/*!
 * Ext JS Library 3.4.0
 * Copyright(c) 2006-2011 Sencha Inc.
 * licensing@sencha.com
 * http://www.sencha.com/license
 */
/** * @class Ext.Component * @extends Ext.util.Observable *

Base class for all Ext components. All subclasses of Component may participate in the automated * Ext component lifecycle of creation, rendering and destruction which is provided by the {@link Ext.Container Container} class. * Components may be added to a Container through the {@link Ext.Container#items items} config option at the time the Container is created, * or they may be added dynamically via the {@link Ext.Container#add add} method.

*

The Component base class has built-in support for basic hide/show and enable/disable behavior.

*

All Components are registered with the {@link Ext.ComponentMgr} on construction so that they can be referenced at any time via * {@link Ext#getCmp}, passing the {@link #id}.

*

All user-developed visual widgets that are required to participate in automated lifecycle and size management should subclass Component (or * {@link Ext.BoxComponent} if managed box model handling is required, ie height and width management).

*

See the Creating new UI controls tutorial for details on how * and to either extend or augment ExtJs base classes to create custom Components.

*

Every component has a specific xtype, which is its Ext-specific type name, along with methods for checking the * xtype like {@link #getXType} and {@link #isXType}. This is the list of all valid xtypes:

*
xtype            Class
-------------    ------------------
box              {@link Ext.BoxComponent}
button           {@link Ext.Button}
buttongroup      {@link Ext.ButtonGroup}
colorpalette     {@link Ext.ColorPalette}
component        {@link Ext.Component}
container        {@link Ext.Container}
cycle            {@link Ext.CycleButton}
dataview         {@link Ext.DataView}
datepicker       {@link Ext.DatePicker}
editor           {@link Ext.Editor}
editorgrid       {@link Ext.grid.EditorGridPanel}
flash            {@link Ext.FlashComponent}
grid             {@link Ext.grid.GridPanel}
listview         {@link Ext.ListView}
multislider      {@link Ext.slider.MultiSlider}
panel            {@link Ext.Panel}
progress         {@link Ext.ProgressBar}
propertygrid     {@link Ext.grid.PropertyGrid}
slider           {@link Ext.slider.SingleSlider}
spacer           {@link Ext.Spacer}
splitbutton      {@link Ext.SplitButton}
tabpanel         {@link Ext.TabPanel}
treepanel        {@link Ext.tree.TreePanel}
viewport         {@link Ext.ViewPort}
window           {@link Ext.Window}

Toolbar components
---------------------------------------
paging           {@link Ext.PagingToolbar}
toolbar          {@link Ext.Toolbar}
tbbutton         {@link Ext.Toolbar.Button}        (deprecated; use button)
tbfill           {@link Ext.Toolbar.Fill}
tbitem           {@link Ext.Toolbar.Item}
tbseparator      {@link Ext.Toolbar.Separator}
tbspacer         {@link Ext.Toolbar.Spacer}
tbsplit          {@link Ext.Toolbar.SplitButton}   (deprecated; use splitbutton)
tbtext           {@link Ext.Toolbar.TextItem}

Menu components
---------------------------------------
menu             {@link Ext.menu.Menu}
colormenu        {@link Ext.menu.ColorMenu}
datemenu         {@link Ext.menu.DateMenu}
menubaseitem     {@link Ext.menu.BaseItem}
menucheckitem    {@link Ext.menu.CheckItem}
menuitem         {@link Ext.menu.Item}
menuseparator    {@link Ext.menu.Separator}
menutextitem     {@link Ext.menu.TextItem}

Form components
---------------------------------------
form             {@link Ext.form.FormPanel}
checkbox         {@link Ext.form.Checkbox}
checkboxgroup    {@link Ext.form.CheckboxGroup}
combo            {@link Ext.form.ComboBox}
compositefield   {@link Ext.form.CompositeField}
datefield        {@link Ext.form.DateField}
displayfield     {@link Ext.form.DisplayField}
field            {@link Ext.form.Field}
fieldset         {@link Ext.form.FieldSet}
hidden           {@link Ext.form.Hidden}
htmleditor       {@link Ext.form.HtmlEditor}
label            {@link Ext.form.Label}
numberfield      {@link Ext.form.NumberField}
radio            {@link Ext.form.Radio}
radiogroup       {@link Ext.form.RadioGroup}
textarea         {@link Ext.form.TextArea}
textfield        {@link Ext.form.TextField}
timefield        {@link Ext.form.TimeField}
trigger          {@link Ext.form.TriggerField}

Chart components
---------------------------------------
chart            {@link Ext.chart.Chart}
barchart         {@link Ext.chart.BarChart}
cartesianchart   {@link Ext.chart.CartesianChart}
columnchart      {@link Ext.chart.ColumnChart}
linechart        {@link Ext.chart.LineChart}
piechart         {@link Ext.chart.PieChart}

Store xtypes
---------------------------------------
arraystore       {@link Ext.data.ArrayStore}
directstore      {@link Ext.data.DirectStore}
groupingstore    {@link Ext.data.GroupingStore}
jsonstore        {@link Ext.data.JsonStore}
simplestore      {@link Ext.data.SimpleStore}      (deprecated; use arraystore)
store            {@link Ext.data.Store}
xmlstore         {@link Ext.data.XmlStore}
* @constructor * @param {Ext.Element/String/Object} config The configuration options may be specified as either: *
*/ Ext.Component = function(config){ config = config || {}; if(config.initialConfig){ if(config.isAction){ // actions this.baseAction = config; } config = config.initialConfig; // component cloning / action set up }else if(config.tagName || config.dom || Ext.isString(config)){ // element object config = {applyTo: config, id: config.id || config}; }
/** * This Component's initial configuration specification. Read-only. * @type Object * @property initialConfig */ this.initialConfig = config; Ext.apply(this, config); this.addEvents(
/** * @event added * Fires when a component is added to an Ext.Container * @param {Ext.Component} this * @param {Ext.Container} ownerCt Container which holds the component * @param {number} index Position at which the component was added */ 'added',
/** * @event disable * Fires after the component is disabled. * @param {Ext.Component} this */ 'disable',
/** * @event enable * Fires after the component is enabled. * @param {Ext.Component} this */ 'enable',
/** * @event beforeshow * Fires before the component is shown by calling the {@link #show} method. * Return false from an event handler to stop the show. * @param {Ext.Component} this */ 'beforeshow',
/** * @event show * Fires after the component is shown when calling the {@link #show} method. * @param {Ext.Component} this */ 'show',
/** * @event beforehide * Fires before the component is hidden by calling the {@link #hide} method. * Return false from an event handler to stop the hide. * @param {Ext.Component} this */ 'beforehide',
/** * @event hide * Fires after the component is hidden. * Fires after the component is hidden when calling the {@link #hide} method. * @param {Ext.Component} this */ 'hide',
/** * @event removed * Fires when a component is removed from an Ext.Container * @param {Ext.Component} this * @param {Ext.Container} ownerCt Container which holds the component */ 'removed',
/** * @event beforerender * Fires before the component is {@link #rendered}. Return false from an * event handler to stop the {@link #render}. * @param {Ext.Component} this */ 'beforerender',
/** * @event render * Fires after the component markup is {@link #rendered}. * @param {Ext.Component} this */ 'render',
/** * @event afterrender *

Fires after the component rendering is finished.

*

The afterrender event is fired after this Component has been {@link #rendered}, been postprocesed * by any afterRender method defined for the Component, and, if {@link #stateful}, after state * has been restored.

* @param {Ext.Component} this */ 'afterrender',
/** * @event beforedestroy * Fires before the component is {@link #destroy}ed. Return false from an event handler to stop the {@link #destroy}. * @param {Ext.Component} this */ 'beforedestroy',
/** * @event destroy * Fires after the component is {@link #destroy}ed. * @param {Ext.Component} this */ 'destroy',
/** * @event beforestaterestore * Fires before the state of the component is restored. Return false from an event handler to stop the restore. * @param {Ext.Component} this * @param {Object} state The hash of state values returned from the StateProvider. If this * event is not vetoed, then the state object is passed to applyState. By default, * that simply copies property values into this Component. The method maybe overriden to * provide custom state restoration. */ 'beforestaterestore',
/** * @event staterestore * Fires after the state of the component is restored. * @param {Ext.Component} this * @param {Object} state The hash of state values returned from the StateProvider. This is passed * to applyState. By default, that simply copies property values into this * Component. The method maybe overriden to provide custom state restoration. */ 'staterestore',
/** * @event beforestatesave * Fires before the state of the component is saved to the configured state provider. Return false to stop the save. * @param {Ext.Component} this * @param {Object} state The hash of state values. This is determined by calling * getState() on the Component. This method must be provided by the * developer to return whetever representation of state is required, by default, Ext.Component * has a null implementation. */ 'beforestatesave',
/** * @event statesave * Fires after the state of the component is saved to the configured state provider. * @param {Ext.Component} this * @param {Object} state The hash of state values. This is determined by calling * getState() on the Component. This method must be provided by the * developer to return whetever representation of state is required, by default, Ext.Component * has a null implementation. */ 'statesave' ); this.getId(); Ext.ComponentMgr.register(this); Ext.Component.superclass.constructor.call(this); if(this.baseAction){ this.baseAction.addComponent(this); } this.initComponent(); if(this.plugins){ if(Ext.isArray(this.plugins)){ for(var i = 0, len = this.plugins.length; i < len; i++){ this.plugins[i] = this.initPlugin(this.plugins[i]); } }else{ this.plugins = this.initPlugin(this.plugins); } } if(this.stateful !== false){ this.initState(); } if(this.applyTo){ this.applyToMarkup(this.applyTo); delete this.applyTo; }else if(this.renderTo){ this.render(this.renderTo); delete this.renderTo; } }; // private Ext.Component.AUTO_ID = 1000; Ext.extend(Ext.Component, Ext.util.Observable, { // Configs below are used for all Components when rendered by FormLayout.
/** * @cfg {String} fieldLabel

The label text to display next to this Component (defaults to '').

*

Note: this config is only used when this Component is rendered by a Container which * has been configured to use the {@link Ext.layout.FormLayout FormLayout} layout manager (e.g. * {@link Ext.form.FormPanel} or specifying layout:'form').


*

Also see {@link #hideLabel} and * {@link Ext.layout.FormLayout}.{@link Ext.layout.FormLayout#fieldTpl fieldTpl}.

* Example use:

new Ext.FormPanel({
    height: 100,
    renderTo: Ext.getBody(),
    items: [{
        xtype: 'textfield',
        fieldLabel: 'Name'
    }]
});
*/
/** * @cfg {String} labelStyle

A CSS style specification string to apply directly to this field's * label. Defaults to the container's labelStyle value if set (e.g., * {@link Ext.layout.FormLayout#labelStyle} , or '').

*

Note: see the note for {@link #clearCls}.


*

Also see {@link #hideLabel} and * {@link Ext.layout.FormLayout}.{@link Ext.layout.FormLayout#fieldTpl fieldTpl}.

* Example use:

new Ext.FormPanel({
    height: 100,
    renderTo: Ext.getBody(),
    items: [{
        xtype: 'textfield',
        fieldLabel: 'Name',
        labelStyle: 'font-weight:bold;'
    }]
});
*/
/** * @cfg {String} labelSeparator

The separator to display after the text of each * {@link #fieldLabel}. This property may be configured at various levels. * The order of precedence is: *

* To display no separator for this field's label specify empty string ''.

*

Note: see the note for {@link #clearCls}.


*

Also see {@link #hideLabel} and * {@link Ext.layout.FormLayout}.{@link Ext.layout.FormLayout#fieldTpl fieldTpl}.

* Example use:

new Ext.FormPanel({
    height: 100,
    renderTo: Ext.getBody(),
    layoutConfig: {
        labelSeparator: '~'   // layout config has lowest priority (defaults to ':')
    },
    {@link Ext.layout.FormLayout#labelSeparator labelSeparator}: '>>',     // config at container level
    items: [{
        xtype: 'textfield',
        fieldLabel: 'Field 1',
        labelSeparator: '...' // field/component level config supersedes others
    },{
        xtype: 'textfield',
        fieldLabel: 'Field 2' // labelSeparator will be '='
    }]
});
*/
/** * @cfg {Boolean} hideLabel

true to completely hide the label element * ({@link #fieldLabel label} and {@link #labelSeparator separator}). Defaults to false. * By default, even if you do not specify a {@link #fieldLabel} the space will still be * reserved so that the field will line up with other fields that do have labels. * Setting this to true will cause the field to not reserve that space.

*

Note: see the note for {@link #clearCls}.


* Example use:

new Ext.FormPanel({
    height: 100,
    renderTo: Ext.getBody(),
    items: [{
        xtype: 'textfield'
        hideLabel: true
    }]
});
*/
/** * @cfg {String} clearCls

The CSS class used to to apply to the special clearing div rendered * directly after each form field wrapper to provide field clearing (defaults to * 'x-form-clear-left').

*

Note: this config is only used when this Component is rendered by a Container * which has been configured to use the {@link Ext.layout.FormLayout FormLayout} layout * manager (e.g. {@link Ext.form.FormPanel} or specifying layout:'form') and either a * {@link #fieldLabel} is specified or isFormField=true is specified.


*

See {@link Ext.layout.FormLayout}.{@link Ext.layout.FormLayout#fieldTpl fieldTpl} also.

*/
/** * @cfg {String} itemCls *

Note: this config is only used when this Component is rendered by a Container which * has been configured to use the {@link Ext.layout.FormLayout FormLayout} layout manager (e.g. * {@link Ext.form.FormPanel} or specifying layout:'form').


*

An additional CSS class to apply to the div wrapping the form item * element of this field. If supplied, itemCls at the field level will override * the default itemCls supplied at the container level. The value specified for * itemCls will be added to the default class ('x-form-item').

*

Since it is applied to the item wrapper (see * {@link Ext.layout.FormLayout}.{@link Ext.layout.FormLayout#fieldTpl fieldTpl}), it allows * you to write standard CSS rules that can apply to the field, the label (if specified), or * any other element within the markup for the field.

*

Note: see the note for {@link #fieldLabel}.


* Example use:

// Apply a style to the field's label:
<style>
    .required .x-form-item-label {font-weight:bold;color:red;}
</style>

new Ext.FormPanel({
    height: 100,
    renderTo: Ext.getBody(),
    items: [{
        xtype: 'textfield',
        fieldLabel: 'Name',
        itemCls: 'required' //this label will be styled
    },{
        xtype: 'textfield',
        fieldLabel: 'Favorite Color'
    }]
});
*/
/** * @cfg {String} id *

The unique id of this component (defaults to an {@link #getId auto-assigned id}). * You should assign an id if you need to be able to access the component later and you do * not have an object reference available (e.g., using {@link Ext}.{@link Ext#getCmp getCmp}).

*

Note that this id will also be used as the element id for the containing HTML element * that is rendered to the page for this component. This allows you to write id-based CSS * rules to style the specific instance of this component uniquely, and also to select * sub-elements using this component's id as the parent.

*

Note: to avoid complications imposed by a unique id also see * {@link #itemId} and {@link #ref}.

*

Note: to access the container of an item see {@link #ownerCt}.

*/
/** * @cfg {String} itemId *

An itemId can be used as an alternative way to get a reference to a component * when no object reference is available. Instead of using an {@link #id} with * {@link Ext}.{@link Ext#getCmp getCmp}, use itemId with * {@link Ext.Container}.{@link Ext.Container#getComponent getComponent} which will retrieve * itemId's or {@link #id}'s. Since itemId's are an index to the * container's internal MixedCollection, the itemId is scoped locally to the container -- * avoiding potential conflicts with {@link Ext.ComponentMgr} which requires a unique * {@link #id}.

*

var c = new Ext.Panel({ //
    {@link Ext.BoxComponent#height height}: 300,
    {@link #renderTo}: document.body,
    {@link Ext.Container#layout layout}: 'auto',
    {@link Ext.Container#items items}: [
        {
            itemId: 'p1',
            {@link Ext.Panel#title title}: 'Panel 1',
            {@link Ext.BoxComponent#height height}: 150
        },
        {
            itemId: 'p2',
            {@link Ext.Panel#title title}: 'Panel 2',
            {@link Ext.BoxComponent#height height}: 150
        }
    ]
})
p1 = c.{@link Ext.Container#getComponent getComponent}('p1'); // not the same as {@link Ext#getCmp Ext.getCmp()}
p2 = p1.{@link #ownerCt}.{@link Ext.Container#getComponent getComponent}('p2'); // reference via a sibling
     * 
*

Also see {@link #id} and {@link #ref}.

*

Note: to access the container of an item see {@link #ownerCt}.

*/
/** * @cfg {String} xtype * The registered xtype to create. This config option is not used when passing * a config object into a constructor. This config option is used only when * lazy instantiation is being used, and a child item of a Container is being * specified not as a fully instantiated Component, but as a Component config * object. The xtype will be looked up at render time up to determine what * type of child Component to create.

* The predefined xtypes are listed {@link Ext.Component here}. *

* If you subclass Components to create your own Components, you may register * them using {@link Ext.ComponentMgr#registerType} in order to be able to * take advantage of lazy instantiation and rendering. */
/** * @cfg {String} ptype * The registered ptype to create. This config option is not used when passing * a config object into a constructor. This config option is used only when * lazy instantiation is being used, and a Plugin is being * specified not as a fully instantiated Component, but as a Component config * object. The ptype will be looked up at render time up to determine what * type of Plugin to create.

* If you create your own Plugins, you may register them using * {@link Ext.ComponentMgr#registerPlugin} in order to be able to * take advantage of lazy instantiation and rendering. */
/** * @cfg {String} cls * An optional extra CSS class that will be added to this component's Element (defaults to ''). This can be * useful for adding customized styles to the component or any of its children using standard CSS rules. */
/** * @cfg {String} overCls * An optional extra CSS class that will be added to this component's Element when the mouse moves * over the Element, and removed when the mouse moves out. (defaults to ''). This can be * useful for adding customized 'active' or 'hover' styles to the component or any of its children using standard CSS rules. */
/** * @cfg {String} style * A custom style specification to be applied to this component's Element. Should be a valid argument to * {@link Ext.Element#applyStyles}. *

new Ext.Panel({
    title: 'Some Title',
    renderTo: Ext.getBody(),
    width: 400, height: 300,
    layout: 'form',
    items: [{
        xtype: 'textarea',
        style: {
            width: '95%',
            marginBottom: '10px'
        }
    },
        new Ext.Button({
            text: 'Send',
            minWidth: '100',
            style: {
                marginBottom: '10px'
            }
        })
    ]
});
     * 
*/
/** * @cfg {String} ctCls *

An optional extra CSS class that will be added to this component's container. This can be useful for * adding customized styles to the container or any of its children using standard CSS rules. See * {@link Ext.layout.ContainerLayout}.{@link Ext.layout.ContainerLayout#extraCls extraCls} also.

*

Note: ctCls defaults to '' except for the following class * which assigns a value by default: *

* To configure the above Class with an extra CSS class append to the default. For example, * for BoxLayout (Hbox and Vbox):

     * ctCls: 'x-box-layout-ct custom-class'
     * 
*

*/
/** * @cfg {Boolean} disabled * Render this component disabled (default is false). */ disabled : false,
/** * @cfg {Boolean} hidden * Render this component hidden (default is false). If true, the * {@link #hide} method will be called internally. */ hidden : false,
/** * @cfg {Object/Array} plugins * An object or array of objects that will provide custom functionality for this component. The only * requirement for a valid plugin is that it contain an init method that accepts a reference of type Ext.Component. * When a component is created, if any plugins are available, the component will call the init method on each * plugin, passing a reference to itself. Each plugin can then call methods or respond to events on the * component as needed to provide its functionality. */
/** * @cfg {Mixed} applyTo *

Specify the id of the element, a DOM element or an existing Element corresponding to a DIV * that is already present in the document that specifies some structural markup for this * component.

*/
/** * @cfg {Mixed} renderTo *

Specify the id of the element, a DOM element or an existing Element that this component * will be rendered into.

*

See {@link #render} also.

*/
/** * @cfg {Boolean} stateful *

A flag which causes the Component to attempt to restore the state of * internal properties from a saved state on startup. The component must have * either a {@link #stateId} or {@link #id} assigned * for state to be managed. Auto-generated ids are not guaranteed to be stable * across page loads and cannot be relied upon to save and restore the same * state for a component.

*

For state saving to work, the state manager's provider must have been * set to an implementation of {@link Ext.state.Provider} which overrides the * {@link Ext.state.Provider#set set} and {@link Ext.state.Provider#get get} * methods to save and recall name/value pairs. A built-in implementation, * {@link Ext.state.CookieProvider} is available.

*

To set the state provider for the current page:

*

Ext.state.Manager.setProvider(new Ext.state.CookieProvider({
    expires: new Date(new Date().getTime()+(1000*60*60*24*7)), //7 days from now
}));
     * 
*

A stateful Component attempts to save state when one of the events * listed in the {@link #stateEvents} configuration fires.

*

To save state, a stateful Component first serializes its state by * calling getState. By default, this function does * nothing. The developer must provide an implementation which returns an * object hash which represents the Component's restorable state.

*

The value yielded by getState is passed to {@link Ext.state.Manager#set} * which uses the configured {@link Ext.state.Provider} to save the object * keyed by the Component's {@link stateId}, or, if that is not * specified, its {@link #id}.

*

During construction, a stateful Component attempts to restore * its state by calling {@link Ext.state.Manager#get} passing the * {@link #stateId}, or, if that is not specified, the * {@link #id}.

*

The resulting object is passed to applyState. * The default implementation of applyState simply copies * properties into the object, but a developer may override this to support * more behaviour.

*

You can perform extra processing on state save and restore by attaching * handlers to the {@link #beforestaterestore}, {@link #staterestore}, * {@link #beforestatesave} and {@link #statesave} events.

*/
/** * @cfg {String} stateId * The unique id for this component to use for state management purposes * (defaults to the component id if one was set, otherwise null if the * component is using a generated id). *

See {@link #stateful} for an explanation of saving and * restoring Component state.

*/
/** * @cfg {Array} stateEvents *

An array of events that, when fired, should trigger this component to * save its state (defaults to none). stateEvents may be any type * of event supported by this component, including browser or custom events * (e.g., ['click', 'customerchange']).

*

See {@link #stateful} for an explanation of saving and * restoring Component state.

*/
/** * @cfg {Mixed} autoEl *

A tag name or {@link Ext.DomHelper DomHelper} spec used to create the {@link #getEl Element} which will * encapsulate this Component.

*

You do not normally need to specify this. For the base classes {@link Ext.Component}, {@link Ext.BoxComponent}, * and {@link Ext.Container}, this defaults to 'div'. The more complex Ext classes use a more complex * DOM structure created by their own onRender methods.

*

This is intended to allow the developer to create application-specific utility Components encapsulated by * different DOM elements. Example usage:


{
    xtype: 'box',
    autoEl: {
        tag: 'img',
        src: 'http://www.example.com/example.jpg'
    }
}, {
    xtype: 'box',
    autoEl: {
        tag: 'blockquote',
        html: 'autoEl is cool!'
    }
}, {
    xtype: 'container',
    autoEl: 'ul',
    cls: 'ux-unordered-list',
    items: {
        xtype: 'box',
        autoEl: 'li',
        html: 'First list item'
    }
}
*/ autoEl : 'div',
/** * @cfg {String} disabledClass * CSS class added to the component when it is disabled (defaults to 'x-item-disabled'). */ disabledClass : 'x-item-disabled',
/** * @cfg {Boolean} allowDomMove * Whether the component can move the Dom node when rendering (defaults to true). */ allowDomMove : true,
/** * @cfg {Boolean} autoShow * True if the component should check for hidden classes (e.g. 'x-hidden' or 'x-hide-display') and remove * them on render (defaults to false). */ autoShow : false,
/** * @cfg {String} hideMode *

How this component should be hidden. Supported values are 'visibility' * (css visibility), 'offsets' (negative offset position) and 'display' * (css display).

*

Note: the default of 'display' is generally preferred * since items are automatically laid out when they are first shown (no sizing * is done while hidden).

*/ hideMode : 'display',
/** * @cfg {Boolean} hideParent * True to hide and show the component's container when hide/show is called on the component, false to hide * and show the component itself (defaults to false). For example, this can be used as a shortcut for a hide * button on a window by setting hide:true on the button when adding it to its parent container. */ hideParent : false,
/** *

The {@link Ext.Element} which encapsulates this Component. Read-only.

*

This will usually be a <DIV> element created by the class's onRender method, but * that may be overridden using the {@link #autoEl} config.

*

Note: this element will not be available until this Component has been rendered.


*

To add listeners for DOM events to this Component (as opposed to listeners * for this Component's own Observable events), see the {@link Ext.util.Observable#listeners listeners} * config for a suggestion, or use a render listener directly:


new Ext.Panel({
    title: 'The Clickable Panel',
    listeners: {
        render: function(p) {
            // Append the Panel to the click handler's argument list.
            p.getEl().on('click', handlePanelClick.createDelegate(null, [p], true));
        },
        single: true  // Remove the listener after first invocation
    }
});
*

See also {@link #getEl getEl}

* @type Ext.Element * @property el */
/** * This Component's owner {@link Ext.Container Container} (defaults to undefined, and is set automatically when * this Component is added to a Container). Read-only. *

Note: to access items within the Container see {@link #itemId}.

* @type Ext.Container * @property ownerCt */
/** * True if this component is hidden. Read-only. * @type Boolean * @property hidden */
/** * True if this component is disabled. Read-only. * @type Boolean * @property disabled */
/** * True if this component has been rendered. Read-only. * @type Boolean * @property rendered */ rendered : false,
/** * @cfg {String} contentEl *

Optional. Specify an existing HTML element, or the id of an existing HTML element to use as the content * for this component.

* */
/** * @cfg {String/Object} html * An HTML fragment, or a {@link Ext.DomHelper DomHelper} specification to use as the layout element * content (defaults to ''). The HTML content is added after the component is rendered, * so the document will not contain this HTML at the time the {@link #render} event is fired. * This content is inserted into the body before any configured {@link #contentEl} is appended. */
/** * @cfg {Mixed} tpl * An {@link Ext.Template}, {@link Ext.XTemplate} * or an array of strings to form an Ext.XTemplate. * Used in conjunction with the {@link #data} and * {@link #tplWriteMode} configurations. */
/** * @cfg {String} tplWriteMode The Ext.(X)Template method to use when * updating the content area of the Component. Defaults to 'overwrite' * (see {@link Ext.XTemplate#overwrite}). */ tplWriteMode : 'overwrite',
/** * @cfg {Mixed} data * The initial set of data to apply to the {@link #tpl} to * update the content area of the Component. */
/** * @cfg {Array} bubbleEvents *

An array of events that, when fired, should be bubbled to any parent container. * See {@link Ext.util.Observable#enableBubble}. * Defaults to []. */ bubbleEvents: [], // private ctype : 'Ext.Component', // private actionMode : 'el', // private getActionEl : function(){ return this[this.actionMode]; }, initPlugin : function(p){ if(p.ptype && !Ext.isFunction(p.init)){ p = Ext.ComponentMgr.createPlugin(p); }else if(Ext.isString(p)){ p = Ext.ComponentMgr.createPlugin({ ptype: p }); } p.init(this); return p; }, /* // protected * Function to be implemented by Component subclasses to be part of standard component initialization flow (it is empty by default). *


// Traditional constructor:
Ext.Foo = function(config){
    // call superclass constructor:
    Ext.Foo.superclass.constructor.call(this, config);

    this.addEvents({
        // add events
    });
};
Ext.extend(Ext.Foo, Ext.Bar, {
   // class body
}

// initComponent replaces the constructor:
Ext.Foo = Ext.extend(Ext.Bar, {
    initComponent : function(){
        // call superclass initComponent
        Ext.Container.superclass.initComponent.call(this);

        this.addEvents({
            // add events
        });
    }
}
*/ initComponent : function(){ /* * this is double processing, however it allows people to be able to do * Ext.apply(this, { * listeners: { * //here * } * }); * MyClass.superclass.initComponent.call(this); */ if(this.listeners){ this.on(this.listeners); delete this.listeners; } this.enableBubble(this.bubbleEvents); },
/** *

Render this Component into the passed HTML element.

*

If you are using a {@link Ext.Container Container} object to house this Component, then * do not use the render method.

*

A Container's child Components are rendered by that Container's * {@link Ext.Container#layout layout} manager when the Container is first rendered.

*

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}, {@link Ext.layout.TableLayout}.

*

If the Container is already rendered when a new child Component is added, you may need to call * the Container's {@link Ext.Container#doLayout doLayout} to refresh the view which causes any * unrendered child Components to be rendered. This is required so that you can add multiple * child components if needed while only refreshing the layout once.

*

When creating complex UIs, it is important to remember that sizing and positioning * of child items is the responsibility of the Container's {@link Ext.Container#layout layout} manager. * If you expect child items to be sized in response to user interactions, you must * configure the Container with a layout manager which creates and manages the type of layout you * have in mind.

*

Omitting the Container's {@link Ext.Container#layout layout} config means that a basic * layout manager is used which does nothing but render child components sequentially into the * Container. No sizing or positioning will be performed in this situation.

* @param {Element/HTMLElement/String} container (optional) The element this Component should be * rendered into. If it is being created from existing markup, this should be omitted. * @param {String/Number} position (optional) The element ID or DOM node index within the container before * which this component will be inserted (defaults to appending to the end of the container) */ render : function(container, position){ if(!this.rendered && this.fireEvent('beforerender', this) !== false){ if(!container && this.el){ this.el = Ext.get(this.el); container = this.el.dom.parentNode; this.allowDomMove = false; } this.container = Ext.get(container); if(this.ctCls){ this.container.addClass(this.ctCls); } this.rendered = true; if(position !== undefined){ if(Ext.isNumber(position)){ position = this.container.dom.childNodes[position]; }else{ position = Ext.getDom(position); } } this.onRender(this.container, position || null); if(this.autoShow){ this.el.removeClass(['x-hidden','x-hide-' + this.hideMode]); } if(this.cls){ this.el.addClass(this.cls); delete this.cls; } if(this.style){ this.el.applyStyles(this.style); delete this.style; } if(this.overCls){ this.el.addClassOnOver(this.overCls); } this.fireEvent('render', this); // Populate content of the component with html, contentEl or // a tpl. var contentTarget = this.getContentTarget(); if (this.html){ contentTarget.update(Ext.DomHelper.markup(this.html)); delete this.html; } if (this.contentEl){ var ce = Ext.getDom(this.contentEl); Ext.fly(ce).removeClass(['x-hidden', 'x-hide-display']); contentTarget.appendChild(ce); } if (this.tpl) { if (!this.tpl.compile) { this.tpl = new Ext.XTemplate(this.tpl); } if (this.data) { this.tpl[this.tplWriteMode](contentTarget, this.data); delete this.data; } } this.afterRender(this.container); if(this.hidden){ // call this so we don't fire initial hide events. this.doHide(); } if(this.disabled){ // pass silent so the event doesn't fire the first time. this.disable(true); } if(this.stateful !== false){ this.initStateEvents(); } this.fireEvent('afterrender', this); } return this; },
/** * Update the content area of a component. * @param {Mixed} htmlOrData * If this component has been configured with a template via the tpl config * then it will use this argument as data to populate the template. * If this component was not configured with a template, the components * content area will be updated via Ext.Element update * @param {Boolean} loadScripts * (optional) Only legitimate when using the html configuration. Defaults to false * @param {Function} callback * (optional) Only legitimate when using the html configuration. Callback to execute when scripts have finished loading */ update: function(htmlOrData, loadScripts, cb) { var contentTarget = this.getContentTarget(); if (this.tpl && typeof htmlOrData !== "string") { this.tpl[this.tplWriteMode](contentTarget, htmlOrData || {}); } else { var html = Ext.isObject(htmlOrData) ? Ext.DomHelper.markup(htmlOrData) : htmlOrData; contentTarget.update(html, loadScripts, cb); } }, /** * @private * Method to manage awareness of when components are added to their * respective Container, firing an added event. * References are established at add time rather than at render time. * @param {Ext.Container} container Container which holds the component * @param {number} pos Position at which the component was added */ onAdded : function(container, pos) { this.ownerCt = container; this.initRef(); this.fireEvent('added', this, container, pos); }, /** * @private * Method to manage awareness of when components are removed from their * respective Container, firing an removed event. References are properly * cleaned up after removing a component from its owning container. */ onRemoved : function() { this.removeRef(); this.fireEvent('removed', this, this.ownerCt); delete this.ownerCt; }, /** * @private * Method to establish a reference to a component. */ initRef : function() {
/** * @cfg {String} ref *

A path specification, relative to the Component's {@link #ownerCt} * specifying into which ancestor Container to place a named reference to this Component.

*

The ancestor axis can be traversed by using '/' characters in the path. * For example, to put a reference to a Toolbar Button into the Panel which owns the Toolbar:


var myGrid = new Ext.grid.EditorGridPanel({
    title: 'My EditorGridPanel',
    store: myStore,
    colModel: myColModel,
    tbar: [{
        text: 'Save',
        handler: saveChanges,
        disabled: true,
        ref: '../saveButton'
    }],
    listeners: {
        afteredit: function() {
//          The button reference is in the GridPanel
            myGrid.saveButton.enable();
        }
    }
});
*

In the code above, if the ref had been 'saveButton' * the reference would have been placed into the Toolbar. Each '/' in the ref * moves up one level from the Component's {@link #ownerCt}.

*

Also see the {@link #added} and {@link #removed} events.

*/ if(this.ref && !this.refOwner){ var levels = this.ref.split('/'), last = levels.length, i = 0, t = this; while(t && i < last){ t = t.ownerCt; ++i; } if(t){ t[this.refName = levels[--i]] = this;
/** * @type Ext.Container * @property refOwner * The ancestor Container into which the {@link #ref} reference was inserted if this Component * is a child of a Container, and has been configured with a ref. */ this.refOwner = t; } } }, removeRef : function() { if (this.refOwner && this.refName) { delete this.refOwner[this.refName]; delete this.refOwner; } }, // private initState : function(){ if(Ext.state.Manager){ var id = this.getStateId(); if(id){ var state = Ext.state.Manager.get(id); if(state){ if(this.fireEvent('beforestaterestore', this, state) !== false){ this.applyState(Ext.apply({}, state)); this.fireEvent('staterestore', this, state); } } } } }, // private getStateId : function(){ return this.stateId || ((/^(ext-comp-|ext-gen)/).test(String(this.id)) ? null : this.id); }, // private initStateEvents : function(){ if(this.stateEvents){ for(var i = 0, e; e = this.stateEvents[i]; i++){ this.on(e, this.saveState, this, {delay:100}); } } }, // private applyState : function(state){ if(state){ Ext.apply(this, state); } }, // private getState : function(){ return null; }, // private saveState : function(){ if(Ext.state.Manager && this.stateful !== false){ var id = this.getStateId(); if(id){ var state = this.getState(); if(this.fireEvent('beforestatesave', this, state) !== false){ Ext.state.Manager.set(id, state); this.fireEvent('statesave', this, state); } } } },
/** * Apply this component to existing markup that is valid. With this function, no call to render() is required. * @param {String/HTMLElement} el */ applyToMarkup : function(el){ this.allowDomMove = false; this.el = Ext.get(el); this.render(this.el.dom.parentNode); },
/** * Adds a CSS class to the component's underlying element. * @param {string} cls The CSS class name to add * @return {Ext.Component} this */ addClass : function(cls){ if(this.el){ this.el.addClass(cls); }else{ this.cls = this.cls ? this.cls + ' ' + cls : cls; } return this; },
/** * Removes a CSS class from the component's underlying element. * @param {string} cls The CSS class name to remove * @return {Ext.Component} this */ removeClass : function(cls){ if(this.el){ this.el.removeClass(cls); }else if(this.cls){ this.cls = this.cls.split(' ').remove(cls).join(' '); } return this; }, // private // default function is not really useful onRender : function(ct, position){ if(!this.el && this.autoEl){ if(Ext.isString(this.autoEl)){ this.el = document.createElement(this.autoEl); }else{ var div = document.createElement('div'); Ext.DomHelper.overwrite(div, this.autoEl); this.el = div.firstChild; } if (!this.el.id) { this.el.id = this.getId(); } } if(this.el){ this.el = Ext.get(this.el); if(this.allowDomMove !== false){ ct.dom.insertBefore(this.el.dom, position); if (div) { Ext.removeNode(div); div = null; } } } }, // private getAutoCreate : function(){ var cfg = Ext.isObject(this.autoCreate) ? this.autoCreate : Ext.apply({}, this.defaultAutoCreate); if(this.id && !cfg.id){ cfg.id = this.id; } return cfg; }, // private afterRender : Ext.emptyFn,
/** * Destroys this component by purging any event listeners, removing the component's element from the DOM, * removing the component from its {@link Ext.Container} (if applicable) and unregistering it from * {@link Ext.ComponentMgr}. Destruction is generally handled automatically by the framework and this method * should usually not need to be called directly. * */ destroy : function(){ if(!this.isDestroyed){ if(this.fireEvent('beforedestroy', this) !== false){ this.destroying = true; this.beforeDestroy(); if(this.ownerCt && this.ownerCt.remove){ this.ownerCt.remove(this, false); } if(this.rendered){ this.el.remove(); if(this.actionMode == 'container' || this.removeMode == 'container'){ this.container.remove(); } } // Stop any buffered tasks if(this.focusTask && this.focusTask.cancel){ this.focusTask.cancel(); } this.onDestroy(); Ext.ComponentMgr.unregister(this); this.fireEvent('destroy', this); this.purgeListeners(); this.destroying = false; this.isDestroyed = true; } } }, deleteMembers : function(){ var args = arguments; for(var i = 0, len = args.length; i < len; ++i){ delete this[args[i]]; } }, // private beforeDestroy : Ext.emptyFn, // private onDestroy : Ext.emptyFn,
/** *

Returns the {@link Ext.Element} which encapsulates this Component.

*

This will usually be a <DIV> element created by the class's onRender method, but * that may be overridden using the {@link #autoEl} config.

*

Note: this element will not be available until this Component has been rendered.


*

To add listeners for DOM events to this Component (as opposed to listeners * for this Component's own Observable events), see the {@link #listeners} config for a suggestion, * or use a render listener directly:


new Ext.Panel({
    title: 'The Clickable Panel',
    listeners: {
        render: function(p) {
            // Append the Panel to the click handler's argument list.
            p.getEl().on('click', handlePanelClick.createDelegate(null, [p], true));
        },
        single: true  // Remove the listener after first invocation
    }
});
* @return {Ext.Element} The Element which encapsulates this Component. */ getEl : function(){ return this.el; }, // private getContentTarget : function(){ return this.el; },
/** * Returns the id of this component or automatically generates and * returns an id if an id is not defined yet:

     * 'ext-comp-' + (++Ext.Component.AUTO_ID)
     * 
* @return {String} id */ getId : function(){ return this.id || (this.id = 'ext-comp-' + (++Ext.Component.AUTO_ID)); },
/** * Returns the {@link #itemId} of this component. If an * {@link #itemId} was not assigned through configuration the * id is returned using {@link #getId}. * @return {String} */ getItemId : function(){ return this.itemId || this.getId(); },
/** * Try to focus this component. * @param {Boolean} selectText (optional) If applicable, true to also select the text in this component * @param {Boolean/Number} delay (optional) Delay the focus this number of milliseconds (true for 10 milliseconds) * @return {Ext.Component} this */ focus : function(selectText, delay){ if(delay){ this.focusTask = new Ext.util.DelayedTask(this.focus, this, [selectText, false]); this.focusTask.delay(Ext.isNumber(delay) ? delay : 10); return this; } if(this.rendered && !this.isDestroyed){ this.el.focus(); if(selectText === true){ this.el.dom.select(); } } return this; }, // private blur : function(){ if(this.rendered){ this.el.blur(); } return this; },
/** * Disable this component and fire the 'disable' event. * @return {Ext.Component} this */ disable : function(/* private */ silent){ if(this.rendered){ this.onDisable(); } this.disabled = true; if(silent !== true){ this.fireEvent('disable', this); } return this; }, // private onDisable : function(){ this.getActionEl().addClass(this.disabledClass); this.el.dom.disabled = true; },
/** * Enable this component and fire the 'enable' event. * @return {Ext.Component} this */ enable : function(){ if(this.rendered){ this.onEnable(); } this.disabled = false; this.fireEvent('enable', this); return this; }, // private onEnable : function(){ this.getActionEl().removeClass(this.disabledClass); this.el.dom.disabled = false; },
/** * Convenience function for setting disabled/enabled by boolean. * @param {Boolean} disabled * @return {Ext.Component} this */ setDisabled : function(disabled){ return this[disabled ? 'disable' : 'enable'](); },
/** * Show this component. Listen to the '{@link #beforeshow}' event and return * false to cancel showing the component. Fires the '{@link #show}' * event after showing the component. * @return {Ext.Component} this */ show : function(){ if(this.fireEvent('beforeshow', this) !== false){ this.hidden = false; if(this.autoRender){ this.render(Ext.isBoolean(this.autoRender) ? Ext.getBody() : this.autoRender); } if(this.rendered){ this.onShow(); } this.fireEvent('show', this); } return this; }, // private onShow : function(){ this.getVisibilityEl().removeClass('x-hide-' + this.hideMode); },
/** * Hide this component. Listen to the '{@link #beforehide}' event and return * false to cancel hiding the component. Fires the '{@link #hide}' * event after hiding the component. Note this method is called internally if * the component is configured to be {@link #hidden}. * @return {Ext.Component} this */ hide : function(){ if(this.fireEvent('beforehide', this) !== false){ this.doHide(); this.fireEvent('hide', this); } return this; }, // private doHide: function(){ this.hidden = true; if(this.rendered){ this.onHide(); } }, // private onHide : function(){ this.getVisibilityEl().addClass('x-hide-' + this.hideMode); }, // private getVisibilityEl : function(){ return this.hideParent ? this.container : this.getActionEl(); },
/** * Convenience function to hide or show this component by boolean. * @param {Boolean} visible True to show, false to hide * @return {Ext.Component} this */ setVisible : function(visible){ return this[visible ? 'show' : 'hide'](); },
/** * Returns true if this component is visible. * @return {Boolean} True if this component is visible, false otherwise. */ isVisible : function(){ return this.rendered && this.getVisibilityEl().isVisible(); },
/** * Clone the current component using the original config values passed into this instance by default. * @param {Object} overrides A new config containing any properties to override in the cloned version. * An id property can be passed on this object, otherwise one will be generated to avoid duplicates. * @return {Ext.Component} clone The cloned copy of this component */ cloneConfig : function(overrides){ overrides = overrides || {}; var id = overrides.id || Ext.id(); var cfg = Ext.applyIf(overrides, this.initialConfig); cfg.id = id; // prevent dup id return new this.constructor(cfg); },
/** * Gets the xtype for this component as registered with {@link Ext.ComponentMgr}. For a list of all * available xtypes, see the {@link Ext.Component} header. Example usage: *

var t = new Ext.form.TextField();
alert(t.getXType());  // alerts 'textfield'
* @return {String} The xtype */ getXType : function(){ return this.constructor.xtype; },
/** *

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.form.TextField();
var isText = t.isXType('textfield');        // true
var isBoxSubclass = t.isXType('box');       // true, descended from BoxComponent
var isBoxInstance = t.isXType('box', true); // false, not a direct BoxComponent instance
* @param {String/Ext.Component/Class} xtype The xtype to check for this Component. Note that the the component can either be an instance * or a component class: *

var c = new Ext.Component();
console.log(c.isXType(c));
console.log(c.isXType(Ext.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){ //assume a string by default if (Ext.isFunction(xtype)){ xtype = xtype.xtype; //handle being passed the class, e.g. Ext.Component }else if (Ext.isObject(xtype)){ xtype = xtype.constructor.xtype; //handle being passed an instance } return !shallow ? ('/' + this.getXTypes() + '/').indexOf('/' + xtype + '/') != -1 : this.constructor.xtype == xtype; },
/** *

Returns this Component's xtype hierarchy as a slash-delimited string. For a list of all * available xtypes, see the {@link Ext.Component} header.

*

If using your own subclasses, be aware that a Component must register its own xtype * to participate in determination of inherited xtypes.

*

Example usage:

*

var t = new Ext.form.TextField();
alert(t.getXTypes());  // alerts 'component/box/field/textfield'
* @return {String} The xtype hierarchy string */ getXTypes : function(){ var tc = this.constructor; if(!tc.xtypes){ var c = [], sc = this; while(sc && sc.constructor.xtype){ c.unshift(sc.constructor.xtype); sc = sc.constructor.superclass; } tc.xtypeChain = c; tc.xtypes = c.join('/'); } return tc.xtypes; },
/** * Find a container above this component at any level by a custom function. If the passed function returns * true, the container will be returned. * @param {Function} fn The custom function to call with the arguments (container, this component). * @return {Ext.Container} The first Container for which the custom function returns true */ findParentBy : function(fn) { for (var p = this.ownerCt; (p != null) && !fn(p, this); p = p.ownerCt); return p || null; },
/** * Find a container above this component at any level by xtype or class * @param {String/Ext.Component/Class} xtype The xtype to check for this Component. Note that the the component can either be an instance * or a component class: * @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 {Ext.Container} The first Container which matches the given xtype or class */ findParentByType : function(xtype, shallow){ return this.findParentBy(function(c){ return c.isXType(xtype, shallow); }); },
/** * Bubbles up the component/container heirarchy, calling the specified function with each component. The scope (this) 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 bubble is stopped. * @param {Function} fn The function to call * @param {Object} scope (optional) The scope of the function (defaults to current node) * @param {Array} args (optional) The args to call the function with (default to passing the current component) * @return {Ext.Component} this */ bubble : function(fn, scope, args){ var p = this; while(p){ if(fn.apply(scope || p, args || [p]) === false){ break; } p = p.ownerCt; } return this; }, // protected getPositionEl : function(){ return this.positionEl || this.el; }, // private purgeListeners : function(){ Ext.Component.superclass.purgeListeners.call(this); if(this.mons){ this.on('beforedestroy', this.clearMons, this, {single: true}); } }, // private clearMons : function(){ Ext.each(this.mons, function(m){ m.item.un(m.ename, m.fn, m.scope); }, this); this.mons = []; }, // private createMons: function(){ if(!this.mons){ this.mons = []; this.on('beforedestroy', this.clearMons, this, {single: true}); } },
/** *

Adds listeners to any Observable object (or Elements) which are automatically removed when this Component * is destroyed. Usage:

myGridPanel.mon(myGridPanel.getSelectionModel(), 'selectionchange', handleSelectionChange, null, {buffer: 50});
*

or:

myGridPanel.mon(myGridPanel.getSelectionModel(), {
    selectionchange: handleSelectionChange,
    buffer: 50
});
* @param {Observable|Element} item The item to which to add a listener/listeners. * @param {Object|String} ename The event name, or an object containing event name properties. * @param {Function} fn Optional. If the ename parameter was an event name, this * is the handler function. * @param {Object} scope Optional. If the ename parameter was an event name, this * is the scope (this reference) in which the handler function is executed. * @param {Object} opt Optional. If the ename parameter was an event name, this * is the {@link Ext.util.Observable#addListener addListener} options. */ mon : function(item, ename, fn, scope, opt){ this.createMons(); if(Ext.isObject(ename)){ var propRe = /^(?:scope|delay|buffer|single|stopEvent|preventDefault|stopPropagation|normalized|args|delegate)$/; var o = ename; for(var e in o){ if(propRe.test(e)){ continue; } if(Ext.isFunction(o[e])){ // shared options this.mons.push({ item: item, ename: e, fn: o[e], scope: o.scope }); item.on(e, o[e], o.scope, o); }else{ // individual options this.mons.push({ item: item, ename: e, fn: o[e], scope: o.scope }); item.on(e, o[e]); } } return; } this.mons.push({ item: item, ename: ename, fn: fn, scope: scope }); item.on(ename, fn, scope, opt); },
/** * Removes listeners that were added by the {@link #mon} method. * @param {Observable|Element} item The item from which to remove a listener/listeners. * @param {Object|String} ename The event name, or an object containing event name properties. * @param {Function} fn Optional. If the ename parameter was an event name, this * is the handler function. * @param {Object} scope Optional. If the ename parameter was an event name, this * is the scope (this reference) in which the handler function is executed. */ mun : function(item, ename, fn, scope){ var found, mon; this.createMons(); for(var i = 0, len = this.mons.length; i < len; ++i){ mon = this.mons[i]; if(item === mon.item && ename == mon.ename && fn === mon.fn && scope === mon.scope){ this.mons.splice(i, 1); item.un(ename, fn, scope); found = true; break; } } return found; },
/** * Returns the next component in the owning container * @return Ext.Component */ nextSibling : function(){ if(this.ownerCt){ var index = this.ownerCt.items.indexOf(this); if(index != -1 && index+1 < this.ownerCt.items.getCount()){ return this.ownerCt.items.itemAt(index+1); } } return null; },
/** * Returns the previous component in the owning container * @return Ext.Component */ previousSibling : function(){ if(this.ownerCt){ var index = this.ownerCt.items.indexOf(this); if(index > 0){ return this.ownerCt.items.itemAt(index-1); } } return null; },
/** * Provides the link for Observable's fireEvent method to bubble up the ownership hierarchy. * @return {Ext.Container} the Container which owns this Component. */ getBubbleTarget : function(){ return this.ownerCt; } }); Ext.reg('component', Ext.Component);