/** * @private */Ext.define('Ext.event.publisher.Gesture', { extend: 'Ext.event.publisher.Dom', requires: [ 'Ext.util.Point', 'Ext.AnimationQueue' ], uses: 'Ext.event.gesture.*', type: 'gesture', isCancelEvent: { touchcancel: 1, pointercancel: 1, MSPointerCancel: 1 }, isEndEvent: { mouseup: 1, touchend: 1, pointerup: 1, MSPointerUp: 1 }, handledEvents: [], handledDomEvents: [], constructor: function(config) { var me = this, handledDomEvents = me.handledDomEvents, supports = Ext.supports, supportsTouchEvents = supports.TouchEvents, onTouchStart = me.onTouchStart, onTouchMove = me.onTouchMove, onTouchEnd = me.onTouchEnd; me.handlers = { touchstart: onTouchStart, touchmove: onTouchMove, touchend: onTouchEnd, touchcancel: onTouchEnd, pointerdown: onTouchStart, pointermove: onTouchMove, pointerup: onTouchEnd, pointercancel: onTouchEnd, MSPointerDown: onTouchStart, MSPointerMove: onTouchMove, MSPointerUp: onTouchEnd, MSPointerCancel: onTouchEnd, mousedown: onTouchStart, mousemove: onTouchMove, mouseup: onTouchEnd }; me.activeTouchesMap = {}; me.activeTouches = []; me.changedTouches = []; me.recognizers = []; me.eventToRecognizer = {}; me.cancelEvents = []; if (supportsTouchEvents) { // bind handlers that are only invoked when the browser has touchevents me.onTargetTouchMove = me.onTargetTouchMove.bind(me); me.onTargetTouchEnd = me.onTargetTouchEnd.bind(me); } if (supports.PointerEvents) { handledDomEvents.push('pointerdown', 'pointermove', 'pointerup', 'pointercancel'); me.mousePointerType = 'mouse'; } else if (supports.MSPointerEvents) { // IE10 uses vendor prefixed pointer events, IE11+ use unprefixed names. handledDomEvents.push('MSPointerDown', 'MSPointerMove', 'MSPointerUp', 'MSPointerCancel'); me.mousePointerType = 4; } else if (supportsTouchEvents) { handledDomEvents.push('touchstart', 'touchmove', 'touchend', 'touchcancel'); } if (!handledDomEvents.length || (supportsTouchEvents && Ext.os.is.Desktop)) { // If the browser doesn't have pointer events or touch events we use mouse events // to trigger gestures. The exception to this rule is touch enabled desktop // browsers such as chrome and firefox on Windows touch screen devices. These // browsers accept both touch and mouse input, so we need to listen for both // touch events and mouse events. handledDomEvents.push('mousedown', 'mousemove', 'mouseup'); } me.initConfig(config); return me.callParent(); }, onReady: function() { this.callParent(); Ext.Array.sort(this.recognizers, function(recognizerA, recognizerB) { var a = recognizerA.priority, b = recognizerB.priority; return (a > b) ? 1 : (a < b) ? -1 : 0; }); }, registerRecognizer: function(recognizer) { var me = this, handledEvents = recognizer.handledEvents, ln = handledEvents.length, eventName, i; // The recognizer will call our onRecognized method when it determines that a // gesture has occurred. recognizer.setOnRecognized(me.onRecognized); recognizer.setCallbackScope(me); // the gesture publishers handledEvents array is derived from the handledEvents // of all of its recognizers for (i = 0; i < ln; i++) { eventName = handledEvents[i]; me.handledEvents.push(eventName); me.eventToRecognizer[eventName] = recognizer; } me.registerEvents(handledEvents); me.recognizers.push(recognizer); }, onRecognized: function(recognizer, eventName, e, info, isCancel) { var me = this, touches = e.touches, changedTouches = e.changedTouches, ln = changedTouches.length, events = me.events, queueWasEmpty = !events.length, cancelEvents = me.cancelEvents, targetGroups, targets, i, touch; info = info || {}; // At this point "e" still refers to the originally dispatched Ext.event.Event that // wraps a native browser event such as "touchend", or "mousemove". We need to // dispatch with an an event object that has the correct "recognized" type such // as "tap", or "drag". We don't want to change the type of the original event // object because it may be used asynchronously by event handlers, so we create a // new object that is chained to the original event. info.type = eventName; // Touch events have a handy feature - the original target of a touchstart is // always the target of successive touchmove/touchend events event if the touch // is dragged off of the original target. Pointer events also have this behavior // via the setPointerCapture method, unless their target is removed from the dom // mid-gesture, however, we do not currently use setPointerCapture because it // can change the target of translated mouse events. Mouse events do not have this // "capturing" feature at all - the target is always the element that was under // the mouse at the time the event occurred. To be safe, and to ensure consistency, // we just always set the target of recognized events to be the original target // that was cached when the first "start" event was received. info.target = changedTouches[0].target; // reset stopped and claimed just in case the event that we are wrapping had // stoppedPropagation or claimGesture called info.stopped = false; info.claimed = false; info.isGesture = true; e = e.chain(info); if (!me.gestureTargets) { if (ln > 1) { targetGroups = []; for (i = 0; i < ln; i++) { touch = changedTouches[i]; targetGroups.push(touch.targets); } targets = me.getCommonTargets(targetGroups); } else { targets = changedTouches[0].targets; } // Cache targets so that they only have to be computed once if multiple // gestures are currently being recognized. me.gestureTargets = targets; } if (isCancel && recognizer.isSingleTouch && (touches.length > 1)) { // single touch recognizer cancelled by the start of a second touch. // push into a separate queue which does not use the targets common to all // touches (this.gestureTargets) as the targets for publishing but rather // only uses the targets for the initial touch. e.target = touches[0].target; cancelEvents.push(e); } else { events.push(e); } if (queueWasEmpty) { // if there were no events in the queue previously, it means the dom event // has already been published, which means a recognizer must have recognized // a gesture asynchronously (e.g. singletap fires on a timer) // if this is the case we must publish now, otherwise we wait for the dom // event handler to publish after it is finished invoking the recognizers me.publishGestures(); } }, getCommonTargets: function(targetGroups) { var firstTargetGroup = targetGroups[0], ln = targetGroups.length, commonTargets = [], i = 1, target, targets, j; if (ln === 1) { return firstTargetGroup; } while (true) { // eslint-disable-line no-constant-condition target = firstTargetGroup[firstTargetGroup.length - i]; if (!target) { return commonTargets; } for (j = 1; j < ln; j++) { targets = targetGroups[j]; if (targets[targets.length - i] !== target) { return commonTargets; } } commonTargets.unshift(target); i++; } return commonTargets; // eslint-disable-line no-unreachable }, invokeRecognizers: function(methodName, e) { var recognizers = this.recognizers, ln = recognizers.length, i, recognizer; if (methodName === 'onStart') { for (i = 0; i < ln; i++) { recognizers[i].isActive = true; } } for (i = 0; i < ln; i++) { recognizer = recognizers[i]; if (recognizer.isActive && recognizer[methodName].call(recognizer, e) === false) { recognizer.isActive = false; } } }, /** * When a gesture has been claimed this method is invoked to remove gesture events of * other kinds. See implementation in Gesture publisher. * @param {Ext.event.Event[]} events * @param {String} claimedEvent * @return {Number} The new index of the claimed event * @private */ filterClaimed: function(events, claimedEvent) { var me = this, eventToRecognizer = me.eventToRecognizer, claimedEventType = claimedEvent.type, claimedRecognizer = eventToRecognizer[claimedEventType], claimedEventIndex, recognizer, type, i; for (i = events.length; i--;) { type = events[i].type; if (type === claimedEventType) { claimedEventIndex = i; } else { recognizer = eventToRecognizer[type]; // if there is no claimed recognizer it means the user must have invoked // claimGesture on a dom event (touchstart, touchmove etc). If this is the // case we need to cease firing all gesture events, otherwise we allow only // the "claimed" recognizer to continue to dispatch events. if (!claimedRecognizer || (recognizer && (recognizer !== claimedRecognizer))) { events.splice(i, 1); if (claimedEventIndex) { claimedEventIndex--; } } } } me.claimRecognizer(claimedRecognizer, events[0]); return claimedEventIndex; }, /** * Deactivates all recognizers other than the "claimed" recognizer * @param {Ext.event.gesture.Recognizer} claimedRecognizer * @param {Ext.event.Event} e * @private */ claimRecognizer: function(claimedRecognizer, e) { var me = this, recognizers = me.recognizers, i, ln, recognizer; for (i = 0, ln = recognizers.length; i < ln; i++) { recognizer = recognizers[i]; // cancel recognition for all recognizers other than the one that was claimed if (recognizer !== claimedRecognizer) { recognizer.isActive = false; recognizer.cancel(e); } } if (me.events.length) { // if any recognizers added cancelation events... me.publishGestures(true); } }, publishGestures: function(claimed) { var me = this, cancelEvents = me.cancelEvents, events = me.events, gestureTargets = me.gestureTargets; if (cancelEvents.length) { me.cancelEvents = []; // Since cancellation events cannot be claimed we pass true here which // prevents them from being claimed. me.publish(cancelEvents, me.getPropagatingTargets(cancelEvents[0].target), true); } if (events.length) { // It is important to reset the events property to an empty array before // publishing since since events may be added to the array during publishing. // This can happen if an event is claimed, thus triggering "cancel" gesture events. me.events = []; me.gestureTargets = null; me.publish(events, gestureTargets || me.getPropagatingTargets(events[0].target), claimed); } }, updateTouches: function(e) { var me = this, browserEvent = e.browserEvent, type = e.type, // the touchSource is the object from which we get data about the changed touch // point or points related to an event object, such as identifier, target, and // coordinates. For touch event the source is changedTouches, for mouse and // pointer events it is the event object itself. touchSources = browserEvent.changedTouches || [browserEvent], activeTouches = me.activeTouches, activeTouchesMap = me.activeTouchesMap, changedTouches = [], touchSource, identifier, touch, target, i, ln, x, y; for (i = 0, ln = touchSources.length; i < ln; i++) { touchSource = touchSources[i]; if ('identifier' in touchSource) { // touch events have an identifier property on their touches objects. // It can be 0, hence the "in" check identifier = touchSource.identifier; } else if ('pointerId' in touchSource) { // Pointer events have a pointerId on the event object itself identifier = touchSource.pointerId; } else { // Mouse events don't have an identifier, so we always use 1 since there // can only be one mouse touch point active at a time identifier = 1; } touch = activeTouchesMap[identifier]; if (!touch) { target = Ext.event.Event.resolveTextNode(touchSource.target); touch = activeTouchesMap[identifier] = { identifier: identifier, target: target, // There are 2 main advantages to caching the targets here, vs. // waiting until onRecognized // 1. for "move" events we don't have to construct the targets array // for every event - a theoretical performance win // 2. if the target is removed from the dom mid-gesture we still // want any gestures listeners on elements that were above the // target to complete. This means the propagating targets must reflect // the target element's initial hierarchy when the gesture began targets: me.getPropagatingTargets(target) }; activeTouches.push(touch); } if (me.isEndEvent[type] || me.isCancelEvent[type]) { delete activeTouchesMap[identifier]; Ext.Array.remove(activeTouches, touch); } x = Math.round(touchSource.pageX); y = Math.round(touchSource.pageY); touch.pageX = x; touch.pageY = y; // recognizers frequently use Point methods, so go ahead and create a Point. touch.point = new Ext.util.Point(x, y); changedTouches.push(touch); } // decorate the event object with the touch point info so that it can be used from // within gesture recognizers (clone touches, just in case event object is used // asynchronously since this.activeTouches is continuously modified) e.touches = Ext.Array.clone(activeTouches); // no need to clone changedTouches since we just created it from scratch e.changedTouches = changedTouches; }, publishDelegatedDomEvent: function(e) { var me = this; if (!e.button || e.button < 1) { // mouse gestures (and pointer gestures triggered by a mouse) can only be // initiated using the left button (0). button value < 0 is also acceptable // (e.g. pointermove has a button value of -1) // Track the event on the instance so it can be fired after gesture recognition // completes (if any gestures are recognized they will be added to this array) me.events = [e]; // This property on the browser event object indicates that the event has bubbled // up to the window object and has begun being handled by the gesture publisher. // If the user calls stopPropagation on an event that has not yet been "handled" // it triggers gesture cancellation and cleanup. e.browserEvent.$extHandled = true; me.handlers[e.type].call(me, e); } else { // mouse events *with* button still need to be published. me.callParent([e]); } }, onTouchStart: function(e) { var me = this, target = e.target, touches = e.browserEvent.touches; if (e.browserEvent.type === 'touchstart') { // When using touch events, if the target is removed from the dom mid-gesture // the touchend event cannot be handled normally because it will not bubble // to the top of the dom since the target el is no longer attached to the dom. // Add some special handlers to clean everything up. (see onTargetTouchEnd) // use addEventListener directly so that we don't have to spin up an instance // of Ext.Element for every event target. target.addEventListener('touchmove', me.onTargetTouchMove); target.addEventListener('touchend', me.onTargetTouchEnd); target.addEventListener('touchcancel', me.onTargetTouchEnd); } // There is a bug in IOS8 where touchstart, but not touchend event is // fired when clicking on controls for audio/video, which can leave // us in a bad state here. if (touches && touches.length <= me.activeTouches.length) { me.removeGhostTouches(touches); } me.updateTouches(e); if (!me.isStarted) { // Disable garbage collection during gestures so that if the target element // of a gesture is removed from the dom, it does not get garbage collected // until the gesture is complete if (Ext.enableGarbageCollector) { Ext.dom.GarbageCollector.pause(); } // this is the first active touch - invoke "onStart" which indicates the // beginning of a gesture me.isStarted = true; me.invokeRecognizers('onStart', e); } me.invokeRecognizers('onTouchStart', e); me.publishGestures(); }, onTouchMove: function(e) { var me = this, mousePointerType = me.mousePointerType, isStarted = me.isStarted; if (isStarted || (e.pointerType !== 'mouse')) { me.updateTouches(e); } if (isStarted) { // In IE10/11, the corresponding pointerup event is not fired after the pointerdown // after the mouse is released from the scrollbar. However, it does fire a pointermove // event with buttons: 0, so we capture that here and ensure the touch end process // is completed. if (mousePointerType && e.browserEvent.pointerType === mousePointerType && e.buttons === 0) { e.type = Ext.dom.Element.prototype.eventMap.touchend; e.button = 0; me.onTouchEnd(e); return; } if (e.changedTouches.length > 0) { me.invokeRecognizers('onTouchMove', e); } } me.publishGestures(); }, // This method serves as the handler for both "end" and "cancel" events. This is // because they are handled identically with the exception of the recognizer method // that is called. onTouchEnd: function(e) { var me = this, isStarted = me.isStarted, touchCount; if (isStarted || (e.pointerType !== 'mouse')) { me.updateTouches(e); } if (!isStarted) { me.publishGestures(); return; } touchCount = me.activeTouches.length; // If an exception is thrown in any of the recognizers, we still need to run // the cleanup. Otherwise the gesture might get "stuck" and *every* pointer event // after that will fire the same handlers over and over, potentially spewing // the same exceptions endlessly. See https://sencha.jira.com/browse/EXTJS-15674. // We don't want to mask the original exception though, let it propagate. try { me.invokeRecognizers(me.isCancelEvent[e.type] ? 'onTouchCancel' : 'onTouchEnd', e); } finally { // This can throw too try { if (!touchCount) { // no more active touches - invoke onEnd to indicate the end of the gesture me.isStarted = false; me.invokeRecognizers('onEnd', e); } } finally { // Right, THIS can throw again! try { me.publishGestures(); } finally { if (!touchCount) { // Gesture is finished, safe to resume garbage collection so that any target // elements destroyed while gesture was in progress can be collected if (Ext.enableGarbageCollector) { Ext.dom.GarbageCollector.resume(); } } // The parent code may not to be reached in this case me.reEnterCountAdjusted = true; me.reEnterCount--; } } } }, onTargetTouchMove: function(e) { if (Ext.elevateFunction) { // using [e] is faster than using arguments in most browsers // http://jsperf.com/passing-arguments Ext.elevateFunction(this.doTargetTouchMove, this, [e]); } else { this.doTargetTouchMove(e); } }, doTargetTouchMove: function(e) { var me = this; // handle touchmove if the target el was removed from dom mid-gesture. // see onTouchStart/onTargetTouchEnd for further explanation if (!Ext.getBody().contains(e.target)) { me.reEnterCountAdjusted = false; me.reEnterCount++; this.onTouchMove(new Ext.event.Event(e)); if (!me.reEnterCountAdjusted) { me.reEnterCount--; } } }, onTargetTouchEnd: function(e) { if (Ext.elevateFunction) { // using [e] is faster than using arguments in most browsers // http://jsperf.com/passing-arguments Ext.elevateFunction(this.doTargetTouchEnd, this, [e]); } else { this.doTargetTouchEnd(e); } }, doTargetTouchEnd: function(e) { var me = this, target = e.target; target.removeEventListener('touchmove', me.onTargetTouchMove); target.removeEventListener('touchend', me.onTargetTouchEnd); target.removeEventListener('touchcancel', me.onTargetTouchEnd); // if the target el was removed from the dom mid-gesture, then the touchend event, // when it occurs, will not be handled because it will not bubble to the top of // the dom. This is because the "target" of the touchend is the removed element. // If this is the case, go ahead and trigger touchend handling now. // Detect whether the target was removed from the DOM mid gesture by using Element.contains. // Originally we attempted to detect this by listening for the DOMNodeRemovedFromDocument // event, and setting a flag on the element when it was removed, however that // approach only works when the element is removed using removedChild, and fails // if the element is removed because some ancestor had innerHTML assigned. // note: this handling is applicable for actual touchend events, pointer and mouse // events will fire on whatever element is under the cursor/pointer after the // original target has been removed. if (!Ext.getBody().contains(target)) { me.reEnterCountAdjusted = false; me.reEnterCount++; me.onTouchEnd(new Ext.event.Event(e)); if (!me.reEnterCountAdjusted) { me.reEnterCount--; } } }, /** * Resets the internal state of the Gesture publisher and all of its recognizers. * Applications will not typically need to use this method, but it is useful for * Unit-testing situations where a clean slate is required for each test. * * Calling this method will also reset the state of Ext.event.publisher.Dom */ reset: function() { var me = this, recognizers = me.recognizers, ln = recognizers.length, i, recognizer; me.activeTouchesMap = {}; me.activeTouches = []; me.changedTouches = []; me.isStarted = false; me.gestureTargets = null; me.events = []; me.cancelEvents = []; for (i = 0; i < ln; i++) { recognizer = recognizers[i]; recognizer.reset(); recognizer.isActive = false; } this.callParent(); }, privates: { removeGhostTouches: function(touches) { var ids = {}, len = touches.length, activeTouches = this.activeTouches, map = this.activeTouchesMap, i, id, touch; // Collect the actual touches for (i = 0; i < len; ++i) { ids[touches[i].identifier] = true; } i = activeTouches.length; while (i--) { touch = activeTouches[i]; id = touch.identifier; if (!touches[id]) { Ext.Array.remove(activeTouches, touch); delete map[id]; } } } }}, function(Gesture) { var EventProto = Event.prototype, stopPropagation = EventProto.stopPropagation; if (stopPropagation) { EventProto.stopPropagation = function() { var me = this, publisher = Gesture.instance, type = me.type, e; if (!me.$extHandled && publisher.handles[type]) { // User called stop propagation on a native event used by the gesture publisher // to synthesize gesture events. Cancel gesture recognition and reset the publisher. e = new Ext.event.Event(me); publisher.updateTouches(e); publisher.invokeRecognizers('onTouchCancel', e); publisher.reset(); publisher.reEnterCountAdjusted = true; } stopPropagation.apply(me, arguments); }; } Gesture.instance = Ext.$gesturePublisher = new Gesture();});