I ran into an interesting problem, and I'm not sure how to go about fixing it. Consider the following code:
public class MainActivity extends AppCompatActivity {
private Bundle savedState;
#Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
savedState = savedInstanceState;
Log.d("ON CREATE", "savedState is null: "+(savedState==null));
new CustomTask().execute();
}
public class CustomTask extends AsyncTask<Void, Void, Void> {
protected Void doInBackground(Void... voids) {
try {
Thread.sleep(5000);
} catch (InterruptedException e) {
e.printStackTrace();
}
return null;
}
protected void onPostExecute(Void v) {
Log.d("POST EXECUTE", "savedState is null: "+(savedState==null));
}
}
}
This code saves a reference to the savedInstanceState then runs an AsyncTask, which tries to access that variable 5 seconds later. If the user changes the orientation of the device before the AsyncTask finishes its work, the following output is produced:
ON CREATE: savedState is null: true //initial run
ON CREATE: savedState is null: false //re-created after orientation change
POST EXECUTE: savedState is null: true //first instance
POST EXECUTE: savedState is null: false //second instance
Both of the onPostExecute() methods fire after the orientation change, but they are seemingly accessing the same savedState variable, which I expected to be non-null in both cases since it was being accessed after the orientation change.
Apparently the first AsyncTask, which was started before the orientation change still references the savedState variable from before the change as well. So my questions are:
Why does it do this? After the app state is restored, I would expect the AsyncTask to simply access all class members in their current states, which means savedState would be non-null.
And how can I access the current savedInstanceState variable from the callback of an AsyncTask that was started before that variable was changed?
After the orientation change, there are two instances of MainActivity. The old one has gone through the tear-down lifecycle events (onStop(), onDestroy(), etc.) but has not been garbage collected because the inner-class CustomTask thread is still running and holds a reference to it. That instance of CustomTask sees the null savedState. It knows nothing of the new instance of MainActivity, created after the restart, and its non-null savedState.
Do you really want the original instance of CustomTask to continue running after restart? Maybe you should cancel it when the activity is destroyed. If you really need it to continue running and have access to state data that you now declare in the activity, you will need to move that state data out of the activity to somewhere else, such as a singleton object, subclass of Application or persistent storage.
Using a retained fragment might be another option for retaining state and background processing across restarts.
After a month of dealing with this issue, I finally found the solution to this. The key concept I was struggling with was how to update an (already running) AsyncTask with a reference to the current instance of the Activity it's working with. Here's how to do it.
The first step is to separate the AsyncTask into its own class file, and pass a reference to the Activity it's working with in through a constructor or a setter. So to use the same example I used in my original question, it would look something like this:
public class CustomTask extends AsyncTask<Void, Void, Void> {
//This could also be a reference to a callback interface
//implemented in an Activity
private Activity activity;
public CustomTask(Activity activity) {
this.activity = activity;
}
protected Void doInBackground(Void... voids) {
try {
Thread.sleep(5000);
} catch (InterruptedException e) {
e.printStackTrace();
}
return null;
}
protected void onPostExecute(Void v) {
Log.d("POST EXECUTE", "savedState is null: "+(savedState==null));
}
//newly added method
public void setActivity(Activity activity) {
this.activity = activity;
}
//newly added method
public void detachFromActivity() {
activity = null;
}
}
The next step is to save a reference to the running AsyncTask as a data member of the Activity. That's just a matter of creating a private variable private CustomTask customTask; in the Activity.
Next, and this is the important part, you need to override onRetainCustomNonConfigurationInstance() in your Activity, and in this method, detach the AsyncTask from its old Activity (which is destroyed on a screen rotation) and retain the reference to the task so we can work with it in the new instance of the Activity that will be re-created when the screen finishes rotating. So this method would look like this:
#Override
public Object onRetainCustomNonConfigurationInstance() {
if(customTask != null) {
customTask.detachFromActivity();
}
return customTask;
}
Now, after the screen rotation has completed and the Activity is re-created, we need to get the reference to our task that was passed through. So we call getLastCustomNonConfigurationInstance() and cast the Object it returns to our specific AsyncTask class type. We can do a null check here to see if we have a task that was passed through. If there is one, we set its listener to our CURRENT Activity reference, so that the callbacks come to the right Activity instance (and hence avoided NullPointerExceptions, IllegalStateExceptions, and other nasties). This bit should look like this:
customTask = (CustomTask) getLastCustomNonConfigurationInstance();
if(customTask != null) {
customTask.setListener(this);
}
Now our running AsyncTask has the correct reference to the current instance of our Activity, and it will properly deliver its callbacks to an up-to-date Activity.
For more information on the uses and limitations of this solution, please see the Android documentation here: http://developer.android.com/reference/android/app/Activity.html#onRetainNonConfigurationInstance()
I have an Activity with a private OnSharedPreferenceChangeListener, the listener's work is defined on the onCreate() method of the Activity. The listener is registered to the sharedPreferences of the application.
The change itself is triggered by a Service in response to an sms received intent.
Will the listener receive the callback when the Activity itself has died? are there cases where it will not?
The listener is defined (roughly):
private OnSharedPreferenceChangeListener _sharedPreferenceListener;
public void onCreate(Bundle bundle){
...
_prefs = PreferenceManager.getDefaultSharedPreferences(this);
_prefs.registerOnSharedPreferenceChangeListener(_sharedPreferenceListener);
...
_sharedPreferenceListener = new SharedPreferences.OnSharedPreferenceChangeListener(){ /*doing some work here*/};
...
}
please igonre the logic here if correct or not, assume that the code works, my main concern is how the listener reacts to changes in the lifecycle of the activity.
Thanks,
actually, since the listener doesn't know anything about the activity (and as such you can use it anywhere , not just in an activity), you will get notified no matter where you use it.
Also, since you can't know for sure what it does with the context , you should use the application context instead in this case (so that you won't have memory leaks, though I doubt it needs a reference to the activity).
Of course, if the listener itself is referenced by weak reference, and the activity doesn't have any reference to itself on any other class, the listener can be GC-ed too. You can see in the code of Android (or at least of API 19) that in the class "android.app.SharedPreferencesImpl" (example link here) , you have a WeakHashMap of listeners, so it might mean that the activity that hosts the listener can be GC-ed and so the listener will stop from being called. Here is the relavant code of Android:
private final WeakHashMap<OnSharedPreferenceChangeListener, Object> mListeners =
new WeakHashMap<OnSharedPreferenceChangeListener, Object>();
...
public void registerOnSharedPreferenceChangeListener(OnSharedPreferenceChangeListener listener) {
synchronized(this) {
mListeners.put(listener, mContent);
}
}
So, as I've written, best if you just put the application context in case you wish to keep listening to this event.
Or, in case you do wish to stop listening to this event, just unregister it when the activity is being destroyed.
to prove it, you can simply run your app...
here's my proof app:
MainActivity.java
public class MainActivity extends Activity {
#Override
protected void onCreate(final Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
final SharedPreferences preferences = PreferenceManager.getDefaultSharedPreferences(getApplicationContext());
preferences.registerOnSharedPreferenceChangeListener(new SharedPreferences.OnSharedPreferenceChangeListener() {
#Override
public void onSharedPreferenceChanged(final SharedPreferences sharedPreferences, final String key) {
android.util.Log.d("AppLog", "changed!");
}
});
new Handler().postDelayed(new Runnable() {
#Override
public void run() {
startActivity(new Intent(MainActivity.this, Activity2.class));
}
}, 1000);
finish();
}
}
Activity2.java
public class Activity2 extends Activity {
#Override
protected void onCreate(final Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_activity2);
//if you call here System.gc(); , you have a good chance that the listener won't be called
new Handler().postDelayed(new Runnable() {
#Override
public void run() {
//this may or may not cause the listener to write to the log
final SharedPreferences preferences = PreferenceManager.getDefaultSharedPreferences(Activity2.this);
preferences.edit().putBoolean("test", true).commit();
}
}, 1000);
}
}
Will the listener receive the callback when the Activity itself has died?
-> No, it won't. Because when your activity dies, the _prefs and _sharedPreferenceListener fields will be destroyed.
You could check this question for more details on OnSharedPreferenceChangeListener :
SharedPreferences.onSharedPreferenceChangeListener not being called consistently
You must un-register the listener in onDestroy() of activity, else Activity object will stay in memory.
Actually i have created an singleton class. Now my singleton class extends Activity, and i have write onCreate() and onStart() method on this class. But it is never called.The code i have used is shown below. If anyone knows help me to solve these out.
Code
public class cycleManager
{
private static CycleManager m_cycleManagerObj;
private CycleManager()
{
// Initialise Variable
onInitialization();
readData(this); // show error when call from here
}
public static synchronized CycleManager getSingletonObject()
{
if (m_cycleManagerObj == null)
{
m_cycleManagerObj = new CycleManager();
}
return m_cycleManagerObj;
}
public Object clone() throws CloneNotSupportedException
{
throw new CloneNotSupportedException();
}
public void writeData(Context c)
{
SharedPreferences preferencesWrite = c.getSharedPreferences("myPreferences", 0);
SharedPreferences.Editor editor = preferencesWrite.edit();
// work to be done
}
public void readData(Context c)
{
SharedPreferences preferencesRead = c.getSharedPreferences("myPreferences", 0);
// work to be done
}
}
The thing is Android manages activities in its own manner: from calling a constructor to calling all lifecycle methods. So if you declare your Activity's constructor as private then Android will not be able to manage this activity.
Why do you need singleton Activity-class? Consider different launch modes
check your activity in the AndroidManifest.xml.
<activity
android:configChanges="orientation|keyboardHidden"
android:name=".ActivityName">
They are not public method.They are protected method.You should override existing method.try like the following.
#Override
protected void onStart() {
// TODO Auto-generated method stub
super.onStart();
}
#Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
}
The key here is that Android is supposed to be managing your activity lifecycle, not you.
onCreate and onStart (along with onPause, onDestroy and all the other android activity lifecycle functions) are called by the looper on Android's main thread.
How did you start this activity? Was it declared in your manifest as your main activity and launcher? Did you call startActivity and pass the class name?
The fact that you are creating a singleton instance of your activity, and that its constructor is private, suggests to me that Android would be unable to start this activity when you want it to, though some function for passing an existing activity to be managed may exist, and I've just never seen it.
If onCreate and onStart are never being called, it means Android doesn't know it is supposed to be running your activity.
You get an error because your class is not a subclass of Context. Add Context attribute to getSingletonObject(Context context) method and pass it to CycleManager(Context context) constructor.
I'm working on a Smartphone / Tablet app, using only one APK, and loading resources as is needed depending on screen size, the best design choice seemed to be using Fragments via the ACL.
This app has been working fine until now being only activity based. This is a mock class of how I handle AsyncTasks and ProgressDialogs in the Activities in order to have them work even when the screen is rotated or a configuration change occurs mid communication.
I will not change the manifest to avoid recreation of the Activity, there are many reasons why I dont want to do it, but mainly because the official docs say it isnt recomended and I've managed without it this far, so please dont recomend that route.
public class Login extends Activity {
static ProgressDialog pd;
AsyncTask<String, Void, Boolean> asyncLoginThread;
#Override
public void onCreate(Bundle icicle) {
super.onCreate(icicle);
setContentView(R.layout.login);
//SETUP UI OBJECTS
restoreAsyncTask();
}
#Override
public Object onRetainNonConfigurationInstance() {
if (pd != null) pd.dismiss();
if (asyncLoginThread != null) return (asyncLoginThread);
return super.onRetainNonConfigurationInstance();
}
private void restoreAsyncTask();() {
pd = new ProgressDialog(Login.this);
if (getLastNonConfigurationInstance() != null) {
asyncLoginThread = (AsyncTask<String, Void, Boolean>) getLastNonConfigurationInstance();
if (asyncLoginThread != null) {
if (!(asyncLoginThread.getStatus()
.equals(AsyncTask.Status.FINISHED))) {
showProgressDialog();
}
}
}
}
public class LoginThread extends AsyncTask<String, Void, Boolean> {
#Override
protected Boolean doInBackground(String... args) {
try {
//Connect to WS, recieve a JSON/XML Response
//Place it somewhere I can use it.
} catch (Exception e) {
return true;
}
return true;
}
protected void onPostExecute(Boolean result) {
if (result) {
pd.dismiss();
//Handle the response. Either deny entry or launch new Login Succesful Activity
}
}
}
}
This code is working fine, I have around 10.000 users without complaint, so it seemed logical to just copy this logic into the new Fragment Based Design, but, of course, it isnt working.
Here is the LoginFragment:
public class LoginFragment extends Fragment {
FragmentActivity parentActivity;
static ProgressDialog pd;
AsyncTask<String, Void, Boolean> asyncLoginThread;
public interface OnLoginSuccessfulListener {
public void onLoginSuccessful(GlobalContainer globalContainer);
}
public void onSaveInstanceState(Bundle outState){
super.onSaveInstanceState(outState);
//Save some stuff for the UI State
}
#Override
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
//setRetainInstance(true);
//If I setRetainInstance(true), savedInstanceState is always null. Besides that, when loading UI State, a NPE is thrown when looking for UI Objects.
parentActivity = getActivity();
}
#Override
public void onAttach(Activity activity) {
super.onAttach(activity);
try {
loginSuccessfulListener = (OnLoginSuccessfulListener) activity;
} catch (ClassCastException e) {
throw new ClassCastException(activity.toString() + " must implement OnLoginSuccessfulListener");
}
}
#Override
public View onCreateView(LayoutInflater inflater, ViewGroup container,
Bundle savedInstanceState) {
RelativeLayout loginLayout = (RelativeLayout) inflater.inflate(R.layout.login, container, false);
return loginLayout;
}
#Override
public void onActivityCreated(Bundle savedInstanceState) {
super.onActivityCreated(savedInstanceState);
//SETUP UI OBJECTS
if(savedInstanceState != null){
//Reload UI state. Im doing this properly, keeping the content of the UI objects, not the object it self to avoid memory leaks.
}
}
public class LoginThread extends AsyncTask<String, Void, Boolean> {
#Override
protected Boolean doInBackground(String... args) {
try {
//Connect to WS, recieve a JSON/XML Response
//Place it somewhere I can use it.
} catch (Exception e) {
return true;
}
return true;
}
protected void onPostExecute(Boolean result) {
if (result) {
pd.dismiss();
//Handle the response. Either deny entry or launch new Login Succesful Activity
}
}
}
}
}
I cant use onRetainNonConfigurationInstance() since it has to be called from the Activity and not the Fragment, same goes with getLastNonConfigurationInstance(). I've read some similar questions here with no answer.
I understand that it might require some working around to get this stuff organized properly in fragments, that being said, I would like to maintain the same basic design logic.
What would be the proper way to retain the AsyncTask during a configuration change, and if its still runing, show a progressDialog, taking into consideration that the AsyncTask is a inner class to the Fragment and it is the Fragment itself who invokes the AsyncTask.execute()?
Fragments can actually make this a lot easier. Just use the method Fragment.setRetainInstance(boolean) to have your fragment instance retained across configuration changes. Note that this is the recommended replacement for Activity.onRetainnonConfigurationInstance() in the docs.
If for some reason you really don't want to use a retained fragment, there are other approaches you can take. Note that each fragment has a unique identifier returned by Fragment.getId(). You can also find out if a fragment is being torn down for a config change through Fragment.getActivity().isChangingConfigurations(). So, at the point where you would decide to stop your AsyncTask (in onStop() or onDestroy() most likely), you could for example check if the configuration is changing and if so stick it in a static SparseArray under the fragment's identifier, and then in your onCreate() or onStart() look to see if you have an AsyncTask in the sparse array available.
I think you will enjoy my extremely comprehensive and working example detailed below.
Rotation works, and the dialog survives.
You can cancel the task and dialog by pressing the back button (if you want this behaviour).
It uses fragments.
The layout of the fragment underneath the activity changes properly when the device rotates.
There is a complete source code download and a precompiled APK so you can see if the behaviour is what you want.
Edit
As requested by Brad Larson I have reproduced most of the linked solution below. Also since I posted it I have been pointed to AsyncTaskLoader. I'm not sure it is totally applicable to the same problems, but you should check it out anyway.
Using AsyncTask with progress dialogs and device rotation.
A working solution!
I have finally got everything to work. My code has the following features:
A Fragment whose layout changes with orientation.
An AsyncTask in which you can do some work.
A DialogFragment which shows the progress of the task in a progress bar (not just an indeterminate spinner).
Rotation works without interrupting the task or dismissing the dialog.
The back button dismisses the dialog and cancels the task (you can alter this behaviour fairly easily though).
I don't think that combination of workingness can be found anywhere else.
The basic idea is as follows. There is a MainActivity class which contains a single fragment - MainFragment. MainFragment has different layouts for horizontal and vertical orientation, and setRetainInstance() is false so that the layout can change. This means that when the device orientation is changed, both MainActivity and MainFragment are completely destroyed and recreated.
Separately we have MyTask (extended from AsyncTask) which does all the work. We can't store it in MainFragment because that will be destroyed, and Google has deprecated using anything like setRetainNonInstanceConfiguration(). That isn't always available anyway and is an ugly hack at best. Instead we will store MyTask in another fragment, a DialogFragment called TaskFragment. This fragment will have setRetainInstance() set to true, so as the device rotates this fragment isn't destroyed, and MyTask is retained.
Finally we need to tell the TaskFragment who to inform when it is finished, and we do that using setTargetFragment(<the MainFragment>) when we create it. When the device is rotated and the MainFragment is destroyed and a new instance is created, we use the FragmentManager to find the dialog (based on its tag) and do setTargetFragment(<the new MainFragment>). That's pretty much it.
There were two other things I needed to do: first cancel the task when the dialog is dismissed, and second set the dismiss message to null, otherwise the dialog is weirdly dismissed when the device is rotated.
The code
I won't list the layouts, they are pretty obvious and you can find them in the project download below.
MainActivity
This is pretty straightforward. I added a callback into this activity so it knows when the task is finished, but you might not need that. Mainly I just wanted to show the fragment-activity callback mechanism because it's quite neat and you might not have seen it before.
public class MainActivity extends Activity implements MainFragment.Callbacks
{
#Override
public void onCreate(Bundle savedInstanceState)
{
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
}
#Override
public void onTaskFinished()
{
// Hooray. A toast to our success.
Toast.makeText(this, "Task finished!", Toast.LENGTH_LONG).show();
// NB: I'm going to blow your mind again: the "int duration" parameter of makeText *isn't*
// the duration in milliseconds. ANDROID Y U NO ENUM?
}
}
MainFragment
It's long but worth it!
public class MainFragment extends Fragment implements OnClickListener
{
// This code up to onDetach() is all to get easy callbacks to the Activity.
private Callbacks mCallbacks = sDummyCallbacks;
public interface Callbacks
{
public void onTaskFinished();
}
private static Callbacks sDummyCallbacks = new Callbacks()
{
public void onTaskFinished() { }
};
#Override
public void onAttach(Activity activity)
{
super.onAttach(activity);
if (!(activity instanceof Callbacks))
{
throw new IllegalStateException("Activity must implement fragment's callbacks.");
}
mCallbacks = (Callbacks) activity;
}
#Override
public void onDetach()
{
super.onDetach();
mCallbacks = sDummyCallbacks;
}
// Save a reference to the fragment manager. This is initialised in onCreate().
private FragmentManager mFM;
// Code to identify the fragment that is calling onActivityResult(). We don't really need
// this since we only have one fragment to deal with.
static final int TASK_FRAGMENT = 0;
// Tag so we can find the task fragment again, in another instance of this fragment after rotation.
static final String TASK_FRAGMENT_TAG = "task";
#Override
public void onCreate(Bundle savedInstanceState)
{
super.onCreate(savedInstanceState);
// At this point the fragment may have been recreated due to a rotation,
// and there may be a TaskFragment lying around. So see if we can find it.
mFM = getFragmentManager();
// Check to see if we have retained the worker fragment.
TaskFragment taskFragment = (TaskFragment)mFM.findFragmentByTag(TASK_FRAGMENT_TAG);
if (taskFragment != null)
{
// Update the target fragment so it goes to this fragment instead of the old one.
// This will also allow the GC to reclaim the old MainFragment, which the TaskFragment
// keeps a reference to. Note that I looked in the code and setTargetFragment() doesn't
// use weak references. To be sure you aren't leaking, you may wish to make your own
// setTargetFragment() which does.
taskFragment.setTargetFragment(this, TASK_FRAGMENT);
}
}
#Override
public View onCreateView(LayoutInflater inflater, ViewGroup container,
Bundle savedInstanceState)
{
return inflater.inflate(R.layout.fragment_main, container, false);
}
#Override
public void onViewCreated(View view, Bundle savedInstanceState)
{
super.onViewCreated(view, savedInstanceState);
// Callback for the "start task" button. I originally used the XML onClick()
// but it goes to the Activity instead.
view.findViewById(R.id.taskButton).setOnClickListener(this);
}
#Override
public void onClick(View v)
{
// We only have one click listener so we know it is the "Start Task" button.
// We will create a new TaskFragment.
TaskFragment taskFragment = new TaskFragment();
// And create a task for it to monitor. In this implementation the taskFragment
// executes the task, but you could change it so that it is started here.
taskFragment.setTask(new MyTask());
// And tell it to call onActivityResult() on this fragment.
taskFragment.setTargetFragment(this, TASK_FRAGMENT);
// Show the fragment.
// I'm not sure which of the following two lines is best to use but this one works well.
taskFragment.show(mFM, TASK_FRAGMENT_TAG);
// mFM.beginTransaction().add(taskFragment, TASK_FRAGMENT_TAG).commit();
}
#Override
public void onActivityResult(int requestCode, int resultCode, Intent data)
{
if (requestCode == TASK_FRAGMENT && resultCode == Activity.RESULT_OK)
{
// Inform the activity.
mCallbacks.onTaskFinished();
}
}
TaskFragment
// This and the other inner class can be in separate files if you like.
// There's no reason they need to be inner classes other than keeping everything together.
public static class TaskFragment extends DialogFragment
{
// The task we are running.
MyTask mTask;
ProgressBar mProgressBar;
public void setTask(MyTask task)
{
mTask = task;
// Tell the AsyncTask to call updateProgress() and taskFinished() on this fragment.
mTask.setFragment(this);
}
#Override
public void onCreate(Bundle savedInstanceState)
{
super.onCreate(savedInstanceState);
// Retain this instance so it isn't destroyed when MainActivity and
// MainFragment change configuration.
setRetainInstance(true);
// Start the task! You could move this outside this activity if you want.
if (mTask != null)
mTask.execute();
}
#Override
public View onCreateView(LayoutInflater inflater, ViewGroup container,
Bundle savedInstanceState)
{
View view = inflater.inflate(R.layout.fragment_task, container);
mProgressBar = (ProgressBar)view.findViewById(R.id.progressBar);
getDialog().setTitle("Progress Dialog");
// If you're doing a long task, you probably don't want people to cancel
// it just by tapping the screen!
getDialog().setCanceledOnTouchOutside(false);
return view;
}
// This is to work around what is apparently a bug. If you don't have it
// here the dialog will be dismissed on rotation, so tell it not to dismiss.
#Override
public void onDestroyView()
{
if (getDialog() != null && getRetainInstance())
getDialog().setDismissMessage(null);
super.onDestroyView();
}
// Also when we are dismissed we need to cancel the task.
#Override
public void onDismiss(DialogInterface dialog)
{
super.onDismiss(dialog);
// If true, the thread is interrupted immediately, which may do bad things.
// If false, it guarantees a result is never returned (onPostExecute() isn't called)
// but you have to repeatedly call isCancelled() in your doInBackground()
// function to check if it should exit. For some tasks that might not be feasible.
if (mTask != null) {
mTask.cancel(false);
}
// You don't really need this if you don't want.
if (getTargetFragment() != null)
getTargetFragment().onActivityResult(TASK_FRAGMENT, Activity.RESULT_CANCELED, null);
}
#Override
public void onResume()
{
super.onResume();
// This is a little hacky, but we will see if the task has finished while we weren't
// in this activity, and then we can dismiss ourselves.
if (mTask == null)
dismiss();
}
// This is called by the AsyncTask.
public void updateProgress(int percent)
{
mProgressBar.setProgress(percent);
}
// This is also called by the AsyncTask.
public void taskFinished()
{
// Make sure we check if it is resumed because we will crash if trying to dismiss the dialog
// after the user has switched to another app.
if (isResumed())
dismiss();
// If we aren't resumed, setting the task to null will allow us to dimiss ourselves in
// onResume().
mTask = null;
// Tell the fragment that we are done.
if (getTargetFragment() != null)
getTargetFragment().onActivityResult(TASK_FRAGMENT, Activity.RESULT_OK, null);
}
}
MyTask
// This is a fairly standard AsyncTask that does some dummy work.
public static class MyTask extends AsyncTask<Void, Void, Void>
{
TaskFragment mFragment;
int mProgress = 0;
void setFragment(TaskFragment fragment)
{
mFragment = fragment;
}
#Override
protected Void doInBackground(Void... params)
{
// Do some longish task. This should be a task that we don't really
// care about continuing
// if the user exits the app.
// Examples of these things:
// * Logging in to an app.
// * Downloading something for the user to view.
// * Calculating something for the user to view.
// Examples of where you should probably use a service instead:
// * Downloading files for the user to save (like the browser does).
// * Sending messages to people.
// * Uploading data to a server.
for (int i = 0; i < 10; i++)
{
// Check if this has been cancelled, e.g. when the dialog is dismissed.
if (isCancelled())
return null;
SystemClock.sleep(500);
mProgress = i * 10;
publishProgress();
}
return null;
}
#Override
protected void onProgressUpdate(Void... unused)
{
if (mFragment == null)
return;
mFragment.updateProgress(mProgress);
}
#Override
protected void onPostExecute(Void unused)
{
if (mFragment == null)
return;
mFragment.taskFinished();
}
}
}
Download the example project
Here is the source code and the APK. Sorry, the ADT insisted on adding the support library before it would let me make a project. I'm sure you can remove it.
I've recently posted an article describing how to handle configuration changes using retained Fragments. It solves the problem of retaining an AsyncTask across a rotation change nicely.
The TL;DR is to use host your AsyncTask inside a Fragment, call setRetainInstance(true) on the Fragment, and report the AsyncTask's progress/results back to it's Activity (or it's target Fragment, if you choose to use the approach described by #Timmmm) through the retained Fragment.
My first suggestion is to avoid inner AsyncTasks, you can read a question that I asked about this and the answers: Android: AsyncTask recommendations: private class or public class?
After that i started using non-inner and... now i see A LOT of benefits.
The second is, keep a reference of your running AsyncTask in the Application Class - http://developer.android.com/reference/android/app/Application.html
Everytime you start an AsyncTask, set it on the Application and when it finishes it set it to null.
When a fragment/activity starts you can check if any AsyncTask is running (by checking if it's null or not on the Application) and then set the reference inside to whatever you want (activity, fragment etc so you can do callbacks).
This will solve your problem:
If you only have 1 AsyncTask running at any determined time you can add a simple reference:
AsyncTask<?,?,?> asyncTask = null;
Else, have in the Aplication a HashMap with references to them.
The progress dialog can follow the exact same principle.
I came up with a method of using AsyncTaskLoaders for this. It's pretty easy to use and requires less overhead IMO..
Basically you create an AsyncTaskLoader like this:
public class MyAsyncTaskLoader extends AsyncTaskLoader {
Result mResult;
public HttpAsyncTaskLoader(Context context) {
super(context);
}
protected void onStartLoading() {
super.onStartLoading();
if (mResult != null) {
deliverResult(mResult);
}
if (takeContentChanged() || mResult == null) {
forceLoad();
}
}
#Override
public Result loadInBackground() {
SystemClock.sleep(500);
mResult = new Result();
return mResult;
}
}
Then in your activity that uses the above AsyncTaskLoader when a button is clicked:
public class MyActivityWithBackgroundWork extends FragmentActivity implements LoaderManager.LoaderCallbacks<Result> {
private String username,password;
#Override
protected void onCreate(Bundle savedInstanceState) {
// TODO Auto-generated method stub
super.onCreate(savedInstanceState);
setContentView(R.layout.mylayout);
//this is only used to reconnect to the loader if it already started
//before the orientation changed
Loader loader = getSupportLoaderManager().getLoader(0);
if (loader != null) {
getSupportLoaderManager().initLoader(0, null, this);
}
}
public void doBackgroundWorkOnClick(View button) {
//might want to disable the button while you are doing work
//to prevent user from pressing it again.
//Call resetLoader because calling initLoader will return
//the previous result if there was one and we may want to do new work
//each time
getSupportLoaderManager().resetLoader(0, null, this);
}
#Override
public Loader<Result> onCreateLoader(int i, Bundle bundle) {
//might want to start a progress bar
return new MyAsyncTaskLoader(this);
}
#Override
public void onLoadFinished(Loader<LoginResponse> loginLoader,
LoginResponse loginResponse)
{
//handle result
}
#Override
public void onLoaderReset(Loader<LoginResponse> responseAndJsonHolderLoader)
{
//remove references to previous loader resources
}
}
This seems to handle orientation changes fine and your background task will continue during the rotation.
A few things to note:
If in onCreate you reattach to the asynctaskloader you will get called back in onLoadFinished() with the previous result (even if you had already been told the request was complete). This is actually good behavior most of the time but sometimes it can be tricky to handle. While I imagine there are lots of ways to handle this what I did was I called loader.abandon() in onLoadFinished. Then I added check in onCreate to only reattach to the loader if it wasn't already abandoned. If you need the resulting data again you won't want to do that. In most cases you want the data.
I have more details on using this for http calls here
I created a very tiny open-source background task library which is heavily based on the Marshmallow AsyncTask but with additional functionality such as:
Automatically retaining tasks across configuration changes;
UI callback (listeners);
Doesn't restart or cancel task when the device rotates (like Loaders would do);
The library internally uses a Fragment without any user interface, which is retained accross configuration changes (setRetainInstance(true)).
You can find it on GitHub: https://github.com/NeoTech-Software/Android-Retainable-Tasks
Most basic example (version 0.2.0):
This example fully retains the task, using a very limited amount of code.
Task:
private class ExampleTask extends Task<Integer, String> {
public ExampleTask(String tag){
super(tag);
}
protected String doInBackground() {
for(int i = 0; i < 100; i++) {
if(isCancelled()){
break;
}
SystemClock.sleep(50);
publishProgress(i);
}
return "Result";
}
}
Activity:
public class Main extends TaskActivityCompat implements Task.Callback {
#Override
public void onClick(View view){
ExampleTask task = new ExampleTask("activity-unique-tag");
getTaskManager().execute(task, this);
}
#Override
public Task.Callback onPreAttach(Task<?, ?> task) {
//Restore the user-interface based on the tasks state
return this; //This Activity implements Task.Callback
}
#Override
public void onPreExecute(Task<?, ?> task) {
//Task started
}
#Override
public void onPostExecute(Task<?, ?> task) {
//Task finished
Toast.makeText(this, "Task finished", Toast.LENGTH_SHORT).show();
}
}
My approach is to use delegation design pattern, in general, we can isolate the actual business logic (read data from internet or database or whatsoever) from AsyncTask (the delegator) to BusinessDAO (the delegate), in your AysncTask.doInBackground() method, delegate the actual task to BusinessDAO, then implement a singleton process mechanism in BusinessDAO, so that multiple call to BusinessDAO.doSomething() will just trigger one actual task running each time and waiting for the task result. The idea is retain the delegate (i.e. BusinessDAO) during the configuration change, instead of the delegator (i.e. AsyncTask).
Create/Implement our own Application, the purpose is to create/initialize BusinessDAO here, so that our BusinessDAO's lifecycle is application scoped, not activity scoped, note that you need change AndroidManifest.xml to use MyApplication:
public class MyApplication extends android.app.Application {
private BusinessDAO businessDAO;
#Override
public void onCreate() {
super.onCreate();
businessDAO = new BusinessDAO();
}
pubilc BusinessDAO getBusinessDAO() {
return businessDAO;
}
}
Our existing Activity/Fragement are mostly unchanged, still implement AsyncTask as an inner class and involve AsyncTask.execute() from Activity/Fragement, the difference now is AsyncTask will delegate the actual task to BusinessDAO, so during the configuration change, a second AsyncTask will be initialized and executed, and call BusinessDAO.doSomething() second time, however, second call to BusinessDAO.doSomething() will not trigger a new running task, instead, waiting for current running task to finish:
public class LoginFragment extends Fragment {
... ...
public class LoginAsyncTask extends AsyncTask<String, Void, Boolean> {
// get a reference of BusinessDAO from application scope.
BusinessDAO businessDAO = ((MyApplication) getApplication()).getBusinessDAO();
#Override
protected Boolean doInBackground(String... args) {
businessDAO.doSomething();
return true;
}
protected void onPostExecute(Boolean result) {
//Handle task result and update UI stuff.
}
}
... ...
}
Inside BusinessDAO, implement singleton process mechanism, for example:
public class BusinessDAO {
ExecutorCompletionService<MyTask> completionExecutor = new ExecutorCompletionService<MyTask(Executors.newFixedThreadPool(1));
Future<MyTask> myFutureTask = null;
public void doSomething() {
if (myFutureTask == null) {
// nothing running at the moment, submit a new callable task to run.
MyTask myTask = new MyTask();
myFutureTask = completionExecutor.submit(myTask);
}
// Task already submitted and running, waiting for the running task to finish.
myFutureTask.get();
}
// If you've never used this before, Callable is similar with Runnable, with ability to return result and throw exception.
private class MyTask extends Callable<MyTask> {
public MyAsyncTask call() {
// do your job here.
return this;
}
}
}
I am not 100% sure if this will work, moreover, the sample code snippet should be considered as pseudocode. I am just trying to give you some clue from design level. Any feedback or suggestions are welcome and appreciated.
You could make the AsyncTask a static field. If you need a context, you should ship your application context. This will avoid memory leaks, otherwise you'd keep a reference to your entire activity.
If anyone finds their way to this thread then I found a clean approach was to run the Async task from an app.Service (started with START_STICKY) and then on recreate iterate over the running services to find out whether the service (and hence async task) is still running;
public boolean isServiceRunning(String serviceClassName) {
final ActivityManager activityManager = (ActivityManager) Application.getContext().getSystemService(Context.ACTIVITY_SERVICE);
final List<RunningServiceInfo> services = activityManager.getRunningServices(Integer.MAX_VALUE);
for (RunningServiceInfo runningServiceInfo : services) {
if (runningServiceInfo.service.getClassName().equals(serviceClassName)){
return true;
}
}
return false;
}
If it is, re-add the DialogFragment (or whatever) and if it is not ensure the dialog has been dismissed.
This is particularly pertinent if you are using the v4.support.* libraries since (at the time of writing) they have know issues with the setRetainInstance method and view paging. Furthermore, by not retaining the instance you can recreate your activity using a different set of resources (i.e. a different view layout for the new orientation)
I write samepl code to solve this problem
First step is make Application class:
public class TheApp extends Application {
private static TheApp sTheApp;
private HashMap<String, AsyncTask<?,?,?>> tasks = new HashMap<String, AsyncTask<?,?,?>>();
#Override
public void onCreate() {
super.onCreate();
sTheApp = this;
}
public static TheApp get() {
return sTheApp;
}
public void registerTask(String tag, AsyncTask<?,?,?> task) {
tasks.put(tag, task);
}
public void unregisterTask(String tag) {
tasks.remove(tag);
}
public AsyncTask<?,?,?> getTask(String tag) {
return tasks.get(tag);
}
}
In AndroidManifest.xml
<application
android:allowBackup="true"
android:icon="#drawable/ic_launcher"
android:label="#string/app_name"
android:theme="#style/AppTheme"
android:name="com.example.tasktest.TheApp">
Code in activity:
public class MainActivity extends Activity {
private Task1 mTask1;
#Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
mTask1 = (Task1)TheApp.get().getTask("task1");
}
/*
* start task is not running jet
*/
public void handletask1(View v) {
if (mTask1 == null) {
mTask1 = new Task1();
TheApp.get().registerTask("task1", mTask1);
mTask1.execute();
} else
Toast.makeText(this, "Task is running...", Toast.LENGTH_SHORT).show();
}
/*
* cancel task if is not finished
*/
public void handelCancel(View v) {
if (mTask1 != null)
mTask1.cancel(false);
}
public class Task1 extends AsyncTask<Void, Void, Void>{
#Override
protected Void doInBackground(Void... params) {
try {
for(int i=0; i<120; i++) {
Thread.sleep(1000);
Log.i("tests", "loop=" + i);
if (this.isCancelled()) {
Log.e("tests", "tssk cancelled");
break;
}
}
} catch (InterruptedException e) {
e.printStackTrace();
}
return null;
}
#Override
protected void onCancelled(Void result) {
TheApp.get().unregisterTask("task1");
mTask1 = null;
}
#Override
protected void onPostExecute(Void result) {
TheApp.get().unregisterTask("task1");
mTask1 = null;
}
}
}
When activity orientation changes variable mTask is inited from app context. When task is finished variable is set to null and remove from memory.
For me its enough.
Have a look at below example , how to use retained fragment to retain background task:
public class NetworkRequestFragment extends Fragment {
// Declare some sort of interface that your AsyncTask will use to communicate with the Activity
public interface NetworkRequestListener {
void onRequestStarted();
void onRequestProgressUpdate(int progress);
void onRequestFinished(SomeObject result);
}
private NetworkTask mTask;
private NetworkRequestListener mListener;
private SomeObject mResult;
#Override
public void onAttach(Activity activity) {
super.onAttach(activity);
// Try to use the Activity as a listener
if (activity instanceof NetworkRequestListener) {
mListener = (NetworkRequestListener) activity;
} else {
// You can decide if you want to mandate that the Activity implements your callback interface
// in which case you should throw an exception if it doesn't:
throw new IllegalStateException("Parent activity must implement NetworkRequestListener");
// or you could just swallow it and allow a state where nobody is listening
}
}
#Override
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
// Retain this Fragment so that it will not be destroyed when an orientation
// change happens and we can keep our AsyncTask running
setRetainInstance(true);
}
/**
* The Activity can call this when it wants to start the task
*/
public void startTask(String url) {
mTask = new NetworkTask(url);
mTask.execute();
}
#Override
public void onActivityCreated(Bundle savedInstanceState) {
super.onActivityCreated(savedInstanceState);
// If the AsyncTask finished when we didn't have a listener we can
// deliver the result here
if ((mResult != null) && (mListener != null)) {
mListener.onRequestFinished(mResult);
mResult = null;
}
}
#Override
public void onDestroy() {
super.onDestroy();
// We still have to cancel the task in onDestroy because if the user exits the app or
// finishes the Activity, we don't want the task to keep running
// Since we are retaining the Fragment, onDestroy won't be called for an orientation change
// so this won't affect our ability to keep the task running when the user rotates the device
if ((mTask != null) && (mTask.getStatus == AsyncTask.Status.RUNNING)) {
mTask.cancel(true);
}
}
#Override
public void onDetach() {
super.onDetach();
// This is VERY important to avoid a memory leak (because mListener is really a reference to an Activity)
// When the orientation change occurs, onDetach will be called and since the Activity is being destroyed
// we don't want to keep any references to it
// When the Activity is being re-created, onAttach will be called and we will get our listener back
mListener = null;
}
private class NetworkTask extends AsyncTask<String, Integer, SomeObject> {
#Override
protected void onPreExecute() {
if (mListener != null) {
mListener.onRequestStarted();
}
}
#Override
protected SomeObject doInBackground(String... urls) {
// Make the network request
...
// Whenever we want to update our progress:
publishProgress(progress);
...
return result;
}
#Override
protected void onProgressUpdate(Integer... progress) {
if (mListener != null) {
mListener.onRequestProgressUpdate(progress[0]);
}
}
#Override
protected void onPostExecute(SomeObject result) {
if (mListener != null) {
mListener.onRequestFinished(result);
} else {
// If the task finishes while the orientation change is happening and while
// the Fragment is not attached to an Activity, our mListener might be null
// If you need to make sure that the result eventually gets to the Activity
// you could save the result here, then in onActivityCreated you can pass it back
// to the Activity
mResult = result;
}
}
}
}
Have a look here.
There is a solution based on Timmmm's solution.
But I improved it:
Now the solution is extendable - you only need to extend FragmentAbleToStartTask
You able to keep running several tasks at the same time.
And in my opinion it's as easy as startActivityForResult and receive result
You also can stop a running task and check whether particular task is running
Sorry for my English