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Terms, Icons, and Labels

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.

Access Levels

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.

Member Types

Member Syntax

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).

lookupComponent ( item ) : Ext.Component

Called when a raw config object is added to this container either during initialization of the items config, or when new items are added), or {@link #insert inserted.

This method converts the passed object into an instanced child component.

This may be overridden in subclasses when special processing needs to be applied to child creation.


item :  Object

The config object being added.


The component to be added.

Let's look at each part of the member row:

Member Flags

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.

Class Icons

- 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

Member Icons

- 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

Class Member Quick-Nav Menu

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.

Getter and Setter Methods

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.

History Bar

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.

Search and Filters

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.

API Doc Class Metadata

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:

Expanding and Collapsing Examples and Class Members

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.

Desktop -vs- Mobile View

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:

Viewing the Class Source

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.

Ext JS 7.6.0


Theming Ext JS

The default themes available with Ext JS can be used out of the box to create clean, professional looking applications. You may wish to provide your own styling, however, to match your personal design aesthetic or that of an existing enterprise design.

Note: You can build custom themes with our graphical tool Sencha Themer.

Historically, styling an application meant creating style sheets with rules to tweak or decorate individual HTML elements used in the rendering of a component. Several issues arise with this approach. The first being that you're now burdened with styling across all supported browsers. Secondly, as the framework evolves the component's underlying elements may change, leaving you with the unpleasant task of chasing the changes in your style rules. Styling components using the Ext JS Theming API solves these problems for you.

Themes may be shared across any number of Ext JS applications in the workspace (a workspace is a simple file-system structure defined by Sencha Cmd). Themes allow you to style once and apply that styling over and over with confidence in the consistency of your applications' look and feel.

This guide lists the requirements necessary for theming and covers the basics for creating a custom theme. Since many of the details differ based on whether you are using the classic or modern toolkit, this guide focuses on the common principals. The specifics are found in these guides: Theming The Ext JS Modern Toolkit and Theming The Ext JS Classic Toolkit.


Sencha Cmd 6.5+

Sencha Cmd is a command-line tool used to package and deploy Ext JS applications. To build a theme in Ext JS 6.5+, you must have Sencha Cmd 6.5 or higher installed on your computer. For more information about installing and getting started with Sencha Cmd see Introduction to Sencha Cmd.

Java JRE

The Java JRE is required to run Sencha Cmd. Whenever possible, we recommend running the latest version of the JRE (version 1.8 as this is written). Version 1.7 or newer, however, is required to run sencha app watch. This command is run within the application directory and updates the compiled theme automatically as you modify the theme source. Sencha Cmd has installers with the JRE included or as a stand-alone installer without the JRE. If you do not already have a suitable JRE, we recommend using the installer with JRE if one is available for your platform.

Note: Without Java JRE 1.7+ and sencha app watch you will need to manually rebuild your application's styling after each change using sencha app build --development.

Ext JS

Custom themes are based on default themes included with the Ext JS SDK. Download Ext JS and extract the Ext JS development kit (SDK) to a location of your choosing. We recommend a folder in your home directory called sencha-sdks.

Building a Custom Theme

Once you have installed the above requirements, you can proceed to create your custom theme. A theme is simply a specific type of Sencha Cmd package. All packages can contain JavaScript, CSS styles and resources that will be incorporated into apps when Sencha Cmd builds them. As we will see, theme packages take advantage of all of these types of assets.

Create The Workspace

Workspaces are Sencha Cmd's way of connecting applications (as well as themes or other code packages) with a shared copy of the Ext JS framework. If you only have one application to build, Sencha Cmd can combine the workspace and application in a single directory.

For this tutorial we'll create a workspace so that the custom theme is accessible to multiple applications. Run the following command from the directory where you want to create your workspace (e.g., "my-workspace"):

$ sencha workspace init
$ sencha framework add ~/sencha-sdks/ext-7.1.0

On Windows, replace ~/sencha-sdks/ with %USERPROFILE%\sencha-sdks\. If you have chosen a different path, then use the appropriate path here.

The sencha workspace init command will create the scaffolding for a Sencha workspace in the current directory. The sencha framework add command copies the necessary files from the Ext JS SDK into the workspace so that the theme and applications can find these dependencies.

This workspace is where your custom theme package will live. You will also create applications here that will use your custom theme. After running the above commands, you will find these files in your workspace directory:

  • ext65/ - The Ext JS SDK (populated by sencha framework add).
  • workspace.json - The configuration descriptor for the workspace.
  • .gitignore - A starter file to keep your Git repository clean.

Generate The Theme Package

Sencha Cmd streamlines the process of creating a custom theme by generating a theme package containing all the necessary files. Follow these steps to generate your theme:

  1. Run: sencha generate workspace/path/to/workspace
  2. Go to workspace Dir.
  3. Run: sencha -sdk ../ext generate app NewExtApp new-app
  4. Run: sencha workspace init
  5. cd new-app
  6. Run: sencha generate theme my-theme

This tells Sencha Cmd to generate a theme package named my-theme in the packages/local directory of the workspace. Let's take a look at the default contents of the custom theme folder:

  • "package.json" - This is the package definition file. It tells Sencha Cmd certain things about the package like its name and dependencies (i.e., the packages it requires).
  • "sass/" - This directory contains all of your theme's Fashion source files. The source files are divided into 4 main sections:
    • sass/var/ - Variable definitions organized by class name.
      • sass/var/all.scss - Global variable settings.
    • sass/src/ - Rules and UI mixin calls using variables defined in sass/var.
    • sass/etc/ - Additional utility functions or mixins.
    • sass/example - Used Sencha Cmd to perform image slicing for IE8/9 (do not delete). (Classic Only)
  • "resources/" - Images and other static resources.
  • "overrides/" - JavaScript overrides to Ext JS component classes.

The files and folders in sass/src and overrides should be organized to match the component class name that you are styling or overriding. For example, theme code related to Ext.panel.Panel should be placed in a file named sass/src/panel/Panel.scss. It is important to place mixin calls and style rules in the appropriate file based on the associated class so that Sencha Cmd can include only the code needed by the application in a build.

The same organization can be applied to sass/var/. Alternatively, you may choose to just use the sass/var/all.scss file if you only have a small number of variables to set. Because setting variables does not impact the size of the generated CSS, the choice between keeping all theme variables in a single file or splitting across multiple files organized by class name is a matter of personal preference or project guidelines.

Configuring Theme Inheritance

All Sencha theme packages are part of a larger hierarchy of themes. Each theme package extends a parent or base theme. The next step in creating your custom theme is to select which theme to extend. Ext JS ships with several themes for each toolkit:

Modern Toolkit

  • theme-material - Material Design theme.
  • theme-ios - iOS Theme.
  • theme-triton - Modern flat, borderless theme.
  • theme-neptune - Modern borderless theme.

Classic Toolkit

  • theme-triton - Modern theme using font-icons. Extends "theme-neptune".
  • theme-crisp - Minimalistic Theme. Extends "theme-neptune".
  • theme-crisp-touch - Crisp-Based Touch Theme. Extends "theme-crisp".
  • theme-neptune - Modern borderless theme.
  • theme-neptune-touch - Neptune-Based Touch Theme. Extends "theme-neptune".
  • theme-classic - The classic blue Ext JS theme.
  • theme-gray - Gray theme. Extends "theme-classic".

Which theme should your custom theme extend? For the modern toolkit, we recommend using theme-material or theme-triton, while for the classic toolkit, we recommend using theme-triton, theme-crisp or theme-neptune as the starting point for custom themes (or perhaps theme-neptune-touch or theme-crisp-touch when theming for tablets). These themes contain all the code necessary for creating an attractive theme out of the box.

The theme-base and (in classic) theme-neutral themes should be thought of as abstract and should not be extended directly.

In this tutorial we will create a custom theme that extends theme-triton. The first step is to configure your custom theme with the name of the theme it is extending. This is done by changing the extend property in packages/local/my-theme/package.json from its default value to the desired value:

"extend": "theme-triton"

Your custom theme is now configured to use the Triton theme as a base. Your custom theme starts off as identical to the default Triton theme. In the following steps you'll make your own changes to begin to differentiate your custom theme.

Building The Theme

Building the theme creates a build directory in your theme package directory. Inside my-theme/build/resources you will find a file named my-theme-all.css. This file contains all the style rules for all Ext JS components for your theme. The built theme's files contain all the styles for every Ext JS component and is useful for applications that do not use Sencha Cmd.

Note: It is not necessary to build a theme when that theme is used in a Sencha Cmd application. When Sencha Cmd builds an application it incorporates the .js and .scss files needed directly from the theme's sources.

Generate A Test Application

To rapidly develop and test our custom theme we need to host it in an Ext JS application. The application should be setup to use the modern or classic toolkit as appropriate for your needs. To create the application, run these commands from the workspace directory:

$ mkdir demo-app
$ cd demo-app

$ sencha app init --ext65 --modern App
  -- or --
$ sencha app init --ext65 --classic App

Configure The Application's Theme

To configure the test application to use your custom theme, find the line that sets "theme" in demo-app/app.json and change it to be:

"theme": "my-theme",

Watch The Application

Sencha Cmd has now generated an application named App in this sub-directory. Going forward, we'll be making changes to the theme and sample application. We'll want Sencha Cmd to detect these changes and automatically compile them into the output CSS used by the application. To accomplish this, run the following command:

$ sencha app watch --fashion

Reminder: The sencha app watch command requires Java JRE 1.7 or higher. If you are unable to run sencha app watch you'll need to run sencha app build --development after each change to the theme. For brevity, we'll assume you are running sencha app watch.

After running sencha app watch you can load your application in the browser using the URL:


The --fashion switch will instruct the browser to refresh the styling within the application as you make changes to the application's theme - often in under a second!

Note: Live updates using --fashion are supported on modern browsers only. Most changes to styling in the theme will update near real time with no browser refresh required. However, theme changes that modify a component's dimensions may require a manual browser refresh.

The Theme API

Ext JS Classic and Modern toolkits have the same fundamental approach to their API: they define variables to configure the default appearance of components and they provide mixins that can generate custom appearances. These custom appearances are assigned names of your choice and these names are applied to component instances using the ui config property. Due to this relationship to the ui config, these mixins are often called "UI mixins" or "theme mixins".

The names of these variables differ by toolkit, but there are some common variables like $base-color that apply to both. For the complete list of variables see Global_CSS.

In the Classic toolkit, the ui config is a single string (such as "custom"). This string keys to the output of the mixin call where this name was specified. In the Modern toolkit, the ui config is more like a CSS class. It can be a space-separated set of names. Each name maps to the name passed to a mixin call, but the outcome of these calls is much more composable. For more details on the ui config, please consult the appropriate toolkit theme guide and API documentation.

Configuring Theme Variables

Let's start by modifying the $base-color which is a value from which many Ext JS components' colors are derived. Due to the use of $base-color through the default themes, making a global change to $base-color will have an effect on most all components in the Ext JS library.

Create the file packages/local/my-theme/sass/src/Component.scss and add the following code:

$base-color: #317040;

The value of $base-color must be a valid HTML color code; see the HTML Color Codes web page.

At this time you should see the green color we specified earlier as $base-color applied to the components on the screen.

Note: Theme variables are all defined as dynamic and so the dynamic() declaration is not needed to set them (as show above). If you want to define your own variables, however, we recommend making them dynamic:

$my-custom-color: dynamic(red);

Theme JS Overrides

Sometimes a theme needs to change an aspect of a component that is only configurable via JavaScript. This is easily accomplished by adding a JavaScript override to your theme package. To demonstrate how this is done, let's change the titleAlign config of Panels in the custom theme. Create a new file named my-theme/overrides/panel/Panel.js and add the following code:

Ext.define('MyTheme.panel.Panel', {
    override: 'Ext.panel.Panel',
    titleAlign: 'center'

When you view the application in the browser you'll notice that all Panel headers have centered titles. Although any Ext JS component config can be overridden in this manner, best practice is to only use overrides to change configs that affect the visual appearance (and not the functionality) of a component.

Modifying Image Assets

All required image assets are inherited from the parent theme by default, but in some cases you may need to override an image. This can be easily done by placing the desired image in my-theme/resources/images/ and giving it the same name as the image it is intended to override from the base theme.

In many modern themes like theme-triton there are few if any images. These themes use vector font icons. Therefore the images you can supplant in this way is specific to your choice of base theme.

Adding Custom Utilities

If your theme requires functions or mixins that are not related to component styling (e.g. utilities), these should be placed in the theme's my-theme/sass/etc directory.

You can organize files in this directory however you like, but the only file that Sencha Cmd includes in the build is my-theme/sass/etc/all.scss. Any other files must be imported (@import) by the all.scss file. For an example that follows this pattern see ext/classic/theme-base/sass/etc/.

Styling Your Application

Styling that is not shared between applications belongs in the application itself, not in the theme. Sencha Cmd provides an easy way to add application-level styling by allowing you to organize your styles right alongside your JavaScript code.

Styling Your Application's Views

To write CSS rules associated with an application view, you create an .scss file in the same folder and with the same base name as the view. For example, to style the view App.view.main.Main, you may can add Main.scss to that folder:


While the ability to add arbitrary CSS styles offers maximum flexibility, it is best to avoid directly styling elements owned by Ext JS components. Instead these should be styled using the Ext JS Theming API whenever possible. Using the theming API safeguards your styling against breaking markup changes in future versions of Ext JS.

Changing Theme Variables In Your Application

The application acts as the final level in the theme hierarchy. As such, applications can change theme variables.

Let's continue using the demo-app application created above and override the theme's $base-color in the application. Create the Application.scss file:


The Application.scss file is an easy option for global settings since it matches with the global nature of the Application class. And add the following to this file:

$base-color: #724289;

View the application in a browser and you will see that the base color has changed to purple.

Theming In An Application

To do significant theme work in an application, you should create a sass folder structure in the same manner as a theme and inform Sencha Cmd that your styles apply to all namespaces (not just the application). The code that would normally be in the theme's sass folder can then be placed in the application's sass folder.

The Sass Namespace

When Sencha Cmd builds your styles, it looks at all the JavaScript classes that are used in the application. It then includes all .scss files that coincide with these classes. This process uses the sass.namespace to align a class name (such as Ext.button.Button) with files on disk for a package, theme or application.

For example, in a theme you might have the file sass/var/button/Button.scss as well as the file sass/src/button/Button.scss. These files will be considered matches because the default sass.namespace for a theme is Ext.

The default sass.namespace for an application, however, is its own namespace (App). This means Sencha Cmd will not recognize demo-app/sass/var/button/Button.scss as a match for the Ext.button.Button class. Instead that would match App.button.Button. To include files that match all namespaces, you need to set sass.namespace to the empty string in app.json:

"sass": {
    "namespace": ""

Once this change is made, Sencha Cmd will match demo-app/sass/var/Ext/button/Button.scss and demo-app/sass/src/Ext/button/Button.scss to Ext.button.Button.

This also means that if you want to use the sass folder to organize styles for your views, you will need to use App sub-folders. For example sass/src/App/view/main/Main.scss is the path that will match App.view.main.Main. While this was the pattern in previous releases, and is still supported, placing view styles in .scss files that reside next to their .js file (as descried previously) is a more maintainable structure going forward.

Organization Of Generated Styles

Sencha Cmd combines the styling from your theme, your application and from any required packages (see the Sencha Cmd Packages guide) when it compiles your application. It is important to understand the way Sencha Cmd combines these files so that you know what you can use from your theme or required packages and when these things will be available.

The structure of the all.scss file is this:

| inclusion flags                       |
|           |           | base          |
|           | theme     +---------------+
|           |           | derived       |
|           +-----------+---------------+
|           |                           |
|    etc    | packages (dep order)      |
|           |                           |
|           +---------------------------+
|           |                           |
|           | application               |
|           |                           |
|           |           | base          |
|           | theme     +---------------+
|           |           | derived       |
|           +-----------+---------------+
|           |                           |
|    var    | packages (dep order)      |
|           |                           |
|           +---------------------------+
|           |                           |
|           | application               |
|           |                           |
|           |           | base          |
|           | theme     +---------------+
|           |           | derived       |
|           +-----------+---------------+
|           |                           |
|    src    | packages (dep order)      |
|           |                           |
|           +---------------------------+
|           |                           |
|           | application (*)           |
|           |                           |

    * - Includes application styles that are placed
        next to their corresponding .js files.

Inside the bands for sass/var and sass/src, the individual .scss files for a given theme, package and the application are always ordered to match the JavaScript class hierarchy. For example, if the base theme had .scss files for Ext.Container and Ext.Component in its sass/var folder, the file for Ext.Component would be included before the file for Ext.Container since it extends Ext.Component.

The goals and rationale for this structure are as follows:

  • In sass/etc are utilities and the like:
    • Utilities from base themes are available to derived themes.
    • Package utilities can use facilities provided by the current theme.
    • Application utilities are able to use their theme and any required packages.
  • In sass/var, the concerns are variable control and derived calculation.
    • Themes come first so that they set values for their variables.
    • Derived theme can change variables since they follow their base themes.
    • Package variables are introduced in their package dependency order.
    • Applications come last so that their vars will override themes and packages.
  • For sass/src this order yields the proper cascade of rules so that:
    • Derived theme rules win over rules from their base theme(s).
    • Application rules cascade in last so that they always have the final authority.

Inclusion Flags

The inclusion flag variables are a set of read-only variables defined to be true or false for each JavaScript class that may be included. The value of this variable is true if that class is being included in the application build. The variables are created dynamically by Sencha Cmd with a prefix of $include- followed by the full class name with its parts separated by - instead of . and all in lowercase. For example, if the build uses Ext.Img, you can test for true within a custom mixin:

@if $include-ext-img {
    // styling contingent upon the presence of Ext.Img in the app

Note: Through most of the guide we advocate for the use of sencha app watch to build your application incrementally as changes are made to both the application and the custom theme. However, the $include- variables are all set to true in development (which is the environment sencha app watch operates within). In order to test your theme's use of $include- variable checks you'll need to build your application for testing or production:

$ sencha app build --testing
$ sencha app build --production

Sharing A Theme Between Applications

It's easy to share the theme you've just built with a second application. Simply navigate to the workspace directory and run the following command (note: if you're following along using the steps above and have sencha app watch running you'll first need to end it using Ctrl+C):

$ mkdir another-app
$ cd another-app

$ sencha app init --ext65 --modern (or --classic) AnotherApp

This tells Sencha Cmd to generate an app in the another-app directory named AnotherApp and to use the same Ext JS SDK as the first app you created.

The next step is to tell the app to use the custom theme. Edit another-app/app.json and change the theme to:

"theme": "my-theme",

To ensure changes to the app and theme are picked up as you make them again change your working directory to the application directory and run:

$ sencha app watch --fashion

When you view the another-app/index.html page in your browser you will now see a starter app that uses the same custom theme as App.

Next Steps

That covers the general concepts and common practices for all Ext JS themes. For specifics on each toolkit, see these guides for Theming The Ext JS Modern Toolkit and Theming The Ext JS Classic Toolkit.

Ext JS 7.6.0