/* This file is part of Clementine. Copyright 2014, Andre Siviero Clementine 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 3 of the License, or (at your option) any later version. Clementine 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 Clementine. If not, see . */ #include "ripper.h" #include #include #include #include #include "core/closure.h" #include "core/logging.h" #include "core/tagreaderclient.h" #include "core/utilities.h" #include "devices/cddadevice.h" #include "transcoder/transcoder.h" // winspool.h defines this :( #ifdef AddJob #undef AddJob #endif namespace { const char kWavHeaderRiffMarker[] = "RIFF"; const char kWavFileTypeFormatChunk[] = "WAVEfmt "; const char kWavDataString[] = "data"; } // namespace Ripper::Ripper(int track_count, QObject* parent) : QObject(parent), track_count_(track_count), transcoder_(new Transcoder(this)), cancel_requested_(false), finished_success_(0), finished_failed_(0), files_tagged_(0) { Q_ASSERT(track_count >= 0); transcoder_->set_max_threads(1); // we want transcoder to read only one song // at once from disc to prevent seeking connect(transcoder_, SIGNAL(JobComplete(QUrl, QString, bool)), SLOT(TranscodingJobComplete(QUrl, QString, bool))); connect(transcoder_, SIGNAL(AllJobsComplete()), SLOT(AllTranscodingJobsComplete())); connect(transcoder_, SIGNAL(LogLine(QString)), SLOT(LogLine(QString))); } Ripper::~Ripper() {} void Ripper::AddTrack(int track_number, const QString& title, const QString& transcoded_filename, const TranscoderPreset& preset, bool overwrite_existing) { if (track_number < 1 || track_number > TracksOnDisc()) { qLog(Warning) << "Invalid track number:" << track_number << "Ignoring"; return; } TrackInformation track(track_number, title, transcoded_filename, preset, overwrite_existing); tracks_.append(track); } void Ripper::SetAlbumInformation(const QString& album, const QString& artist, const QString& genre, int year, int disc, Song::FileType type) { album_.album = album; album_.artist = artist; album_.genre = genre; album_.year = year; album_.disc = disc; album_.type = type; } int Ripper::TracksOnDisc() const { return track_count_; } int Ripper::AddedTracks() const { return tracks_.length(); } void Ripper::ClearTracks() { tracks_.clear(); } void Ripper::Start() { { QMutexLocker l(&mutex_); cancel_requested_ = false; } SetupProgressInterval(); qLog(Debug) << "Ripping" << AddedTracks() << "tracks."; QtConcurrent::run(this, &Ripper::Rip); } void Ripper::Cancel() { { QMutexLocker l(&mutex_); cancel_requested_ = true; } transcoder_->Cancel(); emit(Cancelled()); } void Ripper::TranscodingJobComplete(const QUrl& input, const QString& output, bool success) { if (success) finished_success_++; else finished_failed_++; UpdateProgress(); // The transcoder does not necessarily overwrite files. If not, it changes // the name of the output file. We need to update the transcoded // filename for the corresponding track so that we tag the correct // file later on. for (QList::iterator it = tracks_.begin(); it != tracks_.end(); ++it) { QUrl track_url = CddaDevice::TrackStrToUrl(QString("cdda://%1").arg(it->track_number)); if (track_url == input) { it->transcoded_filename = output; } } } void Ripper::AllTranscodingJobsComplete() { TagFiles(); } void Ripper::LogLine(const QString& message) { qLog(Debug) << message; } void Ripper::Rip() { if (tracks_.isEmpty()) { emit Finished(); return; } finished_success_ = 0; finished_failed_ = 0; // Set up progress bar UpdateProgress(); for (QList::iterator it = tracks_.begin(); it != tracks_.end(); ++it) { QUrl track_url = CddaDevice::TrackStrToUrl(QString("cdda://%1").arg(it->track_number)); transcoder_->AddJob(track_url, it->preset, it->transcoded_filename); } transcoder_->Start(); emit RippingComplete(); } // The progress interval is [0, 100*AddedTracks()]. void Ripper::SetupProgressInterval() { int max = AddedTracks() * 100; emit ProgressInterval(0, max); } void Ripper::UpdateProgress() { int progress = (finished_success_ + finished_failed_) * 100; QMap current_jobs = transcoder_->GetProgress(); for (float value : current_jobs.values()) { progress += qBound(0, static_cast(value * 100), 99); } emit Progress(progress); qLog(Debug) << "Progress:" << progress; } void Ripper::TagFiles() { files_tagged_ = 0; for (const TrackInformation& track : tracks_) { Song song; song.InitFromFilePartial(track.transcoded_filename); song.set_track(track.track_number); song.set_title(track.title); song.set_album(album_.album); song.set_artist(album_.artist); song.set_genre(album_.genre); song.set_year(album_.year); song.set_disc(album_.disc); song.set_filetype(album_.type); TagReaderReply* reply = TagReaderClient::Instance()->SaveFile(song.url().toLocalFile(), song); NewClosure(reply, SIGNAL(Finished(bool)), this, SLOT(FileTagged(TagReaderReply*)), reply); } } void Ripper::FileTagged(TagReaderReply* reply) { files_tagged_++; qLog(Debug) << "Tagged" << files_tagged_ << "of" << tracks_.length() << "files"; if (files_tagged_ == tracks_.length()) { qLog(Debug) << "CD ripper finished."; emit Finished(); } reply->deleteLater(); }