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I have investigated this problem for months now, came up with different solutions to it, which I am not happy with since they are all massive hacks. I still cannot believe that a class that flawed in design made it into the framework and no-one is talking about it, so I guess I just must be missing something.

The problem is with AsyncTask. According to the documentation it

"allows to perform background operations and publish results on the UI thread without having to manipulate threads and/or handlers."

The example then continues to show how some exemplary showDialog() method is called in onPostExecute(). This, however, seems entirely contrived to me, because showing a dialog always needs a reference to a valid Context, and an AsyncTask must never hold a strong reference to a context object.

The reason is obvious: what if the activity gets destroyed which triggered the task? This can happen all the time, e.g. because you flipped the screen. If the task would hold a reference to the context that created it, you're not only holding on to a useless context object (the window will have been destroyed and any UI interaction will fail with an exception!), you even risk creating a memory leak.

Unless my logic is flawed here, this translates to: onPostExecute() is entirely useless, because what good is it for this method to run on the UI thread if you don't have access to any context? You can't do anything meaningful here.

One workaround would be to not pass context instances to an AsyncTask, but a Handler instance. That works: since a Handler loosely binds the context and the task, you can exchange messages between them without risking a leak (right?). But that would mean that the premise of AsyncTask, namely that you don't need to bother with handlers, is wrong. It also seems like abusing Handler, since you are sending and receiving messages on the same thread (you create it on the UI thread and send through it in onPostExecute() which is also executed on the UI thread).

To top it all off, even with that workaround, you still have the problem that when the context gets destroyed, you have no record of the tasks it fired. That means that you have to re-start any tasks when re-creating the context, e.g. after a screen orientation change. This is slow and wasteful.

My solution to this (as implemented in the Droid-Fu library) is to maintain a mapping of WeakReferences from component names to their current instances on the unique application object. Whenever an AsyncTask is started, it records the calling context in that map, and on every callback, it will fetch the current context instance from that mapping. This ensures that you will never reference a stale context instance and you always have access to a valid context in the callbacks so you can do meaningful UI work there. It also doesn't leak, because the references are weak and are cleared when no instance of a given component exists anymore.

Still, it is a complex workaround and requires to sub-class some of the Droid-Fu library classes, making this a pretty intrusive approach.

Now I simply want to know: Am I just massively missing something or is AsyncTask really entirely flawed? How are your experiences working with it? How did you solve these problem?

Thanks for your input.

share|improve this question
1  
If you're curious, we've recently added a class to the ignition core library called IgnitedAsyncTask, which adds support for type-safe context access in all callbacks using the connect/disconnect pattern outlined by Dianne below. It also allows to throw exceptions and handle them in a separate callback. See github.com/kaeppler/ignition-core/blob/master/src/com/github/… –  Matthias Oct 13 '11 at 7:47
    
have a look at this: gist.github.com/1393552 –  Matthias Nov 25 '11 at 13:40
1  
This question is related as well. –  Alex Lockwood Jan 15 at 4:53

12 Answers 12

up vote 64 down vote accepted

How about something like this (warning not tested):

class MyActivity extends Activity {
    Worker mWorker;

    static class Worker extends AsyncTask<URL, Integer, Long> {
        MyActivity mActivity;

        Worker(MyActivity activity) {
            mActivity = activity;
        }

        @Override
        protected Long doInBackground(URL... urls) {
            int count = urls.length;
            long totalSize = 0;
            for (int i = 0; i < count; i++) {
                totalSize += Downloader.downloadFile(urls[i]);
                publishProgress((int) ((i / (float) count) * 100));
            }
            return totalSize;
        }

        @Override
        protected void onProgressUpdate(Integer... progress) {
            if (mActivity != null) {
                mActivity.setProgressPercent(progress[0]);
            }
        }

        @Override
        protected void onPostExecute(Long result) {
            if (mActivity != null) {
                mActivity.showDialog("Downloaded " + result + " bytes");
            }
        }
    }

    @Override
    protected void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);

        mWorker = (Worker)getLastNonConfigurationInstance();
        if (mWorker != null) {
            mWorker.mActivity = this;
        }

        ...
    }

    @Override
    public Object onRetainNonConfigurationInstance() {
        return mWorker;
    }

    @Override
    protected void onDestroy() {
        super.onDestroy();
        if (mWorker != null) {
            mWorker.mActivity = null;
        }
    }

    void startWork() {
        mWorker = new Worker(this);
        mWorker.execute(...);
    }
}
share|improve this answer
5  
Yes, mActivity will be != null, but if there's no references to your Worker instance, then any references that instance will be subject to garbage removal as well. If your task does run forever, then you have a memory leak anyway (your task) - not to mention that you're draining the phone battery. Besides, as mentioned elsewhere, you can set mActivity to null in onDestroy. –  EboMike Jul 29 '10 at 18:47
11  
The onDestroy() method sets mActivity to null. It doesn't matter who holds a reference to the activity before that, because it is still running. And the activity's window will always be valid until onDestroy() is called. By setting to null there, the async task will know that the activity is no longer valid. (And when a config changes, the previous activity's onDestroy() is called and the next one's onCreate() run without any messages on the main loop processed between them so the AsyncTask will never see an inconsistent state.) –  hackbod Jul 30 '10 at 3:47
5  
true, but it still doesn't solve the last problem I mentioned: imagine the task downloads something off the internet. Using this approach, if you flip the screen 3 times while the task is running, it will be restarted with every screen rotation, and every task except the last throws its result away because its activity reference is null. –  Matthias Jul 30 '10 at 6:43
10  
To access in the background, you would either need to put appropriate synchronization around mActivity and deal with running into times when it is null, or have the background thread just take the Context.getApplicationContext() which is a single global instance for the app. The application context is restricted in what you can do (no UI like Dialog for example) and requires some care (registered receivers and service bindings will be left forever if you don't clean them up), but is generally appropriate for code that isn't tied to a particular component's context. –  hackbod Aug 5 '10 at 5:01
4  
That was incredibly helpful, thanks Dianne! I wish the documentation would be as good in the first place. –  Matthias Aug 5 '10 at 7:28

The reason is obvious: what if the activity gets destroyed which triggered the task?

Manually disassociate the activity from the AsyncTask in onDestroy(). Manually re-associate the new activity to the AsyncTask in onCreate(). This requires either a static inner class or a standard Java class, plus perhaps 10 lines of code.

share|improve this answer
    
Be careful with static references -- I have seen objects being garbage collected even though there were static strong references to them. Maybe a side-effect of Android's class loader, or a bug even, but static references are no safe way of exchanging state across an activity life-cycle. The app object is, however, that's why I use that. –  Matthias Jul 29 '10 at 7:34
7  
@Matthias: I did not say to use static references. I said to use a static inner class. There is a substantial difference, despite both having "static" in their names. –  CommonsWare Jul 29 '10 at 7:58
3  
3  
I see -- they key here is getLastNonConfigurationInstance(), not the static inner class though. A static inner class keeps no implicit reference to its outer class so it's semantically equivalent to a plain public class. Just a warning: onRetainNonConfigurationInstance() is NOT guaranteed to be called when an activity is interrupted (an interruption can be a phone call, too), so you'd have to parcel your Task in onSaveInstanceState(), too, for a truly solid solution. But still, nice idea. –  Matthias Jul 29 '10 at 12:23
7  
Um... onRetainNonConfigurationInstance() is always called when the activity is in the process of being destroyed and re-created. It makes no sense to call at other times. If a switch to another activity happens, the current activity is paused/stopped, but it is not destroyed, so the async task can continue running and using the same activity instance. If it finishes and say displays a dialog, the dialog will correctly display as part of that activity and thus not show to the user until they return to the activity. You can't put AsyncTask in a Bundle. –  hackbod Jul 30 '10 at 3:50

It looks like AsyncTask is a bit more than just conceptually flawed. It is also unusable by compatibility issues. The Android docs read:

When first introduced, AsyncTasks were executed serially on a single background thread. Starting with DONUT, this was changed to a pool of threads allowing multiple tasks to operate in parallel. Starting HONEYCOMB, tasks are back to being executed on a single thread to avoid common application errors caused by parallel execution. If you truly want parallel execution, you can use the executeOnExecutor(Executor, Params...) version of this method with THREAD_POOL_EXECUTOR; however, see commentary there for warnings on its use.

Both executeOnExecutor() and THREAD_POOL_EXECUTOR are Added in API level 11 (Android 3.0.x, HONEYCOMB).

This means that if you create two AsyncTasks to download two files, the 2nd download will not start until the first one finishes. If you chat via two servers, and the first server is down, you will not connect to the second one before the connection to the first one times out. (Unless you use the new API11 features, of course, but this will make your code incompatible with 2.x).

And if you want to target both 2.x and 3.0+, the stuff becomes really tricky.

In addition, the docs say:

Caution: Another problem you might encounter when using a worker thread is unexpected restarts in your activity due to a runtime configuration change (such as when the user changes the screen orientation), which may destroy your worker thread. To see how you can persist your task during one of these restarts and how to properly cancel the task when the activity is destroyed, see the source code for the Shelves sample application.

share|improve this answer

I'm not sure it's true that you risk a memory leak with a reference to a context from an AsyncTask.

The usual way of implementing them is to create a new AsyncTask instance within the scope of one of the Activity's methods. So if the activity is destroyed, then once the AsyncTask completes won't it be unreachable and then eligible for garbage collection? So the reference to the activity won't matter because the AsyncTask itself won't hang around.

share|improve this answer
    
true -- but what if the task blocks indefinitely? Tasks are meant to perform blocking operations, maybe even ones that never terminate. There you have your memory leak. –  Matthias Jul 29 '10 at 7:29
    
what kind of task? example? –  Pentium10 Jul 29 '10 at 8:41
    
Any worker that performs something in an endless loop, or anything that just locks up e.g. on an I/O operation. –  Matthias Jul 29 '10 at 12:26

It would be more robust to keep a WeekReference on your activity :

public class WeakReferenceAsyncTaskTestActivity extends Activity {
    private static final int MAX_COUNT = 100;

    private ProgressBar progressBar;

    private AsyncTaskCounter mWorker;

    @SuppressWarnings("deprecation")
    @Override
    public void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.activity_async_task_test);

        mWorker = (AsyncTaskCounter) getLastNonConfigurationInstance();
        if (mWorker != null) {
            mWorker.mActivity = new WeakReference<WeakReferenceAsyncTaskTestActivity>(this);
        }

        progressBar = (ProgressBar) findViewById(R.id.progressBar1);
        progressBar.setMax(MAX_COUNT);
    }

    @Override
    public boolean onCreateOptionsMenu(Menu menu) {
        getMenuInflater().inflate(R.menu.activity_async_task_test, menu);
        return true;
    }

    public void onStartButtonClick(View v) {
        startWork();
    }

    @Override
    public Object onRetainNonConfigurationInstance() {
        return mWorker;
    }

    @Override
    protected void onDestroy() {
        super.onDestroy();
        if (mWorker != null) {
            mWorker.mActivity = null;
        }
    }

    void startWork() {
        mWorker = new AsyncTaskCounter(this);
        mWorker.execute();
    }

    static class AsyncTaskCounter extends AsyncTask<Void, Integer, Void> {
        WeakReference<WeakReferenceAsyncTaskTestActivity> mActivity;

        AsyncTaskCounter(WeakReferenceAsyncTaskTestActivity activity) {
            mActivity = new WeakReference<WeakReferenceAsyncTaskTestActivity>(activity);
        }

        private static final int SLEEP_TIME = 200;

        @Override
        protected Void doInBackground(Void... params) {
            for (int i = 0; i < MAX_COUNT; i++) {
                try {
                    Thread.sleep(SLEEP_TIME);
                } catch (InterruptedException e) {
                    e.printStackTrace();
                }
                Log.d(getClass().getSimpleName(), "Progress value is " + i);
                Log.d(getClass().getSimpleName(), "getActivity is " + mActivity);
                Log.d(getClass().getSimpleName(), "this is " + this);

                publishProgress(i);
            }
            return null;
        }

        @Override
        protected void onProgressUpdate(Integer... values) {
            super.onProgressUpdate(values);
            if (mActivity != null) {
                mActivity.get().progressBar.setProgress(values[0]);
            }
        }
    }

}
share|improve this answer
    
This is similar to what we first did with Droid-Fu. We would keep a map of weak references to context objects and would make a lookup in the task callbacks to obtain the most recent reference (if available) to run the callback against. Our approach however meant there was a single entity that maintained this mapping, whereas your approach doesn't, so this is indeed nicer. –  Matthias Sep 21 '12 at 11:35
1  
Did you have a look at RoboSpice ? github.com/octo-online/robospice. I do believe this system is even better. –  Snicolas Sep 21 '12 at 15:39
    
The sample code on the front page looks like it's leaking a context reference (an inner class keeps an implicit reference to the outer class.) Not convinced!! –  Matthias Sep 24 '12 at 9:19
    
@Matthias, you are right, that's why I propose a static inner class that will hold a WeakReference on the Activity. –  Snicolas Sep 24 '12 at 12:34
1  
@Matthias, I believe this starts being off topic. But loaders don't provide caching out of the box as we do, more over, loaders tend to be more verbose than our lib. Actually they handle pretty well cursors but for networking, a different approach, based on caching and a service is better suited. See neilgoodman.net/2011/12/26/… part 1 & 2 –  Snicolas Oct 3 '12 at 6:37

Probably we all, including Google, are misusing AsyncTask from the MVC point of view.

An Activity is a Controller, and the controller should not start operations that may outlive the View. That is, AsyncTasks should be used from Model, from a class that is not bound to the Activity life cycle -- remember that Activities are destroyed on rotation. (As to the View, you don't usually program classes derived from e.g. android.widget.Button, but you can. Usually, the only thing you do about the View is the xml.)

In other words, it is wrong to place AsyncTask derivatives in the methods of Activities. OTOH, if we must not use AsyncTasks in Activities, AsyncTask loses its attractiveness: it used to be advertised as a quick and easy fix.

share|improve this answer

Why not just override the onPause() method in the owning Activity and cancel the AsyncTask from there?

share|improve this answer
    
it depends on what that task is doing. if it just loads/reads some data, then it would be Ok. but if it changes the state of some data on a remote server then we'd prefer to give the task an ability to run to the end. –  Arhimed Aug 9 '12 at 11:19
    
@Arhimed and I take it if you hold up the UI thread in onPause that it's just as bad as holding it up anywhere else? I.e., you could get an ANR? –  Jeff Axelrod Aug 9 '12 at 13:39
    
exactly. we can not block the UI thread (be it a onPause or anithing else) because we risk to get an ANR. –  Arhimed Aug 9 '12 at 17:02

Personally, I just extend Thread and use a callback interface to update the UI. I could never get AsyncTask to work right without FC issues. I also use a non blocking queue to manage the execution pool.

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1  
Well, your force close was probably because of the problem I mentioned: you tried referencing a context which had gone out of scope (i.e. its window had been destroyed), which will result in a framework exception. –  Matthias Jul 29 '10 at 7:35
    
No... actually it was because the queue sucks that is built in to AsyncTask. I always use getApplicationContext(). I don't have problems with AsyncTask if it's only a few operations... but I am writing a media player that updates album art in the background... in my test I have 120 albums with no art... so, while my app didn't close all of the way, asynctask was throwing errors... so instead I built a singleton class with a queue that manages the processes and so far it works great. –  androidworkz Jul 29 '10 at 13:31

I thought cancel works but it doesn't.

here they RTFMing about it:

""If the task has already started, then the mayInterruptIfRunning parameter determines whether the thread executing this task should be interrupted in an attempt to stop the task."

That does not imply, however, that the thread is interruptible. That's a Java thing, not an AsyncTask thing."

http://groups.google.com/group/android-developers/browse_thread/thread/dcadb1bc7705f1bb/add136eb4949359d?show_docid=add136eb4949359d

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You are absolutely right - that is why a movement away from using async tasks/loaders in the activities to fetch data is gaining momentum. One of the new ways is to use a Volley framework that essentially provides a callback once the data is ready - much more consistent with MVC model. Volley was populised in the Google I/O 2013. Not sure why more people aren't aware of this.

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You would be better off thinking of AsyncTask as something that is more tightly coupled with an Activity, Context, ContextWrapper, etc. It's more of a convenience when its scope is fully understood.

Ensure that you have a cancellation policy in your lifecycle so that it will eventually be garbage collected and no longer keeps a reference to your activity and it too can be garbage collected.

Without canceling your AsyncTask while traversing away from your Context you will run into memory leaks and NullPointerExceptions, if you simply need to provide feedback like a Toast a simple dialog then a singleton of your Application Context would help avoid the NPE issue.

AsyncTask isn't all bad but there's definitely a lot of magic going on that can lead to some unforeseen pitfalls.

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As to "experiences working with it": it is possible to kill the process along with all AsyncTasks, Android will re-create the activity stack so that the user will not mention anything.

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