/***************************************************************************** * Open MCT, Copyright (c) 2014-2022, United States Government * as represented by the Administrator of the National Aeronautics and Space * Administration. All rights reserved. * * Open MCT is licensed under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the License. * You may obtain a copy of the License at * http://www.apache.org/licenses/LICENSE-2.0. * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * * Open MCT includes source code licensed under additional open source * licenses. See the Open Source Licenses file (LICENSES.md) included with * this source code distribution or the Licensing information page available * at runtime from the About dialog for additional information. *****************************************************************************/ (function () { var FIFTEEN_MINUTES = 15 * 60 * 1000; var handlers = { subscribe: onSubscribe, unsubscribe: onUnsubscribe, request: onRequest }; var subscriptions = {}; function workSubscriptions(timestamp) { var now = Date.now(); var nextWork = Math.min.apply(Math, Object.values(subscriptions).map(function (subscription) { return subscription(now); })); var wait = nextWork - now; if (wait < 0) { wait = 0; } if (Number.isFinite(wait)) { setTimeout(workSubscriptions, wait); } } function onSubscribe(message) { var data = message.data; // Keep var start = Date.now(); var step = 1000 / data.dataRateInHz; var nextStep = start - (start % step) + step; let work; if (data.spectra) { work = function (now) { while (nextStep < now) { const messageCopy = Object.create(message); message.data.start = nextStep - (60 * 1000); message.data.end = nextStep; onRequest(messageCopy); nextStep += step; } return nextStep; }; } else { work = function (now) { while (nextStep < now) { self.postMessage({ id: message.id, data: { name: data.name, utc: nextStep, yesterday: nextStep - 60 * 60 * 24 * 1000, sin: sin(nextStep, data.period, data.amplitude, data.offset, data.phase, data.randomness), wavelengths: wavelengths(), intensities: intensities(), cos: cos(nextStep, data.period, data.amplitude, data.offset, data.phase, data.randomness) } }); nextStep += step; } return nextStep; }; } subscriptions[message.id] = work; workSubscriptions(); } function onUnsubscribe(message) { delete subscriptions[message.data.id]; } function onRequest(message) { var request = message.data; if (request.end === undefined) { request.end = Date.now(); } if (request.start === undefined) { request.start = request.end - FIFTEEN_MINUTES; } var now = Date.now(); var start = request.start; var end = request.end > now ? now : request.end; var amplitude = request.amplitude; var period = request.period; var offset = request.offset; var dataRateInHz = request.dataRateInHz; var phase = request.phase; var randomness = request.randomness; var loadDelay = Math.max(request.loadDelay, 0); var step = 1000 / dataRateInHz; var nextStep = start - (start % step) + step; var data = []; for (; nextStep < end && data.length < 5000; nextStep += step) { data.push({ utc: nextStep, yesterday: nextStep - 60 * 60 * 24 * 1000, sin: sin(nextStep, period, amplitude, offset, phase, randomness), wavelengths: wavelengths(), intensities: intensities(), cos: cos(nextStep, period, amplitude, offset, phase, randomness) }); } if (loadDelay === 0) { postOnRequest(message, request, data); } else { setTimeout(() => postOnRequest(message, request, data), loadDelay); } } function postOnRequest(message, request, data) { self.postMessage({ id: message.id, data: request.spectra ? { wavelength: data.map((item) => { return item.wavelength; }), cos: data.map((item) => { return item.cos; }) } : data }); } function cos(timestamp, period, amplitude, offset, phase, randomness) { return amplitude * Math.cos(phase + (timestamp / period / 1000 * Math.PI * 2)) + (amplitude * Math.random() * randomness) + offset; } function sin(timestamp, period, amplitude, offset, phase, randomness) { return amplitude * Math.sin(phase + (timestamp / period / 1000 * Math.PI * 2)) + (amplitude * Math.random() * randomness) + offset; } function wavelengths() { let values = []; while (values.length < 5) { const randomValue = Math.random() * 100; if (!values.includes(randomValue)) { values.push(String(randomValue)); } } return values; } function intensities() { let values = []; while (values.length < 5) { const randomValue = Math.random() * 10; if (!values.includes(randomValue)) { values.push(String(randomValue)); } } return values; } function sendError(error, message) { self.postMessage({ error: error.name + ': ' + error.message, message: message, id: message.id }); } self.onmessage = function handleMessage(event) { var message = event.data; var handler = handlers[message.request]; if (!handler) { sendError(new Error('unknown message type'), message); } else { try { handler(message); } catch (e) { sendError(e, message); } } }; }());