/*! * 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: *
it is set as the internal element and its id used as the component id
it is assumed to be the id of an existing element and is used as the component id
it is assumed to be a standard config object and is applied to the component
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} fieldLabelThe 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}.
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: *
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}.
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}.
// 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}
.
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.
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: *
* 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.
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.
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.
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.
{@link Ext.Container#layout layout}
* scheme that the Component may use. It is just HTML. Layouts operate on child {@link Ext.Container#items items}
.x-hidden
or the x-hide-display
CSS class to
* prevent a brief flicker of the content before it is rendered to the panel.{@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.
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);