This is a development fork for adding network capabilities!
This fork is working, but needs the ConfigurableFirmata Packet-Buffer fork to avoid, that the ESP is sending each byte in a separate WiFi packet. The Pull/Merge process is currently on the way.
firmata4j is a client library of Firmata written in Java. The library allows controlling Arduino (or another board) which runs Firmata protocol from your java program.
- Interaction with a board and its pins in object-oriented style
- Abstraction over details of the protocol
- Provides an UI component that visualize the current state of every pin and allows changing their mode and state
- Allows communicating with I2C devices
Add the following dependency to pom.xml of your project:
<dependency>
<groupId>com.github.kurbatov</groupId>
<artifactId>firmata4j</artifactId>
<version>2.3.5</version>
</dependency>General scenario of usage is following:
// construct the Firmata device instance using the name of a serial port (eg. via usb/serial adapter)
IODevice device = new FirmataDevice("/dev/ttyUSB0");If you need to adjust the baud rate:
IODevice device = new FirmataDevice("/dev/ttyUSB0:19200"); // only baudrate is currently supportedDefault serial parameter are: 57600, 8 databits, 1 stopbit, no parity.
// construct the Firmata device instance using a firmata network server (eg. via wifi)
IODevice device = new FirmataDevice("192.168.10.20:3030");// subscribe to events using device.addEventListener(...);
// and/or device.getPin(n).addEventListener(...);
device.start(); // initiate communication to the device
device.ensureInitializationIsDone(); // wait for initialization is done
// sending commands to the board
device.stop(); // stop communication to the deviceSending commands to the board may cause the device to emit events. Registered listeners process the events asynchronously. You can add and remove listeners along the way.
You can subscribe to events of the device or its pin.
device.addEventListener(new IODeviceEventListener() {
@Override
public void onStart(IOEvent event) {
// since this moment we are sure that the device is initialized
// so we can hide initialization spinners and begin doing cool stuff
System.out.println("Device is ready");
}
@Override
public void onStop(IOEvent event) {
// since this moment we are sure that the device is properly shut down
System.out.println("Device has been stopped");
}
@Override
public void onPinChange(IOEvent event) {
// here we react to changes of pins' state
Pin pin = event.getPin();
System.out.println(
String.format(
"Pin %d got a value of %d",
pin.getIndex(),
pin.getValue())
);
}
@Override
public void onMessageReceive(IOEvent event, String message) {
// here we react to receiving a text message from the device
System.out.println(message);
}
});To obtain more fine grained control you can subscribe to events of a particular pin.
Pin pin = device.getPin(2);
pin.addEventListener(new PinEventListener() {
@Override
public void onModeChange(IOEvent event) {
System.out.println("Mode of the pin has been changed");
}
@Override
public void onValueChange(IOEvent event) {
System.out.println("Value of the pin has been changed");
}
});You can change the mode and value of a pin:
pin.setMode(Pin.Mode.OUTPUT); // our listeners will get event about this change
pin.setValue(1); // and then about this changeYou can get visual representation of device's pins using JPinboard Swing component.
JPinboard pinboard = new JPinboard(device);
JFrame frame = new JFrame("Pinboard Example");
frame.add(pinboard);
frame.pack();
frame.setVisible(true);JPinboard allows setting the pin's mode by choosing one from a context menu of
the pin. State of the output pin can be changed by double clicking on it.
An example of JPinboard usage can be found in
org.firmata4j.Example class.
firmata4j supports working with I2C devices. You can obtain a reference to an I2C device in this way:
IODevice device = new FirmataDevice(port);
...
byte i2cAddress = 0x3C;
I2CDevice i2cDevice = device.getI2CDevice(i2cAddress);You may find convenient writing a wrapper for I2CDevice class
to facilitate communication with I2C device. Consider SSD1306
and I2CExample
classes as an example of that approach.
firmata4j sticks to Firmata protocol versions. The first available version of firmata4j is 2.3.1.
firmata4j-2.3.x will work well with Fimata v. 2.3.x. Actually it should work with Firmata v. 2.x.x but not necessarily support all of the protocol features. The first digits of versions must be equal because those stand for incompatible changes of the protocol.
Arduino IDE is shipped with an implementation of Firmata protocol. You can upload it as follows:
- Plug your Arduino to the computer
- Launch Arduino IDE
- Select
File -> Examples -> Firmata -> StandardFirmatain IDE's menu - Select your board in
Tools -> Board - Select the port in
Tools -> Port(it is already selected if you have uploaded something to your Arduino) - Click on
Uploadbutton
- Easy Peripherals for the Internet of Things
- Modelovanie a Riadenie Hybridných Systémov s Využitím Petriho Sietí Vyšších Úrovní
- Using firmata4j in Closure
Contributions are welcome. If you discover a bug or would like to propose a new feature, please, open a new issue.
If you have an improvement to share, please, do the following:
- Fork this repository
- Clone your own fork to your machine (
git clone https://github.com/<your_username>/firmata4j.git) - Create a feature branch (
git checkout -b my-new-feature) - Change the code
- Commit the changes (
git commit -am 'Adds some feature') - Push to the branch (
git push origin my-new-feature) - Create new Pull Request
firmata4j is distributed under the terms of the MIT License. See the LICENSE file.