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.
Apache Cordova provides APIs and packaging tools that create applications for Android, iOS, BlackBerry, and Windows Phone devices. Sencha Cmd 5+ provides a build system that supports multiple build profiles. This is ideal for native packaging. The Cordova Native Packager components have been updated to take full advantage of this feature.
PhoneGap is built on top of Cordova and both have access to the Cordova API. PhoneGap and Cordova differ by how their packaging tools are implemented. PhoneGap provides a remote building interface at Adobe PhoneGap Build that lets you package and emulate an application for a single platform in the cloud. The PhoneGap Native Packager components have been updated to take full advantage of this feature.
When choosing between Cordova and PhoneGap, it's important to note a few things:
Every app generated with Sencha Cmd has the ability to build for native platforms through these services. Sencha Cmd will take care of all the repetitive tasks, such as building your app, getting it in the proper place for Cordova or PhoneGap, and running the proper commands to build, emulate, or run your application.
For more information on getting started with native development, please see the Apache Cordova Platform Guides. These guides provide getting started information and prerequisites needed to get your system up and running.
packager.json
has been fully removed. If your project still contains this file, you may
safely remove it. This file was only used by Sencha's legacy Native Packager.
For Cordova and PhoneGap, Sencha Cmd can only create DEBUG versions of applications, not a Release (for an app store) version. To create release versions, you must use a packager, such as Eclipse or IntelliJ for Android, and Xcode for iOS.
You must have Java JRE 1.8 for the Sencha Cmd Cordova commands to work properly. While Sencha Cmd 6 and later for Windows and Mac OS X can be downloaded with a current JRE in their default installers, the Cordova tools will not find and utilize Sencha Cmd's internal JRE.
Before developing a Cordova or PhoneGap application, you will need to get your environment set up with the following software:
JRE Version 8 through OpenJDK 11 are supported.
If you want to package and emulate with Cordova, install it with the following command:
npm install -g cordova
If you're on a Mac, you may need to include "sudo" in order to complete the installation.
The command would then be:
sudo npm install -g cordova
Note: Whether or not you install Cordova to package and emulate your app, the Cordova API is available to your application. Cordova packaging and emulation does not affect the use of the Cordova APIs in a Cordova or PhoneGap app.
If you want to package and emulate with PhoneGap, install it with the following command:
npm install -g phonegap
If you're on a Mac, you may need to include "sudo" in order to complete the installation.
The command would then be:
sudo npm install -g phonegap
Note: You must register with the free Adobe PhoneGap Build site and obtain a username and password to access the PhoneGap remote building site.
Download and install Sencha Cmd.
For more information about this process, please check out the Cmd Intro Guide.
Check and satisfy target device platform-specific requirements:
Android: Download and install the Android SDK Manager.
Blackberry: Review the BlackBerry Native SDK and register to sign your apps with the BlackBerry Keys Order Form.
iOS: Complete all of the steps for iOS provisioning on the Apple iOS provisioning profiles portal (requires an Apple ID, password, and a purchased developer license). Use this site to obtain a certificate, identify devices, and get an AppID.
In addition, download and install the free Xcode software. You can use the Xcode simulator to debug your iOS app before installing it on a device.
When you create a PhoneGap or Cordova app, they will both will create a config.xml
file
for your project.
Cordova stores config.xml
in your "app_root/cordova" folder, while PhoneGap stores the
config.xml
file in your "app_root/cordova/www" folder. This is a problem because the
www
folder is the destination for the compiled build. It is very likely that this www
folder will get deleted and wipe out the config.xml
file.
To remedy this in Sencha Cmd, we copy the config.xml
file to the root of the PhoneGap project
when a PhoneGap application is created. Every time you do a build, we then copy it back
into the www
folder along with the compiled application. This means that users can expect
the config.xml
file to be in the root of the Cordova or PhoneGap folder regardless of
which framework you use.
For more information about configuring PhoneGap and Cordova, please review the following resources:
Create your application using Cmd's generate command like this:
sencha -sdk /path/to/extjs-framework generate app MyApp /path/to/MyApp
Initialize your Cordova or PhoneGap app like this:
Navigate to your newly generated project folder and run one of the following commands
(APP_ID and APP_NAME arguments optional).
sencha phonegap init com.mycompany.MyApp MyApp
or
sencha cordova init com.mycompany.MyApp MyApp
You should now see a phonegap or cordova directory in the project folder after the above
command completes.
If you created an Ext JS 6+ universal application, the generated application will already contain
a builds block in app.json
. When your application already contains a builds block
the sencha phonegap/cordova init
command will not be able to modify your app.json
. To
add Cordova support please modify your application's app.json
builds object to add Cordova integration.
The following example shows how to modifty the modern
build profile:
"builds": {
"classic": {
"toolkit": "classic",
"theme": "theme-triton"
},
"modern": {
"toolkit": "modern",
"theme": "theme-cupertino",
"packager": "cordova",
"cordova": {
"config": {
"platforms": "ios",
"id": "com.mydomain.MyApp"
}
}
}
}
You can modify any of the existing profiles. You can also create a new profile and call it what you like. Below is an example of a custom build profile with Cordova integration:
"cordova_android": {
"packager": "cordova",
"toolkit": "modern",
"theme": "theme-neptune",
"cordova" : {
"config": {
"platforms": "android",
"id": "com.mycompany.test",
"name": "test"
}
}
}
If you didn't generate a universal application you will see a builds object in your app.json
.
This file was created for you when you ran the sencha cordova init
command.
You should now see a build profile with PhoneGap or Cordova integration in your project's app.json
file.
Note that app.json
is located at the root of your project.
Locate and confirm that a build object similar to the following is present in your app.json
file.
"builds": {
"native": {
"packager": "cordova",
"cordova" : {
"config": {
"platforms": "android",
"id": "com.mydomain.MyApp"
}
}
}
}
If you decided to create your own custom build profile OR are using the generated "native" profile, you will need to manually specify which profile should be used in the creation of your app's manifest. To do this, do the following:
Ext.manifest = profile
.
// Add this line
profile = 'your_custom_profile_name here';
// Add your code above this line
Ext.manifest = profile;
Note Make sure the profile you use here is used in the Sencha Command commands listed in the next section.
Let's talk a bit about these build profiles.
In the latter example, t is worth noting that the word "native" is simply your build's name and can be anything you like. Build names must be a single string, containing only alphanumeric characters with no spaces. For example you could have a build name like "ios", "android", "iphone", "ipad", etc.. If you generated a universal app you'll see other build profiles like "modern" and "classic". You will use the name of your build profile when to build, emulate, package, etc.
Note: While you may choose anything for a build name, the names "production", "testing" and "development" are reserved by Sencha Cmd and should not be used in this context.
Note: You must specify which build profile you want to build when you are executing the build, emulate, etc. commands.
You can set the platforms object to be any platform, or combination of platforms. For Cordova, you can specify a space delimited list, for example "ios android".
The "id" property will be used when the Cordova application is first generated. This will be the identifier for your application. That said, you will want to make sure you have picked this correctly. If you need to change it, you will want to delete the Cordova folder from your project and let Cmd regenerate it after you have changed the ID property. This is especially important for iOS application as this must match your Bundle Identifier.
From the terminal or command line run the following command:
sencha app build {build-profile-name}
Where {build-profile-name} is one of the names defined in the build object of your app.json
file.
For example if you called your cordova build profile "android" the command would be:
sencha app build android
That's it! Sencha Cmd will now create a Cordova application and build the platform you
specified via the platforms property in app.json
. Remember you must have the appropriate SDKs and
supporting tools (Like Android Studio, Gradle, etc. for Android and Xcode for iOS) in order to build
successfully. Cordova is kind enough to explain things to you if you are missing a dependency.
There are 4 commands you are able to use with Cordova and this new build object.
Note {build-profile-name} must be set to the name of your Cordova build profile.
sencha app build {build-profile-name}
The "build" command will build your Sencha application and a native application for the platform(s) specified in your build profile.
sencha app run {build-profile-name}
"run" will build your Sencha application and your native application. It will then attempt to run it on a connected device.
sencha app emulate {build-profile-name}
"emulate" will build your Sencha application and your native application. It will then attempt to run it in a emulator.
Note If you run into issues with consecutive deployments using Android Studio / ADV / Emulator you can always note the path to the generated APK when this command is done running. You can use ADB to install this on your emulator and run it. To install your apk execute the following command:
adb install /path/to/apk/app-debug.apk
sencha app prepare {build-profile-name}
"prepare" will build your Sencha application, then prepare the built application into the native app. However, it will not build the native portion. This is good if you need to inject things into your application after sencha compile and before the native build.
PhoneGap is very similar to Cordova. In fact, the process is almost identical if you are not building via the PhoneGap cloud services.
If you are working on a universal app, you may modify an existing build profile to support PhoneGap or you can create your own file. You can follow the same steps listed in the above Cordova section.
Here is a snippet for app.json
that would give you a PhoneGap project identical to the
Cordova project above.
"builds": {
"native": {
"packager": "phonegap",
"phonegap" : {
"config": {
"platform": "ios",
"id": "com.mydomain.MyApp"
}
}
}
}
There are only a few minor, but important, differences.
The name changes from "cordova" to "phonegap".
"platform" is singular not "platforms". PhoneGap only allows you to build one local platform at a time, whereas Cordova allows for multiple simultaneously.
Once you recognize these small differences, it's the same commands as above. You can simply
run sencha app build native
or sencha app run native
and you will be on the same path
as Cordova.
There are 3 commands you may use with PhoneGap and this new build object. PhoneGap does
not support the prepare
command found in Cordova. sencha app prepare native
will throw
an error if you are using PhoneGap. The other three are the same as the Cordova
commands above.
sencha app build {build-profile-name}
"build" will build your sencha application and then build a native application.
sencha app run {build-profile-name}
"run" will build your sencha application and your native application. It will then attempt to run it on a connected device.
sencha app emulate {build-profile-name}
"emulate" will build your sencha application and your native application. It will then attempt to run it in a emulator.
Building your PhoneGap application in the cloud has numerous advantages. You do not need to go through the normal hassle of downloading all the SDKs and tools for your machine. You can simply send your web app to the PhoneGap servers and Adobe will generate a native application for you.
Before you get started with Sencha Cmd and remote building, you will want to visit http://build.phonegap.com and sign up for a free account.
You can test the build process by simply uploading a zip that contains a index.html
file. PhoneGap Remote Build will then package it for you.
If you are building for iOS, you will need to follow the instructions on the site to add the proper credentials to build your application.
Once you feel confident that your account is setup and you have all the correct files uploaded to Adobe, you can quickly add remote building to your Sencha workflow.
Let's take a look at a build object for remote deployment.
"builds": {
"native": {
"packager": "phonegap",
"phonegap" : {
"config": {
"platform": "ios",
"remote": true,
"id": "com.mydomain.MyApp"
}
}
}
}
As you can see, it is very simple to switch from local to remote building. All you need
to do is add the remote flag to your app.json
builds block.
The next step is to provide your username and password so that Sencha Cmd can automatically log you in to the PhoneGap remote servers and upload your project.
To do this, we recommend adding a local.properties
file to your application's root. For
security purposes, this properties file should be ignored by all forms of version control.
Add the following lines to that file:
[email protected]
phonegap.password=s3nch@isgr3@t
Once you have configured your username and password, sending off a build is simple. Just
run sencha app build native
and your application will be compiled and shipped up to the
cloud for Adobe to generate your native application.
After the build is complete, you may access the final package file through the PhoneGap portal for testing on devices, or for uploading to applicable app stores.