cylon/lib/robot.js

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/*
* robot
* cylonjs.com
*
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* Copyright (c) 2013-2014 The Hybrid Group
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* Licensed under the Apache 2.0 license.
*/
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'use strict';
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var __bind = function(fn, me){ return function(){ return fn.apply(me, arguments); }; }
var __indexOf = [].indexOf || function(item) { for (var i = 0, l = this.length; i < l; i++) { if (i in this && this[i] === item) return i; } return -1; };
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require('./cylon');
require('./basestar');
require("./connection");
require("./adaptor");
require("./device");
require("./driver");
require('./digital-pin');
var Async = require("async");
var EventEmitter = require('events').EventEmitter;
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var namespace = require('node-namespace');
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// A Robot is the primary interface for interacting with a collection of physical
// computing capabilities.
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namespace("Cylon", function() {
this.Robot = (function(klass) {
subclass(Robot, klass);
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// Public: Creates a new Robot
//
// opts - object containing Robot options
// name - optional, string name of the robot
// master - Cylon.Master class that orchestrates robots
// connection/connections - object connections to connect to
// device/devices - object devices to connect to
// work - work to be performed when the Robot is started
//
// Returns a new Robot
// Example (CoffeeScript):
// Cylon.robot
// name: "Spherobot!"
//
// connection:
// name: 'sphero', adaptor: 'sphero', port: '/dev/rfcomm0'
//
// device:
// name: 'sphero', driver: 'sphero'
//
// work: (me) ->
// every 1.second(), ->
// me.sphero.roll 60, Math.floor(Math.random() * 360//
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function Robot(opts) {
var func, n, reserved;
if (opts == null) {
opts = {};
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}
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this.toString = __bind(this.toString, this);
this.registerDriver = __bind(this.registerDriver, this);
this.requireDriver = __bind(this.requireDriver, this);
this.registerAdaptor = __bind(this.registerAdaptor, this);
this.requireAdaptor = __bind(this.requireAdaptor, this);
this.stop = __bind(this.stop, this);
this.startDevices = __bind(this.startDevices, this);
this.startConnections = __bind(this.startConnections, this);
this.start = __bind(this.start, this);
this.initDevices = __bind(this.initDevices, this);
this.initConnections = __bind(this.initConnections, this);
this.robot = this;
this.name = opts.name || this.constructor.randomName();
this.master = opts.master;
this.connections = {};
this.devices = {};
this.adaptors = {};
this.drivers = {};
this.commands = [];
this.running = false;
this.registerAdaptor("./test/loopback", "loopback");
this.registerAdaptor("./test/test-adaptor", "test");
this.registerDriver("./test/ping", "ping");
this.registerDriver("./test/test-driver", "test");
this.initConnections(opts.connection || opts.connections);
this.initDevices(opts.device || opts.devices);
this.work = opts.work || function() {
return Logger.info("No work yet");
};
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for (n in opts) {
func = opts[n];
reserved = ['connection', 'connections', 'device', 'devices', 'work'];
if (__indexOf.call(reserved, n) < 0) {
this.robot[n] = func;
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}
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}
}
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// Public: Generates a random name for a Robot.
//
// Returns a string name
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Robot.randomName = function() {
return "Robot " + (Math.floor(Math.random() * 100000));
};
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// Public: Exports basic data for the Robot
//
// Returns an Object containing Robot data
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Robot.prototype.data = function() {
var connection, device, n;
return {
name: this.name,
connections: (function() {
var _ref, _results;
_ref = this.connections;
_results = [];
for (n in _ref) {
connection = _ref[n];
_results.push(connection.data());
}
return _results;
}).call(this),
devices: (function() {
var _ref, _results;
_ref = this.devices;
_results = [];
for (n in _ref) {
device = _ref[n];
_results.push(device.data());
}
return _results;
}).call(this),
commands: this.commands
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};
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};
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// Public: Initializes all connections for the robot
//
// connections - connections to initialize
//
// Returns initialized connections
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Robot.prototype.initConnections = function(connections) {
var connection, _i, _len;
Logger.info("Initializing connections...");
if (connections == null) {
return;
}
connections = [].concat(connections);
for (_i = 0, _len = connections.length; _i < _len; _i++) {
connection = connections[_i];
Logger.info("Initializing connection '" + connection.name + "'...");
connection['robot'] = this;
this.connections[connection.name] = new Cylon.Connection(connection);
}
return this.connections;
};
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// Public: Initializes all devices for the robot
//
// devices - devices to initialize
//
// Returns initialized devices
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Robot.prototype.initDevices = function(devices) {
var device, _i, _len, _results;
Logger.info("Initializing devices...");
if (devices == null) {
return;
}
devices = [].concat(devices);
_results = [];
for (_i = 0, _len = devices.length; _i < _len; _i++) {
device = devices[_i];
Logger.info("Initializing device '" + device.name + "'...");
device['robot'] = this;
_results.push(this.devices[device.name] = new Cylon.Device(device));
}
return _results;
};
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// Public: Starts the Robot working.
//
// Starts the connections, devices, and work.
//
// Returns the result of the work
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Robot.prototype.start = function() {
var _this = this;
return this.startConnections(function() {
return _this.robot.startDevices(function() {
_this.robot.work.call(_this.robot, _this.robot);
_this.running = true;
Logger.info("Working...");
return _this.robot.emit('working');
});
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});
};
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// Public: Starts the Robot's connections and triggers a callback
//
// callback - callback function to be triggered
//
// Returns nothing
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Robot.prototype.startConnections = function(callback) {
var connection, n, starters, _ref;
Logger.info("Starting connections...");
starters = {};
_ref = this.connections;
for (n in _ref) {
connection = _ref[n];
this.robot[n] = connection;
starters[n] = connection.connect;
}
return Async.parallel(starters, callback);
};
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// Public: Starts the Robot's devices and triggers a callback
//
// callback - callback function to be triggered
//
// Returns nothing
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Robot.prototype.startDevices = function(callback) {
var device, n, starters, _ref;
Logger.info("Starting devices...");
starters = {};
_ref = this.devices;
for (n in _ref) {
device = _ref[n];
this.robot[n] = device;
starters[n] = device.start;
}
return Async.parallel(starters, callback);
};
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// Public: Stops the Robot working.
//
// Stops the devices, disconnects the connections.
//
// Returns nothing
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Robot.prototype.stop = function() {
var connection, device, n, _ref, _ref1, _results;
_ref = this.devices;
for (n in _ref) {
device = _ref[n];
device.stop();
}
_ref1 = this.connections;
_results = [];
for (n in _ref1) {
connection = _ref1[n];
_results.push(connection.disconnect());
}
return _results;
};
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// Public: Initialize an adaptor and adds it to @robot.adaptors
//
// adaptorName - module name of adaptor to require
// connection - the Connection that requested the adaptor be required
//
// Returns the adaptor
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Robot.prototype.initAdaptor = function(adaptorName, connection, opts) {
var realAdaptor, testAdaptor;
if (opts == null) {
opts = {};
}
realAdaptor = this.robot.requireAdaptor(adaptorName).adaptor({
name: adaptorName,
connection: connection,
extraParams: opts
});
if (CylonConfig.testing_mode) {
testAdaptor = this.robot.requireAdaptor('test').adaptor({
name: adaptorName,
connection: connection,
extraParams: opts
});
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return proxyTestStubs(realAdaptor.commands(), testAdaptor);
} else {
return realAdaptor;
}
};
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// Public: Requires a hardware adaptor and adds it to @robot.adaptors
//
// adaptorName - module name of adaptor to require
//
// Returns the module for the adaptor
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Robot.prototype.requireAdaptor = function(adaptorName) {
if (this.robot.adaptors[adaptorName] == null) {
this.robot.registerAdaptor("cylon-" + adaptorName, adaptorName);
this.robot.adaptors[adaptorName].register(this);
}
return this.robot.adaptors[adaptorName];
};
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// Public: Registers an Adaptor with the Robot
//
// moduleName - name of the Node module to require
// adaptorName - name of the adaptor to register the moduleName under
//
// Returns the registered module name
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Robot.prototype.registerAdaptor = function(moduleName, adaptorName) {
if (this.adaptors[adaptorName] == null) {
return this.adaptors[adaptorName] = require(moduleName);
}
};
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// Public: Init a hardware driver
//
// driverName - driver name
// device - the Device that requested the driver be initialized
// opts - object containing options when initializing driver
//
// Returns the new driver
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Robot.prototype.initDriver = function(driverName, device, opts) {
var realDriver, testDriver;
if (opts == null) {
opts = {};
}
realDriver = this.robot.requireDriver(driverName).driver({
name: driverName,
device: device,
extraParams: opts
});
if (CylonConfig.testing_mode) {
testDriver = this.robot.requireDriver('test').driver({
name: driverName,
device: device,
extraParams: opts
});
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return proxyTestStubs(realDriver.commands(), testDriver);
} else {
return realDriver;
}
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};
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// Public: Requires module for a driver and adds it to @robot.drivers
//
// driverName - module name of driver to require
//
// Returns the module for driver
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Robot.prototype.requireDriver = function(driverName) {
if (this.robot.drivers[driverName] == null) {
this.robot.registerDriver("cylon-" + driverName, driverName);
this.robot.drivers[driverName].register(this);
}
return this.robot.drivers[driverName];
};
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// Public: Registers an Driver with the Robot
//
// moduleName - name of the Node module to require
// driverName - name of the driver to register the moduleName under
//
// Returns the registered module nam//
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Robot.prototype.registerDriver = function(moduleName, driverName) {
if (this.drivers[driverName] == null) {
return this.drivers[driverName] = require(moduleName);
}
};
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// Public: Returns basic info about the robot as a String
//
// Returns a String
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Robot.prototype.toString = function() {
return "[Robot name='" + this.name + "']";
};
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return Robot;
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})(EventEmitter);
});
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module.exports = Cylon.Robot;