'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.Camera = void 0; const intval_1 = require("intval"); const processing_1 = require("processing"); const delay_1 = require("delay"); const log_1 = require("log"); /** class representing camera functions **/ class Camera { /** * **/ constructor(arduino, cfg, ui, filmout, second = false) { this.state = { pos: 0, dir: true, capper: false }; this.arduino = null; this.intval = null; this.processing = null; this.id = 'camera'; this.arduino = arduino; this.cfg = cfg; this.ui = ui; this.filmout = filmout; if (second) this.id += '_second'; this.init(); } /** * **/ async init() { this.log = await (0, log_1.Log)({ label: this.id }); this.ipc = require('electron').ipcMain; this.listen(); } /** * **/ listen() { this.ipc.on(this.id, this.listener.bind(this)); this.ipc.on('intval', this.connectIntval.bind(this)); this.ipc.on('processing', this.connectProcessing.bind(this)); } /** * **/ async set(dir, id) { let cmd; let ms; if (dir) { cmd = this.cfg.arduino.cmd[`${this.id}_forward`]; } else { cmd = this.cfg.arduino.cmd[`${this.id}_backward`]; } this.state.dir = dir; if (this.processing) { try { ms = await this.processing.setDir(dir); } catch (err) { this.log.error(err); } } else if (this.intval) { try { ms = await this.intval.setDir(dir); } catch (err) { this.log.error(err); } } else { try { ms = await this.arduino.send(this.id, cmd); } catch (err) { this.log.error(err); } } return await this.end(cmd, id, ms); } /** * **/ async cap(state, id) { let cmd; let ms; if (state) { cmd = this.cfg.arduino.cmd[`${this.id}_forward`]; } else { cmd = this.cfg.arduino.cmd[`${this.id}_backward`]; } this.state.capper = state; try { ms = await this.arduino.send(this.id, cmd); } catch (err) { this.log.error(err); } return await this.end(cmd, id, ms); } /** * **/ async move(id) { const cmd = this.cfg.arduino.cmd[this.id]; let ms; if (this.filmout.state.enabled) { await this.filmout.start(); } if (this.processing) { try { ms = await this.processing.move(); } catch (err) { this.log.error(err); } } else if (this.intval) { try { ms = await this.intval.move(); } catch (err) { this.log.error(`Error moving intval ${this.id}: ${id}`, err); } } else { try { ms = await this.arduino.send(this.id, cmd); } catch (err) { this.log.error(err); } } if (this.filmout.state.enabled) { //await delay(100 * 1000); await this.filmout.end(); } //this.log.info('Camera move time', { ms }); return this.end(cmd, id, ms); } async both(id) { const cmd = this.cfg.arduino.cmd[id]; let ms; try { ms = await this.arduino.send(this.id, cmd); } catch (err) { this.log.error(`Error moving both ${this.id}: ${id}`, err); } //this.log.info('Cameras move time', { ms }); return await this.end(cmd, id, ms); } /** * **/ async exposure(exposure, id) { const cmd = this.cfg.arduino.cmd.camera_exposure; const str = `${exposure}`; const started = +new Date(); let ms; let confirmState; let parts; let confirmExposure; if (this.intval) { return this.intval.setExposure(exposure, (ms) => { this.ui.send('timing', { c: 'c', ms: exposure }); return this.end(cmd, id, ms); }); } else if (this.arduino.hasState[this.id]) { try { ms = this.arduino.send(this.id, cmd); } catch (err) { this.log.error('Error sending camera exposure command', err); } await (0, delay_1.delay)(1); try { ms = await this.arduino.sendString(this.id, str); } catch (err) { this.log.error('Error sending camera exposure string', err); } await ms; await (0, delay_1.delay)(1); try { confirmState = await this.arduino.state(this.id, false); } catch (err) { this.log.error(`Error confirming set state`, err); } parts = this.arduino.stateStr[this.id].split('G'); if (parts.length > 1) { parts = parts[1].split('H'); confirmExposure = parseInt(parts[0]); if (!isNaN(confirmExposure)) { this.log.info(`Exposure successfully set to ${confirmExposure}ms`); this.ui.send('timing', { c: 'c', ms: exposure }); } } ms = (+new Date()) - started; return await this.end(cmd, id, ms); } return 0; } /** * **/ async connectIntval(event, arg) { return new Promise((resolve, reject) => { if (arg.connect) { this.intval = new intval_1.Intval(arg.url); this.processing = null; this.intval.connect((err, ms, state) => { if (err) { this.ui.send('intval', { connected: false }); this.log.info(`Cannot connect to ${arg.url}`, 'INTVAL'); this.intval = null; } else { this.ui.send('intval', { connected: true, url: arg.url, state: state }); this.log.info(`Connected to INTVAL3 @ ${arg.url}`, 'INTVAL'); } return resolve(true); }); } else if (arg.disconnect) { this.intval = null; return resolve(false); } }); } /** * **/ async connectProcessing(event, arg) { return new Promise((resolve, reject) => { this.processing = new processing_1.Processing(arg.url); this.intval = null; this.ui.send('processing', { connected: true, url: arg.url }); return resolve(true); }); } /** * **/ async listener(event, arg) { if (typeof arg.dir !== 'undefined') { try { await this.set(arg.dir, arg.id); } catch (err) { this.log.error(err); } } else if (typeof arg.move !== 'undefined') { try { await this.move(arg.id); } catch (err) { this.log.error(err); } } else if (typeof arg.val !== 'undefined') { this.state.pos = arg.val; } else if (typeof arg.capper !== 'undefined') { try { await this.cap(arg.capper, arg.id); } catch (err) { this.log.error(err); } } else if (typeof arg.exposure !== 'undefined') { try { await this.exposure(arg.exposure, arg.id); } catch (err) { this.log.error(err); } } event.returnValue = true; } /** * **/ async end(cmd, id, ms) { let message = ''; if (cmd === this.cfg.arduino.cmd.camera_forward) { message = 'Camera set to FORWARD'; } else if (cmd === this.cfg.arduino.cmd.camera_backward) { message = 'Camera set to BACKWARD'; } else if (cmd === this.cfg.arduino.cmd.camera_second_forward) { message = 'Camera second set to FORWARD'; } else if (cmd === this.cfg.arduino.cmd.camera_second_backward) { message = 'Camera second set to BACKWARD'; } else if (cmd === this.cfg.arduino.cmd.camera) { message = 'Camera '; if (this.state.dir) { message += 'ADVANCED'; } else { message += 'REWOUND'; } message += ' 1 frame'; } else if (cmd === this.cfg.arduino.cmd.camera_second) { message = 'Camera second '; if (this.state.dir) { message += 'ADVANCED'; } else { message += 'REWOUND'; } message += ' 1 frame'; } else if (cmd === this.cfg.arduino.cmd.camerass) { message += 'Cameras both MOVED 1 frame each'; } else if (cmd === this.cfg.arduino.camera_exposure) { message += 'Camera set exposure'; } message += ` ${ms}ms`; this.log.info(message); await this.ui.send(this.id, { cmd: cmd, id: id, ms: ms }); return ms; } } exports.Camera = Camera; module.exports = function (arduino, cfg, ui, filmout, second) { return new Camera(arduino, cfg, ui, filmout, second); }; //# sourceMappingURL=index.js.map