9406fddaad | ||
---|---|---|
examples | ||
lib | ||
test | ||
.gitignore | ||
.jshintrc | ||
.travis.yml | ||
CONTRIBUTORS.markdown | ||
LICENSE | ||
Makefile | ||
README.markdown | ||
package.json |
README.markdown
Cylon.js is a JavaScript framework for robotics and physical computing built on top of Node.js.
It provides a simple, but powerful way to create solutions that incorporate multiple, different hardware devices concurrently.
Want to use Ruby on robots? Check out our sister project, Artoo.
Want to use Golang to power your robots? Check out our sister project, Gobot.
Build Status:
Examples
Arduino + LED
The below example connects to an Arduino over a serial connection, and blinks an LED once per second.
The example requires that the Arduino have the Firmata sketch installed; which
can be obtained either through the Ardunio IDE or the cylon arduino upload firmata
command available in cylon-cli.
var Cylon = require('cylon');
// define the robot
var robot = Cylon.robot({
// change the port to the correct one for your Arduino
connection: { name: 'arduino', adaptor: 'firmata', port: '/dev/ttyACM0' },
device: { name: 'led', driver: 'led', pin: 13 },
work: function(my) {
every((1).second(), my.led.toggle);
}
});
// connect to the Arduino and start working
robot.start();
Parrot ARDrone 2.0
var Cylon = require('cylon');
Cylon.robot({
connection: { name: 'ardrone', adaptor: 'ardrone', port: '192.168.1.1' },
device: { name: 'drone', driver: 'ardrone' },
work: function(my) {
my.drone.takeoff();
after((10).seconds(), my.drone.land);
after((15).seconds(), my.drone.stop);
}
}).start();
Cat Toy (Leap Motion + Digispark + Servos)
var Cylon = require('../..');
Cylon.robot({
connections: [
{ name: 'digispark', adaptor: 'digispark'},
{ name: 'leapmotion', adaptor: 'leapmotion', port: '127.0.0.1:6437' }
],
devices: [
{name: 'servo1', driver: 'servo', pin: 0, connection: 'digispark'},
{name: 'servo2', driver: 'servo', pin: 1, connection: 'digispark'},
{name: 'leapmotion', driver: 'leapmotion', connection: 'leapmotion'}
],
work: function(my) {
my['x'] = 90;
my['z'] = 90;
my.leapmotion.on('hand', function(hand) {
my['x'] = hand.palmX.fromScale(-300, 300).toScale(30, 150);
my['z'] = hand.palmZ.fromScale(-300, 300).toScale(30, 150);
});
every(100, function() {
my.servo1.angle(my['x']);
my.servo2.angle(my['z']);
console.log("Current Angle: " + my.servo1.currentAngle() + ", " + my.servo2.currentAngle());
});
}
}).start();
Multiple Spheros + API Server
var Cylon = require('cylon');
// tell the API server to listen for requests at
// https://localhost:4000
Cylon.api({ port: 4000 });
var bots = [
{ port: '/dev/rfcomm0', name: 'Thelma' },
{ port: '/dev/rfcomm1', name: 'Louise' }
];
var SpheroBot = function() {};
SpheroBot.prototype.connection = { name: "sphero", adaptor: "sphero" };
SpheroBot.prototype.device = { name: "sphero", driver: "sphero" };
SpheroBot.prototype.work = function(my) {
every((1).second(), function() {
console.log(my.name);
my.sphero.setRandomColor();
my.sphero.roll(60, Math.floor(Math.random() * 360));
});
};
for (var i = 0; i < bots.length; i++) {
var bot = bots[i];
var robot = new SpheroBot();
robot.connection.port = bot.port;
robot.name = bot.name;
Cylon.robot(robot);
}
// start up all robots at once
Cylon.start();
Hardware Support
Cylon.js has an extensible syntax for connecting to multiple, different hardware devices. The following platforms are currently supported:
- Ardrone <==> Adaptor/Drivers
- Arduino <==> Adaptor
- Beaglebone Black <==> Adaptor
- Crazyflie <==> Adaptor/Driver
- Digispark <==> Adaptor
- Joystick <==> Adaptor/Driver
- Keyboard <==> Adaptor/Driver
- Leap Motion <==> Adaptor/Driver
- Neurosky <==> Adaptor/Driver
- OpenCV <==> Adaptor/Drivers
- Pebble <==> Adaptor/Driver
- Rapiro <==> Adaptor/Driver
- Raspberry Pi <==> Adaptor
- Salesforce <==> Adaptor/Driver
- Skynet <==> Adaptor
- Spark <==> Adaptor
- Sphero <==> Adaptor/Driver
- Tessel <==> Adaptor/Driver
Our implementation of GPIO (General Purpose Input/Output) allows for a shared set of drivers supporting a number of devices:
- GPIO <=> Drivers
- Analog Sensor
- Button
- Continuous Servo
- IR Rangefinder
- LED
- MakeyButton
- Motor
- Maxbotix Ultrasonic Range Finder
- Servo
Additionally, we also support a number of I2C (Inter-Integrated Circuit) devices
through a shared cylon-i2c
module:
We'll also have many more platforms and drivers coming soon, follow us on Twitter for updates.
Getting Started
Installation
All you need to get started on a new robot is the cylon
module:
npm install cylon
With the core module installed, now install the modules for whatever hardware support you need. For the Arduino + LED blink example, we'll need the 'firmata', 'gpio', and 'i2c' modules:
npm install cylon-firmata cylon-gpio cylon-i2c
CLI
Cylon has a Command-Line Interface counterpart in cylon-cli. This tool lets you access important features from the command line, and isn't dependent on Cylon itself. Check it out at https://github.com/hybridgroup/cylon-cli.
Documentation
We're busy adding documentation to our website, check it out at cylonjs.com/documentation.
If you want to help with documentation, you can find some helpful instructions on the cylonjs.com branch.
Contributing
- All patches must be provided under the Apache 2.0 License
- Please use the -s option in git to "sign off" that the commit is your work and you are providing it under the Apache 2.0 License
- Submit a Github Pull Request to the appropriate branch and ideally discuss the changes with us in IRC.
- We will look at the patch, test it out, and give you feedback.
- Avoid doing minor whitespace changes, renamings, etc. along with merged content. These will be done by the maintainers from time to time but they can complicate merges and should be done seperately.
- Take care to maintain the existing coding style.
- Add unit tests for any new or changed functionality & lint and test your code using
make test
andmake lint
. - All pull requests should be "fast forward"
- If there are commits after yours use “git rebase -i <new_head_branch>”
- If you have local changes you may need to use “git stash”
- For git help see progit which is an awesome (and free) book on git
Release History
Version 0.14.0 - Removal of node-namespace and misc. cleanup
Version 0.13.3 - Fixes bug with disconnect functions not being called.
Version 0.13.2 - Use pure Express, adds server-sent-events, upd API.
Version 0.13.1 - Add API authentication and HTTPS support
Version 0.13.0 - Set minimum Node version to 0.10.20, add utils to global namespace and improve initialization routines
Version 0.12.0 - Extraction of CLI tooling
Version 0.11.2 - bugfixes
Version 0.11.0 - Refactor into pure JavaScript
Version 0.10.4 - Add JS helper functions
Version 0.10.3 - Fix dependency issue
Version 0.10.2 - Create connections convenience vars, refactor config loading
Version 0.10.1 - Updates required for test driven robotics, update Robeaux version, bugfixes
Version 0.10.0 - Use Robeaux UX, add CLI commands for helping connect to devices, bugfixes
Version 0.9.0 - Add AngularJS web interface to API, extensible commands for CLI
Version 0.8.0 - Refactored Adaptor and Driver into proper base classes for easier authoring of new modules
Version 0.7.0 - cylon command for generating new adaptors, support code for better GPIO support, literate examples
Version 0.6.0 - API exposes robot commands, fixes issues in driver/adaptor init
Version 0.5.0 - Improve API, add GPIO support for reuse in adaptors
Version 0.4.0 - Refactor proxy in Cylon.Basestar, improve API
Version 0.3.0 - Improved Cylon.Basestar, and added API
Version 0.2.0 - Cylon.Basestar to help develop external adaptors/drivers
Version 0.1.0 - Initial release for ongoing development
License
Copyright (c) 2013-2014 The Hybrid Group. Licensed under the Apache 2.0 license.