If the previous few chapters have achieved their objective, it should now be a little clearer as to the importance of saving and restoring the state of a user interface at particular points in the lifetime of an activity.

In this chapter, we will extend the example application created in “Android Activity State Changes by Example” to demonstrate the steps involved in saving and restoring state when an activity is destroyed and recreated by the runtime system.

A key component of saving and restoring dynamic state involves the use of the Android SDK Bundle class, a topic that will also be covered in this chapter.

An activity, as we have already learned, is given the opportunity to save dynamic state information via a call from the runtime system to the activity’s implementation of the onSaveInstanceState() method. Passed through as an argument to the method is a reference to a Bundle object into which the method will need to store any dynamic data that needs to be saved. The Bundle object is then stored by the runtime system on behalf of the activity and subsequently passed through as an argument to the activity’s onCreate() and onRestoreInstanceState() methods if and when they are called. The data can then be retrieved from the Bundle object within these methods and used to restore the state of the activity.

In the previous chapter, the diagnostic output from the StateChange example application showed that an activity goes through a number of state changes when the device on which it is running is rotated sufficiently to trigger an orientation change.

Launch the StateChange application once again, this time entering some text into the EditText field prior to performing the device rotation (on devices or emulators running Android 9 or later it may be necessary to tap the rotation button in the located in the status bar to complete the rotation). Having rotated the device, the following state change sequence should appear in the Logcat window:

onPause

onStop

onSaveInstanceState

onDestroy

onCreate

onStart

onRestoreInstanceState

onResume

Clearly this has resulted in the activity being destroyed and re-created. A review of the user interface of the running application, however, should show that the text entered into the...

For situations where state needs to be saved beyond the default functionality provided by the user interface view components, the Bundle class provides a container for storing data using a key-value pair mechanism. The keys take the form of string values, while the values associated with those keys can be in the form of a primitive value or any object that implements the Android Parcelable interface. A wide range of classes already implements the Parcelable interface. Custom classes may be made “parcelable” by implementing the set of methods defined in the Parcelable interface, details of which can be found in the Android documentation at:

https://developer.android.com/reference/android/os/Parcelable.html

The Bundle class also contains a set of methods that can be used to get and set key-value pairs for a variety of data types including both primitive types (including Boolean, char, double and float values) and objects (such as Strings and...

The first step in extending the StateChange application is to make sure that the text entered by the user is extracted from the EditText component within the onSaveInstanceState() method of the MainActivity activity, and then saved as a key-value pair into the Bundle object.

In order to extract the text from the EditText object we first need to identify that object in the user interface. Clearly, this involves bridging the gap between the Java code for the activity (contained in the MainActivity.java source code file) and the XML representation of the user interface (contained within the activity_main.xml resource file). In order to extract the text entered into the EditText component we need to gain access to that user interface object.

Each component within a user interface has associated with it a unique identifier. By default, the Layout Editor tool constructs the id for a newly added component from the object type. If more than one view of the same...

The saved dynamic state can be restored in those lifecycle methods that are passed the Bundle object as an argument. This leaves the developer with the choice of using either onCreate() or onRestoreInstanceState(). The method to use will depend on the nature of the activity. In instances where state is best restored after the activity’s initialization tasks have been performed, the onRestoreInstanceState() method is generally more suitable. For the purposes of this example we will add code to the onRestoreInstanceState() method to extract the saved state from the Bundle using the “savedText” key. We can then display the text on the editText component using the object’s setText() method:

@Override

protected void onRestoreInstanceState(@NonNull Bundle savedInstanceState) {

   super.onRestoreInstanceState(savedInstanceState);

   Log.i(TAG, "onRestoreInstanceState");

&...

All that remains is once again to build and run the StateChange application. Once running and in the foreground, touch the EditText component and enter some text before rotating the device to another orientation. Whereas the text changes were previously lost, the new text is retained within the editText component thanks to the code we have added to the activity in this chapter.

Having verified that the code performs as expected, comment out the super.onSaveInstanceState() and super.onRestoreInstanceState() calls from the two methods, re-launch the app and note that the text is still preserved after a device rotation. The default save and restoration system has essentially been replaced by a custom implementation, thereby providing a way to dynamically and selectively save and restore state within an activity.

The saving and restoration of dynamic state in an Android application is simply a matter of implementing the appropriate code in the appropriate lifecycle methods. For most user interface views, this is handled automatically by the Activity super class. In other instances, this typically consists of extracting values and settings within the onSaveInstanceState() method and saving the data as key-value pairs within the Bundle object passed through to the activity by the runtime system.

State can be restored in either the onCreate() or the onRestoreInstanceState() methods of the activity by extracting values from the Bundle object and updating the activity based on the stored values.

In this chapter, we have used these techniques to update the StateChange project so that the Activity retains changes through the destruction and subsequent recreation of an activity.