161 lines
6.7 KiB
TypeScript
161 lines
6.7 KiB
TypeScript
import {GeoOperations} from "./GeoOperations";
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import {UIElement} from "../UI/UIElement";
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import Combine from "../UI/Base/Combine";
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export class ExtraFunction {
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static readonly intro = `<h2>Calculating tags with Javascript</h2>
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<p>In some cases, it is useful to have some tags calculated based on other properties. Some useful tags are available by default (e.g. <b>lat</b>, <b>lon</b>, <b>_country</b>), as detailed above.</p>
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<p>It is also possible to calculate your own tags - but this requires some javascript knowledge. </p>
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Before proceeding, some warnings:
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<ul>
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<li> DO NOT DO THIS AS BEGINNER</li>
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<li> <b>Only do this if all other techniques fail</b>. This should <i>not</i> be done to create a rendering effect, only to calculate a specific value</li>
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<li> <b>THIS MIGHT BE DISABLED WITHOUT ANY NOTICE ON UNOFFICIAL THEMES</b>. As unofficial themes might be loaded from the internet, this is the equivalent of injecting arbitrary code into the client. It'll be disabled if abuse occurs.</li>
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</ul>
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In the layer object, add a field <b>calculatedTags</b>, e.g.:
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<div class="code">
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"calculatedTags": [
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"_someKey=javascript-expression",
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"name=feat.properties.name ?? feat.properties.ref ?? feat.properties.operator",
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"_distanceCloserThen3Km=feat.distanceTo( some_lon, some_lat) < 3 ? 'yes' : 'no'"
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]
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</div>
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The above code will be executed for every feature in the layer. The feature is accessible as <b>feat</b> and is an amended geojson object:
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- <b>area</b> contains the surface area (in square meters) of the object
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- <b>lat</b> and <b>lon</b> contain the latitude and longitude
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Some advanced functions are available on <b>feat</b> as well:
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`
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private static OverlapFunc = new ExtraFunction(
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"overlapWith",
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"Gives a list of features from the specified layer which this feature overlaps with, the amount of overlap in m². The returned value is <b>{ feat: GeoJSONFeature, overlap: number}</b>",
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["...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)"],
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(featuresPerLayer, feat) => {
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return (...layerIds: string[]) => {
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const result = []
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for (const layerId of layerIds) {
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const otherLayer = featuresPerLayer.get(layerId);
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if (otherLayer === undefined) {
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continue;
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}
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if (otherLayer.length === 0) {
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continue;
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}
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result.push(...GeoOperations.calculateOverlap(feat, otherLayer));
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}
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return result;
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}
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}
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)
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private static DistanceToFunc = new ExtraFunction(
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"distanceTo",
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"Calculates the distance between the feature and a specified point",
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["longitude", "latitude"],
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(featuresPerLayer, feature) => {
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return (arg0, lat) => {
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if(typeof arg0 === "number"){
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const lon = arg0
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// Feature._lon and ._lat is conveniently place by one of the other metatags
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return GeoOperations.distanceBetween([lon, lat], [feature._lon, feature._lat]);
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}else{
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// arg0 is probably a feature
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return GeoOperations.distanceBetween(GeoOperations.centerpointCoordinates(arg0),[feature._lon, feature._lat])
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}
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}
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}
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)
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private static ClosestObjectFunc = new ExtraFunction(
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"closest",
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"Given either a list of geojson features or a single layer name, gives the single object which is nearest to the feature. In the case of ways/polygons, only the centerpoint is considered.",
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["list of features"],
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(featuresPerLayer, feature) => {
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return (features) => {
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if (typeof features === "string") {
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features = featuresPerLayer.get(features)
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}
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let closestFeature = undefined;
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let closestDistance = undefined;
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for (const otherFeature of features) {
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if(otherFeature == feature){
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continue; // We ignore self
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}
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let distance = undefined;
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if (otherFeature._lon !== undefined && otherFeature._lat !== undefined) {
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distance = GeoOperations.distanceBetween([otherFeature._lon, otherFeature._lat], [feature._lon, feature._lat]);
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} else {
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distance = GeoOperations.distanceBetween(
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GeoOperations.centerpointCoordinates(otherFeature),
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[feature._lon, feature._lat]
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)
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}
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if(distance === undefined){
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throw "Undefined distance!"
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}
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if(closestFeature === undefined || distance < closestDistance){
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closestFeature = otherFeature
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closestDistance = distance;
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}
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}
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return closestFeature;
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}
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}
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)
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private static readonly allFuncs: ExtraFunction[] = [ExtraFunction.DistanceToFunc, ExtraFunction.OverlapFunc, ExtraFunction.ClosestObjectFunc];
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private readonly _name: string;
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private readonly _args: string[];
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private readonly _doc: string;
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private readonly _f: (featuresPerLayer: Map<string, any[]>, feat: any) => any;
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constructor(name: string, doc: string, args: string[], f: ((featuresPerLayer: Map<string, any[]>, feat: any) => any)) {
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this._name = name;
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this._doc = doc;
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this._args = args;
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this._f = f;
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}
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public static FullPatchFeature(featuresPerLayer: Map<string, any[]>, feature) {
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for (const func of ExtraFunction.allFuncs) {
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func.PatchFeature(featuresPerLayer, feature);
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}
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}
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public static HelpText(): UIElement {
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return new Combine([
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ExtraFunction.intro,
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"<ul>",
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...ExtraFunction.allFuncs.map(func =>
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new Combine([
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"<li>", func._name, "</li>"
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])
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),
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"</ul>",
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...ExtraFunction.allFuncs.map(func =>
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new Combine([
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"<h3>" + func._name + "</h3>",
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func._doc,
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"<ul>",
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...func._args.map(arg => "<li>" + arg + "</li>"),
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"</ul>"
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])
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)
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]);
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}
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public PatchFeature(featuresPerLayer: Map<string, any[]>, feature: any) {
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feature[this._name] = this._f(featuresPerLayer, feature);
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}
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} |