Update arduino lib in app and cli

This commit is contained in:
mmcwilliams 2019-03-08 22:32:25 -05:00
parent faeddb84ab
commit ede29216f7
3 changed files with 667 additions and 675 deletions

View File

@ -7,6 +7,17 @@ const newlineRe = new RegExp('\n', 'g');
const returnRe = new RegExp('\r', 'g'); const returnRe = new RegExp('\r', 'g');
let eventEmitter; let eventEmitter;
let cfg; let cfg;
let arduino;
const KNOWN = [
'/dev/tty.usbmodem1a161',
'/dev/tty.usbserial-A800f8dk',
'/dev/tty.usbserial-A900cebm',
'/dev/tty.usbmodem1a131',
'/dev/tty.usbserial-a900f6de',
'/dev/tty.usbmodem1a141',
'/dev/ttyACM0',
'COM3'
];
/** /**
* Pause the process for X milliseconds in async/await functions * Pause the process for X milliseconds in async/await functions
* *
@ -20,117 +31,29 @@ async function delay(ms) {
}); });
} }
/** /**
* Send a command to an Arduino using async/await * Class representing the arduino communication features
*
* @param {string} device Arduino identifier
* @param {string} cmd Single character command to send
*
* @returns {Promise} Resolves after sending
**/ **/
async function send(device, cmd) { class Arduino {
return new Promise((resolve, reject) => { constructor() {
arduino.queue[cmd] = (ms) => { this.path = {};
return resolve(ms); this.known = KNOWN;
}; this.alias = {};
return arduino.serial[device].write(cmd, (err, results) => { this.serial = { connect: {}, projector: {}, camera: {}, light: {} };
if (err) { this.baud = 57600;
//console.error(err) this.queue = {};
return reject(err); this.timer = 0;
this.lock = false;
this.locks = {};
} }
// async enumerate() {
});
});
}
/**
* Send a string to an Arduino using async/await
*
* @param {string} device Arduino identifier
* @param {string} str String to send
*
* @returns {Promise} Resolves after sending
**/
async function write(device, str) {
return new Promise((resolve, reject) => {
arduino.serial[device].write(str, function (err, results) {
if (err) {
return reject(err);
}
//console.log('sent: ' + str)
return resolve(results);
});
});
}
/**
* Connect to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after opening
**/
async function openArduino(device) {
return new Promise((resolve, reject) => {
return arduino.serial[device].open(error => {
if (error) {
return reject(error);
}
return resolve(true);
});
});
}
/**
* Close a connection to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after closing
**/
async function closeArduino(device) {
return new Promise((resolve, reject) => {
return arduino.serial[device].close((err) => {
if (err) {
return reject(err);
}
return resolve(true);
});
});
}
/******
Arduino handlers
*******/
const arduino = {
path: {},
known: [
'/dev/tty.usbmodem1a161',
'/dev/tty.usbserial-A800f8dk',
'/dev/tty.usbserial-A900cebm',
'/dev/tty.usbmodem1a131',
'/dev/tty.usbserial-a900f6de',
'/dev/tty.usbmodem1a141',
'/dev/ttyACM0',
'COM3'
],
alias: {},
serial: {
connect: {},
projector: {},
camera: {},
light: {}
},
baud: 57600,
queue: {},
timer: 0,
lock: false,
locks: {}
};
arduino.enumerate = async function () {
return new Promise((resolve, reject) => { return new Promise((resolve, reject) => {
return SerialPort.list((err, ports) => { return SerialPort.list((err, ports) => {
let matches = []; let matches = [];
if (err) { if (err) {
return reject(err); return reject(err);
} }
ports.forEach(port => { ports.forEach((port) => {
if (arduino.known.indexOf(port.comName) !== -1) { if (this.known.indexOf(port.comName) !== -1) {
matches.push(port.comName); matches.push(port.comName);
} }
else if ((port.manufacturer + '').toLowerCase().indexOf('arduino') !== -1) { else if ((port.manufacturer + '').toLowerCase().indexOf('arduino') !== -1) {
@ -151,104 +74,141 @@ arduino.enumerate = async function () {
} }
}); });
}); });
}; }
//commands which respond to a sent char /**
arduino.send = async function (serial, cmd, res) { * Send a command to an Arduino using async/await
const device = arduino.alias[serial]; *
* @param {string} device Arduino identifier
* @param {string} cmd Single character command to send
*
* @returns {Promise} Resolves after sending
**/
async sendAsync(device, cmd) {
return new Promise((resolve, reject) => {
this.queue[cmd] = (ms) => {
return resolve(ms);
};
return this.serial[device].write(cmd, (err, results) => {
if (err) {
//console.error(err)
return reject(err);
}
//
});
});
}
async send(serial, cmd) {
const device = this.alias[serial];
let results; let results;
if (arduino.locks[serial]) { if (this.locks[serial]) {
return false; return false;
} }
arduino.locks[serial] = true; this.locks[serial] = true;
await delay(cfg.arduino.serialDelay); await delay(cfg.arduino.serialDelay);
try { try {
results = await send(device, cmd); results = await this.sendAsync(device, cmd);
} }
catch (e) { catch (e) {
return console.error(e); return console.error(e);
} }
arduino.locks[serial] = false; this.locks[serial] = false;
arduino.timer = new Date().getTime(); this.timer = new Date().getTime();
return await eventEmitter.emit('arduino_send', cmd); return await eventEmitter.emit('arduino_send', cmd);
}; }
//send strings, after char triggers firmware to accept async string(serial, str) {
arduino.string = async function (serial, str) { const device = this.alias[serial];
const device = arduino.alias[serial];
let writeSuccess; let writeSuccess;
await delay(cfg.arduino.serialDelay); await delay(cfg.arduino.serialDelay);
if (typeof arduino.serial[device].fake !== 'undefined' if (typeof this.serial[device].fake !== 'undefined'
&& arduino.serial[device].fake) { && this.serial[device].fake) {
return arduino.serial[device].string(str); return this.serial[device].string(str);
} }
else { else {
try { try {
writeSuccess = await write(device, str); writeSuccess = await this.writeAsync(device, str);
} }
catch (e) { catch (e) {
return console.error(e); return console.error(e);
} }
return writeSuccess; return writeSuccess;
} }
}; }
//respond with same char over serial when done /**
arduino.end = async function (serial, data) { * Send a string to an Arduino using async/await
*
* @param {string} device Arduino identifier
* @param {string} str String to send
*
* @returns {Promise} Resolves after sending
**/
async writeAsync(device, str) {
return new Promise((resolve, reject) => {
this.serial[device].write(str, function (err, results) {
if (err) {
return reject(err);
}
//console.log('sent: ' + str)
return resolve(results);
});
});
}
end(serial, data) {
const end = new Date().getTime(); const end = new Date().getTime();
const ms = end - arduino.timer; const ms = end - this.timer;
let complete; let complete;
if (arduino.queue[data] !== undefined) { if (this.queue[data] !== undefined) {
arduino.locks[serial] = false; this.locks[serial] = false;
//console.log('Command ' + data + ' took ' + ms + 'ms'); //console.log('Command ' + data + ' took ' + ms + 'ms');
complete = arduino.queue[data](ms); //execute callback complete = this.queue[data](ms); //execute callback
eventEmitter.emit('arduino_end', data); eventEmitter.emit('arduino_end', data);
delete arduino.queue[data]; delete this.queue[data];
} }
else { else {
//console.log('Received stray "' + data + '"'); //silent to user //console.log('Received stray "' + data + '"'); //silent to user
} }
return complete; return complete;
}; }
arduino.alias = function (serial, device) { aliasSerial(serial, device) {
console.log(`Making "${serial}" an alias of ${device}`); console.log(`Making "${serial}" an alias of ${device}`);
arduino.alias[serial] = device; this.alias[serial] = device;
}; }
arduino.connect = async function (serial, device, confirm) { async connect(serial, device, confirm) {
return new Promise(async (resolve, reject) => { return new Promise(async (resolve, reject) => {
let connectSuccess; let connectSuccess;
arduino.path[serial] = device; this.path[serial] = device;
arduino.alias[serial] = device; this.alias[serial] = device;
arduino.serial[device] = new SerialPort(arduino.path[serial], { this.serial[device] = new SerialPort(this.path[serial], {
autoOpen: false, autoOpen: false,
baudRate: cfg.arduino.baud, baudRate: cfg.arduino.baud,
parser: parser parser: parser
}); });
arduino.locks[device] = false; this.locks[device] = false;
try { try {
connectSuccess = await openArduino(device); connectSuccess = await this.openArduino(device);
} }
catch (e) { catch (e) {
console.error('failed to open: ' + e); console.error('failed to open: ' + e);
return reject(e); return reject(e);
} }
console.log(`Opened connection with ${arduino.path[serial]} as ${serial}`); console.log(`Opened connection with ${this.path[serial]} as ${serial}`);
if (!confirm) { if (!confirm) {
arduino.serial[device].on('data', async (data) => { this.serial[device].on('data', async (data) => {
let d = data.toString('utf8'); let d = data.toString('utf8');
d = d.replace(newlineRe, '').replace(returnRe, ''); d = d.replace(newlineRe, '').replace(returnRe, '');
return await arduino.end(serial, d); return this.end(serial, d);
}); });
} }
else { else {
arduino.serial[device].on('data', async (data) => { this.serial[device].on('data', async (data) => {
let d = data.toString('utf8'); let d = data.toString('utf8');
d = d.replace(newlineRe, '').replace(returnRe, ''); d = d.replace(newlineRe, '').replace(returnRe, '');
return await arduino.confirmEnd(d); return await this.confirmEnd(d);
}); });
} }
return resolve(arduino.path[serial]); return resolve(this.path[serial]);
}); });
}; }
arduino.confirmExec = {}; confirmEnd(data) {
arduino.confirmEnd = function (data) {
//console.dir(data) //console.dir(data)
if (data === cfg.arduino.cmd.connect if (data === cfg.arduino.cmd.connect
|| data === cfg.arduino.cmd.proj_identifier || data === cfg.arduino.cmd.proj_identifier
@ -257,15 +217,15 @@ arduino.confirmEnd = function (data) {
|| data === cfg.arduino.cmd.proj_light_identifier || data === cfg.arduino.cmd.proj_light_identifier
|| data === cfg.arduino.cmd.proj_cam_light_identifier || data === cfg.arduino.cmd.proj_cam_light_identifier
|| data === cfg.arduino.cmd.proj_cam_identifier) { || data === cfg.arduino.cmd.proj_cam_identifier) {
arduino.confirmExec(null, data); this.confirmExec(null, data);
arduino.confirmExec = {}; this.confirmExec = {};
} }
}; }
arduino.verify = async function () { async verify() {
return new Promise(async (resolve, reject) => { return new Promise(async (resolve, reject) => {
const device = arduino.alias['connect']; const device = this.alias['connect'];
let writeSuccess; let writeSuccess;
arduino.confirmExec = function (err, data) { this.confirmExec = function (err, data) {
if (data === cfg.arduino.cmd.connect) { if (data === cfg.arduino.cmd.connect) {
return resolve(true); return resolve(true);
} }
@ -275,20 +235,20 @@ arduino.verify = async function () {
}; };
await delay(cfg.arduino.serialDelay); await delay(cfg.arduino.serialDelay);
try { try {
writeSuccess = await send(device, cfg.arduino.cmd.connect); writeSuccess = await this.sendAsync(device, cfg.arduino.cmd.connect);
} }
catch (e) { catch (e) {
return reject(e); return reject(e);
} }
return resolve(writeSuccess); return resolve(writeSuccess);
}); });
}; }
arduino.distinguish = async function () { async distinguish() {
return new Promise(async (resolve, reject) => { return new Promise(async (resolve, reject) => {
const device = arduino.alias['connect']; const device = this.alias['connect'];
let writeSuccess; let writeSuccess;
let type; let type;
arduino.confirmExec = function (err, data) { this.confirmExec = function (err, data) {
if (data === cfg.arduino.cmd.proj_identifier) { if (data === cfg.arduino.cmd.proj_identifier) {
type = 'projector'; type = 'projector';
} }
@ -314,44 +274,43 @@ arduino.distinguish = async function () {
}; };
await delay(cfg.arduino.serialDelay); await delay(cfg.arduino.serialDelay);
try { try {
writeSuccess = await send(device, cfg.arduino.cmd.mcopy_identifier); writeSuccess = await this.sendAsync(device, cfg.arduino.cmd.mcopy_identifier);
} }
catch (e) { catch (e) {
console.error(e); console.error(e);
return reject(e); return reject(e);
} }
}); });
}; }
arduino.close = async function (callback) { async close() {
const device = arduino.alias['connect']; const device = this.alias['connect'];
let closeSuccess; let closeSuccess;
try { try {
closeSuccess = await closeArduino(device); closeSuccess = await this.closeArduino(device);
} }
catch (e) { catch (e) {
return console.error(e); return console.error(e);
} }
return closeSuccess; return closeSuccess;
}; }
arduino.fakeConnect = async function (serial) { ;
async fakeConnect(serial) {
//console.log('Connecting to fake arduino...'); //console.log('Connecting to fake arduino...');
const device = '/dev/fake'; const device = '/dev/fake';
arduino.alias[serial] = device; this.alias[serial] = device;
arduino.serial[device] = { this.serial[device] = {
write: function (cmd, cb) { write: async function (cmd, cb) {
const t = { const t = {
c: cfg.arduino.cam.time + cfg.arduino.cam.delay, c: cfg.arduino.cam.time + cfg.arduino.cam.delay,
p: cfg.arduino.proj.time + cfg.arduino.proj.delay p: cfg.arduino.proj.time + cfg.arduino.proj.delay
}; };
let timeout = t[cmd]; let timeout = t[cmd];
let end;
if (typeof timeout === 'undefined') if (typeof timeout === 'undefined')
timeout = 10; timeout = 10;
arduino.timer = +new Date(); arduino.timer = +new Date();
setTimeout(() => { await delay(timeout);
arduino.end(serial, cmd); arduino.end(serial, cmd);
return cb(); return cb();
}, timeout);
}, },
string: async function (str) { string: async function (str) {
//do nothing //do nothing
@ -359,13 +318,49 @@ arduino.fakeConnect = async function (serial) {
}, },
fake: true fake: true
}; };
//console.log('Connected to fake arduino! Not real! Doesn\'t exist!'); //console.log('Connected to fake arduino! Not real! Does not exist!');
return true; return true;
}; }
/**
* Connect to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after opening
**/
async openArduino(device) {
return new Promise((resolve, reject) => {
return this.serial[device].open((err) => {
if (err) {
return reject(err);
}
return resolve(true);
});
});
}
/**
* Close a connection to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after closing
**/
async closeArduino(device) {
return new Promise((resolve, reject) => {
return this.serial[device].close((err) => {
if (err) {
return reject(err);
}
return resolve(true);
});
});
}
}
if (typeof module !== 'undefined' && module.parent) { if (typeof module !== 'undefined' && module.parent) {
module.exports = function (c, ee) { module.exports = function (c, ee) {
eventEmitter = ee; eventEmitter = ee;
cfg = c; cfg = c;
arduino = new Arduino();
return arduino; return arduino;
}; };
} }

File diff suppressed because one or more lines are too long

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@ -1,113 +1,14 @@
'use strict' 'use strict';
const SerialPort = require('serialport');
const SerialPort = require('serialport') const Readline = SerialPort.parsers.Readline;
const Readline = SerialPort.parsers.Readline const exec = require('child_process').exec;
const exec = require('child_process').exec const parser = new Readline('');
const parser = new Readline('') const newlineRe = new RegExp('\n', 'g');
const newlineRe = new RegExp('\n', 'g') const returnRe = new RegExp('\r', 'g');
const returnRe = new RegExp('\r', 'g') let eventEmitter;
let eventEmitter let cfg;
let arduino;
let cfg const KNOWN = [
/**
* Pause the process for X milliseconds in async/await functions
*
* @param {integer} ms milliseconds
*
* @returns {Promise} Resolves after wait
**/
async function delay (ms) {
return new Promise(resolve => {
return setTimeout(resolve, ms)
})
}
/**
* Send a command to an Arduino using async/await
*
* @param {string} device Arduino identifier
* @param {string} cmd Single character command to send
*
* @returns {Promise} Resolves after sending
**/
async function send (device, cmd) {
return new Promise ((resolve, reject) => {
arduino.queue[cmd] = (ms) => {
return resolve(ms)
}
return arduino.serial[device].write(cmd, (err, results) => {
if (err) {
//console.error(err)
return reject(err)
}
//
})
})
}
/**
* Send a string to an Arduino using async/await
*
* @param {string} device Arduino identifier
* @param {string} str String to send
*
* @returns {Promise} Resolves after sending
**/
async function write (device, str) {
return new Promise ((resolve, reject) => {
arduino.serial[device].write(str, function (err, results) {
if (err) {
return reject(err)
}
//console.log('sent: ' + str)
return resolve(results)
})
})
}
/**
* Connect to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after opening
**/
async function open (device) {
return new Promise((resolve, reject) => {
return arduino.serial[device].open(error => {
if (error) {
return reject(error)
}
return resolve(true)
})
})
}
/**
* Close a connection to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after closing
**/
async function close (device) {
return new Promise((resolve, reject) => {
return arduino.serial[device].close((err) => {
if (err) {
return reject(err)
}
return resolve(true)
})
})
}
/******
Arduino handlers
*******/
const arduino = {
path : {},
known: [
'/dev/tty.usbmodem1a161', '/dev/tty.usbmodem1a161',
'/dev/tty.usbserial-A800f8dk', '/dev/tty.usbserial-A800f8dk',
'/dev/tty.usbserial-A900cebm', '/dev/tty.usbserial-A900cebm',
@ -116,143 +17,198 @@ const arduino = {
'/dev/tty.usbmodem1a141', '/dev/tty.usbmodem1a141',
'/dev/ttyACM0', '/dev/ttyACM0',
'COM3' 'COM3'
], ];
alias : { /**
* Pause the process for X milliseconds in async/await functions
}, *
serial : { * @param {integer} ms milliseconds
connect : {}, *
projector : {}, * @returns {Promise} Resolves after wait
camera : {}, **/
light : {} async function delay(ms) {
}, return new Promise(resolve => {
baud : 57600, return setTimeout(resolve, ms);
queue : {}, });
timer : 0,
lock : false,
locks : {
}
} }
/**
arduino.enumerate = async function () { * Class representing the arduino communication features
return new Promise( (resolve, reject) => { **/
class Arduino {
constructor() {
this.path = {};
this.known = KNOWN;
this.alias = {};
this.serial = { connect: {}, projector: {}, camera: {}, light: {} };
this.baud = 57600;
this.queue = {};
this.timer = 0;
this.lock = false;
this.locks = {};
}
async enumerate() {
return new Promise((resolve, reject) => {
return SerialPort.list((err, ports) => { return SerialPort.list((err, ports) => {
let matches = [] let matches = [];
if (err) { if (err) {
return reject(err) return reject(err);
} }
ports.forEach(port => { ports.forEach((port) => {
if (arduino.known.indexOf(port.comName) !== -1) { if (this.known.indexOf(port.comName) !== -1) {
matches.push(port.comName) matches.push(port.comName);
} else if ((port.manufacturer + '').toLowerCase().indexOf('arduino') !== -1) {
matches.push(port.comName)
} }
}) else if ((port.manufacturer + '').toLowerCase().indexOf('arduino') !== -1) {
matches.push(port.comName);
}
else if ((port.comName + '').toLowerCase().indexOf('usbserial') !== -1) {
matches.push(port.comName);
}
else if ((port.comName + '').toLowerCase().indexOf('usbmodem') !== -1) {
matches.push(port.comName);
}
});
if (matches.length === 0) { if (matches.length === 0) {
return reject('No USB devices found'); return reject('No USB devices found');
} else if (matches.length > 0) {
return resolve(matches)
} }
}) else if (matches.length > 0) {
}) return resolve(matches);
}
//commands which respond to a sent char
arduino.send = async function (serial, cmd, res) {
const device = arduino.alias[serial]
let results
if (arduino.locks[serial]) {
return false
} }
arduino.locks[serial] = true });
await delay(cfg.arduino.serialDelay) });
}
/**
* Send a command to an Arduino using async/await
*
* @param {string} device Arduino identifier
* @param {string} cmd Single character command to send
*
* @returns {Promise} Resolves after sending
**/
async sendAsync(device, cmd) {
return new Promise((resolve, reject) => {
this.queue[cmd] = (ms) => {
return resolve(ms);
};
return this.serial[device].write(cmd, (err, results) => {
if (err) {
//console.error(err)
return reject(err);
}
//
});
});
}
async send(serial, cmd) {
const device = this.alias[serial];
let results;
if (this.locks[serial]) {
return false;
}
this.locks[serial] = true;
await delay(cfg.arduino.serialDelay);
try { try {
results = await send(device, cmd) results = await this.sendAsync(device, cmd);
} catch (e) {
return console.error(e)
} }
arduino.locks[serial] = false catch (e) {
arduino.timer = new Date().getTime() return console.error(e);
return await eventEmitter.emit('arduino_send', cmd) }
} this.locks[serial] = false;
this.timer = new Date().getTime();
//send strings, after char triggers firmware to accept return await eventEmitter.emit('arduino_send', cmd);
arduino.string = async function (serial, str) { }
const device = arduino.alias[serial] async string(serial, str) {
let writeSuccess const device = this.alias[serial];
await delay(cfg.arduino.serialDelay) let writeSuccess;
if (typeof arduino.serial[device].fake !== 'undefined' await delay(cfg.arduino.serialDelay);
&& arduino.serial[device].fake) { if (typeof this.serial[device].fake !== 'undefined'
return arduino.serial[device].string(str) && this.serial[device].fake) {
} else { return this.serial[device].string(str);
}
else {
try { try {
writeSuccess = await write(device, str) writeSuccess = await this.writeAsync(device, str);
} catch (e) {
return console.error(e)
} }
return writeSuccess catch (e) {
return console.error(e);
} }
} return writeSuccess;
}
//respond with same char over serial when done }
arduino.end = async function (serial, data) { /**
const end = new Date().getTime() * Send a string to an Arduino using async/await
const ms = end - arduino.timer *
let complete * @param {string} device Arduino identifier
if (arduino.queue[data] !== undefined) { * @param {string} str String to send
arduino.locks[serial] = false; *
* @returns {Promise} Resolves after sending
**/
async writeAsync(device, str) {
return new Promise((resolve, reject) => {
this.serial[device].write(str, function (err, results) {
if (err) {
return reject(err);
}
//console.log('sent: ' + str)
return resolve(results);
});
});
}
end(serial, data) {
const end = new Date().getTime();
const ms = end - this.timer;
let complete;
if (this.queue[data] !== undefined) {
this.locks[serial] = false;
//console.log('Command ' + data + ' took ' + ms + 'ms'); //console.log('Command ' + data + ' took ' + ms + 'ms');
complete = arduino.queue[data](ms) //execute callback complete = this.queue[data](ms); //execute callback
eventEmitter.emit('arduino_end', data) eventEmitter.emit('arduino_end', data);
delete arduino.queue[data] delete this.queue[data];
} else { }
else {
//console.log('Received stray "' + data + '"'); //silent to user //console.log('Received stray "' + data + '"'); //silent to user
} }
return complete return complete;
}; }
arduino.alias = function (serial, device) { aliasSerial(serial, device) {
console.log(`Making "${serial}" an alias of ${device}`) console.log(`Making "${serial}" an alias of ${device}`);
arduino.alias[serial] = device this.alias[serial] = device;
} }
arduino.connect = async function (serial, device, confirm) { async connect(serial, device, confirm) {
return new Promise(async (resolve, reject) => { return new Promise(async (resolve, reject) => {
let connectSuccess let connectSuccess;
arduino.path[serial] = device; this.path[serial] = device;
arduino.alias[serial] = device; this.alias[serial] = device;
arduino.serial[device] = new SerialPort(arduino.path[serial], { this.serial[device] = new SerialPort(this.path[serial], {
autoOpen : false, autoOpen: false,
baudRate: cfg.arduino.baud, baudRate: cfg.arduino.baud,
parser: parser parser: parser
}) });
arduino.locks[device] = false this.locks[device] = false;
try { try {
connectSuccess = await open(device) connectSuccess = await this.openArduino(device);
} catch (e) {
console.error('failed to open: ' + e)
return reject(e)
} }
console.log(`Opened connection with ${arduino.path[serial]} as ${serial}`); catch (e) {
console.error('failed to open: ' + e);
return reject(e);
}
console.log(`Opened connection with ${this.path[serial]} as ${serial}`);
if (!confirm) { if (!confirm) {
arduino.serial[device].on('data', async (data) => { this.serial[device].on('data', async (data) => {
let d = data.toString('utf8') let d = data.toString('utf8');
d = d.replace(newlineRe, '').replace(returnRe, '') d = d.replace(newlineRe, '').replace(returnRe, '');
return await arduino.end(serial, d) return this.end(serial, d);
}) });
} else {
arduino.serial[device].on('data', async (data) => {
let d = data.toString('utf8')
d = d.replace(newlineRe, '').replace(returnRe, '')
return await arduino.confirmEnd(d)
})
} }
return resolve(arduino.path[serial]) else {
}) this.serial[device].on('data', async (data) => {
let d = data.toString('utf8');
} d = d.replace(newlineRe, '').replace(returnRe, '');
return await this.confirmEnd(d);
arduino.confirmExec = {}; });
arduino.confirmEnd = function (data) { }
return resolve(this.path[serial]);
});
}
confirmEnd(data) {
//console.dir(data) //console.dir(data)
if (data === cfg.arduino.cmd.connect if (data === cfg.arduino.cmd.connect
|| data === cfg.arduino.cmd.proj_identifier || data === cfg.arduino.cmd.proj_identifier
@ -260,111 +216,152 @@ arduino.confirmEnd = function (data) {
|| data === cfg.arduino.cmd.light_identifier || data === cfg.arduino.cmd.light_identifier
|| data === cfg.arduino.cmd.proj_light_identifier || data === cfg.arduino.cmd.proj_light_identifier
|| data === cfg.arduino.cmd.proj_cam_light_identifier || data === cfg.arduino.cmd.proj_cam_light_identifier
|| data === cfg.arduino.cmd.proj_cam_identifier ) { || data === cfg.arduino.cmd.proj_cam_identifier) {
arduino.confirmExec(null, data); this.confirmExec(null, data);
arduino.confirmExec = {}; this.confirmExec = {};
} }
} }
async verify() {
arduino.verify = async function () {
return new Promise(async (resolve, reject) => { return new Promise(async (resolve, reject) => {
const device = arduino.alias['connect'] const device = this.alias['connect'];
let writeSuccess let writeSuccess;
arduino.confirmExec = function (err, data) { this.confirmExec = function (err, data) {
if (data === cfg.arduino.cmd.connect) { if (data === cfg.arduino.cmd.connect) {
return resolve(true) return resolve(true);
} else {
return reject('Wrong data returned')
} }
else {
return reject('Wrong data returned');
} }
await delay(cfg.arduino.serialDelay)
try {
writeSuccess = await send(device, cfg.arduino.cmd.connect)
} catch (e) {
return reject(e)
}
return resolve(writeSuccess)
})
}
arduino.distinguish = async function () {
return new Promise(async (resolve, reject) => {
const device = arduino.alias['connect']
let writeSuccess
let type
arduino.confirmExec = function (err, data) {
if (data === cfg.arduino.cmd.proj_identifier) {
type = 'projector'
} else if (data === cfg.arduino.cmd.cam_identifier) {
type = 'camera'
} else if (data === cfg.arduino.cmd.light_identifier) {
type = 'light'
} else if (data === cfg.arduino.cmd.proj_light_identifier) {
type = 'projector,light'
} else if (data === cfg.arduino.cmd.proj_cam_light_identifier) {
type = 'projector,camera,light'
} else if (data === cfg.arduino.cmd.proj_cam_identifier) {
type = 'projector,camera'
} else if (data === cfg.ardino.cmd.proj_second_identifier) {
type = 'projector_second'
}
return resolve(type)
}
await delay(cfg.arduino.serialDelay)
try {
writeSuccess = await send(device, cfg.arduino.cmd.mcopy_identifier)
} catch (e) {
console.error(e)
return reject(e)
}
})
}
arduino.close = async function (callback) {
const device = arduino.alias['connect']
let closeSuccess
try {
closeSuccess = await close(device)
} catch (e) {
return console.error(e)
}
return closeSuccess
};
arduino.fakeConnect = async function (serial) {
//console.log('Connecting to fake arduino...');
const device = '/dev/fake'
arduino.alias[serial] = device
arduino.serial[device] = {
write : function (cmd, cb) {
const t = {
c : cfg.arduino.cam.time + cfg.arduino.cam.delay,
p : cfg.arduino.proj.time + cfg.arduino.proj.delay
}
let timeout = t[cmd]
let end
if (typeof timeout === 'undefined') timeout = 10
arduino.timer = +new Date()
setTimeout(() => {
arduino.end(serial, cmd)
return cb()
}, timeout)
},
string : async function (str) {
//do nothing
return true
},
fake : true
}; };
//console.log('Connected to fake arduino! Not real! Doesn\'t exist!'); await delay(cfg.arduino.serialDelay);
return true try {
writeSuccess = await this.sendAsync(device, cfg.arduino.cmd.connect);
}
catch (e) {
return reject(e);
}
return resolve(writeSuccess);
});
}
async distinguish() {
return new Promise(async (resolve, reject) => {
const device = this.alias['connect'];
let writeSuccess;
let type;
this.confirmExec = function (err, data) {
if (data === cfg.arduino.cmd.proj_identifier) {
type = 'projector';
}
else if (data === cfg.arduino.cmd.cam_identifier) {
type = 'camera';
}
else if (data === cfg.arduino.cmd.light_identifier) {
type = 'light';
}
else if (data === cfg.arduino.cmd.proj_light_identifier) {
type = 'projector,light';
}
else if (data === cfg.arduino.cmd.proj_cam_light_identifier) {
type = 'projector,camera,light';
}
else if (data === cfg.arduino.cmd.proj_cam_identifier) {
type = 'projector,camera';
}
else if (data === cfg.ardino.cmd.proj_second_identifier) {
type = 'projector_second';
}
return resolve(type);
};
await delay(cfg.arduino.serialDelay);
try {
writeSuccess = await this.sendAsync(device, cfg.arduino.cmd.mcopy_identifier);
}
catch (e) {
console.error(e);
return reject(e);
}
});
}
async close() {
const device = this.alias['connect'];
let closeSuccess;
try {
closeSuccess = await this.closeArduino(device);
}
catch (e) {
return console.error(e);
}
return closeSuccess;
}
;
async fakeConnect(serial) {
//console.log('Connecting to fake arduino...');
const device = '/dev/fake';
this.alias[serial] = device;
this.serial[device] = {
write: async function (cmd, cb) {
const t = {
c: cfg.arduino.cam.time + cfg.arduino.cam.delay,
p: cfg.arduino.proj.time + cfg.arduino.proj.delay
};
let timeout = t[cmd];
if (typeof timeout === 'undefined')
timeout = 10;
arduino.timer = +new Date();
await delay(timeout);
arduino.end(serial, cmd);
return cb();
},
string: async function (str) {
//do nothing
return true;
},
fake: true
};
//console.log('Connected to fake arduino! Not real! Does not exist!');
return true;
}
/**
* Connect to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after opening
**/
async openArduino(device) {
return new Promise((resolve, reject) => {
return this.serial[device].open((err) => {
if (err) {
return reject(err);
}
return resolve(true);
});
});
}
/**
* Close a connection to an Arduino using async/await
*
* @param {string} device Arduino identifier
*
* @returns {Promise} Resolves after closing
**/
async closeArduino(device) {
return new Promise((resolve, reject) => {
return this.serial[device].close((err) => {
if (err) {
return reject(err);
}
return resolve(true);
});
});
}
} }
if (typeof module !== 'undefined' && module.parent) { if (typeof module !== 'undefined' && module.parent) {
module.exports = function (c, ee) { module.exports = function (c, ee) {
eventEmitter = ee eventEmitter = ee;
cfg = c cfg = c;
return arduino arduino = new Arduino();
} return arduino;
};
} }
//# sourceMappingURL=index.js.map