Many classes have shortcut names used when creating (instantiating) a class with a
configuration object. The shortcut name is referred to as an alias
(or xtype
if the
class extends Ext.Component). The alias/xtype is listed next to the class name of
applicable classes for quick reference.
Framework classes or their members may be specified as private
or protected
. Else,
the class / member is public
. Public
, protected
, and private
are access
descriptors used to convey how and when the class or class member should be used.
Public classes and class members are available for use by any other class or application code and may be relied upon as a stable and persistent within major product versions. Public classes and members may safely be extended via a subclass.
Protected class members are stable public
members intended to be used by the
owning class or its subclasses. Protected members may safely be extended via a subclass.
Private classes and class members are used internally by the framework and are not intended to be used by application developers. Private classes and members may change or be omitted from the framework at any time without notice and should not be relied upon in application logic.
static
label next to the
method name. *See Static below.Below is an example class member that we can disect to show the syntax of a class member (the lookupComponent method as viewed from the Ext.button.Button class in this case).
Let's look at each part of the member row:
lookupComponent
in this example)( item )
in this example)Ext.Component
in this case). This may be omitted for methods that do not
return anything other than undefined
or may display as multiple possible values
separated by a forward slash /
signifying that what is returned may depend on the
results of the method call (i.e. a method may return a Component if a get method calls is
successful or false
if unsuccessful which would be displayed as
Ext.Component/Boolean
).PROTECTED
in
this example - see the Flags section below)Ext.container.Container
in this example). The source
class will be displayed as a blue link if the member originates from the current class
and gray if it is inherited from an ancestor or mixed-in class.view source
in the example)item : Object
in the example).undefined
a "Returns" section
will note the type of class or object returned and a description (Ext.Component
in the
example)Available since 3.4.0
- not pictured in
the example) just after the member descriptionDefaults to: false
)The API documentation uses a number of flags to further commnicate the class member's function and intent. The label may be represented by a text label, an abbreviation, or an icon.
classInstance.method1().method2().etc();
false
is returned from
an event handler- Indicates a framework class
- A singleton framework class. *See the singleton flag for more information
- A component-type framework class (any class within the Ext JS framework that extends Ext.Component)
- Indicates that the class, member, or guide is new in the currently viewed version
- Indicates a class member of type config
- Indicates a class member of type property
- Indicates a class member of type
method
- Indicates a class member of type event
- Indicates a class member of type
theme variable
- Indicates a class member of type
theme mixin
- Indicates that the class, member, or guide is new in the currently viewed version
Just below the class name on an API doc page is a row of buttons corresponding to the types of members owned by the current class. Each button shows a count of members by type (this count is updated as filters are applied). Clicking the button will navigate you to that member section. Hovering over the member-type button will reveal a popup menu of all members of that type for quick navigation.
Getting and setter methods that correlate to a class config option will show up in the methods section as well as in the configs section of both the API doc and the member-type menus just beneath the config they work with. The getter and setter method documentation will be found in the config row for easy reference.
Your page history is kept in localstorage and displayed (using the available real estate) just below the top title bar. By default, the only search results shown are the pages matching the product / version you're currently viewing. You can expand what is displayed by clicking on the button on the right-hand side of the history bar and choosing the "All" radio option. This will show all recent pages in the history bar for all products / versions.
Within the history config menu you will also see a listing of your recent page visits. The results are filtered by the "Current Product / Version" and "All" radio options. Clicking on the button will clear the history bar as well as the history kept in local storage.
If "All" is selected in the history config menu the checkbox option for "Show product details in the history bar" will be enabled. When checked, the product/version for each historic page will show alongside the page name in the history bar. Hovering the cursor over the page names in the history bar will also show the product/version as a tooltip.
Both API docs and guides can be searched for using the search field at the top of the page.
On API doc pages there is also a filter input field that filters the member rows using the filter string. In addition to filtering by string you can filter the class members by access level, inheritance, and read only. This is done using the checkboxes at the top of the page.
The checkbox at the bottom of the API class navigation tree filters the class list to include or exclude private classes.
Clicking on an empty search field will show your last 10 searches for quick navigation.
Each API doc page (with the exception of Javascript primitives pages) has a menu view of metadata relating to that class. This metadata view will have one or more of the following:
Ext.button.Button
class has an alternate class name of Ext.Button
). Alternate class
names are commonly maintained for backward compatibility.Runnable examples (Fiddles) are expanded on a page by default. You can collapse and expand example code blocks individually using the arrow on the top-left of the code block. You can also toggle the collapse state of all examples using the toggle button on the top-right of the page. The toggle-all state will be remembered between page loads.
Class members are collapsed on a page by default. You can expand and collapse members using the arrow icon on the left of the member row or globally using the expand / collapse all toggle button top-right.
Viewing the docs on narrower screens or browsers will result in a view optimized for a smaller form factor. The primary differences between the desktop and "mobile" view are:
The class source can be viewed by clicking on the class name at the top of an API doc page. The source for class members can be viewed by clicking on the "view source" link on the right-hand side of the member row.
Provides searching of Components within Ext.ComponentManager (globally) or a specific Ext.container.Container on the document with a similar syntax to a CSS selector. Returns Array of matching Components, or empty Array.
Components can be retrieved by using their Ext.Component:
component
gridpanel
Matching by xtype
matches inherited types, so in the following code, the previous field
of any type which inherits from TextField
will be found:
prevField = myField.previousNode('textfield');
To match only the exact type, pass the "shallow" flag by adding (true)
to xtype
(See Component's isXType method):
prevTextField = myField.previousNode('textfield(true)');
You can search Components by their id
or itemId
property, prefixed with a #:
#myContainer
Component xtype
and id
or itemId
can be used together to avoid possible
id collisions between Components of different types:
panel#myPanel
When Component's id
or xtype
contains dots, you can escape them in your selector:
my\.panel#myPanel
Keep in mind that JavaScript treats the backslash character in a special way, so you need to escape it, too, in the actual code:
var myPanel = Ext.ComponentQuery.query('my\\.panel#myPanel');
Components can be found by their relation to other Components. There are several relationship operators, mostly taken from CSS selectors:
E F
All descendant Components of E that match FE > F
All direct children Components of E that match FE ^ F
All parent Components of E that match FExpressions between relationship operators are matched left to right, i.e. leftmost selector is applied first, then if one or more matches are found, relationship operator itself is applied, then next selector expression, etc. It is possible to combine relationship operators in complex selectors:
window[title="Input form"] textfield[name=login] ^ form > button[action=submit]
That selector can be read this way: Find a window with title "Input form", in that
window find a TextField with name "login" at any depth (including subpanels and/or
FieldSets), then find an Ext.form.Panel
that is a parent of the TextField, and in
that form find a direct child that is a button with custom property action
set to
value "submit".
Whitespace on both sides of ^
and >
operators is non-significant, i.e. can be
omitted, but usually is used for clarity.
Components can be searched by their object property values (attributes). To do that, use attribute matching expression in square brackets:
component[disabled]
- matches any Component that has disabled
property with
any truthy (non-empty, not false
) value.panel[title="Test"]
- matches any Component that has title
property set to
"Test". Note that if the value does not contain spaces, the quotes are optional.Attributes can use any of the following operators to compare values:
=
, !=
, ^=
, $=
, *=
, %=
, |=
and ~=
.
Prefixing the attribute name with an at sign @
means that the property must be
the object's ownProperty
, not a property from the prototype chain.
Specifications like [propName]
check that the property is a truthy value. To check
that the object has an ownProperty
of a certain name, regardless of the value use
the form [?propName]
.
The specified value is coerced to match the type of the property found in the candidate Component using Ext#coerce.
If you need to find Components by their itemId
property, use the #id
form; it will
do the same as [itemId=id]
but is easier to read.
If you need to include a metacharacter like (, ), [, ], etc., in the query, escape it by prefixing it with a backslash:
var component = Ext.ComponentQuery.query('[myProperty=\\[foo\\]]');
The '=' operator will return the results that exactly match the specified object property (attribute):
Ext.ComponentQuery.query('panel[cls=my-cls]');
Will match the following Component:
Ext.create('Ext.window.Window', {
cls: 'my-cls'
});
But will not match the following Component, because 'my-cls' is one value among others:
Ext.create('Ext.panel.Panel', {
cls: 'foo-cls my-cls bar-cls'
});
You can use the '~=' operator instead, it will return Components with the property that exactly matches one of the whitespace-separated values. This is also true for properties that only have one value:
Ext.ComponentQuery.query('panel[cls~=my-cls]');
Will match both Components:
Ext.create('Ext.panel.Panel', {
cls: 'foo-cls my-cls bar-cls'
});
Ext.create('Ext.window.Window', {
cls: 'my-cls'
});
Generally, '=' operator is more suited for object properties other than CSS classes, while '~=' operator will work best with properties that hold lists of whitespace-separated CSS classes.
The '^=' operator will return Components with specified attribute that start with the passed value:
Ext.ComponentQuery.query('panel[title^=Sales]');
Will match the following Component:
Ext.create('Ext.panel.Panel', {
title: 'Sales estimate for Q4'
});
The '$=' operator will return Components with specified properties that end with the passed value:
Ext.ComponentQuery.query('field[fieldLabel$=name]');
Will match the following Component:
Ext.create('Ext.form.field.Text', {
fieldLabel: 'Enter your name'
});
The '/=' operator will return Components with specified properties that match the passed regular expression:
Ext.ComponentQuery.query('button[action/="edit|save"]');
Will match the following Components with a custom action
property:
Ext.create('Ext.button.Button', {
action: 'edit'
});
Ext.create('Ext.button.Button', {
action: 'save'
});
When you need to use meta characters like [], (), etc. in your query, make sure to escape them with back slashes:
Ext.ComponentQuery.query('panel[title="^Sales for Q\\[1-4\\]"]');
The following test will find panels with their ownProperty
collapsed being equal to
false
. It will not match a collapsed property from the prototype chain.
Ext.ComponentQuery.query('panel[@collapsed=false]');
Member expressions from candidate Components may be tested. If the expression returns a truthy value, the candidate Component will be included in the query:
var disabledFields = myFormPanel.query("{isDisabled()}");
Such expressions are executed in Component's context, and the above expression is similar to running this snippet for every Component in your application:
if (component.isDisabled()) {
matches.push(component);
}
It is important to use only methods that are available in every Component instance
to avoid run time exceptions. If you need to match your Components with a custom
condition formula, you can augment Ext.Component
to provide custom matcher that
will return false
by default, and override it in your custom classes:
Ext.define('My.Component', {
override: 'Ext.Component',
myMatcher: function() { return false; }
});
Ext.define('My.Panel', {
extend: 'Ext.panel.Panel',
requires: ['My.Component'], // Ensure that Component override is applied
myMatcher: function(selector) {
return selector === 'myPanel';
}
});
After that you can use a selector with your custom matcher to find all instances
of My.Panel
:
Ext.ComponentQuery.query("{myMatcher('myPanel')}");
However if you really need to use a custom matcher, you may find it easier to implement a custom Pseudo class instead (see below).
Attribute matchers can be combined to select only Components that match all conditions (logical AND operator):
Ext.ComponentQuery.query('panel[cls~=my-cls][floating=true][title$="sales data"]');
E.g., the query above will match only a Panel-descended Component that has 'my-cls' CSS class and is floating and with a title that ends with "sales data".
Expressions separated with commas will match any Component that satisfies either expression (logical OR operator):
Ext.ComponentQuery.query('field[fieldLabel^=User], field[fieldLabel*=password]');
E.g., the query above will match any field with field label starting with "User", or any field that has "password" in its label.
If you need to include a comma in an attribute matching expression, escape it with a backslash:
Ext.ComponentQuery.query('field[fieldLabel^="User\\, foo"], field[fieldLabel*=password]');
Pseudo classes may be used to filter results in the same way as in Ext.dom.Query. There are five default pseudo classes:
not
Negates a selector.first
Filters out all except the first matching item for a selector.last
Filters out all except the last matching item for a selector.focusable
Filters out all except Components which by definition and configuration are
potentially able to recieve focus, regardless of their current statecanfocus
Filters out all except Components which are curently able to recieve focus.
That is, they are defined and configured focusable, and they are also visible and enabled.nth-child
Filters Components by ordinal position in the selection.scrollable
Filters out all except Components which are scrollable.visible
Filters out hidden Components. May test deep visibility using ':visible(true)'
These pseudo classes can be used with other matchers or without them:
// Select first direct child button in any panel
Ext.ComponentQuery.query('panel > button:first');
// Select last field in Profile form
Ext.ComponentQuery.query('form[title=Profile] field:last');
// Find first focusable Component in a panel and focus it
panel.down(':canfocus').focus();
// Select any field that is not hidden in a form
form.query('field:not(hiddenfield)');
// Find last scrollable Component and reset its scroll positions.
tabpanel.down(':scrollable[hideMode=display]:last').getScrollable().scrollTo(0, 0);
Pseudo class nth-child
can be used to find any child Component by its
position relative to its siblings. This class' handler takes one argument
that specifies the selection formula as Xn
or Xn+Y
:
// Find every odd field in a form
form.query('field:nth-child(2n+1)'); // or use shortcut: :nth-child(odd)
// Find every even field in a form
form.query('field:nth-child(2n)'); // or use shortcut: :nth-child(even)
// Find every 3rd field in a form
form.query('field:nth-child(3n)');
Pseudo classes can be combined to further filter the results, e.g., in the form example above we can modify the query to exclude hidden fields:
// Find every 3rd non-hidden field in a form
form.query('field:not(hiddenfield):nth-child(3n)');
Note that when combining pseudo classes, whitespace is significant, i.e.
there should be no spaces between pseudo classes. This is a common mistake;
if you accidentally type a space between field
and :not
, the query
will not return any result because it will mean "find field's children
Components that are not hidden fields...".
It is possible to define your own custom pseudo classes. In fact, a
pseudo class is just a property in Ext.ComponentQuery.pseudos
object
that defines pseudo class name (property name) and pseudo class handler
(property value):
// Function receives array and returns a filtered array.
Ext.ComponentQuery.pseudos.invalid = function(items) {
var i = 0, l = items.length, c, result = [];
for (; i < l; i++) {
if (!(c = items[i]).isValid()) {
result.push(c);
}
}
return result;
};
var invalidFields = myFormPanel.query('field:invalid');
if (invalidFields.length) {
invalidFields[0].getEl().scrollIntoView(myFormPanel.body);
for (var i = 0, l = invalidFields.length; i < l; i++) {
invalidFields[i].getEl().frame("red");
}
}
Pseudo class handlers can be even more flexible, with a selector argument used to define the logic:
// Handler receives array of itmes and selector in parentheses
Ext.ComponentQuery.pseudos.titleRegex = function(components, selector) {
var i = 0, l = components.length, c, result = [], regex = new RegExp(selector);
for (; i < l; i++) {
c = components[i];
if (c.title && regex.test(c.title)) {
result.push(c);
}
}
return result;
}
var salesTabs = tabPanel.query('panel:titleRegex("sales\\s+for\\s+201[123]")');
Be careful when using custom pseudo classes with MVC Controllers: when
you use a pseudo class in Controller's control
or listen
component
selectors, the pseudo class' handler function will be called very often
and may slow down your application significantly. A good rule of thumb
is to always specify Component xtype with the pseudo class so that the
handlers are only called on Components that you need, and try to make
the condition checks as cheap in terms of execution time as possible.
Note how in the example above, handler function checks that Component
has a title first, before running regex test on it.
Queries return an array of Components. Here are some example queries:
// retrieve all Ext.Panels in the document by xtype
var panelsArray = Ext.ComponentQuery.query('panel');
// retrieve all Ext.Panels within the container with an id myCt
var panelsWithinmyCt = Ext.ComponentQuery.query('#myCt panel');
// retrieve all direct children which are Ext.Panels within myCt
var directChildPanel = Ext.ComponentQuery.query('#myCt > panel');
// retrieve all grids or trees
var gridsAndTrees = Ext.ComponentQuery.query('gridpanel, treepanel');
// Focus first Component
myFormPanel.child(':canfocus').focus();
// Retrieve every odd text field in a form
myFormPanel.query('textfield:nth-child(odd)');
// Retrieve every even field in a form, excluding hidden fields
myFormPanel.query('field:not(hiddenfield):nth-child(even)');
// Retrieve every scrollable in a tabpanel
tabpanel.query(':scrollable');
For easy access to queries based from a particular Container see the Ext.container.Container#query, Ext.container.Container#down and Ext.container.Container#child methods. Also see Ext.Component#up.
The value true
causes config
values to be stored on instances using a
property name prefixed with an underscore ("_") character. A value of false
stores config
values as properties using their exact name (no prefix).
Defaults to:
true
Available since: 5.0.0
The value true
instructs the initConfig
method to only honor values for
properties declared in the config
block of a class. When false
, properties
that are not declared in a config
block will be placed on the instance.
Defaults to:
true
Available since: 5.0.0
Cache of selectors and matching ComponentQuery.Query objects
Defaults to:
new Ext.util.LruCache({ maxSize: 100 })
This property is set to true
after the destroy
method is called.
Defaults to:
false
This property is set to true
during the call to initConfig
.
Defaults to:
false
Available since: 5.0.0
This property is set to true
if this instance is the first of its class.
Defaults to:
false
Available since: 5.0.0
This value is true
and is used to identify plain objects from instances of
a defined class.
Defaults to:
true
Cache of pseudo class filter functions
Defaults to:
{ not: function(components, selector) { var i = 0, length = components.length, results = [], index = -1, component; for (; i < length; ++i) { component = components[i]; if (!cq.is(component, selector)) { results[++index] = component; } } return results; }, first: function(components) { var ret = []; if (components.length > 0) { ret.push(components[0]); } return ret; }, last: function(components) { var len = components.length, ret = []; if (len > 0) { ret.push(components[len - 1]); } return ret; }, // This filters for components which by definition and configuration are // theoretically focusable. It does not take into account the current app state. focusable: function(cmps) { var len = cmps.length, results = [], i = 0, c; for (; i < len; i++) { c = cmps[i]; if (c.isFocusable && c.isFocusable()) { results.push(c); } } return results; }, // This filters for components which are currently able to recieve focus. canfocus: function(cmps, value) { var len = cmps.length, results = [], i = 0, c; for (; i < len; i++) { c = cmps[i]; if (c.canFocus && c.canFocus(false, value)) { results.push(c); } } return results; }, "nth-child": function(c, a) { var result = [], m = nthRe.exec(a === "even" && "2n" || a === "odd" && "2n+1" || !nthRe2.test(a) && "n+" + a || a), f = (m[1] || 1) - 0, len = m[2] - 0, i, n, nodeIndex; for (i = 0; n = c[i]; i++) { // jshint ignore:line nodeIndex = i + 1; if (f === 1) { if (len === 0 || nodeIndex === len) { result.push(n); } } else if ((nodeIndex + len) % f === 0) { result.push(n); } } return result; }, scrollable: function(cmps) { var len = cmps.length, results = [], i = 0, c; for (; i < len; i++) { c = cmps[i]; // Note that modern toolkit prefixes with an underscore. if (c.scrollable || c._scrollable) { results.push(c); } } return results; }, visible: function(cmps, deep) { deep = deep === 'true'; var len = cmps.length, results = [], i = 0, c; for (; i < len; i++) { c = cmps[i]; // Note that modern toolkit prefixes with an underscore. if (c.isVisible(deep)) { results.push(c); } } return results; } }
Get the reference to the current class from which this object was instantiated. Unlike Ext.Base#statics,
this.self
is scope-dependent and it's meant to be used for dynamic inheritance. See Ext.Base#statics
for a detailed comparison
Ext.define('My.Cat', {
statics: {
speciesName: 'Cat' // My.Cat.speciesName = 'Cat'
},
constructor: function() {
alert(this.self.speciesName); // dependent on 'this'
},
clone: function() {
return new this.self();
}
});
Ext.define('My.SnowLeopard', {
extend: 'My.Cat',
statics: {
speciesName: 'Snow Leopard' // My.SnowLeopard.speciesName = 'Snow Leopard'
}
});
var cat = new My.Cat(); // alerts 'Cat'
var snowLeopard = new My.SnowLeopard(); // alerts 'Snow Leopard'
var clone = snowLeopard.clone();
alert(Ext.getClassName(clone)); // alerts 'My.SnowLeopard'
Defaults to:
Base
Visit implementation which handles both preOrder and postOrder modes.
preOrder : Object
selector : Object
root : Object
fn : Object
scope : Object
extraArgs : Object
This method applies a versioned, deprecation declaration to this class. This
is typically called by the deprecated
config.
deprecations : Object
Call the "parent" method of the current method. That is the method previously overridden by derivation or by an override (see Ext#define).
Ext.define('My.Base', {
constructor: function (x) {
this.x = x;
},
statics: {
method: function (x) {
return x;
}
}
});
Ext.define('My.Derived', {
extend: 'My.Base',
constructor: function () {
this.callParent([21]);
}
});
var obj = new My.Derived();
alert(obj.x); // alerts 21
This can be used with an override as follows:
Ext.define('My.DerivedOverride', {
override: 'My.Derived',
constructor: function (x) {
this.callParent([x*2]); // calls original My.Derived constructor
}
});
var obj = new My.Derived();
alert(obj.x); // now alerts 42
This also works with static and private methods.
Ext.define('My.Derived2', {
extend: 'My.Base',
// privates: {
statics: {
method: function (x) {
return this.callParent([x*2]); // calls My.Base.method
}
}
});
alert(My.Base.method(10)); // alerts 10
alert(My.Derived2.method(10)); // alerts 20
Lastly, it also works with overridden static methods.
Ext.define('My.Derived2Override', {
override: 'My.Derived2',
// privates: {
statics: {
method: function (x) {
return this.callParent([x*2]); // calls My.Derived2.method
}
}
});
alert(My.Derived2.method(10); // now alerts 40
To override a method and replace it and also call the superclass method, use method-callSuper. This is often done to patch a method to fix a bug.
args : Array/Arguments
The arguments, either an array or the arguments
object
from the current method, for example: this.callParent(arguments)
Returns the result of calling the parent method
This method is used by an override to call the superclass method but bypass any overridden method. This is often done to "patch" a method that contains a bug but for whatever reason cannot be fixed directly.
Consider:
Ext.define('Ext.some.Class', {
method: function () {
console.log('Good');
}
});
Ext.define('Ext.some.DerivedClass', {
extend: 'Ext.some.Class',
method: function () {
console.log('Bad');
// ... logic but with a bug ...
this.callParent();
}
});
To patch the bug in Ext.some.DerivedClass.method
, the typical solution is to create an
override:
Ext.define('App.patches.DerivedClass', {
override: 'Ext.some.DerivedClass',
method: function () {
console.log('Fixed');
// ... logic but with bug fixed ...
this.callSuper();
}
});
The patch method cannot use method-callParent to call the superclass
method
since that would call the overridden method containing the bug. In
other words, the above patch would only produce "Fixed" then "Good" in the
console log, whereas, using callParent
would produce "Fixed" then "Bad"
then "Good".
args : Array/Arguments
The arguments, either an array or the arguments
object
from the current method, for example: this.callSuper(arguments)
Returns the result of calling the superclass method
This method is called to cleanup an object and its resources. After calling this method, the object should not be used any further.
Returns a specified config property value. If the name parameter is not passed, all current configuration options will be returned as key value pairs.
name : String (optional)
The name of the config property to get.
peek : Boolean (optional)
true
to peek at the raw value without calling the getter.
Defaults to: false
The config property value.
Returns the initial configuration passed to the constructor when instantiating this class.
Given this example Ext.button.Button definition and instance:
Ext.define('MyApp.view.Button', {
extend: 'Ext.button.Button',
xtype: 'mybutton',
scale: 'large',
enableToggle: true
});
var btn = Ext.create({
xtype: 'mybutton',
renderTo: Ext.getBody(),
text: 'Test Button'
});
Calling btn.getInitialConfig()
would return an object including the config
options passed to the create
method:
xtype: 'mybutton',
renderTo: // The document body itself
text: 'Test Button'
Calling btn.getInitialConfig('text')
returns 'Test Button'.
name : String (optional)
Name of the config option to return.
The full config object or a single config value
when name
parameter specified.
Initialize configuration for this class. a typical example:
Ext.define('My.awesome.Class', {
// The default config
config: {
name: 'Awesome',
isAwesome: true
},
constructor: function(config) {
this.initConfig(config);
}
});
var awesome = new My.awesome.Class({
name: 'Super Awesome'
});
alert(awesome.getName()); // 'Super Awesome'
config : Object
this
Tests whether the passed Component matches the selector string. An empty selector will always match.
component : Ext.Component
The Component to test
selector : String
The selector string to test against.
root : Ext.Component (optional)
The root component.
Defaults to: null
True if the Component matches the selector.
Adds a "destroyable" object to an internal list of objects that will be destroyed
when this instance is destroyed (via method-destroy
).
name : String
value : Object
The value
passed.
Returns an array of matched Components from within the passed root object.
This method filters returned Components in a similar way to how CSS selector based DOM queries work using a textual selector string.
See class summary for details.
selector : String
The selector string to filter returned Components.
root : Ext.container.Container (optional)
The Container within which to perform the query. If omitted, all Components within the document are included in the search.
This parameter may also be an array of Components to filter according to the selector.
The matched Components.
Sets a single/multiple configuration options.
name : String/Object
The name of the property to set, or a set of key value pairs to set.
value : Object (optional)
The value to set for the name parameter.
this
Get the reference to the class from which this object was instantiated. Note that unlike Ext.Base#self,
this.statics()
is scope-independent and it always returns the class from which it was called, regardless of what
this
points to during run-time
Ext.define('My.Cat', {
statics: {
totalCreated: 0,
speciesName: 'Cat' // My.Cat.speciesName = 'Cat'
},
constructor: function() {
var statics = this.statics();
alert(statics.speciesName); // always equals to 'Cat' no matter what 'this' refers to
// equivalent to: My.Cat.speciesName
alert(this.self.speciesName); // dependent on 'this'
statics.totalCreated++;
},
clone: function() {
var cloned = new this.self(); // dependent on 'this'
cloned.groupName = this.statics().speciesName; // equivalent to: My.Cat.speciesName
return cloned;
}
});
Ext.define('My.SnowLeopard', {
extend: 'My.Cat',
statics: {
speciesName: 'Snow Leopard' // My.SnowLeopard.speciesName = 'Snow Leopard'
},
constructor: function() {
this.callParent();
}
});
var cat = new My.Cat(); // alerts 'Cat', then alerts 'Cat'
var snowLeopard = new My.SnowLeopard(); // alerts 'Cat', then alerts 'Snow Leopard'
var clone = snowLeopard.clone();
alert(Ext.getClassName(clone)); // alerts 'My.SnowLeopard'
alert(clone.groupName); // alerts 'Cat'
alert(My.Cat.totalCreated); // alerts 3
Destroys a given set of linked
objects. This is only needed if
the linked object is being destroyed before this instance.
names : String[]
The names of the linked objects to destroy.
this
Traverses the tree rooted at the passed root in post-order mode, calling the passed function on the nodes at each level. That is the function is called upon each node after being called on its children).
For an object to be queryable, it must implement the getRefItems
method which returns all
immediate child items.
This method is used at each level down the cascade. Currently Ext.Components and Ext.data.TreeModels are queryable.
If you have tree-structured data, you can make your nodes queryable, and use ComponentQuery on them.
selector : Object
A ComponentQuery selector used to filter candidate nodes before calling the function. An empty string matches any node.
root : String
The root queryable object to start from.
fn : Function
The function to call. Return false
to abort the traverse.
node : Object
The node being visited.
scope : Object (optional)
The context (this
reference) in which the function is executed.
extraArgs : Array (optional)
A set of arguments to be appended to the function's argument list to pass down extra data known to the caller after the node being visited.
Traverses the tree rooted at the passed root in pre-order mode, calling the passed function on the nodes at each level. That is the function is called upon each node before being called on its children).
For an object to be queryable, it must implement the getRefItems
method which returns all
immediate child items.
This method is used at each level down the cascade. Currently Ext.Components and Ext.data.TreeModels are queryable.
If you have tree-structured data, you can make your nodes queryable, and use ComponentQuery on them.
selector : Object
A ComponentQuery selector used to filter candidate nodes before calling the function. An empty string matches any node.
root : String
The root queryable object to start from.
fn : Function
The function to call. Return false
to abort the traverse.
node : Object
The node being visited.
scope : Object (optional)
The context (this
reference) in which the function is executed.
extraArgs : Array (optional)
A set of arguments to be appended to the function's argument list to pass down extra data known to the caller after the node being visited.
Adds new config properties to this class. This is called for classes when they are declared, then for any mixins that class may define and finally for any overrides defined that target the class.
config : Object
mixinClass : Ext.Class (optional)
The mixin class if the configs are from a mixin.
Add methods / properties to the prototype of this class.
Ext.define('My.awesome.Cat', {
constructor: function() {
...
}
});
My.awesome.Cat.addMembers({
meow: function() {
alert('Meowww...');
}
});
var kitty = new My.awesome.Cat();
kitty.meow();
members : Object
The members to add to this class.
isStatic : Boolean (optional)
Pass true
if the members are static.
Defaults to: false
privacy : Boolean (optional)
Pass true
if the members are private. This
only has meaning in debug mode and only for methods.
Defaults to: false
Add / override static properties of this class.
Ext.define('My.cool.Class', {
...
});
My.cool.Class.addStatics({
someProperty: 'someValue', // My.cool.Class.someProperty = 'someValue'
method1: function() { ... }, // My.cool.Class.method1 = function() { ... };
method2: function() { ... } // My.cool.Class.method2 = function() { ... };
});
members : Object
this
Borrow another class' members to the prototype of this class.
Ext.define('Bank', {
money: '$$$',
printMoney: function() {
alert('$$$$$$$');
}
});
Ext.define('Thief', {
...
});
Thief.borrow(Bank, ['money', 'printMoney']);
var steve = new Thief();
alert(steve.money); // alerts '$$$'
steve.printMoney(); // alerts '$$$$$$$'
fromClass : Ext.Base
The class to borrow members from
members : Array/String
The names of the members to borrow
this
Create a new instance of this Class.
Ext.define('My.cool.Class', {
...
});
My.cool.Class.create({
someConfig: true
});
All parameters are passed to the constructor of the class.
the created instance.
Create aliases for existing prototype methods. Example:
Ext.define('My.cool.Class', {
method1: function() { ... },
method2: function() { ... }
});
var test = new My.cool.Class();
My.cool.Class.createAlias({
method3: 'method1',
method4: 'method2'
});
test.method3(); // test.method1()
My.cool.Class.createAlias('method5', 'method3');
test.method5(); // test.method3() -> test.method1()
alias : String/Object
The new method name, or an object to set multiple aliases. See flexSetter
origin : String/Object
The original method name
Returns the Ext.Configurator
for this class.
Get the current class' name in string format.
Ext.define('My.cool.Class', {
constructor: function() {
alert(this.self.getName()); // alerts 'My.cool.Class'
}
});
My.cool.Class.getName(); // 'My.cool.Class'
className
Used internally by the mixins pre-processor
name : Object
mixinClass : Object
Override members of this class. Overridden methods can be invoked via Ext.Base#callParent.
Ext.define('My.Cat', {
constructor: function() {
alert("I'm a cat!");
}
});
My.Cat.override({
constructor: function() {
alert("I'm going to be a cat!");
this.callParent(arguments);
alert("Meeeeoooowwww");
}
});
var kitty = new My.Cat(); // alerts "I'm going to be a cat!"
// alerts "I'm a cat!"
// alerts "Meeeeoooowwww"
Direct use of this method should be rare. Use Ext.define instead:
Ext.define('My.CatOverride', {
override: 'My.Cat',
constructor: function() {
alert("I'm going to be a cat!");
this.callParent(arguments);
alert("Meeeeoooowwww");
}
});
The above accomplishes the same result but can be managed by the Ext.Loader which can properly order the override and its target class and the build process can determine whether the override is needed based on the required state of the target class (My.Cat).
members : Object
The properties to add to this class. This should be specified as an object literal containing one or more properties.
this class