I have a subclass of EditTextPreference that lets the user enter some structured text, and validates it before closing the dialog. I'd like to let the user enter this text by scanning an NFC tag while the preference's dialog is open. Scanning the tag would populate the EditText with the received text. Scanning the tag while the preference's dialog is not open would have no effect (i.e. it would let any other registered application handle the ACTION_NDEF_DISCOVERED Intent).

I have something very similar working in a related Activity already, so I don't need any help with the NFC part itself. The problem is wiring everything up through a Preference, when the NFC API is so tied to the hosting Activity, in these ways:-

  1. enableForegroundDispatch() takes an Activity argument
  2. the result is delivered via Activity.onNewIntent()

I have two ideas about how to proceed, with different shortcomings:-

  1. Require that the Activity containing my Preference do all the setup for me. It would need to tell the Preference the Activity's identity when it's first created, to allow the Preference to later call enableForegroundDispatch and disableForegroundDispatch at the right times. It would also need to forward onNewIntent() calls to the Preference. This seems pretty fragile - especially given that the Preference is usually going to be inside a PreferenceFragment, and the Activity needn't know anything about the individual preferences - but it would be more plausible if the Preference could find out what Activity is hosting it.
  2. Stop being a DialogPreference and replace the dialog with a private Activity themed like a dialog. Creating the layout is no problem, and that would keep all the NFC-related code inside the special Activity. But then the problem is how to startActivityForResult from the Preference. Setting an Intent in the Preference is insufficient because that uses startActivity and doesn't have a mechanism to get the result back. Even if I do manage to startActivityForResult, I have the same problem as above, that that would be delivered to the Activity hosting the Preference, which makes the mechanism fragile again. If I could use some other channel to get the text out of the Activity, this option would be more suitable.

Can you help overcome any of these problems? Getting either alternative working is sufficient, but I'd prefer option 2 because it would help me with another similar problem.

Go with 1) and create two interfaces:

  1. A for receiving intents (or better refined NFC data like NDEF records etc)
  2. B for setting or removing instances of A

Let the activity implement B and store A in a field. On an NFC event, call the interface if the A field is set.

Let the UI class implement A and store B in a field upon constructor.

And toggle nfc foreground mode based on whether the A field is an object or null.

Unless I am overlooking something obvious, it seems that implementing idea #2 should not be difficult.

You might want to take a look at the source code for RingtonePreference in the framework that calls startActivityForResult() from its onClick() method and process the intent it receives back as the result, very similar to your idea.

  • Unfortunately, the PreferenceManager methods used by RingtonePreference don't appear to be available to applications. (Specifically, that's registerOnActivityResultListener, getNextResultCode, and getFragment.) – Dan Hulme Apr 5 '13 at 10:23
up vote 1 down vote accepted

I was able to solve this in the end with some tricksy use of intents. I started with option 2:

  • I made my dialog into a new Activity, with a dialog theme. The new activity has all the NFC code: it passes itself to enableForegroundDispatch, and it has the onNewIntent method to update its text when a tag is scanned.
  • Instead of using setResult to return its result to the caller, the dialog activity constructs an Intent with some identifying information, an indication of whether OK was pressed or the dialog was cancelled, and the new text. It sends the intent from onPause, protected by if (isFinishing()), to make sure the intent gets sent even if it's closed from an outside touch or the back key.
  • I replaced my EditTextPreference subclass with a new subclass of Preference. The new class looks quite similar to EditTextPreference but doesn't need so much flexibility.
  • My new Preference contains an anonymous BroadcastReceiver subclass which gets the structured text from the Intent it receives and sets the value of the preference, updating the GUI and triggering onPreferenceChange listeners.
  • The onClick() method of my preference calls getContext().registerReceiver, passing the anonymous BroadcastReceiver and an intent filter that matches the identifying information set by the dialog activity. It then calls getContext().startActivity (not startActivityForResult) to start the dialog activity.

There's an extra complication: if a configuration change (such as reorientation) occurs while the dialog is open, the preference is destroyed and recreated along with its hosting activity. Because I used the activity's context, not the application context, to register the receiver, the old receiver will be unregistered, and the new preference needs to register a receiver. (Using the application context would have leaked the old activity and all its preferences, and would probably cause a crash when the old preference was updated.) So the preference has some more things to do:

  • onClick also sets a flag so that it knows the receiver is registered. The receiver clears the flag.
  • The preference's SavedState gets a copy of the "receiver is registered" flag.
  • The preference's onRestoreInstanceState checks this flag, and if set, calls getContext().registerBroadcastReceiver with the same receiver and intent filter as before.

The result is that from a Preference, I can have the same functionality as a startActivityForResult, but all the code to achieve this stays inside the Preference and the Activity it calls: the containing PreferenceActivity or PreferenceFragment doesn't need any code. As I have the same type of preference on several screens, this is a huge code reuse win, and of course much better encapsulation.

The same technique could be used for other preferences that want to use functionality that's hard to achieve in an AlertDialog, such as GL, video, sound, or embedding maps fragments.

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