I download some data from internet in background thread (I use AsyncTask) and display a progress dialog while downloading. Orientation changes, Activity is restarted and then my AsyncTask is completed - I want to dismiss the progess dialog and start a new Activity. But calling dismissDialog sometimes throws an exception (probably because the Activity was destroyed and new Activity hasn't been started yet).

What is the best way to handle this kind of problem (updating UI from background thread that works even if user changes orientation)? Did someone from Google provide some "official solution"?


8 Answers 8


Step #1: Make your AsyncTask a static nested class, or an entirely separate class, just not an inner (non-static nested) class.

Step #2: Have the AsyncTask hold onto the Activity via a data member, set via the constructor and a setter.

Step #3: When creating the AsyncTask, supply the current Activity to the constructor.

Step #4: In onRetainNonConfigurationInstance(), return the AsyncTask, after detaching it from the original, now-going-away activity.

Step #5: In onCreate(), if getLastNonConfigurationInstance() is not null, cast it to your AsyncTask class and call your setter to associate your new activity with the task.

Step #6: Do not refer to the activity data member from doInBackground().

If you follow the above recipe, it will all work. onProgressUpdate() and onPostExecute() are suspended between the start of onRetainNonConfigurationInstance() and the end of the subsequent onCreate().

Here is a sample project demonstrating the technique.

Another approach is to ditch the AsyncTask and move your work into an IntentService. This is particularly useful if the work to be done may be long and should go on regardless of what the user does in terms of activities (e.g., downloading a large file). You can use an ordered broadcast Intent to either have the activity respond to the work being done (if it is still in the foreground) or raise a Notification to let the user know if the work has been done. Here is a blog post with more on this pattern.

  • 8
    Thanks a lot for your great answer to this common issue! Just to be thorough, you might add to the step #4 that we have to detach (set to null) the activity in the AsyncTask. This is well illustrated in the sample project, though. Oct 30, 2010 at 15:40
  • 3
    But what if I need to have an access to Activity's members?
    – Eugene
    Apr 12, 2011 at 18:27
  • 3
    @Andrew: Create a static inner class or something that holds onto several objects, and return it. Sep 20, 2011 at 16:19
  • 11
    onRetainNonConfigurationInstance() is deprecated and the suggested alternative is to use setRetainInstance(), but it doesn't return an object. Is it possible to handle asyncTask on configuration change with setRetainInstance()? Mar 28, 2012 at 8:11
  • 10
    @SYLARRR: Absolutely. Have the Fragment hold the AsyncTask. Have the Fragment call setRetainInstance(true) upon itself. Have the AsyncTask only talk to the Fragment. Now, on a configuration change, the Fragment is not destroyed and recreated (even though the activity is), and so the AsyncTask is retained across the configuration change. Mar 28, 2012 at 11:06

The accepted answer was very helpful, but it doesn't have a progress dialog.

Fortunately for you, reader, I have created an extremely comprehensive and working example of an AsyncTask with a progress dialog!

  1. Rotation works, and the dialog survives.
  2. You can cancel the task and dialog by pressing the back button (if you want this behaviour).
  3. It uses fragments.
  4. The layout of the fragment underneath the activity changes properly when the device rotates.
  • The accepted answer is about static classes (not members). And those are necessary to avoid that the AsyncTask has a (hidden) pointer to the outer class instance which becomes a memory leak on destroying the activity. Jan 6, 2013 at 7:10
  • Yeah not sure why I put that about static members, since I actually also used them... weird. Edited answer.
    – Timmmm
    Jan 6, 2013 at 22:47
  • Could you please update your link? I really need this. Mar 2, 2014 at 23:13
  • Sorry, haven't got around to restoring my website - I'll do it soon! But in the mean time it is basically the same as the code in this answer: stackoverflow.com/questions/8417885/…
    – Timmmm
    Mar 5, 2014 at 21:44
  • 1
    The link is bogus; just leads to a useless index with no indication of where the code is.
    – FractalBob
    Jul 17, 2015 at 5:10

I've toiled for a week to find a solution to this dilemma without resorting to editing the manifest file. The assumptions for this solution are:

  1. You always need to use a progress dialog
  2. Only one task is performed at a time
  3. You need the task to persist when the phone is rotated and the progress dialog to be automatically dismisses.


You will need to copy the two files found at the bottom of this post into your workspace. Just make sure that:

  1. All your Activitys should extend BaseActivity

  2. In onCreate(), super.onCreate() should be called after you initialize any members that need to be accessed by your ASyncTasks. Also, override getContentViewId() to provide the form layout id.

  3. Override onCreateDialog() like usual to create dialogs managed by the activity.

  4. See code below for a sample static inner class to make your AsyncTasks. You can store your result in mResult to access later.

final static class MyTask extends SuperAsyncTask<Void, Void, Void> {

    public OpenDatabaseTask(BaseActivity activity) {
        super(activity, MY_DIALOG_ID); // change your dialog ID here...
                                       // and your dialog will be managed automatically!

    protected Void doInBackground(Void... params) {

        // your task code

        return null;

    public boolean onAfterExecute() {
        // your after execute code

And finally, to launch your new task:

mCurrentTask = new MyTask(this);
((MyTask) mCurrentTask).execute();

That's it! I hope this robust solution will help someone.

BaseActivity.java (organize imports yourself)

protected abstract int getContentViewId();

public abstract class BaseActivity extends Activity {
    protected SuperAsyncTask<?, ?, ?> mCurrentTask;
    public HashMap<Integer, Boolean> mDialogMap = new HashMap<Integer, Boolean>();

    protected void onCreate(Bundle savedInstanceState) {


        mCurrentTask = (SuperAsyncTask<?, ?, ?>) getLastNonConfigurationInstance();
        if (mCurrentTask != null) {
            if (mDialogMap.get((Integer) mCurrentTask.dialogId) != null
                && mDialogMap.get((Integer) mCurrentTask.dialogId)) {

    protected void onPrepareDialog(int id, Dialog dialog) {
    super.onPrepareDialog(id, dialog);

        mDialogMap.put(id, true);

    public Object onRetainNonConfigurationInstance() {
        if (mCurrentTask != null) {

            if (mDialogMap.get((Integer) mCurrentTask.dialogId) != null
                && mDialogMap.get((Integer) mCurrentTask.dialogId)) {
                return mCurrentTask;

        return super.onRetainNonConfigurationInstance();

    public void cleanupTask() {
        if (mCurrentTask != null) {
            mCurrentTask = null;


public abstract class SuperAsyncTask<Params, Progress, Result> extends AsyncTask<Params, Progress, Result> {
    protected BaseActivity mActivity = null;
    protected Result mResult;
    public int dialogId = -1;

    protected abstract void onAfterExecute();

    public SuperAsyncTask(BaseActivity activity, int dialogId) {
        this.dialogId = dialogId;

    protected void onPreExecute() {
        mActivity.showDialog(dialogId); // go polymorphism!

    protected void onPostExecute(Result result) {
        mResult = result;

        if (mActivity != null &&
                mActivity.mDialogMap.get((Integer) dialogId) != null
                && mActivity.mDialogMap.get((Integer) dialogId)) {

    public void attach(BaseActivity activity) {
        this.mActivity = activity;

    public void detach() {
        this.mActivity = null;

    public synchronized boolean postExecution() {
        Boolean dialogExists = mActivity.mDialogMap.get((Integer) dialogId);
        if (dialogExists != null || dialogExists) {

    public boolean cleanUp() {
        mActivity.mDialogMap.remove((Integer) dialogId);
        return true;

Did someone from Google provide some "official solution"?


The solution is more of an application architecture proposal rather that just some code.

They proposed 3 design patterns that allows an application to work in-sync with a server, regardless of the application state (it will work even if the user finishes the app, the user changes screen, the app gets terminated, every other possible state where a background data operation could be interrumpted, this covers it)

The proposal is explained in the Android REST client applications speech during Google I/O 2010 by Virgil Dobjanschi. It is 1 hour long, but it is extremely worth watching.

The basis of it is abstracting network operations to a Service that works independently to any Activity in the application. If you're working with databases, the use of ContentResolver and Cursor would give you an out-of-the-box Observer pattern that is convenient to update UI without any aditional logic, once you updated your local database with the fetched remote data. Any other after-operation code would be run via a callback passed to the Service (I use a ResultReceiver subclass for this).

Anyway, my explanation is actually pretty vague, you should definititely watch the speech.


While Mark's (CommonsWare) answer does indeed work for orientation changes, it fails if the Activity is destroyed directly (like in the case of a phone call).

You can handle the orientation changes AND the rare destroyed Activity events by using an Application object to reference your ASyncTask.

There's an excellent explanation of the problem and the solution here:

Credit goes completely to Ryan for figuring this one out.


After 4 years Google solved the problem just calling setRetainInstance(true) in Activity onCreate. It will preserve your activity instance during device rotation. I have also a simple solution for older Android.

  • 1
    The problem people observer happens because Android destroys an activity class at rotation, keyboard extension and other events, but an async task still keeps a reference for the destroyed instance and tries to use it for UI updates. You can instruct Android to do not destroy activity either in manifest or pragmatically. In this case an async task reference remains valid and no problem observed. Since rotation can require some additional work as reloading views and so on, Google doesn't recommend to preserve activity. So you decide.
    – Singagirl
    Feb 8, 2015 at 3:01
  • Thanks, I knew about the situation but not about setRetainInstance(). What I don't understand is your claim that Google used this to solve the issues asked in the question. Can you link source of information? Thanks.
    – Redoman
    Feb 10, 2015 at 9:06
  • onRetainNonConfigurationInstance() This function is called purely as an optimization, and you must not rely on it being called. < From the same source: developer.android.com/reference/android/app/… Jul 26, 2018 at 5:21

you should call all activity actions using activity handler. So if you are in some thread you should create a Runnable and posted using Activitie's Handler. Otherwise your app will crash sometimes with fatal exception.


This is my solution: https://github.com/Gotchamoh/Android-AsyncTask-ProgressDialog

Basically the steps are:

  1. I use onSaveInstanceState to save the task if it is still processing.
  2. In onCreate I get the task if it was saved.
  3. In onPause I discard the ProgressDialog if it is shown.
  4. In onResume I show the ProgressDialog if the task is still processing.

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