/** * A DragTracker listens for drag events on an Element and fires events at the start and end of the drag, * as well as during the drag. This is useful for components such as {@link Ext.slider.Multi}, where there is * an element that can be dragged around to change the Slider's value. * * DragTracker provides a series of template methods that should be overridden to provide functionality * in response to detected drag operations. These are onBeforeStart, onStart, onDrag and onEnd. * See {@link Ext.slider.Multi}'s initEvents function for an example implementation. */ Ext.define('Ext.dd.DragTracker', { uses: ['Ext.util.Region'], mixins: { observable: 'Ext.util.Observable' }, /** * @property {Boolean} active * Indicates whether the user is currently dragging this tracker. * @readonly */ active: false, /** * @property {HTMLElement} dragTarget * The element being dragged. * * Only valid during drag operations. * * If the {@link #delegate} option is used, this will be the delegate element which was mousedowned. * @readonly */ /** * @cfg {Boolean} trackOver * Set to true to fire mouseover and mouseout events when the mouse enters or leaves the target element. * * This is implicitly set when an {@link #overCls} is specified. * * If the {@link #delegate} option is used, these events fire only when a delegate element is entered of left. */ trackOver: false, /** * @cfg {String} overCls * A CSS class to add to the DragTracker's target element when the element (or, if the {@link #delegate} * option is used, when a delegate element) is mouseovered. * * If the {@link #delegate} option is used, these events fire only when a delegate element is entered of left. */ /** * @cfg {Ext.util.Region/Ext.Element} constrainTo * A {@link Ext.util.Region Region} (Or an element from which a Region measurement will be read) * which is used to constrain the result of the {@link #getOffset} call. * * This may be set any time during the DragTracker's lifecycle to set a dynamic constraining region. */ /** * @cfg {Number} tolerance * Number of pixels the drag target must be moved before dragging is * considered to have started. */ tolerance: 5, /** * @cfg {Boolean/Number} autoStart * Specify `true` to defer trigger start by 1000 ms. * Specify a Number for the number of milliseconds to defer trigger start. */ autoStart: false, /** * @cfg {String} delegate * A {@link Ext.DomQuery DomQuery} selector which identifies child elements within the DragTracker's encapsulating * Element which are the tracked elements. This limits tracking to only begin when the matching elements are mousedowned. * * This may also be a specific child element within the DragTracker's encapsulating element to use as the tracked element. */ /** * @cfg {Boolean} [preventDefault=true] * Specify `false` to enable default actions on onMouseDown events. */ /** * @cfg {Boolean} [stopEvent=false] * Specify `true` to stop the `mousedown` event from bubbling to outer listeners from the target element (or its delegates). */ constructor : function(config){ var me = this; Ext.apply(me, config); me.addEvents( /** * @event mouseover * Fires when the mouse enters the DragTracker's target element (or if {@link #delegate} is * used, when the mouse enters a delegate element). * * **Only available when {@link #trackOver} is `true`** * * @param {Object} this * @param {Object} e event object * @param {HTMLElement} target The element mouseovered. */ 'mouseover', /** * @event mouseout * Fires when the mouse exits the DragTracker's target element (or if {@link #delegate} is * used, when the mouse exits a delegate element). * * **Only available when {@link #trackOver} is `true`** * * @param {Object} this * @param {Object} e event object */ 'mouseout', /** * @event mousedown * Fires when the mouse button is pressed down, but before a drag operation begins. The * drag operation begins after either the mouse has been moved by {@link #tolerance} pixels, * or after the {@link #autoStart} timer fires. * * Return `false` to veto the drag operation. * * @param {Object} this * @param {Object} e event object */ 'mousedown', /** * @event mouseup * @param {Object} this * @param {Object} e event object */ 'mouseup', /** * @event mousemove * Fired when the mouse is moved. Returning false cancels the drag operation. * @param {Object} this * @param {Object} e event object */ 'mousemove', /** * @event beforestart * @param {Object} this * @param {Object} e event object */ 'beforedragstart', /** * @event dragstart * @param {Object} this * @param {Object} e event object */ 'dragstart', /** * @event dragend * @param {Object} this * @param {Object} e event object */ 'dragend', /** * @event drag * @param {Object} this * @param {Object} e event object */ 'drag' ); me.dragRegion = new Ext.util.Region(0,0,0,0); if (me.el) { me.initEl(me.el); } // Dont pass the config so that it is not applied to 'this' again me.mixins.observable.constructor.call(me); if (me.disabled) { me.disable(); } }, /** * Initializes the DragTracker on a given element. * @param {Ext.Element/HTMLElement} el The element */ initEl: function(el) { var me = this; me.el = Ext.get(el); // The delegate option may also be an element on which to listen me.handle = Ext.get(me.delegate); // If delegate specified an actual element to listen on, we do not use the delegate listener option me.delegate = me.handle ? undefined : me.delegate; if (!me.handle) { me.handle = me.el; } // Add a mousedown listener which reacts only on the elements targeted by the delegate config. // We process mousedown to begin tracking. me.handleListeners = { scope: me, delegate: me.delegate, mousedown: me.onMouseDown }; // If configured to do so, track mouse entry and exit into the target (or delegate). // The mouseover and mouseout CANNOT be replaced with mouseenter and mouseleave // because delegate cannot work with those pseudoevents. Entry/exit checking is done in the handler. if (me.trackOver || me.overCls) { Ext.apply(me.handleListeners, { mouseover: me.onMouseOver, mouseout: me.onMouseOut }); } me.mon(me.handle, me.handleListeners); }, disable: function() { this.disabled = true; }, enable: function() { this.disabled = false; }, destroy : function() { var me = this; if (me.active) { // endDrag has a mandatory event parameter me.endDrag({}); } me.clearListeners(); me.mun(me.handle, me.handleListeners); me.el = me.handle = null; }, // When the pointer enters a tracking element, fire a mouseover if the mouse entered from outside. // This is mouseenter functionality, but we cannot use mouseenter because we are using "delegate" to filter mouse targets onMouseOver: function(e, target) { var me = this; if (!me.disabled) { if (Ext.EventManager.contains(e) || me.delegate) { me.mouseIsOut = false; if (me.overCls) { me.el.addCls(me.overCls); } me.fireEvent('mouseover', me, e, me.delegate ? e.getTarget(me.delegate, target) : me.handle); } } }, // When the pointer exits a tracking element, fire a mouseout. // This is mouseleave functionality, but we cannot use mouseleave because we are using "delegate" to filter mouse targets onMouseOut: function(e) { var me = this; if (me.mouseIsDown) { me.mouseIsOut = true; } else { if (me.overCls) { me.el.removeCls(me.overCls); } me.fireEvent('mouseout', me, e); } }, onMouseDown: function(e, target){ var me = this, el; // If this is disabled, or the mousedown has been processed by an upstream DragTracker, return if (me.disabled ||e.dragTracked) { return; } // This information should be available in mousedown listener and onBeforeStart implementations me.dragTarget = me.delegate ? target : me.handle.dom; me.startXY = me.lastXY = e.getXY(); me.startRegion = Ext.fly(me.dragTarget).getRegion(); if (me.fireEvent('mousedown', me, e) === false || me.fireEvent('beforedragstart', me, e) === false || me.onBeforeStart(e) === false) { return; } // Track when the mouse is down so that mouseouts while the mouse is down are not processed. // The onMouseOut method will only ever be called after mouseup. me.mouseIsDown = true; // Flag for downstream DragTracker instances that the mouse is being tracked. e.dragTracked = true; // See Ext.dd.DragDropManager::handleMouseDown el = me.el.dom; if (Ext.isIE && el.setCapture) { el.setCapture(); } if (me.preventDefault !== false) { e.preventDefault(); } Ext.getDoc().on({ scope: me, mouseup: me.onMouseUp, mousemove: me.onMouseMove, selectstart: me.stopSelect }); if (me.autoStart) { me.timer = Ext.defer(me.triggerStart, me.autoStart === true ? 1000 : me.autoStart, me, [e]); } }, onMouseMove: function(e, target){ var me = this, xy = e.getXY(), s = me.startXY; e.preventDefault(); me.lastXY = xy; if (!me.active) { if (Math.max(Math.abs(s[0]-xy[0]), Math.abs(s[1]-xy[1])) > me.tolerance) { me.triggerStart(e); } else { return; } } // Returning false from a mousemove listener deactivates if (me.fireEvent('mousemove', me, e) === false) { me.onMouseUp(e); } else { me.onDrag(e); me.fireEvent('drag', me, e); } }, onMouseUp: function(e) { var me = this; // Clear the flag which ensures onMouseOut fires only after the mouse button // is lifted if the mouseout happens *during* a drag. me.mouseIsDown = false; // If we mouseouted the el *during* the drag, the onMouseOut method will not have fired. Ensure that it gets processed. if (me.mouseIsOut) { me.mouseIsOut = false; me.onMouseOut(e); } e.preventDefault(); // See Ext.dd.DragDropManager::handleMouseDown if (Ext.isIE && document.releaseCapture) { document.releaseCapture(); } me.fireEvent('mouseup', me, e); me.endDrag(e); }, /** * @private * Stop the drag operation, and remove active mouse listeners. */ endDrag: function(e) { var me = this, wasActive = me.active; Ext.getDoc().un({ mousemove: me.onMouseMove, mouseup: me.onMouseUp, selectstart: me.stopSelect, scope: me }); me.clearStart(); me.active = false; if (wasActive) { me.onEnd(e); me.fireEvent('dragend', me, e); } // Private property calculated when first required and only cached during a drag // Remove flag from event singleton. Using "Ext.EventObject" here since "endDrag" is called directly in some cases without an "e" param me._constrainRegion = Ext.EventObject.dragTracked = null }, triggerStart: function(e) { var me = this; me.clearStart(); me.active = true; me.onStart(e); me.fireEvent('dragstart', me, e); }, clearStart : function() { var timer = this.timer; if (timer) { clearTimeout(timer); this.timer = null; } }, stopSelect : function(e) { e.stopEvent(); return false; }, /** * Template method which should be overridden by each DragTracker instance. Called when the user first clicks and * holds the mouse button down. Return false to disallow the drag * @param {Ext.EventObject} e The event object * @template */ onBeforeStart : function(e) { }, /** * Template method which should be overridden by each DragTracker instance. Called when a drag operation starts * (e.g. the user has moved the tracked element beyond the specified tolerance) * @param {Ext.EventObject} e The event object * @template */ onStart : function(xy) { }, /** * Template method which should be overridden by each DragTracker instance. Called whenever a drag has been detected. * @param {Ext.EventObject} e The event object * @template */ onDrag : function(e) { }, /** * Template method which should be overridden by each DragTracker instance. Called when a drag operation has been completed * (e.g. the user clicked and held the mouse down, dragged the element and then released the mouse button) * @param {Ext.EventObject} e The event object * @template */ onEnd : function(e) { }, /** * Returns the drag target. This is usually the DragTracker's encapsulating element. * * If the {@link #delegate} option is being used, this may be a child element which matches the * {@link #delegate} selector. * * @return {Ext.Element} The element currently being tracked. */ getDragTarget : function(){ return this.dragTarget; }, /** * @private * @returns {Ext.Element} The DragTracker's encapsulating element. */ getDragCt : function(){ return this.el; }, /** * @private * Return the Region into which the drag operation is constrained. * Either the XY pointer itself can be constrained, or the dragTarget element * The private property _constrainRegion is cached until onMouseUp */ getConstrainRegion: function() { var me = this; if (me.constrainTo) { if (me.constrainTo instanceof Ext.util.Region) { return me.constrainTo; } if (!me._constrainRegion) { me._constrainRegion = Ext.fly(me.constrainTo).getViewRegion(); } } else { if (!me._constrainRegion) { me._constrainRegion = me.getDragCt().getViewRegion(); } } return me._constrainRegion; }, getXY : function(constrain){ return constrain ? this.constrainModes[constrain](this, this.lastXY) : this.lastXY; }, /** * Returns the X, Y offset of the current mouse position from the mousedown point. * * This method may optionally constrain the real offset values, and returns a point coerced in one * of two modes: * * - `point` * The current mouse position is coerced into the constrainRegion and the resulting position is returned. * - `dragTarget` * The new {@link Ext.util.Region Region} of the {@link #getDragTarget dragTarget} is calculated * based upon the current mouse position, and then coerced into the constrainRegion. The returned * mouse position is then adjusted by the same delta as was used to coerce the region.\ * * @param {String} constrainMode (Optional) If omitted the true mouse position is returned. May be passed * as `point` or `dragTarget`. See above. * @returns {Number[]} The `X, Y` offset from the mousedown point, optionally constrained. */ getOffset : function(constrain){ var xy = this.getXY(constrain), s = this.startXY; return [xy[0]-s[0], xy[1]-s[1]]; }, constrainModes: { // Constrain the passed point to within the constrain region point: function(me, xy) { var dr = me.dragRegion, constrainTo = me.getConstrainRegion(); // No constraint if (!constrainTo) { return xy; } dr.x = dr.left = dr[0] = dr.right = xy[0]; dr.y = dr.top = dr[1] = dr.bottom = xy[1]; dr.constrainTo(constrainTo); return [dr.left, dr.top]; }, // Constrain the dragTarget to within the constrain region. Return the passed xy adjusted by the same delta. dragTarget: function(me, xy) { var s = me.startXY, dr = me.startRegion.copy(), constrainTo = me.getConstrainRegion(), adjust; // No constraint if (!constrainTo) { return xy; } // See where the passed XY would put the dragTarget if translated by the unconstrained offset. // If it overflows, we constrain the passed XY to bring the potential // region back within the boundary. dr.translateBy(xy[0]-s[0], xy[1]-s[1]); // Constrain the X coordinate by however much the dragTarget overflows if (dr.right > constrainTo.right) { xy[0] += adjust = (constrainTo.right - dr.right); // overflowed the right dr.left += adjust; } if (dr.left < constrainTo.left) { xy[0] += (constrainTo.left - dr.left); // overflowed the left } // Constrain the Y coordinate by however much the dragTarget overflows if (dr.bottom > constrainTo.bottom) { xy[1] += adjust = (constrainTo.bottom - dr.bottom); // overflowed the bottom dr.top += adjust; } if (dr.top < constrainTo.top) { xy[1] += (constrainTo.top - dr.top); // overflowed the top } return xy; } } });