Would it be OK to have a single instance of SQLiteOpenHelper as a member of a subclassed Application, and have all Activities that need an instance of SQLiteDatabase get it from the one helper?
Having a single
However, I wouldn't make a subclass of
And, in cases where you aren't dealing with multiple threads, you can avoid any possible memory leak issues by just using one
CommonsWare is right on (as usual). Expanding on his post, here is some sample code that illustrates three possible approaches. These will allow access to the database throughout the application.
Approach #1: subclassing `Application`
If you know your application won't be very complicated (i.e. if you know you'll only end up having one subclass of
Approach #2: have `SQLiteOpenHelper` be a static data member
This isn't the complete implementation, but it should give you a good idea on how to go about designing the
Approach #3: abstract the SQLite database with a `ContentProvider`
This is the approach I would suggest. For one, the new
Hope that helps!
I have written MultiThreadSQLiteOpenHelper which is an enhanced SQLiteOpenHelper for Android applications where several threads might open and close the same sqlite database.
Instead of calling close method, threads ask for closing the database, preventing a thread from performing a query on a closed database.
If each thread asked for closing, then a close is actually performed. Each activity or thread (ui-thread and user-threads) performs an open call on database when resuming, and asks for closing the database when pausing or finishing.
Source code and samples available here: https://github.com/d4rxh4wx/MultiThreadSQLiteOpenHelper
I did a lot of research on this topic and I agree with all the points mentioned by commonware . But i think there is an important point everyone is missing here , Answer to this question is entirely dependent on your Use Case so if your application is reading databases via multiple threads and only reading using Singleton has a huge performance hit as all the functions are synchronized and are executed serially as there is a single connection to database Open source is great, by the way. You can dig right into the code and see what’s going on. From that and some testing, I’ve learned the following are true:
If you try to write to the database from actual distinct connections at the same time, one will fail. It will not wait till the first is done and then write. It will simply not write your change. Worse, if you don’t call the right version of insert/update on the SQLiteDatabase, you won’t get an exception. You’ll just get a message in your LogCat, and that will be it.
The first problem, real, distinct connections. The great thing about open source code is you can dig right in and see what’s going on. The SQLiteOpenHelper class does some funny things. Although there is a method to get a read-only database connection as well as a read-write connection, under the hood, its always the same connection. Assuming there are no file write errors, even the read-only connection is really the single, read-write connection. Pretty funny. So, if you use one helper instance in your app, even from multiple threads, you never really using multiple connections.
Also, the SQLiteDatabase class, of which each helper has only one instance, implements java level locking on itself. So, when you’re actually executing database operations, all other db operations will be locked out. So, even if you have multiple threads doing stuff, if you’re doing it to maximize database performance, I have some bad news for you. No benefit.
If you turn off one writing thread, so only one thread is writing to the db, but another reading, and both have their own connections, the read performance shoots WAY up and I don’t see any lock issues. That’s something to pursue. I have not tried that with write batching yet.
If you are going to perform more than one update of any kind, wrap it in a transaction. It seems like the 50 updates I do in the transaction take the same amount of time as the 1 update outside of the transaction. My guess is that outside of the transaction calls, each update attempts to write the db changes to disk. Inside the transaction, the writes are done in one block, and the overhead of writing dwarfs the update logic itself.
Yes, that is the way you should go about it, having a helper class for the activities that need an instance of the Database.