'use strict';
(function(factory, window) {
    /*globals define, module, require*/

    // define an AMD module that relies on 'leaflet'
    if (typeof define === 'function' && define.amd) {
        define(['leaflet'], factory);


        // define a Common JS module that relies on 'leaflet'
    } else if (typeof exports === 'object') {
        module.exports = factory(require('leaflet'));
    }

    // attach your plugin to the global 'L' variable
    if (typeof window !== 'undefined' && window.L) {
        factory(window.L);
    }

}(function(L) {
    // 🍂miniclass CancelableEvent (Event objects)
    // 🍂method cancel()
    // Cancel any subsequent action.

    // 🍂miniclass VertexEvent (Event objects)
    // 🍂property vertex: VertexMarker
    // The vertex that fires the event.

    // 🍂miniclass ShapeEvent (Event objects)
    // 🍂property shape: Array
    // The shape (LatLngs array) subject of the action.

    // 🍂miniclass CancelableVertexEvent (Event objects)
    // 🍂inherits VertexEvent
    // 🍂inherits CancelableEvent

    // 🍂miniclass CancelableShapeEvent (Event objects)
    // 🍂inherits ShapeEvent
    // 🍂inherits CancelableEvent

    // 🍂miniclass LayerEvent (Event objects)
    // 🍂property layer: object
    // The Layer (Marker, Polyline…) subject of the action.

    // 🍂namespace Editable; 🍂class Editable; 🍂aka L.Editable
    // Main edition handler. By default, it is attached to the map
    // as `map.editTools` property.
    // Leaflet.Editable is made to be fully extendable. You have three ways to customize
    // the behaviour: using options, listening to events, or extending.
    L.Editable = L.Evented.extend({

        statics: {
            FORWARD: 1,
            BACKWARD: -1
        },

        options: {

            // You can pass them when creating a map using the `editOptions` key.
            // 🍂option zIndex: int = 1000
            // The default zIndex of the editing tools.
            zIndex: 1000,

            // 🍂option polygonClass: class = L.Polygon
            // Class to be used when creating a new Polygon.
            polygonClass: L.Polygon,

            // 🍂option polylineClass: class = L.Polyline
            // Class to be used when creating a new Polyline.
            polylineClass: L.Polyline,

            // 🍂option markerClass: class = L.Marker
            // Class to be used when creating a new Marker.
            markerClass: L.Marker,

            // 🍂option rectangleClass: class = L.Rectangle
            // Class to be used when creating a new Rectangle.
            rectangleClass: L.Rectangle,

            // 🍂option circleClass: class = L.Circle
            // Class to be used when creating a new Circle.
            circleClass: L.Circle,

            // 🍂option drawingCSSClass: string = 'leaflet-editable-drawing'
            // CSS class to be added to the map container while drawing.
            drawingCSSClass: 'leaflet-editable-drawing',

            // 🍂option drawingCursor: const = 'crosshair'
            // Cursor mode set to the map while drawing.
            drawingCursor: 'crosshair',

            // 🍂option editLayer: Layer = new L.LayerGroup()
            // Layer used to store edit tools (vertex, line guide…).
            editLayer: undefined,

            // 🍂option featuresLayer: Layer = new L.LayerGroup()
            // Default layer used to store drawn features (Marker, Polyline…).
            featuresLayer: undefined,

            // 🍂option polylineEditorClass: class = PolylineEditor
            // Class to be used as Polyline editor.
            polylineEditorClass: undefined,

            // 🍂option polygonEditorClass: class = PolygonEditor
            // Class to be used as Polygon editor.
            polygonEditorClass: undefined,

            // 🍂option markerEditorClass: class = MarkerEditor
            // Class to be used as Marker editor.
            markerEditorClass: undefined,

            // 🍂option rectangleEditorClass: class = RectangleEditor
            // Class to be used as Rectangle editor.
            rectangleEditorClass: undefined,

            // 🍂option circleEditorClass: class = CircleEditor
            // Class to be used as Circle editor.
            circleEditorClass: undefined,

            // 🍂option lineGuideOptions: hash = {}
            // Options to be passed to the line guides.
            lineGuideOptions: {},

            // 🍂option skipMiddleMarkers: boolean = false
            // Set this to true if you don't want middle markers.
            skipMiddleMarkers: false

        },

        initialize: function(map, options) {
            L.setOptions(this, options);
            this._lastZIndex = this.options.zIndex;
            this.map = map;
            this.editLayer = this.createEditLayer();
            this.featuresLayer = this.createFeaturesLayer();
            this.forwardLineGuide = this.createLineGuide();
            this.backwardLineGuide = this.createLineGuide();
        },

        fireAndForward: function(type, e) {
            e = e || {};
            e.editTools = this;
            this.fire(type, e);
            this.map.fire(type, e);
        },

        createLineGuide: function() {
            var options = L.extend({ dashArray: '5,10', weight: 1, interactive: false }, this.options.lineGuideOptions);
            return L.polyline([], options);
        },

        createVertexIcon: function(options) {
            return L.Browser.mobile && L.Browser.touch ? new L.Editable.TouchVertexIcon(options) : new L.Editable.VertexIcon(options);
        },

        createEditLayer: function() {
            return this.options.editLayer || new L.LayerGroup().addTo(this.map);
        },

        createFeaturesLayer: function() {
            return this.options.featuresLayer || new L.LayerGroup().addTo(this.map);
        },

        moveForwardLineGuide: function(latlng) {
            if (this.forwardLineGuide._latlngs.length) {
                this.forwardLineGuide._latlngs[1] = latlng;
                this.forwardLineGuide._bounds.extend(latlng);
                this.forwardLineGuide.redraw();
            }
        },

        moveBackwardLineGuide: function(latlng) {
            if (this.backwardLineGuide._latlngs.length) {
                this.backwardLineGuide._latlngs[1] = latlng;
                this.backwardLineGuide._bounds.extend(latlng);
                this.backwardLineGuide.redraw();
            }
        },

        anchorForwardLineGuide: function(latlng) {
            this.forwardLineGuide._latlngs[0] = latlng;
            this.forwardLineGuide._bounds.extend(latlng);
            this.forwardLineGuide.redraw();
        },

        anchorBackwardLineGuide: function(latlng) {
            this.backwardLineGuide._latlngs[0] = latlng;
            this.backwardLineGuide._bounds.extend(latlng);
            this.backwardLineGuide.redraw();
        },

        attachForwardLineGuide: function() {
            this.editLayer.addLayer(this.forwardLineGuide);
        },

        attachBackwardLineGuide: function() {
            this.editLayer.addLayer(this.backwardLineGuide);
        },

        detachForwardLineGuide: function() {
            this.forwardLineGuide.setLatLngs([]);
            this.editLayer.removeLayer(this.forwardLineGuide);
        },

        detachBackwardLineGuide: function() {
            this.backwardLineGuide.setLatLngs([]);
            this.editLayer.removeLayer(this.backwardLineGuide);
        },

        blockEvents: function() {
            // Hack: force map not to listen to other layers events while drawing.
            if (!this._oldTargets) {
                this._oldTargets = this.map._targets;
                this.map._targets = {};
            }
        },

        unblockEvents: function() {
            if (this._oldTargets) {
                // Reset, but keep targets created while drawing.
                this.map._targets = L.extend(this.map._targets, this._oldTargets);
                delete this._oldTargets;
            }
        },

        registerForDrawing: function(editor) {
            if (this._drawingEditor) this.unregisterForDrawing(this._drawingEditor);
            this.blockEvents();
            editor.reset(); // Make sure editor tools still receive events.
            this._drawingEditor = editor;
            this.map.on('mousemove touchmove', editor.onDrawingMouseMove, editor);
            this.map.on('mousedown', this.onMousedown, this);
            this.map.on('mouseup', this.onMouseup, this);
            L.DomUtil.addClass(this.map._container, this.options.drawingCSSClass);
            this.defaultMapCursor = this.map._container.style.cursor;
            this.map._container.style.cursor = this.options.drawingCursor;
        },

        unregisterForDrawing: function(editor) {
            this.unblockEvents();
            L.DomUtil.removeClass(this.map._container, this.options.drawingCSSClass);
            this.map._container.style.cursor = this.defaultMapCursor;
            editor = editor || this._drawingEditor;
            if (!editor) return;
            this.map.off('mousemove touchmove', editor.onDrawingMouseMove, editor);
            this.map.off('mousedown', this.onMousedown, this);
            this.map.off('mouseup', this.onMouseup, this);
            if (editor !== this._drawingEditor) return;
            delete this._drawingEditor;
            if (editor._drawing) editor.cancelDrawing();
        },

        onMousedown: function(e) {
            if (e.originalEvent.which != 1) return;
            this._mouseDown = e;
            this._drawingEditor.onDrawingMouseDown(e);
        },

        onMouseup: function(e) {
            if (this._mouseDown) {
                var editor = this._drawingEditor,
                    mouseDown = this._mouseDown;
                this._mouseDown = null;
                editor.onDrawingMouseUp(e);
                if (this._drawingEditor !== editor) return; // onDrawingMouseUp may call unregisterFromDrawing.
                var origin = L.point(mouseDown.originalEvent.clientX, mouseDown.originalEvent.clientY);
                var distance = L.point(e.originalEvent.clientX, e.originalEvent.clientY).distanceTo(origin);
                if (Math.abs(distance) < 9 * (window.devicePixelRatio || 1)) this._drawingEditor.onDrawingClick(e);
            }
        },

        // 🍂section Public methods
        // You will generally access them by the `map.editTools`
        // instance:
        //
        // `map.editTools.startPolyline();`

        // 🍂method drawing(): boolean
        // Return true if any drawing action is ongoing.
        drawing: function() {
            return this._drawingEditor && this._drawingEditor.drawing();
        },

        // 🍂method stopDrawing()
        // When you need to stop any ongoing drawing, without needing to know which editor is active.
        stopDrawing: function() {
            this.unregisterForDrawing();
        },

        // 🍂method commitDrawing()
        // When you need to commit any ongoing drawing, without needing to know which editor is active.
        commitDrawing: function(e) {
            if (!this._drawingEditor) return;
            this._drawingEditor.commitDrawing(e);
        },

        connectCreatedToMap: function(layer) {
            return this.featuresLayer.addLayer(layer);
        },

        // 🍂method startPolyline(latlng: L.LatLng, options: hash): L.Polyline
        // Start drawing a Polyline. If `latlng` is given, a first point will be added. In any case, continuing on user click.
        // If `options` is given, it will be passed to the Polyline class constructor.
        startPolyline: function(latlng, options) {
            var line = this.createPolyline([], options);
            line.enableEdit(this.map).newShape(latlng);
            return line;
        },

        // 🍂method startPolygon(latlng: L.LatLng, options: hash): L.Polygon
        // Start drawing a Polygon. If `latlng` is given, a first point will be added. In any case, continuing on user click.
        // If `options` is given, it will be passed to the Polygon class constructor.
        startPolygon: function(latlng, options) {
            var polygon = this.createPolygon([], options);
            polygon.enableEdit(this.map).newShape(latlng);
            return polygon;
        },

        // 🍂method startMarker(latlng: L.LatLng, options: hash): L.Marker
        // Start adding a Marker. If `latlng` is given, the Marker will be shown first at this point.
        // In any case, it will follow the user mouse, and will have a final `latlng` on next click (or touch).
        // If `options` is given, it will be passed to the Marker class constructor.
        startMarker: function(latlng, options) {
            latlng = latlng || this.map.getCenter().clone();
            var marker = this.createMarker(latlng, options);
            marker.enableEdit(this.map).startDrawing();
            return marker;
        },

        // 🍂method startRectangle(latlng: L.LatLng, options: hash): L.Rectangle
        // Start drawing a Rectangle. If `latlng` is given, the Rectangle anchor will be added. In any case, continuing on user drag.
        // If `options` is given, it will be passed to the Rectangle class constructor.
        startRectangle: function(latlng, options) {
            var corner = latlng || L.latLng([0, 0]);
            var bounds = new L.LatLngBounds(corner, corner);
            var rectangle = this.createRectangle(bounds, options);
            rectangle.enableEdit(this.map).startDrawing();
            return rectangle;
        },

        // 🍂method startCircle(latlng: L.LatLng, options: hash): L.Circle
        // Start drawing a Circle. If `latlng` is given, the Circle anchor will be added. In any case, continuing on user drag.
        // If `options` is given, it will be passed to the Circle class constructor.
        startCircle: function(latlng, options) {
            latlng = latlng || this.map.getCenter().clone();
            var circle = this.createCircle(latlng, options);
            circle.enableEdit(this.map).startDrawing();
            return circle;
        },

        startHole: function(editor, latlng) {
            editor.newHole(latlng);
        },

        createLayer: function(klass, latlngs, options) {
            options = L.Util.extend({ editOptions: { editTools: this } }, options);
            var layer = new klass(latlngs, options);
            // 🍂namespace Editable
            // 🍂event editable:created: LayerEvent
            // Fired when a new feature (Marker, Polyline…) is created.
            this.fireAndForward('editable:created', { layer: layer });
            return layer;
        },

        createPolyline: function(latlngs, options) {
            return this.createLayer(options && options.polylineClass || this.options.polylineClass, latlngs, options);
        },

        createPolygon: function(latlngs, options) {
            return this.createLayer(options && options.polygonClass || this.options.polygonClass, latlngs, options);
        },

        createMarker: function(latlng, options) {
            return this.createLayer(options && options.markerClass || this.options.markerClass, latlng, options);
        },

        createRectangle: function(bounds, options) {
            return this.createLayer(options && options.rectangleClass || this.options.rectangleClass, bounds, options);
        },

        createCircle: function(latlng, options) {
            return this.createLayer(options && options.circleClass || this.options.circleClass, latlng, options);
        }

    });

    L.extend(L.Editable, {

        makeCancellable: function(e) {
            e.cancel = function() {
                e._cancelled = true;
            };
        }

    });

    // 🍂namespace Map; 🍂class Map
    // Leaflet.Editable add options and events to the `L.Map` object.
    // See `Editable` events for the list of events fired on the Map.
    // 🍂example
    //
    // ```js
    // var map = L.map('map', {
    //  editable: true,
    //  editOptions: {
    //    …
    // }
    // });
    // ```
    // 🍂section Editable Map Options
    L.Map.mergeOptions({

        // 🍂namespace Map
        // 🍂section Map Options
        // 🍂option editToolsClass: class = L.Editable
        // Class to be used as vertex, for path editing.
        editToolsClass: L.Editable,

        // 🍂option editable: boolean = false
        // Whether to create a L.Editable instance at map init.
        editable: false,

        // 🍂option editOptions: hash = {}
        // Options to pass to L.Editable when instantiating.
        editOptions: {}

    });

    L.Map.addInitHook(function() {

        this.whenReady(function() {
            if (this.options.editable) {
                this.editTools = new this.options.editToolsClass(this, this.options.editOptions);
            }
        });

    });

    L.Editable.VertexIcon = L.DivIcon.extend({

        options: {
            iconSize: new L.Point(8, 8)
        }

    });

    L.Editable.TouchVertexIcon = L.Editable.VertexIcon.extend({

        options: {
            iconSize: new L.Point(20, 20)
        }

    });


    // 🍂namespace Editable; 🍂class VertexMarker; Handler for dragging path vertices.
    L.Editable.VertexMarker = L.Marker.extend({

        options: {
            draggable: true,
            className: 'leaflet-div-icon leaflet-vertex-icon'
        },


        // 🍂section Public methods
        // The marker used to handle path vertex. You will usually interact with a `VertexMarker`
        // instance when listening for events like `editable:vertex:ctrlclick`.

        initialize: function(latlng, latlngs, editor, options) {
            // We don't use this._latlng, because on drag Leaflet replace it while
            // we want to keep reference.
            this.latlng = latlng;
            this.latlngs = latlngs;
            this.editor = editor;
            L.Marker.prototype.initialize.call(this, latlng, options);
            this.options.icon = this.editor.tools.createVertexIcon({ className: this.options.className });
            this.latlng.__vertex = this;
            this.editor.editLayer.addLayer(this);
            this.setZIndexOffset(editor.tools._lastZIndex + 1);
        },

        onAdd: function(map) {
            L.Marker.prototype.onAdd.call(this, map);
            this.on('drag', this.onDrag);
            this.on('dragstart', this.onDragStart);
            this.on('dragend', this.onDragEnd);
            this.on('mouseup', this.onMouseup);
            this.on('click', this.onClick);
            this.on('contextmenu', this.onContextMenu);
            this.on('mousedown touchstart', this.onMouseDown);
            this.on('mouseover', this.onMouseOver);
            this.on('mouseout', this.onMouseOut);
            this.addMiddleMarkers();
        },

        onRemove: function(map) {
            if (this.middleMarker) this.middleMarker.delete();
            delete this.latlng.__vertex;
            this.off('drag', this.onDrag);
            this.off('dragstart', this.onDragStart);
            this.off('dragend', this.onDragEnd);
            this.off('mouseup', this.onMouseup);
            this.off('click', this.onClick);
            this.off('contextmenu', this.onContextMenu);
            this.off('mousedown touchstart', this.onMouseDown);
            this.off('mouseover', this.onMouseOver);
            this.off('mouseout', this.onMouseOut);
            L.Marker.prototype.onRemove.call(this, map);
        },

        onDrag: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerDrag(e);
            var iconPos = L.DomUtil.getPosition(this._icon),
                latlng = this._map.layerPointToLatLng(iconPos);
            this.latlng.update(latlng);
            this._latlng = this.latlng; // Push back to Leaflet our reference.
            this.editor.refresh();
            if (this.middleMarker) this.middleMarker.updateLatLng();
            var next = this.getNext();
            if (next && next.middleMarker) next.middleMarker.updateLatLng();
        },

        onDragStart: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerDragStart(e);
        },

        onDragEnd: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerDragEnd(e);
        },

        onClick: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerClick(e);
        },

        onMouseup: function(e) {
            L.DomEvent.stop(e);
            e.vertex = this;
            this.editor.map.fire('mouseup', e);
        },

        onContextMenu: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerContextMenu(e);
        },

        onMouseDown: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerMouseDown(e);
        },

        onMouseOver: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerMouseOver(e);
        },

        onMouseOut: function(e) {
            e.vertex = this;
            this.editor.onVertexMarkerMouseOut(e);
        },

        // 🍂method delete()
        // Delete a vertex and the related LatLng.
        delete: function() {
            var next = this.getNext(); // Compute before changing latlng
            this.latlngs.splice(this.getIndex(), 1);
            this.editor.editLayer.removeLayer(this);
            this.editor.onVertexDeleted({ latlng: this.latlng, vertex: this });
            if (!this.latlngs.length) this.editor.deleteShape(this.latlngs);
            if (next) next.resetMiddleMarker();
            this.editor.refresh();
        },

        // 🍂method getIndex(): int
        // Get the index of the current vertex among others of the same LatLngs group.
        getIndex: function() {
            return this.latlngs.indexOf(this.latlng);
        },

        // 🍂method getLastIndex(): int
        // Get last vertex index of the LatLngs group of the current vertex.
        getLastIndex: function() {
            return this.latlngs.length - 1;
        },

        // 🍂method getPrevious(): VertexMarker
        // Get the previous VertexMarker in the same LatLngs group.
        getPrevious: function() {
            if (this.latlngs.length < 2) return;
            var index = this.getIndex(),
                previousIndex = index - 1;
            if (index === 0 && this.editor.CLOSED) previousIndex = this.getLastIndex();
            var previous = this.latlngs[previousIndex];
            if (previous) return previous.__vertex;
        },

        // 🍂method getNext(): VertexMarker
        // Get the next VertexMarker in the same LatLngs group.
        getNext: function() {
            if (this.latlngs.length < 2) return;
            var index = this.getIndex(),
                nextIndex = index + 1;
            if (index === this.getLastIndex() && this.editor.CLOSED) nextIndex = 0;
            var next = this.latlngs[nextIndex];
            if (next) return next.__vertex;
        },

        addMiddleMarker: function(previous) {
            if (!this.editor.hasMiddleMarkers()) return;
            previous = previous || this.getPrevious();
            if (previous && !this.middleMarker) this.middleMarker = this.editor.addMiddleMarker(previous, this, this.latlngs, this.editor);
        },

        addMiddleMarkers: function() {
            if (!this.editor.hasMiddleMarkers()) return;
            var previous = this.getPrevious();
            if (previous) this.addMiddleMarker(previous);
            var next = this.getNext();
            if (next) next.resetMiddleMarker();
        },

        resetMiddleMarker: function() {
            if (this.middleMarker) this.middleMarker.delete();
            this.addMiddleMarker();
        },

        // 🍂method split()
        // Split the vertex LatLngs group at its index, if possible.
        split: function() {
            if (!this.editor.splitShape) return; // Only for PolylineEditor
            this.editor.splitShape(this.latlngs, this.getIndex());
        },

        // 🍂method continue()
        // Continue the vertex LatLngs from this vertex. Only active for first and last vertices of a Polyline.
        continue: function() {
            if (!this.editor.continueBackward) return; // Only for PolylineEditor
            var index = this.getIndex();
            if (index === 0) this.editor.continueBackward(this.latlngs);
            else if (index === this.getLastIndex()) this.editor.continueForward(this.latlngs);
        }

    });

    L.Editable.mergeOptions({

        // 🍂namespace Editable
        // 🍂option vertexMarkerClass: class = VertexMarker
        // Class to be used as vertex, for path editing.
        vertexMarkerClass: L.Editable.VertexMarker

    });

    L.Editable.MiddleMarker = L.Marker.extend({

        options: {
            opacity: 0.5,
            className: 'leaflet-div-icon leaflet-middle-icon',
            draggable: true
        },

        initialize: function(left, right, latlngs, editor, options) {
            this.left = left;
            this.right = right;
            this.editor = editor;
            this.latlngs = latlngs;
            L.Marker.prototype.initialize.call(this, this.computeLatLng(), options);
            this._opacity = this.options.opacity;
            this.options.icon = this.editor.tools.createVertexIcon({ className: this.options.className });
            this.editor.editLayer.addLayer(this);
            this.setVisibility();
        },

        setVisibility: function() {
            var leftPoint = this._map.latLngToContainerPoint(this.left.latlng),
                rightPoint = this._map.latLngToContainerPoint(this.right.latlng),
                size = L.point(this.options.icon.options.iconSize);
            if (leftPoint.distanceTo(rightPoint) < size.x * 3) this.hide();
            else this.show();
        },

        show: function() {
            this.setOpacity(this._opacity);
        },

        hide: function() {
            this.setOpacity(0);
        },

        updateLatLng: function() {
            this.setLatLng(this.computeLatLng());
            this.setVisibility();
        },

        computeLatLng: function() {
            var leftPoint = this.editor.map.latLngToContainerPoint(this.left.latlng),
                rightPoint = this.editor.map.latLngToContainerPoint(this.right.latlng),
                y = (leftPoint.y + rightPoint.y) / 2,
                x = (leftPoint.x + rightPoint.x) / 2;
            return this.editor.map.containerPointToLatLng([x, y]);
        },

        onAdd: function(map) {
            L.Marker.prototype.onAdd.call(this, map);
            L.DomEvent.on(this._icon, 'mousedown touchstart', this.onMouseDown, this);
            map.on('zoomend', this.setVisibility, this);
        },

        onRemove: function(map) {
            delete this.right.middleMarker;
            L.DomEvent.off(this._icon, 'mousedown touchstart', this.onMouseDown, this);
            map.off('zoomend', this.setVisibility, this);
            L.Marker.prototype.onRemove.call(this, map);
        },

        onMouseDown: function(e) {
            var iconPos = L.DomUtil.getPosition(this._icon),
                latlng = this.editor.map.layerPointToLatLng(iconPos);
            e = {
                originalEvent: e,
                latlng: latlng
            };
            if (this.options.opacity === 0) return;
            L.Editable.makeCancellable(e);
            this.editor.onMiddleMarkerMouseDown(e);
            if (e._cancelled) return;
            this.latlngs.splice(this.index(), 0, e.latlng);
            this.editor.refresh();
            var icon = this._icon;
            var marker = this.editor.addVertexMarker(e.latlng, this.latlngs);
            this.editor.onNewVertex(marker);
            /* Hack to workaround browser not firing touchend when element is no more on DOM */
            var parent = marker._icon.parentNode;
            parent.removeChild(marker._icon);
            marker._icon = icon;
            parent.appendChild(marker._icon);
            marker._initIcon();
            marker._initInteraction();
            marker.setOpacity(1);
            /* End hack */
            // Transfer ongoing dragging to real marker
            L.Draggable._dragging = false;
            marker.dragging._draggable._onDown(e.originalEvent);
            this.delete();
        },

        delete: function() {
            this.editor.editLayer.removeLayer(this);
        },

        index: function() {
            return this.latlngs.indexOf(this.right.latlng);
        }

    });

    L.Editable.mergeOptions({

        // 🍂namespace Editable
        // 🍂option middleMarkerClass: class = VertexMarker
        // Class to be used as middle vertex, pulled by the user to create a new point in the middle of a path.
        middleMarkerClass: L.Editable.MiddleMarker

    });

    // 🍂namespace Editable; 🍂class BaseEditor; 🍂aka L.Editable.BaseEditor
    // When editing a feature (Marker, Polyline…), an editor is attached to it. This
    // editor basically knows how to handle the edition.
    L.Editable.BaseEditor = L.Handler.extend({

        initialize: function(map, feature, options) {
            L.setOptions(this, options);
            this.map = map;
            this.feature = feature;
            this.feature.editor = this;
            this.editLayer = new L.LayerGroup();
            this.tools = this.options.editTools || map.editTools;
        },

        // 🍂method enable(): this
        // Set up the drawing tools for the feature to be editable.
        addHooks: function() {
            if (this.isConnected()) this.onFeatureAdd();
            else this.feature.once('add', this.onFeatureAdd, this);
            this.onEnable();
            this.feature.on(this._getEvents(), this);
        },

        // 🍂method disable(): this
        // Remove the drawing tools for the feature.
        removeHooks: function() {
            this.feature.off(this._getEvents(), this);
            if (this.feature.dragging) this.feature.dragging.disable();
            this.editLayer.clearLayers();
            this.tools.editLayer.removeLayer(this.editLayer);
            this.onDisable();
            if (this._drawing) this.cancelDrawing();
        },

        // 🍂method drawing(): boolean
        // Return true if any drawing action is ongoing with this editor.
        drawing: function() {
            return !!this._drawing;
        },

        reset: function() {},

        onFeatureAdd: function() {
            this.tools.editLayer.addLayer(this.editLayer);
            if (this.feature.dragging) this.feature.dragging.enable();
        },

        hasMiddleMarkers: function() {
            return !this.options.skipMiddleMarkers && !this.tools.options.skipMiddleMarkers;
        },

        fireAndForward: function(type, e) {
            e = e || {};
            e.layer = this.feature;
            this.feature.fire(type, e);
            this.tools.fireAndForward(type, e);
        },

        onEnable: function() {
            // 🍂namespace Editable
            // 🍂event editable:enable: Event
            // Fired when an existing feature is ready to be edited.
            this.fireAndForward('editable:enable');
        },

        onDisable: function() {
            // 🍂namespace Editable
            // 🍂event editable:disable: Event
            // Fired when an existing feature is not ready anymore to be edited.
            this.fireAndForward('editable:disable');
        },

        onEditing: function() {
            // 🍂namespace Editable
            // 🍂event editable:editing: Event
            // Fired as soon as any change is made to the feature geometry.
            this.fireAndForward('editable:editing');
        },

        onStartDrawing: function() {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:start: Event
            // Fired when a feature is to be drawn.
            this.fireAndForward('editable:drawing:start');
        },

        onEndDrawing: function() {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:end: Event
            // Fired when a feature is not drawn anymore.
            this.fireAndForward('editable:drawing:end');
        },

        onCancelDrawing: function() {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:cancel: Event
            // Fired when user cancel drawing while a feature is being drawn.
            this.fireAndForward('editable:drawing:cancel');
        },

        onCommitDrawing: function(e) {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:commit: Event
            // Fired when user finish drawing a feature.
            this.fireAndForward('editable:drawing:commit', e);
        },

        onDrawingMouseDown: function(e) {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:mousedown: Event
            // Fired when user `mousedown` while drawing.
            this.fireAndForward('editable:drawing:mousedown', e);
        },

        onDrawingMouseUp: function(e) {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:mouseup: Event
            // Fired when user `mouseup` while drawing.
            this.fireAndForward('editable:drawing:mouseup', e);
        },

        startDrawing: function() {
            if (!this._drawing) this._drawing = L.Editable.FORWARD;
            this.tools.registerForDrawing(this);
            this.onStartDrawing();
        },

        commitDrawing: function(e) {
            this.onCommitDrawing(e);
            this.endDrawing();
        },

        cancelDrawing: function() {
            // If called during a vertex drag, the vertex will be removed before
            // the mouseup fires on it. This is a workaround. Maybe better fix is
            // To have L.Draggable reset it's status on disable (Leaflet side).
            L.Draggable._dragging = false;
            this.onCancelDrawing();
            this.endDrawing();
        },

        endDrawing: function() {
            this._drawing = false;
            this.tools.unregisterForDrawing(this);
            this.onEndDrawing();
        },

        onDrawingClick: function(e) {
            if (!this.drawing()) return;
            L.Editable.makeCancellable(e);
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:click: CancelableEvent
            // Fired when user `click` while drawing, before any internal action is being processed.
            this.fireAndForward('editable:drawing:click', e);
            if (e._cancelled) return;
            if (!this.isConnected()) this.connect(e);
            this.processDrawingClick(e);
        },

        isConnected: function() {
            return this.map.hasLayer(this.feature);
        },

        connect: function() {
            this.tools.connectCreatedToMap(this.feature);
            this.tools.editLayer.addLayer(this.editLayer);
        },

        onMove: function(e) {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:move: Event
            // Fired when `move` mouse while drawing, while dragging a marker, and while dragging a vertex.
            this.fireAndForward('editable:drawing:move', e);
        },

        onDrawingMouseMove: function(e) {
            this.onMove(e);
        },

        _getEvents: function() {
            return {
                dragstart: this.onDragStart,
                drag: this.onDrag,
                dragend: this.onDragEnd,
                remove: this.disable
            };
        },

        onDragStart: function(e) {
            this.onEditing();
            // 🍂namespace Editable
            // 🍂event editable:dragstart: Event
            // Fired before a path feature is dragged.
            this.fireAndForward('editable:dragstart', e);
        },

        onDrag: function(e) {
            this.onMove(e);
            // 🍂namespace Editable
            // 🍂event editable:drag: Event
            // Fired when a path feature is being dragged.
            this.fireAndForward('editable:drag', e);
        },

        onDragEnd: function(e) {
            // 🍂namespace Editable
            // 🍂event editable:dragend: Event
            // Fired after a path feature has been dragged.
            this.fireAndForward('editable:dragend', e);
        }

    });

    // 🍂namespace Editable; 🍂class MarkerEditor; 🍂aka L.Editable.MarkerEditor
    // 🍂inherits BaseEditor
    // Editor for Marker.
    L.Editable.MarkerEditor = L.Editable.BaseEditor.extend({

        onDrawingMouseMove: function(e) {
            L.Editable.BaseEditor.prototype.onDrawingMouseMove.call(this, e);
            if (this._drawing) this.feature.setLatLng(e.latlng);
        },

        processDrawingClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Drawing events
            // 🍂event editable:drawing:clicked: Event
            // Fired when user `click` while drawing, after all internal actions.
            this.fireAndForward('editable:drawing:clicked', e);
            this.commitDrawing(e);
        },

        connect: function(e) {
            // On touch, the latlng has not been updated because there is
            // no mousemove.
            if (e) this.feature._latlng = e.latlng;
            L.Editable.BaseEditor.prototype.connect.call(this, e);
        }

    });

    // 🍂namespace Editable; 🍂class PathEditor; 🍂aka L.Editable.PathEditor
    // 🍂inherits BaseEditor
    // Base class for all path editors.
    L.Editable.PathEditor = L.Editable.BaseEditor.extend({

        CLOSED: false,
        MIN_VERTEX: 2,

        addHooks: function() {
            L.Editable.BaseEditor.prototype.addHooks.call(this);
            if (this.feature) this.initVertexMarkers();
            return this;
        },

        initVertexMarkers: function(latlngs) {
            if (!this.enabled()) return;
            latlngs = latlngs || this.getLatLngs();
            if (isFlat(latlngs)) this.addVertexMarkers(latlngs);
            else
                for (var i = 0; i < latlngs.length; i++) this.initVertexMarkers(latlngs[i]);
        },

        getLatLngs: function() {
            return this.feature.getLatLngs();
        },

        // 🍂method reset()
        // Rebuild edit elements (Vertex, MiddleMarker, etc.).
        reset: function() {
            this.editLayer.clearLayers();
            this.initVertexMarkers();
        },

        addVertexMarker: function(latlng, latlngs) {
            return new this.tools.options.vertexMarkerClass(latlng, latlngs, this);
        },

        onNewVertex: function(vertex) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:new: VertexEvent
            // Fired when a new vertex is created.
            this.fireAndForward('editable:vertex:new', { latlng: vertex.latlng, vertex: vertex });
        },

        addVertexMarkers: function(latlngs) {
            for (var i = 0; i < latlngs.length; i++) {
                this.addVertexMarker(latlngs[i], latlngs);
            }
        },

        refreshVertexMarkers: function(latlngs) {
            latlngs = latlngs || this.getDefaultLatLngs();
            for (var i = 0; i < latlngs.length; i++) {
                latlngs[i].__vertex.update();
            }
        },

        addMiddleMarker: function(left, right, latlngs) {
            return new this.tools.options.middleMarkerClass(left, right, latlngs, this);
        },

        onVertexMarkerClick: function(e) {
            L.Editable.makeCancellable(e);
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:click: CancelableVertexEvent
            // Fired when a `click` is issued on a vertex, before any internal action is being processed.
            this.fireAndForward('editable:vertex:click', e);
            if (e._cancelled) return;
            if (this.tools.drawing() && this.tools._drawingEditor !== this) return;
            var index = e.vertex.getIndex(),
                commit;
            if (e.originalEvent.ctrlKey) {
                this.onVertexMarkerCtrlClick(e);
            } else if (e.originalEvent.altKey) {
                this.onVertexMarkerAltClick(e);
            } else if (e.originalEvent.shiftKey) {
                this.onVertexMarkerShiftClick(e);
            } else if (e.originalEvent.metaKey) {
                this.onVertexMarkerMetaKeyClick(e);
            } else if (index === e.vertex.getLastIndex() && this._drawing === L.Editable.FORWARD) {
                if (index >= this.MIN_VERTEX - 1) commit = true;
            } else if (index === 0 && this._drawing === L.Editable.BACKWARD && this._drawnLatLngs.length >= this.MIN_VERTEX) {
                commit = true;
            } else if (index === 0 && this._drawing === L.Editable.FORWARD && this._drawnLatLngs.length >= this.MIN_VERTEX && this.CLOSED) {
                commit = true; // Allow to close on first point also for polygons
            } else {
                this.onVertexRawMarkerClick(e);
            }
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:clicked: VertexEvent
            // Fired when a `click` is issued on a vertex, after all internal actions.
            this.fireAndForward('editable:vertex:clicked', e);
            if (commit) this.commitDrawing(e);
        },

        onVertexRawMarkerClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:rawclick: CancelableVertexEvent
            // Fired when a `click` is issued on a vertex without any special key and without being in drawing mode.
            this.fireAndForward('editable:vertex:rawclick', e);
            if (e._cancelled) return;
            if (!this.vertexCanBeDeleted(e.vertex)) return;
            e.vertex.delete();
        },

        vertexCanBeDeleted: function(vertex) {
            return vertex.latlngs.length > this.MIN_VERTEX;
        },

        onVertexDeleted: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:deleted: VertexEvent
            // Fired after a vertex has been deleted by user.
            this.fireAndForward('editable:vertex:deleted', e);
        },

        onVertexMarkerCtrlClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:ctrlclick: VertexEvent
            // Fired when a `click` with `ctrlKey` is issued on a vertex.
            this.fireAndForward('editable:vertex:ctrlclick', e);
        },

        onVertexMarkerShiftClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:shiftclick: VertexEvent
            // Fired when a `click` with `shiftKey` is issued on a vertex.
            this.fireAndForward('editable:vertex:shiftclick', e);
        },

        onVertexMarkerMetaKeyClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:metakeyclick: VertexEvent
            // Fired when a `click` with `metaKey` is issued on a vertex.
            this.fireAndForward('editable:vertex:metakeyclick', e);
        },

        onVertexMarkerAltClick: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:altclick: VertexEvent
            // Fired when a `click` with `altKey` is issued on a vertex.
            this.fireAndForward('editable:vertex:altclick', e);
        },

        onVertexMarkerContextMenu: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:contextmenu: VertexEvent
            // Fired when a `contextmenu` is issued on a vertex.
            this.fireAndForward('editable:vertex:contextmenu', e);
        },

        onVertexMarkerMouseDown: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:mousedown: VertexEvent
            // Fired when user `mousedown` a vertex.
            this.fireAndForward('editable:vertex:mousedown', e);
        },

        onVertexMarkerMouseOver: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:mouseover: VertexEvent
            // Fired when a user's mouse enters the vertex
            this.fireAndForward('editable:vertex:mouseover', e);
        },

        onVertexMarkerMouseOut: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:mouseout: VertexEvent
            // Fired when a user's mouse leaves the vertex
            this.fireAndForward('editable:vertex:mouseout', e);
        },

        onMiddleMarkerMouseDown: function(e) {
            // 🍂namespace Editable
            // 🍂section MiddleMarker events
            // 🍂event editable:middlemarker:mousedown: VertexEvent
            // Fired when user `mousedown` a middle marker.
            this.fireAndForward('editable:middlemarker:mousedown', e);
        },

        onVertexMarkerDrag: function(e) {
            this.onMove(e);
            if (this.feature._bounds) this.extendBounds(e);
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:drag: VertexEvent
            // Fired when a vertex is dragged by user.
            this.fireAndForward('editable:vertex:drag', e);
        },

        onVertexMarkerDragStart: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:dragstart: VertexEvent
            // Fired before a vertex is dragged by user.
            this.fireAndForward('editable:vertex:dragstart', e);
        },

        onVertexMarkerDragEnd: function(e) {
            // 🍂namespace Editable
            // 🍂section Vertex events
            // 🍂event editable:vertex:dragend: VertexEvent
            // Fired after a vertex is dragged by user.
            this.fireAndForward('editable:vertex:dragend', e);
        },

        setDrawnLatLngs: function(latlngs) {
            this._drawnLatLngs = latlngs || this.getDefaultLatLngs();
        },

        startDrawing: function() {
            if (!this._drawnLatLngs) this.setDrawnLatLngs();
            L.Editable.BaseEditor.prototype.startDrawing.call(this);
        },

        startDrawingForward: function() {
            this.startDrawing();
        },

        endDrawing: function() {
            this.tools.detachForwardLineGuide();
            this.tools.detachBackwardLineGuide();
            if (this._drawnLatLngs && this._drawnLatLngs.length < this.MIN_VERTEX) this.deleteShape(this._drawnLatLngs);
            L.Editable.BaseEditor.prototype.endDrawing.call(this);
            delete this._drawnLatLngs;
        },

        addLatLng: function(latlng) {
            if (this._drawing === L.Editable.FORWARD) this._drawnLatLngs.push(latlng);
            else this._drawnLatLngs.unshift(latlng);
            this.feature._bounds.extend(latlng);
            var vertex = this.addVertexMarker(latlng, this._drawnLatLngs);
            this.onNewVertex(vertex);
            this.refresh();
        },

        newPointForward: function(latlng) {
            this.addLatLng(latlng);
            this.tools.attachForwardLineGuide();
            this.tools.anchorForwardLineGuide(latlng);
        },

        newPointBackward: function(latlng) {
            this.addLatLng(latlng);
            this.tools.anchorBackwardLineGuide(latlng);
        },

        // 🍂namespace PathEditor
        // 🍂method push()
        // Programmatically add a point while drawing.
        push: function(latlng) {
            if (!latlng) return console.error('L.Editable.PathEditor.push expect a valid latlng as parameter');
            if (this._drawing === L.Editable.FORWARD) this.newPointForward(latlng);
            else this.newPointBackward(latlng);
        },

        removeLatLng: function(latlng) {
            latlng.__vertex.delete();
            this.refresh();
        },

        // 🍂method pop(): L.LatLng or null
        // Programmatically remove last point (if any) while drawing.
        pop: function() {
            if (this._drawnLatLngs.length <= 1) return;
            var latlng;
            if (this._drawing === L.Editable.FORWARD) latlng = this._drawnLatLngs[this._drawnLatLngs.length - 1];
            else latlng = this._drawnLatLngs[0];
            this.removeLatLng(latlng);
            if (this._drawing === L.Editable.FORWARD) this.tools.anchorForwardLineGuide(this._drawnLatLngs[this._drawnLatLngs.length - 1]);
            else this.tools.anchorForwardLineGuide(this._drawnLatLngs[0]);
            return latlng;
        },

        processDrawingClick: function(e) {
            if (e.vertex && e.vertex.editor === this) return;
            if (this._drawing === L.Editable.FORWARD) this.newPointForward(e.latlng);
            else this.newPointBackward(e.latlng);
            this.fireAndForward('editable:drawing:clicked', e);
        },

        onDrawingMouseMove: function(e) {
            L.Editable.BaseEditor.prototype.onDrawingMouseMove.call(this, e);
            if (this._drawing) {
                this.tools.moveForwardLineGuide(e.latlng);
                this.tools.moveBackwardLineGuide(e.latlng);
            }
        },

        refresh: function() {
            this.feature.redraw();
            this.onEditing();
        },

        // 🍂namespace PathEditor
        // 🍂method newShape(latlng?: L.LatLng)
        // Add a new shape (Polyline, Polygon) in a multi, and setup up drawing tools to draw it;
        // if optional `latlng` is given, start a path at this point.
        newShape: function(latlng) {
            var shape = this.addNewEmptyShape();
            if (!shape) return;
            this.setDrawnLatLngs(shape[0] || shape); // Polygon or polyline
            this.startDrawingForward();
            // 🍂namespace Editable
            // 🍂section Shape events
            // 🍂event editable:shape:new: ShapeEvent
            // Fired when a new shape is created in a multi (Polygon or Polyline).
            this.fireAndForward('editable:shape:new', { shape: shape });
            if (latlng) this.newPointForward(latlng);
        },

        deleteShape: function(shape, latlngs) {
            var e = { shape: shape };
            L.Editable.makeCancellable(e);
            // 🍂namespace Editable
            // 🍂section Shape events
            // 🍂event editable:shape:delete: CancelableShapeEvent
            // Fired before a new shape is deleted in a multi (Polygon or Polyline).
            this.fireAndForward('editable:shape:delete', e);
            if (e._cancelled) return;
            shape = this._deleteShape(shape, latlngs);
            if (this.ensureNotFlat) this.ensureNotFlat(); // Polygon.
            this.feature.setLatLngs(this.getLatLngs()); // Force bounds reset.
            this.refresh();
            this.reset();
            // 🍂namespace Editable
            // 🍂section Shape events
            // 🍂event editable:shape:deleted: ShapeEvent
            // Fired after a new shape is deleted in a multi (Polygon or Polyline).
            this.fireAndForward('editable:shape:deleted', { shape: shape });
            return shape;
        },

        _deleteShape: function(shape, latlngs) {
            latlngs = latlngs || this.getLatLngs();
            if (!latlngs.length) return;
            var self = this,
                inplaceDelete = function(latlngs, shape) {
                    // Called when deleting a flat latlngs
                    shape = latlngs.splice(0, Number.MAX_VALUE);
                    return shape;
                },
                spliceDelete = function(latlngs, shape) {
                    // Called when removing a latlngs inside an array
                    latlngs.splice(latlngs.indexOf(shape), 1);
                    if (!latlngs.length) self._deleteShape(latlngs);
                    return shape;
                };
            if (latlngs === shape) return inplaceDelete(latlngs, shape);
            for (var i = 0; i < latlngs.length; i++) {
                if (latlngs[i] === shape) return spliceDelete(latlngs, shape);
                else if (latlngs[i].indexOf(shape) !== -1) return spliceDelete(latlngs[i], shape);
            }
        },

        // 🍂namespace PathEditor
        // 🍂method deleteShapeAt(latlng: L.LatLng): Array
        // Remove a path shape at the given `latlng`.
        deleteShapeAt: function(latlng) {
            var shape = this.feature.shapeAt(latlng);
            if (shape) return this.deleteShape(shape);
        },

        // 🍂method appendShape(shape: Array)
        // Append a new shape to the Polygon or Polyline.
        appendShape: function(shape) {
            this.insertShape(shape);
        },

        // 🍂method prependShape(shape: Array)
        // Prepend a new shape to the Polygon or Polyline.
        prependShape: function(shape) {
            this.insertShape(shape, 0);
        },

        // 🍂method insertShape(shape: Array, index: int)
        // Insert a new shape to the Polygon or Polyline at given index (default is to append).
        insertShape: function(shape, index) {
            this.ensureMulti();
            shape = this.formatShape(shape);
            if (typeof index === 'undefined') index = this.feature._latlngs.length;
            this.feature._latlngs.splice(index, 0, shape);
            this.feature.redraw();
            if (this._enabled) this.reset();
        },

        extendBounds: function(e) {
            this.feature._bounds.extend(e.vertex.latlng);
        },

        onDragStart: function(e) {
            this.editLayer.clearLayers();
            L.Editable.BaseEditor.prototype.onDragStart.call(this, e);
        },

        onDragEnd: function(e) {
            this.initVertexMarkers();
            L.Editable.BaseEditor.prototype.onDragEnd.call(this, e);
        }

    });

    // 🍂namespace Editable; 🍂class PolylineEditor; 🍂aka L.Editable.PolylineEditor
    // 🍂inherits PathEditor
    L.Editable.PolylineEditor = L.Editable.PathEditor.extend({

        startDrawingBackward: function() {
            this._drawing = L.Editable.BACKWARD;
            this.startDrawing();
        },

        // 🍂method continueBackward(latlngs?: Array)
        // Set up drawing tools to continue the line backward.
        continueBackward: function(latlngs) {
            if (this.drawing()) return;
            latlngs = latlngs || this.getDefaultLatLngs();
            this.setDrawnLatLngs(latlngs);
            if (latlngs.length > 0) {
                this.tools.attachBackwardLineGuide();
                this.tools.anchorBackwardLineGuide(latlngs[0]);
            }
            this.startDrawingBackward();
        },

        // 🍂method continueForward(latlngs?: Array)
        // Set up drawing tools to continue the line forward.
        continueForward: function(latlngs) {
            if (this.drawing()) return;
            latlngs = latlngs || this.getDefaultLatLngs();
            this.setDrawnLatLngs(latlngs);
            if (latlngs.length > 0) {
                this.tools.attachForwardLineGuide();
                this.tools.anchorForwardLineGuide(latlngs[latlngs.length - 1]);
            }
            this.startDrawingForward();
        },

        getDefaultLatLngs: function(latlngs) {
            latlngs = latlngs || this.feature._latlngs;
            if (!latlngs.length || latlngs[0] instanceof L.LatLng) return latlngs;
            else return this.getDefaultLatLngs(latlngs[0]);
        },

        ensureMulti: function() {
            if (this.feature._latlngs.length && isFlat(this.feature._latlngs)) {
                this.feature._latlngs = [this.feature._latlngs];
            }
        },

        addNewEmptyShape: function() {
            if (this.feature._latlngs.length) {
                var shape = [];
                this.appendShape(shape);
                return shape;
            } else {
                return this.feature._latlngs;
            }
        },

        formatShape: function(shape) {
            if (isFlat(shape)) return shape;
            else if (shape[0]) return this.formatShape(shape[0]);
        },

        // 🍂method splitShape(latlngs?: Array, index: int)
        // Split the given `latlngs` shape at index `index` and integrate new shape in instance `latlngs`.
        splitShape: function(shape, index) {
            if (!index || index >= shape.length - 1) return;
            this.ensureMulti();
            var shapeIndex = this.feature._latlngs.indexOf(shape);
            if (shapeIndex === -1) return;
            var first = shape.slice(0, index + 1),
                second = shape.slice(index);
            // We deal with reference, we don't want twice the same latlng around.
            second[0] = L.latLng(second[0].lat, second[0].lng, second[0].alt);
            this.feature._latlngs.splice(shapeIndex, 1, first, second);
            this.refresh();
            this.reset();
        }

    });

    // 🍂namespace Editable; 🍂class PolygonEditor; 🍂aka L.Editable.PolygonEditor
    // 🍂inherits PathEditor
    L.Editable.PolygonEditor = L.Editable.PathEditor.extend({

        CLOSED: true,
        MIN_VERTEX: 3,

        newPointForward: function(latlng) {
            L.Editable.PathEditor.prototype.newPointForward.call(this, latlng);
            if (!this.tools.backwardLineGuide._latlngs.length) this.tools.anchorBackwardLineGuide(latlng);
            if (this._drawnLatLngs.length === 2) this.tools.attachBackwardLineGuide();
        },

        addNewEmptyHole: function(latlng) {
            this.ensureNotFlat();
            var latlngs = this.feature.shapeAt(latlng);
            if (!latlngs) return;
            var holes = [];
            latlngs.push(holes);
            return holes;
        },

        // 🍂method newHole(latlng?: L.LatLng, index: int)
        // Set up drawing tools for creating a new hole on the Polygon. If the `latlng` param is given, a first point is created.
        newHole: function(latlng) {
            var holes = this.addNewEmptyHole(latlng);
            if (!holes) return;
            this.setDrawnLatLngs(holes);
            this.startDrawingForward();
            if (latlng) this.newPointForward(latlng);
        },

        addNewEmptyShape: function() {
            if (this.feature._latlngs.length && this.feature._latlngs[0].length) {
                var shape = [];
                this.appendShape(shape);
                return shape;
            } else {
                return this.feature._latlngs;
            }
        },

        ensureMulti: function() {
            if (this.feature._latlngs.length && isFlat(this.feature._latlngs[0])) {
                this.feature._latlngs = [this.feature._latlngs];
            }
        },

        ensureNotFlat: function() {
            if (!this.feature._latlngs.length || isFlat(this.feature._latlngs)) this.feature._latlngs = [this.feature._latlngs];
        },

        vertexCanBeDeleted: function(vertex) {
            var parent = this.feature.parentShape(vertex.latlngs),
                idx = L.Util.indexOf(parent, vertex.latlngs);
            if (idx > 0) return true; // Holes can be totally deleted without removing the layer itself.
            return L.Editable.PathEditor.prototype.vertexCanBeDeleted.call(this, vertex);
        },

        getDefaultLatLngs: function() {
            if (!this.feature._latlngs.length) this.feature._latlngs.push([]);
            return this.feature._latlngs[0];
        },

        formatShape: function(shape) {
            // [[1, 2], [3, 4]] => must be nested
            // [] => must be nested
            // [[]] => is already nested
            if (isFlat(shape) && (!shape[0] || shape[0].length !== 0)) return [shape];
            else return shape;
        }

    });

    // 🍂namespace Editable; 🍂class RectangleEditor; 🍂aka L.Editable.RectangleEditor
    // 🍂inherits PathEditor
    L.Editable.RectangleEditor = L.Editable.PathEditor.extend({

        CLOSED: true,
        MIN_VERTEX: 4,

        options: {
            skipMiddleMarkers: true
        },

        extendBounds: function(e) {
            var index = e.vertex.getIndex(),
                next = e.vertex.getNext(),
                previous = e.vertex.getPrevious(),
                oppositeIndex = (index + 2) % 4,
                opposite = e.vertex.latlngs[oppositeIndex],
                bounds = new L.LatLngBounds(e.latlng, opposite);
            // Update latlngs by hand to preserve order.
            previous.latlng.update([e.latlng.lat, opposite.lng]);
            next.latlng.update([opposite.lat, e.latlng.lng]);
            this.updateBounds(bounds);
            this.refreshVertexMarkers();
        },

        onDrawingMouseDown: function(e) {
            L.Editable.PathEditor.prototype.onDrawingMouseDown.call(this, e);
            this.connect();
            var latlngs = this.getDefaultLatLngs();
            // L.Polygon._convertLatLngs removes last latlng if it equals first point,
            // which is the case here as all latlngs are [0, 0]
            if (latlngs.length === 3) latlngs.push(e.latlng);
            var bounds = new L.LatLngBounds(e.latlng, e.latlng);
            this.updateBounds(bounds);
            this.updateLatLngs(bounds);
            this.refresh();
            this.reset();
            // Stop dragging map.
            // L.Draggable has two workflows:
            // - mousedown => mousemove => mouseup
            // - touchstart => touchmove => touchend
            // Problem: L.Map.Tap does not allow us to listen to touchstart, so we only
            // can deal with mousedown, but then when in a touch device, we are dealing with
            // simulated events (actually simulated by L.Map.Tap), which are no more taken
            // into account by L.Draggable.
            // Ref.: https://github.com/Leaflet/Leaflet.Editable/issues/103
            e.originalEvent._simulated = false;
            this.map.dragging._draggable._onUp(e.originalEvent);
            // Now transfer ongoing drag action to the bottom right corner.
            // Should we refine which corner will handle the drag according to
            // drag direction?
            latlngs[3].__vertex.dragging._draggable._onDown(e.originalEvent);
        },

        onDrawingMouseUp: function(e) {
            this.commitDrawing(e);
            e.originalEvent._simulated = false;
            L.Editable.PathEditor.prototype.onDrawingMouseUp.call(this, e);
        },

        onDrawingMouseMove: function(e) {
            e.originalEvent._simulated = false;
            L.Editable.PathEditor.prototype.onDrawingMouseMove.call(this, e);
        },


        getDefaultLatLngs: function(latlngs) {
            return latlngs || this.feature._latlngs[0];
        },

        updateBounds: function(bounds) {
            this.feature._bounds = bounds;
        },

        updateLatLngs: function(bounds) {
            var latlngs = this.getDefaultLatLngs(),
                newLatlngs = this.feature._boundsToLatLngs(bounds);
            // Keep references.
            for (var i = 0; i < latlngs.length; i++) {
                latlngs[i].update(newLatlngs[i]);
            }
        }

    });

    // 🍂namespace Editable; 🍂class CircleEditor; 🍂aka L.Editable.CircleEditor
    // 🍂inherits PathEditor
    L.Editable.CircleEditor = L.Editable.PathEditor.extend({

        MIN_VERTEX: 2,

        options: {
            skipMiddleMarkers: true
        },

        initialize: function(map, feature, options) {
            L.Editable.PathEditor.prototype.initialize.call(this, map, feature, options);
            this._resizeLatLng = this.computeResizeLatLng();
        },

        computeResizeLatLng: function() {
            // While circle is not added to the map, _radius is not set.
            var delta = (this.feature._radius || this.feature._mRadius) * Math.cos(Math.PI / 4),
                point = this.map.project(this.feature._latlng);
            return this.map.unproject([point.x + delta, point.y - delta]);
        },

        updateResizeLatLng: function() {
            this._resizeLatLng.update(this.computeResizeLatLng());
            this._resizeLatLng.__vertex.update();
        },

        getLatLngs: function() {
            return [this.feature._latlng, this._resizeLatLng];
        },

        getDefaultLatLngs: function() {
            return this.getLatLngs();
        },

        onVertexMarkerDrag: function(e) {
            if (e.vertex.getIndex() === 1) this.resize(e);
            else this.updateResizeLatLng(e);
            L.Editable.PathEditor.prototype.onVertexMarkerDrag.call(this, e);
        },

        resize: function(e) {
            var radius = this.feature._latlng.distanceTo(e.latlng);
            this.feature.setRadius(radius);
        },

        onDrawingMouseDown: function(e) {
            L.Editable.PathEditor.prototype.onDrawingMouseDown.call(this, e);
            this._resizeLatLng.update(e.latlng);
            this.feature._latlng.update(e.latlng);
            this.connect();
            // Stop dragging map.
            e.originalEvent._simulated = false;
            this.map.dragging._draggable._onUp(e.originalEvent);
            // Now transfer ongoing drag action to the radius handler.
            this._resizeLatLng.__vertex.dragging._draggable._onDown(e.originalEvent);
        },

        onDrawingMouseUp: function(e) {
            this.commitDrawing(e);
            e.originalEvent._simulated = false;
            L.Editable.PathEditor.prototype.onDrawingMouseUp.call(this, e);
        },

        onDrawingMouseMove: function(e) {
            e.originalEvent._simulated = false;
            L.Editable.PathEditor.prototype.onDrawingMouseMove.call(this, e);
        },

        onDrag: function(e) {
            L.Editable.PathEditor.prototype.onDrag.call(this, e);
            this.feature.dragging.updateLatLng(this._resizeLatLng);
        }

    });

    // 🍂namespace Editable; 🍂class EditableMixin
    // `EditableMixin` is included to `L.Polyline`, `L.Polygon`, `L.Rectangle`, `L.Circle`
    // and `L.Marker`. It adds some methods to them.
    // *When editing is enabled, the editor is accessible on the instance with the
    // `editor` property.*
    var EditableMixin = {

        createEditor: function(map) {
            map = map || this._map;
            var tools = (this.options.editOptions || {}).editTools || map.editTools;
            if (!tools) throw Error('Unable to detect Editable instance.');
            var Klass = this.options.editorClass || this.getEditorClass(tools);
            return new Klass(map, this, this.options.editOptions);
        },

        // 🍂method enableEdit(map?: L.Map): this.editor
        // Enable editing, by creating an editor if not existing, and then calling `enable` on it.
        enableEdit: function(map) {
            if (!this.editor) this.createEditor(map);
            this.editor.enable();
            return this.editor;
        },

        // 🍂method editEnabled(): boolean
        // Return true if current instance has an editor attached, and this editor is enabled.
        editEnabled: function() {
            return this.editor && this.editor.enabled();
        },

        // 🍂method disableEdit()
        // Disable editing, also remove the editor property reference.
        disableEdit: function() {
            if (this.editor) {
                this.editor.disable();
                delete this.editor;
            }
        },

        // 🍂method toggleEdit()
        // Enable or disable editing, according to current status.
        toggleEdit: function() {
            if (this.editEnabled()) this.disableEdit();
            else this.enableEdit();
        },

        _onEditableAdd: function() {
            if (this.editor) this.enableEdit();
        }

    };

    var PolylineMixin = {

        getEditorClass: function(tools) {
            return (tools && tools.options.polylineEditorClass) ? tools.options.polylineEditorClass : L.Editable.PolylineEditor;
        },

        shapeAt: function(latlng, latlngs) {
            // We can have those cases:
            // - latlngs are just a flat array of latlngs, use this
            // - latlngs is an array of arrays of latlngs, loop over
            var shape = null;
            latlngs = latlngs || this._latlngs;
            if (!latlngs.length) return shape;
            else if (isFlat(latlngs) && this.isInLatLngs(latlng, latlngs)) shape = latlngs;
            else
                for (var i = 0; i < latlngs.length; i++)
                    if (this.isInLatLngs(latlng, latlngs[i])) return latlngs[i];
            return shape;
        },

        isInLatLngs: function(l, latlngs) {
            if (!latlngs) return false;
            var i, k, len, part = [],
                p,
                w = this._clickTolerance();
            this._projectLatlngs(latlngs, part, this._pxBounds);
            part = part[0];
            p = this._map.latLngToLayerPoint(l);

            if (!this._pxBounds.contains(p)) { return false; }
            for (i = 1, len = part.length, k = 0; i < len; k = i++) {

                if (L.LineUtil.pointToSegmentDistance(p, part[k], part[i]) <= w) {
                    return true;
                }
            }
            return false;
        }

    };

    var PolygonMixin = {

        getEditorClass: function(tools) {
            return (tools && tools.options.polygonEditorClass) ? tools.options.polygonEditorClass : L.Editable.PolygonEditor;
        },

        shapeAt: function(latlng, latlngs) {
            // We can have those cases:
            // - latlngs are just a flat array of latlngs, use this
            // - latlngs is an array of arrays of latlngs, this is a simple polygon (maybe with holes), use the first
            // - latlngs is an array of arrays of arrays, this is a multi, loop over
            var shape = null;
            latlngs = latlngs || this._latlngs;
            if (!latlngs.length) return shape;
            else if (isFlat(latlngs) && this.isInLatLngs(latlng, latlngs)) shape = latlngs;
            else if (isFlat(latlngs[0]) && this.isInLatLngs(latlng, latlngs[0])) shape = latlngs;
            else
                for (var i = 0; i < latlngs.length; i++)
                    if (this.isInLatLngs(latlng, latlngs[i][0])) return latlngs[i];
            return shape;
        },

        isInLatLngs: function(l, latlngs) {
            var inside = false,
                l1, l2, j, k, len2;

            for (j = 0, len2 = latlngs.length, k = len2 - 1; j < len2; k = j++) {
                l1 = latlngs[j];
                l2 = latlngs[k];

                if (((l1.lat > l.lat) !== (l2.lat > l.lat)) &&
                    (l.lng < (l2.lng - l1.lng) * (l.lat - l1.lat) / (l2.lat - l1.lat) + l1.lng)) {
                    inside = !inside;
                }
            }

            return inside;
        },

        parentShape: function(shape, latlngs) {
            latlngs = latlngs || this._latlngs;
            if (!latlngs) return;
            var idx = L.Util.indexOf(latlngs, shape);
            if (idx !== -1) return latlngs;
            for (var i = 0; i < latlngs.length; i++) {
                idx = L.Util.indexOf(latlngs[i], shape);
                if (idx !== -1) return latlngs[i];
            }
        }

    };


    var MarkerMixin = {

        getEditorClass: function(tools) {
            return (tools && tools.options.markerEditorClass) ? tools.options.markerEditorClass : L.Editable.MarkerEditor;
        }

    };

    var RectangleMixin = {

        getEditorClass: function(tools) {
            return (tools && tools.options.rectangleEditorClass) ? tools.options.rectangleEditorClass : L.Editable.RectangleEditor;
        }

    };

    var CircleMixin = {

        getEditorClass: function(tools) {
            return (tools && tools.options.circleEditorClass) ? tools.options.circleEditorClass : L.Editable.CircleEditor;
        }

    };

    var keepEditable = function() {
        // Make sure you can remove/readd an editable layer.
        this.on('add', this._onEditableAdd);
    };

    var isFlat = L.LineUtil.isFlat || L.LineUtil._flat || L.Polyline._flat; // <=> 1.1 compat.


    if (L.Polyline) {
        L.Polyline.include(EditableMixin);
        L.Polyline.include(PolylineMixin);
        L.Polyline.addInitHook(keepEditable);
    }
    if (L.Polygon) {
        L.Polygon.include(EditableMixin);
        L.Polygon.include(PolygonMixin);
    }
    if (L.Marker) {
        L.Marker.include(EditableMixin);
        L.Marker.include(MarkerMixin);
        L.Marker.addInitHook(keepEditable);
    }
    if (L.Rectangle) {
        L.Rectangle.include(EditableMixin);
        L.Rectangle.include(RectangleMixin);
    }
    if (L.Circle) {
        L.Circle.include(EditableMixin);
        L.Circle.include(CircleMixin);
    }

    L.LatLng.prototype.update = function(latlng) {
        latlng = L.latLng(latlng);
        this.lat = latlng.lat;
        this.lng = latlng.lng;
    }

}, window));