/** * A Container has all of the abilities of {@link Ext.Component Component}, but lets you nest other Components inside * it. Applications are made up of lots of components, usually nested inside one another. Containers allow you to * render and arrange child Components inside them. Most apps have a single top-level Container called a Viewport, * which takes up the entire screen. Inside of this are child components, for example in a mail app the Viewport * Container's two children might be a message List and an email preview pane. * * Containers give the following extra functionality: * * - Adding child Components at instantiation and run time * - Removing child Components * - Specifying a Layout * * Layouts determine how the child Components should be laid out on the screen. In our mail app example we'd use an * HBox layout so that we can pin the email list to the left hand edge of the screen and allow the preview pane to * occupy the rest. There are several layouts, each of which help you achieve your desired * application structure. * * ## Adding Components to Containers * * As we mentioned above, Containers are special Components that can have child Components arranged by a Layout. One of * the code samples above showed how to create a Panel with 2 child Panels already defined inside it but it's easy to * do this at run time too: * * @example * var mainPanel = Ext.create({ * xtype: 'panel', * fullscreen: true, * layout: 'hbox', * defaults: { * flex: 1 * }, * items: [{ * html: 'First Panel', * style: 'background-color: #5E99CC' * }] * }); * * mainPanel.add({ * xtype: 'panel', * html: 'About this App' * }); * * Here we created three Panels in total. First we create mainPanel, which * already contains another Panel in its {@link Ext.Container#cfg-items items} * configuration, with some dummy text ("First Panel"). Finally, we add the third * panel to the second by calling the {@link Ext.Container#method-add add} method on `mainPanel`. * * In this case we gave our mainPanel another hbox layout, but we also introduced some * {@link Ext.Container#defaults defaults}. These are applied to every item in the Panel, so in this case every child * inside `mainPanel` will be given a `flex: 1` configuration. The effect of this is that when we first render the screen * only a single child is present inside `mainPanel`, so that child takes up the full width available to it. Once the * `mainPanel.add` line is called though, the `aboutPanel` is rendered inside of it and also given a `flex` of 1, which will * cause it and the first panel to both receive half the full width of the `mainPanel`. * * Likewise, it's easy to remove items from a Container: * * mainPanel.remove(aboutPanel); * * After this line is run everything is back to how it was, with the first child panel once again taking up the full * width inside `mainPanel`. */Ext.define('Ext.Container', { extend: 'Ext.Component', alternateClassName: ['Ext.lib.Container', 'Ext.container.Container'], requires: [ 'Ext.util.ItemCollection' ], xtype: 'container', isContainer: true, mixins: [ 'Ext.mixin.Queryable', 'Ext.mixin.Container', 'Ext.mixin.FocusableContainer' ], uses: [ // This is a uses here because layout.Auto requires container, to ensure // component styling rules come in earlier than layout rules and we don't // want to create a circular dependency 'Ext.layout.Auto' ], /** * @event add * Fires whenever item added to the Container. * @param {Ext.Container} this The Container instance. * @param {Object} item The item added to the Container. * @param {Number} index The index of the item within the Container. */ /** * @event remove * Fires whenever item removed from the Container. * @param {Ext.Container} this The Container instance. * @param {Object} item The item removed from the Container. * @param {Number} index The index of the item that was removed. */ /** * @event move * Fires whenever item moved within the Container. * @param {Ext.Container} this The Container instance. * @param {Object} item The item moved within the Container. * @param {Number} toIndex The new index of the item. * @param {Number} fromIndex The old index of the item. */ /** * @private * @event renderedchange * Fires whenever an item is rendered into a container or derendered * from a Container. * @param {Ext.Container} this The Container instance. * @param {Object} item The item in the Container. * @param {Boolean} rendered The current rendered status of the item. */ /** * @event activate * Fires whenever item within the Container is activated. * @param {Object} newActiveItem The new active item within the container. * @param {Ext.Container} this The Container instance. * @param {Object} oldActiveItem The old active item within the container. */ /** * @event deactivate * Fires whenever item within the Container is deactivated. * @param {Object} oldActiveItem The old active item within the container. * @param {Ext.Container} this The Container instance. * @param {Object} newActiveItem The new active item within the container. */ eventedConfig: { /** * @cfg {Ext.Component/Object/String/Number} activeItem The item from the {@link #cfg-items} collection that will be active first. This is * usually only meaningful in a {@link Ext.layout.Card card layout}, where only one item can be active at a * time. If passed a string, it will be assumed to be a {@link Ext.ComponentQuery} selector. A number will reference an * index or a {@link Ext.Component Component} instance may be passed as well. An object config will be created as a new * component. * @accessor * @evented */ activeItem: 0 }, config: { activeItemIndex: null, /** * @cfg {Boolean} [autoSize=true] * May be set to `false` for improved layout performance if auto-sizing is not required. * * Some versions of Safari, both desktop and mobile, have very slow performance * if the application has deeply nested containers due to the following WebKit * bug: https://bugs.webkit.org/show_bug.cgi?id=150445 * * Applications that experience performance issues in the affected versions of * Safari may need to turn off autoSizing globally for all `Ext.Container` instances * by placing the following override in the application's "overrides" directory: * * Ext.define('MyApp.overrides.Container', { * override: 'Ext.Container', * config: { * autoSize: false * } * }); * * Once auto-sizing support has turned off by default, it can be selectively * turned back on only on those container instances that explicitly need auto-sizing * behavior by setting `autoSize` to `true`. * * This option can also be used to allow items to be sized in percentage * units as a workaround for the following browser bug: * https://bugs.webkit.org/show_bug.cgi?id=137730 * * To illustrate, the following example should render a 200px by 200px green box * (the container) with a yellow box inside of it (the child item). The child * item's height and width are both set to `'50%'` so the child should render * exactly 100px by 100px in size. * * @example * Ext.create({ * xtype: 'container', * renderTo: Ext.getBody(), * height: 200, * width: 200, * style: 'background: green', * items: [{ * xtype: 'component', * style: 'background: yellow', * height: '50%', * width: '50%' * }] * }); * * All browsers except for Safari render the previous example correctly, but * Safari does not assign a height to the component. To make percentage-sized * items work in Safari, simply set `autoSize` to `false` on the container. * * Since the underlying implementation works by absolutely positioning the container's * body element, this option can only be used when the container is not * "shrink wrapping" the content in either direction. When `autoSize` is * set to `false`, shrink wrapped dimension(s) will collapse to 0. */ autoSize: null, /** * @cfg {String/Object/Boolean} cardSwitchAnimation * Animation to be used during transitions of cards. * @removed 2.0.0 Please use {@link Ext.layout.Card#animation} instead */ // @cmd-auto-dependency { aliasPrefix : "layout."} /** * @cfg {Object/String} layout Configuration for this Container's layout. Example: * * @example * Ext.create({ * xtype: 'container', * layout: { * type: 'hbox', * align: 'middle' * }, * items: [{ * xtype: 'panel', * flex: 1, * bodyStyle: { * background: "#000", * color:"#fff" * } * }, { * xtype: 'panel', * flex: 2, * bodyStyle: { * background: "#f00", * color:"#fff" * } * }] * }); * * @accessor */ layout: 'auto', /** * @cfg {Object} control Enables you to easily control Components inside this Container by listening to their * events and taking some action. For example, if we had a container with a nested Disable button, and we * wanted to hide the Container when the Disable button is tapped, we could do this: * * @example * Ext.create({ * xtype: 'container', * control: { * 'button[text=Disable]': { * tap: 'hideMe' * } * }, * * hideMe: function () { * this.hide(); * } * }); * * We used a {@link Ext.ComponentQuery} selector to listen to the {@link Ext.Button#tap tap} event on any * {@link Ext.Button button} anywhere inside the Container that has the {@link Ext.Button#text text} 'Disable'. * Whenever a Component matching that selector fires the `tap` event our `hideMe` function is called. `hideMe` is * called with scope: `this` (e.g. `this` is the Container instance). * */ control: null, /** * @cfg {Object} defaults A set of default configurations to apply to all child Components in this Container. * It's often useful to specify defaults when creating more than one items with similar configurations. For * example here we can specify that each child is a panel and avoid repeating the xtype declaration for each * one: * * @example * Ext.create({ * xtype: 'container', * defaults: { * xtype: 'panel' * }, * items: [ * { * html: 'Panel 1' * }, * { * html: 'Panel 2' * } * ] * }); * * @accessor */ defaults: null, // @cmd-auto-dependency { aliasPrefix: "widget.", typeProperty: "xtype", defaultTypeProperty: "defaultType", defaultsProperty: "defaults" } /** * @cfg {Array/Object} items The child items to add to this Container. This is usually an array of Component * configurations or instances, for example: * * @example * Ext.create({ * xtype: 'container', * items: [{ * xtype: 'panel', * html: 'This is an item' * }] * }); * * This may also be specified as an object, the property names of which are `itemId`s, and the property values * are child Component config objects, for example: * * @example * Ext.create({ * xtype: 'tabpanel', * items: { * panel1: { * xtype: 'panel', * title: 'First panel' * }, * panel2: { * xtype: 'panel', * title: 'Second panel' * } * } * }); * * @accessor */ items: null, /** * @cfg {Boolean} autoDestroy * If `true`, child items will be destroyed as soon as they are {@link #method-remove removed} * from this container. * @accessor */ autoDestroy: true, /** * @cfg {String} [defaultType=container] * The default {@link Ext.Component xtype} of child Components to create in this Container * when a child item is specified as a raw configuration object, rather than as an instantiated * Component. * @accessor */ defaultType: null, /** * @cfg {String} defaultFocus * * Specifies a child Component to receive focus when this Container's {@link #method-focus} * method is called. Should be a valid {@link Ext.ComponentQuery query} selector. */ defaultFocus: { $value: null, lazy: true }, /** * @cfg {String} innerCls * A string to add to the immediate parent element of the inner items of this * container. That is, items that are not `docked`, `positioned` or `floated`. In * some containers, `positioned` items may be in this same element. * @since 6.5.0 */ innerCls: null, // @cmd-auto-dependency {defaultType: "Ext.Mask"} /** * @cfg {Boolean/Object/Ext.Mask/Ext.LoadMask} masked * A configuration to allow you to mask this container. * You can optionally pass an object block with and xtype of `loadmask`, and an optional `message` value to * display a loading mask. Please refer to the {@link Ext.LoadMask} component to see other configurations. * * @example * Ext.create({ * xtype: 'container', * fullscreen: true, * html: 'Hello World', * masked: { * xtype: 'loadmask', * message: 'My Message' * } * }); * * Alternatively, you can just call the setter at any time with `true`/`false` to show/hide the mask: * * setMasked(true); //show the mask * setMasked(false); //hides the mask * * There are also two convenient methods, {@link #method-mask} and {@link #unmask}, to allow you to mask and unmask * this container at any time. * * Remember, the {@link Ext.Viewport} is always a container, so if you want to mask your whole application at anytime, * can call: * * Ext.Viewport.setMasked({ * xtype: 'loadmask', * message: 'Hello' * }); * * @accessor */ masked: null }, /** * @cfg {Boolean} [weighted=false] * If set to `true`, then child {@link #cfg!items} may be specified as a object, * with each property name specifying an {@link #cfg!itemId}, and the property * value being the child item configuration object. * * When using this scheme, each child item may contain a {@link #cfg!weight} * configuration value which affects its order in this container. Lower weights * are towards the start, higher weights towards the end. */ weighted: false, /** * @cfg {Boolean} * @protected * `true` to enable border management of docked items. When enabled, borders of docked * items will collapse where they meet to avoid duplicated borders. */ manageBorders: false, classCls: Ext.baseCSSPrefix + 'container', managedBordersCls: Ext.baseCSSPrefix + 'managed-borders', template: [{ reference: 'bodyElement', cls: Ext.baseCSSPrefix + 'body-el', uiCls: 'body-el' }], constructor: function(config) { var me = this; me._items = me.items = new Ext.util.ItemCollection(); me.innerItems = []; me.getReferences = me.getFirstReferences; me.onItemAdd = me.onFirstItemAdd; me.callParent(arguments); delete me.getReferences; }, initialize: function() { var me = this; me.reference = me.setupReference(me.reference); me.callParent(); if (me.manageBorders) { me.addCls(me.managedBordersCls); } // Ensure the container's layout instance is created, even if the container // has no items. This ensures border management is handled correctly on empty // panels. me.getLayout(); }, /** * Changes the {@link #masked} configuration when its setter is called, which will convert the value * into a proper object/instance of {@link Ext.Mask}/{@link Ext.LoadMask}. If a mask already exists, * it will use that instead. * @param {Boolean/Object/Ext.Mask/Ext.LoadMask} masked * @return {Object} */ applyMasked: function (masked) { var isVisible = true, currentMask; if (masked === false) { masked = true; isVisible = false; } // Subscript notation is used to reference Ext.Mask to prevent creation of an auto-dependency currentMask = Ext.factory(masked, Ext['Mask'], this.getMasked()); if (currentMask) { currentMask.setHidden(!isVisible); //\\ TODO: Reliable render pathway and rendered transition. // was: this.el.append(currentMask.el); currentMask.render(this.el); } return currentMask; }, /** * Convenience method which calls {@link #setMasked} with a value of `true` (to show the mask). For additional * functionality, call the {@link #setMasked} function direction (See the {@link #masked} configuration documentation * for more information). */ mask: function (mask) { this.setMasked(mask || true); }, /** * Convenience method which calls {@link #setMasked} with a value of false (to hide the mask). For additional * functionality, call the {@link #setMasked} function direction (See the {@link #masked} configuration documentation * for more information). */ unmask: function () { this.setMasked(false); }, initInheritedState: function(inheritedState, inheritedStateInner) { this.callParent([inheritedState, inheritedStateInner]); this.initContainerInheritedState(inheritedState, inheritedStateInner); }, onAdded: function(parent, instanced) { this.callParent([parent, instanced]); this.containerOnAdded(parent, instanced); }, onRemoved: function(destroying) { this.containerOnRemoved(destroying); this.callParent([destroying]); }, afterItemShow: function(item) { var layout; if (item.getDocked()) { layout = this.getLayout(); this.items.generation++; layout.handleDockedItemBorders(); } }, afterItemHide: function(item) { var layout; if (item.getDocked()) { layout = this.getLayout(); this.items.generation++; layout.handleDockedItemBorders(); } }, applyItems: function(items, collection) { if (items) { var me = this, activeItem; me.getDefaultType(); me.getDefaults(); if (me.initialized && collection.length > 0) { me.removeAll(); } // Read items from object properties back into the newItems array // unless the item is a Widget or is a config object with an xtype. if (me.weighted && !items.isWidget && !items.xtype) { items = Ext.convertKeyedItems(items); } me.add(items); //Don't need to call setActiveItem when Container is first initialized if (me.initialized) { activeItem = me.initialConfig.activeItem || me.config.activeItem || 0; me.setActiveItem(activeItem); } } }, /** * @private */ applyControl: function(selectors) { var selector, key, listener, listeners; for (selector in selectors) { listeners = selectors[selector]; for (key in listeners) { listener = listeners[key]; if (Ext.isObject(listener)) { listener.delegate = selector; } } listeners.delegate = selector; this.addListener(listeners); } return selectors; }, updateDisabled: function(disabled) { var me = this; me.callParent([disabled]); if (me.focusableContainer) { me.getItems(); if (disabled) { me.element.saveTabbableState(); } else { me.element.restoreTabbableState(); } me.activateFocusableContainer(!disabled); if (!disabled) { me.initDefaultFocusable(); } } }, /** * Initialize layout and event listeners the very first time an item is added * @private */ onFirstItemAdd: function(item) { var me = this; delete me.onItemAdd; if (item.isInner && me.innerHtmlElement && !me.getHtml() && !me.getTpl()) { me.innerHtmlElement.destroy(); delete me.innerHtmlElement; } return me.onItemAdd.apply(me, arguments); }, applyLayout: function (layout, oldLayout) { if (typeof layout === 'string') { layout = { type: layout }; } if (oldLayout) { if (layout) { if (!layout.isLayout) { oldLayout.setConfig(layout); } //<debug> else { Ext.raise('Cannot change layout instances on ' + this.$className); } //</debug> } return oldLayout; } // Container has to be stamped into the layout as soon as its created. if (!(layout && layout.isLayout)) { layout = Ext.Factory.layout(Ext.apply({ container: this }, layout), Ext.layout.Auto); } this.link('layout', layout); return layout; }, updateDefaultType: function(defaultType) { // Cache the direct reference to the default item class here for performance this.defaultItemClass = Ext.ClassManager.getByAlias('widget.' + defaultType); //<debug> if (!this.defaultItemClass) { Ext.Logger.error("Invalid defaultType of: '" + defaultType + "', must be a valid component xtype"); } //</debug> }, /** * Called when an item is added to this container either during initialization of the {@link #cfg-items} config, * or when new items are {@link #method-add added), or {@link #method-insert inserted}. * * If the passed object is *not* an instanced component, it converts the passed object into an instanced * child component. * * It applies {@link #cfg-defaults} applied for contained child items - that is items * which are not positiond using {@link Ext.Component#cfg-left left}, {@link Ext.Component#cfg-top top}, * {@link Ext.Component#cfg-bottom bottom}, {@link Ext.Component#cfg-right right}, * {@link Ext.Component#cfg-centered centered} or {@link Ext.Component#cfg-docked docked}. * * Derived classes can override this method to process context appropriate short-hands * such as {@link Ext.Toolbar} and "->" to insert a spacer. * * @param {Mixed} item The item being added. May be a raw config object or an instanced * Component or some other short-hand understood by the container. * @return {Ext.Component} The component to be added. * @protected */ factoryItem: function (item) { //<debug> if (!item) { Ext.Logger.error("Invalid item given: " + item + ", must be either the config object to factory a new item, " + "or an existing component instance"); } //</debug> var me = this; item = me.applyItemDefaults(item); if (!item.isComponent) { // This forces default type to be resolved prior to any other configs that // may be using it to create children if (!me.$hasCachedDefaultItemClass) { me.getDefaultType(); me.$hasCachedDefaultItemClass = true; } item = Ext.factory(item, me.defaultItemClass); } return item; }, /** * Adds one or more Components to this Container. Example: * * var myPanel = Ext.create({ * xtype: 'panel', * html : 'This will be added to a Container' * }); * * var items = myContainer.add([myPanel]); // Array returned * var item = myContainer.add(myPanel); // One item is returned * * @param {Object/Object[]/Ext.Component/Ext.Component[]} newItems The new item(s) to add * to the Container. Note that if an array of items to add was passed in, an array of added * items will be returned as well even if there was only one item. * * @return {Ext.Component/Ext.Component[]} The Component(s) that were added. */ add: function(newItems) { var me = this, items = me.getItems(), weighted = me.weighted, addingArray = true, addedItems = [], doWeightedInsert, i, ln, item, instanced; if (!Ext.isArray(newItems)) { newItems = [newItems]; addingArray = false; } // If we are maintaining child items in weight order, then we only // have to do a calculated insert if there are existing items. // If no existing items, we can just sort the incoming items // and add them in that order. if (weighted) { if (items.length) { doWeightedInsert = true; } else { Ext.Array.sort(newItems, Ext.weightSortFn); } } for (i = 0, ln = newItems.length; i < ln; i++) { item = newItems[i]; if (item) { instanced = item.isWidget; if (!instanced) { item.$initParent = me; } item = me.factoryItem(item); // If we are a weighted container, and we're not empty, and we're adding multiple // items, then insert items according to weighting. if (doWeightedInsert) { me.doInsert(items.findInsertionIndex(item, Ext.weightSortFn), item, instanced); } else { me.doAdd(item, instanced); } delete item.$initParent; if (me.focusableContainer) { me.onFocusableChildAdd(item); } addedItems.push(item); } //<debug> else if (item !== null) { Ext.raise('Invalid item passed to add'); } //</debug> } if ((me.isConfiguring || !me.getActiveItem()) && me.innerItems.length > 0) { me.setActiveItem(me.initialConfig.activeItem || 0); } if (me.rendered && ln && me.focusableContainer) { me.initFocusableContainer(); } return addingArray ? addedItems : addedItems[0]; }, onItemWeightChange: function(item) { var items = this.getItems(), oldIndex = items.indexOf(item), index; items.remove(item); index = items.findInsertionIndex(item, Ext.weightSortFn); items.insert(index, item); this.insertInner(item, index); this.onItemMove(item, index, oldIndex); }, /** * @private * @param {Ext.Component} item * @param {Boolean} instanced * when received. */ doAdd: function(item, instanced) { var me = this, items = me.getItems(), index; if (!items.has(item)) { index = items.length; items.add(item); if (item.isInnerItem()) { me.insertInner(item, index); } item.onAdded(me, !!instanced); if (me.focusableContainer) { me.onFocusableChildAdd(item); } me.onItemAdd(item, index); } }, /** * Removes an item from this Container, optionally destroying it. * @param {Ext.Component/String/Number/Array} which The component instance, id or * index to remove or an array of these. * @param {Boolean} [destroy] `true` to automatically call Component's * {@link Ext.Component#method-destroy destroy} method. * * @return {Ext.Component} The Component that was removed. */ remove: function (which, destroy) { var me = this, component = me.getComponent(which), // fails for []'s activeItem, index, innerItems, item, wasActive; if (destroy === undefined) { destroy = me.getAutoDestroy(); } if (!component) { //<debug> if (!Ext.isArray(which)) { Ext.raise('Invalid first argument to Ext.Container#remove() - ', Ext.typeOf(which)); } //</debug> activeItem = me.getActiveItem(); for (index = 0; index < which.length; ++index) { item = me.getComponent(which[index]); if (item === activeItem) { wasActive = true; } else if (item) { me.remove(item, destroy); } } // If we are removing the activeItem, save it for last if (wasActive) { me.remove(activeItem, destroy); } return which; // the same array we were given } index = me.indexOf(component); innerItems = me.getInnerItems(); if (index !== -1) { if (!me.removingAll && innerItems.length > 1 && component === me.getActiveItem()) { me.on({ activeitemchange: 'doRemove', scope: me, single: true, order: 'after', args: [component, index, destroy] }); me.doResetActiveItem(innerItems.indexOf(component)); } else { me.doRemove(component, index, destroy); if (innerItems.length === 0) { me.setActiveItem(null); } } } return component; }, doResetActiveItem: function(innerIndex) { if (innerIndex === 0) { this.setActiveItem(1); } else { this.setActiveItem(0); } }, doRemove: function(item, index, destroy) { var me = this; // Don't bother removing from these collections during destroy, since // they will just be nulled out if (!me.destroying) { me.items.remove(item); if (item.isInnerItem()) { me.removeInner(item); } me.onItemRemove(item, index, destroy); } if (!item.destroyed) { item.onRemoved(item.destroying || destroy); } if (me.focusableContainer && !me.destroying && !me.destroyed) { me.onFocusableChildRemove(item, destroy); } if (destroy && !item.destroyed) { item.destroy(); } }, /** * Removes all items currently in the Container, optionally destroying them all. * * @param {Boolean} destroy If `true`, {@link Ext.Component#method-destroy destroys} * each removed Component. * @param {Boolean} everything If `true`, completely remove all items including * docked / centered and positioned items. * * @return {Ext.Component[]} Array of the removed Components */ removeAll: function(destroy, everything) { var me = this, destroying = me.destroying, items = me.items, removed = destroying ? null : [], ln = items.length, i, item; if (typeof destroy !== 'boolean') { destroy = this.getAutoDestroy(); } // removingAll flag is used so we don't unnecessarily change activeItem while // removing all items. me.removingAll = true; for (i = 0; i < ln; i++) { item = items.getAt(i); if (item && (everything || item.isInnerItem())) { me.doRemove(item, i, destroy); // When we are destroying, the items will not be removed from the collection // so the count won't be modified if (!destroying) { i--; ln--; } } if (removed) { removed.push(item); } } if (!destroying) { me.setActiveItem(null); } me.removingAll = false; return removed; }, /** * Returns the Component for a given index in the Container's {@link #property-items}. * @param {Number} index The index of the Component to return. * @return {Ext.Component} The item at the specified `index`, if found. */ getAt: function(index) { return this.items.getAt(index); }, getInnerAt: function(index) { return this.innerItems[index]; }, /** * Removes the Component at the specified index: * * myContainer.removeAt(0); // removes the first item * * @param {Number} index The index of the Component to remove. * * @param {Boolean} [destroy] `true` to automatically call Component's * {@link Ext.Component#method-destroy destroy} method. * * @return {Ext.Component} The removed Component */ removeAt: function(index, destroy) { var item = this.getAt(index); if (item) { this.remove(item, destroy); } return item; }, /** * Removes an inner Component at the specified index: * * myContainer.removeInnerAt(0); // removes the first item of the innerItems property * * @param {Number} index The index of the Component to remove. * @return {Ext.Component} The removed Component */ removeInnerAt: function(index) { var item = this.getInnerItems()[index]; if (item) { this.remove(item); } return item; }, /** * @private */ has: function(item) { return this.getItems().indexOf(item) != -1; }, /** * @private */ hasInnerItem: function(item) { return this.innerItems.indexOf(item) != -1; }, /** * @private */ indexOf: function(item) { return this.getItems().indexOf(item); }, innerIndexOf: function(item) { return this.innerItems.indexOf(item); }, /** * @private * @param {Ext.Component} item * @param {Number} index */ insertInner: function(item, index) { var items = this.getItems().items, innerItems = this.innerItems, currentInnerIndex = innerItems.indexOf(item), newInnerIndex = -1, nextSibling; if (currentInnerIndex !== -1) { innerItems.splice(currentInnerIndex, 1); } if (typeof index == 'number') { do { nextSibling = items[++index]; } while (nextSibling && !nextSibling.isInnerItem()); if (nextSibling) { newInnerIndex = innerItems.indexOf(nextSibling); innerItems.splice(newInnerIndex, 0, item); } } if (newInnerIndex === -1) { innerItems.push(item); newInnerIndex = innerItems.length - 1; } if (currentInnerIndex !== -1) { this.onInnerItemMove(item, newInnerIndex, currentInnerIndex); } return this; }, onInnerItemMove: Ext.emptyFn, /** * @private * @param {Ext.Component} item */ removeInner: function(item) { Ext.Array.remove(this.innerItems, item); return this; }, /** * Adds a child Component at the given index. For example, here's how we can add a new item, making it the first * child Component of this Container: * * myContainer.insert(0, {xtype: 'panel', html: 'new item'}); * * @param {Number} index The index to insert the Component at. * @param {Object} item The Component to insert. */ insert: function(index, item) { var me = this, instanced, i; //<debug> if (typeof index != 'number') { Ext.Logger.error("Invalid index of '" + index + "', must be a valid number"); } //</debug> if (Ext.isArray(item)) { for (i = item.length - 1; i >= 0; i--) { me.insert(index, item[i]); } return me; } instanced = item.isWidget; if (!instanced) { item.$initParent = me; } item = me.factoryItem(item); me.doInsert(index, item, instanced); delete item.$initParent; return item; }, /** * @private * @param {Number} index * @param {Ext.Component} item * @param {Boolean} instanced */ doInsert: function(index, item, instanced) { var me = this, items = me.items, itemsLength = items.length, currentIndex, isInnerItem; isInnerItem = item.isInnerItem(); if (index > itemsLength) { index = itemsLength; } if (items[index - 1] === item) { return; } currentIndex = me.indexOf(item); if (currentIndex !== -1) { items.removeAt(currentIndex); } items.insert(index, item); if (currentIndex === -1) { item.onAdded(me, !!instanced); } if (isInnerItem) { me.insertInner(item, index); } if (currentIndex !== -1) { me.onItemMove(item, index, currentIndex); } else { me.onItemAdd(item, index); } }, /** * @private */ insertFirst: function(item) { return this.insert(0, item); }, /** * @private */ insertLast: function(item) { return this.insert(this.getItems().length, item); }, /** * @private */ insertBefore: function(item, relativeToItem) { var index = this.indexOf(relativeToItem); if (index !== -1) { this.insert(index, item); } return this; }, /** * @private */ insertAfter: function(item, relativeToItem) { var index = this.indexOf(relativeToItem); if (index !== -1) { this.insert(index + 1, item); } return this; }, /** * @private */ onItemAdd: function(item, index) { var me = this; me.doItemLayoutAdd(item, index); if (me.initialized) { if (item.hasListeners.added) { item.fireEvent('added', item, me, index); } if (me.hasListeners.add) { me.fireEvent('add', me, item, index); } } }, doItemLayoutAdd: function (item, index) { var layout = this.getLayout(); if (this.rendered && !item.rendered) { item.fireAction('renderedchange', [this, item, true], 'onItemAdd', layout, {args: [item, index]}); } else { layout.onItemAdd(item, index); } }, /** * @private */ onItemRemove: function(item, index, destroying) { var me = this; me.doItemLayoutRemove(item, index, destroying); if (item.hasListeners.removed) { item.fireEvent('removed', item, me, index); } if (me.hasListeners.remove) { me.fireEvent('remove', me, item, index); } }, doItemLayoutRemove: function(item, index, destroying) { var layout = this.getLayout(); if (item.rendered) { item.setRendered(false); item.fireAction('renderedchange', [this, item, false], 'onItemRemove', layout, {args: [item, index, destroying]}); } else { layout.onItemRemove(item, index, destroying); } }, /** * @private */ onItemMove: function(item, toIndex, fromIndex) { var me = this; me.doItemLayoutMove(item, toIndex, fromIndex); if (item.hasListeners.moved) { item.fireEvent('moved', item, me, toIndex, fromIndex); } if (me.hasListeners.move) { me.fireEvent('move', me, item, toIndex, fromIndex); } }, doItemLayoutMove: function(item, toIndex, fromIndex) { this.getLayout().onItemMove(item, toIndex, fromIndex); }, onItemInnerStateChange: function(item, isInner) { var layout = this.getLayout(); if (isInner) { this.insertInner(item, this.items.indexOf(item)); } else { this.removeInner(item); } layout.onItemInnerStateChange.apply(layout, arguments); }, onItemFloatedChange: function(item, floated) { var layout = this.getLayout(); layout.onItemFloatedChange(item, floated); }, /** * Returns all inner {@link #property-items} of this container. `inner` means that the item is not `docked` or * `positioned`. * @return {Array} The inner items of this container. */ getInnerItems: function() { return this.innerItems; }, /** * Returns all the {@link Ext.Component#docked} items in this container. * @return {Array} The docked items of this container. */ getDockedItems: function() { var items = this.getItems().items, dockedItems = [], ln = items.length, item, i; for (i = 0; i < ln; i++) { item = items[i]; if (item.isDocked()) { dockedItems.push(item); } } return dockedItems; }, /** * @private */ applyActiveItem: function(activeItem, currentActiveItem) { var me = this, innerItems = me.getInnerItems(), initialConfig = me.initialConfig, initialActive = initialConfig.activeItem || activeItem; // Make sure the items are already initialized me.getItems(); if (me.isConfiguring && !initialConfig.activeItem) { activeItem = initialActive; } // No items left to be active, reset back to 0 on falsy changes if (!activeItem && innerItems.length === 0) { return 0; } else if (typeof activeItem == 'number') { activeItem = Math.max(0, Math.min(activeItem, innerItems.length - 1)); activeItem = innerItems[activeItem]; if (activeItem) { return activeItem; } else if (currentActiveItem) { return null; } } else if (activeItem) { var item; //ComponentQuery selector? if (typeof activeItem == 'string') { item = me.child(activeItem); } else if (activeItem.isComponent) { item = activeItem; } else { activeItem = Ext.apply({$initParent: me}, activeItem); item = me.factoryItem(activeItem); } if (!item) { return null; } me.pendingActiveItem = item; //<debug> if (!item.isInnerItem()) { Ext.Logger.error("Setting activeItem to be a non-inner item"); } //</debug> if (!me.has(item)) { me.add(item); } delete item.$initParent; return item; } }, /** * Animates to the supplied `activeItem` with a specified animation. Currently this only works * with a Card layout. This passed animation will override any default animations on the * container, for a single card switch. The animation will be destroyed when complete. * @param {Object/Number} activeItem The item or item index to make active. * @param {Object/Ext.layout.card.fx.Abstract} animation Card animation configuration or instance. */ animateActiveItem: function(activeItem, animation) { var layout = this.getLayout(), defaultAnimation; if (this.activeItemAnimation) { this.activeItemAnimation.destroy(); } this.activeItemAnimation = animation = new Ext.Factory.layoutCardFx(animation); if (animation && layout.isCard) { animation.setLayout(layout); defaultAnimation = layout.getAnimation(); if (defaultAnimation) { defaultAnimation.disable(); } animation.on('animationend', function() { if (defaultAnimation) { defaultAnimation.enable(); } animation.destroy(); }, this); } return this.setActiveItem(activeItem); }, updateActiveItem: function(newActiveItem, oldActiveItem) { delete this.pendingActiveItem; if (oldActiveItem && !oldActiveItem.destroyed) { oldActiveItem.fireEvent('deactivate', oldActiveItem, this, newActiveItem); } if (newActiveItem) { newActiveItem.fireEvent('activate', newActiveItem, this, oldActiveItem); } this.setActiveItemIndex(this.innerItems.indexOf(newActiveItem)); }, updateActiveItemIndex: function (index) { this.setActiveItem(this.innerItems[index]); }, /** * Used by ComponentQuery to retrieve all of the items * which can potentially be considered a child of this Container. * This should be overridden by components which have child items * that are not contained in items. For example `dockedItems`, `menu`, etc * @private */ getRefItems: function(deep) { var items = this.getItems().items, result, ln, i, item; if (items) { // If deep, we have to collect descendants in tree walking order. if (deep) { result = []; for (i = 0, ln = items.length; i < ln; i++) { item = items[i]; result[result.length] = item; if (item.getRefItems) { result.push.apply(result, item.getRefItems(true)); } } } // Not deep, just return a copy of the items array. else { result = items.slice(); } } // Subclasses might push items into this array, so use a new empty array when // there are no results, not Ext.emptyArray. return result || []; }, /** * Examines this container's `{@link #property-items}` property * and gets a direct child component of this container. * @param {String/Number} component This parameter may be any of the following: * * - {String} : representing the `itemId` * or `{@link Ext.Component#getId id}` of the child component. * - {Number} : representing the position of the child component * within the `{@link #property-items}` property. * * For additional information see {@link Ext.util.MixedCollection#get}. * @return {Ext.Component} The component (if found). */ getComponent: function(component) { if (typeof component === 'number') { return this.getItems().getAt(component); } if (Ext.isObject(component)) { component = component.getItemId(); } return this.getItems().get(component); }, /** * Finds a docked item of this container using a reference, `id `or an `index` of its location * in {@link #getDockedItems}. * @param {String/Number} component The `id` or `index` of the component to find. * @return {Ext.Component/Boolean} The docked component, if found. */ getDockedComponent: function(component) { if (Ext.isObject(component)) { component = component.getItemId(); } var dockedItems = this.getDockedItems(), ln = dockedItems.length, item, i; if (Ext.isNumber(component)) { return dockedItems[component]; } for (i = 0; i < ln; i++) { item = dockedItems[i]; if (item.id == component) { return item; } } return false; }, doDestroy: function() { var me = this; if (me.focusableContainer) { me.destroyFocusableContainer(); } me.removeAll(true, true); Ext.destroy( me.items, me.getMasked() ); me.items = null; // We don't want to create one if (me._layout) { me._layout = Ext.destroy(me._layout); } me.callParent(); }, /** * @protected * Returns the focus holder element associated with this Container. * By default, this is the Container's {@link #focusEl} element; * however if {@link #cfg!defaultFocus} is defined, the child component * referenced by that property will be found and returned instead. * * @return {Ext.dom.Element} the focus holding element. */ getFocusEl: function() { var delegate = this.findDefaultFocus(); if (delegate) { return delegate.isWidget ? delegate.getFocusEl() : delegate; } else if (this.focusable) { return this.focusEl; } // Containers that are not focusable should not return a focusEl return undefined; }, /** * Finds the configured default focus item. See {@link #cfg!defaultFocus}. */ findDefaultFocus: function() { var result = this.getDefaultFocus(); // If we have not been configured with a Widget instance, look for a focusable // by selector. Then check whether it is focusable. It may be disabled, // destroying, or simply set to focusable: false, and the element could // still be focusable amd therefore be focused by calling code. if (result && !result.isWidget) { result = this.down(result); if (result && !result.canFocus()) { return; } } // Returning undefined is ok return result; }, onFocusEnter: function(e) { var me = this; me.callParent([e]); // We DO NOT check if `me` is focusable here. The reason is that // non-focusable containers need to track focus entering their // children so that revertFocus would work if these children // become unavailable. if (me.focusableContainer && !me.destroying && !me.destroyed) { me.mixins.focusablecontainer.onFocusEnter.call(me, e); } }, onFocusLeave: function(e) { var me = this; me.callParent([e]); // Ditto if (me.focusableContainer && !me.destroying && !me.destroyed) { me.mixins.focusablecontainer.onFocusLeave.call(me, e); } }, updateInnerCls: function (innerCls, old) { var el = this.getRenderTarget(); el.replaceCls(old, innerCls); }, updateAutoSize: function(autoSize) { var me = this, bodySizerElement = me.bodySizerElement; if (autoSize === false) { if (!bodySizerElement) { me.bodySizerElement = me.bodyElement.wrap({ cls: Ext.baseCSSPrefix + 'body-sizer-el' }); } } else if (bodySizerElement) { me.bodyElement.unwrap(); bodySizerElement.destroy(); me.bodySizerElement = null; } }, updateMaxHeight: function(maxHeight, oldMaxHeight) { var me = this, height, stashedHeight, maxHeightElement; me.callParent([maxHeight, oldMaxHeight]); if (Ext.isIE11 && (maxHeight != null) && (me.getAutoSize() !== false)) { me.getMaxHeightElement().setMaxHeight(maxHeight); me.addCls(Ext.baseCSSPrefix + 'max-height-wrapped'); } }, privates: { /** * This method is in place on the instance during construction to ensure that any * {@link #lookup} or {@link #getReferences} calls have the {@link #items} initialized * prior to the lookup. * @private */ getFirstReferences: function() { var me = this; delete me.getReferences; me.getItems(); // create our items if we haven't yet return me.getReferences.apply(me, arguments); }, /** * Similar to `getRenderTarget` but for `positioned` items. * @param {Ext.Component} item The positioned item being added. * @return {Ext.dom.Element} * @private * @since 6.5.0 */ getPositionedItemTarget: function () { return this.getRenderTarget(); }, /** * Applies the container's {@link #defaults} onto a child item. The item * can be a config object or an instance but has to be an inner item. * @param {Object/Ext.Component} item The item to apply the defaults to. * @return {Object/Ext.Component} The item that was passed in */ applyItemDefaults: function (item) { var defaults = this.getDefaults(); if (defaults && !item.ignoreDefaults) { if (item.isComponent) { if (item.isInnerItem() && !this.has(item)) { if (Ext.isFunction(defaults)) { defaults = defaults(item); } item.setConfig(defaults, null, { defaults: true }); } } // TODO: revisit this when we have a better story for how to apply defaults /*else if ( !( //check if config has a config that will make it floating or docked item.hasOwnProperty('left') || item.hasOwnProperty('right') || item.hasOwnProperty('top') || item.hasOwnProperty('bottom') || item.hasOwnProperty('docked') || item.hasOwnProperty('centered') ) ) */ else { if (Ext.isFunction(defaults)) { defaults = defaults(item); } //make a new object so the config object stays intact item = Ext.merge({}, defaults, item); } } return item; }, setChildRendered: function(rendered, item) { if (item.isInnerItem()) { this.getLayout().renderInnerItem(item); } else if (!rendered || !item.getFloated()) { // We do not flag floateds as rendered - they flag themselves as rendered // on first show. However, we MUST UNrender and extract floateds from // their floatRoot ready to be rendered anew when they are next shown. item.setRendered(rendered); } }, /** * @private * In IE11 vertically flexed elements (such as container body-el or panel body-wrap-el) * are not flexed properly when the container has a max-height, but no height. * We can workaround the issue by wrapping the vertical box in a horizontal box. * See EXTJS-24498 */ getMaxHeightElement: function() { var el = this.el, maxHeightElement = this.maxHeightElement, selector = '.x-dock,.x-panelheader,.x-body-el,.x-body-wrap-el,.x-tab-guard-el', childNodes, node, i, ln; if (!maxHeightElement) { this.maxHeightElement = maxHeightElement = el.insertFirst({ cls: Ext.baseCSSPrefix + 'max-height-el' }); childNodes = Ext.Array.clone(el.dom.childNodes); for (i = 1, ln = childNodes.length; i < ln; i++) { node = childNodes[i]; if (Ext.fly(node).is(selector)) { maxHeightElement.appendChild(node); } } } return maxHeightElement; } } }, function() { this.prototype.defaultItemClass = this;});