app/assets/javascripts/ext/src/widgets/Container.js
/*!
* Ext JS Library 3.3.0
* Copyright(c) 2006-2010 Ext JS, Inc.
* licensing@extjs.com
* http://www.extjs.com/license
*/
/**
* @class Ext.Container
* @extends Ext.BoxComponent
* <p>Base class for any {@link Ext.BoxComponent} that may contain other Components. Containers handle the
* basic behavior of containing items, namely adding, inserting and removing items.</p>
*
* <p>The most commonly used Container classes are {@link Ext.Panel}, {@link Ext.Window} and {@link Ext.TabPanel}.
* If you do not need the capabilities offered by the aforementioned classes you can create a lightweight
* Container to be encapsulated by an HTML element to your specifications by using the
* <code><b>{@link Ext.Component#autoEl autoEl}</b></code> config option. This is a useful technique when creating
* embedded {@link Ext.layout.ColumnLayout column} layouts inside {@link Ext.form.FormPanel FormPanels}
* for example.</p>
*
* <p>The code below illustrates both how to explicitly create a Container, and how to implicitly
* create one using the <b><code>'container'</code></b> xtype:<pre><code>
// explicitly create a Container
var embeddedColumns = new Ext.Container({
autoEl: 'div', // This is the default
layout: 'column',
defaults: {
// implicitly create Container by specifying xtype
xtype: 'container',
autoEl: 'div', // This is the default.
layout: 'form',
columnWidth: 0.5,
style: {
padding: '10px'
}
},
// The two items below will be Ext.Containers, each encapsulated by a <DIV> element.
items: [{
items: {
xtype: 'datefield',
name: 'startDate',
fieldLabel: 'Start date'
}
}, {
items: {
xtype: 'datefield',
name: 'endDate',
fieldLabel: 'End date'
}
}]
});</code></pre></p>
*
* <p><u><b>Layout</b></u></p>
* <p>Container classes delegate the rendering of child Components to a layout
* manager class which must be configured into the Container using the
* <code><b>{@link #layout}</b></code> configuration property.</p>
* <p>When either specifying child <code>{@link #items}</code> of a Container,
* or dynamically {@link #add adding} Components to a Container, remember to
* consider how you wish the Container to arrange those child elements, and
* whether those child elements need to be sized using one of Ext's built-in
* <b><code>{@link #layout}</code></b> schemes. By default, Containers use the
* {@link Ext.layout.ContainerLayout ContainerLayout} scheme which only
* renders child components, appending them one after the other inside the
* Container, and <b>does not apply any sizing</b> at all.</p>
* <p>A common mistake is when a developer neglects to specify a
* <b><code>{@link #layout}</code></b> (e.g. widgets like GridPanels or
* TreePanels are added to Containers for which no <code><b>{@link #layout}</b></code>
* has been specified). If a Container is left to use the default
* {@link Ext.layout.ContainerLayout ContainerLayout} scheme, none of its
* child components will be resized, or changed in any way when the Container
* is resized.</p>
* <p>Certain layout managers allow dynamic addition of child components.
* Those that do include {@link Ext.layout.CardLayout},
* {@link Ext.layout.AnchorLayout}, {@link Ext.layout.FormLayout}, and
* {@link Ext.layout.TableLayout}. For example:<pre><code>
// Create the GridPanel.
var myNewGrid = new Ext.grid.GridPanel({
store: myStore,
columns: myColumnModel,
title: 'Results', // the title becomes the title of the tab
});
myTabPanel.add(myNewGrid); // {@link Ext.TabPanel} implicitly uses {@link Ext.layout.CardLayout CardLayout}
myTabPanel.{@link Ext.TabPanel#setActiveTab setActiveTab}(myNewGrid);
* </code></pre></p>
* <p>The example above adds a newly created GridPanel to a TabPanel. Note that
* a TabPanel uses {@link Ext.layout.CardLayout} as its layout manager which
* means all its child items are sized to {@link Ext.layout.FitLayout fit}
* exactly into its client area.
* <p><b><u>Overnesting is a common problem</u></b>.
* An example of overnesting occurs when a GridPanel is added to a TabPanel
* by wrapping the GridPanel <i>inside</i> a wrapping Panel (that has no
* <code><b>{@link #layout}</b></code> specified) and then add that wrapping Panel
* to the TabPanel. The point to realize is that a GridPanel <b>is</b> a
* Component which can be added directly to a Container. If the wrapping Panel
* has no <code><b>{@link #layout}</b></code> configuration, then the overnested
* GridPanel will not be sized as expected.<p>
*
* <p><u><b>Adding via remote configuration</b></u></p>
*
* <p>A server side script can be used to add Components which are generated dynamically on the server.
* An example of adding a GridPanel to a TabPanel where the GridPanel is generated by the server
* based on certain parameters:
* </p><pre><code>
// execute an Ajax request to invoke server side script:
Ext.Ajax.request({
url: 'gen-invoice-grid.php',
// send additional parameters to instruct server script
params: {
startDate: Ext.getCmp('start-date').getValue(),
endDate: Ext.getCmp('end-date').getValue()
},
// process the response object to add it to the TabPanel:
success: function(xhr) {
var newComponent = eval(xhr.responseText); // see discussion below
myTabPanel.add(newComponent); // add the component to the TabPanel
myTabPanel.setActiveTab(newComponent);
},
failure: function() {
Ext.Msg.alert("Grid create failed", "Server communication failure");
}
});
</code></pre>
* <p>The server script needs to return an executable Javascript statement which, when processed
* using <code>eval()</code>, will return either a config object with an {@link Ext.Component#xtype xtype},
* or an instantiated Component. The server might return this for example:</p><pre><code>
(function() {
function formatDate(value){
return value ? value.dateFormat('M d, Y') : '';
};
var store = new Ext.data.Store({
url: 'get-invoice-data.php',
baseParams: {
startDate: '01/01/2008',
endDate: '01/31/2008'
},
reader: new Ext.data.JsonReader({
record: 'transaction',
idProperty: 'id',
totalRecords: 'total'
}, [
'customer',
'invNo',
{name: 'date', type: 'date', dateFormat: 'm/d/Y'},
{name: 'value', type: 'float'}
])
});
var grid = new Ext.grid.GridPanel({
title: 'Invoice Report',
bbar: new Ext.PagingToolbar(store),
store: store,
columns: [
{header: "Customer", width: 250, dataIndex: 'customer', sortable: true},
{header: "Invoice Number", width: 120, dataIndex: 'invNo', sortable: true},
{header: "Invoice Date", width: 100, dataIndex: 'date', renderer: formatDate, sortable: true},
{header: "Value", width: 120, dataIndex: 'value', renderer: 'usMoney', sortable: true}
],
});
store.load();
return grid; // return instantiated component
})();
</code></pre>
* <p>When the above code fragment is passed through the <code>eval</code> function in the success handler
* of the Ajax request, the code is executed by the Javascript processor, and the anonymous function
* runs, and returns the instantiated grid component.</p>
* <p>Note: since the code above is <i>generated</i> by a server script, the <code>baseParams</code> for
* the Store, the metadata to allow generation of the Record layout, and the ColumnModel
* can all be generated into the code since these are all known on the server.</p>
*
* @xtype container
*/
Ext.Container = Ext.extend(Ext.BoxComponent, {
/**
* @cfg {Boolean} monitorResize
* True to automatically monitor window resize events to handle anything that is sensitive to the current size
* of the viewport. This value is typically managed by the chosen <code>{@link #layout}</code> and should not need
* to be set manually.
*/
/**
* @cfg {String/Object} layout
* <p><b>*Important</b>: In order for child items to be correctly sized and
* positioned, typically a layout manager <b>must</b> be specified through
* the <code>layout</code> configuration option.</p>
* <br><p>The sizing and positioning of child {@link items} is the responsibility of
* the Container's layout manager which creates and manages the type of layout
* you have in mind. For example:</p><pre><code>
new Ext.Window({
width:300, height: 300,
layout: 'fit', // explicitly set layout manager: override the default (layout:'auto')
items: [{
title: 'Panel inside a Window'
}]
}).show();
* </code></pre>
* <p>If the {@link #layout} configuration is not explicitly specified for
* a general purpose container (e.g. Container or Panel) the
* {@link Ext.layout.ContainerLayout default layout manager} will be used
* which does nothing but render child components sequentially into the
* Container (no sizing or positioning will be performed in this situation).
* Some container classes implicitly specify a default layout
* (e.g. FormPanel specifies <code>layout:'form'</code>). Other specific
* purpose classes internally specify/manage their internal layout (e.g.
* GridPanel, TabPanel, TreePanel, Toolbar, Menu, etc.).</p>
* <br><p><b><code>layout</code></b> may be specified as either as an Object or
* as a String:</p><div><ul class="mdetail-params">
*
* <li><u>Specify as an Object</u></li>
* <div><ul class="mdetail-params">
* <li>Example usage:</li>
<pre><code>
layout: {
type: 'vbox',
padding: '5',
align: 'left'
}
</code></pre>
*
* <li><code><b>type</b></code></li>
* <br/><p>The layout type to be used for this container. If not specified,
* a default {@link Ext.layout.ContainerLayout} will be created and used.</p>
* <br/><p>Valid layout <code>type</code> values are:</p>
* <div class="sub-desc"><ul class="mdetail-params">
* <li><code><b>{@link Ext.layout.AbsoluteLayout absolute}</b></code></li>
* <li><code><b>{@link Ext.layout.AccordionLayout accordion}</b></code></li>
* <li><code><b>{@link Ext.layout.AnchorLayout anchor}</b></code></li>
* <li><code><b>{@link Ext.layout.ContainerLayout auto}</b></code> <b>Default</b></li>
* <li><code><b>{@link Ext.layout.BorderLayout border}</b></code></li>
* <li><code><b>{@link Ext.layout.CardLayout card}</b></code></li>
* <li><code><b>{@link Ext.layout.ColumnLayout column}</b></code></li>
* <li><code><b>{@link Ext.layout.FitLayout fit}</b></code></li>
* <li><code><b>{@link Ext.layout.FormLayout form}</b></code></li>
* <li><code><b>{@link Ext.layout.HBoxLayout hbox}</b></code></li>
* <li><code><b>{@link Ext.layout.MenuLayout menu}</b></code></li>
* <li><code><b>{@link Ext.layout.TableLayout table}</b></code></li>
* <li><code><b>{@link Ext.layout.ToolbarLayout toolbar}</b></code></li>
* <li><code><b>{@link Ext.layout.VBoxLayout vbox}</b></code></li>
* </ul></div>
*
* <li>Layout specific configuration properties</li>
* <br/><p>Additional layout specific configuration properties may also be
* specified. For complete details regarding the valid config options for
* each layout type, see the layout class corresponding to the <code>type</code>
* specified.</p>
*
* </ul></div>
*
* <li><u>Specify as a String</u></li>
* <div><ul class="mdetail-params">
* <li>Example usage:</li>
<pre><code>
layout: 'vbox',
layoutConfig: {
padding: '5',
align: 'left'
}
</code></pre>
* <li><code><b>layout</b></code></li>
* <br/><p>The layout <code>type</code> to be used for this container (see list
* of valid layout type values above).</p><br/>
* <li><code><b>{@link #layoutConfig}</b></code></li>
* <br/><p>Additional layout specific configuration properties. For complete
* details regarding the valid config options for each layout type, see the
* layout class corresponding to the <code>layout</code> specified.</p>
* </ul></div></ul></div>
*/
/**
* @cfg {Object} layoutConfig
* This is a config object containing properties specific to the chosen
* <b><code>{@link #layout}</code></b> if <b><code>{@link #layout}</code></b>
* has been specified as a <i>string</i>.</p>
*/
/**
* @cfg {Boolean/Number} bufferResize
* When set to true (50 milliseconds) or a number of milliseconds, the layout assigned for this container will buffer
* the frequency it calculates and does a re-layout of components. This is useful for heavy containers or containers
* with a large quantity of sub-components for which frequent layout calls would be expensive. Defaults to <code>50</code>.
*/
bufferResize: 50,
/**
* @cfg {String/Number} activeItem
* A string component id or the numeric index of the component that should be initially activated within the
* container's layout on render. For example, activeItem: 'item-1' or activeItem: 0 (index 0 = the first
* item in the container's collection). activeItem only applies to layout styles that can display
* items one at a time (like {@link Ext.layout.AccordionLayout}, {@link Ext.layout.CardLayout} and
* {@link Ext.layout.FitLayout}). Related to {@link Ext.layout.ContainerLayout#activeItem}.
*/
/**
* @cfg {Object/Array} items
* <pre><b>** IMPORTANT</b>: be sure to <b>{@link #layout specify a <code>layout</code>} if needed ! **</b></pre>
* <p>A single item, or an array of child Components to be added to this container,
* for example:</p>
* <pre><code>
// specifying a single item
items: {...},
layout: 'fit', // specify a layout!
// specifying multiple items
items: [{...}, {...}],
layout: 'anchor', // specify a layout!
* </code></pre>
* <p>Each item may be:</p>
* <div><ul class="mdetail-params">
* <li>any type of object based on {@link Ext.Component}</li>
* <li>a fully instanciated object or</li>
* <li>an object literal that:</li>
* <div><ul class="mdetail-params">
* <li>has a specified <code>{@link Ext.Component#xtype xtype}</code></li>
* <li>the {@link Ext.Component#xtype} specified is associated with the Component
* desired and should be chosen from one of the available xtypes as listed
* in {@link Ext.Component}.</li>
* <li>If an <code>{@link Ext.Component#xtype xtype}</code> is not explicitly
* specified, the {@link #defaultType} for that Container is used.</li>
* <li>will be "lazily instanciated", avoiding the overhead of constructing a fully
* instanciated Component object</li>
* </ul></div></ul></div>
* <p><b>Notes</b>:</p>
* <div><ul class="mdetail-params">
* <li>Ext uses lazy rendering. Child Components will only be rendered
* should it become necessary. Items are automatically laid out when they are first
* shown (no sizing is done while hidden), or in response to a {@link #doLayout} call.</li>
* <li>Do not specify <code>{@link Ext.Panel#contentEl contentEl}</code>/
* <code>{@link Ext.Panel#html html}</code> with <code>items</code>.</li>
* </ul></div>
*/
/**
* @cfg {Object|Function} defaults
* <p>This option is a means of applying default settings to all added items whether added through the {@link #items}
* config or via the {@link #add} or {@link #insert} methods.</p>
* <p>If an added item is a config object, and <b>not</b> an instantiated Component, then the default properties are
* unconditionally applied. If the added item <b>is</b> an instantiated Component, then the default properties are
* applied conditionally so as not to override existing properties in the item.</p>
* <p>If the defaults option is specified as a function, then the function will be called using this Container as the
* scope (<code>this</code> reference) and passing the added item as the first parameter. Any resulting object
* from that call is then applied to the item as default properties.</p>
* <p>For example, to automatically apply padding to the body of each of a set of
* contained {@link Ext.Panel} items, you could pass: <code>defaults: {bodyStyle:'padding:15px'}</code>.</p>
* <p>Usage:</p><pre><code>
defaults: { // defaults are applied to items, not the container
autoScroll:true
},
items: [
{
xtype: 'panel', // defaults <b>do not</b> have precedence over
id: 'panel1', // options in config objects, so the defaults
autoScroll: false // will not be applied here, panel1 will be autoScroll:false
},
new Ext.Panel({ // defaults <b>do</b> have precedence over options
id: 'panel2', // options in components, so the defaults
autoScroll: false // will be applied here, panel2 will be autoScroll:true.
})
]
* </code></pre>
*/
/** @cfg {Boolean} autoDestroy
* If true the container will automatically destroy any contained component that is removed from it, else
* destruction must be handled manually (defaults to true).
*/
autoDestroy : true,
/** @cfg {Boolean} forceLayout
* If true the container will force a layout initially even if hidden or collapsed. This option
* is useful for forcing forms to render in collapsed or hidden containers. (defaults to false).
*/
forceLayout: false,
/** @cfg {Boolean} hideBorders
* True to hide the borders of each contained component, false to defer to the component's existing
* border settings (defaults to false).
*/
/** @cfg {String} defaultType
* <p>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.</p>
* <p>Defaults to <code>'panel'</code>, except {@link Ext.menu.Menu} which defaults to <code>'menuitem'</code>,
* and {@link Ext.Toolbar} and {@link Ext.ButtonGroup} which default to <code>'button'</code>.</p>
*/
defaultType : 'panel',
/** @cfg {String} resizeEvent
* The event to listen to for resizing in layouts. Defaults to <code>'resize'</code>.
*/
resizeEvent: 'resize',
/**
* @cfg {Array} bubbleEvents
* <p>An array of events that, when fired, should be bubbled to any parent container.
* See {@link Ext.util.Observable#enableBubble}.
* Defaults to <code>['add', 'remove']</code>.
*/
bubbleEvents: ['add', 'remove'],
// private
initComponent : function(){
Ext.Container.superclass.initComponent.call(this);
this.addEvents(
/**
* @event afterlayout
* Fires when the components in this container are arranged by the associated layout manager.
* @param {Ext.Container} this
* @param {ContainerLayout} layout The ContainerLayout implementation for this container
*/
'afterlayout',
/**
* @event beforeadd
* Fires before any {@link Ext.Component} is added or inserted into the container.
* A handler can return false to cancel the add.
* @param {Ext.Container} this
* @param {Ext.Component} component The component being added
* @param {Number} index The index at which the component will be added to the container's items collection
*/
'beforeadd',
/**
* @event beforeremove
* Fires before any {@link Ext.Component} is removed from the container. A handler can return
* false to cancel the remove.
* @param {Ext.Container} this
* @param {Ext.Component} component The component being removed
*/
'beforeremove',
/**
* @event add
* @bubbles
* Fires after any {@link Ext.Component} is added or inserted into the container.
* @param {Ext.Container} this
* @param {Ext.Component} component The component that was added
* @param {Number} index The index at which the component was added to the container's items collection
*/
'add',
/**
* @event remove
* @bubbles
* Fires after any {@link Ext.Component} is removed from the container.
* @param {Ext.Container} this
* @param {Ext.Component} component The component that was removed
*/
'remove'
);
/**
* The collection of components in this container as a {@link Ext.util.MixedCollection}
* @type MixedCollection
* @property items
*/
var items = this.items;
if(items){
delete this.items;
this.add(items);
}
},
// private
initItems : function(){
if(!this.items){
this.items = new Ext.util.MixedCollection(false, this.getComponentId);
this.getLayout(); // initialize the layout
}
},
// private
setLayout : function(layout){
if(this.layout && this.layout != layout){
this.layout.setContainer(null);
}
this.layout = layout;
this.initItems();
layout.setContainer(this);
},
afterRender: function(){
// Render this Container, this should be done before setLayout is called which
// will hook onResize
Ext.Container.superclass.afterRender.call(this);
if(!this.layout){
this.layout = 'auto';
}
if(Ext.isObject(this.layout) && !this.layout.layout){
this.layoutConfig = this.layout;
this.layout = this.layoutConfig.type;
}
if(Ext.isString(this.layout)){
this.layout = new Ext.Container.LAYOUTS[this.layout.toLowerCase()](this.layoutConfig);
}
this.setLayout(this.layout);
// If a CardLayout, the active item set
if(this.activeItem !== undefined && this.layout.setActiveItem){
var item = this.activeItem;
delete this.activeItem;
this.layout.setActiveItem(item);
}
// If we have no ownerCt, render and size all children
if(!this.ownerCt){
this.doLayout(false, true);
}
// This is a manually configured flag set by users in conjunction with renderTo.
// Not to be confused with the flag by the same name used in Layouts.
if(this.monitorResize === true){
Ext.EventManager.onWindowResize(this.doLayout, this, [false]);
}
},
/**
* <p>Returns the Element to be used to contain the child Components of this Container.</p>
* <p>An implementation is provided which returns the Container's {@link #getEl Element}, but
* if there is a more complex structure to a Container, this may be overridden to return
* the element into which the {@link #layout layout} renders child Components.</p>
* @return {Ext.Element} The Element to render child Components into.
*/
getLayoutTarget : function(){
return this.el;
},
// private - used as the key lookup function for the items collection
getComponentId : function(comp){
return comp.getItemId();
},
/**
* <p>Adds {@link Ext.Component Component}(s) to this Container.</p>
* <br><p><b>Description</b></u> :
* <div><ul class="mdetail-params">
* <li>Fires the {@link #beforeadd} event before adding</li>
* <li>The Container's {@link #defaults default config values} will be applied
* accordingly (see <code>{@link #defaults}</code> for details).</li>
* <li>Fires the {@link #add} event after the component has been added.</li>
* </ul></div>
* <br><p><b>Notes</b></u> :
* <div><ul class="mdetail-params">
* <li>If the Container is <i>already rendered</i> when <code>add</code>
* is called, you may need to call {@link #doLayout} to refresh the view which causes
* any unrendered child Components to be rendered. This is required so that you can
* <code>add</code> multiple child components if needed while only refreshing the layout
* once. For example:<pre><code>
var tb = new {@link Ext.Toolbar}();
tb.render(document.body); // toolbar is rendered
tb.add({text:'Button 1'}); // add multiple items ({@link #defaultType} for {@link Ext.Toolbar Toolbar} is 'button')
tb.add({text:'Button 2'});
tb.{@link #doLayout}(); // refresh the layout
* </code></pre></li>
* <li><i>Warning:</i> Containers directly managed by the BorderLayout layout manager
* may not be removed or added. See the Notes for {@link Ext.layout.BorderLayout BorderLayout}
* for more details.</li>
* </ul></div>
* @param {...Object/Array} component
* <p>Either one or more Components to add or an Array of Components to add. See
* <code>{@link #items}</code> for additional information.</p>
* @return {Ext.Component/Array} The Components that were added.
*/
add : function(comp){
this.initItems();
var args = arguments.length > 1;
if(args || Ext.isArray(comp)){
var result = [];
Ext.each(args ? arguments : comp, function(c){
result.push(this.add(c));
}, this);
return result;
}
var c = this.lookupComponent(this.applyDefaults(comp));
var index = this.items.length;
if(this.fireEvent('beforeadd', this, c, index) !== false && this.onBeforeAdd(c) !== false){
this.items.add(c);
// *onAdded
c.onAdded(this, index);
this.onAdd(c);
this.fireEvent('add', this, c, index);
}
return c;
},
onAdd : function(c){
// Empty template method
},
// private
onAdded : function(container, pos) {
//overridden here so we can cascade down, not worth creating a template method.
this.ownerCt = container;
this.initRef();
//initialize references for child items
this.cascade(function(c){
c.initRef();
});
this.fireEvent('added', this, container, pos);
},
/**
* Inserts a Component into this Container at a specified index. Fires the
* {@link #beforeadd} event before inserting, then fires the {@link #add} event after the
* Component has been inserted.
* @param {Number} index The index at which the Component will be inserted
* into the Container's items collection
* @param {Ext.Component} component The child Component to insert.<br><br>
* Ext uses lazy rendering, and will only render the inserted Component should
* it become necessary.<br><br>
* A Component config object may be passed in order to avoid the overhead of
* constructing a real Component object if lazy rendering might mean that the
* inserted Component will not be rendered immediately. To take advantage of
* this 'lazy instantiation', set the {@link Ext.Component#xtype} config
* property to the registered type of the Component wanted.<br><br>
* For a list of all available xtypes, see {@link Ext.Component}.
* @return {Ext.Component} component The Component (or config object) that was
* inserted with the Container's default config values applied.
*/
insert : function(index, comp) {
var args = arguments,
length = args.length,
result = [],
i, c;
this.initItems();
if (length > 2) {
for (i = length - 1; i >= 1; --i) {
result.push(this.insert(index, args[i]));
}
return result;
}
c = this.lookupComponent(this.applyDefaults(comp));
index = Math.min(index, this.items.length);
if (this.fireEvent('beforeadd', this, c, index) !== false && this.onBeforeAdd(c) !== false) {
if (c.ownerCt == this) {
this.items.remove(c);
}
this.items.insert(index, c);
c.onAdded(this, index);
this.onAdd(c);
this.fireEvent('add', this, c, index);
}
return c;
},
// private
applyDefaults : function(c){
var d = this.defaults;
if(d){
if(Ext.isFunction(d)){
d = d.call(this, c);
}
if(Ext.isString(c)){
c = Ext.ComponentMgr.get(c);
Ext.apply(c, d);
}else if(!c.events){
Ext.applyIf(c, d);
}else{
Ext.apply(c, d);
}
}
return c;
},
// private
onBeforeAdd : function(item){
if(item.ownerCt){
item.ownerCt.remove(item, false);
}
if(this.hideBorders === true){
item.border = (item.border === true);
}
},
/**
* Removes a component from this container. Fires the {@link #beforeremove} event before removing, then fires
* the {@link #remove} event after the component has been removed.
* @param {Component/String} component The component reference or id to remove.
* @param {Boolean} autoDestroy (optional) True to automatically invoke the removed Component's {@link Ext.Component#destroy} function.
* Defaults to the value of this Container's {@link #autoDestroy} config.
* @return {Ext.Component} component The Component that was removed.
*/
remove : function(comp, autoDestroy){
this.initItems();
var c = this.getComponent(comp);
if(c && this.fireEvent('beforeremove', this, c) !== false){
this.doRemove(c, autoDestroy);
this.fireEvent('remove', this, c);
}
return c;
},
onRemove: function(c){
// Empty template method
},
// private
doRemove: function(c, autoDestroy){
var l = this.layout,
hasLayout = l && this.rendered;
if(hasLayout){
l.onRemove(c);
}
this.items.remove(c);
c.onRemoved();
this.onRemove(c);
if(autoDestroy === true || (autoDestroy !== false && this.autoDestroy)){
c.destroy();
}
if(hasLayout){
l.afterRemove(c);
}
},
/**
* Removes all components from this container.
* @param {Boolean} autoDestroy (optional) True to automatically invoke the removed Component's {@link Ext.Component#destroy} function.
* Defaults to the value of this Container's {@link #autoDestroy} config.
* @return {Array} Array of the destroyed components
*/
removeAll: function(autoDestroy){
this.initItems();
var item, rem = [], items = [];
this.items.each(function(i){
rem.push(i);
});
for (var i = 0, len = rem.length; i < len; ++i){
item = rem[i];
this.remove(item, autoDestroy);
if(item.ownerCt !== this){
items.push(item);
}
}
return items;
},
/**
* Examines this container's <code>{@link #items}</code> <b>property</b>
* and gets a direct child component of this container.
* @param {String/Number} comp This parameter may be any of the following:
* <div><ul class="mdetail-params">
* <li>a <b><code>String</code></b> : representing the <code>{@link Ext.Component#itemId itemId}</code>
* or <code>{@link Ext.Component#id id}</code> of the child component </li>
* <li>a <b><code>Number</code></b> : representing the position of the child component
* within the <code>{@link #items}</code> <b>property</b></li>
* </ul></div>
* <p>For additional information see {@link Ext.util.MixedCollection#get}.
* @return Ext.Component The component (if found).
*/
getComponent : function(comp){
if(Ext.isObject(comp)){
comp = comp.getItemId();
}
return this.items.get(comp);
},
// private
lookupComponent : function(comp){
if(Ext.isString(comp)){
return Ext.ComponentMgr.get(comp);
}else if(!comp.events){
return this.createComponent(comp);
}
return comp;
},
// private
createComponent : function(config, defaultType){
if (config.render) {
return config;
}
// add in ownerCt at creation time but then immediately
// remove so that onBeforeAdd can handle it
var c = Ext.create(Ext.apply({
ownerCt: this
}, config), defaultType || this.defaultType);
delete c.initialConfig.ownerCt;
delete c.ownerCt;
return c;
},
/**
* @private
* We can only lay out if there is a view area in which to layout.
* display:none on the layout target, *or any of its parent elements* will mean it has no view area.
*/
canLayout : function() {
var el = this.getVisibilityEl();
return el && el.dom && !el.isStyle("display", "none");
},
/**
* Force this container's layout to be recalculated. A call to this function is required after adding a new component
* to an already rendered container, or possibly after changing sizing/position properties of child components.
* @param {Boolean} shallow (optional) True to only calc the layout of this component, and let child components auto
* calc layouts as required (defaults to false, which calls doLayout recursively for each subcontainer)
* @param {Boolean} force (optional) True to force a layout to occur, even if the item is hidden.
* @return {Ext.Container} this
*/
doLayout : function(shallow, force){
var rendered = this.rendered,
forceLayout = force || this.forceLayout;
if(this.collapsed || !this.canLayout()){
this.deferLayout = this.deferLayout || !shallow;
if(!forceLayout){
return;
}
shallow = shallow && !this.deferLayout;
} else {
delete this.deferLayout;
}
if(rendered && this.layout){
this.layout.layout();
}
if(shallow !== true && this.items){
var cs = this.items.items;
for(var i = 0, len = cs.length; i < len; i++){
var c = cs[i];
if(c.doLayout){
c.doLayout(false, forceLayout);
}
}
}
if(rendered){
this.onLayout(shallow, forceLayout);
}
// Initial layout completed
this.hasLayout = true;
delete this.forceLayout;
},
onLayout : Ext.emptyFn,
// private
shouldBufferLayout: function(){
/*
* Returns true if the container should buffer a layout.
* This is true only if the container has previously been laid out
* and has a parent container that is pending a layout.
*/
var hl = this.hasLayout;
if(this.ownerCt){
// Only ever buffer if we've laid out the first time and we have one pending.
return hl ? !this.hasLayoutPending() : false;
}
// Never buffer initial layout
return hl;
},
// private
hasLayoutPending: function(){
// Traverse hierarchy to see if any parent container has a pending layout.
var pending = false;
this.ownerCt.bubble(function(c){
if(c.layoutPending){
pending = true;
return false;
}
});
return pending;
},
onShow : function(){
// removes css classes that were added to hide
Ext.Container.superclass.onShow.call(this);
// If we were sized during the time we were hidden, layout.
if(Ext.isDefined(this.deferLayout)){
delete this.deferLayout;
this.doLayout(true);
}
},
/**
* Returns the layout currently in use by the container. If the container does not currently have a layout
* set, a default {@link Ext.layout.ContainerLayout} will be created and set as the container's layout.
* @return {ContainerLayout} layout The container's layout
*/
getLayout : function(){
if(!this.layout){
var layout = new Ext.layout.AutoLayout(this.layoutConfig);
this.setLayout(layout);
}
return this.layout;
},
// private
beforeDestroy : function(){
var c;
if(this.items){
while(c = this.items.first()){
this.doRemove(c, true);
}
}
if(this.monitorResize){
Ext.EventManager.removeResizeListener(this.doLayout, this);
}
Ext.destroy(this.layout);
Ext.Container.superclass.beforeDestroy.call(this);
},
/**
* Cascades down the component/container heirarchy from this component (called first), calling the specified function with
* each component. The scope (<i>this</i>) of
* function call will be the scope provided or the current component. The arguments to the function
* will be the args provided or the current component. If the function returns false at any point,
* the cascade is stopped on that branch.
* @param {Function} fn The function to call
* @param {Object} scope (optional) The scope of the function (defaults to current component)
* @param {Array} args (optional) The args to call the function with (defaults to passing the current component)
* @return {Ext.Container} this
*/
cascade : function(fn, scope, args){
if(fn.apply(scope || this, args || [this]) !== false){
if(this.items){
var cs = this.items.items;
for(var i = 0, len = cs.length; i < len; i++){
if(cs[i].cascade){
cs[i].cascade(fn, scope, args);
}else{
fn.apply(scope || cs[i], args || [cs[i]]);
}
}
}
}
return this;
},
/**
* Find a component under this container at any level by id
* @param {String} id
* @deprecated Fairly useless method, since you can just use Ext.getCmp. Should be removed for 4.0
* If you need to test if an id belongs to a container, you can use getCmp and findParent*.
* @return Ext.Component
*/
findById : function(id){
var m = null,
ct = this;
this.cascade(function(c){
if(ct != c && c.id === id){
m = c;
return false;
}
});
return m;
},
/**
* Find a component under this container at any level by xtype or class
* @param {String/Class} xtype The xtype string for a component, or the class of the component directly
* @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 {Array} Array of Ext.Components
*/
findByType : function(xtype, shallow){
return this.findBy(function(c){
return c.isXType(xtype, shallow);
});
},
/**
* Find a component under this container at any level by property
* @param {String} prop
* @param {String} value
* @return {Array} Array of Ext.Components
*/
find : function(prop, value){
return this.findBy(function(c){
return c[prop] === value;
});
},
/**
* Find a component under this container at any level by a custom function. If the passed function returns
* true, the component will be included in the results. The passed function is called with the arguments (component, this container).
* @param {Function} fn The function to call
* @param {Object} scope (optional)
* @return {Array} Array of Ext.Components
*/
findBy : function(fn, scope){
var m = [], ct = this;
this.cascade(function(c){
if(ct != c && fn.call(scope || c, c, ct) === true){
m.push(c);
}
});
return m;
},
/**
* Get a component contained by this container (alias for items.get(key))
* @param {String/Number} key The index or id of the component
* @deprecated Should be removed in 4.0, since getComponent does the same thing.
* @return {Ext.Component} Ext.Component
*/
get : function(key){
return this.getComponent(key);
}
});
Ext.Container.LAYOUTS = {};
Ext.reg('container', Ext.Container);