示例#1
0
  // Is called by Java MIDI libraries for each MIDI message encountered.
  public void send(MidiMessage message, long timeStamp) {
    if (message.getStatus() > 127 && message.getStatus() < 144) { // Note OFF
      // Convert the MIDI channel being used to the controller pin on the
      // Arduino by multipying by 2.
      byte pin = (byte) (2 * (message.getStatus() - 127));

      System.out.println("Got note OFF on pin: " + (pin & 0xFF));
      mb.sendEvent(pin, 0);
      currentPeriod[message.getStatus() - 128] = 0;
    } else if (message.getStatus() > 143 && message.getStatus() < 160) { // Note ON
      // Convert the MIDI channel being used to the controller pin on the
      // Arduino by multipying by 2.
      byte pin = (byte) (2 * (message.getStatus() - 143));

      // Get note number from MIDI message, and look up the period.
      // NOTE: Java bytes range from -128 to 127, but we need to make them
      // 0-255 to use for lookups.  & 0xFF does the trick.

      // After looking up the period, devide by (the Arduino resolution * 2).
      // The Arduino's timer will only tick once per X microseconds based on the
      // resolution.  And each tick will only turn the pin on or off.  So a full
      // on-off cycle (one step on the floppy) is two periods.
      int period = microPeriods[(message.getMessage()[1] & 0xff)] / (ARDUINO_RESOLUTION * 2);

      System.out.println("Got note ON on pin: " + (pin & 0xFF) + " with period " + period);
      System.out.println(message.getLength() + " " + message.getMessage()[message.getLength() - 1]);

      // Zero velocity events turn off the pin.
      if (message.getMessage()[2] == 0) {
        mb.sendEvent(pin, 0);
        currentPeriod[message.getStatus() - 144] = 0;
      } else {
        mb.sendEvent(pin, period);
        currentPeriod[message.getStatus() - 144] = period;
      }
    } else if (message.getStatus() > 223 && message.getStatus() < 240) { // Pitch bends
      // Only proceed if the note is on (otherwise, no pitch bending)
      if (currentPeriod[message.getStatus() - 224] != 0) {
        // Convert the MIDI channel being used to the controller pin on the
        // Arduino by multipying by 2.
        byte pin = (byte) (2 * (message.getStatus() - 223));

        double pitchBend =
            ((message.getMessage()[2] & 0xff) << 8) + (message.getMessage()[1] & 0xff);

        int period =
            (int)
                (currentPeriod[message.getStatus() - 224]
                    / Math.pow(2.0, (pitchBend - 8192) / 8192));
        System.out.println(currentPeriod[message.getStatus() - 224] + "-" + period);
        mb.sendEvent(pin, period);
      }
    }
  }
示例#2
0
 /** return true if the passed message is Meta End Of Track */
 public static boolean isMetaEndOfTrack(MidiMessage midiMsg) {
   // first check if it is a META message at all
   if (midiMsg.getLength() != 3 || midiMsg.getStatus() != MetaMessage.META) {
     return false;
   }
   // now get message and check for end of track
   byte[] msg = midiMsg.getMessage();
   return ((msg[1] & 0xFF) == META_END_OF_TRACK_TYPE) && (msg[2] == 0);
 }
示例#3
0
 /** return if the given message is a meta tempo message */
 public static boolean isMetaTempo(MidiMessage midiMsg) {
   // first check if it is a META message at all
   if (midiMsg.getLength() != 6 || midiMsg.getStatus() != MetaMessage.META) {
     return false;
   }
   // now get message and check for tempo
   byte[] msg = midiMsg.getMessage();
   // meta type must be 0x51, and data length must be 3
   return ((msg[1] & 0xFF) == META_TEMPO_TYPE) && (msg[2] == 3);
 }
示例#4
0
 /**
  * parses this message for a META tempo message and returns the tempo in MPQ, or -1 if this isn't
  * a tempo message
  */
 public static int getTempoMPQ(MidiMessage midiMsg) {
   // first check if it is a META message at all
   if (midiMsg.getLength() != 6 || midiMsg.getStatus() != MetaMessage.META) {
     return -1;
   }
   byte[] msg = midiMsg.getMessage();
   if (((msg[1] & 0xFF) != META_TEMPO_TYPE) || (msg[2] != 3)) {
     return -1;
   }
   int tempo = (msg[5] & 0xFF) | ((msg[4] & 0xFF) << 8) | ((msg[3] & 0xFF) << 16);
   return tempo;
 }
示例#5
0
    /** {@inheritDoc} */
    public void send(MidiMessage midi, long time) {
      byte[] msg = midi.getMessage();
      int len = midi.getLength();
      if (len <= 1) {
        return;
      }
      StringBuilder out = new StringBuilder("Status: ");
      out.append(msg[0]);
      out.append(" Data: [");
      for (int i = 1; i < len; i++) {
        out.append(msg[i]);
        if (i == len - 1) {
          out.append("");
        } else {
          out.append(',');
        }
      }
      out.append(']');

      log.debug(out.toString());
    }