Beispiel #1
0
  public static Sequence process(
      final Sequence inputSequence,
      int track,
      long startTick,
      long endTick,
      int noteOverlap,
      int minimumRest,
      Handler loggingHandler)
      throws InvalidMidiDataException {
    Sequence outputSequence =
        new Sequence(inputSequence.getDivisionType(), inputSequence.getResolution());
    Track[] inputTracks = inputSequence.getTracks();
    SlurBinderA.noteOverlap = noteOverlap;
    SlurBinderA.minimumRest = minimumRest;
    slurEndNotes = new HashSet<>();

    for (int trackI = 0; trackI < inputTracks.length; trackI++) {
      Track inputTrack = inputTracks[trackI];
      Track outputTrack = outputSequence.createTrack();

      if (trackI == track) {
        handleTrack(outputTrack, inputTrack, startTick, endTick);
      } else {
        for (int eventI = 0; eventI < inputTrack.size(); eventI++) {
          MidiEvent midEvent = inputTrack.get(eventI);
          outputTrack.add(midEvent);
        }
      }
    }

    return outputSequence;
  }
Beispiel #2
0
  public void go() {
    setUpGui();

    try {

      Sequencer sequencer = MidiSystem.getSequencer();
      sequencer.open();
      // make a sequencer and open
      sequencer.addControllerEventListener(m1, new int[] {127});
      Sequence seq = new Sequence(Sequence.PPQ, 4);
      Track track = seq.createTrack();

      int r = 0;
      for (int i = 0; i < 300; i += 4) {

        r = (int) ((Math.random() * 50) + 1);
        track.add(makeEvent(144, 1, r, 100, i));
        track.add(makeEvent(176, 1, 127, 0, i));
        track.add(makeEvent(128, 1, r, 100, i + 2));
      } // end loop

      sequencer.setSequence(seq);
      sequencer.start();
      sequencer.setTempoInBPM(120);
    } catch (Exception ex) {
      ex.printStackTrace();
    }
  } // close method
Beispiel #3
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  public void buildTrackAndStart() {
    int[] trackList = null;

    sequence.deleteTrack(track);
    track = sequence.createTrack();

    for (int i = 0; i < 16; i++) {
      trackList = new int[16];

      int key = instruments[i];

      for (int j = 0; j < 16; j++) {
        JCheckBox jc = (JCheckBox) checkboxList.get(j + (16 * i));
        if (jc.isSelected()) {
          trackList[j] = key;
        } else {
          trackList[j] = 0;
        }
      } // close inner loop

      makeTracks(trackList);
      track.add(makeEvent(176, 1, 127, 0, 16));
    } // close outer

    track.add(makeEvent(192, 9, 1, 0, 15));
    try {
      sequencer.setSequence(sequence);
      sequencer.setLoopCount(sequencer.LOOP_CONTINUOUSLY);
      sequencer.start();
      sequencer.setTempoInBPM(120);
    } catch (Exception e) {
      e.printStackTrace();
    }
  } // close buildTrackAndStart method
Beispiel #4
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  public void play(int instrument, int note) {
    try {

      Sequencer player = MidiSystem.getSequencer();
      player.open();
      Sequence seq = new Sequence(Sequence.PPQ, 4);
      Track track = seq.createTrack();

      MidiEvent event = null;
      ShortMessage first = new ShortMessage();
      first.setMessage(192, 1, instrument, 0);
      MidiEvent changeInstrument = new MidiEvent(first, 1);
      track.add(changeInstrument);
      ShortMessage a = new ShortMessage();
      a.setMessage(144, 1, note, 100);
      MidiEvent noteOn = new MidiEvent(a, 1);
      track.add(noteOn);
      ShortMessage b = new ShortMessage();
      b.setMessage(128, 1, note, 100);
      MidiEvent noteOff = new MidiEvent(b, 16);
      track.add(noteOff);
      player.setSequence(seq);
      player.start();
    } catch (Exception ex) {
      ex.printStackTrace();
    }
  } // close play
Beispiel #5
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  public void los() {
    guiErstellen();

    try {
      Sequencer sequencer = MidiSystem.getSequencer();
      sequencer.open();
      sequencer.addControllerEventListener(ml, new int[] {127});
      Sequence seq = new Sequence(Sequence.PPQ, 4);
      Track track = seq.createTrack();

      int r = 0;

      for (int i = 0; i < 60; i += 4) {

        r = (int) ((Math.random() * 50) + 1);

        track.add(eventErzeugen(144, 1, r, 100, i));

        track.add(eventErzeugen(176, 1, 127, 0, i));

        track.add(eventErzeugen(128, 1, r, 100, i + 2));
      }

      sequencer.setSequence(seq);
      sequencer.setTempoInBPM(120);
      sequencer.start();
      Thread.sleep(5000);
      sequencer.close();
    } catch (Exception ex) {
      ex.printStackTrace();
    }
  }
Beispiel #6
0
  public static void convertMidi2RealTime(Sequence seqIn) {
    seq = seqIn;
    double currentTempo = 500000;
    int tickOfTempoChange = 0;
    double msb4 = 0;
    double division = seq.getResolution();
    int lastTick = 0;
    int count = 0;
    for (int track = 0; track < seq.getTracks().length; track++) nextMessageOf.add(0);
    System.out.println();

    MidiEvent nextEvent;
    while ((nextEvent = getNextEvent()) != null) {
      int tick = (int) nextEvent.getTick();
      if (noteIsOff(nextEvent)) {
        double time =
            (msb4 + (((currentTempo / seq.getResolution()) / 1000) * (tick - tickOfTempoChange)));
        System.out.println(
            "track="
                + currentTrack
                + " tick="
                + tick
                + " time="
                + (int) (time + 0.5)
                + "ms "
                + " note "
                + ((int) nextEvent.getMessage().getMessage()[1] & 0xFF)
                + " off");
      } else if (noteIsOn(nextEvent)) {
        double time =
            (msb4 + (((currentTempo / seq.getResolution()) / 1000) * (tick - tickOfTempoChange)));
        System.out.println(
            "track="
                + currentTrack
                + " tick="
                + tick
                + " time="
                + (int) (time + 0.5)
                + "ms "
                + " note "
                + ((int) nextEvent.getMessage().getMessage()[1] & 0xFF)
                + " on");
      } else if (changeTemp(nextEvent)) {
        String a = (Integer.toHexString((int) nextEvent.getMessage().getMessage()[3] & 0xFF));
        String b = (Integer.toHexString((int) nextEvent.getMessage().getMessage()[4] & 0xFF));
        String c = (Integer.toHexString((int) nextEvent.getMessage().getMessage()[5] & 0xFF));
        if (a.length() == 1) a = ("0" + a);
        if (b.length() == 1) b = ("0" + b);
        if (c.length() == 1) c = ("0" + c);
        String whole = a + b + c;
        int newTempo = Integer.parseInt(whole, 16);
        double newTime = (currentTempo / seq.getResolution()) * (tick - tickOfTempoChange);
        msb4 += (newTime / 1000);
        tickOfTempoChange = tick;
        currentTempo = newTempo;
      }
    }
  }
Beispiel #7
0
 /**
  * @param key is the note that this starts with. 60 is middle C.
  * @param tempo is measured in beats per second
  */
 public MidiFileGenerator(int key, int tempo, int resolution)
     throws MidiUnavailableException, InvalidMidiDataException {
   this.resolution = resolution;
   Sequence sequence = new Sequence(Sequence.PPQ, resolution);
   track = sequence.createTrack();
   // makeSong(key);
   sequencer = MidiSystem.getSequencer();
   sequencer.open();
   sequencer.setSequence(sequence);
   sequencer.setTempoInBPM(tempo);
 }
Beispiel #8
0
 public boolean addStrikeToSequence(int bell, long millis) {
   try {
     fSequence.getTracks()[0].add(createBellMarker(bell, millis));
     fSequence.getTracks()[0].add(createBellNote(bell, millis));
     fSequence.getTracks()[0].add(createBellNoteOff(bell, millis + 2000));
   } catch (InvalidMidiDataException e) {
     System.out.println("Failed to create Midi note: " + e);
     return false;
   }
   return true;
 }
Beispiel #9
0
 public Sequence getSequence(InputStream inputStream)
     throws InvalidMidiDataException, IOException {
   MidiFileFormat midiFileFormat = getMidiFileFormat(inputStream);
   Sequence sequence =
       new Sequence(midiFileFormat.getDivisionType(), midiFileFormat.getResolution());
   DataInputStream dataInputStream = new DataInputStream(inputStream);
   int nNumTracks = ((TMidiFileFormat) midiFileFormat).getTrackCount();
   for (int nTrack = 0; nTrack < nNumTracks; nTrack++) {
     Track track = sequence.createTrack();
     readTrack(dataInputStream, track);
   }
   return sequence;
 }
Beispiel #10
0
  /**
   * Send entry MIDI Sequence into Receiver using time stamps.
   *
   * @return The total length of the sequence.
   */
  private double send(final Sequence seq, final Receiver recv) {
    assert seq.getDivisionType() == Sequence.PPQ;

    final float divtype = seq.getDivisionType();
    final Track[] tracks = seq.getTracks();

    tune(recv);

    final int[] trackspos = new int[tracks.length];
    int mpq = 500000;
    final int seqres = seq.getResolution();
    long lasttick = 0;
    long curtime = 0;
    while (true) {
      MidiEvent selevent = null;
      int seltrack = -1;
      for (int i = 0; i < tracks.length; i++) {
        final int trackpos = trackspos[i];
        final Track track = tracks[i];
        if (trackpos < track.size()) {
          final MidiEvent event = track.get(trackpos);
          if (selevent == null || event.getTick() < selevent.getTick()) {
            selevent = event;
            seltrack = i;
          }
        }
      }
      if (seltrack == -1) {
        break;
      }
      trackspos[seltrack]++;
      final long tick = selevent.getTick();
      if (divtype == Sequence.PPQ) {
        curtime += (tick - lasttick) * mpq / seqres;
      } else {
        curtime = (long) (tick * 1000000.0 * divtype / seqres);
      }
      lasttick = tick;
      final MidiMessage msg = selevent.getMessage();
      if (msg instanceof MetaMessage) {
        if (divtype == Sequence.PPQ && ((MetaMessage) msg).getType() == 0x51) {
          final byte[] data = ((MetaMessage) msg).getData();
          mpq = (data[0] & 0xff) << 16 | (data[1] & 0xff) << 8 | data[2] & 0xff;
        }
      } else if (recv != null) {
        recv.send(msg, curtime);
      }
    }
    return curtime / 1000000.0;
  }
Beispiel #11
0
 public void go() {
   try {
     sq.open();
     Sequence seq = new Sequence(Sequence.PPQ, 4);
     Track track = seq.createTrack();
     track.add(addNote(144, 9, 56, 100, 1));
     track.add(addNote(128, 9, 56, 100, 4));
     sq.setSequence(seq);
     sq.setTempoInBPM(tempo);
     sq.setLoopCount(Sequencer.LOOP_CONTINUOUSLY);
     sq.start();
   } catch (Exception ex) {
     ex.printStackTrace();
   }
 }
Beispiel #12
0
    public void run() {
      try {
        /*wait(n);
        synchronized(n)
        {
        	n++;
        	notifyAll();
        }*/

        seq.setSequence(mySeq);
        long length = mySeq.getMicrosecondLength();
        m_playing.add(this);
        seq.start();
        Thread.sleep(length / 1000);
        seq.close();
        synth.close();
        m_playing.remove(this);

        /*wait(n);
        synchronized(n)
        {
        	n--;
        	notifyAll();
        }*/
      } catch (InvalidMidiDataException e) {
        Debug.showException(e, "MidiPlayer::run InvalidMidiDataException");
      } catch (InterruptedException e) {
        seq.close();
        synth.close();
        // Debug.showMessage("MidiCSD::PlayMidiFile: Interrupted" + e.getMessage());
      }
    }
Beispiel #13
0
  public Sequencer(int instrument, int tempo) {
    // Set up initial settings for the sequencer
    this.instrument = instrument;
    this.tempo = tempo;
    Synthesizer synth;
    ticks = 0;
    velocity = 64; // Mid volume

    try {
      // Setup values to create sequencer
      sequence = new Sequence(Sequence.PPQ, 16);
      sequencer = MidiSystem.getSequencer();
      sequencer.open();
      synth = MidiSystem.getSynthesizer();
      synth.open();
      sequencer.getTransmitter().setReceiver(synth.getReceiver());
      sequencer.setTempoInBPM(tempo);
      track = sequence.createTrack();

    } catch (InvalidMidiDataException e) {
      e.printStackTrace();
    } catch (MidiUnavailableException e) {
      e.printStackTrace();
    }
  }
Beispiel #14
0
  /**
   * Given a microsecond time, convert to tick. returns tempo at the given time in
   * cache.getCurrTempoMPQ
   */
  public static long microsecond2tick(Sequence seq, long micros, TempoCache cache) {
    if (seq.getDivisionType() != Sequence.PPQ) {
      double dTick =
          (((double) micros) * ((double) seq.getDivisionType()) * ((double) seq.getResolution()))
              / ((double) 1000000);
      long tick = (long) dTick;
      if (cache != null) {
        cache.currTempo = (int) cache.getTempoMPQAt(tick);
      }
      return tick;
    }

    if (cache == null) {
      cache = new TempoCache(seq);
    }
    long[] ticks = cache.ticks;
    int[] tempos = cache.tempos; // in MPQ
    int cacheCount = tempos.length;

    int resolution = seq.getResolution();

    long us = 0;
    long tick = 0;
    int newReadPos = 0;
    int i = 1;

    // walk through all tempo changes and add time for the respective blocks
    // to find the right tick
    if (micros > 0 && cacheCount > 0) {
      // this loop requires that the first tempo Event is at time 0
      while (i < cacheCount) {
        long nextTime = us + ticks2microsec(ticks[i] - ticks[i - 1], tempos[i - 1], resolution);
        if (nextTime > micros) {
          break;
        }
        us = nextTime;
        i++;
      }
      tick = ticks[i - 1] + microsec2ticks(micros - us, tempos[i - 1], resolution);
      if (Printer.debug)
        Printer.debug("microsecond2tick(" + (micros / 1000) + ") = " + tick + " ticks.");
      // if (Printer.debug) Printer.debug("   -> convert back = " + (tick2microsecond(seq, tick,
      // null) / 1000)+" microseconds");
    }
    cache.currTempo = tempos[i - 1];
    return tick;
  }
Beispiel #15
0
 /* Write a sequence to an output stream in standard midi format.
  * @see javax.sound.midi.spi.MidiFileWriter#write(javax.sound.midi.Sequence, int, java.io.OutputStream)
  */
 public int write(Sequence in, int fileType, OutputStream out) throws IOException {
   MidiDataOutputStream dos = new MidiDataOutputStream(out);
   Track[] tracks = in.getTracks();
   dos.writeInt(0x4d546864); // MThd
   dos.writeInt(6);
   dos.writeShort(fileType);
   dos.writeShort(tracks.length);
   float divisionType = in.getDivisionType();
   int resolution = in.getResolution();
   // FIXME: division computation is incomplete.
   int division = 0;
   if (divisionType == Sequence.PPQ) division = resolution & 0x7fff;
   dos.writeShort(division);
   int length = 14;
   for (Track track : tracks) length += writeTrack(track, dos);
   return length;
 }
Beispiel #16
0
 public boolean addRowStartMarkToSequence(int rowN, long millis) {
   try {
     fSequence.getTracks()[0].add(createRowStartMarker(rowN, millis));
   } catch (InvalidMidiDataException e) {
     System.out.println("Failed to create Midi marker: " + e);
     return false;
   }
   return true;
 }
Beispiel #17
0
  /**
   * Adds this Note at the specified time on the specified Track and channel in the specified
   * Sequence, then returns the time that a sequential Note should be added.
   *
   * @param seq the Sequence to which to add this Note
   * @param track the Track in the Sequence to which to add this Note
   * @param time the time at which to start this Note
   * @param ch the channel on which to put this Note
   * @param transposition amount by which to transpose this note in semitones
   * @param sendBankSelect
   * @return
   * @throws javax.sound.midi.InvalidMidiDataException
   */
  public long render(
      Sequence seq, Track track, long time, int ch, int transposition, boolean sendBankSelect)
      throws InvalidMidiDataException {
    if (sendBankSelect) {}
    int dur = getRhythmValue();
    long offTime = time + dur * seq.getResolution() / BEAT;
    render(seq, track, time, offTime, ch, transposition);

    return offTime;
  }
Beispiel #18
0
  public static double send(Sequence seq, Receiver recv) {
    float divtype = seq.getDivisionType();
    assert (seq.getDivisionType() == Sequence.PPQ);
    Track[] tracks = seq.getTracks();
    int[] trackspos = new int[tracks.length];
    int mpq = 60000000 / 100;
    int seqres = seq.getResolution();
    long lasttick = 0;
    long curtime = 0;
    while (true) {
      MidiEvent selevent = null;
      int seltrack = -1;
      for (int i = 0; i < tracks.length; i++) {
        int trackpos = trackspos[i];
        Track track = tracks[i];
        if (trackpos < track.size()) {
          MidiEvent event = track.get(trackpos);
          if (selevent == null || event.getTick() < selevent.getTick()) {
            selevent = event;
            seltrack = i;
          }
        }
      }
      if (seltrack == -1) break;
      trackspos[seltrack]++;
      long tick = selevent.getTick();
      if (divtype == Sequence.PPQ) curtime += ((tick - lasttick) * mpq) / seqres;
      else curtime = (long) ((tick * 1000000.0 * divtype) / seqres);
      lasttick = tick;
      MidiMessage msg = selevent.getMessage();
      if (msg instanceof MetaMessage) {
        if (divtype == Sequence.PPQ)
          if (((MetaMessage) msg).getType() == 0x51) {
            byte[] data = ((MetaMessage) msg).getData();
            mpq = ((data[0] & 0xff) << 16) | ((data[1] & 0xff) << 8) | (data[2] & 0xff);
          }
      } else {
        if (recv != null) recv.send(msg, curtime);
      }
    }

    return curtime / 1000000.0;
  }
Beispiel #19
0
  /**
   * Given a tick, convert to microsecond
   *
   * @param cache tempo info and current tempo
   */
  public static long tick2microsecond(Sequence seq, long tick, TempoCache cache) {
    if (seq.getDivisionType() != Sequence.PPQ) {
      double seconds = ((double) tick / (double) (seq.getDivisionType() * seq.getResolution()));
      return (long) (1000000 * seconds);
    }

    if (cache == null) {
      cache = new TempoCache(seq);
    }

    int resolution = seq.getResolution();

    long[] ticks = cache.ticks;
    int[] tempos = cache.tempos; // in MPQ
    int cacheCount = tempos.length;

    // optimization to not always go through entire list of tempo events
    int snapshotIndex = cache.snapshotIndex;
    int snapshotMicro = cache.snapshotMicro;

    // walk through all tempo changes and add time for the respective blocks
    long us = 0; // microsecond

    if (snapshotIndex <= 0 || snapshotIndex >= cacheCount || ticks[snapshotIndex] > tick) {
      snapshotMicro = 0;
      snapshotIndex = 0;
    }
    if (cacheCount > 0) {
      // this implementation needs a tempo event at tick 0!
      int i = snapshotIndex + 1;
      while (i < cacheCount && ticks[i] <= tick) {
        snapshotMicro += ticks2microsec(ticks[i] - ticks[i - 1], tempos[i - 1], resolution);
        snapshotIndex = i;
        i++;
      }
      us =
          snapshotMicro
              + ticks2microsec(tick - ticks[snapshotIndex], tempos[snapshotIndex], resolution);
    }
    cache.snapshotIndex = snapshotIndex;
    cache.snapshotMicro = snapshotMicro;
    return us;
  }
Beispiel #20
0
  public void setUpMidi() {
    try {
      sequencer = MidiSystem.getSequencer();
      sequencer.open();
      sequence = new Sequence(Sequence.PPQ, 4);
      track = sequence.createTrack();
      sequencer.setTempoInBPM(120);

    } catch (Exception e) {
      e.printStackTrace();
    }
  } // close method
Beispiel #21
0
 public static MidiEvent getNextEvent() {
   ArrayList<MidiEvent> nextEvent = new ArrayList<MidiEvent>();
   ArrayList<Integer> trackOfNextEvent = new ArrayList<Integer>();
   for (int track = 0; track < seq.getTracks().length; track++) {
     if (seq.getTracks()[track].size() - 1 > (nextMessageOf.get(track))) {
       nextEvent.add(seq.getTracks()[track].get(nextMessageOf.get(track)));
       trackOfNextEvent.add(track);
     }
   }
   if (nextEvent.size() == 0) return null;
   int closestMessage = 0;
   int smallestTick = (int) nextEvent.get(0).getTick();
   for (int trialMessage = 1; trialMessage < nextEvent.size(); trialMessage++) {
     if ((int) nextEvent.get(trialMessage).getTick() < smallestTick) {
       smallestTick = (int) nextEvent.get(trialMessage).getTick();
       closestMessage = trialMessage;
     }
   }
   currentTrack = trackOfNextEvent.get(closestMessage);
   nextMessageOf.set(currentTrack, (nextMessageOf.get(currentTrack) + 1));
   return nextEvent.get(closestMessage);
 }
Beispiel #22
0
    public void actionPerformed(ActionEvent ev) {

      try {

        // make (and open) a sequencer, make a sequence and track

        Sequencer sequencer = MidiSystem.getSequencer();
        sequencer.open();

        sequencer.addControllerEventListener(myPanel, new int[] {127});
        Sequence seq = new Sequence(Sequence.PPQ, 4);
        Track track = seq.createTrack();

        // now make two midi events (containing a midi message)

        for (int i = 0; i < 100; i += 4) {

          int rNum = (int) ((Math.random() * 50) + 1);
          if (rNum < 38) { // so now only do it if num <38 (75% of the time)

            track.add(makeEvent(144, 1, rNum, 100, i));

            track.add(makeEvent(176, 1, 127, 0, i));

            track.add(makeEvent(128, 1, rNum, 100, i + 2));
          }
        } // end loop

        // add the events to the track
        // add the sequence to the sequencer, set timing, and start

        sequencer.setSequence(seq);

        sequencer.start();
        sequencer.setTempoInBPM(220);
      } catch (Exception ex) {
        ex.printStackTrace();
      }
    } // close actionperformed
Beispiel #23
0
  private void loadNotes() {
    int program = 0;
    HashMap<Integer, Float> lastTimeNote = new HashMap<Integer, Float>();
    HashMap<Float, Integer> secondsNotes = new HashMap<Float, Integer>();
    this.notas = new ArrayList<MIDINote>();
    for (Track track : sequencia.getTracks()) {
      for (int c = 0; c < track.size(); ++c) {
        MidiEvent event = track.get(c);
        MidiMessage msg = event.getMessage();
        if (msg instanceof ShortMessage) {
          ShortMessage shortmsg = (ShortMessage) msg;
          if (shortmsg.getCommand() == ShortMessage.PROGRAM_CHANGE) {
            program = shortmsg.getData1();
          } else {
            // }else if(program>=25 && program <= 40){
            // else if(program== 30){
            if (shortmsg.getCommand() == ShortMessage.NOTE_ON) {
              MIDINote midiNote = new MIDINote(event, sequencia, tempoProcessor, program);
              // tocador.start();
              int noteChord = midiNote.getChord();
              float noteSecond = midiNote.getSecond();
              if (!lastTimeNote.containsKey(noteChord)) {
                lastTimeNote.put(noteChord, 0.0f);
              }
              if (noteSecond - lastTimeNote.get(noteChord).floatValue() <= this.interval) {
                continue;
              }
              lastTimeNote.put(noteChord, noteSecond);
              // System.out.println("Play chord "+noteChord+" in "+noteSecond+" seconds");
              notas.add(midiNote);
              if (!secondsNotes.containsKey(noteSecond)) {
                secondsNotes.put(noteSecond, 1);
              }
              secondsNotes.put(noteSecond, secondsNotes.get(noteSecond).intValue() + 1);
            }
          }
        }
      }
    }

    // System.out.println("tamanho da pista "+notas.size()+" e track "+maxNote);
    for (float second : secondsNotes.keySet()) {
      int repeated = secondsNotes.get(second).intValue();
      if (repeated > maxNote) {
        this.maxNote = repeated;
      }
    }
    this.notesLength = secondsNotes.size();
    // GameEngine.getInstance().setFramesPerSecond((int)(((tocador.getMicrosecondLength()/1000000)/(notas.size()*1.0))*4000));
    // System.out.println("(int)(("+sequencia.getMicrosecondLength()+"/1000000)/"+notas.size()+"="+(int)((sequencia.getMicrosecondLength()/1000000)/notas.size()))
  }
Beispiel #24
0
  /**
   * Import a song into the MidiExporter to play or export.
   *
   * @param song The Song to convert to MIDI
   */
  public void importSong(Song song) {
    // Fetch important data from the song.
    // Meaning, metadata and the song itself.
    Beat[] beats = song.getBeatArray();
    this.song = song;

    // Create a track for each voice.
    int numVoices = song.getNumVoices();
    for (int voiceCount = 0; voiceCount < numVoices; voiceCount++) {
      sequence.createTrack();
    }

    // Iterate through each beat, adding each note to the corresponding
    // track.
    Track[] tracks = sequence.getTracks();
    for (int beat = 0; beat < beats.length; beat++) {
      Note[] firstHalf = beats[beat].getNotesFirstHalf();
      Note[] secondHalf = beats[beat].getNotesSecondHalf();
      // Iterate through each note in the beat, adding it to the
      // corresponding track.
      for (int note = 0; note < firstHalf.length; note++) {
        if (firstHalf[note] == secondHalf[note]) {
          createNote(firstHalf[note], 2 * beat, 2, tracks[note]);
        } else {
          createNote(firstHalf[note], 2 * beat, 1, tracks[note]);
          createNote(secondHalf[note], 2 * beat + 1, 1, tracks[note]);
        } // if/else
      } // for
    } // for

    try {
      setUpSequencer();
    } catch (MidiUnavailableException ex) {
      System.out.println("Unable to set up sequencer");
      // do nothing
    }
  }
Beispiel #25
0
  public void los() {
    guiErstellen();

    try {

      // einen Sequencer erzeugen (und öffnen),
      // eine Sequence und einen Track erzeugen

      Sequencer sequencer = MidiSystem.getSequencer();
      sequencer.open();
      sequencer.addControllerEventListener(ml, new int[] {127});
      Sequence seq = new Sequence(Sequence.PPQ, 4);
      Track track = seq.createTrack();

      // jetzt werden MidiEvents (die eine
      // MidiMessage enthalten) erzeugt

      int r = 0;
      for (int i = 0; i < 60; i += 4) {
        r = (int) ((Math.random() * 50) + 1);
        track.add(eventErzeugen(144, 1, r, 100, i));
        track.add(eventErzeugen(176, 1, 127, 0, i));
        track.add(eventErzeugen(128, 1, r, 100, i + 2));
      } // Ende der for-Schleife

      // Hinzufügen der Events zum Track und der Sequence
      // zum Sequencer, Setzen der Zeiten und Starten

      sequencer.setSequence(seq);
      sequencer.start();
      sequencer.setTempoInBPM(120);

    } catch (Exception ex) {
      ex.printStackTrace();
    }
  } // Methode los schließen
Beispiel #26
0
 public boolean createSequence() {
   try {
     // Create a sequence with microsecond timing resolution
     // (Although this doesn't seem to have any effect on tick resolution - ticks in MidiEvents
     // always microsecond
     fSequence = new Sequence(Sequence.SMPTE_25, 40000);
     // Create track and add program change to bell sound
     Track track = fSequence.createTrack();
     // track.add(createBankChange(1, 0));
     track.add(createProgramChange(14, 0));
   } catch (InvalidMidiDataException e) {
     System.out.println("Error creating sequence: " + e);
     return false;
   }
   return true;
 }
Beispiel #27
0
 public synchronized void refresh(Sequence seq) {
   ArrayList<MidiEvent> list = new ArrayList<>();
   Track[] tracks = seq.getTracks();
   if (tracks.length > 0) {
     // tempo events only occur in track 0
     Track track = tracks[0];
     int c = track.size();
     for (int i = 0; i < c; i++) {
       MidiEvent ev = track.get(i);
       MidiMessage msg = ev.getMessage();
       if (isMetaTempo(msg)) {
         // found a tempo event. Add it to the list
         list.add(ev);
       }
     }
   }
   int size = list.size() + 1;
   firstTempoIsFake = true;
   if ((size > 1) && (list.get(0).getTick() == 0)) {
     // do not need to add an initial tempo event at the beginning
     size--;
     firstTempoIsFake = false;
   }
   ticks = new long[size];
   tempos = new int[size];
   int e = 0;
   if (firstTempoIsFake) {
     // add tempo 120 at beginning
     ticks[0] = 0;
     tempos[0] = DEFAULT_TEMPO_MPQ;
     e++;
   }
   for (int i = 0; i < list.size(); i++, e++) {
     MidiEvent evt = list.get(i);
     ticks[e] = evt.getTick();
     tempos[e] = getTempoMPQ(evt.getMessage());
   }
   snapshotIndex = 0;
   snapshotMicro = 0;
 }
Beispiel #28
0
  public boolean writeSequence(NoteList noteList) {

    this.noteList = noteList;

    toneMap = toneMapFrame.getToneMap();
    timeSet = toneMap.getTimeSet();
    pitchSet = toneMap.getPitchSet();
    timeRange = timeSet.getRange();
    pitchRange = pitchSet.getRange();

    if (!buildNoteSequence()) return false;

    try {
      sequence = new Sequence(Sequence.PPQ, 10);
    } catch (Exception ex) {
      ex.printStackTrace();
      return false;
    }

    track = sequence.createTrack();
    startTime = System.currentTimeMillis();

    // add a program change right at the beginning of
    // the track for the current instrument

    createEvent(PROGRAM, cc.program + 1, 1);

    for (int i = 0; i < noteSequence.size(); i++) {
      noteSequenceElement = noteSequence.get(i);
      if (noteSequenceElement.state == ON)
        if (!createEvent(NOTEON, noteSequenceElement.note, noteSequenceElement.tick)) return false;
      if (noteSequenceElement.state == OFF)
        if (!createEvent(NOTEOFF, noteSequenceElement.note, noteSequenceElement.tick)) return false;
    }
    return true;
  }
Beispiel #29
0
  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");
    }
  }
Beispiel #30
0
  /**
   * Converts the given tune to a midi sequence.
   *
   * @param tune The tune to be converted.
   * @return The midi sequence of the tune.
   */
  public Sequence toMidiSequence(Tune tune) {
    Sequence sequence = null;
    try {
      if (instrument == null) {
        Synthesizer synth = MidiSystem.getSynthesizer();
        synth.open();
        try {
          setInstrument(synth.getAvailableInstruments()[0]);
        } finally {
          synth.close();
        }
      }
      // Sequence in ticks per quarter note : PPQ = Pulse Per Quarter Note
      // Resolution is expressed in ticks per beat.
      // Last parameter "1" is the number of tracks.
      sequence = new Sequence(Sequence.PPQ, SEQUENCE_RESOLUTION, 1);
      // Set the instrument on channel 0
      ShortMessage sm = new ShortMessage();
      sm.setMessage(ShortMessage.PROGRAM_CHANGE, 0, instrument.getPatch().getProgram(), 0);

      Track track = sequence.createTrack();
      track.add(new MidiEvent(sm, 0));
      // long trackLengthInTicks = track.ticks();
      int lastRepeatOpen = -1;
      int repeatNumber = 1;
      boolean inWrongEnding = false;
      KeySignature tuneKey = null;
      KeySignature currentKey = null;
      Hashtable partsKey = new Hashtable();

      long elapsedTime = 0;
      NoteAbstract[] graceNotes = null;
      Music staff = tune.getMusicForAudioRendition();
      Iterator it = staff.getVoices().iterator();
      while (it.hasNext()) {
        Voice voice = (Voice) it.next();
        int i = 0; // StaffItem iterator
        while (i < voice.size()) {
          if (!inWrongEnding) {
            // ==================================================================== TEMPO
            if (voice.elementAt(i) instanceof abc.notation.Tempo) {
              addTempoEventsFor(
                  track,
                  elapsedTime,
                  getMidiMessagesFor((Tempo) voice.elementAt(i))); // , trackLengthInTicks));
            } else
            /*if (voice.elementAt(i) instanceof abc.notation.PartLabel) {
            	//Imagine... part A in Gmaj, B in Amin
            	//in tune you have K:G, P:A, ... P:B, K:Am
            	//if you have part order ABA, when you return to A
            	//you stay in Amin. This stores the tuneKey when a
            	//new part appear, and restitute it when part is played again
            	abc.notation.PartLabel pl = (abc.notation.PartLabel) voice.elementAt(i);
            	if (partsKey.get(pl.getLabel()+"") == null) {
            		partsKey.put(pl.getLabel()+"", tuneKey);
            	} else {
            		tuneKey = (KeySignature) partsKey.get(pl.getLabel()+"");
            	}
            }
            else*/
            // ==================================================================== KEY SIGNATURE
            if (voice.elementAt(i) instanceof abc.notation.KeySignature) {
              tuneKey = (KeySignature) (voice.elementAt(i));
              currentKey = new KeySignature(tuneKey.getAccidentals());
            } else
            // ==================================================================== NOTE
            // Notes ending ties should be ignored. Already taken into
            // account in getNoteLengthInTicks(Note)
            if (voice.elementAt(i) instanceof abc.notation.Note
                && !((abc.notation.Note) voice.elementAt(i)).isEndingTie()) {

              Note note = (Note) voice.elementAt(i);
              long noteDuration;
              boolean fermata = false;
              Vector decorationNotes = new Vector();
              if (note.hasGeneralGracing() || note.hasDecorations()) {
                Decoration[] d = note.getDecorations();
                for (int j = 0; j < d.length; j++) {
                  switch (d[j].getType()) {
                    case Decoration.FERMATA:
                    case Decoration.FERMATA_INVERTED:
                      fermata = true;
                      break;
                    case Decoration.LOWERMORDENT:
                    case Decoration.UPPERMORDENT:
                    case Decoration.DOUBLE_LOWER_MORDANT:
                    case Decoration.DOUBLE_UPPER_MORDANT:
                    case Decoration.TRILL:
                    case Decoration.TURN: // GRUPETTO_UP
                    case Decoration.TURN_INVERTED: // GRUPETTO_DOWN
                    case Decoration.TURNX:
                    case Decoration.TURNX_INVERTED:
                      Note n = new Note(note.getHeight());
                      n.setAccidental(note.getAccidental(currentKey));
                      Note o =
                          new Interval(Interval.SECOND, Interval.MAJOR, Interval.UPWARD)
                              .calculateSecondNote(n);
                      Note m =
                          new Interval(Interval.SECOND, Interval.MAJOR, Interval.DOWNWARD)
                              .calculateSecondNote(n);
                      // TODO ornament templates: regular, musette, balkan...
                      // n.setStrictDuration(Note.SIXTEENTH);
                      // o.setDuration((short)(Note.EIGHTH+Note.SIXTEENTH));
                      o.setAccidental(Accidental.NONE);
                      m.setAccidental(Accidental.NONE);
                      n.setStrictDuration(Note.THIRTY_SECOND);
                      m.setStrictDuration(Note.THIRTY_SECOND);
                      o.setStrictDuration(Note.THIRTY_SECOND);
                      switch (d[j].getType()) {
                        case Decoration.DOUBLE_LOWER_MORDANT:
                          decorationNotes.add(n);
                          decorationNotes.add(m);
                        case Decoration.LOWERMORDENT:
                          decorationNotes.add(n);
                          decorationNotes.add(m);
                          break;
                        case Decoration.DOUBLE_UPPER_MORDANT:
                        case Decoration.TRILL:
                          decorationNotes.add(n);
                          decorationNotes.add(o);
                        case Decoration.UPPERMORDENT:
                          decorationNotes.add(n);
                          decorationNotes.add(o);
                          break;
                        case Decoration.TURNX_INVERTED:
                        case Decoration.TURN:
                          decorationNotes.add(o);
                          decorationNotes.add(n);
                          decorationNotes.add(m);
                          break;
                        case Decoration.TURNX:
                        case Decoration.TURN_INVERTED:
                          decorationNotes.add(m);
                          decorationNotes.add(n);
                          decorationNotes.add(o);
                      }
                      break;
                  }
                }
                // currently not used
                // future use: playing rolls, slides, etc.
              }
              long graceNotesDuration = 0;
              if (note.hasGracingNotes() || (decorationNotes.size() > 0)) {
                graceNotes = note.getGracingNotes();
                // gracing are eighth note for graphical rendition
                // and because that's it in the parser
                // adapt duration to note length
                int divisor = 1;
                if (note.getStrictDuration() >= Note.HALF) divisor = 1; // grace is an eighth
                else if (note.getStrictDuration() >= Note.QUARTER) divisor = 2; // 16th
                else if (note.getStrictDuration() >= Note.EIGHTH) divisor = 4; // 32nd
                else divisor = 8; // 64th
                if (note.hasGracingNotes()) {
                  for (int j = 0; j < graceNotes.length; j++) {
                    noteDuration = getNoteLengthInTicks(graceNotes[j], staff) / divisor;
                    graceNotesDuration += noteDuration;
                    if (graceNotes[j] instanceof Note)
                      playNote(
                          (Note) graceNotes[j], i, currentKey, elapsedTime, noteDuration, track);
                    else
                      playMultiNote(
                          (MultiNote) graceNotes[j],
                          i,
                          currentKey, /*elapsedTime,*/
                          noteDuration,
                          track,
                          staff);
                    elapsedTime += noteDuration;
                  }
                }
                for (int j = 0; j < decorationNotes.size(); j++) {
                  noteDuration = getNoteLengthInTicks((Note) decorationNotes.elementAt(j), staff);
                  graceNotesDuration += noteDuration;
                  playNote(
                      (Note) decorationNotes.elementAt(j),
                      i,
                      currentKey,
                      elapsedTime,
                      noteDuration,
                      track);
                  elapsedTime += noteDuration;
                }
              }
              // The note duration if the note isn't part of a tuplet.
              noteDuration = getNoteLengthInTicks(note, staff) - graceNotesDuration;
              if (noteDuration <= 0) // in case of too much grace notes
              noteDuration = getNoteLengthInTicks(note, staff);
              if (fermata) noteDuration *= 2;
              playNote(note, i, currentKey, elapsedTime, noteDuration, track);
              elapsedTime += noteDuration;
            } else
            // ==================================================================== MULTI NOTE
            if ((voice.elementAt(i) instanceof abc.notation.MultiNote)) {
              MultiNote multiNote = (MultiNote) voice.elementAt(i);
              playMultiNote(multiNote, i, currentKey, elapsedTime, track, staff);
              elapsedTime += getNoteLengthInTicks(multiNote, staff);
            }
          } // endif (!inWrongEnding)
          // ====================================================================== REPEAT BAR LINE
          if (voice.elementAt(i) instanceof abc.notation.RepeatBarLine) {
            RepeatBarLine bar = (RepeatBarLine) voice.elementAt(i);
            if (repeatNumber < bar.getRepeatNumbers()[0] && lastRepeatOpen != -1) {
              repeatNumber++;
              i = lastRepeatOpen;
            } else if (repeatNumber > bar.getRepeatNumbers()[0]) inWrongEnding = true;
            else inWrongEnding = false;
          } else
          // ====================================================================== BAR LINE OPEN /
          // CLOSE
          if (voice.elementAt(i) instanceof abc.notation.BarLine) {
            // currentKey = new KeySignature(tuneKey.getAccidentals());
            switch (((BarLine) (voice.elementAt(i))).getType()) {
              case BarLine.SIMPLE:
                break;
              case BarLine.REPEAT_OPEN:
                lastRepeatOpen = i;
                repeatNumber = 1;
                break;
              case BarLine.REPEAT_CLOSE:
                if (repeatNumber < 2 && lastRepeatOpen != -1) {
                  repeatNumber++;
                  i = lastRepeatOpen;
                } else {
                  repeatNumber = 1;
                  lastRepeatOpen = -1;
                }
                break;
                // TODO case BarLine.BEGIN_AND_END_REPEAT
            }
          }
          // Whatever kind of bar line it is
          if (voice.elementAt(i) instanceof abc.notation.BarLine) {
            currentKey = new KeySignature(tuneKey.getAccidentals());
          }
          i++;
        } // end while each element in voice
      } // end while each voice in music
    } catch (InvalidMidiDataException e) {
      e.printStackTrace();
    } catch (Exception e) {
      e.printStackTrace();
    }
    return sequence;
  }