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The android app I am working on overrides the Application class to store lightweight state (username, gps location, etc) in static vars. Most of this state is set in OnCreate of the launch activity (username retrieved from prefs, location listener runs). Is it safe to rely on the launch activity to initialize the Application class? Are there any cases where the Application class might be re-created without the Launch activity also being created?

The question comes up because I ran into a null pointer exception accessing a variable in the Application class on resuming the app after the phone was asleep for several hours (the app was left in the foreground before phone went to sleep). Is it possible that the process was killed while the phone was asleep and on waking the phone, the Application class was re-created, the top activity in the stack was resumed, but the launch activity.onCreate wasn't run thus the Application class wasn't initialized?

Note that I have tried to test these kinds of scenarios by Forcing the App to stop using Settings / Manage applications. However, I'm not able to recreate the problem. On the next run, the Application class is created, followed by the launch activity.onCreate.

Is it safe to assume that the Application class instance will exist as long as the process, and that when the Application class is created it is equivalent to "restarting" the application ie. start with a new activity stack (and first activity on stack is the launch activity)?

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not sure if it helps, but have you read this: developer.android.com/guide/topics/fundamentals.html#actlife –  clamp Jan 3 '11 at 15:25
+1 for a good question. –  Arhimed Jan 3 '11 at 16:18
how did you fix your problem? –  Sharj Jun 11 '11 at 15:24

2 Answers 2

up vote 14 down vote accepted

No. Your entire application can be killed and recreated with the task stack intact; this lets the system reclaim memory on devices that need it while still presenting a seamless illusion of multitasking to the end user. From the docs:

A background activity (an activity that is not visible to the user and has been paused) is no longer critical, so the system may safely kill its process to reclaim memory for other foreground or visible processes. If its process needs to be killed, when the user navigates back to the activity (making it visible on the screen again), its onCreate(Bundle) method will be called with the savedInstanceState it had previously supplied in onSaveInstanceState(Bundle) so that it can restart itself in the same state as the user last left it.

That is, the process (which the Application is tied to) can be killed off but then restarted, and the individual activities should have enough info to recreate themselves from what they've saved before being killed, without relying on global state set in the process by other Activities.

Consider storing persistent shared state that needs initialization by an Activity in either a SharedPreference or SQLite database, or passing it to Activities that need it as an Intent extra.

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Ugh. Any suggestions on how to test this scenario? As I mentioned, when I manually kill the proc, the activity stack doesn't remain intact. –  Patrick Cullen Jan 3 '11 at 17:01
This doesn't seem to work for me. I tried on 2 devices (1.6 and 2.3) - I put the app in background with hard home key, then "Manual Stop" from Manage Applications, click my app icon on the home screen. The app still restarts with the launch activity. And its not just clearing the top activity - the stack is several activities deep when I put it in the background. And of course, android:cleartaskonlaunch isn't set ... –  Patrick Cullen Jan 3 '11 at 19:28
I'm most grateful for this Q&A because I've found that my application's global state, which is held in the .Application class, is quite frequently killed even though the Activity stack apparenty remains intact. To solve this, all of my Activities must be able to gracefully cope with the global state no longer being present the next time they come to foreground, and in such case trigger the rebuilding of the global state. –  Trevor Jul 30 '12 at 15:14
Furthermore, I can only assume that the cyclic killing and re-instantiating of my app's .Application is the system attempting to improve user experience by getting ready again any processes it had to kill previously due to low RAM. What this has made me realise is that it's a bad idea to start off any lengthy work of rebuilding global state at the point of .Application instantiation. –  Trevor Jul 30 '12 at 15:24

You can test the scenario by killing the process of your running application.

Step 1. Open your app, and then press Home button to hide it into background.

Step 2. Invoke adb shell

Step 3. Enter command su (you have to get ROOT permission in order to kill process)

Step 4. ps (list all running process ID and find yours)

Step 5. kill 1234 (assume your application running on process 1234)

Step 6. Then, go back to your device and click the launch icon again. You may find the last activity on activity stack is reopen. You may also find onRestoreInstanceState() method is called for the activity.

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