399 lines
11 KiB
JavaScript
399 lines
11 KiB
JavaScript
// current weather conditions display
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/* globals WeatherDisplay, utils, STATUS, luxon */
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// eslint-disable-next-line no-unused-vars
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class Radar extends WeatherDisplay {
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constructor(navId, elemId) {
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super(navId, elemId, 'Local Radar', true);
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// set max images
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this.dopplerRadarImageMax = 6;
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// update timing
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this.timing.baseDelay = 350;
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this.timing.delay = [
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{ time: 4, si: 5 },
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{ time: 1, si: 0 },
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{ time: 1, si: 1 },
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{ time: 1, si: 2 },
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{ time: 1, si: 3 },
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{ time: 1, si: 4 },
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{ time: 4, si: 5 },
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{ time: 1, si: 0 },
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{ time: 1, si: 1 },
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{ time: 1, si: 2 },
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{ time: 1, si: 3 },
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{ time: 1, si: 4 },
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{ time: 4, si: 5 },
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{ time: 1, si: 0 },
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{ time: 1, si: 1 },
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{ time: 1, si: 2 },
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{ time: 1, si: 3 },
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{ time: 1, si: 4 },
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{ time: 12, si: 5 },
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];
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}
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async getData(_weatherParameters) {
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super.getData(_weatherParameters);
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const weatherParameters = _weatherParameters ?? this.weatherParameters;
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// ALASKA AND HAWAII AREN'T SUPPORTED!
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if (weatherParameters.state === 'AK' || weatherParameters.state === 'HI') {
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this.setStatus(STATUS.noData);
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return;
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}
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// date and time parsing
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const { DateTime } = luxon;
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// get the base map
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let src = 'images/4000RadarMap2.jpg';
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if (weatherParameters.State === 'HI') src = 'images/HawaiiRadarMap2.png';
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this.baseMap = await utils.image.load(src);
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const baseUrl = 'https://mesonet.agron.iastate.edu/archive/data/';
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const baseUrlEnd = '/GIS/uscomp/';
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const baseUrls = [];
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let date = DateTime.utc().minus({ days: 1 }).startOf('day');
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// make urls for yesterday and today
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while (date <= DateTime.utc().startOf('day')) {
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baseUrls.push(`${baseUrl}${date.toFormat('yyyy/LL/dd')}${baseUrlEnd}`);
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date = date.plus({ days: 1 });
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}
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const lists = (await Promise.all(baseUrls.map(async (url) => {
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try {
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// get a list of available radars
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const radarHtml = await utils.fetch.text(url, { cors: true });
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return radarHtml;
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} catch (e) {
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console.log('Unable to get list of radars');
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console.error(e);
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this.setStatus(STATUS.failed);
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return false;
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}
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}))).filter((d) => d);
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// convert to an array of gif urls
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const pngs = lists.map((html, htmlIdx) => {
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const parser = new DOMParser();
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const xmlDoc = parser.parseFromString(html, 'text/html');
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// add the base url
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const base = xmlDoc.createElement('base');
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base.href = baseUrls[htmlIdx];
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xmlDoc.head.append(base);
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const anchors = xmlDoc.getElementsByTagName('a');
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const urls = [];
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Array.from(anchors).forEach((elem) => {
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if (elem.innerHTML?.includes('.png') && elem.innerHTML?.includes('n0r_')) {
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urls.push(elem.href);
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}
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});
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return urls;
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}).flat();
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// get the last few images
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const sortedPngs = pngs.sort((a, b) => (Date(a) < Date(b) ? -1 : 1));
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const urls = sortedPngs.slice(-(this.dopplerRadarImageMax));
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// calculate offsets and sizes
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let offsetX = 120;
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let offsetY = 69;
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const width = 2550;
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const height = 1600;
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offsetX *= 2;
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offsetY *= 2;
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const sourceXY = Radar.getXYFromLatitudeLongitudeMap(weatherParameters, offsetX, offsetY);
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// create working context for manipulation
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const workingCanvas = document.createElement('canvas');
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workingCanvas.width = width;
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workingCanvas.height = height;
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const workingContext = workingCanvas.getContext('2d');
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workingContext.imageSmoothingEnabled = false;
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// calculate radar offsets
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const radarOffsetX = 120;
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const radarOffsetY = 70;
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const radarSourceXY = Radar.getXYFromLatitudeLongitudeDoppler(weatherParameters, offsetX, offsetY);
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const radarSourceX = radarSourceXY.x / 2;
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const radarSourceY = radarSourceXY.y / 2;
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// Load the most recent doppler radar images.
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const radarInfo = await Promise.all(urls.map(async (url) => {
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// create destination context
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const canvas = document.createElement('canvas');
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canvas.width = 640;
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canvas.height = 367;
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const context = canvas.getContext('2d');
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context.imageSmoothingEnabled = false;
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// get the image
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const response = await fetch(utils.cors.rewriteUrl(url));
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// test response
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if (!response.ok) throw new Error(`Unable to fetch radar error ${response.status} ${response.statusText} from ${response.url}`);
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// get the blob
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const blob = await response.blob();
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// store the time
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const timeMatch = url.match(/_(\d{4})(\d\d)(\d\d)(\d\d)(\d\d)\./);
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let time;
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if (timeMatch) {
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const [, year, month, day, hour, minute] = timeMatch;
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time = DateTime.fromObject({
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year,
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month,
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day,
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hour,
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minute,
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}, {
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zone: 'UTC',
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}).setZone();
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} else {
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time = DateTime.fromHTTP(response.headers.get('last-modified')).setZone();
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}
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// assign to an html image element
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const imgBlob = await utils.image.load(blob);
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// draw the entire image
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workingContext.clearRect(0, 0, width, 1600);
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workingContext.drawImage(imgBlob, 0, 0, width, 1600);
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// get the base map
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context.drawImage(await this.baseMap, sourceXY.x, sourceXY.y, offsetX * 2, offsetY * 2, 0, 0, 640, 367);
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// crop the radar image
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const cropCanvas = document.createElement('canvas');
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cropCanvas.width = 640;
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cropCanvas.height = 367;
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const cropContext = cropCanvas.getContext('2d', { willReadFrequently: true });
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cropContext.imageSmoothingEnabled = false;
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cropContext.drawImage(workingCanvas, radarSourceX, radarSourceY, (radarOffsetX * 2), (radarOffsetY * 2.33), 0, 0, 640, 367);
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// clean the image
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Radar.removeDopplerRadarImageNoise(cropContext);
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// merge the radar and map
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Radar.mergeDopplerRadarImage(context, cropContext);
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const elem = this.fillTemplate('frame', { map: { type: 'img', src: canvas.toDataURL() } });
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return {
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canvas,
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time,
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elem,
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};
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}));
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// put the elements in the container
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const scrollArea = this.elem.querySelector('.scroll-area');
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scrollArea.innerHTML = '';
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scrollArea.append(...radarInfo.map((r) => r.elem));
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// set max length
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this.timing.totalScreens = radarInfo.length;
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// store the images
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this.data = radarInfo.map((radar) => radar.canvas);
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this.times = radarInfo.map((radar) => radar.time);
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this.setStatus(STATUS.loaded);
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}
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async drawCanvas() {
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super.drawCanvas();
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const { DateTime } = luxon;
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const time = this.times[this.screenIndex].toLocaleString(DateTime.TIME_SIMPLE);
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const timePadded = time.length >= 8 ? time : ` ${time}`;
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this.elem.querySelector('.header .right .time').innerHTML = timePadded;
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// scroll to image
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this.elem.querySelector('.scroll-area').style.top = `${-this.screenIndex * 371}px`;
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this.finishDraw();
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}
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static getXYFromLatitudeLongitudeMap(pos, offsetX, offsetY) {
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let y = 0;
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let x = 0;
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const imgHeight = 3200;
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const imgWidth = 5100;
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y = (51.75 - pos.latitude) * 55.2;
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// center map
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y -= offsetY;
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// Do not allow the map to exceed the max/min coordinates.
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if (y > (imgHeight - (offsetY * 2))) {
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y = imgHeight - (offsetY * 2);
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} else if (y < 0) {
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y = 0;
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}
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x = ((-130.37 - pos.longitude) * 41.775) * -1;
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// center map
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x -= offsetX;
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// Do not allow the map to exceed the max/min coordinates.
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if (x > (imgWidth - (offsetX * 2))) {
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x = imgWidth - (offsetX * 2);
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} else if (x < 0) {
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x = 0;
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}
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return { x: x * 2, y: y * 2 };
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}
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static getXYFromLatitudeLongitudeDoppler(pos, offsetX, offsetY) {
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let y = 0;
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let x = 0;
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const imgHeight = 6000;
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const imgWidth = 2800;
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y = (51 - pos.latitude) * 61.4481;
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// center map
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y -= offsetY;
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// Do not allow the map to exceed the max/min coordinates.
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if (y > (imgHeight - (offsetY * 2))) {
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y = imgHeight - (offsetY * 2);
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} else if (y < 0) {
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y = 0;
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}
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x = ((-129.138 - pos.longitude) * 42.1768) * -1;
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// center map
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x -= offsetX;
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// Do not allow the map to exceed the max/min coordinates.
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if (x > (imgWidth - (offsetX * 2))) {
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x = imgWidth - (offsetX * 2);
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} else if (x < 0) {
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x = 0;
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}
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return { x: x * 2, y: y * 2 };
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}
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static removeDopplerRadarImageNoise(RadarContext) {
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const RadarImageData = RadarContext.getImageData(0, 0, RadarContext.canvas.width, RadarContext.canvas.height);
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// examine every pixel,
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// change any old rgb to the new-rgb
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for (let i = 0; i < RadarImageData.data.length; i += 4) {
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// i + 0 = red
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// i + 1 = green
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// i + 2 = blue
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// i + 3 = alpha (0 = transparent, 255 = opaque)
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let R = RadarImageData.data[i];
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let G = RadarImageData.data[i + 1];
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let B = RadarImageData.data[i + 2];
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let A = RadarImageData.data[i + 3];
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// is this pixel the old rgb?
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if ((R === 0 && G === 0 && B === 0)
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|| (R === 0 && G === 236 && B === 236)
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|| (R === 1 && G === 160 && B === 246)
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|| (R === 0 && G === 0 && B === 246)) {
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// change to your new rgb
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// Transparent
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R = 0;
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G = 0;
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B = 0;
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A = 0;
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} else if ((R === 0 && G === 255 && B === 0)) {
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// Light Green 1
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R = 49;
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G = 210;
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B = 22;
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A = 255;
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} else if ((R === 0 && G === 200 && B === 0)) {
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// Light Green 2
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R = 0;
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G = 142;
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B = 0;
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A = 255;
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} else if ((R === 0 && G === 144 && B === 0)) {
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// Dark Green 1
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R = 20;
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G = 90;
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B = 15;
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A = 255;
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} else if ((R === 255 && G === 255 && B === 0)) {
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// Dark Green 2
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R = 10;
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G = 40;
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B = 10;
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A = 255;
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} else if ((R === 231 && G === 192 && B === 0)) {
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// Yellow
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R = 196;
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G = 179;
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B = 70;
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A = 255;
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} else if ((R === 255 && G === 144 && B === 0)) {
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// Orange
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R = 190;
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G = 72;
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B = 19;
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A = 255;
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} else if ((R === 214 && G === 0 && B === 0)
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|| (R === 255 && G === 0 && B === 0)) {
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// Red
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R = 171;
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G = 14;
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B = 14;
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A = 255;
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} else if ((R === 192 && G === 0 && B === 0)
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|| (R === 255 && G === 0 && B === 255)) {
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// Brown
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R = 115;
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G = 31;
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B = 4;
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A = 255;
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}
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RadarImageData.data[i] = R;
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RadarImageData.data[i + 1] = G;
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RadarImageData.data[i + 2] = B;
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RadarImageData.data[i + 3] = A;
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}
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RadarContext.putImageData(RadarImageData, 0, 0);
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// MapContext.drawImage(RadarContext.canvas, 0, 0);
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}
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static mergeDopplerRadarImage(mapContext, radarContext) {
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const mapImageData = mapContext.getImageData(0, 0, mapContext.canvas.width, mapContext.canvas.height);
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const radarImageData = radarContext.getImageData(0, 0, radarContext.canvas.width, radarContext.canvas.height);
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// examine every pixel,
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// change any old rgb to the new-rgb
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for (let i = 0; i < radarImageData.data.length; i += 4) {
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// i + 0 = red
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// i + 1 = green
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// i + 2 = blue
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// i + 3 = alpha (0 = transparent, 255 = opaque)
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// is this pixel the old rgb?
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if ((mapImageData.data[i] < 116 && mapImageData.data[i + 1] < 116 && mapImageData.data[i + 2] < 116)) {
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// change to your new rgb
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// Transparent
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radarImageData.data[i] = 0;
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radarImageData.data[i + 1] = 0;
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radarImageData.data[i + 2] = 0;
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radarImageData.data[i + 3] = 0;
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}
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}
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radarContext.putImageData(radarImageData, 0, 0);
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mapContext.drawImage(radarContext.canvas, 0, 0);
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}
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}
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