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Edit: changed Fragment to Partial, I was ignorant of the Fragment object when I wrote this.

I have a partial that contains a button to bring up the contact list. Doing this requires calling

startActivityForResult( new Intent(Intent.ACTION_PICK, Contacts.CONTENT_URI), MY_REQUEST_CODE );

and handling the result in my Activity, something like:

public void onActivityResult( int requestCode, int resultCode, Intent data ) {
    if (resultCode == RESULT_OK) {
        switch (requestCode) {
            case MY_REQUEST_CODE: {
                Address address = contact_address( data );
                if (address != null) {
                    // do something with address
                }
            } break;
        }
    }
}

Depending on how I include that partial in my Activity layout, it may be several layers deep in other partials, and there may be more than one instance of the partial.

I would like to avoid propagating the ID of MY_REQUEST_CODE all the way down to the partial that invokes the activity - or any variation thereof, like assigning an onClickListener to the button - I don't want the top level UI to care about how the partial is constructed at all.

Is there a standard way of achieving this? It seems to me that if onActivityResult could be made to accept Uri's instead of int codes, the propagation could have been avoided. I hope I am missing something obvious here...

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3 Answers 3

I have a fragment that contains a button to bring up the contact list. Doing this requires calling [startActivityForResult()]

The simplest answer is for you to call startActivityForResult() on the Fragment instead of the Activity. The result should be directed back to the fragment's own onActivityResult().

That being said, your approach appears to be a near-complete inversion over what I recommend. Fragments should not be starting activities. A fragment should neither know nor care how a particular UI event (e.g., button click) is handled for things that are outside the fragment itself. In this case, the activity should be responsible for obtaining the contact, with the fragment simply telling the activity "hey, this here button gots pressed, yo, and gimme a contact back". Not only is this important for separation of concerns, but it is important for testing, so you can test this behavior with mocked contact selections and such.

Depending on how I include that fragment in my Activity layout, it may be several layers deep in other UI fragments

You cannot nest fragments in fragments in Android. If you try, you will get unreliable results.

I don't want the top level UI to care about how the fragment is constructed at all.

Activities absolutely must know how the fragment is constructed, since the activity is the one doing the constructing.

Off the cuff, here is how I would approach it:

  1. Establish a listener interface for UI events raised by the fragment that transcend the bounds of the fragment itself. For the purposes of this answer, I'll call this OnFooEventListener.

  2. When the activity creates/configures the fragment, the activity supplies a OnFooEventListener instance to the fragment. That could be the activity itself, if the activity implements the interface.

  3. Establish a listener interface for the asynchronous pick-a-contact event that the fragment would like somebody to perform on its behalf. For the purposes of this answer, I'll call this OnContactPickedListener. It would have a method like onContactPicked() containing the Uri of the selected contact.

  4. On OnFooEventListener, have something like requestContact() that will be called when the user clicks the button. requestContact() would take an OnContactPickedListener instance as a parameter.

  5. The activity would do the startActivityForResult() call and, in onActivityResult(), call the associated onContactPicked() method on the OnContactPickedListener. The activity would cache those in a HashMap or something while the request was in process.

Now, we have clear separation between the activity and the fragment. The fragment can still be hosted by any number of activities (e.g., one for a large screen, a different one for a normal screen). The contact can be supplied either by the production means (ACTION_PICK) or something else for testing (e.g., value established as part of the test case). The activity can deal with any number of such fragments without issue.

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Thanks for your detailed response. I realize now that I should not have used the word Fragment, as that was introduced as a real concept in Honeycomb. I should have said Partial, akin to the concept in RoR. I appreciate the recommendation, but maintaining the same handler code in every Activity that contains this Partial still seems un-DRY to me. I came up with a solution that I will post as soon as I clean it up. –  Brane Oct 21 '11 at 22:05
    
Also thanks for the pointer on nested Fragments, I was considering doing exactly that. –  Brane Oct 21 '11 at 22:13

I didn't feel that Commonsware's solution answered my question, because it required every container of the partial to add handlers for events that are contained wholly within the partial.

I specifically do not want to have to implement handlers for every instance of that partial.

So I came up with a solution of sorts, though I admit it doesn't feel right either.

First, I subclass Activity, and create a small framework for associating a listener with startActivityForResult() and onActivityResult().

public class BaseActivity extends Activity {
    // assume that we'll never start more than one activity at a time from our activity (a safe assumption?)
    private static final int
        LISTENED_REQUEST_CODE = 1000000000;

    public static interface ActivityResultListener {
        public void onResultCode( int resultCode, Intent data );
    }
    private ActivityResultListener
        activity_result_listener_;

    public void startActivityForResult( Intent intent, ActivityResultListener listener ) {

        // paranoia
        if (activity_result_listener_ != null) {
            Log.e( TAG, "Activity trying to start more than one activity at a time..." );
            return;
        }

        activity_result_listener_ = listener;
        startActivityForResult( intent, LISTENED_REQUEST_CODE );
    }

    public void onActivityResult( int requestCode, int resultCode, Intent data ) {
        if (requestCode == LISTENED_REQUEST_CODE) {
            if (activity_result_listener_ != null) {
                ActivityResultListener listener = activity_result_listener_;
                activity_result_listener_ = null;
                listener.onResultCode( resultCode, data );
                return;
            }
        }

        super.onActivityResult(requestCode, resultCode, data);
    }
}

Then inside the partial, I call my overloaded startActivityForResult() and implement a listener:

public void onFinishInflate() {
    ImageButton contact_button = (ImageButton)findViewById(R.id.contact_button);
    contact_button.setOnClickListener( new OnClickListener() {
        @Override
        public void onClick(View view) {
            ((BaseActivity)getContext()).startActivityForResult( new Intent(Intent.ACTION_PICK, Contacts.CONTENT_URI), 
                new BaseActivity.ActivityResultListener() {
                    @Override
                    public void onResultCode( int resultCode, Intent data ) {
                        if (resultCode == BaseActivity.RESULT_OK) {
                            add_contact_address( data );
                        }
                    }
                });
        }
    } ); 
}

So now I can use this partial all over the place without having to define listeners for each instance.

The drawback I see is that subclassing Activity will prevent me from using other Activity types. This could be reworked into an interface/implementation, but then starts to suffer from non-DRY logic once more.

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Neither of the two methods here works. Both are prone to a problem when the calling Activity is replaced by the system (for instance, via screen rotation).

In Commonsware's answer, the OnContactPickedListener assigned by requestContact() will refer to a control that no longer exists.

In my own answer, the listener retained by the Activity will vanish, and the new activity's equivalent listener will be null.

However there is a solution, which relies on making the context of the listener reassignable.

Drawing on my previous solution, recast the ActivityResultListener interface as a static class:

abstract public static class ActivityResultListener {
    private Context
        context_;
    public ActivityResultListener( Context context ) {
        context_ = context;
    }
    public Context getContext() { return context_; }
    public void setContext( Context context ) { context_ = context; }

    abstract public void onResultCode( int resultCode, Intent data );
}

Set up an internal class to record state for the BaseActivity:

protected static class BaseState {
    private final ActivityResultListener
        activity_result_listener_;

    protected BaseState( BaseActivity activity ) {
        activity_result_listener_ = activity.activity_result_listener_;
    }

    protected void setState( BaseActivity activity ) {
        activity.activity_result_listener_ = activity_result_listener_;
        if (activity.activity_result_listener_ != null) {
            activity.activity_result_listener_.setContext( activity );
        }
    }
}

Note especially the call to setContext() in setState(). This avoids the problems associated with non-static interface implementations, i.e. that their references vanish when the Activity is recreated.

Retain state from within the BaseActivity:

@Override
public Object onRetainNonConfigurationInstance() {
    return new BaseState( this );
}

Restore state from within BaseActivity.onCreate()

Object state = getLastNonConfigurationInstance();
if (state instanceof BaseState) {
    ((BaseState)state).setState( this );
}

In the implementation of ActivityResultListener, be sure to use getContext() and findViewById() to dereference everything on demand rather than storing references:

private static class ContactChoiceListener extends BaseActivity.ActivityResultListener {
    private final int 
        id_;

    public ContactChoiceListener( Context context, int id ) {
        super( context );
        id_ = id;
    }

    @Override
    public void onResultCode( int resultCode, Intent data ) {
        if (resultCode == BaseActivity.RESULT_OK) {
            AddressEditor editor = (AddressEditor)((BaseActivity)getContext()).findViewById( id_ );
            if (editor != null)
                editor.add_contact_address( data );
        }
    }
}

Whew. And the best part is, this is all obsolete because Fragments have a completely different way of dealing with state, using setRetainInstance(boolean).

I will be implementing that version shortly, will post here if there is interest.

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