/////////////////////////////////////////////////////////////////////////////// // LameXP - Audio Encoder Front-End // 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, 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_MP3.h" #include "Global.h" #include "Model_Settings.h" #include #include #include static const int g_lameAgorithmQualityLUT[5] = {7, 5, 2, 0, INT_MAX}; static const int g_mp3BitrateLUT[15] = {32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, -1}; static const int g_lameVBRQualityLUT[11] = {9, 8, 7, 6, 5, 4, 3, 2, 1, 0, INT_MAX}; /////////////////////////////////////////////////////////////////////////////// // Encoder Info /////////////////////////////////////////////////////////////////////////////// class MP3EncoderInfo : 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 10; break; case SettingsModel::ABRMode: case SettingsModel::CBRMode: return 14; break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual int valueAt(int mode, int index) const { switch(mode) { case SettingsModel::VBRMode: return g_lameVBRQualityLUT[qBound(0, index, 9)]; break; case SettingsModel::ABRMode: case SettingsModel::CBRMode: return g_mp3BitrateLUT[qBound(0, index, 13)]; break; default: MUTILS_THROW("Bad RC mode specified!"); } } virtual int valueType(int mode) const { switch(mode) { case SettingsModel::VBRMode: return TYPE_QUALITY_LEVEL_INT; 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 = "LAME MP3 Encoder"; return s_description; } virtual const char *extension(void) const { static const char* s_extension = "mp3"; return s_extension; } } static const g_mp3EncoderInfo; /////////////////////////////////////////////////////////////////////////////// // Encoder implementation /////////////////////////////////////////////////////////////////////////////// MP3Encoder::MP3Encoder(void) : m_binary(lamexp_tools_lookup("lame.exe")) { if(m_binary.isEmpty()) { MUTILS_THROW("Error initializing MP3 encoder. Tool 'lame.exe' is not registred!"); } m_algorithmQuality = 2; m_configBitrateMaximum = 0; m_configBitrateMinimum = 0; m_configSamplingRate = 0; m_configChannelMode = 0; } MP3Encoder::~MP3Encoder(void) { } bool MP3Encoder::encode(const QString &sourceFile, const AudioFileModel_MetaInfo &metaInfo, const unsigned int duration, const QString &outputFile, volatile bool *abortFlag) { QProcess process; QStringList args; args << "--nohist"; args << "-q" << QString::number(g_lameAgorithmQualityLUT[m_algorithmQuality]); switch(m_configRCMode) { case SettingsModel::VBRMode: args << "-V" << QString::number(g_lameVBRQualityLUT[qBound(0, m_configBitrate, 9)]); break; case SettingsModel::ABRMode: args << "--abr" << QString::number(g_mp3BitrateLUT[qBound(0, m_configBitrate, 13)]); break; case SettingsModel::CBRMode: args << "--cbr"; args << "-b" << QString::number(g_mp3BitrateLUT[qBound(0, m_configBitrate, 13)]); break; default: MUTILS_THROW("Bad rate-control mode!"); break; } if((m_configBitrateMaximum > 0) && (m_configBitrateMinimum > 0) && (m_configBitrateMinimum <= m_configBitrateMaximum)) { if(m_configRCMode != SettingsModel::CBRMode) { args << "-b" << QString::number(clipBitrate(m_configBitrateMinimum)); args << "-B" << QString::number(clipBitrate(m_configBitrateMaximum)); } } if(m_configSamplingRate > 0) { args << "--resample" << QString::number(m_configSamplingRate); } switch(m_configChannelMode) { case 1: args << "-m" << "j"; break; case 2: args << "-m" << "f"; break; case 3: args << "-m" << "s"; break; case 4: args << "-m" << "d"; break; case 5: args << "-m" << "m"; break; } bool bUseUCS2 = false; if(isUnicode(metaInfo.title())) bUseUCS2 = true; if(isUnicode(metaInfo.artist())) bUseUCS2 = true; if(isUnicode(metaInfo.album())) bUseUCS2 = true; if(isUnicode(metaInfo.genre())) bUseUCS2 = true; if(isUnicode(metaInfo.comment())) bUseUCS2 = true; if(bUseUCS2) args << "--id3v2-ucs2"; //Must specify this BEFORE "--tt" and friends! if(!metaInfo.title().isEmpty()) args << "--tt" << cleanTag(metaInfo.title()); if(!metaInfo.artist().isEmpty()) args << "--ta" << cleanTag(metaInfo.artist()); if(!metaInfo.album().isEmpty()) args << "--tl" << cleanTag( metaInfo.album()); if(!metaInfo.genre().isEmpty()) args << "--tg" << cleanTag(metaInfo.genre()); if(!metaInfo.comment().isEmpty()) args << "--tc" << cleanTag(metaInfo.comment()); if(metaInfo.year()) args << "--ty" << QString::number(metaInfo.year()); if(metaInfo.position()) args << "--tn" << QString::number(metaInfo.position()); if(!metaInfo.cover().isEmpty()) args << "--ti" << QDir::toNativeSeparators(metaInfo.cover()); if(!m_configCustomParams.isEmpty()) args << m_configCustomParams.split(" ", QString::SkipEmptyParts); args << QDir::toNativeSeparators(sourceFile); args << QDir::toNativeSeparators(outputFile); if(!startProcess(process, m_binary, args)) { return false; } bool bTimeout = false; bool bAborted = false; int prevProgress = -1; QRegExp regExp("\\(.*(\\d+)%\\)\\|"); while(process.state() != QProcess::NotRunning) { if(*abortFlag) { process.kill(); bAborted = true; emit messageLogged("\nABORTED BY USER !!!"); break; } process.waitForReadyRead(m_processTimeoutInterval); if(!process.bytesAvailable() && process.state() == QProcess::Running) { process.kill(); qWarning("LAME process timed out <-- killing!"); emit messageLogged("\nPROCESS TIMEOUT !!!"); bTimeout = true; break; } while(process.bytesAvailable() > 0) { QByteArray line = process.readLine(); QString text = QString::fromUtf8(line.constData()).simplified(); if(regExp.lastIndexIn(text) >= 0) { bool ok = false; int progress = regExp.cap(1).toInt(&ok); if(ok && (progress > prevProgress)) { emit statusUpdated(progress); prevProgress = qMin(progress + 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; } return true; } bool MP3Encoder::isFormatSupported(const QString &containerType, const QString &containerProfile, const QString &formatType, const QString &formatProfile, const QString &formatVersion) { if(containerType.compare("Wave", Qt::CaseInsensitive) == 0) { if(formatType.compare("PCM", Qt::CaseInsensitive) == 0) { return true; } } else if(containerType.compare("MPEG Audio", Qt::CaseInsensitive) == 0) { if(formatType.compare("MPEG Audio", Qt::CaseInsensitive) == 0) { if(formatProfile.compare("Layer 3", Qt::CaseInsensitive) == 0 || formatProfile.compare("Layer 2", Qt::CaseInsensitive) == 0) { if(formatVersion.compare("Version 1", Qt::CaseInsensitive) == 0 || formatVersion.compare("Version 2", Qt::CaseInsensitive) == 0) { return true; } } } } return false; } const unsigned int *MP3Encoder::supportedChannelCount(void) { static const unsigned int supportedChannels[] = {1, 2, NULL}; return supportedChannels; } void MP3Encoder::setAlgoQuality(int value) { m_algorithmQuality = qBound(0, value, 3); } void MP3Encoder::setBitrateLimits(int minimumBitrate, int maximumBitrate) { m_configBitrateMinimum = minimumBitrate; m_configBitrateMaximum = maximumBitrate; } void MP3Encoder::setSamplingRate(int value) { m_configSamplingRate = value; } void MP3Encoder::setChannelMode(int value) { m_configChannelMode = value; } int MP3Encoder::clipBitrate(int bitrate) { int targetBitrate = qMin(qMax(bitrate, 32), 320); int minDiff = INT_MAX; int minIndx = -1; for(int i = 0; g_mp3BitrateLUT[i] > 0; i++) { int currentDiff = abs(targetBitrate - g_mp3BitrateLUT[i]); if(currentDiff < minDiff) { minDiff = currentDiff; minIndx = i; } } if(minIndx >= 0) { return g_mp3BitrateLUT[minIndx]; } return targetBitrate; } const AbstractEncoderInfo *MP3Encoder::getEncoderInfo(void) { return &g_mp3EncoderInfo; }