress = qRound((static_cast(progress) / static_cast(duration)) * 50.0); if(newProgress > prevProgress) { emit statusUpdated(newProgress); prevProgress = qMin(newProgress + 2, 99); } } } else if(regExp_pass2.lastIndexIn(text) >= 0) { bool ok = false; int progress = regExp_pass2.cap(1).toInt(&ok); if(ok && (duration > 0)) { int newProgress = qRound((static_cast(progress) / static_cast(duration)) * 50.0) + 50; if(newProgress > prevProgress) { emit statusUpdated(newProgress); prevProgress = qMin(newProgress + 2, 99); } } } else if(regExp.lastIndexIn(text) >= 0) { bool ok = false; int progress = regExp.cap(1).toInt(&ok); if(ok && (duration > 0)) { int newProgress = qRound((static_cast(progress) / static_cast(duration)) * 100.0); if(newProgress > prevProgress) { emit statusUpdated(newProgress); prevProgress = qMin(newProgress + 2, 99); } } } else if(!text.isEmpty()) { emit messageLogged(text); } } } process.waitForFinished(); if(process.state() != QProcess::NotRunning) { process.kill(); process.waitForFinished(-1); } emit statusUpdated(100); emit messageLogged(QString().sprintf("\nExited with code: 0x%04X", process.exitCode())); if(bTimeout || bAborted || process.exitCode() != EXIT_SUCCESS) { return false; } if(metaInfo.empty(false)) { return true; } emit messageLogged(L1S("\n-------------------------------\n")); args.clear(); args << QDir::toNativeSeparators(outputFile); if(!metaInfo.title().isEmpty()) args << QString("-meta:title=%1").arg(cleanTag(metaInfo.title())); if(!metaInfo.artist().isEmpty()) args << QString("-meta:artist=%1").arg(cleanTag(metaInfo.artist())); if(!metaInfo.album().isEmpty()) args << QString("-meta:album=%1").arg(cleanTag(metaInfo.album())); if(!metaInfo.genre().isEmpty()) args << QString("-meta:genre=%1").arg(cleanTag(metaInfo.genre())); if(!metaInfo.comment().isEmpty()) args << QString("-meta:comment=%1").arg(cleanTag(metaInfo.comment())); if(metaInfo.year()) args << QString("-meta:year=%1").arg(QString::number(metaInfo.year())); if(metaInfo.position()) args << QString("-meta:track=%1").arg(QString::number(metaInfo.position())); if(!metaInfo.cover().isEmpty()) args << QString("-add-cover:%1:%2").arg("front", metaInfo.cover()); if(!startProcess(process, m_binary_tag, args)) { return false; } bTimeout = false; while(process.state() != QProcess::NotRunning) { if(*abortFlag) { process.kill(); bAborted = true; emit messageLogged(L1S("\nABORTED BY USER !!!")); break; } process.waitForReadyRead(m_processTimeoutInterval); if(!process.bytesAvailable() && process.state() == QProcess::Running) { process.kill(); qWarning("NeroAacTag process timed out <-- killing!"); emit messageLogged(L1S("\nPROCESS TIMEOUT !!!")); bTimeout = true; break; } while(process.bytesAvailable() > 0) { QByteArray line = process.readLine(); QString text = QString::fromUtf8(line.constData()).simplified(); if(!text.isEmpty()) { emit messageLogged(text); } } } process.waitForFinished(); if(process.state() != QProcess::NotRunning) { process.kill(); process.waitForFinished(-1); } emit messageLogged(QString().sprintf("\nExited with code: 0x%04X", process.exitCode())); if(bTimeout || bAborted || process.exitCode() != EXIT_SUCCESS) { return false; } return true; } bool AACEncoder::isFormatSupported(const QString &containerType, const QString &containerProfile, const QString &formatType, const QString &formatProfile, const QString &formatVersion) { if(containerType.compare(L1S("Wave"), Qt::CaseInsensitive) == 0) { if(formatType.compare(L1S("PCM"), Qt::CaseInsensitive) == 0) { return true; } } return false; } void AACEncoder::setProfile(int profile) { m_configProfile = profile; } void AACEncoder::setEnable2Pass(bool enabled) { m_configEnable2Pass = enabled; } const bool AACEncoder::needsTimingInfo(void) { return true; } const AbstractEncoderInfo *AACEncoder::getEncoderInfo(void) { return &g_aacEncoderInfo; }