/** * Ext.Widget is a light-weight Component that consists of nothing more than a template * Element that can be cloned to quickly and efficiently replicate many instances. * Ext.Widget is typically not instantiated directly, because the default template is * just a single element with no listeners. Instead Ext.Widget should be extended to * create Widgets that have a useful markup structure and event listeners. * * For example: * * Ext.define('MyWidget', { * extend: 'Ext.Widget', * * // The element template passed to Ext.Element.create() * element: { * reference: 'element', * listeners: { * click: 'onClick' * }, * children: [{ * reference: 'innerElement', * listeners: { * click: 'onInnerClick' * } * }] * }, * * constructor: function(config) { * // It is important to remember to call the Widget superclass constructor * // when overriding the constructor in a derived class. This ensures that * // the element is initialized from the template, and that initConfig() is * // is called. * this.callParent([config]); * * // After calling the superclass constructor, the Element is available and * // can safely be manipulated. Reference Elements are instances of * // Ext.Element, and are cached on each Widget instance by reference name. * Ext.getBody().appendChild(this.element); * }, * * onClick: function() { * // listeners use this Widget instance as their scope * console.log('element clicked', this); * }, * * onInnerClick: function() { * // access the innerElement reference by name * console.log('inner element clicked', this.innerElement); * } * }); * * @since 5.0.0 */Ext.define('Ext.Widget', { extend: 'Ext.Evented', xtype: 'widget', requires: [ 'Ext.dom.Element' ], mixins: [ 'Ext.mixin.Inheritable', 'Ext.mixin.Bindable' ], isWidget: true, /** * @property {Object} element * A configuration object for Ext.Element.create() that is used to create the Element * template. Supports all the standard options of a Ext.Element.create() config and * adds 2 additional options: * * 1. `reference` - this option specifies a name for Element references. These * references names become properties of the Widget instance and refer to Ext.Element * instances that were created using the template: * * element: { * reference: 'element', * children: [{ * reference: 'innerElement' * }] * } * * After construction of a widget the reference elements are accessible as follows: * * var foo = new FooWidget(), * innerEl = foo.innerEl; // an Ext.Element that wraps the innerElement * * The reference attribute is optional, but all Widgets must have a `'element'` * reference on some element within the template (usually the outermost one). * * 2. `listeners` - a standard listeners object as specified by {@link * Ext.mixin.Observable}. * * element: { * reference: 'element', * listeners: { * click: 'onClick' * }, * children: [{ * reference: 'innerElement', * listeners: { * click: 'onInnerClick' * } * }] * } * * Since listeners cannot be attached without an Ext.Element reference the `reference` * property MUST be specified in order to use `listeners`. * * The Widget instance is used as the scope for all listeners specified in this way, * so it is invalid to use the `scope` option in the `listeners` config since it will * always be overwritten using `this`. * @protected */ element: { reference: 'element' }, observableType: 'component', eventedConfig: { /** * @cfg {Number/String} width * The width of this Component; must be a valid CSS length value, e.g: `300`, `100px`, `30%`, etc. * By default, if this is not explicitly set, this Component's element will simply have its own natural size. * If set to `auto`, it will set the width to `null` meaning it will have its own natural size. * @accessor * @evented */ width: null, /** * @cfg {Number/String} height * The height of this Component; must be a valid CSS length value, e.g: `300`, `100px`, `30%`, etc. * By default, if this is not explicitly set, this Component's element will simply have its own natural size. * If set to `auto`, it will set the width to `null` meaning it will have its own natural size. * @accessor * @evented */ height: null }, /** * @property {Array} template * An array of child elements to use as the children of the main element in the {@link * #element} template. Only used if "children" are not specified explicitly in the * {@link #element} template. * @protected */ template: [], constructor: function(config) { var me = this; me.initId(config); me.initElement(); me.mixins.observable.constructor.call(me, config); Ext.ComponentManager.register(me); }, afterCachedConfig: function() { // This method runs once for the first instance of this Widget type that is // created. It runs after the element config has been processed for the first // instance, and after all the cachedConfigs (whose appliers/updaters may modify // the element) have been initialized. At this point we are ready to take the // DOM that was generated for the first Element instance, clone it, and cache it // on the prototype, so that it can be cloned by future instance to create their // elements (see initElement). var me = this, prototype = me.self.prototype, referenceList = me.referenceList, renderElement = me.renderElement.dom, renderTemplate, element, i, ln, reference, elements; // This is where we take the first instance's DOM and clone it as the template // for future instances prototype.renderTemplate = renderTemplate = document.createDocumentFragment(); renderTemplate.appendChild(renderElement.cloneNode(true)); elements = renderTemplate.querySelectorAll('[id]'); for (i = 0,ln = elements.length; i < ln; i++) { element = elements[i]; element.removeAttribute('id'); } // initElement skips removal of reference attributes for the first instance so that // the reference attributes will be present in the cached element when it is cloned. // Now that we're done cloning and caching the template element, it is safe to // remove the reference attributes from this instance's elements for (i = 0,ln = referenceList.length; i < ln; i++) { reference = referenceList[i]; me[reference].dom.removeAttribute('reference'); } }, applyWidth: function(width) { return this.filterLengthValue(width); }, applyHeight: function(height) { return this.filterLengthValue(height); }, destroy: function() { var me = this, referenceList = me.referenceList, i, ln, reference; // Destroy all element references for (i = 0, ln = referenceList.length; i < ln; i++) { reference = referenceList[i]; if (me.hasOwnProperty(reference)) { me[reference].destroy(); me[reference] = null; } } me.callParent(); Ext.ComponentManager.unregister(me); }, /** * @param width * @protected */ doSetWidth: function(width) { this.element.setWidth(width); }, /** * @param height * @protected */ doSetHeight: function(height) { this.element.setHeight(height); }, /** * A template method for modifying the {@link #element} config before it is processed. * By default adds the result of `this.getTemplate()` as the `children` array of * {@link #element} if `children` were not specified in the original * {@link #element} config. Typically this method should not need to be implemented * in subclasses. Instead the {@link #element} property should be use to configure * the element template for a given Widget subclass. * * This method is called once when the first instance of each Widget subclass is * created. The element config object that is returned is cached and used as the template * for all successive instances. The scope object for this method is the class prototype, * not the instance. * * @return {Object} the element config object * @protected */ getElementConfig: function() { var me = this, el = me.element; if (!('children' in el)) { el = Ext.apply({ children: me.getTemplate() }, el); } return el; }, /** * Returns the value of {@link Ext.Component#itemId} assigned to this component, or when that * is not set, returns the value of {@link Ext.Component#id}. * @return {String} */ getItemId: function() { // needed by ComponentQuery return this.itemId || this.id; }, /** * Returns the height and width of the Component. * @return {Object} The current `height` and `width` of the Component. * @return {Number} return.width * @return {Number} return.height */ getSize: function() { return { width: this.getWidth(), height: this.getHeight() }; }, getTemplate: function() { return this.template; }, /** * Initializes the Element for this Widget instance. If this is the first time a * Widget of this type has been instantiated the {@link #element} config will be * processed to create an Element. This Element is then cached on the prototype (see * afterCachedConfig) so that future instances can obtain their element by simply * cloning the Element that was cached by the first instance. * @protected */ initElement: function() { var me = this, prototype = me.self.prototype, id = me.getId(), referenceList = me.referenceList = [], cleanAttributes = true, renderTemplate, renderElement, element, referenceNodes, i, ln, referenceNode, reference; if (prototype.hasOwnProperty('renderTemplate')) { // we have already created an instance of this Widget type, so the element // config has already been processed, and the resulting DOM has been cached on // the prototype (see afterCachedConfig). This means we can obtain our element // by simply cloning the cached element. renderTemplate = me.renderTemplate.cloneNode(true); renderElement = renderTemplate.firstChild; } else { // this is the first instantiation of this widget type. Process the element // config from scratch to create our Element. cleanAttributes = false; renderTemplate = document.createDocumentFragment(); renderElement = Ext.Element.create(me.processElementConfig.call(prototype), true); renderTemplate.appendChild(renderElement); } referenceNodes = renderTemplate.querySelectorAll('[reference]'); for (i = 0,ln = referenceNodes.length; i < ln; i++) { referenceNode = referenceNodes[i]; reference = referenceNode.getAttribute('reference'); if (cleanAttributes) { // on first instantiation we do not clean the reference attributes here. // This is because this instance's element will be used as the template // for future instances, and we need the reference attributes to be // present in the template so that future instances can resolve their // references. afterCachedConfig is responsible for removing the // reference attributes from the DOM for the first instance after the // Element has been cloned and cached as the template. referenceNode.removeAttribute('reference'); } if (reference === 'element') { //<debug> if (element) { // already resolved a reference named element - can't have two Ext.Error.raise("Duplicate 'element' reference detected in '" + me.$className + "' template."); } //</debug> referenceNode.id = id; // element reference needs to be established ASAP, so add the reference // immediately, not "on-demand" element = me.el = me.addElementReference(reference, referenceNode); } else { me.addElementReferenceOnDemand(reference, referenceNode); } referenceList.push(reference); } //<debug> if (!element) { Ext.Error.raise("No 'element' reference found in '" + me.$className + "' template."); } //</debug> if (renderElement === element.dom) { me.renderElement = element; } else { me.addElementReferenceOnDemand('renderElement', renderElement); } }, /** * Tests whether this Widget matches a {@link Ext.ComponentQuery ComponentQuery} * selector string. * @param {String} selector The selector string to test against. * @return {Boolean} `true` if this Widget matches the selector. */ is: function(selector) { return Ext.ComponentQuery.is(this, selector); }, /** * Tests whether or not this Component is of a specific xtype. This can test whether this Component is descended * from the xtype (default) or whether it is directly of the xtype specified (`shallow = true`). * **If using your own subclasses, be aware that a Component must register its own xtype * to participate in determination of inherited xtypes.__ * * For a list of all available xtypes, see the {@link Ext.Component} header. * * Example usage: * * var t = new Ext.field.Text(); * var isText = t.isXType('textfield'); // true * var isBoxSubclass = t.isXType('field'); // true, descended from Ext.field.Field * var isBoxInstance = t.isXType('field', true); // false, not a direct Ext.field.Field instance * * @param {String} xtype The xtype to check for this Component. * @param {Boolean} shallow (optional) `false` to check whether this Component is descended from the xtype (this is * the default), or `true` to check whether this Component is directly of the specified xtype. * @return {Boolean} `true` if this component descends from the specified xtype, `false` otherwise. */ isXType: function(xtype, shallow) { return shallow ? (Ext.Array.indexOf(this.xtypes, xtype) !== -1) : !!this.xtypesMap[xtype]; }, resolveListenerScope: function(defaultType) { // break the tie between Observable and Inheritable resolveListenerScope return this.mixins.inheritable.resolveListenerScope.call(this, defaultType); }, /** * Sets the size of the Component. * @param {Number} width The new width for the Component. * @param {Number} height The new height for the Component. */ setSize: function(width, height) { if (width !== undefined) { this.setWidth(width); } if (height !== undefined) { this.setHeight(height); } }, // Workarounds to keep Ext.ComponentManager from throwing errors when dealing // Widgets. // Focusing is not handled strictly in 5.x. It is in 6.x onFocus: Ext.emptyFn, onBlur: Ext.emptyFn, onFocusEnter: Ext.emptyFn, onFocusLeave: Ext.emptyFn, isAncestor: function () { return false; }, //------------------------------------------------------------------------- privates: { /** * Reduces instantiation time for a Widget by lazily instantiating Ext.Element * references the first time they are used. This optimization only works for elements * with no listeners specified. * * @param {String} name The name of the reference * @param {HTMLElement} domNode * @private */ addElementReferenceOnDemand: function(name, domNode) { if (this._elementListeners[name]) { // if the element was configured with listeners then we cannot add the // reference on demand because we need to make sure the element responds // immediately to any events, even if its reference is never accessed this.addElementReference(name, domNode); } else { // no listeners - element reference can be resolved on demand. // TODO: measure if this has any significant performance impact. Ext.Object.defineProperty(this, name, { get: function() { // remove the property that was defined using defineProperty because // addElementReference will set the property on the instance, - the // getter is not needed after the first access. delete this[name]; return this.addElementReference(name, domNode); }, configurable: true }); } }, /** * Adds an element reference to this Widget instance. * @param {String} name The name of the reference * @param {HTMLElement} domNode * @return {Ext.dom.Element} * @private */ addElementReference: function (name, domNode) { var me = this, referenceEl = me[name] = Ext.get(domNode), listeners = me._elementListeners[name], eventName, listener; referenceEl.skipGarbageCollection = true; referenceEl.component = me; if (listeners) { // TODO: these references will be needed when we use delegation to listen // for element events, but for now, we'll just attach the listeners directly // referenceEl.reference = name; // referenceEl.component = me; // referenceEl.listeners = listeners; // at this point "listeners" exists on the class prototype. We need to clone // it before poking the scope reference onto it, because it is used as the // options object by Observable and so can't be safely shared. listeners = Ext.clone(listeners); // the outermost listeners object always needs the scope option. this covers // a listeners object with the following shape // // { // click: 'onClick' // scope: this // } listeners.scope = me; // if the listener is specified as an object it needs to have the scope // option added to that object, for example: // // { // click: { // fn: 'onClick', // scope: this // } // } for (eventName in listeners) { listener = listeners[eventName]; if (typeof listener === 'object') { listener.scope = me; } } // hopefully in the future we can stop calling on() here, and just use // event delegation to dispatch events to Widgets that have declared their // listeners in their template referenceEl.on(listeners); } return referenceEl; }, detachFromBody: function() { // See reattachToBody Ext.getDetachedBody().appendChild(this.element); this.isDetached = true; }, doAddListener: function(name, fn, scope, options, order, caller, manager) { if (options && 'element' in options) { //<debug> if (this.referenceList.indexOf(options.element) === -1) { Ext.Logger.error("Adding event listener with an invalid element reference of '" + options.element + "' for this component. Available values are: '" + this.referenceList.join("', '") + "'", this); } //</debug> // The default scope is this component this[options.element].doAddListener(name, fn, scope || this, options, order); } this.callParent([name, fn, scope, options, order, caller, manager]); }, filterLengthValue: function(value) { if (value === 'auto' || (!value && value !== 0)) { return null; } return value; }, getFocusEl: function () { return this.element; }, /** * Called for the first instance of this Widget to create an object that contains the * listener configs for all of the element references keyed by reference name. The * object is cached on the prototype and has the following shape: * * _elementListeners: { * element: { * click: 'onClick', * scope: this * }, * fooReference: { * tap: { * fn: someFunction, * delay: 100 * } * } * } * * The returned object is prototype chained to the _elementListeners object of its * superclass, and each key in the object is prototype chained to object with the * corresponding key in the superclass _elementListeners. This allows element * listeners to be inherited and overridden when subclassing widgets. * * This method is invoked with the prototype object as the scope * * @private */ initElementListeners: function(elementConfig) { var prototype = this, superPrototype = prototype.self.superclass, superElementListeners = superPrototype._elementListeners, reference = elementConfig.reference, children = elementConfig.children, elementListeners, listeners, superListeners, ln, i; if (prototype.hasOwnProperty('_elementListeners')) { elementListeners = prototype._elementListeners; } else { elementListeners = prototype._elementListeners = (superElementListeners ? Ext.Object.chain(superElementListeners) : {}); } if (reference) { listeners = elementConfig.listeners; if (listeners) { if (superElementListeners) { superListeners = superElementListeners[reference]; if (superListeners) { listeners = Ext.Object.chain(superListeners); Ext.apply(listeners, elementConfig.listeners); } } elementListeners[reference] = listeners; // null out the listeners on the elementConfig, since we are going to pass // it to Element.create(), and don't want "listeners" to be treated as an // attribute elementConfig.listeners = null; } } if (children) { for (i = 0, ln = children.length; i < ln; i++) { prototype.initElementListeners(children[i]); } } }, initId: function(config) { var me = this, defaultConfig = me.config, id = (config && config.id) || (defaultConfig && defaultConfig.id); if (id) { // setId() will normally be inherited from Identifiable, unless "id" is a // proper config, in which case it will be generated by the config system. me.setId(id); me.id = id; } else { // if no id configured, generate one (Identifiable) me.getId(); } }, /** * Recursively processes the element templates for this class and its superclasses, * ascending the hierarchy until it reaches a superclass whose element template * has already been processed. This method is invoked using the prototype as the scope. * * @private * @return {Object} */ processElementConfig: function() { var prototype = this, superPrototype = prototype.self.superclass, elementConfig; if (prototype.hasOwnProperty('_elementConfig')) { elementConfig = prototype._elementConfig; } else { // cache the elementConfig on the prototype, since we may end up here multiple // times if there are multiple subclasses elementConfig = prototype._elementConfig = prototype.getElementConfig(); if (superPrototype.isWidget) { // Before initializing element listeners we must process the element template // for our superclass so that we can chain our listeners to the superclass listeners prototype.processElementConfig.call(superPrototype); } // initElementListeners needs to be called BEFORE passing the element config // along to Ext.Element.create(). This ensures that the listener meta data is // saved, and then the listeners objects are removed from the element config // so that they do not get added as attributes by create() prototype.initElementListeners(elementConfig); } return elementConfig; }, reattachToBody: function() { // See detachFromBody this.isDetached = false; } }}, function(Widget) { // event options for listeners that use the "element" event options must also include // event options from Ext.Element (Widget.prototype.$elementEventOptions = Ext.Object.chain(Ext.Element.prototype.$eventOptions)).element = 1;});