// current weather conditions display /* globals WeatherDisplay, utils, STATUS, draw, luxon */ // eslint-disable-next-line no-unused-vars class Radar extends WeatherDisplay { constructor(navId,elemId) { super(navId,elemId,'Local Radar'); // set max images this.dopplerRadarImageMax = 6; // update timing this.timing.baseDelay = 350; this.timing.delay = [ {time: 4, si: 0}, {time: 1, si: 1}, {time: 1, si: 2}, {time: 1, si: 3}, {time: 1, si: 4}, {time: 1, si: 5}, {time: 4, si: 6}, {time: 1, si: 0}, {time: 1, si: 1}, {time: 1, si: 2}, {time: 1, si: 3}, {time: 1, si: 4}, {time: 1, si: 5}, {time: 4, si: 6}, {time: 1, si: 0}, {time: 1, si: 1}, {time: 1, si: 2}, {time: 1, si: 3}, {time: 1, si: 4}, {time: 1, si: 5}, {time: 12, si: 6}, ]; // pre-load background image (returns promise) this.backgroundImage = utils.image.load('images/BackGround4_1.png'); } async getData(weatherParameters) { super.getData(); // ALASKA ISN'T SUPPORTED! if (weatherParameters.state === 'AK') { this.setStatus(STATUS.noData); return; } // date and time parsing const {DateTime} = luxon; // get the base map let src = 'images/4000RadarMap2.jpg'; if (weatherParameters.State === 'HI') src = 'images/HawaiiRadarMap2.png'; this.baseMap = await utils.image.load(src); const baseUrl = 'Conus/RadarImg/'; let radarHtml; try { // get a list of available radars radarHtml = await $.ajax({ type: 'GET', url: baseUrl, dataType: 'text', crossDomain: true, }); } catch (e) { console.error('Unable to get list of radars'); console.error(e); this.setStatus(STATUS.failed); return; } // convert to an array of gif urls const parser = new DOMParser(); const xmlDoc = parser.parseFromString(radarHtml, 'text/html'); const anchors = xmlDoc.getElementsByTagName('a'); const gifs = []; for (let idx in anchors) { gifs.push(anchors[idx].innerHTML); } // filter for selected urls let filter = /Conus_\d/; if (weatherParameters.state === 'HI') filter = /hawaii_\d/; // get the last few images const urlsFull = gifs.filter(gif => gif && gif.match(filter)); const urls = urlsFull.slice(-(this.dopplerRadarImageMax-1)); // add additional 'latest.gif' if (weatherParameters.state !== 'HI') urls.push('latest_radaronly.gif'); if (weatherParameters.state === 'HI') urls.push('hawaii_radaronly.gif'); // calculate offsets and sizes let offsetX = 120; let offsetY = 69; let sourceXY; let width; let height; if (weatherParameters.State === 'HI') { width = 600; height = 571; sourceXY = this.getXYFromLatitudeLongitudeHI(weatherParameters.latitude, weatherParameters.longitude, offsetX, offsetY); } else { width = 2550; height = 1600; offsetX *= 2; offsetY *= 2; sourceXY = this.getXYFromLatitudeLongitudeDoppler(weatherParameters.latitude, weatherParameters.longitude, offsetX, offsetY); } // create working context for manipulation const workingCanvas = document.createElement('canvas'); workingCanvas.width = width; workingCanvas.height = height; const workingContext = workingCanvas.getContext('2d'); workingContext.imageSmoothingEnabled = false; // calculate radar offsets let radarOffsetX = 117; let radarOffsetY = 60; let radarSourceXY = this.getXYFromLatitudeLongitudeDoppler(weatherParameters.latitude, weatherParameters.longitude, offsetX, offsetY); let radarSourceX = radarSourceXY.x / 2; let radarSourceY = radarSourceXY.y / 2; if (weatherParameters.State === 'HI') { radarOffsetX = 120; radarOffsetY = 69; radarSourceXY = this.getXYFromLatitudeLongitudeHI(weatherParameters.latitude, weatherParameters.longitude, offsetX, offsetY); radarSourceX = radarSourceXY.x; radarSourceY = radarSourceXY.y; } // Load the most recent doppler radar images. const radarInfo = await Promise.all(urls.map(async (url) => { // create destination context const canvas = document.createElement('canvas'); canvas.width = 640; canvas.height = 367; const context = canvas.getContext('2d'); context.imageSmoothingEnabled = false; // get the image const [blob, status, xhr] = await (()=>new Promise((resolve, reject) => { $.ajaxCORS({ type: 'GET', url: baseUrl + url, xhrFields: { responseType: 'blob', }, crossDomain: true, success: (blob, status, xhr) => resolve([blob,status,xhr]), error: (xhr, status, e) => reject(e), }); }))(); // store the time const timeMatch = url.match(/_(\d{4})(\d\d)(\d\d)_(\d\d)(\d\d)_/); let time; if (timeMatch) { const [, year, month, day, hour, minute] = timeMatch; time = DateTime.fromObject({ year, month, day, hour, minute, zone: 'UTC', }).setZone(); } else { time = DateTime.fromHTTP(xhr.getResponseHeader('Last-Modified')).setZone(); } // assign to an html image element const imgBlob = await utils.image.load(blob); // draw the entire image if (weatherParameters.State === 'HI') { workingContext.clearRect(0, 0, 571, 600); workingContext.drawImage(imgBlob, 0, 0, 571, 600); } else { workingContext.clearRect(0, 0, 2550, 1600); workingContext.drawImage(imgBlob, 0, 0, 2550, 1600); } // get the base map context.drawImage(await this.baseMap, sourceXY.x, sourceXY.y, offsetX*2, offsetY*2, 0, 0, 640, 367); // crop the radar image const cropCanvas = document.createElement('canvas'); cropCanvas.width = 640; cropCanvas.height = 367; const cropContext = cropCanvas.getContext('2d'); cropContext.imageSmoothingEnabled = false; cropContext.drawImage(workingCanvas, radarSourceX, radarSourceY, (radarOffsetX * 2), (radarOffsetY * 2.33), 0, 0, 640, 367); // clean the image this.removeDopplerRadarImageNoise(cropContext); // merge the radar and map this.mergeDopplerRadarImage(context, cropContext); return { canvas, time, }; })); // set max length this.timing.totalScreens = radarInfo.length; // store the images this.data = radarInfo.map(radar=>radar.canvas); this.times = radarInfo.map(radar=>radar.time); } async drawCanvas() { super.drawCanvas(); this.context.drawImage(await this.backgroundImage, 0, 0); const {DateTime} = luxon; // Title draw.text(this.context, 'Arial', 'bold 28pt', '#ffffff', 155, 60, 'Local', 2); draw.text(this.context, 'Arial', 'bold 28pt', '#ffffff', 155, 95, 'Radar', 2); draw.text(this.context, 'Star4000', 'bold 18pt', '#ffffff', 438, 49, 'PRECIP', 2, 'center'); draw.text(this.context, 'Star4000', 'bold 18pt', '#ffffff', 298, 73, 'Light', 2); draw.text(this.context, 'Star4000', 'bold 18pt', '#ffffff', 517, 73, 'Heavy', 2); let x = 362; const y = 52; draw.box(this.context, '#000000', x - 2, y - 2, 154, 28); draw.box(this.context, 'rgb(49, 210, 22)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(28, 138, 18)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(20, 90, 15)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(10, 40, 10)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(196, 179, 70)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(190, 72, 19)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(171, 14, 14)', x, y, 17, 24); x += 19; draw.box(this.context, 'rgb(115, 31, 4)', x, y, 17, 24); x += 19; this.context.drawImage(this.data[this.screenIndex], 0, 0, 640, 367, 0, 113, 640, 367); draw.text(this.context, 'Star4000 Small', '24pt', '#ffffff', 438, 105, this.times[this.screenIndex].toLocaleString(DateTime.TIME_SIMPLE), 2, 'center'); this.finishDraw(); this.setStatus(STATUS.loaded); } // utility latitude/pixel conversions getXYFromLatitudeLongitude (Latitude, Longitude, OffsetX, OffsetY, state) { if (state === 'HI') return this.getXYFromLatitudeLongitudeHI(...arguments); let y = 0; let x = 0; const ImgHeight = 1600; const ImgWidth = 2550; y = (50.5 - Latitude) * 55.2; y -= OffsetY; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (y > (ImgHeight - (OffsetY * 2))) { y = ImgHeight - (OffsetY * 2); } else if (y < 0) { y = 0; } x = ((-127.5 - Longitude) * 41.775) * -1; x -= OffsetX; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (x > (ImgWidth - (OffsetX * 2))) { x = ImgWidth - (OffsetX * 2); } else if (x < 0) { x = 0; } return { x, y }; } getXYFromLatitudeLongitudeHI(Latitude, Longitude, OffsetX, OffsetY) { let y = 0; let x = 0; const ImgHeight = 571; const ImgWidth = 600; y = (25 - Latitude) * 55.2; y -= OffsetY; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (y > (ImgHeight - (OffsetY * 2))) { y = ImgHeight - (OffsetY * 2); } else if (y < 0) { y = 0; } x = ((-164.5 - Longitude) * 41.775) * -1; x -= OffsetX; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (x > (ImgWidth - (OffsetX * 2))) { x = ImgWidth - (OffsetX * 2); } else if (x < 0) { x = 0; } return { x, y }; } getXYFromLatitudeLongitudeDoppler (Latitude, Longitude, OffsetX, OffsetY) { let y = 0; let x = 0; const ImgHeight = 3200; const ImgWidth = 5100; y = (51.75 - Latitude) * 55.2; y -= OffsetY; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (y > (ImgHeight - (OffsetY * 2))) { y = ImgHeight - (OffsetY * 2); } else if (y < 0) { y = 0; } x = ((-130.37 - Longitude) * 41.775) * -1; x -= OffsetX; // Centers map. // Do not allow the map to exceed the max/min coordinates. if (x > (ImgWidth - (OffsetX * 2))) { x = ImgWidth - (OffsetX * 2); } else if (x < 0) { x = 0; } return { x: x * 2, y: y * 2 }; } removeDopplerRadarImageNoise (RadarContext) { const RadarImageData = RadarContext.getImageData(0, 0, RadarContext.canvas.width, RadarContext.canvas.height); // examine every pixel, // change any old rgb to the new-rgb for (let i = 0; i < RadarImageData.data.length; i += 4) { // i + 0 = red // i + 1 = green // i + 2 = blue // i + 3 = alpha (0 = transparent, 255 = opaque) let [R, G, B, A] = RadarImageData.data.slice(i,i+4); // is this pixel the old rgb? if ((R === 1 && G === 159 && B === 244) || (R >= 200 && G >= 200 && B >= 200) || (R === 4 && G === 233 && B === 231) || (R === 3 && G === 0 && B === 244)) { // Transparent R = 0; G = 0; B = 0; A = 0; } else if (R === 2 && G === 253 && B === 2) { // Light Green 1 R = 49; G = 210; B = 22; A = 255; } else if (R === 1 && G === 197 && B === 1) { // Light Green 2 R = 0; G = 142; B = 0; A = 255; } else if (R === 0 && G === 142 && B === 0) { // Dark Green 1 R = 20; G = 90; B = 15; A = 255; } else if (R === 253 && G === 248 && B === 2) { // Dark Green 2 R = 10; G = 40; B = 10; A = 255; } else if (R === 229 && G === 188 && B === 0) { // Yellow R = 196; G = 179; B = 70; A = 255; } else if (R === 253 && G === 139 && B === 0) { // Orange R = 190; G = 72; B = 19; A = 255; } else if (R === 212 && G === 0 && B === 0) { // Red R = 171; G = 14; B = 14; A = 255; } else if (R === 188 && G === 0 && B === 0) { // Brown R = 115; G = 31; B = 4; A = 255; } // store new values RadarImageData.data[i] = R; RadarImageData.data[i + 1] = G; RadarImageData.data[i + 2] = B; RadarImageData.data[i + 3] = A; } // rewrite the image RadarContext.putImageData(RadarImageData, 0, 0); } mergeDopplerRadarImage (mapContext, radarContext) { var mapImageData = mapContext.getImageData(0, 0, mapContext.canvas.width, mapContext.canvas.height); var radarImageData = radarContext.getImageData(0, 0, radarContext.canvas.width, radarContext.canvas.height); // examine every pixel, // change any old rgb to the new-rgb for (var i = 0; i < radarImageData.data.length; i += 4) { // i + 0 = red // i + 1 = green // i + 2 = blue // i + 3 = alpha (0 = transparent, 255 = opaque) // is this pixel the old rgb? if ((mapImageData.data[i] < 116 && mapImageData.data[i + 1] < 116 && mapImageData.data[i + 2] < 116)) { // change to your new rgb // Transparent radarImageData.data[i] = 0; radarImageData.data[i + 1] = 0; radarImageData.data[i + 2] = 0; radarImageData.data[i + 3] = 0; } } radarContext.putImageData(radarImageData, 0, 0); mapContext.drawImage(radarContext.canvas, 0, 0); } }