/* Leaflet.markercluster, Provides Beautiful Animated Marker Clustering functionality for Leaflet, a JS library for interactive maps. https://github.com/Leaflet/Leaflet.markercluster (c) 2012-2013, Dave Leaver, smartrak */ (function (window, document, undefined) {/* * L.MarkerClusterGroup extends L.FeatureGroup by clustering the markers contained within */ L.MarkerClusterGroup = L.FeatureGroup.extend({ options: { maxClusterRadius: 80, //A cluster will cover at most this many pixels from its center iconCreateFunction: null, spiderfyOnMaxZoom: true, showCoverageOnHover: true, zoomToBoundsOnClick: true, singleMarkerMode: false, disableClusteringAtZoom: null, // Setting this to false prevents the removal of any clusters outside of the viewpoint, which // is the default behaviour for performance reasons. removeOutsideVisibleBounds: true, //Whether to animate adding markers after adding the MarkerClusterGroup to the map // If you are adding individual markers set to true, if adding bulk markers leave false for massive performance gains. animateAddingMarkers: false, //Increase to increase the distance away that spiderfied markers appear from the center spiderfyDistanceMultiplier: 1, // When bulk adding layers, adds markers in chunks. Means addLayers may not add all the layers in the call, others will be loaded during setTimeouts chunkedLoading: false, chunkInterval: 200, // process markers for a maximum of ~ n milliseconds (then trigger the chunkProgress callback) chunkDelay: 50, // at the end of each interval, give n milliseconds back to system/browser chunkProgress: null, // progress callback: function(processed, total, elapsed) (e.g. for a progress indicator) //Options to pass to the L.Polygon constructor polygonOptions: {} }, initialize: function (options) { L.Util.setOptions(this, options); if (!this.options.iconCreateFunction) { this.options.iconCreateFunction = this._defaultIconCreateFunction; } this._featureGroup = L.featureGroup(); this._featureGroup.on(L.FeatureGroup.EVENTS, this._propagateEvent, this); this._nonPointGroup = L.featureGroup(); this._nonPointGroup.on(L.FeatureGroup.EVENTS, this._propagateEvent, this); this._inZoomAnimation = 0; this._needsClustering = []; this._needsRemoving = []; //Markers removed while we aren't on the map need to be kept track of //The bounds of the currently shown area (from _getExpandedVisibleBounds) Updated on zoom/move this._currentShownBounds = null; this._queue = []; }, addLayer: function (layer) { if (layer instanceof L.LayerGroup) { var array = []; for (var i in layer._layers) { array.push(layer._layers[i]); } return this.addLayers(array); } //Don't cluster non point data if (!layer.getLatLng) { this._nonPointGroup.addLayer(layer); return this; } if (!this._map) { this._needsClustering.push(layer); return this; } if (this.hasLayer(layer)) { return this; } //If we have already clustered we'll need to add this one to a cluster if (this._unspiderfy) { this._unspiderfy(); } this._addLayer(layer, this._maxZoom); //Work out what is visible var visibleLayer = layer, currentZoom = this._map.getZoom(); if (layer.__parent) { while (visibleLayer.__parent._zoom >= currentZoom) { visibleLayer = visibleLayer.__parent; } } if (this._currentShownBounds.contains(visibleLayer.getLatLng())) { if (this.options.animateAddingMarkers) { this._animationAddLayer(layer, visibleLayer); } else { this._animationAddLayerNonAnimated(layer, visibleLayer); } } return this; }, removeLayer: function (layer) { if (layer instanceof L.LayerGroup) { var array = []; for (var i in layer._layers) { array.push(layer._layers[i]); } return this.removeLayers(array); } //Non point layers if (!layer.getLatLng) { this._nonPointGroup.removeLayer(layer); return this; } if (!this._map) { if (!this._arraySplice(this._needsClustering, layer) && this.hasLayer(layer)) { this._needsRemoving.push(layer); } return this; } if (!layer.__parent) { return this; } if (this._unspiderfy) { this._unspiderfy(); this._unspiderfyLayer(layer); } //Remove the marker from clusters this._removeLayer(layer, true); if (this._featureGroup.hasLayer(layer)) { this._featureGroup.removeLayer(layer); if (layer.setOpacity) { layer.setOpacity(1); } } return this; }, //Takes an array of markers and adds them in bulk addLayers: function (layersArray) { var fg = this._featureGroup, npg = this._nonPointGroup, chunked = this.options.chunkedLoading, chunkInterval = this.options.chunkInterval, chunkProgress = this.options.chunkProgress, newMarkers, i, l, m; if (this._map) { var offset = 0, started = (new Date()).getTime(); var process = L.bind(function () { var start = (new Date()).getTime(); for (; offset < layersArray.length; offset++) { if (chunked && offset % 200 === 0) { // every couple hundred markers, instrument the time elapsed since processing started: var elapsed = (new Date()).getTime() - start; if (elapsed > chunkInterval) { break; // been working too hard, time to take a break :-) } } m = layersArray[offset]; //Not point data, can't be clustered if (!m.getLatLng) { npg.addLayer(m); continue; } if (this.hasLayer(m)) { continue; } this._addLayer(m, this._maxZoom); //If we just made a cluster of size 2 then we need to remove the other marker from the map (if it is) or we never will if (m.__parent) { if (m.__parent.getChildCount() === 2) { var markers = m.__parent.getAllChildMarkers(), otherMarker = markers[0] === m ? markers[1] : markers[0]; fg.removeLayer(otherMarker); } } } if (chunkProgress) { // report progress and time elapsed: chunkProgress(offset, layersArray.length, (new Date()).getTime() - started); } if (offset === layersArray.length) { //Update the icons of all those visible clusters that were affected this._featureGroup.eachLayer(function (c) { if (c instanceof L.MarkerCluster && c._iconNeedsUpdate) { c._updateIcon(); } }); this._topClusterLevel._recursivelyAddChildrenToMap(null, this._zoom, this._currentShownBounds); } else { setTimeout(process, this.options.chunkDelay); } }, this); process(); } else { newMarkers = []; for (i = 0, l = layersArray.length; i < l; i++) { m = layersArray[i]; //Not point data, can't be clustered if (!m.getLatLng) { npg.addLayer(m); continue; } if (this.hasLayer(m)) { continue; } newMarkers.push(m); } this._needsClustering = this._needsClustering.concat(newMarkers); } return this; }, //Takes an array of markers and removes them in bulk removeLayers: function (layersArray) { var i, l, m, fg = this._featureGroup, npg = this._nonPointGroup; if (!this._map) { for (i = 0, l = layersArray.length; i < l; i++) { m = layersArray[i]; this._arraySplice(this._needsClustering, m); npg.removeLayer(m); } return this; } for (i = 0, l = layersArray.length; i < l; i++) { m = layersArray[i]; if (!m.__parent) { npg.removeLayer(m); continue; } this._removeLayer(m, true, true); if (fg.hasLayer(m)) { fg.removeLayer(m); if (m.setOpacity) { m.setOpacity(1); } } } //Fix up the clusters and markers on the map this._topClusterLevel._recursivelyAddChildrenToMap(null, this._zoom, this._currentShownBounds); fg.eachLayer(function (c) { if (c instanceof L.MarkerCluster) { c._updateIcon(); } }); return this; }, //Removes all layers from the MarkerClusterGroup clearLayers: function () { //Need our own special implementation as the LayerGroup one doesn't work for us //If we aren't on the map (yet), blow away the markers we know of if (!this._map) { this._needsClustering = []; delete this._gridClusters; delete this._gridUnclustered; } if (this._noanimationUnspiderfy) { this._noanimationUnspiderfy(); } //Remove all the visible layers this._featureGroup.clearLayers(); this._nonPointGroup.clearLayers(); this.eachLayer(function (marker) { delete marker.__parent; }); if (this._map) { //Reset _topClusterLevel and the DistanceGrids this._generateInitialClusters(); } return this; }, //Override FeatureGroup.getBounds as it doesn't work getBounds: function () { var bounds = new L.LatLngBounds(); if (this._topClusterLevel) { bounds.extend(this._topClusterLevel._bounds); } for (var i = this._needsClustering.length - 1; i >= 0; i--) { bounds.extend(this._needsClustering[i].getLatLng()); } bounds.extend(this._nonPointGroup.getBounds()); return bounds; }, //Overrides LayerGroup.eachLayer eachLayer: function (method, context) { var markers = this._needsClustering.slice(), i; if (this._topClusterLevel) { this._topClusterLevel.getAllChildMarkers(markers); } for (i = markers.length - 1; i >= 0; i--) { method.call(context, markers[i]); } this._nonPointGroup.eachLayer(method, context); }, //Overrides LayerGroup.getLayers getLayers: function () { var layers = []; this.eachLayer(function (l) { layers.push(l); }); return layers; }, //Overrides LayerGroup.getLayer, WARNING: Really bad performance getLayer: function (id) { var result = null; this.eachLayer(function (l) { if (L.stamp(l) === id) { result = l; } }); return result; }, //Returns true if the given layer is in this MarkerClusterGroup hasLayer: function (layer) { if (!layer) { return false; } var i, anArray = this._needsClustering; for (i = anArray.length - 1; i >= 0; i--) { if (anArray[i] === layer) { return true; } } anArray = this._needsRemoving; for (i = anArray.length - 1; i >= 0; i--) { if (anArray[i] === layer) { return false; } } return !!(layer.__parent && layer.__parent._group === this) || this._nonPointGroup.hasLayer(layer); }, //Zoom down to show the given layer (spiderfying if necessary) then calls the callback zoomToShowLayer: function (layer, callback) { var showMarker = function () { if ((layer._icon || layer.__parent._icon) && !this._inZoomAnimation) { this._map.off('moveend', showMarker, this); this.off('animationend', showMarker, this); if (layer._icon) { callback(); } else if (layer.__parent._icon) { var afterSpiderfy = function () { this.off('spiderfied', afterSpiderfy, this); callback(); }; this.on('spiderfied', afterSpiderfy, this); layer.__parent.spiderfy(); } } }; if (layer._icon && this._map.getBounds().contains(layer.getLatLng())) { //Layer is visible ond on screen, immediate return callback(); } else if (layer.__parent._zoom < this._map.getZoom()) { //Layer should be visible at this zoom level. It must not be on screen so just pan over to it this._map.on('moveend', showMarker, this); this._map.panTo(layer.getLatLng()); } else { var moveStart = function () { this._map.off('movestart', moveStart, this); moveStart = null; }; this._map.on('movestart', moveStart, this); this._map.on('moveend', showMarker, this); this.on('animationend', showMarker, this); layer.__parent.zoomToBounds(); if (moveStart) { //Never started moving, must already be there, probably need clustering however showMarker.call(this); } } }, //Overrides FeatureGroup.onAdd onAdd: function (map) { this._map = map; var i, l, layer; if (!isFinite(this._map.getMaxZoom())) { throw "Map has no maxZoom specified"; } this._featureGroup.onAdd(map); this._nonPointGroup.onAdd(map); if (!this._gridClusters) { this._generateInitialClusters(); } for (i = 0, l = this._needsRemoving.length; i < l; i++) { layer = this._needsRemoving[i]; this._removeLayer(layer, true); } this._needsRemoving = []; //Remember the current zoom level and bounds this._zoom = this._map.getZoom(); this._currentShownBounds = this._getExpandedVisibleBounds(); this._map.on('zoomend', this._zoomEnd, this); this._map.on('moveend', this._moveEnd, this); if (this._spiderfierOnAdd) { //TODO FIXME: Not sure how to have spiderfier add something on here nicely this._spiderfierOnAdd(); } this._bindEvents(); //Actually add our markers to the map: l = this._needsClustering; this._needsClustering = []; this.addLayers(l); }, //Overrides FeatureGroup.onRemove onRemove: function (map) { map.off('zoomend', this._zoomEnd, this); map.off('moveend', this._moveEnd, this); this._unbindEvents(); //In case we are in a cluster animation this._map._mapPane.className = this._map._mapPane.className.replace(' leaflet-cluster-anim', ''); if (this._spiderfierOnRemove) { //TODO FIXME: Not sure how to have spiderfier add something on here nicely this._spiderfierOnRemove(); } //Clean up all the layers we added to the map this._hideCoverage(); this._featureGroup.onRemove(map); this._nonPointGroup.onRemove(map); this._featureGroup.clearLayers(); this._map = null; }, getVisibleParent: function (marker) { var vMarker = marker; while (vMarker && !vMarker._icon) { vMarker = vMarker.__parent; } return vMarker || null; }, //Remove the given object from the given array _arraySplice: function (anArray, obj) { for (var i = anArray.length - 1; i >= 0; i--) { if (anArray[i] === obj) { anArray.splice(i, 1); return true; } } }, //Internal function for removing a marker from everything. //dontUpdateMap: set to true if you will handle updating the map manually (for bulk functions) _removeLayer: function (marker, removeFromDistanceGrid, dontUpdateMap) { var gridClusters = this._gridClusters, gridUnclustered = this._gridUnclustered, fg = this._featureGroup, map = this._map; //Remove the marker from distance clusters it might be in if (removeFromDistanceGrid) { for (var z = this._maxZoom; z >= 0; z--) { if (!gridUnclustered[z].removeObject(marker, map.project(marker.getLatLng(), z))) { break; } } } //Work our way up the clusters removing them as we go if required var cluster = marker.__parent, markers = cluster._markers, otherMarker; //Remove the marker from the immediate parents marker list this._arraySplice(markers, marker); while (cluster) { cluster._childCount--; if (cluster._zoom < 0) { //Top level, do nothing break; } else if (removeFromDistanceGrid && cluster._childCount <= 1) { //Cluster no longer required //We need to push the other marker up to the parent otherMarker = cluster._markers[0] === marker ? cluster._markers[1] : cluster._markers[0]; //Update distance grid gridClusters[cluster._zoom].removeObject(cluster, map.project(cluster._cLatLng, cluster._zoom)); gridUnclustered[cluster._zoom].addObject(otherMarker, map.project(otherMarker.getLatLng(), cluster._zoom)); //Move otherMarker up to parent this._arraySplice(cluster.__parent._childClusters, cluster); cluster.__parent._markers.push(otherMarker); otherMarker.__parent = cluster.__parent; if (cluster._icon) { //Cluster is currently on the map, need to put the marker on the map instead fg.removeLayer(cluster); if (!dontUpdateMap) { fg.addLayer(otherMarker); } } } else { cluster._recalculateBounds(); if (!dontUpdateMap || !cluster._icon) { cluster._updateIcon(); } } cluster = cluster.__parent; } delete marker.__parent; }, _isOrIsParent: function (el, oel) { while (oel) { if (el === oel) { return true; } oel = oel.parentNode; } return false; }, _propagateEvent: function (e) { if (e.layer instanceof L.MarkerCluster) { //Prevent multiple clustermouseover/off events if the icon is made up of stacked divs (Doesn't work in ie <= 8, no relatedTarget) if (e.originalEvent && this._isOrIsParent(e.layer._icon, e.originalEvent.relatedTarget)) { return; } e.type = 'cluster' + e.type; } this.fire(e.type, e); }, //Default functionality _defaultIconCreateFunction: function (cluster) { var childCount = cluster.getChildCount(); var c = ' marker-cluster-'; if (childCount < 10) { c += 'small'; } else if (childCount < 100) { c += 'medium'; } else { c += 'large'; } return new L.DivIcon({ html: '
' + childCount + '
', className: 'marker-cluster' + c, iconSize: new L.Point(40, 40) }); }, _bindEvents: function () { var map = this._map, spiderfyOnMaxZoom = this.options.spiderfyOnMaxZoom, showCoverageOnHover = this.options.showCoverageOnHover, zoomToBoundsOnClick = this.options.zoomToBoundsOnClick; //Zoom on cluster click or spiderfy if we are at the lowest level if (spiderfyOnMaxZoom || zoomToBoundsOnClick) { this.on('clusterclick', this._zoomOrSpiderfy, this); } //Show convex hull (boundary) polygon on mouse over if (showCoverageOnHover) { this.on('clustermouseover', this._showCoverage, this); this.on('clustermouseout', this._hideCoverage, this); map.on('zoomend', this._hideCoverage, this); } }, _zoomOrSpiderfy: function (e) { var map = this._map; if (map.getMaxZoom() === map.getZoom()) { if (this.options.spiderfyOnMaxZoom) { e.layer.spiderfy(); } } else if (this.options.zoomToBoundsOnClick) { e.layer.zoomToBounds(); } // Focus the map again for keyboard users. if (e.originalEvent && e.originalEvent.keyCode === 13) { map._container.focus(); } }, _showCoverage: function (e) { var map = this._map; if (this._inZoomAnimation) { return; } if (this._shownPolygon) { map.removeLayer(this._shownPolygon); } if (e.layer.getChildCount() > 2 && e.layer !== this._spiderfied) { this._shownPolygon = new L.Polygon(e.layer.getConvexHull(), this.options.polygonOptions); map.addLayer(this._shownPolygon); } }, _hideCoverage: function () { if (this._shownPolygon) { this._map.removeLayer(this._shownPolygon); this._shownPolygon = null; } }, _unbindEvents: function () { var spiderfyOnMaxZoom = this.options.spiderfyOnMaxZoom, showCoverageOnHover = this.options.showCoverageOnHover, zoomToBoundsOnClick = this.options.zoomToBoundsOnClick, map = this._map; if (spiderfyOnMaxZoom || zoomToBoundsOnClick) { this.off('clusterclick', this._zoomOrSpiderfy, this); } if (showCoverageOnHover) { this.off('clustermouseover', this._showCoverage, this); this.off('clustermouseout', this._hideCoverage, this); map.off('zoomend', this._hideCoverage, this); } }, _zoomEnd: function () { if (!this._map) { //May have been removed from the map by a zoomEnd handler return; } this._mergeSplitClusters(); this._zoom = this._map._zoom; this._currentShownBounds = this._getExpandedVisibleBounds(); }, _moveEnd: function () { if (this._inZoomAnimation) { return; } var newBounds = this._getExpandedVisibleBounds(); this._topClusterLevel._recursivelyRemoveChildrenFromMap(this._currentShownBounds, this._zoom, newBounds); this._topClusterLevel._recursivelyAddChildrenToMap(null, this._map._zoom, newBounds); this._currentShownBounds = newBounds; return; }, _generateInitialClusters: function () { var maxZoom = this._map.getMaxZoom(), radius = this.options.maxClusterRadius, radiusFn = radius; //If we just set maxClusterRadius to a single number, we need to create //a simple function to return that number. Otherwise, we just have to //use the function we've passed in. if (typeof radius !== "function") { radiusFn = function () { return radius; }; } if (this.options.disableClusteringAtZoom) { maxZoom = this.options.disableClusteringAtZoom - 1; } this._maxZoom = maxZoom; this._gridClusters = {}; this._gridUnclustered = {}; //Set up DistanceGrids for each zoom for (var zoom = maxZoom; zoom >= 0; zoom--) { this._gridClusters[zoom] = new L.DistanceGrid(radiusFn(zoom)); this._gridUnclustered[zoom] = new L.DistanceGrid(radiusFn(zoom)); } this._topClusterLevel = new L.MarkerCluster(this, -1); }, //Zoom: Zoom to start adding at (Pass this._maxZoom to start at the bottom) _addLayer: function (layer, zoom) { var gridClusters = this._gridClusters, gridUnclustered = this._gridUnclustered, markerPoint, z; if (this.options.singleMarkerMode) { layer.options.icon = this.options.iconCreateFunction({ getChildCount: function () { return 1; }, getAllChildMarkers: function () { return [layer]; } }); } //Find the lowest zoom level to slot this one in for (; zoom >= 0; zoom--) { markerPoint = this._map.project(layer.getLatLng(), zoom); // calculate pixel position //Try find a cluster close by var closest = gridClusters[zoom].getNearObject(markerPoint); if (closest) { closest._addChild(layer); layer.__parent = closest; return; } //Try find a marker close by to form a new cluster with closest = gridUnclustered[zoom].getNearObject(markerPoint); if (closest) { var parent = closest.__parent; if (parent) { this._removeLayer(closest, false); } //Create new cluster with these 2 in it var newCluster = new L.MarkerCluster(this, zoom, closest, layer); gridClusters[zoom].addObject(newCluster, this._map.project(newCluster._cLatLng, zoom)); closest.__parent = newCluster; layer.__parent = newCluster; //First create any new intermediate parent clusters that don't exist var lastParent = newCluster; for (z = zoom - 1; z > parent._zoom; z--) { lastParent = new L.MarkerCluster(this, z, lastParent); gridClusters[z].addObject(lastParent, this._map.project(closest.getLatLng(), z)); } parent._addChild(lastParent); //Remove closest from this zoom level and any above that it is in, replace with newCluster for (z = zoom; z >= 0; z--) { if (!gridUnclustered[z].removeObject(closest, this._map.project(closest.getLatLng(), z))) { break; } } return; } //Didn't manage to cluster in at this zoom, record us as a marker here and continue upwards gridUnclustered[zoom].addObject(layer, markerPoint); } //Didn't get in anything, add us to the top this._topClusterLevel._addChild(layer); layer.__parent = this._topClusterLevel; return; }, //Enqueue code to fire after the marker expand/contract has happened _enqueue: function (fn) { this._queue.push(fn); if (!this._queueTimeout) { this._queueTimeout = setTimeout(L.bind(this._processQueue, this), 300); } }, _processQueue: function () { for (var i = 0; i < this._queue.length; i++) { this._queue[i].call(this); } this._queue.length = 0; clearTimeout(this._queueTimeout); this._queueTimeout = null; }, //Merge and split any existing clusters that are too big or small _mergeSplitClusters: function () { //Incase we are starting to split before the animation finished this._processQueue(); if (this._zoom < this._map._zoom && this._currentShownBounds.intersects(this._getExpandedVisibleBounds())) { //Zoom in, split this._animationStart(); //Remove clusters now off screen this._topClusterLevel._recursivelyRemoveChildrenFromMap(this._currentShownBounds, this._zoom, this._getExpandedVisibleBounds()); this._animationZoomIn(this._zoom, this._map._zoom); } else if (this._zoom > this._map._zoom) { //Zoom out, merge this._animationStart(); this._animationZoomOut(this._zoom, this._map._zoom); } else { this._moveEnd(); } }, //Gets the maps visible bounds expanded in each direction by the size of the screen (so the user cannot see an area we do not cover in one pan) _getExpandedVisibleBounds: function () { if (!this.options.removeOutsideVisibleBounds) { return this.getBounds(); } var map = this._map, bounds = map.getBounds(), sw = bounds._southWest, ne = bounds._northEast, latDiff = L.Browser.mobile ? 0 : Math.abs(sw.lat - ne.lat), lngDiff = L.Browser.mobile ? 0 : Math.abs(sw.lng - ne.lng); return new L.LatLngBounds( new L.LatLng(sw.lat - latDiff, sw.lng - lngDiff, true), new L.LatLng(ne.lat + latDiff, ne.lng + lngDiff, true)); }, //Shared animation code _animationAddLayerNonAnimated: function (layer, newCluster) { if (newCluster === layer) { this._featureGroup.addLayer(layer); } else if (newCluster._childCount === 2) { newCluster._addToMap(); var markers = newCluster.getAllChildMarkers(); this._featureGroup.removeLayer(markers[0]); this._featureGroup.removeLayer(markers[1]); } else { newCluster._updateIcon(); } } }); L.MarkerClusterGroup.include(!L.DomUtil.TRANSITION ? { //Non Animated versions of everything _animationStart: function () { //Do nothing... }, _animationZoomIn: function (previousZoomLevel, newZoomLevel) { this._topClusterLevel._recursivelyRemoveChildrenFromMap(this._currentShownBounds, previousZoomLevel); this._topClusterLevel._recursivelyAddChildrenToMap(null, newZoomLevel, this._getExpandedVisibleBounds()); //We didn't actually animate, but we use this event to mean "clustering animations have finished" this.fire('animationend'); }, _animationZoomOut: function (previousZoomLevel, newZoomLevel) { this._topClusterLevel._recursivelyRemoveChildrenFromMap(this._currentShownBounds, previousZoomLevel); this._topClusterLevel._recursivelyAddChildrenToMap(null, newZoomLevel, this._getExpandedVisibleBounds()); //We didn't actually animate, but we use this event to mean "clustering animations have finished" this.fire('animationend'); }, _animationAddLayer: function (layer, newCluster) { this._animationAddLayerNonAnimated(layer, newCluster); } } : { //Animated versions here _animationStart: function () { this._map._mapPane.className += ' leaflet-cluster-anim'; this._inZoomAnimation++; }, _animationEnd: function () { if (this._map) { this._map._mapPane.className = this._map._mapPane.className.replace(' leaflet-cluster-anim', ''); } this._inZoomAnimation--; this.fire('animationend'); }, _animationZoomIn: function (previousZoomLevel, newZoomLevel) { var bounds = this._getExpandedVisibleBounds(), fg = this._featureGroup, i; //Add all children of current clusters to map and remove those clusters from map this._topClusterLevel._recursively(bounds, previousZoomLevel, 0, function (c) { var startPos = c._latlng, markers = c._markers, m; if (!bounds.contains(startPos)) { startPos = null; } if (c._isSingleParent() && previousZoomLevel + 1 === newZoomLevel) { //Immediately add the new child and remove us fg.removeLayer(c); c._recursivelyAddChildrenToMap(null, newZoomLevel, bounds); } else { //Fade out old cluster c.setOpacity(0); c._recursivelyAddChildrenToMap(startPos, newZoomLevel, bounds); } //Remove all markers that aren't visible any more //TODO: Do we actually need to do this on the higher levels too? for (i = markers.length - 1; i >= 0; i--) { m = markers[i]; if (!bounds.contains(m._latlng)) { fg.removeLayer(m); } } }); this._forceLayout(); //Update opacities this._topClusterLevel._recursivelyBecomeVisible(bounds, newZoomLevel); //TODO Maybe? Update markers in _recursivelyBecomeVisible fg.eachLayer(function (n) { if (!(n instanceof L.MarkerCluster) && n._icon) { n.setOpacity(1); } }); //update the positions of the just added clusters/markers this._topClusterLevel._recursively(bounds, previousZoomLevel, newZoomLevel, function (c) { c._recursivelyRestoreChildPositions(newZoomLevel); }); //Remove the old clusters and close the zoom animation this._enqueue(function () { //update the positions of the just added clusters/markers this._topClusterLevel._recursively(bounds, previousZoomLevel, 0, function (c) { fg.removeLayer(c); c.setOpacity(1); }); this._animationEnd(); }); }, _animationZoomOut: function (previousZoomLevel, newZoomLevel) { this._animationZoomOutSingle(this._topClusterLevel, previousZoomLevel - 1, newZoomLevel); //Need to add markers for those that weren't on the map before but are now this._topClusterLevel._recursivelyAddChildrenToMap(null, newZoomLevel, this._getExpandedVisibleBounds()); //Remove markers that were on the map before but won't be now this._topClusterLevel._recursivelyRemoveChildrenFromMap(this._currentShownBounds, previousZoomLevel, this._getExpandedVisibleBounds()); }, _animationZoomOutSingle: function (cluster, previousZoomLevel, newZoomLevel) { var bounds = this._getExpandedVisibleBounds(); //Animate all of the markers in the clusters to move to their cluster center point cluster._recursivelyAnimateChildrenInAndAddSelfToMap(bounds, previousZoomLevel + 1, newZoomLevel); var me = this; //Update the opacity (If we immediately set it they won't animate) this._forceLayout(); cluster._recursivelyBecomeVisible(bounds, newZoomLevel); //TODO: Maybe use the transition timing stuff to make this more reliable //When the animations are done, tidy up this._enqueue(function () { //This cluster stopped being a cluster before the timeout fired if (cluster._childCount === 1) { var m = cluster._markers[0]; //If we were in a cluster animation at the time then the opacity and position of our child could be wrong now, so fix it m.setLatLng(m.getLatLng()); if (m.setOpacity) { m.setOpacity(1); } } else { cluster._recursively(bounds, newZoomLevel, 0, function (c) { c._recursivelyRemoveChildrenFromMap(bounds, previousZoomLevel + 1); }); } me._animationEnd(); }); }, _animationAddLayer: function (layer, newCluster) { var me = this, fg = this._featureGroup; fg.addLayer(layer); if (newCluster !== layer) { if (newCluster._childCount > 2) { //Was already a cluster newCluster._updateIcon(); this._forceLayout(); this._animationStart(); layer._setPos(this._map.latLngToLayerPoint(newCluster.getLatLng())); layer.setOpacity(0); this._enqueue(function () { fg.removeLayer(layer); layer.setOpacity(1); me._animationEnd(); }); } else { //Just became a cluster this._forceLayout(); me._animationStart(); me._animationZoomOutSingle(newCluster, this._map.getMaxZoom(), this._map.getZoom()); } } }, //Force a browser layout of stuff in the map // Should apply the current opacity and location to all elements so we can update them again for an animation _forceLayout: function () { //In my testing this works, infact offsetWidth of any element seems to work. //Could loop all this._layers and do this for each _icon if it stops working L.Util.falseFn(document.body.offsetWidth); } }); L.markerClusterGroup = function (options) { return new L.MarkerClusterGroup(options); }; L.MarkerCluster = L.Marker.extend({ initialize: function (group, zoom, a, b) { L.Marker.prototype.initialize.call(this, a ? (a._cLatLng || a.getLatLng()) : new L.LatLng(0, 0), { icon: this }); this._group = group; this._zoom = zoom; this._markers = []; this._childClusters = []; this._childCount = 0; this._iconNeedsUpdate = true; this._bounds = new L.LatLngBounds(); if (a) { this._addChild(a); } if (b) { this._addChild(b); } }, //Recursively retrieve all child markers of this cluster getAllChildMarkers: function (storageArray) { storageArray = storageArray || []; for (var i = this._childClusters.length - 1; i >= 0; i--) { this._childClusters[i].getAllChildMarkers(storageArray); } for (var j = this._markers.length - 1; j >= 0; j--) { storageArray.push(this._markers[j]); } return storageArray; }, //Returns the count of how many child markers we have getChildCount: function () { return this._childCount; }, //Zoom to the minimum of showing all of the child markers, or the extents of this cluster zoomToBounds: function () { var childClusters = this._childClusters.slice(), map = this._group._map, boundsZoom = map.getBoundsZoom(this._bounds), zoom = this._zoom + 1, mapZoom = map.getZoom(), i; //calculate how far we need to zoom down to see all of the markers while (childClusters.length > 0 && boundsZoom > zoom) { zoom++; var newClusters = []; for (i = 0; i < childClusters.length; i++) { newClusters = newClusters.concat(childClusters[i]._childClusters); } childClusters = newClusters; } if (boundsZoom > zoom) { this._group._map.setView(this._latlng, zoom); } else if (boundsZoom <= mapZoom) { //If fitBounds wouldn't zoom us down, zoom us down instead this._group._map.setView(this._latlng, mapZoom + 1); } else { this._group._map.fitBounds(this._bounds); } }, getBounds: function () { var bounds = new L.LatLngBounds(); bounds.extend(this._bounds); return bounds; }, _updateIcon: function () { this._iconNeedsUpdate = true; if (this._icon) { this.setIcon(this); } }, //Cludge for Icon, we pretend to be an icon for performance createIcon: function () { if (this._iconNeedsUpdate) { this._iconObj = this._group.options.iconCreateFunction(this); this._iconNeedsUpdate = false; } return this._iconObj.createIcon(); }, createShadow: function () { return this._iconObj.createShadow(); }, _addChild: function (new1, isNotificationFromChild) { this._iconNeedsUpdate = true; this._expandBounds(new1); if (new1 instanceof L.MarkerCluster) { if (!isNotificationFromChild) { this._childClusters.push(new1); new1.__parent = this; } this._childCount += new1._childCount; } else { if (!isNotificationFromChild) { this._markers.push(new1); } this._childCount++; } if (this.__parent) { this.__parent._addChild(new1, true); } }, //Expand our bounds and tell our parent to _expandBounds: function (marker) { var addedCount, addedLatLng = marker._wLatLng || marker._latlng; if (marker instanceof L.MarkerCluster) { this._bounds.extend(marker._bounds); addedCount = marker._childCount; } else { this._bounds.extend(addedLatLng); addedCount = 1; } if (!this._cLatLng) { // when clustering, take position of the first point as the cluster center this._cLatLng = marker._cLatLng || addedLatLng; } // when showing clusters, take weighted average of all points as cluster center var totalCount = this._childCount + addedCount; //Calculate weighted latlng for display if (!this._wLatLng) { this._latlng = this._wLatLng = new L.LatLng(addedLatLng.lat, addedLatLng.lng); } else { this._wLatLng.lat = (addedLatLng.lat * addedCount + this._wLatLng.lat * this._childCount) / totalCount; this._wLatLng.lng = (addedLatLng.lng * addedCount + this._wLatLng.lng * this._childCount) / totalCount; } }, //Set our markers position as given and add it to the map _addToMap: function (startPos) { if (startPos) { this._backupLatlng = this._latlng; this.setLatLng(startPos); } this._group._featureGroup.addLayer(this); }, _recursivelyAnimateChildrenIn: function (bounds, center, maxZoom) { this._recursively(bounds, 0, maxZoom - 1, function (c) { var markers = c._markers, i, m; for (i = markers.length - 1; i >= 0; i--) { m = markers[i]; //Only do it if the icon is still on the map if (m._icon) { m._setPos(center); m.setOpacity(0); } } }, function (c) { var childClusters = c._childClusters, j, cm; for (j = childClusters.length - 1; j >= 0; j--) { cm = childClusters[j]; if (cm._icon) { cm._setPos(center); cm.setOpacity(0); } } } ); }, _recursivelyAnimateChildrenInAndAddSelfToMap: function (bounds, previousZoomLevel, newZoomLevel) { this._recursively(bounds, newZoomLevel, 0, function (c) { c._recursivelyAnimateChildrenIn(bounds, c._group._map.latLngToLayerPoint(c.getLatLng()).round(), previousZoomLevel); //TODO: depthToAnimateIn affects _isSingleParent, if there is a multizoom we may/may not be. //As a hack we only do a animation free zoom on a single level zoom, if someone does multiple levels then we always animate if (c._isSingleParent() && previousZoomLevel - 1 === newZoomLevel) { c.setOpacity(1); c._recursivelyRemoveChildrenFromMap(bounds, previousZoomLevel); //Immediately remove our children as we are replacing them. TODO previousBounds not bounds } else { c.setOpacity(0); } c._addToMap(); } ); }, _recursivelyBecomeVisible: function (bounds, zoomLevel) { this._recursively(bounds, 0, zoomLevel, null, function (c) { c.setOpacity(1); }); }, _recursivelyAddChildrenToMap: function (startPos, zoomLevel, bounds) { this._recursively(bounds, -1, zoomLevel, function (c) { if (zoomLevel === c._zoom) { return; } //Add our child markers at startPos (so they can be animated out) for (var i = c._markers.length - 1; i >= 0; i--) { var nm = c._markers[i]; if (!bounds.contains(nm._latlng)) { continue; } if (startPos) { nm._backupLatlng = nm.getLatLng(); nm.setLatLng(startPos); if (nm.setOpacity) { nm.setOpacity(0); } } c._group._featureGroup.addLayer(nm); } }, function (c) { c._addToMap(startPos); } ); }, _recursivelyRestoreChildPositions: function (zoomLevel) { //Fix positions of child markers for (var i = this._markers.length - 1; i >= 0; i--) { var nm = this._markers[i]; if (nm._backupLatlng) { nm.setLatLng(nm._backupLatlng); delete nm._backupLatlng; } } if (zoomLevel - 1 === this._zoom) { //Reposition child clusters for (var j = this._childClusters.length - 1; j >= 0; j--) { this._childClusters[j]._restorePosition(); } } else { for (var k = this._childClusters.length - 1; k >= 0; k--) { this._childClusters[k]._recursivelyRestoreChildPositions(zoomLevel); } } }, _restorePosition: function () { if (this._backupLatlng) { this.setLatLng(this._backupLatlng); delete this._backupLatlng; } }, //exceptBounds: If set, don't remove any markers/clusters in it _recursivelyRemoveChildrenFromMap: function (previousBounds, zoomLevel, exceptBounds) { var m, i; this._recursively(previousBounds, -1, zoomLevel - 1, function (c) { //Remove markers at every level for (i = c._markers.length - 1; i >= 0; i--) { m = c._markers[i]; if (!exceptBounds || !exceptBounds.contains(m._latlng)) { c._group._featureGroup.removeLayer(m); if (m.setOpacity) { m.setOpacity(1); } } } }, function (c) { //Remove child clusters at just the bottom level for (i = c._childClusters.length - 1; i >= 0; i--) { m = c._childClusters[i]; if (!exceptBounds || !exceptBounds.contains(m._latlng)) { c._group._featureGroup.removeLayer(m); if (m.setOpacity) { m.setOpacity(1); } } } } ); }, //Run the given functions recursively to this and child clusters // boundsToApplyTo: a L.LatLngBounds representing the bounds of what clusters to recurse in to // zoomLevelToStart: zoom level to start running functions (inclusive) // zoomLevelToStop: zoom level to stop running functions (inclusive) // runAtEveryLevel: function that takes an L.MarkerCluster as an argument that should be applied on every level // runAtBottomLevel: function that takes an L.MarkerCluster as an argument that should be applied at only the bottom level _recursively: function (boundsToApplyTo, zoomLevelToStart, zoomLevelToStop, runAtEveryLevel, runAtBottomLevel) { var childClusters = this._childClusters, zoom = this._zoom, i, c; if (zoomLevelToStart > zoom) { //Still going down to required depth, just recurse to child clusters for (i = childClusters.length - 1; i >= 0; i--) { c = childClusters[i]; if (boundsToApplyTo.intersects(c._bounds)) { c._recursively(boundsToApplyTo, zoomLevelToStart, zoomLevelToStop, runAtEveryLevel, runAtBottomLevel); } } } else { //In required depth if (runAtEveryLevel) { runAtEveryLevel(this); } if (runAtBottomLevel && this._zoom === zoomLevelToStop) { runAtBottomLevel(this); } //TODO: This loop is almost the same as above if (zoomLevelToStop > zoom) { for (i = childClusters.length - 1; i >= 0; i--) { c = childClusters[i]; if (boundsToApplyTo.intersects(c._bounds)) { c._recursively(boundsToApplyTo, zoomLevelToStart, zoomLevelToStop, runAtEveryLevel, runAtBottomLevel); } } } } }, _recalculateBounds: function () { var markers = this._markers, childClusters = this._childClusters, i; this._bounds = new L.LatLngBounds(); delete this._wLatLng; for (i = markers.length - 1; i >= 0; i--) { this._expandBounds(markers[i]); } for (i = childClusters.length - 1; i >= 0; i--) { this._expandBounds(childClusters[i]); } }, //Returns true if we are the parent of only one cluster and that cluster is the same as us _isSingleParent: function () { //Don't need to check this._markers as the rest won't work if there are any return this._childClusters.length > 0 && this._childClusters[0]._childCount === this._childCount; } }); L.DistanceGrid = function (cellSize) { this._cellSize = cellSize; this._sqCellSize = cellSize * cellSize; this._grid = {}; this._objectPoint = { }; }; L.DistanceGrid.prototype = { addObject: function (obj, point) { var x = this._getCoord(point.x), y = this._getCoord(point.y), grid = this._grid, row = grid[y] = grid[y] || {}, cell = row[x] = row[x] || [], stamp = L.Util.stamp(obj); this._objectPoint[stamp] = point; cell.push(obj); }, updateObject: function (obj, point) { this.removeObject(obj); this.addObject(obj, point); }, //Returns true if the object was found removeObject: function (obj, point) { var x = this._getCoord(point.x), y = this._getCoord(point.y), grid = this._grid, row = grid[y] = grid[y] || {}, cell = row[x] = row[x] || [], i, len; delete this._objectPoint[L.Util.stamp(obj)]; for (i = 0, len = cell.length; i < len; i++) { if (cell[i] === obj) { cell.splice(i, 1); if (len === 1) { delete row[x]; } return true; } } }, eachObject: function (fn, context) { var i, j, k, len, row, cell, removed, grid = this._grid; for (i in grid) { row = grid[i]; for (j in row) { cell = row[j]; for (k = 0, len = cell.length; k < len; k++) { removed = fn.call(context, cell[k]); if (removed) { k--; len--; } } } } }, getNearObject: function (point) { var x = this._getCoord(point.x), y = this._getCoord(point.y), i, j, k, row, cell, len, obj, dist, objectPoint = this._objectPoint, closestDistSq = this._sqCellSize, closest = null; for (i = y - 1; i <= y + 1; i++) { row = this._grid[i]; if (row) { for (j = x - 1; j <= x + 1; j++) { cell = row[j]; if (cell) { for (k = 0, len = cell.length; k < len; k++) { obj = cell[k]; dist = this._sqDist(objectPoint[L.Util.stamp(obj)], point); if (dist < closestDistSq) { closestDistSq = dist; closest = obj; } } } } } } return closest; }, _getCoord: function (x) { return Math.floor(x / this._cellSize); }, _sqDist: function (p, p2) { var dx = p2.x - p.x, dy = p2.y - p.y; return dx * dx + dy * dy; } }; /* Copyright (c) 2012 the authors listed at the following URL, and/or the authors of referenced articles or incorporated external code: http://en.literateprograms.org/Quickhull_(Javascript)?action=history&offset=20120410175256 Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Retrieved from: http://en.literateprograms.org/Quickhull_(Javascript)?oldid=18434 */ (function () { L.QuickHull = { /* * @param {Object} cpt a point to be measured from the baseline * @param {Array} bl the baseline, as represented by a two-element * array of latlng objects. * @returns {Number} an approximate distance measure */ getDistant: function (cpt, bl) { var vY = bl[1].lat - bl[0].lat, vX = bl[0].lng - bl[1].lng; return (vX * (cpt.lat - bl[0].lat) + vY * (cpt.lng - bl[0].lng)); }, /* * @param {Array} baseLine a two-element array of latlng objects * representing the baseline to project from * @param {Array} latLngs an array of latlng objects * @returns {Object} the maximum point and all new points to stay * in consideration for the hull. */ findMostDistantPointFromBaseLine: function (baseLine, latLngs) { var maxD = 0, maxPt = null, newPoints = [], i, pt, d; for (i = latLngs.length - 1; i >= 0; i--) { pt = latLngs[i]; d = this.getDistant(pt, baseLine); if (d > 0) { newPoints.push(pt); } else { continue; } if (d > maxD) { maxD = d; maxPt = pt; } } return { maxPoint: maxPt, newPoints: newPoints }; }, /* * Given a baseline, compute the convex hull of latLngs as an array * of latLngs. * * @param {Array} latLngs * @returns {Array} */ buildConvexHull: function (baseLine, latLngs) { var convexHullBaseLines = [], t = this.findMostDistantPointFromBaseLine(baseLine, latLngs); if (t.maxPoint) { // if there is still a point "outside" the base line convexHullBaseLines = convexHullBaseLines.concat( this.buildConvexHull([baseLine[0], t.maxPoint], t.newPoints) ); convexHullBaseLines = convexHullBaseLines.concat( this.buildConvexHull([t.maxPoint, baseLine[1]], t.newPoints) ); return convexHullBaseLines; } else { // if there is no more point "outside" the base line, the current base line is part of the convex hull return [baseLine[0]]; } }, /* * Given an array of latlngs, compute a convex hull as an array * of latlngs * * @param {Array} latLngs * @returns {Array} */ getConvexHull: function (latLngs) { // find first baseline var maxLat = false, minLat = false, maxPt = null, minPt = null, i; for (i = latLngs.length - 1; i >= 0; i--) { var pt = latLngs[i]; if (maxLat === false || pt.lat > maxLat) { maxPt = pt; maxLat = pt.lat; } if (minLat === false || pt.lat < minLat) { minPt = pt; minLat = pt.lat; } } var ch = [].concat(this.buildConvexHull([minPt, maxPt], latLngs), this.buildConvexHull([maxPt, minPt], latLngs)); return ch; } }; }()); L.MarkerCluster.include({ getConvexHull: function () { var childMarkers = this.getAllChildMarkers(), points = [], p, i; for (i = childMarkers.length - 1; i >= 0; i--) { p = childMarkers[i].getLatLng(); points.push(p); } return L.QuickHull.getConvexHull(points); } }); //This code is 100% based on https://github.com/jawj/OverlappingMarkerSpiderfier-Leaflet //Huge thanks to jawj for implementing it first to make my job easy :-) L.MarkerCluster.include({ _2PI: Math.PI * 2, _circleFootSeparation: 25, //related to circumference of circle _circleStartAngle: Math.PI / 6, _spiralFootSeparation: 28, //related to size of spiral (experiment!) _spiralLengthStart: 11, _spiralLengthFactor: 5, _circleSpiralSwitchover: 9, //show spiral instead of circle from this marker count upwards. // 0 -> always spiral; Infinity -> always circle spiderfy: function () { if (this._group._spiderfied === this || this._group._inZoomAnimation) { return; } var childMarkers = this.getAllChildMarkers(), group = this._group, map = group._map, center = map.latLngToLayerPoint(this._latlng), positions; this._group._unspiderfy(); this._group._spiderfied = this; //TODO Maybe: childMarkers order by distance to center if (childMarkers.length >= this._circleSpiralSwitchover) { positions = this._generatePointsSpiral(childMarkers.length, center); } else { center.y += 10; //Otherwise circles look wrong positions = this._generatePointsCircle(childMarkers.length, center); } this._animationSpiderfy(childMarkers, positions); }, unspiderfy: function (zoomDetails) { /// Argument from zoomanim if being called in a zoom animation or null otherwise if (this._group._inZoomAnimation) { return; } this._animationUnspiderfy(zoomDetails); this._group._spiderfied = null; }, _generatePointsCircle: function (count, centerPt) { var circumference = this._group.options.spiderfyDistanceMultiplier * this._circleFootSeparation * (2 + count), legLength = circumference / this._2PI, //radius from circumference angleStep = this._2PI / count, res = [], i, angle; res.length = count; for (i = count - 1; i >= 0; i--) { angle = this._circleStartAngle + i * angleStep; res[i] = new L.Point(centerPt.x + legLength * Math.cos(angle), centerPt.y + legLength * Math.sin(angle))._round(); } return res; }, _generatePointsSpiral: function (count, centerPt) { var legLength = this._group.options.spiderfyDistanceMultiplier * this._spiralLengthStart, separation = this._group.options.spiderfyDistanceMultiplier * this._spiralFootSeparation, lengthFactor = this._group.options.spiderfyDistanceMultiplier * this._spiralLengthFactor, angle = 0, res = [], i; res.length = count; for (i = count - 1; i >= 0; i--) { angle += separation / legLength + i * 0.0005; res[i] = new L.Point(centerPt.x + legLength * Math.cos(angle), centerPt.y + legLength * Math.sin(angle))._round(); legLength += this._2PI * lengthFactor / angle; } return res; }, _noanimationUnspiderfy: function () { var group = this._group, map = group._map, fg = group._featureGroup, childMarkers = this.getAllChildMarkers(), m, i; this.setOpacity(1); for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]; fg.removeLayer(m); if (m._preSpiderfyLatlng) { m.setLatLng(m._preSpiderfyLatlng); delete m._preSpiderfyLatlng; } if (m.setZIndexOffset) { m.setZIndexOffset(0); } if (m._spiderLeg) { map.removeLayer(m._spiderLeg); delete m._spiderLeg; } } group._spiderfied = null; } }); L.MarkerCluster.include(!L.DomUtil.TRANSITION ? { //Non Animated versions of everything _animationSpiderfy: function (childMarkers, positions) { var group = this._group, map = group._map, fg = group._featureGroup, i, m, leg, newPos; for (i = childMarkers.length - 1; i >= 0; i--) { newPos = map.layerPointToLatLng(positions[i]); m = childMarkers[i]; m._preSpiderfyLatlng = m._latlng; m.setLatLng(newPos); if (m.setZIndexOffset) { m.setZIndexOffset(1000000); //Make these appear on top of EVERYTHING } fg.addLayer(m); leg = new L.Polyline([this._latlng, newPos], { weight: 1.5, color: '#222' }); map.addLayer(leg); m._spiderLeg = leg; } this.setOpacity(0.3); group.fire('spiderfied'); }, _animationUnspiderfy: function () { this._noanimationUnspiderfy(); } } : { //Animated versions here SVG_ANIMATION: (function () { return document.createElementNS('http://www.w3.org/2000/svg', 'animate').toString().indexOf('SVGAnimate') > -1; }()), _animationSpiderfy: function (childMarkers, positions) { var me = this, group = this._group, map = group._map, fg = group._featureGroup, thisLayerPos = map.latLngToLayerPoint(this._latlng), i, m, leg, newPos; //Add markers to map hidden at our center point for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]; //If it is a marker, add it now and we'll animate it out if (m.setOpacity) { m.setZIndexOffset(1000000); //Make these appear on top of EVERYTHING m.setOpacity(0); fg.addLayer(m); m._setPos(thisLayerPos); } else { //Vectors just get immediately added fg.addLayer(m); } } group._forceLayout(); group._animationStart(); var initialLegOpacity = L.Path.SVG ? 0 : 0.3, xmlns = L.Path.SVG_NS; for (i = childMarkers.length - 1; i >= 0; i--) { newPos = map.layerPointToLatLng(positions[i]); m = childMarkers[i]; //Move marker to new position m._preSpiderfyLatlng = m._latlng; m.setLatLng(newPos); if (m.setOpacity) { m.setOpacity(1); } //Add Legs. leg = new L.Polyline([me._latlng, newPos], { weight: 1.5, color: '#222', opacity: initialLegOpacity }); map.addLayer(leg); m._spiderLeg = leg; //Following animations don't work for canvas if (!L.Path.SVG || !this.SVG_ANIMATION) { continue; } //How this works: //http://stackoverflow.com/questions/5924238/how-do-you-animate-an-svg-path-in-ios //http://dev.opera.com/articles/view/advanced-svg-animation-techniques/ //Animate length var length = leg._path.getTotalLength(); leg._path.setAttribute("stroke-dasharray", length + "," + length); var anim = document.createElementNS(xmlns, "animate"); anim.setAttribute("attributeName", "stroke-dashoffset"); anim.setAttribute("begin", "indefinite"); anim.setAttribute("from", length); anim.setAttribute("to", 0); anim.setAttribute("dur", 0.25); leg._path.appendChild(anim); anim.beginElement(); //Animate opacity anim = document.createElementNS(xmlns, "animate"); anim.setAttribute("attributeName", "stroke-opacity"); anim.setAttribute("attributeName", "stroke-opacity"); anim.setAttribute("begin", "indefinite"); anim.setAttribute("from", 0); anim.setAttribute("to", 0.5); anim.setAttribute("dur", 0.25); leg._path.appendChild(anim); anim.beginElement(); } me.setOpacity(0.3); //Set the opacity of the spiderLegs back to their correct value // The animations above override this until they complete. // If the initial opacity of the spiderlegs isn't 0 then they appear before the animation starts. if (L.Path.SVG) { this._group._forceLayout(); for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]._spiderLeg; m.options.opacity = 0.5; m._path.setAttribute('stroke-opacity', 0.5); } } setTimeout(function () { group._animationEnd(); group.fire('spiderfied'); }, 200); }, _animationUnspiderfy: function (zoomDetails) { var group = this._group, map = group._map, fg = group._featureGroup, thisLayerPos = zoomDetails ? map._latLngToNewLayerPoint(this._latlng, zoomDetails.zoom, zoomDetails.center) : map.latLngToLayerPoint(this._latlng), childMarkers = this.getAllChildMarkers(), svg = L.Path.SVG && this.SVG_ANIMATION, m, i, a; group._animationStart(); //Make us visible and bring the child markers back in this.setOpacity(1); for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]; //Marker was added to us after we were spidified if (!m._preSpiderfyLatlng) { continue; } //Fix up the location to the real one m.setLatLng(m._preSpiderfyLatlng); delete m._preSpiderfyLatlng; //Hack override the location to be our center if (m.setOpacity) { m._setPos(thisLayerPos); m.setOpacity(0); } else { fg.removeLayer(m); } //Animate the spider legs back in if (svg) { a = m._spiderLeg._path.childNodes[0]; a.setAttribute('to', a.getAttribute('from')); a.setAttribute('from', 0); a.beginElement(); a = m._spiderLeg._path.childNodes[1]; a.setAttribute('from', 0.5); a.setAttribute('to', 0); a.setAttribute('stroke-opacity', 0); a.beginElement(); m._spiderLeg._path.setAttribute('stroke-opacity', 0); } } setTimeout(function () { //If we have only <= one child left then that marker will be shown on the map so don't remove it! var stillThereChildCount = 0; for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]; if (m._spiderLeg) { stillThereChildCount++; } } for (i = childMarkers.length - 1; i >= 0; i--) { m = childMarkers[i]; if (!m._spiderLeg) { //Has already been unspiderfied continue; } if (m.setOpacity) { m.setOpacity(1); m.setZIndexOffset(0); } if (stillThereChildCount > 1) { fg.removeLayer(m); } map.removeLayer(m._spiderLeg); delete m._spiderLeg; } group._animationEnd(); }, 200); } }); L.MarkerClusterGroup.include({ //The MarkerCluster currently spiderfied (if any) _spiderfied: null, _spiderfierOnAdd: function () { this._map.on('click', this._unspiderfyWrapper, this); if (this._map.options.zoomAnimation) { this._map.on('zoomstart', this._unspiderfyZoomStart, this); } //Browsers without zoomAnimation or a big zoom don't fire zoomstart this._map.on('zoomend', this._noanimationUnspiderfy, this); if (L.Path.SVG && !L.Browser.touch) { this._map._initPathRoot(); //Needs to happen in the pageload, not after, or animations don't work in webkit // http://stackoverflow.com/questions/8455200/svg-animate-with-dynamically-added-elements //Disable on touch browsers as the animation messes up on a touch zoom and isn't very noticable } }, _spiderfierOnRemove: function () { this._map.off('click', this._unspiderfyWrapper, this); this._map.off('zoomstart', this._unspiderfyZoomStart, this); this._map.off('zoomanim', this._unspiderfyZoomAnim, this); this._unspiderfy(); //Ensure that markers are back where they should be }, //On zoom start we add a zoomanim handler so that we are guaranteed to be last (after markers are animated) //This means we can define the animation they do rather than Markers doing an animation to their actual location _unspiderfyZoomStart: function () { if (!this._map) { //May have been removed from the map by a zoomEnd handler return; } this._map.on('zoomanim', this._unspiderfyZoomAnim, this); }, _unspiderfyZoomAnim: function (zoomDetails) { //Wait until the first zoomanim after the user has finished touch-zooming before running the animation if (L.DomUtil.hasClass(this._map._mapPane, 'leaflet-touching')) { return; } this._map.off('zoomanim', this._unspiderfyZoomAnim, this); this._unspiderfy(zoomDetails); }, _unspiderfyWrapper: function () { /// _unspiderfy but passes no arguments this._unspiderfy(); }, _unspiderfy: function (zoomDetails) { if (this._spiderfied) { this._spiderfied.unspiderfy(zoomDetails); } }, _noanimationUnspiderfy: function () { if (this._spiderfied) { this._spiderfied._noanimationUnspiderfy(); } }, //If the given layer is currently being spiderfied then we unspiderfy it so it isn't on the map anymore etc _unspiderfyLayer: function (layer) { if (layer._spiderLeg) { this._featureGroup.removeLayer(layer); layer.setOpacity(1); //Position will be fixed up immediately in _animationUnspiderfy layer.setZIndexOffset(0); this._map.removeLayer(layer._spiderLeg); delete layer._spiderLeg; } } }); }(window, document));