forked from MapComplete/MapComplete
483 lines
No EOL
21 KiB
TypeScript
483 lines
No EOL
21 KiB
TypeScript
import LayoutConfig from "../../Models/ThemeConfig/LayoutConfig";
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import FilteringFeatureSource from "./Sources/FilteringFeatureSource";
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import PerLayerFeatureSourceSplitter from "./PerLayerFeatureSourceSplitter";
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import FeatureSource, {FeatureSourceForLayer, IndexedFeatureSource, Tiled} from "./FeatureSource";
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import TiledFeatureSource from "./TiledFeatureSource/TiledFeatureSource";
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import {UIEventSource} from "../UIEventSource";
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import {TileHierarchyTools} from "./TiledFeatureSource/TileHierarchy";
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import MetaTagging from "../MetaTagging";
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import RememberingSource from "./Sources/RememberingSource";
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import OverpassFeatureSource from "../Actors/OverpassFeatureSource";
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import GeoJsonSource from "./Sources/GeoJsonSource";
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import Loc from "../../Models/Loc";
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import RegisteringAllFromFeatureSourceActor from "./Actors/RegisteringAllFromFeatureSourceActor";
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import SaveTileToLocalStorageActor from "./Actors/SaveTileToLocalStorageActor";
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import DynamicGeoJsonTileSource from "./TiledFeatureSource/DynamicGeoJsonTileSource";
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import {TileHierarchyMerger} from "./TiledFeatureSource/TileHierarchyMerger";
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import RelationsTracker from "../Osm/RelationsTracker";
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import {NewGeometryFromChangesFeatureSource} from "./Sources/NewGeometryFromChangesFeatureSource";
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import ChangeGeometryApplicator from "./Sources/ChangeGeometryApplicator";
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import {BBox} from "../BBox";
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import OsmFeatureSource from "./TiledFeatureSource/OsmFeatureSource";
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import {Tiles} from "../../Models/TileRange";
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import TileFreshnessCalculator from "./TileFreshnessCalculator";
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import FullNodeDatabaseSource from "./TiledFeatureSource/FullNodeDatabaseSource";
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import MapState from "../State/MapState";
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import {ElementStorage} from "../ElementStorage";
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/**
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* The features pipeline ties together a myriad of various datasources:
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*
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* - The Overpass-API
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* - The OSM-API
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* - Third-party geojson files, either sliced or directly.
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*
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* In order to truly understand this class, please have a look at the following diagram: https://cdn-images-1.medium.com/fit/c/800/618/1*qTK1iCtyJUr4zOyw4IFD7A.jpeg
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*
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*
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*/
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export default class FeaturePipeline {
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public readonly sufficientlyZoomed: UIEventSource<boolean>;
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public readonly runningQuery: UIEventSource<boolean>;
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public readonly timeout: UIEventSource<number>;
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public readonly somethingLoaded: UIEventSource<boolean> = new UIEventSource<boolean>(false)
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public readonly newDataLoadedSignal: UIEventSource<FeatureSource> = new UIEventSource<FeatureSource>(undefined)
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private readonly overpassUpdater: OverpassFeatureSource
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private state: MapState;
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private readonly relationTracker: RelationsTracker
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private readonly perLayerHierarchy: Map<string, TileHierarchyMerger>;
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private readonly freshnesses = new Map<string, TileFreshnessCalculator>();
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private readonly oldestAllowedDate: Date;
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private readonly osmSourceZoomLevel
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private readonly localStorageSavers = new Map<string, SaveTileToLocalStorageActor>()
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private readonly metataggingRecalculated = new UIEventSource<void>(undefined)
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constructor(
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handleFeatureSource: (source: FeatureSourceForLayer & Tiled) => void,
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state: MapState) {
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this.state = state;
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const self = this
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const expiryInSeconds = Math.min(...state.layoutToUse.layers.map(l => l.maxAgeOfCache))
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this.oldestAllowedDate = new Date(new Date().getTime() - expiryInSeconds);
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this.osmSourceZoomLevel = state.osmApiTileSize.data;
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const useOsmApi = state.locationControl.map(l => l.zoom > (state.overpassMaxZoom.data ?? 12))
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this.relationTracker = new RelationsTracker()
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state.changes.allChanges.addCallbackAndRun(allChanges => {
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allChanges.filter(ch => ch.id < 0 && ch.changes !== undefined)
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.map(ch => ch.changes)
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.filter(coor => coor["lat"] !== undefined && coor["lon"] !== undefined)
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.forEach(coor => {
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state.layoutToUse.layers.forEach(l => self.localStorageSavers.get(l.id)?.poison(coor["lon"], coor["lat"]))
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})
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})
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this.sufficientlyZoomed = state.locationControl.map(location => {
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if (location?.zoom === undefined) {
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return false;
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}
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let minzoom = Math.min(...state.layoutToUse.layers.map(layer => layer.minzoom ?? 18));
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return location.zoom >= minzoom;
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}
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);
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const neededTilesFromOsm = this.getNeededTilesFromOsm(this.sufficientlyZoomed)
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const perLayerHierarchy = new Map<string, TileHierarchyMerger>()
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this.perLayerHierarchy = perLayerHierarchy
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// Given a tile, wraps it and passes it on to render (handled by 'handleFeatureSource'
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function patchedHandleFeatureSource (src: FeatureSourceForLayer & IndexedFeatureSource & Tiled) {
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// This will already contain the merged features for this tile. In other words, this will only be triggered once for every tile
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const srcFiltered =
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new FilteringFeatureSource(state, src.tileIndex,
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new ChangeGeometryApplicator(src, state.changes),
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self.metataggingRecalculated
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)
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handleFeatureSource(srcFiltered)
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self.somethingLoaded.setData(true)
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// We do not mark as visited here, this is the responsability of the code near the actual loader (e.g. overpassLoader and OSMApiFeatureLoader)
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}
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function handlePriviligedFeatureSource(src: FeatureSourceForLayer & Tiled){
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// Passthrough to passed function, except that it registers as well
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handleFeatureSource(src)
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src.features.addCallbackAndRunD(fs => {
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fs.forEach(ff => state.allElements.addOrGetElement(ff.feature))
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})
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}
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for (const filteredLayer of state.filteredLayers.data) {
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const id = filteredLayer.layerDef.id
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const source = filteredLayer.layerDef.source
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const hierarchy = new TileHierarchyMerger(filteredLayer, (tile, _) => patchedHandleFeatureSource(tile))
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perLayerHierarchy.set(id, hierarchy)
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this.freshnesses.set(id, new TileFreshnessCalculator())
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if (id === "type_node") {
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// Handles by the 'FullNodeDatabaseSource'
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continue;
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}
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if (id === "gps_location") {
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handlePriviligedFeatureSource(state.currentUserLocation)
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continue
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}
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if (id === "gps_location_history") {
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handlePriviligedFeatureSource(state.historicalUserLocations)
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continue
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}
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if (id === "gps_track") {
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handlePriviligedFeatureSource(state.historicalUserLocationsTrack)
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continue
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}
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if (id === "home_location") {
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handlePriviligedFeatureSource(state.homeLocation)
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continue
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}
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const localTileSaver = new SaveTileToLocalStorageActor(filteredLayer)
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this.localStorageSavers.set(filteredLayer.layerDef.id, localTileSaver)
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if (source.geojsonSource === undefined) {
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// This is an OSM layer
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// We load the cached values and register them
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// Getting data from upstream happens a bit lower
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localTileSaver.LoadTilesFromDisk(
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state.currentBounds, state.locationControl,
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(tileIndex, freshness) => self.freshnesses.get(id).addTileLoad(tileIndex, freshness),
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(tile) => {
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new RegisteringAllFromFeatureSourceActor(tile, state.allElements)
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hierarchy.registerTile(tile);
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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}
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)
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continue
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}
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if (source.geojsonZoomLevel === undefined) {
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// This is a 'load everything at once' geojson layer
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const src = new GeoJsonSource(filteredLayer)
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if (source.isOsmCacheLayer) {
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// We split them up into tiles anyway as it is an OSM source
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TiledFeatureSource.createHierarchy(src, {
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layer: src.layer,
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minZoomLevel: this.osmSourceZoomLevel,
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dontEnforceMinZoom: true,
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registerTile: (tile) => {
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new RegisteringAllFromFeatureSourceActor(tile, state.allElements)
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perLayerHierarchy.get(id).registerTile(tile)
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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}
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})
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} else {
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new RegisteringAllFromFeatureSourceActor(src, state.allElements)
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perLayerHierarchy.get(id).registerTile(src)
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src.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(src))
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}
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} else {
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new DynamicGeoJsonTileSource(
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filteredLayer,
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tile => {
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new RegisteringAllFromFeatureSourceActor(tile, state.allElements)
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perLayerHierarchy.get(id).registerTile(tile)
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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},
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state
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)
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}
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}
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const osmFeatureSource = new OsmFeatureSource({
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isActive: useOsmApi,
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neededTiles: neededTilesFromOsm,
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handleTile: tile => {
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new RegisteringAllFromFeatureSourceActor(tile, state.allElements)
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if (tile.layer.layerDef.maxAgeOfCache > 0) {
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const saver = self.localStorageSavers.get(tile.layer.layerDef.id)
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if(saver === undefined){
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console.error("No localStorageSaver found for layer ",tile.layer.layerDef.id)
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}
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saver?.addTile(tile)
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}
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perLayerHierarchy.get(tile.layer.layerDef.id).registerTile(tile)
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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},
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state: state,
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markTileVisited: (tileId) =>
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state.filteredLayers.data.forEach(flayer => {
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const layer = flayer.layerDef
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if (layer.maxAgeOfCache > 0) {
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const saver = self.localStorageSavers.get(layer.id)
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if(saver === undefined){
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console.error("No local storage saver found for ", layer.id)
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}else{
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saver.MarkVisited(tileId, new Date())
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}
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}
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self.freshnesses.get(layer.id).addTileLoad(tileId, new Date())
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})
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})
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if (state.layoutToUse.trackAllNodes) {
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const fullNodeDb = new FullNodeDatabaseSource(
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state.filteredLayers.data.filter(l => l.layerDef.id === "type_node")[0],
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tile => {
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new RegisteringAllFromFeatureSourceActor(tile, state.allElements)
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perLayerHierarchy.get(tile.layer.layerDef.id).registerTile(tile)
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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})
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osmFeatureSource.rawDataHandlers.push((osmJson, tileId) => fullNodeDb.handleOsmJson(osmJson, tileId))
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}
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const updater = this.initOverpassUpdater(state, useOsmApi)
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this.overpassUpdater = updater;
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this.timeout = updater.timeout
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// Actually load data from the overpass source
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new PerLayerFeatureSourceSplitter(state.filteredLayers,
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(source) => TiledFeatureSource.createHierarchy(source, {
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layer: source.layer,
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minZoomLevel: source.layer.layerDef.minzoom,
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dontEnforceMinZoom: true,
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maxFeatureCount: state.layoutToUse.clustering.minNeededElements,
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maxZoomLevel: state.layoutToUse.clustering.maxZoom,
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registerTile: (tile) => {
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// We save the tile data for the given layer to local storage - data sourced from overpass
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self.localStorageSavers.get(tile.layer.layerDef.id)?.addTile(tile)
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perLayerHierarchy.get(source.layer.layerDef.id).registerTile(new RememberingSource(tile))
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tile.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(tile))
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}
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}),
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updater)
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// Also load points/lines that are newly added.
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const newGeometry = new NewGeometryFromChangesFeatureSource(state.changes, state.osmConnection._oauth_config.url)
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new RegisteringAllFromFeatureSourceActor(newGeometry, state.allElements)
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// A NewGeometryFromChangesFeatureSource does not split per layer, so we do this next
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new PerLayerFeatureSourceSplitter(state.filteredLayers,
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(perLayer) => {
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// We don't bother to split them over tiles as it'll contain little features by default, so we simply add them like this
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perLayerHierarchy.get(perLayer.layer.layerDef.id).registerTile(perLayer)
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// AT last, we always apply the metatags whenever possible
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perLayer.features.addCallbackAndRunD(_ => self.applyMetaTags(perLayer))
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perLayer.features.addCallbackAndRunD(_ => self.newDataLoadedSignal.setData(perLayer))
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},
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newGeometry
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)
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// Whenever fresh data comes in, we need to update the metatagging
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self.newDataLoadedSignal.stabilized(250).addCallback(src => {
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self.updateAllMetaTagging()
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})
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this.runningQuery = updater.runningQuery.map(
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overpass => {
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console.log("FeaturePipeline: runningQuery state changed. Overpass", overpass ? "is querying," : "is idle,",
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"osmFeatureSource is", osmFeatureSource.isRunning ? "is running and needs " + neededTilesFromOsm.data?.length + " tiles (already got " + osmFeatureSource.downloadedTiles.size + " tiles )" : "is idle")
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return overpass || osmFeatureSource.isRunning.data;
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}, [osmFeatureSource.isRunning]
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)
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}
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public GetAllFeaturesWithin(bbox: BBox): any[][] {
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const self = this
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const tiles = []
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Array.from(this.perLayerHierarchy.keys())
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.forEach(key => tiles.push(...self.GetFeaturesWithin(key, bbox)))
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return tiles;
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}
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public GetFeaturesWithin(layerId: string, bbox: BBox): any[][] {
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if (layerId === "*") {
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return this.GetAllFeaturesWithin(bbox)
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}
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const requestedHierarchy = this.perLayerHierarchy.get(layerId)
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if (requestedHierarchy === undefined) {
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console.warn("Layer ", layerId, "is not defined. Try one of ", Array.from(this.perLayerHierarchy.keys()))
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return undefined;
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}
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return TileHierarchyTools.getTiles(requestedHierarchy, bbox)
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.filter(featureSource => featureSource.features?.data !== undefined)
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.map(featureSource => featureSource.features.data.map(fs => fs.feature))
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}
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public GetTilesPerLayerWithin(bbox: BBox, handleTile: (tile: FeatureSourceForLayer & Tiled) => void) {
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Array.from(this.perLayerHierarchy.values()).forEach(hierarchy => {
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TileHierarchyTools.getTiles(hierarchy, bbox).forEach(handleTile)
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})
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}
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private freshnessForVisibleLayers(z: number, x: number, y: number): Date {
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let oldestDate = undefined;
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for (const flayer of this.state.filteredLayers.data) {
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if (!flayer.isDisplayed.data) {
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continue
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}
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if (this.state.locationControl.data.zoom < flayer.layerDef.minzoom) {
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continue;
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}
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const freshness = this.freshnesses.get(flayer.layerDef.id).freshnessFor(z, x, y)
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if (freshness === undefined) {
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// SOmething is undefined --> we return undefined as we have to download
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return undefined
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}
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if (oldestDate === undefined || oldestDate > freshness) {
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oldestDate = freshness
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}
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}
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return oldestDate
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}
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private getNeededTilesFromOsm(isSufficientlyZoomed: UIEventSource<boolean>): UIEventSource<number[]> {
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const self = this
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return this.state.currentBounds.map(bbox => {
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if (bbox === undefined) {
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return []
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}
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if (!isSufficientlyZoomed.data) {
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return [];
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}
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const osmSourceZoomLevel = self.osmSourceZoomLevel
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const range = bbox.containingTileRange(osmSourceZoomLevel)
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const tileIndexes = []
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if (range.total >= 100) {
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// Too much tiles!
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return undefined
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}
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Tiles.MapRange(range, (x, y) => {
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const i = Tiles.tile_index(osmSourceZoomLevel, x, y);
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const oldestDate = self.freshnessForVisibleLayers(osmSourceZoomLevel, x, y)
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if (oldestDate !== undefined && oldestDate > this.oldestAllowedDate) {
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console.debug("Skipping tile", osmSourceZoomLevel, x, y, "as a decently fresh one is available")
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// The cached tiles contain decently fresh data
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return undefined;
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}
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tileIndexes.push(i)
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})
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return tileIndexes
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}, [isSufficientlyZoomed])
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}
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private initOverpassUpdater(state: {
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allElements: ElementStorage;
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layoutToUse: LayoutConfig,
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currentBounds: UIEventSource<BBox>,
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locationControl: UIEventSource<Loc>,
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readonly overpassUrl: UIEventSource<string[]>;
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readonly overpassTimeout: UIEventSource<number>;
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readonly overpassMaxZoom: UIEventSource<number>,
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}, useOsmApi: UIEventSource<boolean>): OverpassFeatureSource {
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const minzoom = Math.min(...state.layoutToUse.layers.map(layer => layer.minzoom))
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const overpassIsActive = state.currentBounds.map(bbox => {
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if (bbox === undefined) {
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return false
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}
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let zoom = state.locationControl.data.zoom
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if (zoom < minzoom) {
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// We are zoomed out over the zoomlevel of any layer
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return false;
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}
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const range = bbox.containingTileRange(zoom)
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if (range.total >= 5000) {
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// Let's assume we don't have so much data cached
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return true
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}
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const self = this;
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const allFreshnesses = Tiles.MapRange(range, (x, y) => self.freshnessForVisibleLayers(zoom, x, y))
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return allFreshnesses.some(freshness => freshness === undefined || freshness < this.oldestAllowedDate)
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}, [state.locationControl])
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const self = this;
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const updater = new OverpassFeatureSource(state,
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{
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padToTiles: state.locationControl.map(l => Math.min(15, l.zoom + 1)),
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relationTracker: this.relationTracker,
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isActive: useOsmApi.map(b => !b && overpassIsActive.data, [overpassIsActive]),
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onBboxLoaded: (bbox, date, downloadedLayers, paddedToZoomLevel) => {
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Tiles.MapRange(bbox.containingTileRange(paddedToZoomLevel), (x, y) => {
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const tileIndex = Tiles.tile_index(paddedToZoomLevel, x, y)
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downloadedLayers.forEach(layer => {
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self.freshnesses.get(layer.id).addTileLoad(tileIndex, date)
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self.localStorageSavers.get(layer.id)?.MarkVisited(tileIndex, date)
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})
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})
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}
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});
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// Register everything in the state' 'AllElements'
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new RegisteringAllFromFeatureSourceActor(updater, state.allElements)
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return updater;
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}
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private applyMetaTags(src: FeatureSourceForLayer) {
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const self = this
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window.setTimeout(
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() => {
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const layerDef = src.layer.layerDef;
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MetaTagging.addMetatags(
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src.features.data,
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{
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memberships: this.relationTracker,
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getFeaturesWithin: (layerId, bbox: BBox) => self.GetFeaturesWithin(layerId, bbox),
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getFeatureById: (id:string) => self.state.allElements.ContainingFeatures.get(id)
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},
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layerDef,
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{
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includeDates: true,
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// We assume that the non-dated metatags are already set by the cache generator
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includeNonDates: layerDef.source.geojsonSource === undefined || !layerDef.source.isOsmCacheLayer
|
|
}
|
|
)
|
|
},
|
|
15
|
|
)
|
|
|
|
}
|
|
|
|
private updateAllMetaTagging() {
|
|
const self = this;
|
|
console.debug("Updating the meta tagging of all tiles as new data got loaded")
|
|
this.perLayerHierarchy.forEach(hierarchy => {
|
|
hierarchy.loadedTiles.forEach(tile => {
|
|
self.applyMetaTags(tile)
|
|
})
|
|
})
|
|
self.metataggingRecalculated.ping()
|
|
|
|
}
|
|
|
|
} |