// ParserListener methods
public void noteEvent(Note note) {
if (layer >= staves) {
return;
}
// System.out.println(note.getMusicString() + " " + note.getMillisDuration() + " " +
// note.getDecimalDuration());
Vector<Chord> currChords = chords[layer];
Iterator<NotePanel> currNote = currNotes[layer];
if (!currNote.hasNext()) {
System.err.println("Received noteEvent, but no PostScript notes are left");
return;
}
if (note.getMillisDuration() > 0) {
NotePanel notePanel = currNote.next();
// time the last chord ended
long tempTime = 0;
for (int i = currChords.size() - 1; i >= 0; --i) {
if (!currChords.get(i).isTie()) {
tempTime = currChords.get(i).getTime() + currChords.get(i).getDuration();
break;
}
}
if (notePanel.isTie) {
Chord chord = new Chord();
// for each note in the last chord, set the next note as a tied note
for (int i = 0; i < currChords.lastElement().size(); ++i) {
notePanel.setTie(true).setTime(Math.min(tempTime, time - 1)).setTempo(tempo);
chord.addNote(notePanel);
notePanel = currNote.next();
}
currChords.add(chord);
}
while (notePanel.isRest) {
notePanel
.setTime(Math.min(tempTime, time - 1)) // hack, in case the rest should be trimmed
.setTempo(tempo);
tempTime += notePanel.getDuration();
Chord chord = new Chord(notePanel);
currChords.add(chord);
// System.out.println("REST: " + notePanel.getMusicString() + " " +
// notePanel.getDuration());
notePanel = currNote.next();
}
notePanel.setNote(note).setTime(time).setTempo(tempo);
if (currChords.isEmpty() || currChords.lastElement().getTime() != time) {
Chord chord = new Chord(notePanel);
currChords.add(chord);
} else {
currChords.lastElement().addNote(notePanel);
}
}
}
private void parseMidi() {
try {
// Allow for alternate file extensions of midi files.
File midiFile = new File("data/out/" + name + ".midi");
File altFile = new File("data/out/" + name + ".mid");
if (!midiFile.exists() && altFile.exists()) {
midiFile = altFile;
}
// parse midi
Sequence sequence = MidiSystem.getSequence(midiFile);
resolution = sequence.getResolution();
for (int i = 0; i < staves; ++i) {
currNotes[i] = notes[i].iterator();
}
MidiParser parser = new MidiParser();
parser.addParserListener(this);
parser.parse(sequence);
// initialize any rests trailing at the end
for (int i = 0; i < staves; ++i) {
Vector<Chord> currChords = chords[i];
Iterator<NotePanel> currNote = currNotes[i];
long tempTime = 0;
for (int j = currChords.size() - 1; j >= 0; --j) {
if (!currChords.get(j).isTie()) {
tempTime = currChords.get(j).getTime() + currChords.get(j).getDuration();
break;
}
}
while (currNote.hasNext()) {
NotePanel notePanel = currNote.next();
if (notePanel.getNote() != null) {
notePanel.setTime(tempTime).setTempo(tempo);
tempTime += notePanel.getDuration();
Chord chord = new Chord(notePanel);
currChords.add(chord);
}
}
}
// attach staff lines
for (int layer = 0; layer < staves; ++layer) {
NotePanel prevNote = null;
for (Chord chord : chords[layer]) {
for (NotePanel note : chord.notes) {
double staffLine = 0.0;
for (double line : staffLines.get(layer).get(note.page - 1)) {
if (staffLine < 0.0001 || Math.abs(staffLine - note.y) > Math.abs(line - note.y)) {
staffLine = line;
}
}
if (prevNote != null) {
if (Math.abs(staffLine - prevNote.staffLine) > 0.001) {
// either reached the end of the line, or the note is really high/low
// make a hacky guess if the note is really high/low,
// and if so, set its staffline equal to the previous note's
if (prevNote.x < note.x + 1.0) {
note.setStaffLine(prevNote.staffLine);
prevNote = note;
continue;
}
}
}
note.setStaffLine(staffLine);
prevNote = note;
}
}
}
} catch (Exception e) {
System.err.println("Parsing the score from Lilypond's output has failed. Error: ");
e.printStackTrace();
}
}