import {LngLat, earthRadius} from '../geo/lng_lat'; import type {LngLatLike} from '../geo/lng_lat'; import {IMercatorCoordinate} from '@maplibre/maplibre-gl-style-spec'; /* * The average circumference of the world in meters. */ const earthCircumference = 2 * Math.PI * earthRadius; // meters /* * The circumference at a line of latitude in meters. */ function circumferenceAtLatitude(latitude: number) { return earthCircumference * Math.cos(latitude * Math.PI / 180); } export function mercatorXfromLng(lng: number) { return (180 + lng) / 360; } export function mercatorYfromLat(lat: number) { return (180 - (180 / Math.PI * Math.log(Math.tan(Math.PI / 4 + lat * Math.PI / 360)))) / 360; } export function mercatorZfromAltitude(altitude: number, lat: number) { return altitude / circumferenceAtLatitude(lat); } export function lngFromMercatorX(x: number) { return x * 360 - 180; } export function latFromMercatorY(y: number) { const y2 = 180 - y * 360; return 360 / Math.PI * Math.atan(Math.exp(y2 * Math.PI / 180)) - 90; } export function altitudeFromMercatorZ(z: number, y: number) { return z * circumferenceAtLatitude(latFromMercatorY(y)); } /** * Determine the Mercator scale factor for a given latitude, see * https://en.wikipedia.org/wiki/Mercator_projection#Scale_factor * * At the equator the scale factor will be 1, which increases at higher latitudes. * * @param lat - Latitude * @returns scale factor */ export function mercatorScale(lat: number) { return 1 / Math.cos(lat * Math.PI / 180); } /** * A `MercatorCoordinate` object represents a projected three dimensional position. * * `MercatorCoordinate` uses the web mercator projection ([EPSG:3857](https://epsg.io/3857)) with slightly different units: * * - the size of 1 unit is the width of the projected world instead of the "mercator meter" * - the origin of the coordinate space is at the north-west corner instead of the middle * * For example, `MercatorCoordinate(0, 0, 0)` is the north-west corner of the mercator world and * `MercatorCoordinate(1, 1, 0)` is the south-east corner. If you are familiar with * [vector tiles](https://github.com/mapbox/vector-tile-spec) it may be helpful to think * of the coordinate space as the `0/0/0` tile with an extent of `1`. * * The `z` dimension of `MercatorCoordinate` is conformal. A cube in the mercator coordinate space would be rendered as a cube. * * @group Geography and Geometry * * @example * ```ts * let nullIsland = new MercatorCoordinate(0.5, 0.5, 0); * ``` * @see [Add a custom style layer](https://maplibre.org/maplibre-gl-js/docs/examples/custom-style-layer/) */ export class MercatorCoordinate implements IMercatorCoordinate { x: number; y: number; z: number; /** * @param x - The x component of the position. * @param y - The y component of the position. * @param z - The z component of the position. */ constructor(x: number, y: number, z: number = 0) { this.x = +x; this.y = +y; this.z = +z; } /** * Project a `LngLat` to a `MercatorCoordinate`. * * @param lngLatLike - The location to project. * @param altitude - The altitude in meters of the position. * @returns The projected mercator coordinate. * @example * ```ts * let coord = MercatorCoordinate.fromLngLat({ lng: 0, lat: 0}, 0); * coord; // MercatorCoordinate(0.5, 0.5, 0) * ``` */ static fromLngLat(lngLatLike: LngLatLike, altitude: number = 0): MercatorCoordinate { const lngLat = LngLat.convert(lngLatLike); return new MercatorCoordinate( mercatorXfromLng(lngLat.lng), mercatorYfromLat(lngLat.lat), mercatorZfromAltitude(altitude, lngLat.lat)); } /** * Returns the `LngLat` for the coordinate. * * @returns The `LngLat` object. * @example * ```ts * let coord = new MercatorCoordinate(0.5, 0.5, 0); * let lngLat = coord.toLngLat(); // LngLat(0, 0) * ``` */ toLngLat() { return new LngLat( lngFromMercatorX(this.x), latFromMercatorY(this.y)); } /** * Returns the altitude in meters of the coordinate. * * @returns The altitude in meters. * @example * ```ts * let coord = new MercatorCoordinate(0, 0, 0.02); * coord.toAltitude(); // 6914.281956295339 * ``` */ toAltitude(): number { return altitudeFromMercatorZ(this.z, this.y); } /** * Returns the distance of 1 meter in `MercatorCoordinate` units at this latitude. * * For coordinates in real world units using meters, this naturally provides the scale * to transform into `MercatorCoordinate`s. * * @returns Distance of 1 meter in `MercatorCoordinate` units. */ meterInMercatorCoordinateUnits(): number { // 1 meter / circumference at equator in meters * Mercator projection scale factor at this latitude return 1 / earthCircumference * mercatorScale(latFromMercatorY(this.y)); } }