211 lines
No EOL
6.7 KiB
TypeScript
211 lines
No EOL
6.7 KiB
TypeScript
import {Basemap} from "./Basemap";
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import {TagsFilter, TagUtils} from "./TagsFilter";
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import {UIEventSource} from "../UI/UIEventSource";
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import {ElementStorage} from "./ElementStorage";
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import {Changes} from "./Changes";
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import L from "leaflet"
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import {GeoOperations} from "./GeoOperations";
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import {UIElement} from "../UI/UIElement";
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/***
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* A filtered layer is a layer which offers a 'set-data' function
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* It is initialized with a tagfilter.
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*
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* When geojson-data is given to 'setData', all the geojson matching the filter, is rendered on this layer.
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* If it is not rendered, it is returned in a 'leftOver'-geojson; which can be consumed by the next layer.
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*
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* This also makes sure that no objects are rendered twice if they are applicable on two layers
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*/
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export class FilteredLayer {
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public readonly name: string;
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public readonly filters: TagsFilter;
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private readonly _map: Basemap;
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private readonly _maxAllowedOverlap: number;
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private readonly _style: (properties) => { color: string, icon: any };
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private readonly _storage: ElementStorage;
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/** The featurecollection from overpass
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*/
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private _dataFromOverpass;
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/** List of new elements, geojson features
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*/
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private _newElements = [];
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/**
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* The leaflet layer object which should be removed on rerendering
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*/
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private _geolayer;
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private _selectedElement: UIEventSource<any>;
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private _showOnPopup: (tags: UIEventSource<any>) => UIElement;
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constructor(
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name: string,
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map: Basemap, storage: ElementStorage,
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changes: Changes,
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filters: TagsFilter,
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maxAllowedOverlap: number,
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style: ((properties) => any),
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selectedElement: UIEventSource<any>,
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showOnPopup: ((tags: UIEventSource<any>) => UIElement)
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) {
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this._selectedElement = selectedElement;
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this._showOnPopup = showOnPopup;
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if (style === undefined) {
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style = function () {
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return {};
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}
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}
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this.name = name;
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this._map = map;
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this.filters = filters;
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this._style = style;
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this._storage = storage;
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this._maxAllowedOverlap = maxAllowedOverlap;
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}
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/**
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* The main function to load data into this layer.
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* The data that is NOT used by this layer, is returned as a geojson object; the other data is rendered
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*/
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public SetApplicableData(geojson: any): any {
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const leftoverFeatures = [];
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const selfFeatures = [];
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for (const feature of geojson.features) {
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// feature.properties contains all the properties
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var tags = TagUtils.proprtiesToKV(feature.properties);
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if (this.filters.matches(tags)) {
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selfFeatures.push(feature);
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} else {
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leftoverFeatures.push(feature);
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}
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}
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this.RenderLayer({
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type: "FeatureCollection",
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features: selfFeatures
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})
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const notShadowed = [];
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for (const feature of leftoverFeatures) {
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if (this._maxAllowedOverlap !== undefined && this._maxAllowedOverlap >= 0) {
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if (GeoOperations.featureIsContainedInAny(feature, selfFeatures, this._maxAllowedOverlap)) {
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// This feature is filtered away
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continue;
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}
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}
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notShadowed.push(feature);
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}
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return {
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type: "FeatureCollection",
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features: notShadowed
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};
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}
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public AddNewElement(element) {
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this._newElements.push(element);
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console.log("Element added");
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this.RenderLayer(this._dataFromOverpass); // Update the layer
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}
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private RenderLayer(data) {
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let self = this;
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if (this._geolayer !== undefined && this._geolayer !== null) {
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this._map.map.removeLayer(this._geolayer);
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}
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this._dataFromOverpass = data;
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const fusedFeatures = [];
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const idsFromOverpass = [];
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for (const feature of data.features) {
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idsFromOverpass.push(feature.properties.id);
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fusedFeatures.push(feature);
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}
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for (const feature of this._newElements) {
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if (idsFromOverpass.indexOf(feature.properties.id) < 0) {
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// This element is not yet uploaded or not yet visible in overpass
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// We include it in the layer
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fusedFeatures.push(feature);
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}
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}
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// We use a new, fused dataset
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data = {
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type: "FeatureCollection",
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features: fusedFeatures
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}
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// The data is split in two parts: the poinst and the rest
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// The points get a special treatment in order to render them properly
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// Note that some features might get a point representation as well
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this._geolayer = L.geoJSON(data, {
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style: function (feature) {
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return self._style(feature.properties);
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},
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pointToLayer: function (feature, latLng) {
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const style = self._style(feature.properties);
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let marker;
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if (style.icon === undefined) {
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marker = L.circle(latLng, {
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radius: 25,
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color: style.color
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});
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} else {
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marker = L.marker(latLng, {
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icon: style.icon
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});
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}
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return marker;
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},
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onEachFeature: function (feature, layer) {
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let eventSource = self._storage.addOrGetElement(feature);
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eventSource.addCallback(function () {
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if (layer.setIcon) {
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layer.setIcon(self._style(feature.properties).icon)
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} else {
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console.log("UPdating", layer);
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self._geolayer.setStyle(function (feature) {
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return self._style(feature.properties);
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});
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}
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});
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layer.on("click", function (e) {
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console.log("Selected ", feature)
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self._selectedElement.setData(feature.properties);
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const uiElement = self._showOnPopup(eventSource);
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const popup = L.popup()
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.setContent(uiElement.Render())
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.setLatLng(e.latlng)
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.openOn(self._map.map);
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uiElement.Update();
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uiElement.Activate();
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L.DomEvent.stop(e); // Marks the event as consumed
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});
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}
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});
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this._geolayer.addTo(this._map.map);
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}
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} |