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mapcomplete/Logic/GeoOperations.ts
Pieter Vander Vennet 6187122294 Add MapComplete
2020-06-24 00:35:19 +02:00

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TypeScript
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export class GeoOperations {
static featureIsContainedInAny(feature: any, shouldNotContain: any[], noTouching: boolean = false): boolean {
if (feature.geometry.type === "Point") {
const coor = feature.geometry.coordinates;
for (const shouldNotContainElement of shouldNotContain) {
let shouldNotContainBBox = BBox.get(shouldNotContainElement);
let featureBBox = BBox.get(feature);
if (!featureBBox.overlapsWith(shouldNotContainBBox)) {
continue;
}
if (this.inside(coor, shouldNotContainElement)) {
return true
}
}
return false;
}
if (feature.geometry.type === "Polygon") {
const poly = feature;
for (const shouldNotContainElement of shouldNotContain) {
let shouldNotContainBBox = BBox.get(shouldNotContainElement);
let featureBBox = BBox.get(feature);
if (!featureBBox.overlapsWith(shouldNotContainBBox)) {
continue;
}
if (noTouching) {
if (GeoOperations.isPolygonTouching(poly, shouldNotContainElement)) {
return true;
}
} else {
if (GeoOperations.isPolygonInside(poly, shouldNotContainElement)) {
return true;
}
}
}
}
return false;
}
/**
* Simple check: that every point of the polygon is inside the container
* @param polygon
* @param container
*/
static isPolygonInside(polygon, container) {
for (const coor of polygon.geometry.coordinates[0]) {
if (!GeoOperations.inside(coor, container)) {
return false;
}
}
return true;
}
/**
* Simple check: one point of the polygon is inside the container
* @param polygon
* @param container
*/
static isPolygonTouching(polygon, container) {
for (const coor of polygon.geometry.coordinates[0]) {
if (GeoOperations.inside(coor, container)) {
return true;
}
}
return false;
}
static inside(pointCoordinate, feature): boolean {
// ray-casting algorithm based on
// http://www.ecse.rpi.edu/Homepages/wrf/Research/Short_Notes/pnpoly.html
if (feature.geometry.type === "Point") {
return false;
}
const x: number = pointCoordinate[0];
const y: number = pointCoordinate[1];
let poly = feature.geometry.coordinates[0];
var inside = false;
for (var i = 0, j = poly.length - 1; i < poly.length; j = i++) {
const coori = poly[i];
const coorj = poly[j];
const xi = coori[0];
const yi = coori[1];
const xj = coorj[0];
const yj = coorj[1];
var intersect = ((yi > y) != (yj > y))
&& (x < (xj - xi) * (y - yi) / (yj - yi) + xi);
if (intersect) {
inside = !inside;
}
}
return inside;
};
}
class BBox {
readonly maxLat: number;
readonly maxLon: number;
readonly minLat: number;
readonly minLon: number;
constructor(coordinates) {
this.maxLat = Number.MIN_VALUE;
this.maxLon = Number.MIN_VALUE;
this.minLat = Number.MAX_VALUE;
this.minLon = Number.MAX_VALUE;
for (const coordinate of coordinates) {
this.maxLon = Math.max(this.maxLon, coordinate[0]);
this.maxLat = Math.max(this.maxLat, coordinate[1]);
this.minLon = Math.min(this.minLon, coordinate[0]);
this.minLat = Math.min(this.minLat, coordinate[1]);
}
}
public overlapsWith(other: BBox) {
if (this.maxLon < other.minLon) {
return false;
}
if (this.maxLat < other.minLat) {
return false;
}
if (this.minLon > other.maxLon) {
return false;
}
if (this.minLat > other.maxLat) {
return false;
}
return true;
}
static get(feature) {
if (feature.bbox === undefined) {
if (feature.geometry.type === "Polygon") {
feature.bbox = new BBox(feature.geometry.coordinates[0]);
} else if (feature.geometry.type === "LineString") {
feature.bbox = new BBox(feature.geometry.coordinates);
} else {
// Point
feature.bbox = new BBox([feature.geometry.coordinates]);
}
}
return feature.bbox;
}
}
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