public void _testGPWithPlayer(MidiSongDefinition sd, int usq) throws Exception {
MidiSongDefinition testFile = SongArchive.testFileSongDefinition();
try {
GPInputStream gpis = new GPInputStream(sd.getGpFileName());
GPSong gpsong = (GPSong) gpis.readObject();
gpis.close();
int tempoGPSong = gpsong.getTempo();
// OLD assertEquals((int)(60*1000*1000/usq),tempoGPSong);
assertEquals((60 * 1000 * 1000 / usq), tempoGPSong);
Song song = GPAdaptor.makeSong(gpsong);
Tempo tempoSong = song.getTempo();
assertEquals(usq, (int) tempoSong.getUSQ());
MasterPlayer player = new MasterPlayer();
player.setSoundPlayer(new MidiFiler(testFile.getMidiFileName()));
Performance performance = player.arrange(song, null);
Tempo tempoPerformance = performance.getTempo();
assertEquals(usq, (int) tempoPerformance.getUSQ());
// a performance is really a sequence. So make sure there
// is a tempo event (meta 0x51) on track 0.
// make sure as well there is exactly ONE tempo event at timestamp 0
Sequence sequence = (Sequence) performance;
Track[] midiTracks = sequence.getTracks();
Track tempoMap = midiTracks[0];
Tempo tempoInMIDI = new Tempo();
for (int i = 0; i < tempoMap.size(); i++) {
MidiEvent me = tempoMap.get(i);
long tick = me.getTick();
if (tick > 0) break;
MidiMessage mm = me.getMessage();
if (mm.getStatus() == MetaMessage.META) {
MetaMessage meta = (MetaMessage) mm;
if (meta.getType() == 0x51) {
byte[] data = meta.getData();
tempoInMIDI.setUSQ(
((data[0] & 0x00FF) << 16) | ((data[1] & 0x00FF) << 8) | ((data[2] & 0x00FF)));
break;
}
}
}
assertEquals(usq, (int) tempoInMIDI.getUSQ());
MidiOutputStream mos = new MidiOutputStream(new FileOutputStream(testFile.getMidiFileName()));
mos.write(performance);
mos.close();
compareMIDIFiles(
sd.getMidiFileName(), testFile.getMidiFileName(), sd.getChannels(), sd.getEventRemap());
} catch (FileNotFoundException e) {
fail("file not found exception");
} catch (GPFormatException e) {
fail("gp format exception");
} catch (IOException e) {
fail("ioexception");
} catch (CodecFormatException e) {
fail("codec format exception");
} catch (InvalidMidiDataException e) {
fail("invalid midi data exception");
}
}
/**
* @param piece a loaded GP4 file
* @return a representation of the piece that supports the Song interface
* @throws GP4AdaptorException
*/
public static Song makeSong(GPSong piece) throws GPFormatException {
String methodName = "makeSong";
logger.entering(className, methodName);
int bpm = piece.getTempo();
logger.finer("Tempo: " + bpm + "BPM");
Tempo tempo = new Tempo();
tempo.setBPM(bpm);
Song song = new SongImpl(PPQ_HIGH_RESOLUTION / PPQ_SCALE_FACTOR, tempo);
List<GPMeasure> measures = piece.getMeasures();
logger.finer("Number of measures: " + measures.size());
List<GPTrack> tracks = piece.getTracks();
logger.finer("Number of tracks: " + tracks.size());
// List fretStates = new LinkedList();
int index = 1;
for (Iterator<GPTrack> it = tracks.iterator(); it.hasNext(); index++) {
GPTrack track = it.next();
int port = track.getPort();
int channel = track.getChannel();
int channelEffects = track.getChannelEffects();
logger.fine(
"Track " + index + " port " + port + " channels " + channel + "," + channelEffects);
int channelIndex = (port - 1) * 16 + (channel - 1);
GPMIDIChannel mc = piece.getChannels(channelIndex);
int strings = track.getNumberOfStrings();
SongTrack st = new SongTrackImpl(index, strings); // channel is
// 1-based
st.setPrimaryDevice(new SongDeviceImpl(port, channel));
if (channel != channelEffects) {
st.setSecondaryDevice(new SongDeviceImpl(port, channelEffects));
}
st.setBendSensitivity(2);
int instrument = mc.getInstrument();
logger.fine("Instrument " + instrument);
// Only set valid instruments. The drum track usually doesn't have
// one.
st.setProgram(instrument);
// TODO Verify the volume setting is correct
st.setVolume(8 * mc.getVolume());
// TODO Verify the pan setting is correct
st.setPan(8 * mc.getBalance());
// TODO Verify the chorus setting is correct
st.setChorus(8 * mc.getChorus());
// TODO verify the reverb setting is correct
st.setReverb(8 * mc.getReverb());
// TODO Verify the tremolo setting is correct
st.setTremolo(8 * mc.getTremolo());
// TODO Verify the phaser setting is correct
st.setPhaser(8 * mc.getPhaser());
song.addTrack(st);
}
List<GPMeasureTrackPair> measureTrackPairs = piece.getMeasuresTracksPairs();
logger.finer("Measure/Track pairs: " + measureTrackPairs.size());
ListIterator<GPMeasureTrackPair> itMTP = measureTrackPairs.listIterator();
ListIterator<GPMeasure> itM = measures.listIterator();
while (itM.hasNext()) {
SongPhrase sp = phraseFactory(song, itM, itMTP, tracks);
song.addPhrase(sp);
}
logger.exiting(className, methodName, song);
return song;
}
