/** * @module ol/source/Vector */ import {getUid} from '../util.js'; import Collection from '../Collection.js'; import CollectionEventType from '../CollectionEventType.js'; import ObjectEventType from '../ObjectEventType.js'; import {extend} from '../array.js'; import {assert} from '../asserts.js'; import {listen, unlistenByKey} from '../events.js'; import Event from '../events/Event.js'; import EventType from '../events/EventType.js'; import {containsExtent, equals} from '../extent.js'; import {xhr} from '../featureloader.js'; import {TRUE, VOID} from '../functions.js'; import {all as allStrategy} from '../loadingstrategy.js'; import {isEmpty, getValues} from '../obj.js'; import Source from './Source.js'; import SourceState from './State.js'; import VectorEventType from './VectorEventType.js'; import RBush from '../structs/RBush.js'; /** * A function that takes an {@link module:ol/extent~Extent} and a resolution as arguments, and * returns an array of {@link module:ol/extent~Extent} with the extents to load. Usually this * is one of the standard {@link module:ol/loadingstrategy} strategies. * * @typedef {function(import("../extent.js").Extent, number): Array} LoadingStrategy * @api */ /** * @classdesc * Events emitted by {@link module:ol/source/Vector} instances are instances of this * type. */ export class VectorSourceEvent extends Event { /** * @param {string} type Type. * @param {import("../Feature.js").default=} opt_feature Feature. */ constructor(type, opt_feature) { super(type); /** * The feature being added or removed. * @type {import("../Feature.js").default|undefined} * @api */ this.feature = opt_feature; } } /** * @typedef {Object} Options * @property {import("./Source.js").AttributionLike} [attributions] Attributions. * @property {Array|Collection} [features] * Features. If provided as {@link module:ol/Collection}, the features in the source * and the collection will stay in sync. * @property {import("../format/Feature.js").default} [format] The feature format used by the XHR * feature loader when `url` is set. Required if `url` is set, otherwise ignored. * @property {import("../featureloader.js").FeatureLoader} [loader] * The loader function used to load features, from a remote source for example. * If this is not set and `url` is set, the source will create and use an XHR * feature loader. * * Example: * * ```js * import {Vector} from 'ol/source'; * import {GeoJSON} from 'ol/format'; * import {bbox} from 'ol/loadingstrategy'; * * var vectorSource = new Vector({ * format: new GeoJSON(), * loader: function(extent, resolution, projection) { * var proj = projection.getCode(); * var url = 'https://ahocevar.com/geoserver/wfs?service=WFS&' + * 'version=1.1.0&request=GetFeature&typename=osm:water_areas&' + * 'outputFormat=application/json&srsname=' + proj + '&' + * 'bbox=' + extent.join(',') + ',' + proj; * var xhr = new XMLHttpRequest(); * xhr.open('GET', url); * var onError = function() { * vectorSource.removeLoadedExtent(extent); * } * xhr.onerror = onError; * xhr.onload = function() { * if (xhr.status == 200) { * vectorSource.addFeatures( * vectorSource.getFormat().readFeatures(xhr.responseText)); * } else { * onError(); * } * } * xhr.send(); * }, * strategy: bbox * }); * ``` * @property {boolean} [overlaps=true] This source may have overlapping geometries. * Setting this to `false` (e.g. for sources with polygons that represent administrative * boundaries or TopoJSON sources) allows the renderer to optimise fill and * stroke operations. * @property {LoadingStrategy} [strategy] The loading strategy to use. * By default an {@link module:ol/loadingstrategy~all} * strategy is used, a one-off strategy which loads all features at once. * @property {string|import("../featureloader.js").FeatureUrlFunction} [url] * Setting this option instructs the source to load features using an XHR loader * (see {@link module:ol/featureloader~xhr}). Use a `string` and an * {@link module:ol/loadingstrategy~all} for a one-off download of all features from * the given URL. Use a {@link module:ol/featureloader~FeatureUrlFunction} to generate the url with * other loading strategies. * Requires `format` to be set as well. * When default XHR feature loader is provided, the features will * be transformed from the data projection to the view projection * during parsing. If your remote data source does not advertise its projection * properly, this transformation will be incorrect. For some formats, the * default projection (usually EPSG:4326) can be overridden by setting the * dataProjection constructor option on the format. * Note that if a source contains non-feature data, such as a GeoJSON geometry * or a KML NetworkLink, these will be ignored. Use a custom loader to load these. * @property {boolean} [useSpatialIndex=true] * By default, an RTree is used as spatial index. When features are removed and * added frequently, and the total number of features is low, setting this to * `false` may improve performance. * * Note that * {@link module:ol/source/Vector~VectorSource#getFeaturesInExtent}, * {@link module:ol/source/Vector~VectorSource#getClosestFeatureToCoordinate} and * {@link module:ol/source/Vector~VectorSource#getExtent} cannot be used when `useSpatialIndex` is * set to `false`, and {@link module:ol/source/Vector~VectorSource#forEachFeatureInExtent} will loop * through all features. * * When set to `false`, the features will be maintained in an * {@link module:ol/Collection}, which can be retrieved through * {@link module:ol/source/Vector~VectorSource#getFeaturesCollection}. * @property {boolean} [wrapX=true] Wrap the world horizontally. For vector editing across the * -180° and 180° meridians to work properly, this should be set to `false`. The * resulting geometry coordinates will then exceed the world bounds. */ /** * @classdesc * Provides a source of features for vector layers. Vector features provided * by this source are suitable for editing. See {@link module:ol/source/VectorTile~VectorTile} for * vector data that is optimized for rendering. * * @fires VectorSourceEvent * @api */ class VectorSource extends Source { /** * @param {Options=} opt_options Vector source options. */ constructor(opt_options) { const options = opt_options || {}; super({ attributions: options.attributions, projection: undefined, state: SourceState.READY, wrapX: options.wrapX !== undefined ? options.wrapX : true }); /** * @private * @type {import("../featureloader.js").FeatureLoader} */ this.loader_ = VOID; /** * @private * @type {import("../format/Feature.js").default|undefined} */ this.format_ = options.format; /** * @private * @type {boolean} */ this.overlaps_ = options.overlaps == undefined ? true : options.overlaps; /** * @private * @type {string|import("../featureloader.js").FeatureUrlFunction|undefined} */ this.url_ = options.url; if (options.loader !== undefined) { this.loader_ = options.loader; } else if (this.url_ !== undefined) { assert(this.format_, 7); // `format` must be set when `url` is set // create a XHR feature loader for "url" and "format" this.loader_ = xhr(this.url_, /** @type {import("../format/Feature.js").default} */ (this.format_)); } /** * @private * @type {LoadingStrategy} */ this.strategy_ = options.strategy !== undefined ? options.strategy : allStrategy; const useSpatialIndex = options.useSpatialIndex !== undefined ? options.useSpatialIndex : true; /** * @private * @type {RBush} */ this.featuresRtree_ = useSpatialIndex ? new RBush() : null; /** * @private * @type {RBush<{extent: import("../extent.js").Extent}>} */ this.loadedExtentsRtree_ = new RBush(); /** * @private * @type {!Object} */ this.nullGeometryFeatures_ = {}; /** * A lookup of features by id (the return from feature.getId()). * @private * @type {!Object} */ this.idIndex_ = {}; /** * A lookup of features without id (keyed by getUid(feature)). * @private * @type {!Object} */ this.undefIdIndex_ = {}; /** * @private * @type {Object>} */ this.featureChangeKeys_ = {}; /** * @private * @type {Collection} */ this.featuresCollection_ = null; let collection, features; if (Array.isArray(options.features)) { features = options.features; } else if (options.features) { collection = options.features; features = collection.getArray(); } if (!useSpatialIndex && collection === undefined) { collection = new Collection(features); } if (features !== undefined) { this.addFeaturesInternal(features); } if (collection !== undefined) { this.bindFeaturesCollection_(collection); } } /** * Add a single feature to the source. If you want to add a batch of features * at once, call {@link module:ol/source/Vector~VectorSource#addFeatures #addFeatures()} * instead. A feature will not be added to the source if feature with * the same id is already there. The reason for this behavior is to avoid * feature duplication when using bbox or tile loading strategies. * @param {import("../Feature.js").default} feature Feature to add. * @api */ addFeature(feature) { this.addFeatureInternal(feature); this.changed(); } /** * Add a feature without firing a `change` event. * @param {import("../Feature.js").default} feature Feature. * @protected */ addFeatureInternal(feature) { const featureKey = getUid(feature); if (!this.addToIndex_(featureKey, feature)) { return; } this.setupChangeEvents_(featureKey, feature); const geometry = feature.getGeometry(); if (geometry) { const extent = geometry.getExtent(); if (this.featuresRtree_) { this.featuresRtree_.insert(extent, feature); } } else { this.nullGeometryFeatures_[featureKey] = feature; } this.dispatchEvent( new VectorSourceEvent(VectorEventType.ADDFEATURE, feature)); } /** * @param {string} featureKey Unique identifier for the feature. * @param {import("../Feature.js").default} feature The feature. * @private */ setupChangeEvents_(featureKey, feature) { this.featureChangeKeys_[featureKey] = [ listen(feature, EventType.CHANGE, this.handleFeatureChange_, this), listen(feature, ObjectEventType.PROPERTYCHANGE, this.handleFeatureChange_, this) ]; } /** * @param {string} featureKey Unique identifier for the feature. * @param {import("../Feature.js").default} feature The feature. * @return {boolean} The feature is "valid", in the sense that it is also a * candidate for insertion into the Rtree. * @private */ addToIndex_(featureKey, feature) { let valid = true; const id = feature.getId(); if (id !== undefined) { if (!(id.toString() in this.idIndex_)) { this.idIndex_[id.toString()] = feature; } else { valid = false; } } else { assert(!(featureKey in this.undefIdIndex_), 30); // The passed `feature` was already added to the source this.undefIdIndex_[featureKey] = feature; } return valid; } /** * Add a batch of features to the source. * @param {Array} features Features to add. * @api */ addFeatures(features) { this.addFeaturesInternal(features); this.changed(); } /** * Add features without firing a `change` event. * @param {Array} features Features. * @protected */ addFeaturesInternal(features) { const extents = []; const newFeatures = []; const geometryFeatures = []; for (let i = 0, length = features.length; i < length; i++) { const feature = features[i]; const featureKey = getUid(feature); if (this.addToIndex_(featureKey, feature)) { newFeatures.push(feature); } } for (let i = 0, length = newFeatures.length; i < length; i++) { const feature = newFeatures[i]; const featureKey = getUid(feature); this.setupChangeEvents_(featureKey, feature); const geometry = feature.getGeometry(); if (geometry) { const extent = geometry.getExtent(); extents.push(extent); geometryFeatures.push(feature); } else { this.nullGeometryFeatures_[featureKey] = feature; } } if (this.featuresRtree_) { this.featuresRtree_.load(extents, geometryFeatures); } for (let i = 0, length = newFeatures.length; i < length; i++) { this.dispatchEvent(new VectorSourceEvent(VectorEventType.ADDFEATURE, newFeatures[i])); } } /** * @param {!Collection} collection Collection. * @private */ bindFeaturesCollection_(collection) { let modifyingCollection = false; listen(this, VectorEventType.ADDFEATURE, /** * @param {VectorSourceEvent} evt The vector source event */ function(evt) { if (!modifyingCollection) { modifyingCollection = true; collection.push(evt.feature); modifyingCollection = false; } }); listen(this, VectorEventType.REMOVEFEATURE, /** * @param {VectorSourceEvent} evt The vector source event */ function(evt) { if (!modifyingCollection) { modifyingCollection = true; collection.remove(evt.feature); modifyingCollection = false; } }); listen(collection, CollectionEventType.ADD, /** * @param {import("../Collection.js").CollectionEvent} evt The collection event */ function(evt) { if (!modifyingCollection) { modifyingCollection = true; this.addFeature(/** @type {import("../Feature.js").default} */ (evt.element)); modifyingCollection = false; } }, this); listen(collection, CollectionEventType.REMOVE, /** * @param {import("../Collection.js").CollectionEvent} evt The collection event */ function(evt) { if (!modifyingCollection) { modifyingCollection = true; this.removeFeature(/** @type {import("../Feature.js").default} */ (evt.element)); modifyingCollection = false; } }, this); this.featuresCollection_ = collection; } /** * Remove all features from the source. * @param {boolean=} opt_fast Skip dispatching of {@link module:ol/source/Vector.VectorSourceEvent#removefeature} events. * @api */ clear(opt_fast) { if (opt_fast) { for (const featureId in this.featureChangeKeys_) { const keys = this.featureChangeKeys_[featureId]; keys.forEach(unlistenByKey); } if (!this.featuresCollection_) { this.featureChangeKeys_ = {}; this.idIndex_ = {}; this.undefIdIndex_ = {}; } } else { if (this.featuresRtree_) { this.featuresRtree_.forEach(this.removeFeatureInternal.bind(this)); for (const id in this.nullGeometryFeatures_) { this.removeFeatureInternal(this.nullGeometryFeatures_[id]); } } } if (this.featuresCollection_) { this.featuresCollection_.clear(); } if (this.featuresRtree_) { this.featuresRtree_.clear(); } this.nullGeometryFeatures_ = {}; const clearEvent = new VectorSourceEvent(VectorEventType.CLEAR); this.dispatchEvent(clearEvent); this.changed(); } /** * Iterate through all features on the source, calling the provided callback * with each one. If the callback returns any "truthy" value, iteration will * stop and the function will return the same value. * Note: this function only iterate through the feature that have a defined geometry. * * @param {function(import("../Feature.js").default): T} callback Called with each feature * on the source. Return a truthy value to stop iteration. * @return {T|undefined} The return value from the last call to the callback. * @template T * @api */ forEachFeature(callback) { if (this.featuresRtree_) { return this.featuresRtree_.forEach(callback); } else if (this.featuresCollection_) { this.featuresCollection_.forEach(callback); } } /** * Iterate through all features whose geometries contain the provided * coordinate, calling the callback with each feature. If the callback returns * a "truthy" value, iteration will stop and the function will return the same * value. * * @param {import("../coordinate.js").Coordinate} coordinate Coordinate. * @param {function(import("../Feature.js").default): T} callback Called with each feature * whose goemetry contains the provided coordinate. * @return {T|undefined} The return value from the last call to the callback. * @template T */ forEachFeatureAtCoordinateDirect(coordinate, callback) { const extent = [coordinate[0], coordinate[1], coordinate[0], coordinate[1]]; return this.forEachFeatureInExtent(extent, function(feature) { const geometry = feature.getGeometry(); if (geometry.intersectsCoordinate(coordinate)) { return callback(feature); } else { return undefined; } }); } /** * Iterate through all features whose bounding box intersects the provided * extent (note that the feature's geometry may not intersect the extent), * calling the callback with each feature. If the callback returns a "truthy" * value, iteration will stop and the function will return the same value. * * If you are interested in features whose geometry intersects an extent, call * the {@link module:ol/source/Vector~VectorSource#forEachFeatureIntersectingExtent #forEachFeatureIntersectingExtent()} method instead. * * When `useSpatialIndex` is set to false, this method will loop through all * features, equivalent to {@link module:ol/source/Vector~VectorSource#forEachFeature #forEachFeature()}. * * @param {import("../extent.js").Extent} extent Extent. * @param {function(import("../Feature.js").default): T} callback Called with each feature * whose bounding box intersects the provided extent. * @return {T|undefined} The return value from the last call to the callback. * @template T * @api */ forEachFeatureInExtent(extent, callback) { if (this.featuresRtree_) { return this.featuresRtree_.forEachInExtent(extent, callback); } else if (this.featuresCollection_) { this.featuresCollection_.forEach(callback); } } /** * Iterate through all features whose geometry intersects the provided extent, * calling the callback with each feature. If the callback returns a "truthy" * value, iteration will stop and the function will return the same value. * * If you only want to test for bounding box intersection, call the * {@link module:ol/source/Vector~VectorSource#forEachFeatureInExtent #forEachFeatureInExtent()} method instead. * * @param {import("../extent.js").Extent} extent Extent. * @param {function(import("../Feature.js").default): T} callback Called with each feature * whose geometry intersects the provided extent. * @return {T|undefined} The return value from the last call to the callback. * @template T * @api */ forEachFeatureIntersectingExtent(extent, callback) { return this.forEachFeatureInExtent(extent, /** * @param {import("../Feature.js").default} feature Feature. * @return {T|undefined} The return value from the last call to the callback. */ function(feature) { const geometry = feature.getGeometry(); if (geometry.intersectsExtent(extent)) { const result = callback(feature); if (result) { return result; } } }); } /** * Get the features collection associated with this source. Will be `null` * unless the source was configured with `useSpatialIndex` set to `false`, or * with an {@link module:ol/Collection} as `features`. * @return {Collection} The collection of features. * @api */ getFeaturesCollection() { return this.featuresCollection_; } /** * Get all features on the source in random order. * @return {Array} Features. * @api */ getFeatures() { let features; if (this.featuresCollection_) { features = this.featuresCollection_.getArray(); } else if (this.featuresRtree_) { features = this.featuresRtree_.getAll(); if (!isEmpty(this.nullGeometryFeatures_)) { extend(features, getValues(this.nullGeometryFeatures_)); } } return ( /** @type {Array} */ (features) ); } /** * Get all features whose geometry intersects the provided coordinate. * @param {import("../coordinate.js").Coordinate} coordinate Coordinate. * @return {Array} Features. * @api */ getFeaturesAtCoordinate(coordinate) { const features = []; this.forEachFeatureAtCoordinateDirect(coordinate, function(feature) { features.push(feature); }); return features; } /** * Get all features in the provided extent. Note that this returns an array of * all features intersecting the given extent in random order (so it may include * features whose geometries do not intersect the extent). * * This method is not available when the source is configured with * `useSpatialIndex` set to `false`. * @param {import("../extent.js").Extent} extent Extent. * @return {Array} Features. * @api */ getFeaturesInExtent(extent) { return this.featuresRtree_.getInExtent(extent); } /** * Get the closest feature to the provided coordinate. * * This method is not available when the source is configured with * `useSpatialIndex` set to `false`. * @param {import("../coordinate.js").Coordinate} coordinate Coordinate. * @param {function(import("../Feature.js").default):boolean=} opt_filter Feature filter function. * The filter function will receive one argument, the {@link module:ol/Feature feature} * and it should return a boolean value. By default, no filtering is made. * @return {import("../Feature.js").default} Closest feature. * @api */ getClosestFeatureToCoordinate(coordinate, opt_filter) { // Find the closest feature using branch and bound. We start searching an // infinite extent, and find the distance from the first feature found. This // becomes the closest feature. We then compute a smaller extent which any // closer feature must intersect. We continue searching with this smaller // extent, trying to find a closer feature. Every time we find a closer // feature, we update the extent being searched so that any even closer // feature must intersect it. We continue until we run out of features. const x = coordinate[0]; const y = coordinate[1]; let closestFeature = null; const closestPoint = [NaN, NaN]; let minSquaredDistance = Infinity; const extent = [-Infinity, -Infinity, Infinity, Infinity]; const filter = opt_filter ? opt_filter : TRUE; this.featuresRtree_.forEachInExtent(extent, /** * @param {import("../Feature.js").default} feature Feature. */ function(feature) { if (filter(feature)) { const geometry = feature.getGeometry(); const previousMinSquaredDistance = minSquaredDistance; minSquaredDistance = geometry.closestPointXY( x, y, closestPoint, minSquaredDistance); if (minSquaredDistance < previousMinSquaredDistance) { closestFeature = feature; // This is sneaky. Reduce the extent that it is currently being // searched while the R-Tree traversal using this same extent object // is still in progress. This is safe because the new extent is // strictly contained by the old extent. const minDistance = Math.sqrt(minSquaredDistance); extent[0] = x - minDistance; extent[1] = y - minDistance; extent[2] = x + minDistance; extent[3] = y + minDistance; } } }); return closestFeature; } /** * Get the extent of the features currently in the source. * * This method is not available when the source is configured with * `useSpatialIndex` set to `false`. * @param {import("../extent.js").Extent=} opt_extent Destination extent. If provided, no new extent * will be created. Instead, that extent's coordinates will be overwritten. * @return {import("../extent.js").Extent} Extent. * @api */ getExtent(opt_extent) { return this.featuresRtree_.getExtent(opt_extent); } /** * Get a feature by its identifier (the value returned by feature.getId()). * Note that the index treats string and numeric identifiers as the same. So * `source.getFeatureById(2)` will return a feature with id `'2'` or `2`. * * @param {string|number} id Feature identifier. * @return {import("../Feature.js").default} The feature (or `null` if not found). * @api */ getFeatureById(id) { const feature = this.idIndex_[id.toString()]; return feature !== undefined ? feature : null; } /** * Get the format associated with this source. * * @return {import("../format/Feature.js").default|undefined} The feature format. * @api */ getFormat() { return this.format_; } /** * @return {boolean} The source can have overlapping geometries. */ getOverlaps() { return this.overlaps_; } /** * Get the url associated with this source. * * @return {string|import("../featureloader.js").FeatureUrlFunction|undefined} The url. * @api */ getUrl() { return this.url_; } /** * @param {Event} event Event. * @private */ handleFeatureChange_(event) { const feature = /** @type {import("../Feature.js").default} */ (event.target); const featureKey = getUid(feature); const geometry = feature.getGeometry(); if (!geometry) { if (!(featureKey in this.nullGeometryFeatures_)) { if (this.featuresRtree_) { this.featuresRtree_.remove(feature); } this.nullGeometryFeatures_[featureKey] = feature; } } else { const extent = geometry.getExtent(); if (featureKey in this.nullGeometryFeatures_) { delete this.nullGeometryFeatures_[featureKey]; if (this.featuresRtree_) { this.featuresRtree_.insert(extent, feature); } } else { if (this.featuresRtree_) { this.featuresRtree_.update(extent, feature); } } } const id = feature.getId(); if (id !== undefined) { const sid = id.toString(); if (featureKey in this.undefIdIndex_) { delete this.undefIdIndex_[featureKey]; this.idIndex_[sid] = feature; } else { if (this.idIndex_[sid] !== feature) { this.removeFromIdIndex_(feature); this.idIndex_[sid] = feature; } } } else { if (!(featureKey in this.undefIdIndex_)) { this.removeFromIdIndex_(feature); this.undefIdIndex_[featureKey] = feature; } } this.changed(); this.dispatchEvent(new VectorSourceEvent( VectorEventType.CHANGEFEATURE, feature)); } /** * Returns true if the feature is contained within the source. * @param {import("../Feature.js").default} feature Feature. * @return {boolean} Has feature. * @api */ hasFeature(feature) { const id = feature.getId(); if (id !== undefined) { return id in this.idIndex_; } else { return getUid(feature) in this.undefIdIndex_; } } /** * @return {boolean} Is empty. */ isEmpty() { return this.featuresRtree_.isEmpty() && isEmpty(this.nullGeometryFeatures_); } /** * @param {import("../extent.js").Extent} extent Extent. * @param {number} resolution Resolution. * @param {import("../proj/Projection.js").default} projection Projection. */ loadFeatures(extent, resolution, projection) { const loadedExtentsRtree = this.loadedExtentsRtree_; const extentsToLoad = this.strategy_(extent, resolution); this.loading = false; for (let i = 0, ii = extentsToLoad.length; i < ii; ++i) { const extentToLoad = extentsToLoad[i]; const alreadyLoaded = loadedExtentsRtree.forEachInExtent(extentToLoad, /** * @param {{extent: import("../extent.js").Extent}} object Object. * @return {boolean} Contains. */ function(object) { return containsExtent(object.extent, extentToLoad); }); if (!alreadyLoaded) { this.loader_.call(this, extentToLoad, resolution, projection); loadedExtentsRtree.insert(extentToLoad, {extent: extentToLoad.slice()}); this.loading = this.loader_ !== VOID; } } } /** * @inheritDoc */ refresh() { this.clear(true); this.loadedExtentsRtree_.clear(); super.refresh(); } /** * Remove an extent from the list of loaded extents. * @param {import("../extent.js").Extent} extent Extent. * @api */ removeLoadedExtent(extent) { const loadedExtentsRtree = this.loadedExtentsRtree_; let obj; loadedExtentsRtree.forEachInExtent(extent, function(object) { if (equals(object.extent, extent)) { obj = object; return true; } }); if (obj) { loadedExtentsRtree.remove(obj); } } /** * Remove a single feature from the source. If you want to remove all features * at once, use the {@link module:ol/source/Vector~VectorSource#clear #clear()} method * instead. * @param {import("../Feature.js").default} feature Feature to remove. * @api */ removeFeature(feature) { const featureKey = getUid(feature); if (featureKey in this.nullGeometryFeatures_) { delete this.nullGeometryFeatures_[featureKey]; } else { if (this.featuresRtree_) { this.featuresRtree_.remove(feature); } } this.removeFeatureInternal(feature); this.changed(); } /** * Remove feature without firing a `change` event. * @param {import("../Feature.js").default} feature Feature. * @protected */ removeFeatureInternal(feature) { const featureKey = getUid(feature); this.featureChangeKeys_[featureKey].forEach(unlistenByKey); delete this.featureChangeKeys_[featureKey]; const id = feature.getId(); if (id !== undefined) { delete this.idIndex_[id.toString()]; } else { delete this.undefIdIndex_[featureKey]; } this.dispatchEvent(new VectorSourceEvent( VectorEventType.REMOVEFEATURE, feature)); } /** * Remove a feature from the id index. Called internally when the feature id * may have changed. * @param {import("../Feature.js").default} feature The feature. * @return {boolean} Removed the feature from the index. * @private */ removeFromIdIndex_(feature) { let removed = false; for (const id in this.idIndex_) { if (this.idIndex_[id] === feature) { delete this.idIndex_[id]; removed = true; break; } } return removed; } /** * Set the new loader of the source. The next render cycle will use the * new loader. * @param {import("../featureloader.js").FeatureLoader} loader The loader to set. * @api */ setLoader(loader) { this.loader_ = loader; } /** * Points the source to a new url. The next render cycle will use the new url. * @param {string|import("../featureloader.js").FeatureUrlFunction} url Url. * @api */ setUrl(url) { assert(this.format_, 7); // `format` must be set when `url` is set this.setLoader(xhr(url, this.format_)); } } export default VectorSource;