I was trying to implement a MIDI player for a java program. So I started using the javax.sound.midi library. I load my Sequencer and my Synthesizer there:
private void playMidiFile() {
Soundbank soundfont = MidiSystem.getSoundbank(Util.internalFile("FluidR3_GM.sf2").getInputStream());
Sequencer sequencer = MidiSystem.getSequencer();
Synthesizer synthesizer = MidiSystem.getSynthesizer();
sequencer.open();
synthesizer.open();
synthesizer.loadAllInstruments(soundfont);
sequencer.getTransmitter().setReceiver(synthesizer.getReceiver());
sequencer.setSequence(Util.internalFile("MyMusic.mid").getInputStream());
sequencer.start();
}
The first second I can clearly hear my loaded soundfont, but after that somehow the midi is played back with a standard soundfont. I checked and the SF2 file is supported by the javax.sound.midi library (synthesizer.isSoundBankSupported(soundfont) returns true).
Does anybody know why my program behaves like this?
Closing all the transmitters solves the standard font being played, but an easier way to do solve the issue is to create a sequencer without any transmitters:
Sequencer sequencer = MidiSystem.getSequencer(false);
Connecting the custom synthesizer to a sequencer created in this way would only produce the customs sounds.
You may have more transmitters still on your sequencer. I ran into that stupid problem, too. Then I came up with this:
for(Transmitter tm: sequencer.getTransmitters())
{
tm.close();
}
sequencer.getTransmitter().setReceiver(synthesizer.getReceiver());
I've only just started playing around with Java altogether, let alone Midi. Seems like few people go there to begin with. I wished there were more...
Anyway, it did the trick for me... hope it helps you, too!
I am making a music player for rasberry pi. There is a hifiberry module connected to it. I am using a jlayer library for playing music. When i run the code on my PC (Ubuntu) it works fine, but when i try to run it on the rasberry, i dont get any error, but there is no sound playing. I tried reinstalling java. It does not work even without the module.
I am using this piece of code:
public class Main {
public static void main(String[] args) {
AdvancedPlayer player = new AdvancedPlayer(new FileInputStream(args[0]));
player.play();
}
}
Is there any solution for this? or can u suggest any library that could work, which supports mp3 files?
Somehow the audio was streaming to bad output, and i could not find a way to change the output port, so i used a mp3spi library, which i managed to get working.
I'm creating an app that generates live instrument sounds and I'm planning on using the new Midi API featured in Android Marshmallow (version 6.0). I've read the package overview document here http://developer.android.com/reference/android/media/midi/package-summary.html and I know how to generate Midi notes but i'm still unsure: how do I actually play these notes after I've generated their Midi data?
Do I need a synthesizer program to play Midi notes? If so, do I have to make my own or is one provided by Android or a 3rd party?
I am a novice with Midi so please be as descriptive as possible with your answer.
What i've tried so far:
I've created a Midi manager object and opened an input port
MidiManager m = (MidiManager)context.getSystemService(Context.MIDI_SERVICE);
MidiInputPort inputPort = device.openInputPort(index);
Then, i've sent a test noteOn midi message to the port
byte[] buffer = new byte[32];
int numBytes = 0;
int channel = 3; // MIDI channels 1-16 are encoded as 0-15.
buffer[numBytes++] = (byte)(0x90 + (channel - 1)); // note on
buffer[numBytes++] = (byte)60; // pitch is middle C
buffer[numBytes++] = (byte)127; // max velocity
int offset = 0;
// post is non-blocking
inputPort.send(buffer, offset, numBytes);
I've also set up a class to receive the midi note messages
class MyReceiver extends MidiReceiver {
public void onSend(byte[] data, int offset,
int count, long timestamp) throws IOException {
// parse MIDI or whatever
}
}
MidiOutputPort outputPort = device.openOutputPort(index);
outputPort.connect(new MyReceiver());
Now, here's where i'm most confused. The use case of my app is to be an all-in-one composition & playback tool for making music. In other words, my app needs to contain or use a virtual midi device (like an intent of another app's midi synthesizer). Unless someone already made such a synthesizer, I must create one myself within my app's lifecycle. How do I actually actually convert a received midi noteOn() into sound coming out of my speakers? I'm especially confused because there also has to be a way to programmatically decide what type of instrument the note sounds like it's coming from: is this also done in a synthesizer?
Midi support in Android Marshmallow is fairly new so I haven't been able to find any tutorials or sample synthesizer apps online. Any insight is appreciated.
I haven't found any "official" way to control the internal synthesizer from Java code.
Probably the easiest option is to use the Android midi driver for the Sonivox synthesizer.
Get it as an AAR package (unzip the *.zip) and store the *.aar file somewhere in your workspace. The path doesn't really matter and it doesn't need to be inside your own app's folder structure but the "libs" folder inside your project could be a logical place.
With your Android project open in Android Studio:
File -> New -> New Module -> Import .JAR/.AAR Package -> Next -> Find
and select the "MidiDriver-all-release.aar" and change the subproject
name if you want. -> Finish
Wait for Gradle to do it's magic and then go to your "app" module's settings (your own app project's settings) to the "Dependencies" tab and add (with the green "+" sign) the MIDI Driver as a module dependency. Now you have access to the MIDI Driver:
import org.billthefarmer.mididriver.MidiDriver;
...
MidiDriver midiDriver = new MidiDriver();
Without having to worry anything about NDK and C++ you have these Java methods available:
// Not really necessary. Receives a callback when/if start() has succeeded.
midiDriver.setOnMidiStartListener(listener);
// Starts the driver.
midiDriver.start();
// Receives the driver's config info.
midiDriver.config();
// Stops the driver.
midiDriver.stop();
// Just calls write().
midiDriver.queueEvent(event);
// Sends a MIDI event to the synthesizer.
midiDriver.write(event);
A very basic "proof of concept" for playing and stopping a note could be something like:
package com.example.miditest;
import android.os.Bundle;
import android.support.v7.app.AppCompatActivity;
import android.util.Log;
import android.view.MotionEvent;
import android.view.View;
import android.widget.Button;
import org.billthefarmer.mididriver.MidiDriver;
public class MainActivity extends AppCompatActivity implements MidiDriver.OnMidiStartListener,
View.OnTouchListener {
private MidiDriver midiDriver;
private byte[] event;
private int[] config;
private Button buttonPlayNote;
#Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
buttonPlayNote = (Button)findViewById(R.id.buttonPlayNote);
buttonPlayNote.setOnTouchListener(this);
// Instantiate the driver.
midiDriver = new MidiDriver();
// Set the listener.
midiDriver.setOnMidiStartListener(this);
}
#Override
protected void onResume() {
super.onResume();
midiDriver.start();
// Get the configuration.
config = midiDriver.config();
// Print out the details.
Log.d(this.getClass().getName(), "maxVoices: " + config[0]);
Log.d(this.getClass().getName(), "numChannels: " + config[1]);
Log.d(this.getClass().getName(), "sampleRate: " + config[2]);
Log.d(this.getClass().getName(), "mixBufferSize: " + config[3]);
}
#Override
protected void onPause() {
super.onPause();
midiDriver.stop();
}
#Override
public void onMidiStart() {
Log.d(this.getClass().getName(), "onMidiStart()");
}
private void playNote() {
// Construct a note ON message for the middle C at maximum velocity on channel 1:
event = new byte[3];
event[0] = (byte) (0x90 | 0x00); // 0x90 = note On, 0x00 = channel 1
event[1] = (byte) 0x3C; // 0x3C = middle C
event[2] = (byte) 0x7F; // 0x7F = the maximum velocity (127)
// Internally this just calls write() and can be considered obsoleted:
//midiDriver.queueEvent(event);
// Send the MIDI event to the synthesizer.
midiDriver.write(event);
}
private void stopNote() {
// Construct a note OFF message for the middle C at minimum velocity on channel 1:
event = new byte[3];
event[0] = (byte) (0x80 | 0x00); // 0x80 = note Off, 0x00 = channel 1
event[1] = (byte) 0x3C; // 0x3C = middle C
event[2] = (byte) 0x00; // 0x00 = the minimum velocity (0)
// Send the MIDI event to the synthesizer.
midiDriver.write(event);
}
#Override
public boolean onTouch(View v, MotionEvent event) {
Log.d(this.getClass().getName(), "Motion event: " + event);
if (v.getId() == R.id.buttonPlayNote) {
if (event.getAction() == MotionEvent.ACTION_DOWN) {
Log.d(this.getClass().getName(), "MotionEvent.ACTION_DOWN");
playNote();
}
if (event.getAction() == MotionEvent.ACTION_UP) {
Log.d(this.getClass().getName(), "MotionEvent.ACTION_UP");
stopNote();
}
}
return false;
}
}
The layout file just has one button that plays the predefined note when held down and stops it when released:
<?xml version="1.0" encoding="utf-8"?>
<LinearLayout xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:tools="http://schemas.android.com/tools"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:paddingBottom="#dimen/activity_vertical_margin"
android:paddingLeft="#dimen/activity_horizontal_margin"
android:paddingRight="#dimen/activity_horizontal_margin"
android:paddingTop="#dimen/activity_vertical_margin"
tools:context="com.example.miditest.MainActivity"
android:orientation="vertical">
<Button
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:text="Play a note"
android:id="#+id/buttonPlayNote" />
</LinearLayout>
It is actually this simple. The code above could well be a starting point for a touch piano app with 128 selectable instruments, very decent latency and a proper "note off" functionality which many apps lack.
As for choosing the instrument: You'll just need to send a MIDI "program change" message to the channel on which you intend to play to choose one of the 128 sounds in the General MIDI soundset. But that's related to the details of MIDI and not to the usage of the library.
Likewise you'll probably want to abstract away the low level details of MIDI so that you can easily play a specific note on a specific channel with a specific instrument at a specific velocity for a specific time and for that you might find some clues from all the open source Java and MIDI related applications and libraries made so far.
This approach doesn't require Android 6.0 by the way. And at the moment only 4.6 % of devices visiting the Play Store run Android 6.x so there wouldn't be much audience for your app.
Of course if you want to use the android.media.midi package you could then use the library to implement a android.media.midi.MidiReceiver to receive the MIDI events and play them on the internal synthesizer. Google already has some demo code that plays notes with square and saw waves. Just replace that with the internal synthesizer.
Some other options could be to check out what's the status with porting FluidSynth to Android. I guess there might be something available.
Edit: Other possibly interesting libraries:
port of Java's javax.sound.midi package for abstracting the low level MIDI technical details
USB MIDI Driver for connecting to a digital piano/keyboard with a USB MIDI connector
MIDI over Bluetooth LE driver for connecting wirelessly to a digital piano/keyboard that supports MIDI over Bluetooth LE (like e.g. some recent Roland and Dexibell digital pianos)
JFugue Music library port for Android for further abstracting the MIDI details and instead thinking in terms of music theory
Do I need a synthesizer program to play Midi notes? If so, do I have to make my own or is one provided by Android or a 3rd party?
No, fortunately you don't need to make your own synthesizer. Android already has one built in: the SONiVOX Embedded Audio Syntehesizer. Android states in the docs on SONiVOX JETCreator:
JET works in conjunction with SONiVOX's Embedded Audio Synthesizer (EAS) which is the MIDI playback device for Android.
It wasn't clear whether or not you want real-time playback, or if you want to create a composition first and play it later within the same app. You also state that you want to play midi notes, not files. But, just so you know, Midi playback is supported on android devices. So playing a .mid file should be done the same way you would play a .wav file using MediaPlayer.
To be honest, I haven't use the midi package, or done midi playback, but if you can create a .mid file and save it to disk, then you should be able to play it back using straight MediaPlayer.
Now, if you want to play straight midi notes, not files, then you can use this mididriver package. Using this package you should be able to write midi data to the Embedded Synthesizer:
/**
* Writes midi data to the Sonivox synthesizer.
* The length of the array should be the exact length
* of the message or messages. Returns true on success,
* false on failure.
*/
boolean write(byte buffer[])
If you want to step even lower than that, you could even play straight PCM using AudioTrack.
For additional info, here is a blog post I found from someone who seemed to have similar troubles to yours. He states:
Personally I solved the dynamic midi generation issue as follows: programmatically generate a midi file, write it to the device storage, initiate a mediaplayer with the file and let it play. This is fast enough if you just need to play a dynamic midi sound. I doubt it’s useful for creating user controlled midi stuff like sequencers, but for other cases it’s great.
Hope I covered everything.
To generate sound using Android MIDI API, you need a synthesizer app which accepts MIDI input. Unfortunately, this is the only such app I have found on Google Play:
https://play.google.com/store/apps/details?id=com.mobileer.midisynthexample
I was able to play music by sending note on and note off messages to this app. But program change worked poorly. Unless I did something wrong in my code, it seems the app has only two instruments.
However, there are some guys working on other synthesizer apps, so I expect more apps will be available soon. This app looks promising, though I haven't tested it myself yet:
https://github.com/pedrolcl/android/tree/master/NativeGMSynth
I was doing some really cool stuff with JFugue 4.0.3 when 5 came and I noticed it came with lots of new features.
Now trying to move some code to jfugue 5.0.4 I see that my external soundfont is not being loaded, even when trying it in the new way (using the SynthesizerManager). From what I have read, on using the setSynthesizer method from SynthesizerManager all players would have that Synthesizer loaded by default, but I only hear the default piano sounds. I tested loading the Synthesizer alone and listing the instruments and it works, so I guess the problem is having the SynthesizerManager set the correct Synthesizer to players.
Soundbank coolGuitars = MidiSystem.getSoundbank(new File("/music/guitar.sf2"));
Synthesizer synt = MidiSystem.getSynthesizer();
synt.open();
synt.loadAllInstruments(coolGuitars);
SynthesizerManager s = SynthesizerManager.getInstance();
s.setSynthesizer(synt);
Player player = new Player();
Pattern pattern = new Pattern("C+E+G D+F+A E+G+B F+A+C G+B+D A+C+E B+D+F");
pattern.setInstrument(0);
player.play(pattern);
Thanks in advance for your help!
So on my machine I have Bluetooth working fine, I can stream audio to it and record from it, except when I run a Java program that has sound. The sound files work through regular speakers but they don't get forwarded to the headset. My current operating System is Lubuntu 10.04.
My code to play a sound is:
public static void playSound(File sound) {
try {
AudioClip cp = Applet.newAudioClip(sound.toURL());
cp.play();
} catch (MalformedURLException ex) {
ex.printStackTrace();
}
}
The Applet.newAudioClip() method is pretty darn old. Like Java 1.0 old. Since then Java has rewritten a lot of it's sound APIs. I bet whatever code is playing that sound doesn't take into account the various audio settings of the OS. The javax.sound.sampled package has the new APIs, and while they are harder to learn, they give you much more control over how the sound is played and modified.
http://download.oracle.com/javase/tutorial/sound/sampled-overview.html
You could test out to see if Java can play that audio over your bluetooth by downloading
http://www.javazoom.net/index.shtml
And try playing an MP3 see if that goes over your bluetooth headset.