8

I've inherited a Java project that used an old C++ dll to receive MIDI data from a piano connected to the computer.

Now that Java has built-in support for MIDI devices, I want to get rid of the legacy C++ dll and just use pure Java. Does Java support receiving data from a piano connected to the computer? I've searched Google for examples to no avail.

4

Yes, the JavaSound API can be used to read MIDI data from a MIDI device.

JFugue is a Java API for music programming that uses the JavaSound API, and can help simplify your interaction with JavaSound. In JFugue 5.x, sample code to capture 10 seconds of MIDI data from a MIDI device is as follows:

MidiDevice device = /* specify a MIDI device */
MusicTransmitterToSequence transmitter = new MusicTransmitterToSequence(device); 
transmitter.listenForMillis(10000); 
Sequence music = transmitter.getSequence();

You can also start and stop listening to a device:

MidiDevice device = /* specify a MIDI device */
MusicTransmitterToSequence transmitter = new MusicTransmitterToSequence(device); 
transmitter.startListening(); 
// Do stuff
transmitter.stopListening(); 
Sequence music = transmitter.getSequence();
15

If you want to record with just the MIDI api by Java (javax.sound.midi.*) this is done very easily. This is not code to copy and paste, but it should help you to start programming your own MIDI recorder, which is quite easy actually.

The first step is to define your input and output MidiDevice. So first you will have to find a list of IO possibilities and make a GUI in which you can select the input and output device for your MIDI recording and playback.

Info[] infos = MidiSystem.getMidiDeviceInfo();
for(int i=0;i<infos.length;i++)
{
    System.out.println(infos[i].getName() + " - " + infos[i].getDescription());
}

So there is a list of your MIDI devices. Next you want to select a MIDI device, for example you get to choose the indexes in the infos array.

MidiDevice inputDevice = MidiSystem.getMidiDevice(infos[x]);
MidiDevice outputDevice = MidiSystem.getMidiDevice(infos[y]);

You also will want to specify some globals: sequencer, transmitter and receiver.

Sequencer sequencer = MidiSystem.getSequencer();
Transmitter transmitter;
Receiver receiver;

Now there is a record button you want to use.

// Open a connection to your input device
inputDevice.open();
// Open a connection to the default sequencer (as specified by MidiSystem)
sequencer.open();
// Get the transmitter class from your input device
transmitter = inputDevice.getTransmitter();
// Get the receiver class from your sequencer
receiver = sequencer.getReceiver();
// Bind the transmitter to the receiver so the receiver gets input from the transmitter
transmitter.setReceiver(receiver);

// Create a new sequence
Sequence seq = new Sequence(Sequence.PPQ, 24);
// And of course a track to record the input on
Track currentTrack = seq.createTrack();
// Do some sequencer settings
sequencer.setSequence(seq);
sequencer.setTickPosition(0);
sequencer.recordEnable(currentTrack, -1);
// And start recording
sequencer.startRecording();

Beware, this code can throw MidiUnavailableExceptions and you should call the close methods on all the things you've opened in a finally statement.

But this is just the core of what the code should look like. It records everything to the Sequence seq as soon as you call the method sequencer.startRecording().

Then you want to stop the recording, and be able to save the sequence as MIDI to a file, or do a playback. For example this could be code when you press the Stop record button or something.

// Stop recording
if(sequencer.isRecording())
{
    // Tell sequencer to stop recording
    sequencer.stopRecording();

    // Retrieve the sequence containing the stuff you played on the MIDI instrument
    Sequence tmp = sequencer.getSequence();

    // Save to file
    MidiSystem.write(tmp, 0, new File("MyMidiFile.mid"));
}

Also the Track class (a sequence can have multiple tracks) contains the actual input data, which you can easily access by a get method. The Track class consists of MidiEvents. For example the Track is:

MidiEvent 0: The C key is pressed
MidiEvent 1: The D key is pressed
MidiEvent 2: The C key of MidiEvent 0 is released
MidiEvent 3: The sustain pedal is pressed
etc...

And every MidiEvent has a certain timestamp, which is expressed in MIDI Ticks, thus you can easily change the tempo by increasing or decreasing the number of ticks per second.

The hardest problem here is that MidiEvents are expressed in byte code, thus you will have to use a reference byte code sheet which tells you what byte represents what action. This should get you started with that: http://www.onicos.com/staff/iz/formats/midi-event.html

  • Can you also provide the code to use the Track class? Thanks. – A-Sharabiani Jun 4 '17 at 3:40
  • 1
    @AliSharabiani You can see Track as List<MidiEvent>. There's not much more to it, see also this Oracle Java doc on javax.sound.midi.Track. – Yeti Jun 4 '17 at 10:43
  • I realize that this is an old question, but do you know how to hear the notes I'm recording in real time while they are being recorded? At the moment, I can record notes to the sequence without hearing anything and then play back what I've recorded into the sequence later, but unless I can hear the notes coming out while I'm recording them, then it's not much use. Any pointers? I can create a separate question for this if necessary. – ManoDestra Sep 2 '18 at 16:54
  • @ManoDestra Please, create a new question for that. I have no experience with this, however I would probably start with overriding the Track class, and then intercept the add event, and pass it on to another thread that is playing a queue of incoming events. Be sure to use synchronize to make sure to prevent multithreading issues. However, I wonder how "realtime" you can make that MIDI. For instance, my MIDI to USB device has a noticeable delay of maybe a quarter of a second or so (if I recall correctly). – Yeti Sep 2 '18 at 17:02
  • @Yeti It's okay, I managed to figure it out. You just add two receivers to the transmitter. So, midiDevice.getTransmitter().setReceiver(receiver1); midiDevice.getTransmitter().setReceiver(receiver2); Each call to getTransmitter() instantiates a new transmitter. Not intuitive, but it works. – ManoDestra Sep 3 '18 at 3:11

protected by Floern May 5 '18 at 12:27

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