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The goal: refresh database from XML data

The process:

  • Start transaction
  • Delete all existing rows from the tables
  • Per each main element of parsed XML insert row into main table and get PK
  • Per each child of the main element insert record into 2nd table providing FK from the previous step
  • Commit transaction

Pretty standard stuff as far as db operations. The problem is that CRUD operations are not done within ContentProvider but rather using ContentResolver so the insert for example looks like resolver.insert(CONTENT_URI, contentValues). The ContentResolver API doesn't seem to have anything pertained to transaction and I cannot use bulkInsert since I'm inserting in 2 tables intermittently (plus I want to have delete inside the transaction as well).

I was thinking of registering my customized ContentProvider as listener by using registerContentObserver but since ContentResolver#acquireProvider methods are hidden how do I obtain the right reference?

Am I out of luck?

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2  
see this: stackoverflow.com/questions/4655291/… –  Tomasz Gawel Oct 25 '11 at 15:31
    
Did you ever find a solution to this? I can not find a solution that works –  jamesw Nov 11 '11 at 21:10

4 Answers 4

up vote 32 down vote accepted

I've seen that in the source code of Google I/O application, they override ContentProvider's applyBatch() method and use transactions inside of it. So, you create a batch of ContentProviderOperation s and then call getContentResolver().applyBatch(uri_authority, batch).

I'm planning to use this approach to see how it works. I'm curious if anyone else has tried it.

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6  
I've tried this approach and it works well. However each ContentProviderOperation in the batch are atomic operations. What I mean by this is that there is no way to correctly handle dependent operations for master-detail relationships where the identity key created by the first operation is needed as input for subsequent operations. I've asked this before, but got zero responses (stackoverflow.com/questions/3224857/…). –  Dan Oct 15 '10 at 18:42
    
I tried it too and I noticed a performance gain of over 1000 Percent. Just by copying the code from the IOShed Project to my Provider. –  fmo May 31 '12 at 23:24

It is possible to do transaction based multi table inserts rather cleanly since Android 2.1 by using ContentProviderOperation, as mentioned by kaciula.

When you build the ContentProviderOperation object, you can call .withValueBackReference(fieldName, refNr). When the operation is applied using applyBatch, the result is that the ContentValues object that is supplied with the insert() call will have an integer injected. The integer will be keyed with the fieldName String, and its value is retrieved from the ContentProviderResult of a previously applied ContentProviderOperation, indexed by refNr.

Please refer to the code sample below. In the sample, a row is inserted in table1, and the resulting ID (in this case "1") is then used as a value when inserting the row in table 2. For brevity, the ContentProvider is not connected to a database. In the ContentProvider, there are printouts where it would be suitable to add the transaction handling.

public class BatchTestActivity extends Activity {
    /** Called when the activity is first created. */
    public void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.main);

        ArrayList<ContentProviderOperation> list = new
            ArrayList<ContentProviderOperation>();

        list.add(ContentProviderOperation.
            newInsert(BatchContentProvider.FIRST_URI).build());
        ContentValues cv = new ContentValues();
        cv.put("name", "second_name");
        cv.put("refId", 23);

        // In this example, "refId" in the contentValues will be overwritten by
        // the result from the first insert operation, indexed by 0
        list.add(ContentProviderOperation.
            newInsert(BatchContentProvider.SECOND_URI).
            withValues(cv).withValueBackReference("refId", 0).build());

        try {
            getContentResolver().applyBatch(
                BatchContentProvider.AUTHORITY, list);
        } catch (RemoteException e) {
            e.printStackTrace();
        } catch (OperationApplicationException e) {
            e.printStackTrace();
        }
    }
}

public class BatchContentProvider extends ContentProvider {

    private static final String SCHEME = "content://";
    public static final String AUTHORITY = "com.test.batch";

    public static final Uri FIRST_URI =
        Uri.parse(SCHEME + AUTHORITY + "/" + "table1");
    public static final Uri SECOND_URI =
        Uri.parse(SCHEME + AUTHORITY + "/" + "table2");


    public ContentProviderResult[] applyBatch(
        ArrayList<ContentProviderOperation> operations)
            throws OperationApplicationException {
        System.out.println("starting transaction");
        ContentProviderResult[] result;
        try {
            result = super.applyBatch(operations);
        } catch (OperationApplicationException e) {
            System.out.println("aborting transaction");
            throw e;
        }
        System.out.println("ending transaction");
        return result;
    }

    public Uri insert(Uri uri, ContentValues values) {
        // this printout will have a proper value when
        // the second operation is applied
        System.out.println("" + values);

        return ContentUris.withAppendedId(uri, 1);
    }

    // other overrides omitted for brevity
}
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All right - so this does not dingle aimlessly: the only way I can think of is to code startTransaction and endTransaction as URL-based query requests. Something like ContentResolver.query(START_TRANSACTION, null, null, null, null). Then in ContentProvider#query based on the registered URL call start or end transaction

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You can get the implementation of the content provider object itself (if in the same process, hint: you can control the provider's process with multiprocess="true" or process="" http://developer.android.com/guide/topics/manifest/provider-element.html) using ContentProviderClient.getLocalContentProvider () which can be casted to your provider implementation which can provide extra functionality like a reset() that closes and deletes the database and you can also return a custom Transaction class instance with save() and close() methods.

public class Transaction {
    protected Transaction (SQLiteDatabase database) {
        this.database = database;
        database.beginTransaction ();
    }

    public void save () {
        this.database.setTransactionSuccessful ();
    }

    public void close () {
        this.database.endTransaction ();
    }

    private SQLiteDatabase database;
}

public Transaction createTransaction () {
    return new Transaction (this.dbHelper.getWritableDatabase ());
}

Then:

ContentProviderClient client = getContentResolver ().acquireContentProviderClient (Contract.authorityLocal);
Transaction tx = ((LocalContentProvider) client.getLocalContentProvider ()).createTransaction ();
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