ws4kp/server/scripts/modules/regionalforecast-utils.mjs

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import { getWeatherRegionalIconFromIconLink } from './icons.mjs';
import { preloadImg } from './utils/image.mjs';
import { json } from './utils/fetch.mjs';
const buildForecast = (forecast, city, cityXY) => ({
daytime: forecast.isDaytime,
temperature: forecast.temperature || 0,
name: formatCity(city.city),
icon: forecast.icon,
x: cityXY.x,
y: cityXY.y,
time: forecast.startTime,
});
const getRegionalObservation = async (point, city) => {
try {
// get stations
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const stations = await json(`https://api.weather.gov/gridpoints/${point.wfo}/${point.x},${point.y}/stations`);
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// get the first station
const station = stations.features[0].id;
// get the observation data
const observation = await json(`${station}/observations/latest`);
// preload the image
if (!observation.properties.icon) return false;
const icon = getWeatherRegionalIconFromIconLink(observation.properties.icon, !observation.properties.daytime);
if (!icon) return false;
preloadImg(icon);
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// return the observation
return observation.properties;
} catch (e) {
console.log(`Unable to get regional observations for ${city.Name ?? city.city}`);
console.error(e.status, e.responseJSON);
return false;
}
};
// utility latitude/pixel conversions
const getXYFromLatitudeLongitude = (Latitude, Longitude, OffsetX, OffsetY, state) => {
if (state === 'AK') return getXYFromLatitudeLongitudeAK(Latitude, Longitude, OffsetX, OffsetY);
if (state === 'HI') return getXYFromLatitudeLongitudeHI(Latitude, Longitude, OffsetX, OffsetY);
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 };
};
const 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 };
};
const 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 };
};
const getMinMaxLatitudeLongitude = (X, Y, OffsetX, OffsetY, state) => {
if (state === 'AK') return getMinMaxLatitudeLongitudeAK(X, Y, OffsetX, OffsetY);
if (state === 'HI') return getMinMaxLatitudeLongitudeHI(X, Y, OffsetX, OffsetY);
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,
};
};
const 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,
};
};
const 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,
};
};
const getXYForCity = (City, MaxLatitude, MinLongitude, state) => {
if (state === 'AK') getXYForCityAK(City, MaxLatitude, MinLongitude);
if (state === 'HI') getXYForCityHI(City, MaxLatitude, MinLongitude);
let x = (City.lon - MinLongitude) * 57;
let y = (MaxLatitude - City.lat) * 70;
if (y < 30) y = 30;
if (y > 282) y = 282;
if (x < 40) x = 40;
if (x > 580) x = 580;
return { x, y };
};
const getXYForCityAK = (City, MaxLatitude, MinLongitude) => {
let x = (City.lon - MinLongitude) * 37;
let y = (MaxLatitude - City.lat) * 70;
if (y < 30) y = 30;
if (y > 282) y = 282;
if (x < 40) x = 40;
if (x > 580) x = 580;
return { x, y };
};
const getXYForCityHI = (City, MaxLatitude, MinLongitude) => {
let x = (City.lon - MinLongitude) * 57;
let y = (MaxLatitude - City.lat) * 70;
if (y < 30) y = 30;
if (y > 282) y = 282;
if (x < 40) x = 40;
if (x > 580) x = 580;
return { x, y };
};
// to fit on the map, remove anything after punctuation and then limit to 15 characters
const formatCity = (city) => city.match(/[^-;/\\,]*/)[0].substr(0, 12);
export {
buildForecast,
getRegionalObservation,
getXYFromLatitudeLongitude,
getMinMaxLatitudeLongitude,
getXYForCity,
formatCity,
};