/*************************************************************************** * Copyright (C) 2011-2018 by Ilya Kotov * * forkotov02@ya.ru * * * * 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. * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "converter.h" Converter::Converter(QObject *parent) : QObject(parent), QRunnable() { m_user_stop = false; m_decoder = 0; m_input = 0; m_row = -1; } Converter::~Converter() { qDebug("%s", Q_FUNC_INFO); if(m_decoder) { delete m_decoder; m_decoder = 0; } if(m_input) { delete m_input; m_input = 0; } } bool Converter::prepare(const QString &url, int row, const QVariantMap &preset) { m_row = row; InputSource *source = InputSource::create(url, this); if(!source->initialize()) { delete source; qWarning("Converter: Invalid url"); return false; } if(source->ioDevice()) { if(!source->ioDevice()->open(QIODevice::ReadOnly)) { source->deleteLater(); qWarning("Converter: cannot open input stream, error: %s", qPrintable(source->ioDevice()->errorString())); return false; } } DecoderFactory *factory = 0; if(!source->path().contains("://")) factory = Decoder::findByFilePath(source->path()); if(!factory) factory = Decoder::findByMime(source->contentType()); if(!factory && source->ioDevice() && source->path().contains("://")) //ignore content of local files factory = Decoder::findByContent(source->ioDevice()); if(!factory && source->path().contains("://")) factory = Decoder::findByProtocol(source->path().section("://",0,0)); if(!factory) { qWarning("Converter: unsupported file format"); source->deleteLater(); return false; } qDebug("Converter: selected decoder: %s",qPrintable(factory->properties().shortName)); if(factory->properties().noInput && source->ioDevice()) source->ioDevice()->close(); Decoder *decoder = factory->create(source->path(), source->ioDevice()); if(!decoder->initialize()) { qWarning("Converter: invalid file format"); source->deleteLater(); delete decoder; return false; } m_decoder = decoder; m_input = source; m_preset = preset; if(!decoder->totalTime()) source->setOffset(-1); m_user_stop = false; return true; } void Converter::stop() { m_mutex.lock(); m_user_stop = true; m_mutex.unlock(); } void Converter::run() { qDebug("Converter: staring thread"); if(m_user_stop) { emit message(m_row, tr("Cancelled")); emit finished(this); return; } AudioParameters ap = m_decoder->audioParameters(); QString path = m_input->path(); QString out_path = m_preset["out_dir"].toString(); QString pattern = m_preset["file_name"].toString(); QList list = MetaDataManager::instance()->createPlayList(path); if(list.isEmpty() || out_path.isEmpty() || pattern.isEmpty()) { qWarning("Converter: invalid parameters"); emit message(m_row, tr("Error")); return; } TrackInfo info = *list.first(); qDeleteAll(list); list.clear(); MetaDataFormatter formatter(pattern); QString name = formatter.format(list.first()); QString full_path = out_path + "/" + name + "." + m_preset["ext"].toString(); if(QFile::exists(full_path)) { if(m_preset["overwrite"].toBool()) //remove previous file QFile::remove(full_path); else { int i = 0; while(QFile::exists(full_path)) //create file with another name { ++i; full_path = out_path + "/" + name + QString("_%1.").arg(i) + m_preset["ext"].toString(); } } } QString command = m_preset["command"].toString(); command.replace("%o", "\"" + full_path + "\""); QString tmp_path = QStandardPaths::writableLocation(QStandardPaths::TempLocation) + "/tmp.wav"; bool use_file = command.contains("%i"); command.replace("%i", "\"" + tmp_path + "\""); qDebug("Converter: starting task '%s'", qPrintable(m_preset["name"].toString())); emit message(m_row, tr("Converting")); char wave_header[] = { 0x52, 0x49, 0x46, 0x46, //"RIFF" 0x00, 0x00, 0x00, 0x00, //(file size) - 8 0x57, 0x41, 0x56, 0x45, //WAVE 0x66, 0x6d, 0x74, 0x20, //"fmt " 0x10, 0x00, 0x00, 0x00, //16 + extra format bytes 0x01, 0x00, 0x02, 0x00, //PCM/uncompressed, channels 0x00, 0x00, 0x00, 0x00, //sample rate 0x00, 0x00, 0x00, 0x00, //average bytes per second 0x04, 0x00, 0x10, 0x00, //block align, significant bits per sample 0x64, 0x61, 0x74, 0x61, //"data" 0x00, 0x00, 0x00, 0x00 }; //chunk size*/ quint16 sample_size = m_preset["use_16bit"].toBool() ? 2 : ap.sampleSize(); quint32 sample_rate = qToLittleEndian(ap.sampleRate()); quint16 channels = qToLittleEndian((quint16)ap.channels()); quint16 block_align = qToLittleEndian((quint16)sample_size * ap.channels()); quint16 bps = qToLittleEndian((quint16)sample_size * 8); quint32 size = m_decoder->totalTime() * ap.sampleRate() * ap.channels() * sample_size / 1000; size = qToLittleEndian(size); memcpy(&wave_header[22], &channels, 2); memcpy(&wave_header[24], &sample_rate, 4); memcpy(&wave_header[32], &block_align, 2); memcpy(&wave_header[34], &bps, 2); memcpy(&wave_header[40], &size, 4); FILE *enc_pipe = use_file ? fopen(qPrintable(tmp_path), "w+b") : popen(qPrintable(command), "w"); if(!enc_pipe) { qWarning("Converter: unable to open pipe"); emit message(m_row, tr("Error")); return; } size_t to_write = sizeof(wave_header); if(to_write != fwrite(&wave_header, 1, to_write, enc_pipe)) { qWarning("Converter: output file write error"); use_file ? fclose(enc_pipe) : pclose(enc_pipe); return; } convert(m_decoder, enc_pipe, m_preset["use_16bit"].toBool()); use_file ? fclose(enc_pipe) : pclose(enc_pipe); m_mutex.lock(); if(m_user_stop) { qDebug("Converter: task '%s' aborted", qPrintable(m_preset["name"].toString())); emit message(m_row, tr("Cancelled")); m_mutex.unlock(); return; } else qDebug("Converter: task '%s' finished with success", qPrintable(m_preset["name"].toString())); m_mutex.unlock(); if(use_file) { qDebug("Converter: starting file encoding..."); emit message(m_row, tr("Encoding")); enc_pipe = popen(qPrintable(command), "w"); if(!enc_pipe) { qWarning("Converter: unable to start encoder"); QFile::remove(tmp_path); return; } pclose(enc_pipe); qDebug("Converter: encoding finished"); QFile::remove(tmp_path); } if(m_preset["tags"].toBool()) { qDebug("Converter: writing tags"); TagLib::FileRef file(qPrintable(full_path)); if(file.tag()) { file.tag()->setTitle(QStringToTString(info.value(Qmmp::TITLE))); file.tag()->setArtist(QStringToTString(info.value(Qmmp::ARTIST))); file.tag()->setAlbum(QStringToTString(info.value(Qmmp::ALBUM))); file.tag()->setGenre(QStringToTString(info.value(Qmmp::GENRE))); file.tag()->setComment(QStringToTString(info.value(Qmmp::COMMENT))); file.tag()->setYear(info.value(Qmmp::YEAR).toUInt()); file.tag()->setTrack(info.value(Qmmp::TRACK).toUInt()); if(full_path.endsWith(".mp3", Qt::CaseInsensitive)) { TagLib::MPEG::File *mpeg_file = dynamic_cast (file.file()); mpeg_file->save(TagLib::MPEG::File::ID3v2, true); } else file.save(); } } qDebug("Converter: thread finished"); emit message(m_row, tr("Finished")); emit finished(this); } bool Converter::convert(Decoder *decoder, FILE *file, bool use16bit) { AudioParameters ap = decoder->audioParameters(); AudioConverter inConverter, outConverter; qint64 len, total = 0; Qmmp::AudioFormat outFormat = Qmmp::PCM_S16LE; int percent = 0; int prev_percent = 0; int samples = 0, output_at = 0; qint64 totalSize = decoder->totalTime() * ap.sampleRate() * ap.channels() * ap.sampleSize() / 1000; inConverter.configure(ap.format()); if(use16bit) outFormat = Qmmp::PCM_S16LE; else if(ap.sampleSize() == 1) outFormat = Qmmp::PCM_S8; else if(ap.sampleSize() == 2) outFormat = Qmmp::PCM_S16LE; else if(ap.sampleSize() == 4) outFormat = Qmmp::PCM_S32LE; outConverter.configure(outFormat); int outSampleSize = AudioParameters::sampleSize(outFormat); unsigned char input_buffer[QMMP_BLOCK_FRAMES * ap.frameSize() * 4]; float converter_buffer[QMMP_BLOCK_FRAMES * ap.channels() * 4]; unsigned char output_buffer[QMMP_BLOCK_FRAMES * outSampleSize * ap.channels() * 4]; emit progress(0); forever { // decode len = decoder->read(input_buffer, sizeof(input_buffer)); if (len > 0) { total += len; samples = len / ap.sampleSize(); inConverter.toFloat(input_buffer, converter_buffer, samples); outConverter.fromFloat(converter_buffer, output_buffer, samples); output_at = samples * outSampleSize; while(output_at > 0) { len = fwrite(output_buffer, 1, output_at, file); if(len == 0) { qWarning("Converter: error"); return false; } output_at -= len; memmove(output_buffer, output_buffer + len, output_at); } percent = 100 * total / totalSize; if(percent != prev_percent) { prev_percent = percent; emit progress(percent); } } else { emit progress(100); qDebug("Converter: total written: %lld bytes", total); qDebug("finished!"); return true; } m_mutex.lock(); if(m_user_stop) { m_mutex.unlock(); return false; } m_mutex.unlock(); } return false; }