// regional forecast and observations // type 0 = observations, 1 = first forecast, 2 = second forecast /* globals WeatherDisplay, utils, STATUS, icons, UNITS, draw, navigation, luxon, _StationInfo, _RegionalCities */ // eslint-disable-next-line no-unused-vars class RegionalForecast extends WeatherDisplay { constructor(navId,elemId) { super(navId,elemId,'Regional Forecast'); // pre-load background image (returns promise) this.backgroundImage = utils.image.load('images/BackGround5_1.png'); // timings this.timing.totalScreens = 3; } async getData(weatherParameters) { super.getData(); // pre-load the base map (returns promise) let src = 'images/Basemap2.png'; if (weatherParameters.State === 'HI') { src = 'images/HawaiiRadarMap4.png'; } else if (weatherParameters.State === 'AK') { src = 'images/AlaskaRadarMap6.png'; } this.baseMap = utils.image.load(src); // map offset const offsetXY = { x: 240, y: 117, }; // get user's location in x/y const sourceXY = this.getXYFromLatitudeLongitude(weatherParameters.latitude, weatherParameters.longitude, offsetXY.x, offsetXY.y, weatherParameters.state); // get latitude and longitude limits const minMaxLatLon = this.getMinMaxLatitudeLongitude(sourceXY.x, sourceXY.y, offsetXY.x, offsetXY.y, weatherParameters.state); // get a target distance let targetDistance = 2.5; if (weatherParameters.State === 'HI') targetDistance = 1; // make station info into an array const stationInfoArray = Object.keys(_StationInfo).map(key => Object.assign({}, _StationInfo[key], {Name: _StationInfo[key].City, targetDistance})); // combine regional cities with station info for additional stations // stations are intentionally after cities to allow cities priority when drawing the map const combinedCities = [..._RegionalCities, ...stationInfoArray]; // Determine which cities are within the max/min latitude/longitude. const regionalCities = []; combinedCities.forEach(city => { if (city.Latitude > minMaxLatLon.minLat && city.Latitude < minMaxLatLon.maxLat && city.Longitude > minMaxLatLon.minLon && city.Longitude < minMaxLatLon.maxLon - 1) { // default to 1 for cities loaded from _RegionalCities, use value calculate above for remaining stations const targetDistance = city.targetDistance || 1; // Only add the city as long as it isn't within set distance degree of any other city already in the array. const okToAddCity = regionalCities.reduce((acc, testCity) => { const distance = utils.calc.distance(city.Longitude, city.Latitude, testCity.Longitude, testCity.Latitude); return acc && distance >= targetDistance; }, true); if (okToAddCity) regionalCities.push(city); } }); // get regional forecasts and observations (the two are intertwined due to the design of api.weather.gov) const regionalForecastPromises = regionalCities.map(async city => { try { // get the point first, then break down into forecast and observations const point = await utils.weather.getPoint(city.Latitude, city.Longitude); // start off the observation task const observationPromise = this.getRegionalObservation(point, city); const forecast = await $.ajax({ url: point.properties.forecast, dataType: 'json', crossDomain: true, }); // get XY on map for city const cityXY = this.getXYForCity(city, minMaxLatLon.maxLat, minMaxLatLon.minLon, weatherParameters.state); // wait for the regional observation if it's not done yet const observation = await observationPromise; // format the observation the same as the forecast const regionalObservation = { daytime: !!observation.icon.match(/\/day\//), temperature: utils.units.celsiusToFahrenheit(observation.temperature.value), name: city.Name, icon: observation.icon, x: cityXY.x, y: cityXY.y, }; // preload the icon utils.image.preload(icons.getWeatherRegionalIconFromIconLink(regionalObservation.icon, !regionalObservation.daytime)) // return a pared-down forecast // 0th object is the current conditions // first object is the next period i.e. if it's daytime then it's the "tonight" forecast // second object is the following period // always skip the first forecast index because it's what's going on right now return [ regionalObservation, this.buildForecast(forecast.properties.periods[1], city, cityXY), this.buildForecast(forecast.properties.periods[2], city, cityXY), ]; } catch (e) { console.log(`No regional forecast data for '${city.Name}'`); console.error(e.status, e.responseJSON); return false; } }); // wait for the forecasts const regionalDataAll = await Promise.all(regionalForecastPromises); // filter out any false (unavailable data) const regionalData = regionalDataAll.filter(data => data); // test for data present if (regionalData.length === 0) { this.setStatus(STATUS.noData); return; } // return the weather data and offsets this.data = { regionalData, offsetXY, sourceXY, }; this.setStatus(STATUS.loaded); } buildForecast (forecast, city, cityXY) { return { daytime: forecast.isDaytime, temperature: forecast.temperature||0, name: city.Name, icon: forecast.icon, x: cityXY.x, y: cityXY.y, time: forecast.startTime, }; } async getRegionalObservation (point, city) { try { // get stations const stations = await $.ajax({ type: 'GET', url: point.properties.observationStations, dataType: 'json', crossDomain: true, }); // get the first station const station = stations.features[0].id; // get the observation data const observation = await $.ajax({ type: 'GET', url: `${station}/observations/latest`, dataType: 'json', crossDomain: true, }); // preload the image utils.image.preload(icons.getWeatherRegionalIconFromIconLink(observation.properties.icon, !observation.properties.daytime)); // return the observation return observation.properties; } catch (e) { console.log(`Unable to get regional observations for ${city.Name}`); console.error(e.status, e.responseJSON); return false; } } // utility latitude/pixel conversions getXYFromLatitudeLongitude (Latitude, Longitude, OffsetX, OffsetY, state) { if (state === 'AK') return this.getXYFromLatitudeLongitudeAK(...arguments); 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 }; } getXYFromLatitudeLongitudeAK (Latitude, Longitude, OffsetX, OffsetY) { let y = 0; let x = 0; const ImgHeight = 1142; const ImgWidth = 1200; y = (73.0 - Latitude) * 56; 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 = ((-175.0 - Longitude) * 25.0) * -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 }; } getMinMaxLatitudeLongitude (X, Y, OffsetX, OffsetY, state) { if (state === 'AK') return this.getMinMaxLatitudeLongitudeAK(...arguments); if (state === 'HI') return this.getMinMaxLatitudeLongitudeHI(...arguments); const maxLat = ((Y / 55.2) - 50.5) * -1; const minLat = (((Y + (OffsetY * 2)) / 55.2) - 50.5) * -1; const minLon = (((X * -1) / 41.775) + 127.5) * -1; const maxLon = ((((X + (OffsetX * 2)) * -1) / 41.775) + 127.5) * -1; return { minLat, maxLat, minLon, maxLon }; } getMinMaxLatitudeLongitudeAK (X, Y, OffsetX, OffsetY) { const maxLat = ((Y / 56) - 73.0) * -1; const minLat = (((Y + (OffsetY * 2)) / 56) - 73.0) * -1; const minLon = (((X * -1) / 25) + 175.0) * -1; const maxLon = ((((X + (OffsetX * 2)) * -1) / 25) + 175.0) * -1; return { minLat, maxLat, minLon, maxLon }; } getMinMaxLatitudeLongitudeHI (X, Y, OffsetX, OffsetY) { const maxLat = ((Y / 55.2) - 25) * -1; const minLat = (((Y + (OffsetY * 2)) / 55.2) - 25) * -1; const minLon = (((X * -1) / 41.775) + 164.5) * -1; const maxLon = ((((X + (OffsetX * 2)) * -1) / 41.775) + 164.5) * -1; return { minLat, maxLat, minLon, maxLon }; } getXYForCity (City, MaxLatitude, MinLongitude, state) { if (state === 'AK') this.getXYForCityAK(...arguments); if (state === 'HI') this.getXYForCityHI(...arguments); let x = (City.Longitude - MinLongitude) * 57; let y = (MaxLatitude - City.Latitude) * 70; if (y < 30) y = 30; if (y > 282) y = 282; if (x < 40) x = 40; if (x > 580) x = 580; return { x, y }; } getXYForCityAK (City, MaxLatitude, MinLongitude) { let x = (City.Longitude - MinLongitude) * 37; let y = (MaxLatitude - City.Latitude) * 70; if (y < 30) y = 30; if (y > 282) y = 282; if (x < 40) x = 40; if (x > 580) x = 580; return { x, y }; } getXYForCityHI (City, MaxLatitude, MinLongitude) { let x = (City.Longitude - MinLongitude) * 57; let y = (MaxLatitude - City.Latitude) * 70; if (y < 30) y = 30; if (y > 282) y = 282; if (x < 40) x = 40; if (x > 580) x = 580; return { x, y }; } async drawCanvas() { super.drawCanvas(); // break up data into useful values const {regionalData: data, sourceXY, offsetXY} = this.data; // fixed offset for all y values when drawing to the map const mapYOff = 90; const {DateTime} = luxon; // draw the header graphics this.context.drawImage(await this.backgroundImage, 0, 0); draw.horizontalGradientSingle(this.context, 0, 30, 500, 90, draw.topColor1, draw.topColor2); draw.triangle(this.context, 'rgb(28, 10, 87)', 500, 30, 450, 90, 500, 90); // draw the appropriate title if (this.screenIndex === 0) { draw.titleText(this.context, 'Regional', 'Observations'); } else { let forecastDate = DateTime.fromISO(data[0][this.screenIndex].time); // get the name of the day const dayName = forecastDate.toLocaleString({weekday: 'long'}); // draw the title if (data[0][this.screenIndex].daytime) { draw.titleText(this.context, 'Forecast for', dayName); } else { draw.titleText(this.context, 'Forecast for', dayName + ' Night'); } } // draw the map this.context.drawImage(await this.baseMap, sourceXY.x, sourceXY.y, (offsetXY.x * 2), (offsetXY.y * 2), 0, mapYOff, 640, 312); await Promise.all(data.map(async city => { const period = city[this.screenIndex]; // draw the icon if possible const icon = icons.getWeatherRegionalIconFromIconLink(period.icon, !period.daytime); if (icon) { this.gifs.push(await utils.image.superGifAsync({ src: icon, max_width: 42, auto_play: true, canvas: this.canvas, x: period.x, y: period.y - 15+mapYOff, })); } // City Name draw.text(this.context, 'Star4000', '20px', '#ffffff', period.x - 40, period.y - 15+mapYOff, period.name, 2); // Temperature let temperature = period.temperature; if (navigation.units() === UNITS.metric) temperature = Math.round(utils.units.fahrenheitToCelsius(temperature)); draw.text(this.context, 'Star4000 Large Compressed', '28px', '#ffff00', period.x - (temperature.toString().length * 15), period.y + 20+mapYOff, temperature, 2); })); this.finishDraw(); } }