void K3b::MusicBrainzJob::slotMbJobFinished( bool success ) { if( hasBeenCanceled() ) { emit canceled(); jobFinished(false); } else { K3b::AudioTrack* currentTrack = d->tracks.at( d->currentTrackIndex ); if( success ) { // found entries QStringList resultStrings, resultStringsUnique; for( int i = 0; i < d->mbTrackLookupJob->results(); ++i ) resultStrings.append( d->mbTrackLookupJob->artist(i) + " - " + d->mbTrackLookupJob->title(i) ); // since we are only using the title and the artist a lot of entries are alike to us // so to not let the user have to choose between two equal entries we trim the list down for( QStringList::const_iterator it = resultStrings.constBegin(); it != resultStrings.constEnd(); ++it ) if( !resultStringsUnique.contains( *it ) ) resultStringsUnique.append( *it ); QString s; bool ok = true; if( resultStringsUnique.count() > 1 ) s = KInputDialog::getItem( i18n("MusicBrainz Query"), i18n("Found multiple matches for track %1 (%2). Please select one.", currentTrack->trackNumber(), currentTrack->firstSource()->sourceComment()), resultStringsUnique, 0, false, &ok, dynamic_cast<QWidget*>(parent()) ); else s = resultStringsUnique.first(); if( ok ) { int i = resultStrings.lastIndexOf( s ); currentTrack->setTitle( d->mbTrackLookupJob->title(i) ); currentTrack->setArtist( d->mbTrackLookupJob->artist(i) ); } } emit trackFinished( currentTrack, success ); // query next track ++d->currentTrackIndex; if( d->currentTrackIndex < d->tracks.count() ) { d->mbTrackLookupJob->setAudioTrack( d->tracks.at( d->currentTrackIndex ) ); d->mbTrackLookupJob->start(); } else { jobFinished( true ); } } }
void K3b::AudioCueFileWritingJob::importCueInProject() { // cleanup the project (this wil also delete the decoder) // we do not use newDocument as that would overwrite the settings already made while( d->audioDoc->firstTrack() ) delete d->audioDoc->firstTrack()->take(); d->decoder = 0; K3b::CueFileParser parser( d->cueFile ); if( parser.isValid() && parser.toc().contentType() == K3b::Device::AUDIO ) { kDebug() << "(K3b::AudioCueFileWritingJob::importCueFile) parsed with image: " << parser.imageFilename(); // global cd-text d->audioDoc->setTitle( parser.cdText().title() ); d->audioDoc->setPerformer( parser.cdText().performer() ); d->audioDoc->writeCdText( !parser.cdText().title().isEmpty() ); d->decoder = K3b::AudioDecoderFactory::createDecoder( parser.imageFilename() ); if( d->decoder ) { d->decoder->setFilename( parser.imageFilename() ); K3b::AudioTrack* after = 0; K3b::AudioFile* newFile = 0; unsigned int i = 0; for( K3b::Device::Toc::const_iterator it = parser.toc().constBegin(); it != parser.toc().constEnd(); ++it ) { const K3b::Device::Track& track = *it; newFile = new K3b::AudioFile( d->decoder, d->audioDoc ); newFile->setStartOffset( track.firstSector() ); newFile->setEndOffset( track.lastSector()+1 ); K3b::AudioTrack* newTrack = new K3b::AudioTrack( d->audioDoc ); newTrack->addSource( newFile ); newTrack->moveAfter( after ); // cd-text newTrack->setTitle( parser.cdText()[i].title() ); newTrack->setPerformer( parser.cdText()[i].performer() ); // add the next track after this one after = newTrack; ++i; } // let the last source use the data up to the end of the file if( newFile ) newFile->setEndOffset(0); // now analyze the source emit newTask( i18n("Analysing the audio file") ); emit newSubTask( i18n("Analysing %1", parser.imageFilename() ) ); // start the analyser job d->analyserJob->setDecoder( d->decoder ); d->analyserJob->start(); } else { emit infoMessage( i18n("Unable to handle '%1' due to an unsupported format.", d->cueFile ), MessageError ); jobFinished(false); } } else { emit infoMessage( i18n("No valid audio cue file: '%1'", d->cueFile ), MessageError ); jobFinished(false); } }