/*!
* ui-leaflet 2.0.0 2016-10-04
* ui-leaflet - An AngularJS directive to easily interact with Leaflet maps
* git: https://github.com/angular-ui/ui-leaflet
*/
(function(angular){
'use strict';
'use strict';
angular.module('ui-leaflet', ['nemLogging']).directive('leaflet', ["$q", "leafletData", "leafletMapDefaults", "leafletHelpers", "leafletMapEvents", function ($q, leafletData, leafletMapDefaults, leafletHelpers, leafletMapEvents) {
return {
restrict: "EA",
replace: true,
scope: {
center: '=',
lfCenter: '=',
defaults: '=',
maxbounds: '=',
bounds: '=',
markers: '=',
legend: '=',
geojson: '=',
paths: '=',
tiles: '=',
layers: '=',
controls: '=',
decorations: '=',
eventBroadcast: '=',
watchOptions: '=',
id: '@'
},
transclude: true,
template: '
',
controller: ["$scope", function controller($scope) {
this._leafletMap = $q.defer();
this.getMap = function () {
return this._leafletMap.promise;
};
this.getLeafletScope = function () {
return $scope;
};
}],
link: function link(scope, element, attrs, ctrl) {
var isDefined = leafletHelpers.isDefined,
defaults = leafletMapDefaults.setDefaults(scope.defaults, attrs.id),
mapEvents = leafletMapEvents.getAvailableMapEvents(),
addEvents = leafletMapEvents.addEvents;
scope.mapId = attrs.id;
leafletData.setDirectiveControls({}, attrs.id);
// Set width and height utility functions
function updateWidth() {
if (isNaN(attrs.width)) {
element.css('width', attrs.width);
} else {
element.css('width', attrs.width + 'px');
}
}
function updateHeight() {
if (isNaN(attrs.height)) {
element.css('height', attrs.height);
} else {
element.css('height', attrs.height + 'px');
}
}
// Create the Leaflet Map Object with the options
var map = new L.Map(element[0], leafletMapDefaults.getMapCreationDefaults(attrs.id));
ctrl._leafletMap.resolve(map);
// If the width attribute defined update css
// Then watch if bound property changes and update css
if (isDefined(attrs.width)) {
updateWidth();
scope.$watch(function () {
return element[0].getAttribute('width');
}, function () {
updateWidth();
map.invalidateSize();
});
}
// If the height attribute defined update css
// Then watch if bound property changes and update css
if (isDefined(attrs.height)) {
updateHeight();
scope.$watch(function () {
return element[0].getAttribute('height');
}, function () {
updateHeight();
map.invalidateSize();
});
}
if (!isDefined(attrs.center) && !isDefined(attrs.lfCenter)) {
map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
}
// If no layers nor tiles defined, set the default tileLayer
if (!isDefined(attrs.tiles) && !isDefined(attrs.layers)) {
var tileLayerObj = L.tileLayer(defaults.tileLayer, defaults.tileLayerOptions);
tileLayerObj.addTo(map);
leafletData.setTiles(tileLayerObj, attrs.id);
}
// Set zoom control configuration
if (isDefined(map.zoomControl) && isDefined(defaults.zoomControlPosition)) {
map.zoomControl.setPosition(defaults.zoomControlPosition);
}
if (isDefined(map.zoomControl) && defaults.zoomControl === false) {
map.zoomControl.removeFrom(map);
}
if (isDefined(map.zoomsliderControl) && isDefined(defaults.zoomsliderControl) && defaults.zoomsliderControl === false) {
map.zoomsliderControl.removeFrom(map);
}
// if no event-broadcast attribute, all events are broadcasted
if (!isDefined(attrs.eventBroadcast)) {
var logic = "broadcast";
addEvents(map, attrs.id, mapEvents, "eventName", scope, logic);
}
// Resolve the map object to the promises
map.whenReady(function () {
leafletData.setMap(map, attrs.id);
});
scope.$on('$destroy', function () {
leafletMapDefaults.reset();
map.remove();
leafletData.unresolveMap(attrs.id);
});
//Handle request to invalidate the map size
//Up scope using $scope.$emit('invalidateSize')
//Down scope using $scope.$broadcast('invalidateSize')
scope.$on('invalidateSize', function () {
map.invalidateSize();
});
}
};
}]);
'use strict';
(function () {
angular.module('ui-leaflet').factory('eventManager', [function () {
var EventManager = function EventManager() {
this.listeners = {};
};
EventManager.prototype = {
addEventListener: function addEventListener(type, callback, scope) {
var args = [];
var numOfArgs = arguments.length;
for (var i = 0; i < numOfArgs; i++) {
args.push(arguments[i]);
}
args = args.length > 3 ? args.splice(3, args.length - 1) : [];
if (typeof this.listeners[type] !== "undefined") {
this.listeners[type].push({ scope: scope, callback: callback, args: args });
} else {
this.listeners[type] = [{ scope: scope, callback: callback, args: args }];
}
},
removeEventListener: function removeEventListener(type, callback, scope) {
if (typeof this.listeners[type] !== "undefined") {
var numOfCallbacks = this.listeners[type].length;
var newArray = [];
for (var i = 0; i < numOfCallbacks; i++) {
var listener = this.listeners[type][i];
if (listener.scope === scope && listener.callback === callback) {} else {
newArray.push(listener);
}
}
this.listeners[type] = newArray;
}
},
hasEventListener: function hasEventListener(type, callback, scope) {
if (typeof this.listeners[type] !== "undefined") {
var numOfCallbacks = this.listeners[type].length;
if (callback === undefined && scope === undefined) {
return numOfCallbacks > 0;
}
for (var i = 0; i < numOfCallbacks; i++) {
var listener = this.listeners[type][i];
if ((scope ? listener.scope === scope : true) && listener.callback === callback) {
return true;
}
}
}
return false;
},
dispatch: function dispatch(type, target) {
var numOfListeners = 0;
var event = {
type: type,
target: target
};
var args = [];
var numOfArgs = arguments.length;
for (var i = 0; i < numOfArgs; i++) {
args.push(arguments[i]);
}
args = args.length > 2 ? args.splice(2, args.length - 1) : [];
args = [event].concat(args);
if (typeof this.listeners[type] !== "undefined") {
var numOfCallbacks = this.listeners[type].length;
for (var x = 0; x < numOfCallbacks; x++) {
var listener = this.listeners[type][x];
if (listener && listener.callback) {
var concatArgs = args.concat(listener.args);
listener.callback.apply(listener.scope, concatArgs);
numOfListeners += 1;
}
}
}
},
getEvents: function getEvents() {
var str = "";
for (var type in this.listeners) {
var numOfCallbacks = this.listeners[type].length;
for (var i = 0; i < numOfCallbacks; i++) {
var listener = this.listeners[type][i];
str += listener.scope && listener.scope.className ? listener.scope.className : "anonymous";
str += " listen for '" + type + "'\n";
}
}
return str;
}
};
return EventManager;
}]).service('eventManager', ["EventManager", function (EventManager) {
return new EventManager();
}]);
})();
'use strict';
angular.module('ui-leaflet').factory('leafletBoundsHelpers', ["leafletLogger", "leafletHelpers", function (leafletLogger, leafletHelpers) {
var isArray = leafletHelpers.isArray,
isNumber = leafletHelpers.isNumber,
isFunction = leafletHelpers.isFunction,
isDefined = leafletHelpers.isDefined,
$log = leafletLogger;
function _isValidBounds(bounds) {
return angular.isDefined(bounds) && angular.isDefined(bounds.southWest) && angular.isDefined(bounds.northEast) && angular.isNumber(bounds.southWest.lat) && angular.isNumber(bounds.southWest.lng) && angular.isNumber(bounds.northEast.lat) && angular.isNumber(bounds.northEast.lng);
}
return {
createLeafletBounds: function createLeafletBounds(bounds) {
if (_isValidBounds(bounds)) {
return L.latLngBounds([bounds.southWest.lat, bounds.southWest.lng], [bounds.northEast.lat, bounds.northEast.lng]);
}
},
isValidBounds: _isValidBounds,
createBoundsFromArray: function createBoundsFromArray(boundsArray) {
if (!(isArray(boundsArray) && boundsArray.length === 2 && isArray(boundsArray[0]) && isArray(boundsArray[1]) && boundsArray[0].length === 2 && boundsArray[1].length === 2 && isNumber(boundsArray[0][0]) && isNumber(boundsArray[0][1]) && isNumber(boundsArray[1][0]) && isNumber(boundsArray[1][1]))) {
$log.error("[AngularJS - Leaflet] The bounds array is not valid.");
return;
}
return {
northEast: {
lat: boundsArray[0][0],
lng: boundsArray[0][1]
},
southWest: {
lat: boundsArray[1][0],
lng: boundsArray[1][1]
}
};
},
createBoundsFromLeaflet: function createBoundsFromLeaflet(lfBounds) {
if (!(isDefined(lfBounds) && isFunction(lfBounds.getNorthEast) && isFunction(lfBounds.getSouthWest))) {
$log.error("[AngularJS - Leaflet] The leaflet bounds is not valid object.");
return;
}
var northEast = lfBounds.getNorthEast(),
southWest = lfBounds.getSouthWest();
return {
northEast: {
lat: northEast.lat,
lng: northEast.lng
},
southWest: {
lat: southWest.lat,
lng: southWest.lng
}
};
}
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletControlHelpers', ["$rootScope", "leafletLogger", "leafletHelpers", "leafletLayerHelpers", "leafletMapDefaults", function ($rootScope, leafletLogger, leafletHelpers, leafletLayerHelpers, leafletMapDefaults) {
var isDefined = leafletHelpers.isDefined,
isObject = leafletHelpers.isObject,
createLayer = leafletLayerHelpers.createLayer,
_controls = {},
errorHeader = leafletHelpers.errorHeader + ' [Controls] ',
$log = leafletLogger;
var _controlLayersMustBeVisible = function _controlLayersMustBeVisible(baselayers, overlays, mapId) {
var defaults = leafletMapDefaults.getDefaults(mapId);
if (!defaults.controls.layers.visible) {
return false;
}
var atLeastOneControlItemMustBeShown = false;
if (isObject(baselayers)) {
Object.keys(baselayers).forEach(function (key) {
var layer = baselayers[key];
if (!isDefined(layer.layerOptions) || layer.layerOptions.showOnSelector !== false) {
atLeastOneControlItemMustBeShown = true;
}
});
}
if (isObject(overlays)) {
Object.keys(overlays).forEach(function (key) {
var layer = overlays[key];
if (!isDefined(layer.layerParams) || layer.layerParams.showOnSelector !== false) {
atLeastOneControlItemMustBeShown = true;
}
});
}
return atLeastOneControlItemMustBeShown;
};
var _createLayersControl = function _createLayersControl(mapId) {
var defaults = leafletMapDefaults.getDefaults(mapId);
var controlOptions = {
collapsed: defaults.controls.layers.collapsed,
position: defaults.controls.layers.position,
autoZIndex: false
};
angular.extend(controlOptions, defaults.controls.layers.options);
var control;
if (defaults.controls.layers && isDefined(defaults.controls.layers.control)) {
control = defaults.controls.layers.control.apply(this, [[], [], controlOptions]);
} else {
control = new L.control.layers([], [], controlOptions);
}
return control;
};
var controlTypes = {
draw: {
isPluginLoaded: function isPluginLoaded() {
if (!angular.isDefined(L.Control.Draw)) {
$log.error(errorHeader + ' Draw plugin is not loaded.');
return false;
}
return true;
},
checkValidParams: function checkValidParams() /* params */{
return true;
},
createControl: function createControl(params) {
return new L.Control.Draw(params);
}
},
scale: {
isPluginLoaded: function isPluginLoaded() {
return true;
},
checkValidParams: function checkValidParams() /* params */{
return true;
},
createControl: function createControl(params) {
return new L.control.scale(params);
}
},
fullscreen: {
isPluginLoaded: function isPluginLoaded() {
if (!angular.isDefined(L.Control.Fullscreen)) {
$log.error(errorHeader + ' Fullscreen plugin is not loaded.');
return false;
}
return true;
},
checkValidParams: function checkValidParams() /* params */{
return true;
},
createControl: function createControl(params) {
return new L.Control.Fullscreen(params);
}
},
search: {
isPluginLoaded: function isPluginLoaded() {
if (!angular.isDefined(L.Control.Search)) {
$log.error(errorHeader + ' Search plugin is not loaded.');
return false;
}
return true;
},
checkValidParams: function checkValidParams() /* params */{
return true;
},
createControl: function createControl(params) {
return new L.Control.Search(params);
}
},
custom: {},
minimap: {
isPluginLoaded: function isPluginLoaded() {
if (!angular.isDefined(L.Control.MiniMap)) {
$log.error(errorHeader + ' Minimap plugin is not loaded.');
return false;
}
return true;
},
checkValidParams: function checkValidParams(params) {
if (!isDefined(params.layer)) {
$log.warn(errorHeader + ' minimap "layer" option should be defined.');
return false;
}
return true;
},
createControl: function createControl(params) {
var layer = createLayer(params.layer);
if (!isDefined(layer)) {
$log.warn(errorHeader + ' minimap control "layer" could not be created.');
return;
}
return new L.Control.MiniMap(layer, params);
}
}
};
return {
layersControlMustBeVisible: _controlLayersMustBeVisible,
isValidControlType: function isValidControlType(type) {
return Object.keys(controlTypes).indexOf(type) !== -1;
},
createControl: function createControl(type, params) {
if (!controlTypes[type].checkValidParams(params)) {
return;
}
return controlTypes[type].createControl(params);
},
updateLayersControl: function updateLayersControl(map, mapId, loaded, baselayers, overlays, leafletLayers) {
var i;
var _layersControl = _controls[mapId];
var mustBeLoaded = _controlLayersMustBeVisible(baselayers, overlays, mapId);
if (isDefined(_layersControl) && loaded) {
for (i in leafletLayers.baselayers) {
_layersControl.removeLayer(leafletLayers.baselayers[i]);
}
for (i in leafletLayers.overlays) {
_layersControl.removeLayer(leafletLayers.overlays[i]);
}
map.removeControl(_layersControl);
delete _controls[mapId];
}
if (mustBeLoaded) {
_layersControl = _createLayersControl(mapId);
_controls[mapId] = _layersControl;
for (i in baselayers) {
var hideOnSelector = isDefined(baselayers[i].layerOptions) && baselayers[i].layerOptions.showOnSelector === false;
if (!hideOnSelector && isDefined(leafletLayers.baselayers[i])) {
_layersControl.addBaseLayer(leafletLayers.baselayers[i], baselayers[i].name);
}
}
for (i in overlays) {
var hideOverlayOnSelector = isDefined(overlays[i].layerParams) && overlays[i].layerParams.showOnSelector === false;
if (!hideOverlayOnSelector && isDefined(leafletLayers.overlays[i])) {
_layersControl.addOverlay(leafletLayers.overlays[i], overlays[i].name);
}
}
map.addControl(_layersControl);
}
return mustBeLoaded;
},
destroyMapLayersControl: function destroyMapLayersControl(mapId) {
delete _controls[mapId];
}
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletData', ["leafletLogger", "$q", "leafletHelpers", function (leafletLogger, $q, leafletHelpers) {
var getDefer = leafletHelpers.getDefer,
getUnresolvedDefer = leafletHelpers.getUnresolvedDefer,
setResolvedDefer = leafletHelpers.setResolvedDefer;
// $log = leafletLogger;
var _private = {};
var self = this;
var upperFirst = function upperFirst(string) {
return string.charAt(0).toUpperCase() + string.slice(1);
};
var _privateItems = ['map', 'tiles', 'layers', 'paths', 'markers', 'geoJSON', 'UTFGrid', //odd ball on naming convention keeping to not break
'decorations', 'directiveControls'];
//init
_privateItems.forEach(function (itemName) {
_private[itemName] = {};
});
this.unresolveMap = function (scopeId) {
var id = leafletHelpers.obtainEffectiveMapId(_private.map, scopeId);
_privateItems.forEach(function (itemName) {
_private[itemName][id] = undefined;
});
};
//int repetitive stuff (get and sets)
_privateItems.forEach(function (itemName) {
var name = upperFirst(itemName);
self['set' + name] = function (lObject, scopeId) {
var defer = getUnresolvedDefer(_private[itemName], scopeId);
defer.resolve(lObject);
setResolvedDefer(_private[itemName], scopeId);
};
self['get' + name] = function (scopeId) {
var defer = getDefer(_private[itemName], scopeId);
return defer.promise;
};
});
}]);
'use strict';
angular.module('ui-leaflet').service('leafletDirectiveControlsHelpers', ["leafletLogger", "leafletData", "leafletHelpers", function (leafletLogger, leafletData, leafletHelpers) {
var _isDefined = leafletHelpers.isDefined,
_isString = leafletHelpers.isString,
_isObject = leafletHelpers.isObject,
_mainErrorHeader = leafletHelpers.errorHeader,
$log = leafletLogger;
var _errorHeader = _mainErrorHeader + '[leafletDirectiveControlsHelpers';
var _extend = function _extend(id, thingToAddName, createFn, cleanFn) {
var _fnHeader = _errorHeader + '.extend] ';
var extender = {};
if (!_isDefined(thingToAddName)) {
$log.error(_fnHeader + 'thingToAddName cannot be undefined');
return;
}
if (_isString(thingToAddName) && _isDefined(createFn) && _isDefined(cleanFn)) {
extender[thingToAddName] = {
create: createFn,
clean: cleanFn
};
} else if (_isObject(thingToAddName) && !_isDefined(createFn) && !_isDefined(cleanFn)) {
extender = thingToAddName;
} else {
$log.error(_fnHeader + 'incorrect arguments');
return;
}
//add external control to create / destroy markers without a watch
leafletData.getDirectiveControls().then(function (controls) {
angular.extend(controls, extender);
leafletData.setDirectiveControls(controls, id);
});
};
return {
extend: _extend
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletGeoJsonHelpers', ["leafletHelpers", "leafletIterators", function (leafletHelpers, leafletIterators) {
var lHlp = leafletHelpers,
lIt = leafletIterators;
var Point = function Point(lat, lng) {
this.lat = lat;
this.lng = lng;
return this;
};
var _getLat = function _getLat(value) {
if (Array.isArray(value) && value.length === 2) {
return value[1];
} else if (lHlp.isDefined(value.type) && value.type === 'Point') {
return +value.coordinates[1];
} else {
return +value.lat;
}
};
var _getLng = function _getLng(value) {
if (Array.isArray(value) && value.length === 2) {
return value[0];
} else if (lHlp.isDefined(value.type) && value.type === 'Point') {
return +value.coordinates[0];
} else {
return +value.lng;
}
};
var _validateCoords = function _validateCoords(coords) {
if (lHlp.isUndefined(coords)) {
return false;
}
if (lHlp.isArray(coords)) {
if (coords.length === 2 && lHlp.isNumber(coords[0]) && lHlp.isNumber(coords[1])) {
return true;
}
} else if (lHlp.isDefined(coords.type)) {
if (coords.type === 'Point' && lHlp.isArray(coords.coordinates) && coords.coordinates.length === 2 && lHlp.isNumber(coords.coordinates[0]) && lHlp.isNumber(coords.coordinates[1])) {
return true;
}
}
var ret = lIt.all(['lat', 'lng'], function (pos) {
return lHlp.isDefined(coords[pos]) && lHlp.isNumber(coords[pos]);
});
return ret;
};
var _getCoords = function _getCoords(value) {
if (!value || !_validateCoords(value)) {
return;
}
var p = null;
if (Array.isArray(value) && value.length === 2) {
p = new Point(value[1], value[0]);
} else if (lHlp.isDefined(value.type) && value.type === 'Point') {
p = new Point(value.coordinates[1], value.coordinates[0]);
} else {
return value;
}
//note angular.merge is avail in angular 1.4.X we might want to fill it here
return angular.extend(value, p); //tap on lat, lng if it doesnt exist
};
return {
getLat: _getLat,
getLng: _getLng,
validateCoords: _validateCoords,
getCoords: _getCoords
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletHelpers', ["$q", "$log", "$timeout", function ($q, $log, $timeout) {
var _errorHeader = '[ui-leaflet] ';
var _copy = angular.copy;
var _clone = _copy;
/*
For parsing paths to a field in an object
Example:
var obj = {
bike:{
1: 'hi'
2: 'foo'
}
};
_getObjectValue(obj,"bike.1") returns 'hi'
this is getPath in ui-gmap
*/
var _getObjectValue = function _getObjectValue(object, pathStr) {
var obj;
if (!object || !angular.isObject(object)) return;
//if the key is not a sting then we already have the value
if (pathStr === null || !angular.isString(pathStr)) {
return pathStr;
}
obj = object;
pathStr.split('.').forEach(function (value) {
if (obj) {
obj = obj[value];
}
});
return obj;
};
/*
Object Array Notation
_getObjectArrayPath("bike.one.two")
returns:
'bike["one"]["two"]'
*/
var _getObjectArrayPath = function _getObjectArrayPath(pathStr) {
return pathStr.split('.').reduce(function (previous, current) {
return previous + '["' + current + '"]';
});
};
/* Object Dot Notation
_getObjectPath(["bike","one","two"])
returns:
"bike.one.two"
*/
var _getObjectDotPath = function _getObjectDotPath(arrayOfStrings) {
return arrayOfStrings.reduce(function (previous, current) {
return previous + '.' + current;
});
};
function _obtainEffectiveMapId(d, mapId) {
var id, i;
if (!angular.isDefined(mapId)) {
if (Object.keys(d).length === 0) {
id = "main";
} else if (Object.keys(d).length >= 1) {
for (i in d) {
if (d.hasOwnProperty(i)) {
id = i;
}
}
} else {
$log.error(_errorHeader + "- You have more than 1 map on the DOM, you must provide the map ID to the leafletData.getXXX call");
}
} else {
id = mapId;
}
return id;
}
function _getUnresolvedDefer(d, mapId) {
var id = _obtainEffectiveMapId(d, mapId),
defer;
if (!angular.isDefined(d[id]) || d[id].resolvedDefer === true) {
defer = $q.defer();
d[id] = {
defer: defer,
resolvedDefer: false
};
} else {
defer = d[id].defer;
}
return defer;
}
var _isDefined = function _isDefined(value) {
return angular.isDefined(value) && value !== null;
};
var _isUndefined = function _isUndefined(value) {
return !_isDefined(value);
};
// BEGIN DIRECT PORT FROM AngularJS code base
var SPECIAL_CHARS_REGEXP = /([\:\-\_]+(.))/g;
var MOZ_HACK_REGEXP = /^moz([A-Z])/;
var PREFIX_REGEXP = /^((?:x|data)[\:\-_])/i;
/**
Converts snake_case to camelCase.
Also there is special case for Moz prefix starting with upper case letter.
@param name Name to normalize
*/
var camelCase = function camelCase(name) {
return name.replace(SPECIAL_CHARS_REGEXP, function (_, separator, letter, offset) {
if (offset) {
return letter.toUpperCase();
} else {
return letter;
}
}).replace(MOZ_HACK_REGEXP, "Moz$1");
};
/**
Converts all accepted directives format into proper directive name.
@param name Name to normalize
*/
var directiveNormalize = function directiveNormalize(name) {
return camelCase(name.replace(PREFIX_REGEXP, ""));
};
// END AngularJS port
var _watchTrapDelayMilliSec = 10;
var _modelChangeInDirective = function _modelChangeInDirective(trapObj, trapField, cbToExec) {
if (!trapObj) throw new Error(_errorHeader + 'trapObj is undefined');
if (!trapField) throw new Error(_errorHeader + 'trapField is undefined');
trapObj[trapField] = true;
var ret = cbToExec();
$timeout(function () {
trapObj[trapField] = false;
}, _watchTrapDelayMilliSec);
return ret;
};
return {
watchTrapDelayMilliSec: _watchTrapDelayMilliSec,
modelChangeInDirective: _modelChangeInDirective,
camelCase: camelCase,
directiveNormalize: directiveNormalize,
copy: _copy,
clone: _clone,
errorHeader: _errorHeader,
getObjectValue: _getObjectValue,
getObjectArrayPath: _getObjectArrayPath,
getObjectDotPath: _getObjectDotPath,
defaultTo: function defaultTo(val, _default) {
return _isDefined(val) ? val : _default;
},
//mainly for checking attributes of directives lets keep this minimal (on what we accept)
isTruthy: function isTruthy(val) {
return val === 'true' || val === true;
},
//Determine if a reference is {}
isEmpty: function isEmpty(value) {
return Object.keys(value).length === 0;
},
//Determine if a reference is undefined or {}
isUndefinedOrEmpty: function isUndefinedOrEmpty(value) {
return angular.isUndefined(value) || value === null || Object.keys(value).length === 0;
},
// Determine if a reference is defined
isDefined: _isDefined,
isUndefined: _isUndefined,
isNumber: angular.isNumber,
isString: angular.isString,
isArray: angular.isArray,
isObject: angular.isObject,
isFunction: angular.isFunction,
equals: angular.equals,
isValidCenter: function isValidCenter(center) {
return angular.isDefined(center) && angular.isNumber(center.lat) && angular.isNumber(center.lng) && angular.isNumber(center.zoom);
},
isValidPoint: function isValidPoint(point) {
if (!angular.isDefined(point)) {
return false;
}
if (angular.isArray(point)) {
return point.length === 2 && angular.isNumber(point[0]) && angular.isNumber(point[1]);
}
return angular.isNumber(point.lat) && angular.isNumber(point.lng);
},
isSameCenterOnMap: function isSameCenterOnMap(centerModel, map) {
var mapCenter = map.getCenter();
var zoom = map.getZoom();
if (centerModel.lat && centerModel.lng && mapCenter.lat.toFixed(4) === centerModel.lat.toFixed(4) && mapCenter.lng.toFixed(4) === centerModel.lng.toFixed(4) && zoom === centerModel.zoom) {
return true;
}
return false;
},
safeApply: function safeApply($scope, fn) {
var phase = $scope.$root.$$phase;
if (phase === '$apply' || phase === '$digest') {
$scope.$eval(fn);
} else {
$scope.$evalAsync(fn);
}
},
obtainEffectiveMapId: _obtainEffectiveMapId,
getDefer: function getDefer(d, mapId) {
var id = _obtainEffectiveMapId(d, mapId),
defer;
if (!angular.isDefined(d[id]) || d[id].resolvedDefer === false) {
defer = _getUnresolvedDefer(d, mapId);
} else {
defer = d[id].defer;
}
return defer;
},
getUnresolvedDefer: _getUnresolvedDefer,
setResolvedDefer: function setResolvedDefer(d, mapId) {
var id = _obtainEffectiveMapId(d, mapId);
d[id].resolvedDefer = true;
},
rangeIsSupported: function rangeIsSupported() {
var testrange = document.createElement('input');
testrange.setAttribute('type', 'range');
return testrange.type === 'range';
},
FullScreenControlPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.Control.Fullscreen);
}
},
MiniMapControlPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.Control.MiniMap);
}
},
AwesomeMarkersPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.AwesomeMarkers) && angular.isDefined(L.AwesomeMarkers.Icon);
},
is: function is(icon) {
if (this.isLoaded()) {
return icon instanceof L.AwesomeMarkers.Icon;
} else {
return false;
}
},
equal: function equal(iconA, iconB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
VectorMarkersPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.VectorMarkers) && angular.isDefined(L.VectorMarkers.Icon);
},
is: function is(icon) {
if (this.isLoaded()) {
return icon instanceof L.VectorMarkers.Icon;
} else {
return false;
}
},
equal: function equal(iconA, iconB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
DomMarkersPlugin: {
isLoaded: function isLoaded() {
if (angular.isDefined(L.DomMarkers) && angular.isDefined(L.DomMarkers.Icon)) {
return true;
} else {
return false;
}
},
is: function is(icon) {
if (this.isLoaded()) {
return icon instanceof L.DomMarkers.Icon;
} else {
return false;
}
},
equal: function equal(iconA, iconB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
PolylineDecoratorPlugin: {
isLoaded: function isLoaded() {
if (angular.isDefined(L.PolylineDecorator)) {
return true;
} else {
return false;
}
},
is: function is(decoration) {
if (this.isLoaded()) {
return decoration instanceof L.PolylineDecorator;
} else {
return false;
}
},
equal: function equal(decorationA, decorationB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(decorationA)) {
return angular.equals(decorationA, decorationB);
} else {
return false;
}
}
},
MakiMarkersPlugin: {
isLoaded: function isLoaded() {
if (angular.isDefined(L.MakiMarkers) && angular.isDefined(L.MakiMarkers.Icon)) {
return true;
} else {
return false;
}
},
is: function is(icon) {
if (this.isLoaded()) {
return icon instanceof L.MakiMarkers.Icon;
} else {
return false;
}
},
equal: function equal(iconA, iconB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
ExtraMarkersPlugin: {
isLoaded: function isLoaded() {
if (angular.isDefined(L.ExtraMarkers) && angular.isDefined(L.ExtraMarkers.Icon)) {
return true;
} else {
return false;
}
},
is: function is(icon) {
if (this.isLoaded()) {
return icon instanceof L.ExtraMarkers.Icon;
} else {
return false;
}
},
equal: function equal(iconA, iconB) {
if (!this.isLoaded()) {
return false;
}
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
LabelPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.Label);
},
is: function is(layer) {
if (this.isLoaded()) {
return layer instanceof L.MarkerClusterGroup;
} else {
return false;
}
}
},
MarkerClusterPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.MarkerClusterGroup);
},
is: function is(layer) {
if (this.isLoaded()) {
return layer instanceof L.MarkerClusterGroup;
} else {
return false;
}
}
},
GeoJSONPlugin: {
isLoaded: function isLoaded() {
return angular.isDefined(L.TileLayer.GeoJSON);
},
is: function is(layer) {
if (this.isLoaded()) {
return layer instanceof L.TileLayer.GeoJSON;
} else {
return false;
}
}
},
CartoDB: {
isLoaded: function isLoaded() {
return cartodb;
},
is: function is() /*layer*/{
return true;
/*
if (this.isLoaded()) {
return layer instanceof L.TileLayer.GeoJSON;
} else {
return false;
}*/
}
},
Leaflet: {
DivIcon: {
is: function is(icon) {
return icon instanceof L.DivIcon;
},
equal: function equal(iconA, iconB) {
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
},
Icon: {
is: function is(icon) {
return icon instanceof L.Icon;
},
equal: function equal(iconA, iconB) {
if (this.is(iconA)) {
return angular.equals(iconA, iconB);
} else {
return false;
}
}
}
},
/*
watchOptions - object to set deep nested watches and turn off watches all together
(rely on control / functional updates)
watchOptions - Object
type: string. //One of ['watch', 'watchCollection', 'watchDeep', null]
individual
type: string
*/
//legacy defaults
watchOptions: {
type: 'watchDeep',
individual: {
type: 'watchDeep'
}
}
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletIterators', ["leafletLogger", "leafletHelpers", function (leafletLogger, leafletHelpers) {
var lHlp = leafletHelpers,
errorHeader = leafletHelpers.errorHeader + 'leafletIterators: ';
//BEGIN COPY from underscore
var _keys = Object.keys;
var _isFunction = lHlp.isFunction;
var _isObject = lHlp.isObject;
var $log = leafletLogger;
// Helper for collection methods to determine whether a collection
// should be iterated as an array or as an object
// Related: http://people.mozilla.org/~jorendorff/es6-draft.html#sec-tolength
var MAX_ARRAY_INDEX = Math.pow(2, 53) - 1;
var _isArrayLike = function _isArrayLike(collection) {
var length = collection !== null && collection.length;
return lHlp.isNumber(length) && length >= 0 && length <= MAX_ARRAY_INDEX;
};
// Keep the identity function around for default iteratees.
var _identity = function _identity(value) {
return value;
};
var _property = function _property(key) {
return function (obj) {
return obj === null ? void 0 : obj[key];
};
};
// Internal function that returns an efficient (for current engines) version
// of the passed-in callback, to be repeatedly applied in other Underscore
// functions.
var optimizeCb = function optimizeCb(func, context, argCount) {
if (context === void 0) return func;
switch (argCount === null ? 3 : argCount) {
case 1:
return function (value) {
return func.call(context, value);
};
case 2:
return function (value, other) {
return func.call(context, value, other);
};
case 3:
return function (value, index, collection) {
return func.call(context, value, index, collection);
};
case 4:
return function (accumulator, value, index, collection) {
return func.call(context, accumulator, value, index, collection);
};
}
return function () {
return func.apply(context, arguments);
};
};
// An internal function for creating assigner functions.
var createAssigner = function createAssigner(keysFunc, undefinedOnly) {
return function (obj) {
var length = arguments.length;
if (length < 2 || obj === null) return obj;
for (var index = 1; index < length; index++) {
var source = arguments[index],
keys = keysFunc(source),
l = keys.length;
for (var i = 0; i < l; i++) {
var key = keys[i];
if (!undefinedOnly || obj[key] === void 0) obj[key] = source[key];
}
}
return obj;
};
};
// Assigns a given object with all the own properties in the passed-in object(s)
// (https://developer.mozilla.org/docs/Web/JavaScript/Reference/Global_Objects/Object/assign)
var _extendOwn,
_assign = null;
_extendOwn = _assign = createAssigner(_keys);
// Returns whether an object has a given set of `key:value` pairs.
var _isMatch = function _isMatch(object, attrs) {
var keys = _keys(attrs),
length = keys.length;
if (object === null) return !length;
var obj = Object(object);
for (var i = 0; i < length; i++) {
var key = keys[i];
if (attrs[key] !== obj[key] || !(key in obj)) return false;
}
return true;
};
// Returns a predicate for checking whether an object has a given set of
// `key:value` pairs.
var _matcher,
_matches = null;
_matcher = _matches = function _matches(attrs) {
attrs = _extendOwn({}, attrs);
return function (obj) {
return _isMatch(obj, attrs);
};
};
// A mostly-internal function to generate callbacks that can be applied
// to each element in a collection, returning the desired result — either
// identity, an arbitrary callback, a property matcher, or a property accessor.
var cb = function cb(value, context, argCount) {
if (value === null) return _identity;
if (_isFunction(value)) return optimizeCb(value, context, argCount);
if (_isObject(value)) return _matcher(value);
return _property(value);
};
var _every,
_all = null;
_every = _all = function _all(obj, predicate, context) {
predicate = cb(predicate, context);
var keys = !_isArrayLike(obj) && _keys(obj),
length = (keys || obj).length;
for (var index = 0; index < length; index++) {
var currentKey = keys ? keys[index] : index;
if (!predicate(obj[currentKey], currentKey, obj)) return false;
}
return true;
};
//END COPY fron underscore
var _hasErrors = function _hasErrors(collection, cb, ignoreCollection, cbName) {
if (!ignoreCollection) {
if (!lHlp.isDefined(collection) || !lHlp.isDefined(cb)) {
return true;
}
}
if (!lHlp.isFunction(cb)) {
cbName = lHlp.defaultTo(cb, 'cb');
$log.error(errorHeader + cbName + ' is not a function');
return true;
}
return false;
};
var _iterate = function _iterate(collection, externalCb, internalCb) {
if (_hasErrors(undefined, internalCb, true, 'internalCb')) {
return;
}
if (!_hasErrors(collection, externalCb)) {
for (var key in collection) {
if (collection.hasOwnProperty(key)) {
internalCb(collection[key], key);
}
}
}
};
//see http://jsperf.com/iterators/3
//utilizing for in is way faster
var _each = function _each(collection, cb) {
_iterate(collection, cb, function (val, key) {
cb(val, key);
});
};
return {
each: _each,
forEach: _each,
every: _every,
all: _all
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletLayerHelpers', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletIterators", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletIterators) {
var Helpers = leafletHelpers;
var isString = leafletHelpers.isString;
var isObject = leafletHelpers.isObject;
var isArray = leafletHelpers.isArray;
var isDefined = leafletHelpers.isDefined;
var errorHeader = leafletHelpers.errorHeader;
var $it = leafletIterators;
var $log = leafletLogger;
var utfGridCreateLayer = function utfGridCreateLayer(params) {
if (!Helpers.UTFGridPlugin.isLoaded()) {
$log.error('[AngularJS - Leaflet] The UTFGrid plugin is not loaded.');
return;
}
var utfgrid = new L.UtfGrid(params.url, params.pluginOptions);
var toSend = {
model: params.$parent
};
// TODO Use event manager
utfgrid.on('mouseover', function (e) {
angular.extend(toSend, {
leafletEvent: e,
leafletObject: e.target
});
$rootScope.$broadcast('leafletDirectiveMap.utfgridMouseover', toSend);
});
utfgrid.on('mouseout', function (e) {
angular.extend(toSend, {
leafletEvent: e,
leafletObject: e.target
});
$rootScope.$broadcast('leafletDirectiveMap.utfgridMouseout', toSend);
});
utfgrid.on('click', function (e) {
angular.extend(toSend, {
leafletEvent: e,
leafletObject: e.target
});
$rootScope.$broadcast('leafletDirectiveMap.utfgridClick', toSend);
});
utfgrid.on('mousemove', function (e) {
angular.extend(toSend, {
leafletEvent: e,
leafletObject: e.target
});
$rootScope.$broadcast('leafletDirectiveMap.utfgridMousemove', toSend);
});
return utfgrid;
};
var layerTypes = {
xyz: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
return L.tileLayer(params.url, params.options);
}
},
geoJSON: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
if (!Helpers.GeoJSONPlugin.isLoaded()) {
return;
}
return new L.TileLayer.GeoJSON(params.url, params.pluginOptions, params.options);
}
},
geoJSONShape: {
mustHaveUrl: false,
createLayer: function createLayer(params) {
return new L.GeoJSON(params.data, params.options);
}
},
geoJSONAwesomeMarker: {
mustHaveUrl: false,
createLayer: function createLayer(params) {
return new L.geoJson(params.data, {
pointToLayer: function pointToLayer(feature, latlng) {
return L.marker(latlng, { icon: L.AwesomeMarkers.icon(params.icon) });
}
});
}
},
geoJSONVectorMarker: {
mustHaveUrl: false,
createLayer: function createLayer(params) {
return new L.geoJson(params.data, {
pointToLayer: function pointToLayer(feature, latlng) {
return L.marker(latlng, { icon: L.VectorMarkers.icon(params.icon) });
}
});
}
},
cartodbTiles: {
mustHaveKey: true,
createLayer: function createLayer(params) {
var url = isDefined(params.url) ? params.url + '/' + params.user : '//' + params.user + '.cartodb.com';
url += '/api/v1/map/' + params.key + '/{z}/{x}/{y}.png';
return L.tileLayer(url, params.options);
}
},
cartodbUTFGrid: {
mustHaveKey: true,
mustHaveLayer: true,
createLayer: function createLayer(params) {
var url = isDefined(params.url) ? params.url + '/' + params.user : '//' + params.user + '.cartodb.com';
params.url = url + '/api/v1/map/' + params.key + '/' + params.layer + '/{z}/{x}/{y}.grid.json';
return utfGridCreateLayer(params);
}
},
cartodbInteractive: {
mustHaveKey: true,
mustHaveLayer: true,
createLayer: function createLayer(params) {
var url = isDefined(params.url) ? params.url + '/' + params.user : '//' + params.user + '.cartodb.com';
var tilesURL = url + '/api/v1/map/' + params.key + '/{z}/{x}/{y}.png';
var tileLayer = L.tileLayer(tilesURL, params.options);
var layers = [tileLayer];
var addUtfLayer = function addUtfLayer(parent, params, layer) {
var paramsCopy = angular.copy(params);
paramsCopy.url = url + '/api/v1/map/' + paramsCopy.key + '/' + layer + '/{z}/{x}/{y}.grid.json';
parent.push(utfGridCreateLayer(paramsCopy));
};
if (isArray(params.layer)) {
for (var i = 0; i < params.layer.length; i++) {
addUtfLayer(layers, params, params.layer[i]);
}
} else {
addUtfLayer(layers, params, params.layer);
}
return L.layerGroup(layers);
}
},
wms: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
return L.tileLayer.wms(params.url, params.options);
}
},
wmts: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
return L.tileLayer.wmts(params.url, params.options);
}
},
group: {
mustHaveUrl: false,
createLayer: function createLayer(params) {
var lyrs = [];
$it.each(params.options.layers, function (l) {
lyrs.push(_createLayer(l));
});
params.options.loadedDefer = function () {
var defers = [];
if (isDefined(params.options.layers)) {
for (var i = 0; i < params.options.layers.length; i++) {
var d = params.options.layers[i].layerOptions.loadedDefer;
if (isDefined(d)) {
defers.push(d);
}
}
}
return defers;
};
return L.layerGroup(lyrs);
}
},
featureGroup: {
mustHaveUrl: false,
createLayer: function createLayer() {
return L.featureGroup();
}
},
markercluster: {
mustHaveUrl: false,
createLayer: function createLayer(params) {
if (!Helpers.MarkerClusterPlugin.isLoaded()) {
$log.warn(errorHeader + ' The markercluster plugin is not loaded.');
return;
}
return new L.MarkerClusterGroup(params.options);
}
},
imageOverlay: {
mustHaveUrl: true,
mustHaveBounds: true,
createLayer: function createLayer(params) {
return L.imageOverlay(params.url, params.bounds, params.options);
}
},
iip: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
return L.tileLayer.iip(params.url, params.options);
}
},
// This "custom" type is used to accept every layer that user want to define himself.
// We can wrap these custom layers like heatmap or yandex, but it means a lot of work/code to wrap the world,
// so we let user to define their own layer outside the directive,
// and pass it on "createLayer" result for next processes
custom: {
createLayer: function createLayer(params) {
if (params.layer instanceof L.Class) {
return angular.copy(params.layer);
} else {
$log.error('[AngularJS - Leaflet] A custom layer must be a leaflet Class');
}
}
},
cartodb: {
mustHaveUrl: true,
createLayer: function createLayer(params) {
return cartodb.createLayer(params.map, params.url);
}
}
};
function isValidLayerType(layerDefinition) {
// Check if the baselayer has a valid type
if (!isString(layerDefinition.type)) {
$log.error('[AngularJS - Leaflet] A layer must have a valid type defined.');
return false;
}
if (Object.keys(layerTypes).indexOf(layerDefinition.type) === -1) {
$log.error('[AngularJS - Leaflet] A layer must have a valid type: ' + Object.keys(layerTypes));
return false;
}
// Check if the layer must have an URL
if (layerTypes[layerDefinition.type].mustHaveUrl && !isString(layerDefinition.url)) {
$log.error('[AngularJS - Leaflet] A base layer must have an url');
return false;
}
if (layerTypes[layerDefinition.type].mustHaveData && !isDefined(layerDefinition.data)) {
$log.error('[AngularJS - Leaflet] The base layer must have a "data" array attribute');
return false;
}
if (layerTypes[layerDefinition.type].mustHaveLayer && !isDefined(layerDefinition.layer)) {
$log.error('[AngularJS - Leaflet] The type of layer ' + layerDefinition.type + ' must have an layer defined');
return false;
}
if (layerTypes[layerDefinition.type].mustHaveBounds && !isDefined(layerDefinition.bounds)) {
$log.error('[AngularJS - Leaflet] The type of layer ' + layerDefinition.type + ' must have bounds defined');
return false;
}
if (layerTypes[layerDefinition.type].mustHaveKey && !isDefined(layerDefinition.key)) {
$log.error('[AngularJS - Leaflet] The type of layer ' + layerDefinition.type + ' must have key defined');
return false;
}
return true;
}
function _createLayer(layerDefinition) {
if (!isValidLayerType(layerDefinition)) {
return;
}
if (!isString(layerDefinition.name)) {
$log.error('[AngularJS - Leaflet] A base layer must have a name');
return;
}
if (!isObject(layerDefinition.layerParams)) {
layerDefinition.layerParams = {};
}
if (!isObject(layerDefinition.layerOptions)) {
layerDefinition.layerOptions = {};
}
// Mix the layer specific parameters with the general Leaflet options. Although this is an overhead
// the definition of a base layers is more 'clean' if the two types of parameters are differentiated
for (var attrname in layerDefinition.layerParams) {
layerDefinition.layerOptions[attrname] = layerDefinition.layerParams[attrname];
}
var params = {
url: layerDefinition.url,
data: layerDefinition.data,
options: layerDefinition.layerOptions,
layer: layerDefinition.layer,
icon: layerDefinition.icon,
type: layerDefinition.layerType,
bounds: layerDefinition.bounds,
key: layerDefinition.key,
apiKey: layerDefinition.apiKey,
pluginOptions: layerDefinition.pluginOptions,
user: layerDefinition.user,
$parent: layerDefinition
};
//TODO Add $watch to the layer properties
return layerTypes[layerDefinition.type].createLayer(params);
}
function safeAddLayer(map, layer) {
if (layer && typeof layer.addTo === 'function') {
layer.addTo(map);
} else {
map.addLayer(layer);
}
}
function safeRemoveLayer(map, layer, layerOptions) {
if (isDefined(layerOptions) && isDefined(layerOptions.loadedDefer)) {
if (angular.isFunction(layerOptions.loadedDefer)) {
var defers = layerOptions.loadedDefer();
$log.debug('Loaded Deferred', defers);
var count = defers.length;
if (count > 0) {
var resolve = function resolve() {
count--;
if (count === 0) {
map.removeLayer(layer);
}
};
for (var i = 0; i < defers.length; i++) {
defers[i].promise.then(resolve);
}
} else {
map.removeLayer(layer);
}
} else {
layerOptions.loadedDefer.promise.then(function () {
map.removeLayer(layer);
});
}
} else {
map.removeLayer(layer);
}
}
var changeOpacityListener = function changeOpacityListener(op) {
return function (ly) {
if (isDefined(ly.setOpacity)) {
ly.setOpacity(op);
}
};
};
return {
createLayer: _createLayer,
layerTypes: layerTypes,
safeAddLayer: safeAddLayer,
safeRemoveLayer: safeRemoveLayer,
changeOpacityListener: changeOpacityListener
};
}]);
'use strict';
angular.module("ui-leaflet").factory('leafletLegendHelpers', ["$http", "$q", "$log", "leafletHelpers", function ($http, $q, $log, leafletHelpers) {
var requestQueue = {},
isDefined = leafletHelpers.isDefined;
var _execNext = function _execNext(mapId) {
var queue = requestQueue[mapId];
var task = queue[0];
$http(task.c).then(function (data) {
queue.shift();
task.d.resolve(data);
if (queue.length > 0) {
_execNext(mapId);
}
}, function (err) {
queue.shift();
task.d.reject(err);
if (queue.length > 0) {
_execNext(mapId);
}
});
};
var _updateLegend = function _updateLegend(div, legendData, type, url) {
div.innerHTML = '';
if (legendData.error) {
div.innerHTML += '' + legendData.error.message + '
';
} else {
if (type === 'arcgis') {
for (var i = 0; i < legendData.layers.length; i++) {
var layer = legendData.layers[i];
div.innerHTML += '' + layer.layerName + '
';
for (var j = 0; j < layer.legend.length; j++) {
var leg = layer.legend[j];
div.innerHTML += '' + '' + leg.label + '
';
}
}
} else if (type === 'image') {
div.innerHTML = '';
}
}
};
var _getOnAddLegend = function _getOnAddLegend(legendData, legendClass, type, url) {
return function () /*map*/{
var div = L.DomUtil.create('div', legendClass);
if (!L.Browser.touch) {
L.DomEvent.disableClickPropagation(div);
L.DomEvent.on(div, 'mousewheel', L.DomEvent.stopPropagation);
} else {
L.DomEvent.on(div, 'click', L.DomEvent.stopPropagation);
}
_updateLegend(div, legendData, type, url);
return div;
};
};
var _getOnAddArrayLegend = function _getOnAddArrayLegend(legend, legendClass) {
return function () /*map*/{
var div = L.DomUtil.create('div', legendClass);
for (var i = 0; i < legend.colors.length; i++) {
div.innerHTML += '
' + '' + legend.labels[i] + '
';
}
if (!L.Browser.touch) {
L.DomEvent.disableClickPropagation(div);
L.DomEvent.on(div, 'mousewheel', L.DomEvent.stopPropagation);
} else {
L.DomEvent.on(div, 'click', L.DomEvent.stopPropagation);
}
return div;
};
};
return {
getOnAddLegend: _getOnAddLegend,
getOnAddArrayLegend: _getOnAddArrayLegend,
updateLegend: _updateLegend,
addLegendURL: function addLegendURL(mapId, config) {
var d = $q.defer();
if (!isDefined(requestQueue[mapId])) {
requestQueue[mapId] = [];
}
requestQueue[mapId].push({ c: config, d: d });
if (requestQueue[mapId].length === 1) {
_execNext(mapId);
}
return d.promise;
}
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletMapDefaults', ["$q", "leafletHelpers", function ($q, leafletHelpers) {
function _getDefaults() {
return {
keyboard: true,
dragging: true,
worldCopyJump: false,
doubleClickZoom: true,
scrollWheelZoom: true,
tap: true,
touchZoom: true,
zoomControl: true,
zoomsliderControl: false,
zoomControlPosition: 'topleft',
attributionControl: true,
controls: {
layers: {
visible: true,
position: 'topright',
collapsed: true
}
},
nominatim: {
server: ' http://nominatim.openstreetmap.org/search'
},
crs: L.CRS.EPSG3857,
tileLayer: '//{s}.tile.openstreetmap.org/{z}/{x}/{y}.png',
tileLayerOptions: {
attribution: '© OpenStreetMap contributors'
},
path: {
weight: 10,
opacity: 1,
color: '#0000ff'
},
center: {
lat: 0,
lng: 0,
zoom: 1
},
trackResize: true
};
}
var isDefined = leafletHelpers.isDefined,
isObject = leafletHelpers.isObject,
obtainEffectiveMapId = leafletHelpers.obtainEffectiveMapId,
defaults = {};
// Get the _defaults dictionary, and override the properties defined by the user
return {
reset: function reset() {
defaults = {};
},
getDefaults: function getDefaults(scopeId) {
var mapId = obtainEffectiveMapId(defaults, scopeId);
return defaults[mapId];
},
getMapCreationDefaults: function getMapCreationDefaults(scopeId) {
var mapId = obtainEffectiveMapId(defaults, scopeId);
var d = defaults[mapId];
var mapDefaults = {
maxZoom: d.maxZoom,
keyboard: d.keyboard,
dragging: d.dragging,
zoomControl: d.zoomControl,
doubleClickZoom: d.doubleClickZoom,
scrollWheelZoom: d.scrollWheelZoom,
tap: d.tap,
touchZoom: d.touchZoom,
attributionControl: d.attributionControl,
worldCopyJump: d.worldCopyJump,
crs: d.crs,
trackResize: d.trackResize
};
if (isDefined(d.minZoom)) {
mapDefaults.minZoom = d.minZoom;
}
if (isDefined(d.zoomAnimation)) {
mapDefaults.zoomAnimation = d.zoomAnimation;
}
if (isDefined(d.fadeAnimation)) {
mapDefaults.fadeAnimation = d.fadeAnimation;
}
if (isDefined(d.markerZoomAnimation)) {
mapDefaults.markerZoomAnimation = d.markerZoomAnimation;
}
if (d.map) {
for (var option in d.map) {
mapDefaults[option] = d.map[option];
}
}
return mapDefaults;
},
setDefaults: function setDefaults(userDefaults, scopeId) {
var newDefaults = _getDefaults();
if (isDefined(userDefaults)) {
newDefaults.doubleClickZoom = isDefined(userDefaults.doubleClickZoom) ? userDefaults.doubleClickZoom : newDefaults.doubleClickZoom;
newDefaults.scrollWheelZoom = isDefined(userDefaults.scrollWheelZoom) ? userDefaults.scrollWheelZoom : newDefaults.doubleClickZoom;
newDefaults.tap = isDefined(userDefaults.tap) ? userDefaults.tap : newDefaults.tap;
newDefaults.touchZoom = isDefined(userDefaults.touchZoom) ? userDefaults.touchZoom : newDefaults.doubleClickZoom;
newDefaults.zoomControl = isDefined(userDefaults.zoomControl) ? userDefaults.zoomControl : newDefaults.zoomControl;
newDefaults.zoomsliderControl = isDefined(userDefaults.zoomsliderControl) ? userDefaults.zoomsliderControl : newDefaults.zoomsliderControl;
newDefaults.attributionControl = isDefined(userDefaults.attributionControl) ? userDefaults.attributionControl : newDefaults.attributionControl;
newDefaults.tileLayer = isDefined(userDefaults.tileLayer) ? userDefaults.tileLayer : newDefaults.tileLayer;
newDefaults.zoomControlPosition = isDefined(userDefaults.zoomControlPosition) ? userDefaults.zoomControlPosition : newDefaults.zoomControlPosition;
newDefaults.keyboard = isDefined(userDefaults.keyboard) ? userDefaults.keyboard : newDefaults.keyboard;
newDefaults.dragging = isDefined(userDefaults.dragging) ? userDefaults.dragging : newDefaults.dragging;
newDefaults.trackResize = isDefined(userDefaults.trackResize) ? userDefaults.trackResize : newDefaults.trackResize;
if (isDefined(userDefaults.controls)) {
angular.extend(newDefaults.controls, userDefaults.controls);
}
if (isObject(userDefaults.crs)) {
newDefaults.crs = userDefaults.crs;
} else if (isDefined(L.CRS[userDefaults.crs])) {
newDefaults.crs = L.CRS[userDefaults.crs];
}
if (isDefined(userDefaults.center)) {
angular.copy(userDefaults.center, newDefaults.center);
}
if (isDefined(userDefaults.tileLayerOptions)) {
angular.copy(userDefaults.tileLayerOptions, newDefaults.tileLayerOptions);
}
if (isDefined(userDefaults.maxZoom)) {
newDefaults.maxZoom = userDefaults.maxZoom;
}
if (isDefined(userDefaults.minZoom)) {
newDefaults.minZoom = userDefaults.minZoom;
}
if (isDefined(userDefaults.zoomAnimation)) {
newDefaults.zoomAnimation = userDefaults.zoomAnimation;
}
if (isDefined(userDefaults.fadeAnimation)) {
newDefaults.fadeAnimation = userDefaults.fadeAnimation;
}
if (isDefined(userDefaults.markerZoomAnimation)) {
newDefaults.markerZoomAnimation = userDefaults.markerZoomAnimation;
}
if (isDefined(userDefaults.worldCopyJump)) {
newDefaults.worldCopyJump = userDefaults.worldCopyJump;
}
if (isDefined(userDefaults.map)) {
newDefaults.map = userDefaults.map;
}
if (isDefined(userDefaults.path)) {
newDefaults.path = userDefaults.path;
}
}
var mapId = obtainEffectiveMapId(defaults, scopeId);
defaults[mapId] = newDefaults;
return newDefaults;
}
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletMarkersHelpers', ["$rootScope", "$timeout", "leafletHelpers", "leafletLogger", "$compile", "leafletGeoJsonHelpers", "leafletWatchHelpers", function ($rootScope, $timeout, leafletHelpers, leafletLogger, $compile, leafletGeoJsonHelpers, leafletWatchHelpers) {
var isDefined = leafletHelpers.isDefined,
defaultTo = leafletHelpers.defaultTo,
MarkerClusterPlugin = leafletHelpers.MarkerClusterPlugin,
AwesomeMarkersPlugin = leafletHelpers.AwesomeMarkersPlugin,
VectorMarkersPlugin = leafletHelpers.VectorMarkersPlugin,
MakiMarkersPlugin = leafletHelpers.MakiMarkersPlugin,
ExtraMarkersPlugin = leafletHelpers.ExtraMarkersPlugin,
DomMarkersPlugin = leafletHelpers.DomMarkersPlugin,
safeApply = leafletHelpers.safeApply,
Helpers = leafletHelpers,
isString = leafletHelpers.isString,
isNumber = leafletHelpers.isNumber,
isObject = leafletHelpers.isObject,
groups = {},
geoHlp = leafletGeoJsonHelpers,
errorHeader = leafletHelpers.errorHeader,
maybeWatch = leafletWatchHelpers.maybeWatch,
$log = leafletLogger;
var _string = function _string(marker) {
//this exists since JSON.stringify barfs on cyclic
var retStr = '';
['_icon', '_latlng', '_leaflet_id', '_map', '_shadow'].forEach(function (prop) {
retStr += prop + ': ' + defaultTo(marker[prop], 'undefined') + ' \n';
});
return '[leafletMarker] : \n' + retStr;
};
var _log = function _log(marker, useConsole) {
var logger = useConsole ? console : $log;
logger.debug(_string(marker));
};
var existDomContainer = function existDomContainer(groupName) {
return angular.element(groups[groupName]._map._container).parent().length > 0;
};
var createLeafletIcon = function createLeafletIcon(iconData) {
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'awesomeMarker') {
if (!AwesomeMarkersPlugin.isLoaded()) {
$log.error(errorHeader + ' The AwesomeMarkers Plugin is not loaded.');
}
return new L.AwesomeMarkers.icon(iconData);
}
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'vectorMarker') {
if (!VectorMarkersPlugin.isLoaded()) {
$log.error(errorHeader + ' The VectorMarkers Plugin is not loaded.');
}
return new L.VectorMarkers.icon(iconData);
}
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'makiMarker') {
if (!MakiMarkersPlugin.isLoaded()) {
$log.error(errorHeader + 'The MakiMarkers Plugin is not loaded.');
}
return new L.MakiMarkers.icon(iconData);
}
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'extraMarker') {
if (!ExtraMarkersPlugin.isLoaded()) {
$log.error(errorHeader + 'The ExtraMarkers Plugin is not loaded.');
}
return new L.ExtraMarkers.icon(iconData);
}
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'div') {
return new L.divIcon(iconData);
}
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'dom') {
if (!DomMarkersPlugin.isLoaded()) {
$log.error(errorHeader + 'The DomMarkers Plugin is not loaded.');
}
var markerScope = angular.isFunction(iconData.getMarkerScope) ? iconData.getMarkerScope().$new() : $rootScope,
template = $compile(iconData.template)(markerScope),
iconDataCopy = angular.copy(iconData);
iconDataCopy.ngElement = template;
iconDataCopy.element = template[0];
if (angular.isFunction(iconData.getMarkerScope)) iconDataCopy.scope = markerScope;
return new L.DomMarkers.icon(iconDataCopy);
}
// allow for any custom icon to be used... assumes the icon has already been initialized
if (isDefined(iconData) && isDefined(iconData.type) && iconData.type === 'icon') {
return iconData.icon;
}
var base64icon = "data:image/png;base64,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";
var base64shadow = "data:image/png;base64,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";
if (!isDefined(iconData) || !isDefined(iconData.iconUrl)) {
return new L.Icon.Default({
iconUrl: base64icon,
shadowUrl: base64shadow,
iconSize: [25, 41],
iconAnchor: [12, 41],
popupAnchor: [1, -34],
shadowSize: [41, 41]
});
}
return new L.Icon(iconData);
};
var _resetMarkerGroup = function _resetMarkerGroup(groupName) {
if (isDefined(groups[groupName])) {
delete groups[groupName];
}
};
var _resetMarkerGroups = function _resetMarkerGroups() {
groups = {};
};
var _resetUnusedMarkerGroups = function _resetUnusedMarkerGroups() {
for (var groupName in groups) {
if (!existDomContainer(groupName)) {
_resetMarkerGroup(groupName);
}
}
};
var _cleanDomIcon = function _cleanDomIcon(marker) {
if (marker.options.icon.options.ngElement) {
marker.options.icon.options.ngElement.remove();
}
if (marker.options.icon.options.scope) {
marker.options.icon.options.scope.$destroy();
}
};
var _deleteMarker = function _deleteMarker(marker, map, layers) {
marker.closePopup();
// if it's a dom icon, clean it
if (marker.options.icon && marker.options.icon.options && marker.options.icon.options.type === 'dom') {
_cleanDomIcon(marker);
}
// There is no easy way to know if a marker is added to a layer, so we search for it
// if there are overlays
if (isDefined(layers) && isDefined(layers.overlays)) {
for (var key in layers.overlays) {
if (layers.overlays[key] instanceof L.LayerGroup || layers.overlays[key] instanceof L.FeatureGroup) {
if (layers.overlays[key].hasLayer(marker)) {
layers.overlays[key].removeLayer(marker);
return;
}
}
}
}
if (isDefined(groups)) {
for (var groupKey in groups) {
if (groups[groupKey].hasLayer(marker)) {
groups[groupKey].removeLayer(marker);
}
}
}
if (map.hasLayer(marker)) {
map.removeLayer(marker);
}
};
var adjustPopupPan = function adjustPopupPan(marker, map) {
var containerHeight = marker._popup._container.offsetHeight,
layerPos = new L.Point(marker._popup._containerLeft, -containerHeight - marker._popup._containerBottom),
containerPos = map.layerPointToContainerPoint(layerPos);
if (containerPos !== null) {
marker._popup._adjustPan();
}
};
var compilePopup = function compilePopup(marker, markerScope) {
$compile(marker._popup._contentNode)(markerScope);
};
var updatePopup = function updatePopup(marker, markerScope, map) {
//The innerText should be more than 1 once angular has compiled.
//We need to keep trying until angular has compiled before we _updateLayout and _updatePosition
//This should take care of any scenario , eg ngincludes, whatever.
//Is there a better way to check for this?
var innerText = marker._popup._contentNode.innerText || marker._popup._contentNode.textContent;
if (innerText.length < 1) {
$timeout(function () {
updatePopup(marker, markerScope, map);
});
}
//cause a reflow - this is also very important - if we don't do this then the widths are from before $compile
var reflow = marker._popup._contentNode.offsetWidth;
marker._popup._updateLayout();
marker._popup._updatePosition();
if (marker._popup.options.autoPan) {
adjustPopupPan(marker, map);
}
//using / returning reflow so jshint doesn't moan
return reflow;
};
var _manageOpenPopup = function _manageOpenPopup(marker, markerData, map) {
// The marker may provide a scope returning function used to compile the message
// default to $rootScope otherwise
var markerScope = angular.isFunction(markerData.getMessageScope) ? markerData.getMessageScope() : $rootScope,
compileMessage = isDefined(markerData.compileMessage) ? markerData.compileMessage : true;
if (compileMessage) {
if (!isDefined(marker._popup) || !isDefined(marker._popup._contentNode)) {
$log.error(errorHeader + 'Popup is invalid or does not have any content.');
return false;
}
compilePopup(marker, markerScope);
updatePopup(marker, markerData, map);
}
};
var _manageOpenLabel = function _manageOpenLabel(marker, markerData) {
var markerScope = angular.isFunction(markerData.getMessageScope) ? markerData.getMessageScope() : $rootScope,
labelScope = angular.isFunction(markerData.getLabelScope) ? markerData.getLabelScope() : markerScope,
compileMessage = isDefined(markerData.compileMessage) ? markerData.compileMessage : true;
if (Helpers.LabelPlugin.isLoaded() && isDefined(markerData.label)) {
if (isDefined(markerData.label.options) && markerData.label.options.noHide === true) {
marker.showLabel();
}
if (compileMessage && isDefined(marker.label)) {
$compile(marker.label._container)(labelScope);
}
}
};
var _updateMarker = function _updateMarker(markerData, oldMarkerData, marker, name, leafletScope, layers, map) {
if (!isDefined(oldMarkerData)) {
return;
}
// Update the lat-lng property (always present in marker properties)
if (!geoHlp.validateCoords(markerData)) {
$log.warn('There are problems with lat-lng data, please verify your marker model');
_deleteMarker(marker, map, layers);
return;
}
// watch is being initialized if old and new object is the same
var isInitializing = markerData === oldMarkerData;
// Update marker rotation
if (isDefined(markerData.iconAngle) && oldMarkerData.iconAngle !== markerData.iconAngle) {
marker.setIconAngle(markerData.iconAngle);
}
// It is possible that the layer has been removed or the layer marker does not exist
// Update the layer group if present or move it to the map if not
if (!isString(markerData.layer)) {
// There is no layer information, we move the marker to the map if it was in a layer group
if (isString(oldMarkerData.layer)) {
// Remove from the layer group that is supposed to be
if (isDefined(layers.overlays[oldMarkerData.layer]) && layers.overlays[oldMarkerData.layer].hasLayer(marker)) {
layers.overlays[oldMarkerData.layer].removeLayer(marker);
marker.closePopup();
}
// Test if it is not on the map and add it
if (!map.hasLayer(marker)) {
map.addLayer(marker);
}
}
}
if ((isNumber(markerData.opacity) || isNumber(parseFloat(markerData.opacity))) && markerData.opacity !== oldMarkerData.opacity) {
// There was a different opacity so we update it
marker.setOpacity(markerData.opacity);
}
if (isString(markerData.layer) && oldMarkerData.layer !== markerData.layer) {
// If it was on a layer group we have to remove it
if (isString(oldMarkerData.layer) && isDefined(layers.overlays[oldMarkerData.layer]) && layers.overlays[oldMarkerData.layer].hasLayer(marker)) {
layers.overlays[oldMarkerData.layer].removeLayer(marker);
}
marker.closePopup();
// Remove it from the map in case the new layer is hidden or there is an error in the new layer
if (map.hasLayer(marker)) {
map.removeLayer(marker);
}
// The markerData.layer is defined so we add the marker to the layer if it is different from the old data
if (!isDefined(layers.overlays[markerData.layer])) {
$log.error(errorHeader + 'You must use a name of an existing layer');
return;
}
// Is a group layer?
var layerGroup = layers.overlays[markerData.layer];
if (!(layerGroup instanceof L.LayerGroup || layerGroup instanceof L.FeatureGroup)) {
$log.error(errorHeader + 'A marker can only be added to a layer of type "group" or "featureGroup"');
return;
}
// The marker goes to a correct layer group, so first of all we add it
layerGroup.addLayer(marker);
// The marker is automatically added to the map depending on the visibility
// of the layer, so we only have to open the popup if the marker is in the map
if (map.hasLayer(marker) && markerData.focus === true) {
marker.openPopup();
}
}
// Update the draggable property
if (markerData.draggable !== true && oldMarkerData.draggable === true && isDefined(marker.dragging)) {
marker.dragging.disable();
}
if (markerData.draggable === true && oldMarkerData.draggable !== true) {
// The markerData.draggable property must be true so we update if there wasn't a previous value or it wasn't true
if (marker.dragging) {
marker.dragging.enable();
} else {
if (L.Handler.MarkerDrag) {
marker.dragging = new L.Handler.MarkerDrag(marker);
marker.options.draggable = true;
marker.dragging.enable();
}
}
}
// Update the icon property
if (!isObject(markerData.icon)) {
// If there is no icon property or it's not an object
if (isObject(oldMarkerData.icon)) {
if (oldMarkerData.icon.type === 'dom') {
// clean previous icon if it's a dom one
_cleanDomIcon(marker);
}
// If there was an icon before restore to the default
marker.setIcon(createLeafletIcon());
marker.closePopup();
marker.unbindPopup();
if (isString(markerData.message)) {
marker.bindPopup(markerData.message, markerData.popupOptions);
}
}
}
if (isObject(markerData.icon) && isObject(oldMarkerData.icon) && !angular.equals(markerData.icon, oldMarkerData.icon)) {
var dragG = false;
if (marker.dragging) {
dragG = marker.dragging.enabled();
}
if (oldMarkerData.icon.type === 'dom') {
// clean previous icon if it's a dom one
_cleanDomIcon(marker);
}
marker.setIcon(createLeafletIcon(markerData.icon));
if (dragG) {
marker.dragging.enable();
}
marker.closePopup();
marker.unbindPopup();
if (isString(markerData.message)) {
marker.bindPopup(markerData.message, markerData.popupOptions);
// if marker has been already focused, reopen popup
if (map.hasLayer(marker) && markerData.focus === true) {
marker.openPopup();
}
}
}
// Update the Popup message property
if (!isString(markerData.message) && isString(oldMarkerData.message)) {
marker.closePopup();
marker.unbindPopup();
}
// Update the label content or bind a new label if the old one has been removed.
if (Helpers.LabelPlugin.isLoaded()) {
if (isDefined(markerData.label) && isDefined(markerData.label.message)) {
if ('label' in oldMarkerData && 'message' in oldMarkerData.label && !angular.equals(markerData.label.message, oldMarkerData.label.message)) {
marker.updateLabelContent(markerData.label.message);
} else if (!angular.isFunction(marker.getLabel) || angular.isFunction(marker.getLabel) && !isDefined(marker.getLabel())) {
marker.bindLabel(markerData.label.message, markerData.label.options);
_manageOpenLabel(marker, markerData);
} else {
_manageOpenLabel(marker, markerData);
}
} else if (!('label' in markerData && !('message' in markerData.label))) {
if (angular.isFunction(marker.unbindLabel)) {
marker.unbindLabel();
}
}
}
// There is some text in the popup, so we must show the text or update existing
if (isString(markerData.message) && !isString(oldMarkerData.message)) {
// There was no message before so we create it
marker.bindPopup(markerData.message, markerData.popupOptions);
}
if (isString(markerData.message) && isString(oldMarkerData.message) && markerData.message !== oldMarkerData.message) {
// There was a different previous message so we update it
marker.setPopupContent(markerData.message);
}
// Update the focus property
var updatedFocus = false;
if (markerData.focus !== true && oldMarkerData.focus === true) {
// If there was a focus property and was true we turn it off
marker.closePopup();
updatedFocus = true;
}
// The markerData.focus property must be true so we update if there wasn't a previous value or it wasn't true
if (markerData.focus === true && (!isDefined(oldMarkerData.focus) || oldMarkerData.focus === false) || isInitializing && markerData.focus === true) {
// Reopen the popup when focus is still true
marker.openPopup();
updatedFocus = true;
}
// zIndexOffset adjustment
if (oldMarkerData.zIndexOffset !== markerData.zIndexOffset) {
marker.setZIndexOffset(markerData.zIndexOffset);
}
var markerLatLng = marker.getLatLng();
var isCluster = isString(markerData.layer) && Helpers.MarkerClusterPlugin.is(layers.overlays[markerData.layer]);
// If the marker is in a cluster it has to be removed and added to the layer when the location is changed
if (isCluster) {
// The focus has changed even by a user click or programatically
if (updatedFocus) {
// We only have to update the location if it was changed programatically, because it was
// changed by a user drag the marker data has already been updated by the internal event
// listened by the directive
if (markerData.lat !== oldMarkerData.lat || markerData.lng !== oldMarkerData.lng) {
layers.overlays[markerData.layer].removeLayer(marker);
marker.setLatLng([markerData.lat, markerData.lng]);
layers.overlays[markerData.layer].addLayer(marker);
}
} else {
// The marker has possibly moved. It can be moved by a user drag (marker location and data are equal but old
// data is diferent) or programatically (marker location and data are diferent)
if (markerLatLng.lat !== markerData.lat || markerLatLng.lng !== markerData.lng) {
// The marker was moved by a user drag
layers.overlays[markerData.layer].removeLayer(marker);
marker.setLatLng([markerData.lat, markerData.lng]);
layers.overlays[markerData.layer].addLayer(marker);
} else if (markerData.lat !== oldMarkerData.lat || markerData.lng !== oldMarkerData.lng) {
// The marker was moved programatically
layers.overlays[markerData.layer].removeLayer(marker);
marker.setLatLng([markerData.lat, markerData.lng]);
layers.overlays[markerData.layer].addLayer(marker);
} else if (isObject(markerData.icon) && isObject(oldMarkerData.icon) && !angular.equals(markerData.icon, oldMarkerData.icon)) {
layers.overlays[markerData.layer].removeLayer(marker);
layers.overlays[markerData.layer].addLayer(marker);
}
}
} else if (markerLatLng.lat !== markerData.lat || markerLatLng.lng !== markerData.lng) {
marker.setLatLng([markerData.lat, markerData.lng]);
}
};
var _getLayerModels = function _getLayerModels(models, layerName) {
if (!isDefined(models)) return;
if (layerName) return models[layerName];
return models;
};
var _getModelFromModels = function _getModelFromModels(models, id, layerName) {
if (!isDefined(models)) return;
if (!id) {
$log.error(errorHeader + 'marker id missing in getMarker');
return;
}
if (layerName) return models[layerName][id];
return models[id];
};
return {
resetMarkerGroup: _resetMarkerGroup,
resetMarkerGroups: _resetMarkerGroups,
resetUnusedMarkerGroups: _resetUnusedMarkerGroups,
deleteMarker: _deleteMarker,
manageOpenPopup: _manageOpenPopup,
manageOpenLabel: _manageOpenLabel,
createMarker: function createMarker(markerData) {
if (!isDefined(markerData) || !geoHlp.validateCoords(markerData)) {
$log.error(errorHeader + 'The marker definition is not valid.');
return;
}
var coords = geoHlp.getCoords(markerData);
if (!isDefined(coords)) {
$log.error(errorHeader + 'Unable to get coordinates from markerData.');
return;
}
var markerOptions = {
icon: createLeafletIcon(markerData.icon),
title: isDefined(markerData.title) ? markerData.title : '',
draggable: isDefined(markerData.draggable) ? markerData.draggable : false,
clickable: isDefined(markerData.clickable) ? markerData.clickable : true,
riseOnHover: isDefined(markerData.riseOnHover) ? markerData.riseOnHover : false,
zIndexOffset: isDefined(markerData.zIndexOffset) ? markerData.zIndexOffset : 0,
iconAngle: isDefined(markerData.iconAngle) ? markerData.iconAngle : 0
};
// Add any other options not added above to markerOptions
for (var markerDatum in markerData) {
if (markerData.hasOwnProperty(markerDatum) && !markerOptions.hasOwnProperty(markerDatum)) {
markerOptions[markerDatum] = markerData[markerDatum];
}
}
var marker = new L.marker(coords, markerOptions);
if (!isString(markerData.message)) {
marker.unbindPopup();
}
return marker;
},
addMarkerToGroup: function addMarkerToGroup(marker, groupName, groupOptions, map) {
if (!isString(groupName)) {
$log.error(errorHeader + 'The marker group you have specified is invalid.');
return;
}
if (!MarkerClusterPlugin.isLoaded()) {
$log.error(errorHeader + "The MarkerCluster plugin is not loaded.");
return;
}
if (!isDefined(groups[groupName])) {
groups[groupName] = new L.MarkerClusterGroup(groupOptions);
map.addLayer(groups[groupName]);
}
groups[groupName].addLayer(marker);
},
listenMarkerEvents: function listenMarkerEvents(marker, markerData, leafletScope, watchType, map) {
marker.on("popupopen", function () /* event */{
safeApply(leafletScope, function () {
if (isDefined(marker._popup) || isDefined(marker._popup._contentNode)) {
markerData.focus = true;
_manageOpenPopup(marker, markerData, map); //needed since markerData is now a copy
}
});
});
marker.on("popupclose", function () /* event */{
safeApply(leafletScope, function () {
markerData.focus = false;
});
});
marker.on("add", function () /* event */{
safeApply(leafletScope, function () {
if ('label' in markerData) _manageOpenLabel(marker, markerData);
});
});
},
updateMarker: _updateMarker,
addMarkerWatcher: function addMarkerWatcher(marker, name, leafletScope, layers, map, watchOptions) {
var markerWatchPath = Helpers.getObjectArrayPath("markers." + name);
maybeWatch(leafletScope, markerWatchPath, watchOptions, function (markerData, oldMarkerData, clearWatch) {
if (!isDefined(markerData)) {
_deleteMarker(marker, map, layers);
clearWatch();
return;
}
_updateMarker(markerData, oldMarkerData, marker, name, leafletScope, layers, map);
});
},
string: _string,
log: _log,
getModelFromModels: _getModelFromModels,
getLayerModels: _getLayerModels
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletPathsHelpers', ["$rootScope", "leafletLogger", "leafletHelpers", function ($rootScope, leafletLogger, leafletHelpers) {
var isDefined = leafletHelpers.isDefined,
isArray = leafletHelpers.isArray,
isNumber = leafletHelpers.isNumber,
isValidPoint = leafletHelpers.isValidPoint,
$log = leafletLogger;
var availableOptions = [
// Path options
'stroke', 'weight', 'color', 'opacity', 'fill', 'fillColor', 'fillOpacity', 'dashArray', 'lineCap', 'lineJoin', 'clickable', 'pointerEvents', 'className',
// Polyline options
'smoothFactor', 'noClip'];
function _convertToLeafletLatLngs(latlngs) {
return latlngs.filter(function (latlng) {
return isValidPoint(latlng);
}).map(function (latlng) {
return _convertToLeafletLatLng(latlng);
});
}
function _convertToLeafletLatLng(latlng) {
if (isArray(latlng)) {
return new L.LatLng(latlng[0], latlng[1]);
} else {
return new L.LatLng(latlng.lat, latlng.lng);
}
}
function _convertToLeafletMultiLatLngs(paths) {
return paths.map(function (latlngs) {
return _convertToLeafletLatLngs(latlngs);
});
}
function _getOptions(path, defaults) {
var options = {};
for (var i = 0; i < availableOptions.length; i++) {
var optionName = availableOptions[i];
if (isDefined(path[optionName])) {
options[optionName] = path[optionName];
} else if (isDefined(defaults.path[optionName])) {
options[optionName] = defaults.path[optionName];
}
}
return options;
}
var _updatePathOptions = function _updatePathOptions(path, data) {
var updatedStyle = {};
for (var i = 0; i < availableOptions.length; i++) {
var optionName = availableOptions[i];
if (isDefined(data[optionName])) {
updatedStyle[optionName] = data[optionName];
}
}
path.setStyle(data);
};
var _isValidPolyline = function _isValidPolyline(latlngs) {
if (!isArray(latlngs)) {
return false;
}
for (var i = 0; i < latlngs.length; i++) {
var point = latlngs[i];
if (!isValidPoint(point)) {
return false;
}
}
return true;
};
var pathTypes = {
polyline: {
isValid: function isValid(pathData) {
var latlngs = pathData.latlngs;
return _isValidPolyline(latlngs);
},
createPath: function createPath(options) {
return new L.Polyline([], options);
},
setPath: function setPath(path, data) {
path.setLatLngs(_convertToLeafletLatLngs(data.latlngs));
_updatePathOptions(path, data);
return;
}
},
multiPolyline: {
isValid: function isValid(pathData) {
var latlngs = pathData.latlngs;
if (!isArray(latlngs)) {
return false;
}
for (var i in latlngs) {
var polyline = latlngs[i];
if (!_isValidPolyline(polyline)) {
return false;
}
}
return true;
},
createPath: function createPath(options) {
return new L.multiPolyline([[[0, 0], [1, 1]]], options);
},
setPath: function setPath(path, data) {
path.setLatLngs(_convertToLeafletMultiLatLngs(data.latlngs));
_updatePathOptions(path, data);
return;
}
},
polygon: {
isValid: function isValid(pathData) {
var latlngs = pathData.latlngs;
return _isValidPolyline(latlngs);
},
createPath: function createPath(options) {
return new L.Polygon([], options);
},
setPath: function setPath(path, data) {
path.setLatLngs(_convertToLeafletLatLngs(data.latlngs));
_updatePathOptions(path, data);
return;
}
},
multiPolygon: {
isValid: function isValid(pathData) {
var latlngs = pathData.latlngs;
if (!isArray(latlngs)) {
return false;
}
for (var i in latlngs) {
var polyline = latlngs[i];
if (!_isValidPolyline(polyline)) {
return false;
}
}
return true;
},
createPath: function createPath(options) {
return new L.MultiPolygon([[[0, 0], [1, 1], [0, 1]]], options);
},
setPath: function setPath(path, data) {
path.setLatLngs(_convertToLeafletMultiLatLngs(data.latlngs));
_updatePathOptions(path, data);
return;
}
},
rectangle: {
isValid: function isValid(pathData) {
var latlngs = pathData.latlngs;
if (!isArray(latlngs) || latlngs.length !== 2) {
return false;
}
for (var i in latlngs) {
var point = latlngs[i];
if (!isValidPoint(point)) {
return false;
}
}
return true;
},
createPath: function createPath(options) {
return new L.Rectangle([[0, 0], [1, 1]], options);
},
setPath: function setPath(path, data) {
path.setBounds(new L.LatLngBounds(_convertToLeafletLatLngs(data.latlngs)));
_updatePathOptions(path, data);
}
},
circle: {
isValid: function isValid(pathData) {
var point = pathData.latlngs;
return isValidPoint(point) && isNumber(pathData.radius);
},
createPath: function createPath(options) {
return new L.Circle([0, 0], 1, options);
},
setPath: function setPath(path, data) {
path.setLatLng(_convertToLeafletLatLng(data.latlngs));
if (isDefined(data.radius)) {
path.setRadius(data.radius);
}
_updatePathOptions(path, data);
}
},
circleMarker: {
isValid: function isValid(pathData) {
var point = pathData.latlngs;
return isValidPoint(point) && isNumber(pathData.radius);
},
createPath: function createPath(options) {
return new L.CircleMarker([0, 0], options);
},
setPath: function setPath(path, data) {
path.setLatLng(_convertToLeafletLatLng(data.latlngs));
if (isDefined(data.radius)) {
path.setRadius(data.radius);
}
_updatePathOptions(path, data);
}
}
};
var _getPathData = function _getPathData(path) {
var pathData = {};
if (path.latlngs) {
pathData.latlngs = path.latlngs;
}
if (path.radius) {
pathData.radius = path.radius;
}
return pathData;
};
return {
setPathOptions: function setPathOptions(leafletPath, pathType, data) {
if (!isDefined(pathType)) {
pathType = "polyline";
}
pathTypes[pathType].setPath(leafletPath, data);
},
createPath: function createPath(name, path, defaults) {
if (!isDefined(path.type)) {
path.type = "polyline";
}
var options = _getOptions(path, defaults);
var pathData = _getPathData(path);
if (!pathTypes[path.type].isValid(pathData)) {
$log.error("[AngularJS - Leaflet] Invalid data passed to the " + path.type + " path");
return;
}
return pathTypes[path.type].createPath(options);
}
};
}]);
'use strict';
angular.module('ui-leaflet').service('leafletWatchHelpers', function () {
var _maybe = function _maybe(scope, watchFunctionName, thingToWatchStr, watchOptions, initCb) {
var unWatch = scope[watchFunctionName](thingToWatchStr, function (newValue, oldValue) {
//make the unWatch function available to the callback as well.
initCb(newValue, oldValue, unWatch);
if (watchOptions.type === null) unWatch();
}, watchOptions.type === 'watchDeep');
return unWatch;
};
/*
@name: maybeWatch
@description: Utility to watch something once or forever.
@returns unWatch function
@param watchOptions - This object is used to determine the type of
watch used.
*/
var _maybeWatch = function _maybeWatch(scope, thingToWatchStr, watchOptions, initCb) {
var watchMethod;
if (watchOptions.type === 'watchCollection') {
watchMethod = '$watchCollection';
} else {
watchMethod = '$watch';
}
return _maybe(scope, watchMethod, thingToWatchStr, watchOptions, initCb);
};
return {
maybeWatch: _maybeWatch
};
});
'use strict';
angular.module('ui-leaflet').service('leafletLogger', ["nemSimpleLogger", function (nemSimpleLogger) {
return nemSimpleLogger.spawn();
}]);
'use strict';
angular.module('ui-leaflet').factory('nominatimService', ["$q", "$http", "leafletHelpers", "leafletMapDefaults", function ($q, $http, leafletHelpers, leafletMapDefaults) {
var isDefined = leafletHelpers.isDefined;
return {
query: function query(address, mapId) {
var defaults = leafletMapDefaults.getDefaults(mapId);
var url = defaults.nominatim.server;
var df = $q.defer();
$http.get(url, { params: { format: 'json', limit: 1, q: address } }).success(function (data) {
if (data.length > 0 && isDefined(data[0].boundingbox)) {
df.resolve(data[0]);
} else {
df.reject('[Nominatim] Invalid address');
}
});
return df.promise;
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('bounds', ["leafletLogger", "$timeout", "$http", "leafletHelpers", "nominatimService", "leafletBoundsHelpers", function (leafletLogger, $timeout, $http, leafletHelpers, nominatimService, leafletBoundsHelpers) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: ['leaflet'],
link: function link(scope, element, attrs, controller) {
var isDefined = leafletHelpers.isDefined;
var createLeafletBounds = leafletBoundsHelpers.createLeafletBounds;
var leafletScope = controller[0].getLeafletScope();
var mapController = controller[0];
var errorHeader = leafletHelpers.errorHeader + ' [Bounds] ';
var emptyBounds = function emptyBounds(bounds) {
return bounds._southWest.lat === 0 && bounds._southWest.lng === 0 && bounds._northEast.lat === 0 && bounds._northEast.lng === 0;
};
mapController.getMap().then(function (map) {
leafletScope.$on('boundsChanged', function (event) {
var scope = event.currentScope;
var bounds = map.getBounds();
if (emptyBounds(bounds) || scope.settingBoundsFromScope) {
return;
}
scope.settingBoundsFromLeaflet = true;
var newScopeBounds = {
northEast: {
lat: bounds._northEast.lat,
lng: bounds._northEast.lng
},
southWest: {
lat: bounds._southWest.lat,
lng: bounds._southWest.lng
},
options: bounds.options
};
if (!angular.equals(scope.bounds, newScopeBounds)) {
scope.bounds = newScopeBounds;
}
$timeout(function () {
scope.settingBoundsFromLeaflet = false;
});
});
var lastNominatimQuery;
leafletScope.$watch('bounds', function (bounds) {
if (scope.settingBoundsFromLeaflet) return;
if (isDefined(bounds.address) && bounds.address !== lastNominatimQuery) {
scope.settingBoundsFromScope = true;
nominatimService.query(bounds.address, attrs.id).then(function (data) {
var b = data.boundingbox;
var newBounds = [[b[0], b[2]], [b[1], b[3]]];
map.fitBounds(newBounds);
}, function (errMsg) {
$log.error(errorHeader + ' ' + errMsg + '.');
});
lastNominatimQuery = bounds.address;
$timeout(function () {
scope.settingBoundsFromScope = false;
});
return;
}
var leafletBounds = createLeafletBounds(bounds);
if (leafletBounds && !map.getBounds().equals(leafletBounds)) {
scope.settingBoundsFromScope = true;
map.fitBounds(leafletBounds, bounds.options);
$timeout(function () {
scope.settingBoundsFromScope = false;
});
}
}, true);
});
}
};
}]);
'use strict';
var centerDirectiveTypes = ['center', 'lfCenter'],
centerDirectives = {};
centerDirectiveTypes.forEach(function (directiveName) {
centerDirectives[directiveName] = ['leafletLogger', '$q', '$location', '$timeout', 'leafletMapDefaults', 'leafletHelpers', 'leafletBoundsHelpers', 'leafletMapEvents', function (leafletLogger, $q, $location, $timeout, leafletMapDefaults, leafletHelpers, leafletBoundsHelpers, leafletMapEvents) {
var isDefined = leafletHelpers.isDefined,
isNumber = leafletHelpers.isNumber,
isSameCenterOnMap = leafletHelpers.isSameCenterOnMap,
safeApply = leafletHelpers.safeApply,
isValidCenter = leafletHelpers.isValidCenter,
isValidBounds = leafletBoundsHelpers.isValidBounds,
isUndefinedOrEmpty = leafletHelpers.isUndefinedOrEmpty,
errorHeader = leafletHelpers.errorHeader,
$log = leafletLogger;
var shouldInitializeMapWithBounds = function shouldInitializeMapWithBounds(bounds, center) {
return isDefined(bounds) && isValidBounds(bounds) && isUndefinedOrEmpty(center);
};
var _leafletCenter;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
controller: function controller() {
_leafletCenter = $q.defer();
this.getCenter = function () {
return _leafletCenter.promise;
};
},
link: function link(scope, element, attrs, controller) {
var leafletScope = controller.getLeafletScope(),
centerModel = leafletScope[directiveName];
controller.getMap().then(function (map) {
var defaults = leafletMapDefaults.getDefaults(attrs.id);
if (attrs[directiveName].search("-") !== -1) {
$log.error(errorHeader + ' The "center" variable can\'t use a "-" on its key name: "' + attrs[directiveName] + '".');
map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
return;
} else if (shouldInitializeMapWithBounds(leafletScope.bounds, centerModel)) {
map.fitBounds(leafletBoundsHelpers.createLeafletBounds(leafletScope.bounds), leafletScope.bounds.options);
centerModel = map.getCenter();
safeApply(leafletScope, function (scope) {
angular.extend(scope[directiveName], {
lat: map.getCenter().lat,
lng: map.getCenter().lng,
zoom: map.getZoom(),
autoDiscover: false
});
});
safeApply(leafletScope, function (scope) {
var mapBounds = map.getBounds();
scope.bounds = {
northEast: {
lat: mapBounds._northEast.lat,
lng: mapBounds._northEast.lng
},
southWest: {
lat: mapBounds._southWest.lat,
lng: mapBounds._southWest.lng
}
};
});
} else if (!isDefined(centerModel)) {
$log.error(errorHeader + ' The "center" property is not defined in the main scope');
map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
return;
} else if (!(isDefined(centerModel.lat) && isDefined(centerModel.lng)) && !isDefined(centerModel.autoDiscover)) {
angular.copy(defaults.center, centerModel);
}
var urlCenterHash, mapReady;
if (attrs.urlHashCenter === "yes") {
var extractCenterFromUrl = function extractCenterFromUrl() {
var search = $location.search();
var centerParam;
var centerKey = attrs.urlHashParam ? attrs.urlHashParam : 'c';
if (isDefined(search[centerKey])) {
var cParam = search[centerKey].split(":");
if (cParam.length === 3) {
centerParam = {
lat: parseFloat(cParam[0]),
lng: parseFloat(cParam[1]),
zoom: parseInt(cParam[2], 10)
};
}
}
return centerParam;
};
urlCenterHash = extractCenterFromUrl();
leafletScope.$on('$locationChangeSuccess', function (event) {
var scope = event.currentScope;
//$log.debug("updated location...");
var urlCenter = extractCenterFromUrl();
if (isDefined(urlCenter) && !isSameCenterOnMap(urlCenter, map)) {
//$log.debug("updating center model...", urlCenter);
angular.extend(scope[directiveName], {
lat: urlCenter.lat,
lng: urlCenter.lng,
zoom: urlCenter.zoom
});
}
});
}
leafletScope.$watch(directiveName, function (center) {
if (leafletScope.settingCenterFromLeaflet) return;
//$log.debug("updated center model...");
// The center from the URL has priority
if (isDefined(urlCenterHash)) {
angular.copy(urlCenterHash, center);
urlCenterHash = undefined;
}
if (!isValidCenter(center) && center.autoDiscover !== true) {
$log.warn(errorHeader + " invalid 'center'");
//map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
return;
}
if (center.autoDiscover === true) {
if (!isNumber(center.zoom)) {
map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
}
if (isNumber(center.zoom) && center.zoom > defaults.center.zoom) {
map.locate({
setView: true,
maxZoom: center.zoom
});
} else if (isDefined(defaults.maxZoom)) {
map.locate({
setView: true,
maxZoom: defaults.maxZoom
});
} else {
map.locate({
setView: true
});
}
return;
}
if (mapReady && isSameCenterOnMap(center, map)) {
//$log.debug("no need to update map again.");
return;
}
//$log.debug("updating map center...", center);
leafletScope.settingCenterFromScope = true;
map.setView([center.lat, center.lng], center.zoom);
leafletMapEvents.notifyCenterChangedToBounds(leafletScope, map);
$timeout(function () {
leafletScope.settingCenterFromScope = false;
//$log.debug("allow center scope updates");
});
}, true);
map.whenReady(function () {
mapReady = true;
});
map.on('moveend', function () /* event */{
// Resolve the center after the first map position
_leafletCenter.resolve();
leafletMapEvents.notifyCenterUrlHashChanged(leafletScope, map, attrs, $location.search());
//$log.debug("updated center on map...");
if (isSameCenterOnMap(centerModel, map) || leafletScope.settingCenterFromScope) {
//$log.debug("same center in model, no need to update again.");
return;
}
leafletScope.settingCenterFromLeaflet = true;
safeApply(leafletScope, function (scope) {
if (!leafletScope.settingCenterFromScope) {
//$log.debug("updating center model...", map.getCenter(), map.getZoom());
angular.extend(scope[directiveName], {
lat: map.getCenter().lat,
lng: map.getCenter().lng,
zoom: map.getZoom(),
autoDiscover: false
});
}
leafletMapEvents.notifyCenterChangedToBounds(leafletScope, map);
$timeout(function () {
leafletScope.settingCenterFromLeaflet = false;
});
});
});
if (centerModel.autoDiscover === true) {
map.on('locationerror', function () {
$log.warn(errorHeader + " The Geolocation API is unauthorized on this page.");
if (isValidCenter(centerModel)) {
map.setView([centerModel.lat, centerModel.lng], centerModel.zoom);
leafletMapEvents.notifyCenterChangedToBounds(leafletScope, map);
} else {
map.setView([defaults.center.lat, defaults.center.lng], defaults.center.zoom);
leafletMapEvents.notifyCenterChangedToBounds(leafletScope, map);
}
});
}
});
}
};
}];
});
centerDirectiveTypes.forEach(function (dirType) {
angular.module('ui-leaflet').directive(dirType, centerDirectives[dirType]);
});
'use strict';
angular.module('ui-leaflet').directive('controls', ["leafletLogger", "leafletHelpers", "leafletControlHelpers", function (leafletLogger, leafletHelpers, leafletControlHelpers) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: '?^leaflet',
link: function link(scope, element, attrs, controller) {
if (!controller) {
return;
}
var createControl = leafletControlHelpers.createControl;
var isValidControlType = leafletControlHelpers.isValidControlType;
var leafletScope = controller.getLeafletScope();
var isDefined = leafletHelpers.isDefined;
var isArray = leafletHelpers.isArray;
var leafletControls = {};
var errorHeader = leafletHelpers.errorHeader + ' [Controls] ';
scope.$on('$destroy', function () {
leafletControlHelpers.destroyMapLayersControl(scope.mapId);
});
controller.getMap().then(function (map) {
leafletScope.$watchCollection('controls', function (newControls) {
// Delete controls from the array
for (var name in leafletControls) {
if (!isDefined(newControls[name])) {
if (map.hasControl(leafletControls[name])) {
map.removeControl(leafletControls[name]);
}
delete leafletControls[name];
}
}
for (var newName in newControls) {
var control;
var controlType = isDefined(newControls[newName].type) ? newControls[newName].type : newName;
if (!isValidControlType(controlType)) {
$log.error(errorHeader + ' Invalid control type: ' + controlType + '.');
return;
}
if (controlType !== 'custom') {
control = createControl(controlType, newControls[newName]);
map.addControl(control);
leafletControls[newName] = control;
} else {
var customControlValue = newControls[newName];
if (isArray(customControlValue)) {
for (var i = 0; i < customControlValue.length; i++) {
var customControl = customControlValue[i];
map.addControl(customControl);
leafletControls[newName] = !isDefined(leafletControls[newName]) ? [customControl] : leafletControls[newName].concat([customControl]);
}
} else {
map.addControl(customControlValue);
leafletControls[newName] = customControlValue;
}
}
}
});
});
}
};
}]);
"use strict";
angular.module('ui-leaflet').directive("decorations", ["leafletLogger", "leafletHelpers", function (leafletLogger, leafletHelpers) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
link: function link(scope, element, attrs, controller) {
var leafletScope = controller.getLeafletScope(),
PolylineDecoratorPlugin = leafletHelpers.PolylineDecoratorPlugin,
isDefined = leafletHelpers.isDefined,
leafletDecorations = {};
/* Creates an "empty" decoration with a set of coordinates, but no pattern. */
function createDecoration(options) {
if (isDefined(options) && isDefined(options.coordinates)) {
if (!PolylineDecoratorPlugin.isLoaded()) {
$log.error('[AngularJS - Leaflet] The PolylineDecorator Plugin is not loaded.');
}
}
return L.polylineDecorator(options.coordinates);
}
/* Updates the path and the patterns for the provided decoration, and returns the decoration. */
function setDecorationOptions(decoration, options) {
if (isDefined(decoration) && isDefined(options)) {
if (isDefined(options.coordinates) && isDefined(options.patterns)) {
decoration.setPaths(options.coordinates);
decoration.setPatterns(options.patterns);
return decoration;
}
}
}
controller.getMap().then(function (map) {
leafletScope.$watch("decorations", function (newDecorations) {
for (var name in leafletDecorations) {
if (!isDefined(newDecorations[name]) || !angular.equals(newDecorations[name], leafletDecorations)) {
map.removeLayer(leafletDecorations[name]);
delete leafletDecorations[name];
}
}
for (var newName in newDecorations) {
var decorationData = newDecorations[newName],
newDecoration = createDecoration(decorationData);
if (isDefined(newDecoration)) {
leafletDecorations[newName] = newDecoration;
map.addLayer(newDecoration);
setDecorationOptions(newDecoration, decorationData);
}
}
}, true);
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('eventBroadcast', ["leafletLogger", "$rootScope", "leafletHelpers", "leafletMapEvents", "leafletIterators", function (leafletLogger, $rootScope, leafletHelpers, leafletMapEvents, leafletIterators) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
link: function link(scope, element, attrs, controller) {
var isObject = leafletHelpers.isObject,
isDefined = leafletHelpers.isDefined,
leafletScope = controller.getLeafletScope(),
eventBroadcast = leafletScope.eventBroadcast,
availableMapEvents = leafletMapEvents.getAvailableMapEvents(),
addEvents = leafletMapEvents.addEvents;
controller.getMap().then(function (map) {
var mapEvents = [],
logic = "broadcast";
// We have a possible valid object
if (!isDefined(eventBroadcast.map)) {
// We do not have events enable/disable do we do nothing (all enabled by default)
mapEvents = availableMapEvents;
} else if (!isObject(eventBroadcast.map)) {
// Not a valid object
$log.warn("[AngularJS - Leaflet] event-broadcast.map must be an object check your model.");
} else {
// We have a possible valid map object
// Event propadation logic
if (eventBroadcast.map.logic !== "emit" && eventBroadcast.map.logic !== "broadcast") {
// This is an error
$log.warn("[AngularJS - Leaflet] Available event propagation logic are: 'emit' or 'broadcast'.");
} else {
logic = eventBroadcast.map.logic;
}
if (!(isObject(eventBroadcast.map.enable) && eventBroadcast.map.enable.length >= 0)) {
$log.warn("[AngularJS - Leaflet] event-broadcast.map.enable must be an object check your model.");
} else {
// Enable events
leafletIterators.each(eventBroadcast.map.enable, function (eventName) {
// Do we have already the event enabled?
if (mapEvents.indexOf(eventName) === -1 && availableMapEvents.indexOf(eventName) !== -1) {
mapEvents.push(eventName);
}
});
}
}
// as long as the map is removed in the root leaflet directive we
// do not need ot clean up the events as leaflet does it itself
addEvents(map, attrs.id, mapEvents, "eventName", leafletScope, logic);
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('geojson', ["$timeout", "leafletLogger", "leafletData", "leafletHelpers", "leafletWatchHelpers", "leafletDirectiveControlsHelpers", "leafletIterators", "leafletGeoJsonEvents", function ($timeout, leafletLogger, leafletData, leafletHelpers, leafletWatchHelpers, leafletDirectiveControlsHelpers, leafletIterators, leafletGeoJsonEvents) {
var _maybeWatch = leafletWatchHelpers.maybeWatch,
_defaultWatchOptions = leafletHelpers.watchOptions,
_extendDirectiveControls = leafletDirectiveControlsHelpers.extend,
hlp = leafletHelpers,
$it = leafletIterators,
watchTrap = { changeFromDirective: false };
// $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
link: function link(scope, element, attrs, controller) {
var isDefined = leafletHelpers.isDefined,
leafletScope = controller.getLeafletScope(),
leafletGeoJSON = {},
_hasSetLeafletData = false;
controller.getMap().then(function (map) {
var watchOptions;
if (leafletScope.watchOptions && leafletScope.watchOptions.geojson) {
watchOptions = leafletScope.watchOptions.geojson;
} else {
watchOptions = _defaultWatchOptions;
}
var _hookUpEvents = function _hookUpEvents(geojson, maybeName) {
var onEachFeature;
if (angular.isFunction(geojson.onEachFeature)) {
onEachFeature = geojson.onEachFeature;
} else {
onEachFeature = function onEachFeature(feature, layer) {
if (leafletHelpers.LabelPlugin.isLoaded() && isDefined(feature.properties.description)) {
layer.bindLabel(feature.properties.description);
}
leafletGeoJsonEvents.bindEvents(attrs.id, layer, null, feature, leafletScope, maybeName, { resetStyleOnMouseout: geojson.resetStyleOnMouseout,
mapId: attrs.id });
};
}
return onEachFeature;
};
var isNested = hlp.isDefined(attrs.geojsonNested) && hlp.isTruthy(attrs.geojsonNested);
var _clean = function _clean() {
if (!leafletGeoJSON) return;
var _remove = function _remove(lObject) {
if (isDefined(lObject) && map.hasLayer(lObject)) {
map.removeLayer(lObject);
}
};
if (isNested) {
$it.each(leafletGeoJSON, function (lObject) {
_remove(lObject);
});
return;
}
_remove(leafletGeoJSON);
};
var _addGeojson = function _addGeojson(geojson, maybeName) {
if (!(isDefined(geojson) && isDefined(geojson.data))) {
return;
}
var onEachFeature = _hookUpEvents(geojson, maybeName);
if (!isDefined(geojson.options)) {
hlp.modelChangeInDirective(watchTrap, "changeFromDirective", function () {
geojson.options = {
style: geojson.style,
filter: geojson.filter,
onEachFeature: onEachFeature,
pointToLayer: geojson.pointToLayer
};
});
}
var lObject = L.geoJson(geojson.data, geojson.options);
if (maybeName && hlp.isString(maybeName)) {
leafletGeoJSON[maybeName] = lObject;
} else {
leafletGeoJSON = lObject;
}
lObject.addTo(map);
if (!_hasSetLeafletData) {
//only do this once and play with the same ref forever
_hasSetLeafletData = true;
leafletData.setGeoJSON(leafletGeoJSON, attrs.id);
}
};
var _create = function _create(model) {
_clean();
if (isNested) {
if (!model || !Object.keys(model).length) return;
$it.each(model, function (m, name) {
//name could be layerName and or groupName
//for now it is not tied to a layer
_addGeojson(m, name);
});
return;
}
_addGeojson(model);
};
_extendDirectiveControls(attrs.id, 'geojson', _create, _clean);
_maybeWatch(leafletScope, 'geojson', watchOptions, function (geojson) {
if (watchTrap.changeFromDirective) return;
_create(geojson);
});
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('layercontrol', ["$filter", "leafletLogger", "leafletData", "leafletHelpers", function ($filter, leafletLogger, leafletData, leafletHelpers) {
var $log = leafletLogger;
return {
restrict: "E",
scope: {
icons: '=?',
autoHideOpacity: '=?', // Hide other opacity controls when one is activated.
showGroups: '=?', // Hide other opacity controls when one is activated.
title: '@',
baseTitle: '@',
overlaysTitle: '@'
},
replace: true,
transclude: false,
require: '^leaflet',
controller: ["$scope", "$element", "$sce", function controller($scope, $element, $sce) {
$log.debug('[Angular Directive - Layers] layers', $scope, $element);
var safeApply = leafletHelpers.safeApply,
isDefined = leafletHelpers.isDefined;
angular.extend($scope, {
baselayer: '',
oldGroup: '',
layerProperties: {},
groupProperties: {},
rangeIsSupported: leafletHelpers.rangeIsSupported(),
changeBaseLayer: function changeBaseLayer(key, e) {
leafletHelpers.safeApply($scope, function (scp) {
scp.baselayer = key;
leafletData.getMap().then(function (map) {
leafletData.getLayers().then(function (leafletLayers) {
if (map.hasLayer(leafletLayers.baselayers[key])) {
return;
}
for (var i in scp.layers.baselayers) {
scp.layers.baselayers[i].icon = scp.icons.unradio;
if (map.hasLayer(leafletLayers.baselayers[i])) {
map.removeLayer(leafletLayers.baselayers[i]);
}
}
map.addLayer(leafletLayers.baselayers[key]);
scp.layers.baselayers[key].icon = $scope.icons.radio;
});
});
});
e.preventDefault();
},
moveLayer: function moveLayer(ly, newIndex, e) {
var delta = Object.keys($scope.layers.baselayers).length;
if (newIndex >= 1 + delta && newIndex <= $scope.overlaysArray.length + delta) {
var oldLy;
for (var key in $scope.layers.overlays) {
if ($scope.layers.overlays[key].index === newIndex) {
oldLy = $scope.layers.overlays[key];
break;
}
}
if (oldLy) {
safeApply($scope, function () {
oldLy.index = ly.index;
ly.index = newIndex;
});
}
}
e.stopPropagation();
e.preventDefault();
},
initIndex: function initIndex(layer, idx) {
var delta = Object.keys($scope.layers.baselayers).length;
layer.index = isDefined(layer.index) ? layer.index : idx + delta + 1;
},
initGroup: function initGroup(groupName) {
$scope.groupProperties[groupName] = $scope.groupProperties[groupName] ? $scope.groupProperties[groupName] : {};
},
toggleOpacity: function toggleOpacity(e, layer) {
if (layer.visible) {
if ($scope.autoHideOpacity && !$scope.layerProperties[layer.name].opacityControl) {
for (var k in $scope.layerProperties) {
$scope.layerProperties[k].opacityControl = false;
}
}
$scope.layerProperties[layer.name].opacityControl = !$scope.layerProperties[layer.name].opacityControl;
}
e.stopPropagation();
e.preventDefault();
},
toggleLegend: function toggleLegend(layer) {
$scope.layerProperties[layer.name].showLegend = !$scope.layerProperties[layer.name].showLegend;
},
showLegend: function showLegend(layer) {
return layer.legend && $scope.layerProperties[layer.name].showLegend;
},
unsafeHTML: function unsafeHTML(html) {
return $sce.trustAsHtml(html);
},
getOpacityIcon: function getOpacityIcon(layer) {
return layer.visible && $scope.layerProperties[layer.name].opacityControl ? $scope.icons.close : $scope.icons.open;
},
getGroupIcon: function getGroupIcon(group) {
return group.visible ? $scope.icons.check : $scope.icons.uncheck;
},
changeGroupVisibility: function changeGroupVisibility(groupName) {
if (!isDefined($scope.groupProperties[groupName])) {
return;
}
var visible = $scope.groupProperties[groupName].visible;
for (var k in $scope.layers.overlays) {
var layer = $scope.layers.overlays[k];
if (layer.group === groupName) {
layer.visible = visible;
}
}
}
});
var div = $element.get(0);
if (!L.Browser.touch) {
L.DomEvent.disableClickPropagation(div);
L.DomEvent.on(div, 'mousewheel', L.DomEvent.stopPropagation);
} else {
L.DomEvent.on(div, 'click', L.DomEvent.stopPropagation);
}
}],
template: '' + '
{{ title }}
' + '
' + '
{{ baseTitle }}
' + '
' + '
' + '
' + '
' + '
' + '
{{ overlaysTitle }}
' + '
' + '
' + '
' + '
' + '
' + ' ' + ' ' + ' ' + '' + '
' + '
' + '
' + '' + '' + '' + '
Range is not supported in this browser
' + '' + '
' + '
' + '
' + '
',
link: function link(scope, element, attrs, controller) {
var isDefined = leafletHelpers.isDefined,
leafletScope = controller.getLeafletScope(),
layers = leafletScope.layers;
scope.$watch('icons', function () {
var defaultIcons = {
uncheck: 'fa fa-square-o',
check: 'fa fa-check-square-o',
radio: 'fa fa-dot-circle-o',
unradio: 'fa fa-circle-o',
up: 'fa fa-angle-up',
down: 'fa fa-angle-down',
open: 'fa fa-angle-double-down',
close: 'fa fa-angle-double-up',
toggleLegend: 'fa fa-pencil-square-o'
};
if (isDefined(scope.icons)) {
angular.extend(defaultIcons, scope.icons);
angular.extend(scope.icons, defaultIcons);
} else {
scope.icons = defaultIcons;
}
});
// Setting layer stack order.
attrs.order = isDefined(attrs.order) && (attrs.order === 'normal' || attrs.order === 'reverse') ? attrs.order : 'normal';
scope.order = attrs.order === 'normal';
scope.orderNumber = attrs.order === 'normal' ? -1 : 1;
scope.layers = layers;
controller.getMap().then(function (map) {
leafletScope.$watch('layers.baselayers', function (newBaseLayers) {
var baselayersArray = {};
leafletData.getLayers().then(function (leafletLayers) {
var key;
for (key in newBaseLayers) {
var layer = newBaseLayers[key];
layer.icon = scope.icons[map.hasLayer(leafletLayers.baselayers[key]) ? 'radio' : 'unradio'];
baselayersArray[key] = layer;
}
scope.baselayersArray = baselayersArray;
});
});
leafletScope.$watch('layers.overlays', function (newOverlayLayers) {
var overlaysArray = [];
var groupVisibleCount = {};
leafletData.getLayers().then(function () {
var key;
for (key in newOverlayLayers) {
var layer = newOverlayLayers[key];
layer.icon = scope.icons[layer.visible ? 'check' : 'uncheck'];
overlaysArray.push(layer);
if (!isDefined(scope.layerProperties[layer.name])) {
if (isDefined(layer.layerOptions.opacity)) {
layer.layerOptions.opacity = 1;
}
scope.layerProperties[layer.name] = {
opacityControl: false,
showLegend: true,
layerOptions: layer.layerOptions
};
}
if (isDefined(layer.group)) {
if (!isDefined(scope.groupProperties[layer.group])) {
scope.groupProperties[layer.group] = {
visible: false
};
}
groupVisibleCount[layer.group] = isDefined(groupVisibleCount[layer.group]) ? groupVisibleCount[layer.group] : {
count: 0,
visibles: 0
};
groupVisibleCount[layer.group].count++;
if (layer.visible) {
groupVisibleCount[layer.group].visibles++;
}
}
/*
if(isDefined(layer.index) && leafletLayers.overlays[key].setZIndex) {
leafletLayers.overlays[key].setZIndex(newOverlayLayers[key].index);
}
*/
}
for (key in groupVisibleCount) {
scope.groupProperties[key].visible = groupVisibleCount[key].visibles === groupVisibleCount[key].count;
}
scope.overlaysArray = overlaysArray;
});
}, true);
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('layers', ["leafletLogger", "$q", "leafletData", "leafletHelpers", "leafletLayerHelpers", "leafletControlHelpers", function (leafletLogger, $q, leafletData, leafletHelpers, leafletLayerHelpers, leafletControlHelpers) {
// var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
controller: ["$scope", function controller($scope) {
$scope._leafletLayers = $q.defer();
this.getLayers = function () {
return $scope._leafletLayers.promise;
};
}],
link: function link(scope, element, attrs, controller) {
var isDefined = leafletHelpers.isDefined,
leafletLayers = {},
leafletScope = controller.getLeafletScope(),
layers = leafletScope.layers,
createLayer = leafletLayerHelpers.createLayer,
safeAddLayer = leafletLayerHelpers.safeAddLayer,
safeRemoveLayer = leafletLayerHelpers.safeRemoveLayer,
changeOpacityListener = leafletLayerHelpers.changeOpacityListener,
updateLayersControl = leafletControlHelpers.updateLayersControl,
isLayersControlVisible = false;
scope.$on('$destroy', function () {
leafletControlHelpers.destroyMapLayersControl(scope.mapId);
});
controller.getMap().then(function (map) {
// We have baselayers to add to the map
scope._leafletLayers.resolve(leafletLayers);
leafletData.setLayers(leafletLayers, attrs.id);
leafletLayers.baselayers = {};
leafletLayers.overlays = {};
var mapId = attrs.id;
// Setup all baselayers definitions
var oneVisibleLayer = false;
for (var layerName in layers.baselayers) {
var newBaseLayer = createLayer(layers.baselayers[layerName]);
if (!isDefined(newBaseLayer)) {
delete layers.baselayers[layerName];
continue;
}
leafletLayers.baselayers[layerName] = newBaseLayer;
// Only add the visible layer to the map, layer control manages the addition to the map
// of layers in its control
if (layers.baselayers[layerName].top === true) {
safeAddLayer(map, leafletLayers.baselayers[layerName]);
oneVisibleLayer = true;
}
}
// If there is no visible layer add first to the map
if (!oneVisibleLayer && Object.keys(leafletLayers.baselayers).length > 0) {
safeAddLayer(map, leafletLayers.baselayers[Object.keys(layers.baselayers)[0]]);
}
// Setup the Overlays
for (layerName in layers.overlays) {
if (layers.overlays[layerName].type === 'cartodb') {}
var newOverlayLayer = createLayer(layers.overlays[layerName]);
if (!isDefined(newOverlayLayer)) {
delete layers.overlays[layerName];
continue;
}
leafletLayers.overlays[layerName] = newOverlayLayer;
// Only add the visible overlays to the map
if (layers.overlays[layerName].visible === true) {
safeAddLayer(map, leafletLayers.overlays[layerName]);
}
}
// Watch for the base layers
leafletScope.$watch('layers.baselayers', function (newBaseLayers, oldBaseLayers) {
if (angular.equals(newBaseLayers, oldBaseLayers)) {
isLayersControlVisible = updateLayersControl(map, mapId, isLayersControlVisible, newBaseLayers, layers.overlays, leafletLayers);
return true;
}
// Delete layers from the array
for (var name in leafletLayers.baselayers) {
if (!isDefined(newBaseLayers[name]) || newBaseLayers[name].doRefresh) {
// Remove from the map if it's on it
if (map.hasLayer(leafletLayers.baselayers[name])) {
map.removeLayer(leafletLayers.baselayers[name]);
}
delete leafletLayers.baselayers[name];
if (newBaseLayers[name] && newBaseLayers[name].doRefresh) {
newBaseLayers[name].doRefresh = false;
}
}
}
// add new layers
for (var newName in newBaseLayers) {
if (!isDefined(leafletLayers.baselayers[newName])) {
var testBaseLayer = createLayer(newBaseLayers[newName]);
if (isDefined(testBaseLayer)) {
leafletLayers.baselayers[newName] = testBaseLayer;
// Only add the visible layer to the map
if (newBaseLayers[newName].top === true) {
safeAddLayer(map, leafletLayers.baselayers[newName]);
}
}
} else {
if (newBaseLayers[newName].top === true && !map.hasLayer(leafletLayers.baselayers[newName])) {
safeAddLayer(map, leafletLayers.baselayers[newName]);
} else if (newBaseLayers[newName].top === false && map.hasLayer(leafletLayers.baselayers[newName])) {
map.removeLayer(leafletLayers.baselayers[newName]);
}
}
}
//we have layers, so we need to make, at least, one active
var found = false;
// search for an active layer
for (var key in leafletLayers.baselayers) {
if (map.hasLayer(leafletLayers.baselayers[key])) {
found = true;
break;
}
}
// If there is no active layer make one active
if (!found && Object.keys(leafletLayers.baselayers).length > 0) {
safeAddLayer(map, leafletLayers.baselayers[Object.keys(leafletLayers.baselayers)[0]]);
}
// Only show the layers switch selector control if we have more than one baselayer + overlay
isLayersControlVisible = updateLayersControl(map, mapId, isLayersControlVisible, newBaseLayers, layers.overlays, leafletLayers);
}, true);
// Watch for the overlay layers
leafletScope.$watch('layers.overlays', function (newOverlayLayers, oldOverlayLayers) {
if (angular.equals(newOverlayLayers, oldOverlayLayers)) {
isLayersControlVisible = updateLayersControl(map, mapId, isLayersControlVisible, layers.baselayers, newOverlayLayers, leafletLayers);
return true;
}
// Delete layers from the array
for (var name in leafletLayers.overlays) {
if (!isDefined(newOverlayLayers[name]) || newOverlayLayers[name].doRefresh) {
// Remove from the map if it's on it
if (map.hasLayer(leafletLayers.overlays[name])) {
// Safe remove when ArcGIS layers is loading.
var options = isDefined(newOverlayLayers[name]) ? newOverlayLayers[name].layerOptions : null;
safeRemoveLayer(map, leafletLayers.overlays[name], options);
}
// TODO: Depending on the layer type we will have to delete what's included on it
delete leafletLayers.overlays[name];
if (newOverlayLayers[name] && newOverlayLayers[name].doRefresh) {
newOverlayLayers[name].doRefresh = false;
}
}
}
// add new overlays
for (var newName in newOverlayLayers) {
if (!isDefined(leafletLayers.overlays[newName])) {
var testOverlayLayer = createLayer(newOverlayLayers[newName]);
if (!isDefined(testOverlayLayer)) {
// If the layer creation fails, continue to the next overlay
continue;
}
leafletLayers.overlays[newName] = testOverlayLayer;
if (newOverlayLayers[newName].visible === true) {
safeAddLayer(map, leafletLayers.overlays[newName]);
}
if (isDefined(newOverlayLayers[newName].index) && leafletLayers.overlays[newName].setZIndex) {
leafletLayers.overlays[newName].setZIndex(newOverlayLayers[newName].index);
}
} else {
// check for the .visible property to hide/show overLayers
if (newOverlayLayers[newName].visible && !map.hasLayer(leafletLayers.overlays[newName])) {
safeAddLayer(map, leafletLayers.overlays[newName]);
} else if (newOverlayLayers[newName].visible === false && map.hasLayer(leafletLayers.overlays[newName])) {
// Safe remove when ArcGIS layers is loading.
safeRemoveLayer(map, leafletLayers.overlays[newName], newOverlayLayers[newName].layerOptions);
}
// check for the .layerOptions.opacity property has changed.
var ly = leafletLayers.overlays[newName];
if (map.hasLayer(leafletLayers.overlays[newName])) {
if (newOverlayLayers[newName].layerOptions.opacity !== oldOverlayLayers[newName].layerOptions.opacity) {
if (isDefined(ly.setOpacity)) {
ly.setOpacity(newOverlayLayers[newName].layerOptions.opacity);
}
if (isDefined(ly.getLayers) && isDefined(ly.eachLayer)) {
ly.eachLayer(changeOpacityListener(newOverlayLayers[newName].layerOptions.opacity));
}
}
if (isDefined(newOverlayLayers[newName].index) && ly.setZIndex && newOverlayLayers[newName].index !== oldOverlayLayers[newName].index) {
ly.setZIndex(newOverlayLayers[newName].index);
}
}
}
//refresh heatmap data if present
if (newOverlayLayers[newName].visible && map._loaded && newOverlayLayers[newName].data && newOverlayLayers[newName].type === "heatmap") {
leafletLayers.overlays[newName].setData(newOverlayLayers[newName].data);
leafletLayers.overlays[newName].update();
}
}
// Only add the layers switch selector control if we have more than one baselayer + overlay
isLayersControlVisible = updateLayersControl(map, mapId, isLayersControlVisible, layers.baselayers, newOverlayLayers, leafletLayers);
}, true);
});
}
};
}]);
'use strict';
angular.module("ui-leaflet").directive('legend', ["leafletLogger", "$http", "$timeout", "leafletHelpers", "leafletLegendHelpers", function (leafletLogger, $http, $timeout, leafletHelpers, leafletLegendHelpers) {
var $log = leafletLogger,
errorHeader = leafletHelpers.errorHeader + ' [Legend] ';
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
transclude: false,
link: function link(scope, element, attrs, controller) {
var isArray = leafletHelpers.isArray,
isString = leafletHelpers.isString,
isDefined = leafletHelpers.isDefined,
isFunction = leafletHelpers.isFunction,
leafletScope = controller.getLeafletScope(),
legend = leafletScope.legend;
var legendClass;
var position;
var leafletLegend;
var type;
leafletScope.$watch('legend', function (newLegend) {
if (isDefined(newLegend)) {
legendClass = newLegend.legendClass ? newLegend.legendClass : "legend";
position = newLegend.position || 'bottomright';
// default to arcgis
type = newLegend.type || 'arcgis';
}
}, true);
var createLegend = function createLegend(map, legendData, newURL) {
if (legendData && legendData.layers && legendData.layers.length > 0) {
if (isDefined(leafletLegend)) {
leafletLegendHelpers.updateLegend(leafletLegend.getContainer(), legendData, type, newURL);
} else {
leafletLegend = L.control({
position: position
});
leafletLegend.onAdd = leafletLegendHelpers.getOnAddLegend(legendData, legendClass, type, newURL);
leafletLegend.addTo(map);
}
if (isDefined(legend.loadedData) && isFunction(legend.loadedData)) {
legend.loadedData();
}
}
};
controller.getMap().then(function (map) {
leafletScope.$watch('legend', function (newLegend) {
if (!isDefined(newLegend)) {
if (isDefined(leafletLegend)) {
leafletLegend.removeFrom(map);
leafletLegend = null;
}
return;
}
if (!isDefined(newLegend.url) && type === 'arcgis' && (!isArray(newLegend.colors) || !isArray(newLegend.labels) || newLegend.colors.length !== newLegend.labels.length)) {
$log.warn(errorHeader + " legend.colors and legend.labels must be set.");
return;
}
if (isDefined(newLegend.url)) {
$log.info(errorHeader + " loading legend service.");
return;
}
if (isDefined(leafletLegend)) {
leafletLegend.removeFrom(map);
leafletLegend = null;
}
leafletLegend = L.control({
position: position
});
if (type === 'arcgis') {
leafletLegend.onAdd = leafletLegendHelpers.getOnAddArrayLegend(newLegend, legendClass);
}
leafletLegend.addTo(map);
});
leafletScope.$watch('legend.url', function (newURL) {
if (!isDefined(newURL)) {
return;
}
if (!isArray(newURL) && !isString(newURL)) {
$log.warn(errorHeader + " legend.url must be an array or string.");
return;
}
var urls = isString(newURL) ? [newURL] : newURL;
var legendData;
var onResult = function onResult(idx, url) {
return function (ld) {
if (isDefined(ld.data.error)) {
$log.warn(errorHeader + 'Error loadin legend from: ' + url, ld.data.error.message);
} else {
if (legendData && legendData.layers && legendData.layers.length > 0) {
legendData.layers = legendData.layers.concat(ld.data.layers);
} else {
legendData = ld.data;
}
}
if (idx === urls.length - 1) {
createLegend(map, legendData, newURL);
}
};
};
var onError = function onError(err) {
$log.warn(errorHeader + ' legend.url not loaded.', err);
};
for (var i = 0; i < urls.length; i++) {
leafletLegendHelpers.addLegendURL(attrs.id, {
url: urls[i],
method: 'GET'
}).then(onResult(i)).catch(onError);
}
});
leafletScope.$watch('legend.legendData', function (legendData) {
$log.debug('legendData', legendData);
if (isDefined(leafletScope.legend.url) || !isDefined(legendData)) {
return;
}
createLegend(map, legendData);
}, true);
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('markers', ["leafletLogger", "$rootScope", "$q", "leafletData", "leafletHelpers", "leafletMapDefaults", "leafletMarkersHelpers", "leafletMarkerEvents", "leafletIterators", "leafletWatchHelpers", "leafletDirectiveControlsHelpers", function (leafletLogger, $rootScope, $q, leafletData, leafletHelpers, leafletMapDefaults, leafletMarkersHelpers, leafletMarkerEvents, leafletIterators, leafletWatchHelpers, leafletDirectiveControlsHelpers) {
//less terse vars to helpers
var isDefined = leafletHelpers.isDefined,
errorHeader = leafletHelpers.errorHeader,
Helpers = leafletHelpers,
isString = leafletHelpers.isString,
addMarkerWatcher = leafletMarkersHelpers.addMarkerWatcher,
updateMarker = leafletMarkersHelpers.updateMarker,
listenMarkerEvents = leafletMarkersHelpers.listenMarkerEvents,
addMarkerToGroup = leafletMarkersHelpers.addMarkerToGroup,
createMarker = leafletMarkersHelpers.createMarker,
deleteMarker = leafletMarkersHelpers.deleteMarker,
getModelFromModels = leafletMarkersHelpers.getModelFromModels,
getLayerModels = leafletMarkersHelpers.getLayerModels,
resetUnusedMarkerGroups = leafletMarkersHelpers.resetUnusedMarkerGroups,
$it = leafletIterators,
_defaultWatchOptions = leafletHelpers.watchOptions,
maybeWatch = leafletWatchHelpers.maybeWatch,
extendDirectiveControls = leafletDirectiveControlsHelpers.extend,
$log = leafletLogger,
watchTrap = { changeFromDirective: false };
var _getLMarker = function _getLMarker(leafletMarkers, name, maybeLayerName) {
if (!Object.keys(leafletMarkers).length) return;
if (maybeLayerName && isString(maybeLayerName)) {
if (!leafletMarkers[maybeLayerName] || !Object.keys(leafletMarkers[maybeLayerName]).length) return;
return leafletMarkers[maybeLayerName][name];
}
return leafletMarkers[name];
};
var _setLMarker = function _setLMarker(lObject, leafletMarkers, name, maybeLayerName) {
if (maybeLayerName && isString(maybeLayerName)) {
if (!isDefined(leafletMarkers[maybeLayerName])) leafletMarkers[maybeLayerName] = {};
leafletMarkers[maybeLayerName][name] = lObject;
} else leafletMarkers[name] = lObject;
return lObject;
};
var _maybeAddMarkerToLayer = function _maybeAddMarkerToLayer(layerName, layers, model, marker, watchType, map) {
if (!isString(layerName)) {
$log.error(errorHeader + ' A layername must be a string');
return false;
}
if (!isDefined(layers)) {
$log.error(errorHeader + ' You must add layers to the directive if the markers are going to use this functionality.');
return false;
}
if (!isDefined(layers.overlays) || !isDefined(layers.overlays[layerName])) {
$log.error(errorHeader + ' A marker can only be added to a layer of type "group"');
return false;
}
var layerGroup = layers.overlays[layerName];
if (!(layerGroup instanceof L.LayerGroup || layerGroup instanceof L.FeatureGroup)) {
$log.error(errorHeader + ' Adding a marker to an overlay needs a overlay of the type "group" or "featureGroup"');
return false;
}
// The marker goes to a correct layer group, so first of all we add it
layerGroup.addLayer(marker);
// The marker is automatically added to the map depending on the visibility
// of the layer, so we only have to open the popup if the marker is in the map
if (watchType === null && map.hasLayer(marker) && model.focus === true) {
marker.openPopup();
}
return true;
};
//TODO: move to leafletMarkersHelpers??? or make a new class/function file (leafletMarkersHelpers is large already)
var _addMarkers = function _addMarkers(mapId, markersToRender, oldModels, map, layers, leafletMarkers, leafletScope, watchOptions, maybeLayerName, skips) {
$it.each(markersToRender, function (model, newName) {
if (skips[newName]) return;
if (newName.search("-") !== -1) {
$log.error('The marker can\'t use a "-" on his key name: "' + newName + '".');
return;
}
var pathToMarker = Helpers.getObjectDotPath(maybeLayerName ? [maybeLayerName, newName] : [newName]);
var maybeLMarker = _getLMarker(leafletMarkers, newName, maybeLayerName);
Helpers.modelChangeInDirective(watchTrap, "changeFromDirective", function () {
if (!isDefined(maybeLMarker)) {
var marker = createMarker(model);
var layerName = (model ? model.layer : undefined) || maybeLayerName; //original way takes pref
if (!isDefined(marker)) {
$log.error(errorHeader + ' Received invalid data on the marker ' + newName + '.');
return;
}
_setLMarker(marker, leafletMarkers, newName, maybeLayerName);
// Bind message
if (isDefined(model.message)) {
marker.bindPopup(model.message, model.popupOptions);
}
// Add the marker to a cluster group if needed
if (isDefined(model.group)) {
var groupOptions = isDefined(model.groupOption) ? model.groupOption : null;
addMarkerToGroup(marker, model.group, groupOptions, map);
}
// Show label if defined
if (Helpers.LabelPlugin.isLoaded() && isDefined(model.label) && isDefined(model.label.message)) {
marker.bindLabel(model.label.message, model.label.options);
}
// Check if the marker should be added to a layer
if (isDefined(model) && (isDefined(model.layer) || isDefined(maybeLayerName))) {
var pass = _maybeAddMarkerToLayer(layerName, layers, model, marker, watchOptions.individual.type, map);
if (!pass) return; //something went wrong move on in the loop
} else if (!isDefined(model.group)) {
// We do not have a layer attr, so the marker goes to the map layer
map.addLayer(marker);
if (watchOptions.individual.type === null && model.focus === true) {
marker.openPopup();
}
}
if (watchOptions.individual.type !== null) {
addMarkerWatcher(marker, pathToMarker, leafletScope, layers, map, watchOptions.individual);
}
listenMarkerEvents(marker, model, leafletScope, watchOptions.individual.type, map);
leafletMarkerEvents.bindEvents(mapId, marker, pathToMarker, model, leafletScope, layerName);
} else {
var oldModel = getModelFromModels(oldModels, newName, maybeLayerName);
updateMarker(model, oldModel, maybeLMarker, pathToMarker, leafletScope, layers, map);
}
});
});
};
var _seeWhatWeAlreadyHave = function _seeWhatWeAlreadyHave(markerModels, oldMarkerModels, lMarkers, isEqual, cb) {
var hasLogged = false,
equals = false,
oldMarker,
newMarker;
var doCheckOldModel = isDefined(oldMarkerModels);
for (var name in lMarkers) {
if (!hasLogged) {
$log.debug(errorHeader + "[markers] destroy: ");
hasLogged = true;
}
if (doCheckOldModel) {
//might want to make the option (in watch options) to disable deep checking
//ie the options to only check !== (reference check) instead of angular.equals (slow)
newMarker = markerModels[name];
oldMarker = oldMarkerModels[name];
equals = isEqual && angular.equals(newMarker, oldMarker);
}
if (!isDefined(markerModels) || !Object.keys(markerModels).length || !isDefined(markerModels[name]) || !Object.keys(markerModels[name]).length || equals) {
if (cb && Helpers.isFunction(cb)) cb(newMarker, oldMarker, name);
}
}
};
var _destroy = function _destroy(markerModels, oldMarkerModels, lMarkers, map, layers) {
_seeWhatWeAlreadyHave(markerModels, oldMarkerModels, lMarkers, false, function (newMarker, oldMarker, lMarkerName) {
$log.debug(errorHeader + '[marker] is deleting marker: ' + lMarkerName);
deleteMarker(lMarkers[lMarkerName], map, layers);
delete lMarkers[lMarkerName];
});
};
var _getNewModelsToSkipp = function _getNewModelsToSkipp(newModels, oldModels, lMarkers) {
var skips = {};
_seeWhatWeAlreadyHave(newModels, oldModels, lMarkers, true, function (newMarker, oldMarker, lMarkerName) {
$log.debug(errorHeader + '[marker] is already rendered, marker: ' + lMarkerName);
skips[lMarkerName] = newMarker;
});
return skips;
};
return {
restrict: "A",
scope: false,
replace: false,
require: ['leaflet', '?layers'],
link: function link(scope, element, attrs, controller) {
var mapController = controller[0],
leafletScope = mapController.getLeafletScope();
mapController.getMap().then(function (map) {
var leafletMarkers = {},
getLayers;
// If the layers attribute is used, we must wait until the layers are created
if (isDefined(controller[1])) {
getLayers = controller[1].getLayers;
} else {
getLayers = function getLayers() {
var deferred = $q.defer();
deferred.resolve();
return deferred.promise;
};
}
var watchOptions;
if (leafletScope.watchOptions && leafletScope.watchOptions.markers) {
watchOptions = leafletScope.watchOptions.markers;
} else {
watchOptions = _defaultWatchOptions;
}
var isNested = isDefined(attrs.markersNested) && Helpers.isTruthy(attrs.markersNested);
getLayers().then(function (layers) {
var _clean = function _clean(models, oldModels) {
resetUnusedMarkerGroups();
if (isNested) {
$it.each(models, function (markerToMaybeDel, layerName) {
var oldLayerModels = getLayerModels(oldModels, layerName);
_destroy(markerToMaybeDel, oldLayerModels, leafletMarkers[layerName], map, layers);
});
return;
}
_destroy(models, oldModels, leafletMarkers, map, layers);
};
var _create = function _create(models, oldModels) {
_clean(models, oldModels);
var skips = null;
if (isNested) {
$it.each(models, function (markersToAdd, layerName) {
var oldLayerModels = getLayerModels(oldModels, layerName);
var newlayerModels = getLayerModels(models, layerName);
skips = _getNewModelsToSkipp(newlayerModels, oldLayerModels, leafletMarkers[layerName]);
_addMarkers(attrs.id, markersToAdd, oldModels, map, layers, leafletMarkers, leafletScope, watchOptions, layerName, skips);
});
return;
}
skips = _getNewModelsToSkipp(models, oldModels, leafletMarkers);
_addMarkers(attrs.id, models, oldModels, map, layers, leafletMarkers, leafletScope, watchOptions, undefined, skips);
};
extendDirectiveControls(attrs.id, 'markers', _create, _clean);
leafletData.setMarkers(leafletMarkers, attrs.id);
maybeWatch(leafletScope, 'markers', watchOptions, function (newMarkers, oldMarkers) {
if (watchTrap.changeFromDirective) return;
_create(newMarkers, oldMarkers);
});
scope.$on('$destroy', function () {
_destroy(leafletScope.markers, {}, leafletMarkers, map, layers);
});
});
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('maxbounds', ["leafletLogger", "leafletMapDefaults", "leafletBoundsHelpers", "leafletHelpers", function (leafletLogger, leafletMapDefaults, leafletBoundsHelpers, leafletHelpers) {
// var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
link: function link(scope, element, attrs, controller) {
var leafletScope = controller.getLeafletScope(),
isValidBounds = leafletBoundsHelpers.isValidBounds,
isNumber = leafletHelpers.isNumber;
controller.getMap().then(function (map) {
leafletScope.$watch("maxbounds", function (maxbounds) {
if (!isValidBounds(maxbounds)) {
// Unset any previous maxbounds
map.setMaxBounds();
return;
}
var leafletBounds = leafletBoundsHelpers.createLeafletBounds(maxbounds);
if (isNumber(maxbounds.pad)) {
leafletBounds = leafletBounds.pad(maxbounds.pad);
}
map.setMaxBounds(leafletBounds);
if (!attrs.center && !attrs.lfCenter) {
map.fitBounds(leafletBounds);
}
});
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('paths', ["leafletLogger", "$q", "leafletData", "leafletMapDefaults", "leafletHelpers", "leafletPathsHelpers", "leafletPathEvents", "leafletWatchHelpers", function (leafletLogger, $q, leafletData, leafletMapDefaults, leafletHelpers, leafletPathsHelpers, leafletPathEvents, leafletWatchHelpers) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: ['leaflet', '?layers'],
link: function link(scope, element, attrs, controller) {
var mapController = controller[0],
isDefined = leafletHelpers.isDefined,
isString = leafletHelpers.isString,
leafletScope = mapController.getLeafletScope(),
paths = leafletScope.paths,
createPath = leafletPathsHelpers.createPath,
bindPathEvents = leafletPathEvents.bindPathEvents,
setPathOptions = leafletPathsHelpers.setPathOptions,
maybeWatch = leafletWatchHelpers.maybeWatch;
mapController.getMap().then(function (map) {
var defaults = leafletMapDefaults.getDefaults(attrs.id),
getLayers;
// If the layers attribute is used, we must wait until the layers are created
if (isDefined(controller[1])) {
getLayers = controller[1].getLayers;
} else {
getLayers = function getLayers() {
var deferred = $q.defer();
deferred.resolve();
return deferred.promise;
};
}
if (!isDefined(paths)) {
return;
}
//legacy behaviour does a watch collection on the paths
var _legacyWatchOptions = {
type: 'watchCollection',
individual: {
type: 'watchDeep'
}
};
var watchOptions;
if (leafletScope.watchOptions && leafletScope.watchOptions.paths) {
watchOptions = leafletScope.watchOptions.paths;
} else {
watchOptions = _legacyWatchOptions;
}
getLayers().then(function (layers) {
var leafletPaths = {};
leafletData.setPaths(leafletPaths, attrs.id);
// Function for listening every single path once created
var watchPathFn = function watchPathFn(leafletPath, name, watchOptions) {
var pathWatchPath = "paths[\"" + name + "\"]";
maybeWatch(leafletScope, pathWatchPath, watchOptions, function (pathData, old, clearWatch) {
if (!isDefined(pathData)) {
if (isDefined(old.layer)) {
for (var i in layers.overlays) {
var overlay = layers.overlays[i];
overlay.removeLayer(leafletPath);
}
}
map.removeLayer(leafletPath);
clearWatch();
return;
}
setPathOptions(leafletPath, pathData.type, pathData);
});
};
var _clean = function _clean(newPaths) {
// Delete paths (by name) from the array
for (var name in leafletPaths) {
if (!isDefined(newPaths[name])) {
map.removeLayer(leafletPaths[name]);
delete leafletPaths[name];
}
}
};
var _create = function _create(newPaths) {
_clean(newPaths);
// Create the new paths
for (var newName in newPaths) {
if (newName.search('\\$') === 0) {
continue;
}
if (newName.search("-") !== -1) {
$log.error('[AngularJS - Leaflet] The path name "' + newName + '" is not valid. It must not include "-" and a number.');
continue;
}
if (!isDefined(leafletPaths[newName])) {
var pathData = newPaths[newName];
var newPath = createPath(newName, newPaths[newName], defaults);
// bind popup if defined
if (isDefined(newPath) && isDefined(pathData.message)) {
newPath.bindPopup(pathData.message, pathData.popupOptions);
}
// Show label if defined
if (leafletHelpers.LabelPlugin.isLoaded() && isDefined(pathData.label) && isDefined(pathData.label.message)) {
newPath.bindLabel(pathData.label.message, pathData.label.options);
}
// Check if the marker should be added to a layer
if (isDefined(pathData) && isDefined(pathData.layer)) {
if (!isString(pathData.layer)) {
$log.error('[AngularJS - Leaflet] A layername must be a string');
continue;
}
if (!isDefined(layers)) {
$log.error('[AngularJS - Leaflet] You must add layers to the directive if the markers are going to use this functionality.');
continue;
}
if (!isDefined(layers.overlays) || !isDefined(layers.overlays[pathData.layer])) {
$log.error('[AngularJS - Leaflet] A path can only be added to a layer of type "group"');
continue;
}
var layerGroup = layers.overlays[pathData.layer];
if (!(layerGroup instanceof L.LayerGroup || layerGroup instanceof L.FeatureGroup)) {
$log.error('[AngularJS - Leaflet] Adding a path to an overlay needs a overlay of the type "group" or "featureGroup"');
continue;
}
// Listen for changes on the new path
leafletPaths[newName] = newPath;
// The path goes to a correct layer group, so first of all we add it
layerGroup.addLayer(newPath);
if (watchOptions.individual.type !== null) {
watchPathFn(newPath, newName, watchOptions.individual);
} else {
setPathOptions(newPath, pathData.type, pathData);
}
} else if (isDefined(newPath)) {
// Listen for changes on the new path
leafletPaths[newName] = newPath;
map.addLayer(newPath);
if (watchOptions.individual.type !== null) {
watchPathFn(newPath, newName, watchOptions.individual);
} else {
setPathOptions(newPath, pathData.type, pathData);
}
}
bindPathEvents(attrs.id, newPath, newName, pathData, leafletScope);
}
}
};
maybeWatch(leafletScope, 'paths', watchOptions, function (newPaths) {
_create(newPaths);
});
});
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('tiles', ["leafletLogger", "leafletData", "leafletMapDefaults", "leafletHelpers", function (leafletLogger, leafletData, leafletMapDefaults, leafletHelpers) {
var $log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: 'leaflet',
link: function link(scope, element, attrs, controller) {
var isDefined = leafletHelpers.isDefined,
leafletScope = controller.getLeafletScope(),
tiles = leafletScope.tiles;
if (!isDefined(tiles) || !isDefined(tiles.url)) {
$log.warn("[AngularJS - Leaflet] The 'tiles' definition doesn't have the 'url' property.");
return;
}
controller.getMap().then(function (map) {
var defaults = leafletMapDefaults.getDefaults(attrs.id);
var tileLayerObj;
leafletScope.$watch("tiles", function (tiles) {
var tileLayerOptions = defaults.tileLayerOptions;
var tileLayerUrl = defaults.tileLayer;
// If no valid tiles are in the scope, remove the last layer
if (!isDefined(tiles.url) && isDefined(tileLayerObj)) {
map.removeLayer(tileLayerObj);
return;
}
// No leafletTiles object defined yet
if (!isDefined(tileLayerObj)) {
if (isDefined(tiles.options)) {
angular.copy(tiles.options, tileLayerOptions);
}
if (isDefined(tiles.url)) {
tileLayerUrl = tiles.url;
}
tileLayerObj = L.tileLayer(tileLayerUrl, tileLayerOptions);
tileLayerObj.addTo(map);
leafletData.setTiles(tileLayerObj, attrs.id);
return;
}
// If the options of the tilelayer is changed, we need to redraw the layer
if (isDefined(tiles.url) && isDefined(tiles.options) && !angular.equals(tiles.options, tileLayerOptions)) {
map.removeLayer(tileLayerObj);
tileLayerOptions = defaults.tileLayerOptions;
angular.copy(tiles.options, tileLayerOptions);
tileLayerUrl = tiles.url;
tileLayerObj = L.tileLayer(tileLayerUrl, tileLayerOptions);
tileLayerObj.addTo(map);
leafletData.setTiles(tileLayerObj, attrs.id);
return;
}
// Only the URL of the layer is changed, update the tiles object
if (isDefined(tiles.url)) {
tileLayerObj.setUrl(tiles.url);
}
}, true);
});
}
};
}]);
'use strict';
angular.module('ui-leaflet').directive('watchOptions', ['$log', '$rootScope', '$q', 'leafletData', 'leafletHelpers', function (leafletLogger, $rootScope, $q, leafletData, leafletHelpers) {
var isDefined = leafletHelpers.isDefined,
errorHeader = leafletHelpers.errorHeader,
isObject = leafletHelpers.isObject,
$log = leafletLogger;
return {
restrict: "A",
scope: false,
replace: false,
require: ['leaflet'],
link: function link(scope, element, attrs, controller) {
var mapController = controller[0],
leafletScope = mapController.getLeafletScope();
var _isValidWatchType = function _isValidWatchType(type) {
return type === 'watch' || type === 'watchCollection' || type === 'watchDeep' || type === null;
};
if (isDefined(leafletScope.watchOptions) && isObject(leafletScope.watchOptions)) {
angular.forEach(['markers', 'geojson', 'paths'], function (name) {
if (isDefined(leafletScope.watchOptions[name])) {
if (!_isValidWatchType(leafletScope.watchOptions[name].type)) {
$log.error(errorHeader + ' watchOptions.' + name + '.type is not a valid type.');
}
if (isDefined(leafletScope.watchOptions[name].individual)) {
if (!_isValidWatchType(leafletScope.watchOptions[name].individual.type)) {
$log.error(errorHeader + ' watchOptions.' + name + '.individual.type is not a valid type.');
}
} else {
$log.error(errorHeader + ' watchOptions.' + name + '.type.individual must be defined.');
}
}
});
}
}
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletEventsHelpersFactory', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", function ($rootScope, $q, leafletLogger, leafletHelpers) {
var safeApply = leafletHelpers.safeApply,
isDefined = leafletHelpers.isDefined,
isObject = leafletHelpers.isObject,
isArray = leafletHelpers.isArray,
errorHeader = leafletHelpers.errorHeader,
$log = leafletLogger;
var EventsHelper = function EventsHelper(rootBroadcastName, lObjectType) {
this.rootBroadcastName = rootBroadcastName;
$log.debug("leafletEventsHelpersFactory: lObjectType: " + lObjectType + "rootBroadcastName: " + rootBroadcastName);
//used to path/key out certain properties based on the type , "markers", "geojson"
this.lObjectType = lObjectType;
};
EventsHelper.prototype.getAvailableEvents = function () {
return [];
};
/*
argument: name: Note this can be a single string or dot notation
Example:
markerModel : {
m1: { lat:_, lon: _}
}
//would yield name of
name = "m1"
If nested:
markerModel : {
cars: {
m1: { lat:_, lon: _}
}
}
//would yield name of
name = "cars.m1"
*/
EventsHelper.prototype.genDispatchEvent = function (maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName, extra) {
var _this = this;
maybeMapId = maybeMapId || '';
if (maybeMapId) maybeMapId = '.' + maybeMapId;
return function (e) {
var broadcastName = _this.rootBroadcastName + maybeMapId + '.' + eventName;
$log.debug(broadcastName);
_this.fire(leafletScope, broadcastName, logic, e, e.target || lObject, model, name, layerName, extra);
};
};
EventsHelper.prototype.fire = function (scope, broadcastName, logic, event, lObject, model, modelName, layerName, extra) {
// Safely broadcast the event
safeApply(scope, function () {
var toSend = {
leafletEvent: event,
leafletObject: lObject,
modelName: modelName,
model: model
};
if (isDefined(layerName)) angular.extend(toSend, { layerName: layerName });
if (logic === "emit") {
scope.$emit(broadcastName, toSend);
} else {
$rootScope.$broadcast(broadcastName, toSend);
}
});
};
EventsHelper.prototype.bindEvents = function (maybeMapId, lObject, name, model, leafletScope, layerName, extra) {
var events = [];
var logic = 'emit';
var _this = this;
if (!isDefined(leafletScope.eventBroadcast)) {
// Backward compatibility, if no event-broadcast attribute, all events are broadcasted
events = this.getAvailableEvents();
} else if (!isObject(leafletScope.eventBroadcast)) {
// Not a valid object
$log.error(errorHeader + "event-broadcast must be an object check your model.");
} else {
// We have a possible valid object
if (!isDefined(leafletScope.eventBroadcast[_this.lObjectType])) {
// We do not have events enable/disable do we do nothing (all enabled by default)
events = this.getAvailableEvents();
} else if (!isObject(leafletScope.eventBroadcast[_this.lObjectType])) {
// Not a valid object
$log.warn(errorHeader + 'event-broadcast.' + [_this.lObjectType] + ' must be an object check your model.');
} else {
// We have a possible valid map object
// Event propadation logic
if (isDefined(leafletScope.eventBroadcast[this.lObjectType].logic)) {
// We take care of possible propagation logic
if (leafletScope.eventBroadcast[_this.lObjectType].logic !== "emit" && leafletScope.eventBroadcast[_this.lObjectType].logic !== "broadcast") $log.warn(errorHeader + "Available event propagation logic are: 'emit' or 'broadcast'.");
}
// Enable / Disable
var eventsEnable = false,
eventsDisable = false;
if (isDefined(leafletScope.eventBroadcast[_this.lObjectType].enable) && isArray(leafletScope.eventBroadcast[_this.lObjectType].enable)) eventsEnable = true;
if (isDefined(leafletScope.eventBroadcast[_this.lObjectType].disable) && isArray(leafletScope.eventBroadcast[_this.lObjectType].disable)) eventsDisable = true;
if (eventsEnable && eventsDisable) {
// Both are active, this is an error
$log.warn(errorHeader + "can not enable and disable events at the same time");
} else if (!eventsEnable && !eventsDisable) {
// Both are inactive, this is an error
$log.warn(errorHeader + "must enable or disable events");
} else {
// At this point the object is OK, lets enable or disable events
if (eventsEnable) {
// Enable events
leafletScope.eventBroadcast[this.lObjectType].enable.forEach(function (eventName) {
// Do we have already the event enabled?
if (events.indexOf(eventName) !== -1) {
// Repeated event, this is an error
$log.warn(errorHeader + "This event " + eventName + " is already enabled");
} else {
// Does the event exists?
if (_this.getAvailableEvents().indexOf(eventName) === -1) {
// The event does not exists, this is an error
$log.warn(errorHeader + "This event " + eventName + " does not exist");
} else {
// All ok enable the event
events.push(eventName);
}
}
});
} else {
// Disable events
events = this.getAvailableEvents();
leafletScope.eventBroadcast[_this.lObjectType].disable.forEach(function (eventName) {
var index = events.indexOf(eventName);
if (index === -1) {
// The event does not exist
$log.warn(errorHeader + "This event " + eventName + " does not exist or has been already disabled");
} else {
events.splice(index, 1);
}
});
}
}
}
}
events.forEach(function (eventName) {
lObject.on(eventName, _this.genDispatchEvent(maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName, extra));
});
return logic;
};
return EventsHelper;
}]).service('leafletEventsHelpers', ["leafletEventsHelpersFactory", function (leafletEventsHelpersFactory) {
return new leafletEventsHelpersFactory();
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletGeoJsonEvents', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletEventsHelpersFactory", "leafletData", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletEventsHelpersFactory, leafletData) {
var safeApply = leafletHelpers.safeApply,
EventsHelper = leafletEventsHelpersFactory;
// $log = leafletLogger;
var GeoJsonEvents = function GeoJsonEvents() {
EventsHelper.call(this, 'leafletDirectiveGeoJson', 'geojson');
};
GeoJsonEvents.prototype = new EventsHelper();
GeoJsonEvents.prototype.genDispatchEvent = function (maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName, extra) {
var base = EventsHelper.prototype.genDispatchEvent.call(this, maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName),
_this = this;
return function (e) {
if (eventName === 'mouseout') {
if (extra.resetStyleOnMouseout) {
leafletData.getGeoJSON(extra.mapId).then(function (leafletGeoJSON) {
//this is broken on nested needs to traverse or user layerName (nested)
var lobj = layerName ? leafletGeoJSON[layerName] : leafletGeoJSON;
lobj.resetStyle(e.target);
});
}
safeApply(leafletScope, function () {
$rootScope.$broadcast(_this.rootBroadcastName + '.mouseout', e);
});
}
base(e); //common
};
};
GeoJsonEvents.prototype.getAvailableEvents = function () {
return ['click', 'dblclick', 'mouseover', 'mouseout'];
};
return new GeoJsonEvents();
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletLabelEvents', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletEventsHelpersFactory", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletEventsHelpersFactory) {
var Helpers = leafletHelpers,
EventsHelper = leafletEventsHelpersFactory;
//$log = leafletLogger;
var LabelEvents = function LabelEvents() {
EventsHelper.call(this, 'leafletDirectiveLabel', 'markers');
};
LabelEvents.prototype = new EventsHelper();
LabelEvents.prototype.genDispatchEvent = function (maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName) {
var markerName = name.replace('markers.', '');
return EventsHelper.prototype.genDispatchEvent.call(this, maybeMapId, eventName, logic, leafletScope, lObject, markerName, model, layerName);
};
LabelEvents.prototype.getAvailableEvents = function () {
return ['click', 'dblclick', 'mousedown', 'mouseover', 'mouseout', 'contextmenu'];
};
LabelEvents.prototype.genEvents = function (maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName) {
var _this = this;
var labelEvents = this.getAvailableEvents();
var scopeWatchName = Helpers.getObjectArrayPath("markers." + name);
labelEvents.forEach(function (eventName) {
lObject.label.on(eventName, _this.genDispatchEvent(maybeMapId, eventName, logic, leafletScope, lObject.label, scopeWatchName, model, layerName));
});
};
LabelEvents.prototype.bindEvents = function (maybeMapId, lObject, name, model, leafletScope, layerName) {};
return new LabelEvents();
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletMapEvents', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletEventsHelpers", "leafletIterators", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletEventsHelpers, leafletIterators) {
var isDefined = leafletHelpers.isDefined,
fire = leafletEventsHelpers.fire;
var _getAvailableMapEvents = function _getAvailableMapEvents() {
return ['click', 'dblclick', 'mousedown', 'mouseup', 'mouseover', 'mouseout', 'mousemove', 'contextmenu', 'focus', 'blur', 'preclick', 'load', 'unload', 'viewreset', 'movestart', 'move', 'moveend', 'dragstart', 'drag', 'dragend', 'zoomstart', 'zoomanim', 'zoomend', 'zoomlevelschange', 'resize', 'autopanstart', 'layeradd', 'layerremove', 'baselayerchange', 'overlayadd', 'overlayremove', 'locationfound', 'locationerror', 'popupopen', 'popupclose', 'draw:created', 'draw:edited', 'draw:deleted', 'draw:drawstart', 'draw:drawstop', 'draw:editstart', 'draw:editstop', 'draw:deletestart', 'draw:deletestop'];
};
var _genDispatchMapEvent = function _genDispatchMapEvent(scope, eventName, logic, maybeMapId) {
if (maybeMapId) {
maybeMapId = maybeMapId + '.';
}
return function (e) {
// Put together broadcast name
var broadcastName = 'leafletDirectiveMap.' + maybeMapId + eventName;
leafletLogger.debug(broadcastName);
// Safely broadcast the event
fire(scope, broadcastName, logic, e, e.target, scope);
};
};
var _notifyCenterChangedToBounds = function _notifyCenterChangedToBounds(scope) {
scope.$broadcast("boundsChanged");
};
var _notifyCenterUrlHashChanged = function _notifyCenterUrlHashChanged(scope, map, attrs, search) {
if (!isDefined(attrs.urlHashCenter)) {
return;
}
var center = map.getCenter();
var centerUrlHash = center.lat.toFixed(4) + ":" + center.lng.toFixed(4) + ":" + map.getZoom();
if (!isDefined(search.c) || search.c !== centerUrlHash) {
//$log.debug("notified new center...");
scope.$emit("centerUrlHash", centerUrlHash);
}
};
var _addEvents = function _addEvents(map, mapId, mapEvents, contextName, scope, logic) {
leafletIterators.each(mapEvents, function (eventName) {
var context = {};
context[contextName] = eventName;
if (!mapId) {
mapId = map._container.id || '';
}
map.on(eventName, _genDispatchMapEvent(scope, eventName, logic, mapId), context);
});
};
return {
getAvailableMapEvents: _getAvailableMapEvents,
genDispatchMapEvent: _genDispatchMapEvent,
notifyCenterChangedToBounds: _notifyCenterChangedToBounds,
notifyCenterUrlHashChanged: _notifyCenterUrlHashChanged,
addEvents: _addEvents
};
}]);
'use strict';
angular.module('ui-leaflet').factory('leafletMarkerEvents', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletEventsHelpersFactory", "leafletLabelEvents", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletEventsHelpersFactory, leafletLabelEvents) {
var safeApply = leafletHelpers.safeApply,
isDefined = leafletHelpers.isDefined,
Helpers = leafletHelpers,
lblHelp = leafletLabelEvents,
EventsHelper = leafletEventsHelpersFactory,
$log = leafletLogger;
var MarkerEvents = function MarkerEvents() {
EventsHelper.call(this, 'leafletDirectiveMarker', 'markers');
};
MarkerEvents.prototype = new EventsHelper();
MarkerEvents.prototype.genDispatchEvent = function (maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName) {
var handle = EventsHelper.prototype.genDispatchEvent.call(this, maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName);
return function (e) {
// Broadcast old marker click name for backwards compatibility
if (eventName === "click") {
safeApply(leafletScope, function () {
$rootScope.$broadcast('leafletDirectiveMarkersClick', name);
});
} else if (eventName === 'dragend') {
safeApply(leafletScope, function () {
model.lat = lObject.getLatLng().lat;
model.lng = lObject.getLatLng().lng;
});
if (model.message && model.focus === true) {
lObject.openPopup();
}
}
handle(e); //common
};
};
MarkerEvents.prototype.getAvailableEvents = function () {
return ['click', 'dblclick', 'mousedown', 'mouseover', 'mouseout', 'contextmenu', 'dragstart', 'drag', 'dragend', 'move', 'remove', 'popupopen', 'popupclose', 'touchend', 'touchstart', 'touchmove', 'touchcancel', 'touchleave'];
};
MarkerEvents.prototype.bindEvents = function (maybeMapId, lObject, name, model, leafletScope, layerName) {
var logic = EventsHelper.prototype.bindEvents.call(this, maybeMapId, lObject, name, model, leafletScope, layerName);
if (Helpers.LabelPlugin.isLoaded() && isDefined(lObject.label)) {
lblHelp.genEvents(maybeMapId, name, logic, leafletScope, lObject, model, layerName);
}
};
return new MarkerEvents();
}]);
'use strict';
var _typeof = typeof Symbol === "function" && typeof Symbol.iterator === "symbol" ? function (obj) { return typeof obj; } : function (obj) { return obj && typeof Symbol === "function" && obj.constructor === Symbol ? "symbol" : typeof obj; };
angular.module('ui-leaflet').factory('leafletPathEvents', ["$rootScope", "$q", "leafletLogger", "leafletHelpers", "leafletLabelEvents", "leafletEventsHelpers", function ($rootScope, $q, leafletLogger, leafletHelpers, leafletLabelEvents, leafletEventsHelpers) {
var isDefined = leafletHelpers.isDefined,
isObject = leafletHelpers.isObject,
Helpers = leafletHelpers,
errorHeader = leafletHelpers.errorHeader,
lblHelp = leafletLabelEvents,
fire = leafletEventsHelpers.fire,
$log = leafletLogger;
/*
TODO (nmccready) This EventsHelper needs to be derrived from leafletEventsHelpers to elminate copy and paste code.
*/
var _genDispatchPathEvent = function _genDispatchPathEvent(maybeMapId, eventName, logic, leafletScope, lObject, name, model, layerName) {
maybeMapId = maybeMapId || '';
if (maybeMapId) maybeMapId = '.' + maybeMapId;
return function (e) {
var broadcastName = 'leafletDirectivePath' + maybeMapId + '.' + eventName;
$log.debug(broadcastName);
fire(leafletScope, broadcastName, logic, e, e.target || lObject, model, name, layerName);
};
};
var _bindPathEvents = function _bindPathEvents(maybeMapId, lObject, name, model, leafletScope) {
var pathEvents = [],
i,
eventName,
logic = "broadcast";
if (!isDefined(leafletScope.eventBroadcast)) {
// Backward compatibility, if no event-broadcast attribute, all events are broadcasted
pathEvents = _getAvailablePathEvents();
} else if (!isObject(leafletScope.eventBroadcast)) {
// Not a valid object
$log.error(errorHeader + "event-broadcast must be an object check your model.");
} else {
// We have a possible valid object
if (!isDefined(leafletScope.eventBroadcast.path)) {
// We do not have events enable/disable do we do nothing (all enabled by default)
pathEvents = _getAvailablePathEvents();
} else if (isObject(leafletScope.eventBroadcast.paths)) {
// Not a valid object
$log.warn(errorHeader + "event-broadcast.path must be an object check your model.");
} else {
// We have a possible valid map object
// Event propadation logic
if (leafletScope.eventBroadcast.path.logic !== undefined && leafletScope.eventBroadcast.path.logic !== null) {
// We take care of possible propagation logic
if (leafletScope.eventBroadcast.path.logic !== "emit" && leafletScope.eventBroadcast.path.logic !== "broadcast") {
// This is an error
$log.warn(errorHeader + "Available event propagation logic are: 'emit' or 'broadcast'.");
} else if (leafletScope.eventBroadcast.path.logic === "emit") {
logic = "emit";
}
}
// Enable / Disable
var pathEventsEnable = false,
pathEventsDisable = false;
if (leafletScope.eventBroadcast.path.enable !== undefined && leafletScope.eventBroadcast.path.enable !== null) {
if (_typeof(leafletScope.eventBroadcast.path.enable) === 'object') {
pathEventsEnable = true;
}
}
if (leafletScope.eventBroadcast.path.disable !== undefined && leafletScope.eventBroadcast.path.disable !== null) {
if (_typeof(leafletScope.eventBroadcast.path.disable) === 'object') {
pathEventsDisable = true;
}
}
if (pathEventsEnable && pathEventsDisable) {
// Both are active, this is an error
$log.warn(errorHeader + "can not enable and disable events at the same time");
} else if (!pathEventsEnable && !pathEventsDisable) {
// Both are inactive, this is an error
$log.warn(errorHeader + "must enable or disable events");
} else {
// At this point the path object is OK, lets enable or disable events
if (pathEventsEnable) {
// Enable events
for (i = 0; i < leafletScope.eventBroadcast.path.enable.length; i++) {
eventName = leafletScope.eventBroadcast.path.enable[i];
// Do we have already the event enabled?
if (pathEvents.indexOf(eventName) !== -1) {
// Repeated event, this is an error
$log.warn(errorHeader + "This event " + eventName + " is already enabled");
} else {
// Does the event exists?
if (_getAvailablePathEvents().indexOf(eventName) === -1) {
// The event does not exists, this is an error
$log.warn(errorHeader + "This event " + eventName + " does not exist");
} else {
// All ok enable the event
pathEvents.push(eventName);
}
}
}
} else {
// Disable events
pathEvents = _getAvailablePathEvents();
for (i = 0; i < leafletScope.eventBroadcast.path.disable.length; i++) {
eventName = leafletScope.eventBroadcast.path.disable[i];
var index = pathEvents.indexOf(eventName);
if (index === -1) {
// The event does not exist
$log.warn(errorHeader + "This event " + eventName + " does not exist or has been already disabled");
} else {
pathEvents.splice(index, 1);
}
}
}
}
}
}
for (i = 0; i < pathEvents.length; i++) {
eventName = pathEvents[i];
lObject.on(eventName, _genDispatchPathEvent(maybeMapId, eventName, logic, leafletScope, pathEvents, name));
}
if (Helpers.LabelPlugin.isLoaded() && isDefined(lObject.label)) {
lblHelp.genEvents(maybeMapId, name, logic, leafletScope, lObject, model);
}
};
var _getAvailablePathEvents = function _getAvailablePathEvents() {
return ['click', 'dblclick', 'mousedown', 'mouseover', 'mouseout', 'contextmenu', 'add', 'remove', 'popupopen', 'popupclose'];
};
return {
getAvailablePathEvents: _getAvailablePathEvents,
bindPathEvents: _bindPathEvents
};
}]);
}(angular));