287 lines
No EOL
9.8 KiB
TypeScript
287 lines
No EOL
9.8 KiB
TypeScript
import * as turf from '@turf/turf'
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export class GeoOperations {
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static surfaceAreaInSqMeters(feature: any) {
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return turf.area(feature);
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}
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static centerpoint(feature: any) {
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const newFeature = turf.center(feature);
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newFeature.properties = feature.properties;
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newFeature.id = feature.id;
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return newFeature;
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}
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static centerpointCoordinates(feature: any): [number, number] {
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// @ts-ignore
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return turf.center(feature).geometry.coordinates;
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}
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/**
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* Returns the distance between the two points in kilometers
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* @param lonlat0
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* @param lonlat1
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*/
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static distanceBetween(lonlat0: [number, number], lonlat1: [number, number]) {
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return turf.distance(lonlat0, lonlat1)
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}
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/**
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* Calculates the overlap of 'feature' with every other specified feature.
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* The features with which 'feature' overlaps, are returned together with their overlap area in m²
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*
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* If 'feature' is a LineString, the features in which this feature is (partly) embedded is returned, the overlap length in meter is given
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*
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* If 'feature' is a point, it will return every feature the point is embedded in. Overlap will be undefined
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*/
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static calculateOverlap(feature: any, otherFeatures: any[]): { feat: any, overlap: number }[] {
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const featureBBox = BBox.get(feature);
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const result: { feat: any, overlap: number }[] = [];
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if (feature.geometry.type === "Point") {
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const coor = feature.geometry.coordinates;
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for (const otherFeature of otherFeatures) {
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if (otherFeature.geometry === undefined) {
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console.error("No geometry for feature ", feature)
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throw "List of other features contains a feature without geometry an undefined"
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}
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let otherFeatureBBox = BBox.get(otherFeature);
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if (!featureBBox.overlapsWith(otherFeatureBBox)) {
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continue;
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}
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if (this.inside(coor, otherFeature)) {
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result.push({feat: otherFeature, overlap: undefined})
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}
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}
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return result;
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}
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if (feature.geometry.type === "LineString") {
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for (const otherFeature of otherFeatures) {
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const otherFeatureBBox = BBox.get(otherFeature);
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const overlaps = featureBBox.overlapsWith(otherFeatureBBox)
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if (!overlaps) {
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continue;
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}
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// Calculate the length of the intersection
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try {
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let intersectionPoints = turf.lineIntersect(feature, otherFeature);
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if (intersectionPoints.features.length == 0) {
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// No intersections.
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// If one point is inside of the polygon, all points are
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const coors = feature.geometry.coordinates;
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const startCoor = coors[0]
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if (this.inside(startCoor, otherFeature)) {
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result.push({feat: otherFeature, overlap: this.lengthInMeters(feature)})
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}
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continue;
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}
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let intersectionPointsArray = intersectionPoints.features.map(d => {
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return d.geometry.coordinates
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});
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if (intersectionPointsArray.length == 1) {
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// We need to add the start- or endpoint of the current feature, depending on which one is embedded
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const coors = feature.geometry.coordinates;
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const startCoor = coors[0]
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if (this.inside(startCoor, otherFeature)) {
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// The startpoint is embedded
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intersectionPointsArray.push(startCoor)
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} else {
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intersectionPointsArray.push(coors[coors.length - 1])
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}
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}
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let intersection = turf.lineSlice(turf.point(intersectionPointsArray[0]), turf.point(intersectionPointsArray[1]), feature);
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if (intersection == null) {
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continue;
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}
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const intersectionSize = turf.length(intersection); // in km
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result.push({feat: otherFeature, overlap: intersectionSize * 1000})
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} catch (exception) {
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console.warn("EXCEPTION CAUGHT WHILE INTERSECTING: ", exception);
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}
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}
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return result;
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}
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if (feature.geometry.type === "Polygon" || feature.geometry.type === "MultiPolygon") {
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for (const otherFeature of otherFeatures) {
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const otherFeatureBBox = BBox.get(otherFeature);
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const overlaps = featureBBox.overlapsWith(otherFeatureBBox)
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if (!overlaps) {
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continue;
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}
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// Calculate the surface area of the intersection
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try {
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const intersection = turf.intersect(feature, otherFeature);
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if (intersection == null) {
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continue;
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}
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const intersectionSize = turf.area(intersection); // in m²
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result.push({feat: otherFeature, overlap: intersectionSize})
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} catch (exception) {
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console.warn("EXCEPTION CAUGHT WHILE INTERSECTING: ", exception);
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}
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}
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return result;
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}
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console.error("Could not correctly calculate the overlap of ", feature, ": unsupported type")
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return result;
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}
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public static inside(pointCoordinate, feature): boolean {
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// ray-casting algorithm based on
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// http://www.ecse.rpi.edu/Homepages/wrf/Research/Short_Notes/pnpoly.html
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if (feature.geometry.type === "Point") {
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return false;
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}
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if (feature.geometry.type === "MultiPolygon") {
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const coordinates = feature.geometry.coordinates[0];
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const outerPolygon = coordinates[0];
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const inside = GeoOperations.inside(pointCoordinate, {
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geometry: {
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type: 'Polygon',
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coordinates: [outerPolygon]
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}
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})
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if (!inside) {
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return false;
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}
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for (let i = 1; i < coordinates.length; i++) {
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const inHole = GeoOperations.inside(pointCoordinate, {
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geometry: {
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type: 'Polygon',
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coordinates: [coordinates[i]]
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}
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})
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if (inHole) {
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return false;
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}
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}
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return true;
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}
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const x: number = pointCoordinate[0];
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const y: number = pointCoordinate[1];
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let poly = feature.geometry.coordinates[0];
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var inside = false;
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for (let i = 0, j = poly.length - 1; i < poly.length; j = i++) {
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const coori = poly[i];
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const coorj = poly[j];
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const xi = coori[0];
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const yi = coori[1];
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const xj = coorj[0];
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const yj = coorj[1];
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const intersect = ((yi > y) != (yj > y))
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&& (x < (xj - xi) * (y - yi) / (yj - yi) + xi);
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if (intersect) {
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inside = !inside;
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}
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}
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return inside;
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};
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static lengthInMeters(feature: any) {
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return turf.length(feature) * 1000
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}
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}
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class BBox {
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readonly maxLat: number;
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readonly maxLon: number;
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readonly minLat: number;
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readonly minLon: number;
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constructor(coordinates) {
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this.maxLat = Number.MIN_VALUE;
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this.maxLon = Number.MIN_VALUE;
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this.minLat = Number.MAX_VALUE;
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this.minLon = Number.MAX_VALUE;
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for (const coordinate of coordinates) {
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this.maxLon = Math.max(this.maxLon, coordinate[0]);
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this.maxLat = Math.max(this.maxLat, coordinate[1]);
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this.minLon = Math.min(this.minLon, coordinate[0]);
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this.minLat = Math.min(this.minLat, coordinate[1]);
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}
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this.check();
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}
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static get(feature) {
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if (feature.bbox?.overlapsWith === undefined) {
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if (feature.geometry.type === "MultiPolygon") {
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let coordinates = [];
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for (const coorlist of feature.geometry.coordinates) {
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coordinates = coordinates.concat(coorlist[0]);
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}
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feature.bbox = new BBox(coordinates);
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} else if (feature.geometry.type === "Polygon") {
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feature.bbox = new BBox(feature.geometry.coordinates[0]);
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} else if (feature.geometry.type === "LineString") {
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feature.bbox = new BBox(feature.geometry.coordinates);
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} else if (feature.geometry.type === "Point") {
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// Point
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feature.bbox = new BBox([feature.geometry.coordinates]);
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} else {
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throw "Cannot calculate bbox, unknown type " + feature.geometry.type;
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}
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}
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return feature.bbox;
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}
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public overlapsWith(other: BBox) {
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this.check();
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other.check();
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if (this.maxLon < other.minLon) {
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return false;
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}
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if (this.maxLat < other.minLat) {
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return false;
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}
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if (this.minLon > other.maxLon) {
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return false;
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}
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return this.minLat <= other.maxLat;
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}
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private check() {
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if (isNaN(this.maxLon) || isNaN(this.maxLat) || isNaN(this.minLon) || isNaN(this.minLat)) {
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console.log(this);
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throw "BBOX has NAN";
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}
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}
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} |