'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); const Log = require("log"); const electron_1 = require("electron"); /** @module lib/sequencer **/ let seq; class Sequencer { /** * @constructor * Create a new sequencer and assign command and UI as private sub-classes * * @param {object} cfg Configuration object * @param {object} cmd Shared command class * @param {object} ui Electron UI, browser window **/ constructor(cfg, cmd, ui) { this.running = false; this.paused = false; this.grid = []; this.gridLoops = 1; this.arr = []; //store sequence from gui this.loops = 1; this.CMDS = {}; this.id = 'sequence'; this.alerted = false; this.cfg = cfg; this.cmd = cmd; this.ui = ui; this.cmds(cfg.cmd); this.init(); } /** * Take configuration object and assign all commands as keys * in the internal CMDS object. * * @param {object} obj Configuration object **/ cmds(obj) { let keys = Object.keys(obj); for (let key of keys) { this.CMDS[obj[key]] = key; } // // } /** * Initialize the class by requiring ipcMain from electron * and creating logger. * **/ async init() { this.log = await Log({ label: this.id }); this.ipc = require('electron').ipcMain; this.listen(); } /** * Bind ipc listener to channel 'sequencer' or current id of * class. **/ listen() { this.ipc.on(this.id, this.listener.bind(this)); } /** * Listener callback function. Called whenever ipc * message is sent to channel 'sequencer'. * * @param {object} event IPC message event * @param {object} arg Arguments provided in message **/ async listener(event, arg) { if (arg && arg.start) { this.start(arg); } else if (arg && arg.stop) { this.stop(); } else if (arg && arg.pause) { this.pause(); } else if (arg && arg.set) { this.setSteps(arg.set); } else if (arg && arg.unset) { this.unsetSteps(arg.unset); } else if (arg && arg.loops) { this.setLoops(arg.loops); } event.returnValue = true; } /** * Sets the value of the loops in the grid sequence * to value sent by UI in ipc message. * * @param {integer} count Number of loops to set grid sequence to **/ setLoops(count) { this.gridLoops = count; this.log.info(`Set loop count to ${count}`); } /** * Sets multiple steps at once * * @param {array} steps Array of steps to set or update **/ setSteps(steps) { for (let step of steps) { this.grid[step.x] = step; } } /** * Resets multiple steps to default 'undefined' state * * @param {array} steps Array containing the x location of steps to unset **/ unsetSteps(steps) { for (let x of steps) { this.grid[x] = undefined; } } /** * Starts a sequence with the existing grid sequence, * or if one is provided in the arg object, starts * that sequence. * * @param {object} arg Arguments from ipc message **/ async start(arg) { const psbId = electron_1.powerSaveBlocker.start('prevent-display-sleep'); let startTime = +new Date(); let ms; if (arg && arg.arr) { this.arr = arg.arr; //overwrite sequence } else { this.arr = this.grid; } if (arg && arg.loops) { this.loops = arg.loops; //overwrite loops } else { this.loops = this.gridLoops; } this.running = true; this.paused = false; //start sequence this.log.info(`Starting sequence...`); this.ui.send(this.id, { start: true }); if (this.cmd.proj.filmout.state.enabled === true) { await this.cmd.proj.filmout.display.open(); } for (let x = 0; x < this.loops; x++) { //start loop this.log.info(`Starting loop ${x + 1}`); this.ui.send(this.id, { loop: x, start: true }); for (let y = 0; y < this.arr.length; y++) { //start step if (!this.running) { break; } //UI initiates pause, not planned while (this.paused) { await delay(42); } if (typeof this.arr[y] === 'undefined') { continue; } this.log.info(`Starting step ${y + 1} of loop ${x + 1}`); this.ui.send(this.id, { step: y, loop: x, start: true }); await this.step(y); //end step this.log.info(`Ended step ${y + 1} of loop ${x + 1}`); this.ui.send(this.id, { step: y, loop: x, stop: true }); } if (!this.running) { break; } //end loop this.log.info(`Ended loop ${x + 1}`); this.ui.send(this.id, { loop: x, stop: true }); } if (this.cmd.proj.filmout.state.enabled === true) { await this.cmd.proj.filmout.display.close(); } electron_1.powerSaveBlocker.stop(psbId); this.psbId = null; ms = (+new Date()) - startTime; //end sequence this.log.info(`Ended sequence`); this.ui.send(this.id, { stop: true, ms }); } /** * Pauses sequence from UI. **/ pause() { this.paused = true; } /** * Stops the sequence **/ stop() { if (this.cmd.proj.filmout.state.enabled === true) { this.cmd.proj.filmout.display.close(); } this.running = false; if (this.psbId) { electron_1.powerSaveBlocker.stop(this.psbId); } //clear? } /** * Execute command @ step x. Wrapper with try catch. * * @param {integer} x Step to execute command at **/ async step(x) { try { await this.cmdExec(x); } catch (err) { throw err; } } /** * Locate step @ position x and execute the command. * * @param {integer} x Step to execute command at **/ async cmdExec(x) { const cmdOriginal = this.arr[x].cmd; const cmd = this.CMDS[cmdOriginal]; this.log.info(`CMD: '${cmdOriginal}' -> ${cmd}`); //I wrote this when I was very tired and delirious return await this.cmd[cmd](); } } module.exports = function (cfg, cmd, ui) { return new Sequencer(cfg, cmd, ui); }; //# sourceMappingURL=index.js.map