/////////////////////////////////////////////////////////////////////////////// // LameXP - Audio Encoder Front-End // Copyright (C) 2004-2021 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; always including the non-optional // LAMEXP GNU GENERAL PUBLIC LICENSE ADDENDUM. See "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 "Tool_WaveProperties.h" //Internal #include "Global.h" #include "Model_AudioFile.h" //MUtils #include //Qt #include #include WaveProperties::WaveProperties(void) : m_binary(lamexp_tools_lookup("sox.exe")) { if(m_binary.isEmpty()) { MUTILS_THROW("Error initializing MP3 encoder. Tool 'lame.exe' is not registred!"); } } WaveProperties::~WaveProperties(void) { } bool WaveProperties::detect(const QString &sourceFile, AudioFileModel_TechInfo *info, QAtomicInt &abortFlag) { QProcess process; QStringList args; args << "--i" << QDir::toNativeSeparators(sourceFile); if(!startProcess(process, m_binary, args)) { return false; } int progress = 0; QRegExp regExp_prc("Precision\\s*:\\s*(\\d+)-bit", Qt::CaseInsensitive); QRegExp regExp_srt("Sample Rate\\s*:\\s*(\\d+)", Qt::CaseInsensitive); QRegExp regExp_drt("Duration\\s*:\\s*(\\d\\d):(\\d\\d):(\\d\\d)\\.(\\d\\d)", Qt::CaseInsensitive); QRegExp regExp_chl("Channels\\s*:\\s*(\\d+)", Qt::CaseInsensitive); QRegExp regExp_enc("Sample Encoding\\s*:\\s*(\\d+)-bit\\s*Float", Qt::CaseInsensitive); //SoX returns a precision of 24-Bit for 32-Bit Float data, so we detect it this way! const result_t result = awaitProcess(process, abortFlag, [this, &info, &progress, ®Exp_prc, ®Exp_srt, ®Exp_drt, ®Exp_chl, ®Exp_enc](const QString &text) { if (regExp_prc.lastIndexIn(text) >= 0) { quint32 tmp; if (MUtils::regexp_parse_uint32(regExp_prc, tmp)) { info->setAudioBitdepth(tmp); emit statusUpdated(qMin(progress += 25, 100)); } return true; } if (regExp_enc.lastIndexIn(text) >= 0) { quint32 tmp; if (MUtils::regexp_parse_uint32(regExp_enc, tmp)) { info->setAudioBitdepth((tmp == 32) ? AudioFileModel::BITDEPTH_IEEE_FLOAT32 : tmp); emit statusUpdated(qMin(progress += 25, 100)); } return true; } if (regExp_srt.lastIndexIn(text) >= 0) { quint32 tmp; if (MUtils::regexp_parse_uint32(regExp_srt, tmp)) { info->setAudioSamplerate(tmp); emit statusUpdated(qMin(progress += 25, 100)); } return true; } if (regExp_drt.lastIndexIn(text) >= 0) { quint32 tmp[4]; if (MUtils::regexp_parse_uint32(regExp_drt, tmp, 4)) { info->setDuration((tmp[0] * 3600) + (tmp[1] * 60) + tmp[2] + qRound(static_cast(tmp[3]) / 100.0)); emit statusUpdated(qMin(progress += 25, 100)); } return true; } if (regExp_chl.lastIndexIn(text) >= 0) { quint32 tmp; if (MUtils::regexp_parse_uint32(regExp_chl, tmp)) { info->setAudioChannels(tmp); emit statusUpdated(qMin(progress += 25, 100)); } return true; } return false; }); return (result == RESULT_SUCCESS); }