StorIOSQLite.md

StorIOSQLite — API for SQLite Database

0. Create an instance of StorIOSQLite

StorIOSQLite storIOSQLite = DefaultStorIOSQLite.builder()
  .sqliteOpenHelper(yourSqliteOpenHelper)
  .addTypeMapping(SomeType.class, typeMapping) // required for object mapping
  .build();

It's a good practice to use one instance of StorIOSQLite per database, otherwise you can have problems with notifications about changes in the db.

1. Get Operation

Get list of objects with blocking call:

final List<Tweet> tweets = storIOSQLite
  .get()
  .listOfObjects(Tweet.class)
  .withQuery(Query.builder()
    .table("tweets")
    .build())
  .prepare()
  .executeAsBlocking();

Get Cursor via blocking call:

final Cursor tweetsCursor = storIOSQLite
  .get()
  .cursor()
  .withQuery(Query.builder()
    .table("tweets")
    .build())
  .prepare()
  .executeAsBlocking();

Things become much more interesting with RxJava!

What if you want to observe changes in StorIOSQLite?

First-case: Receive updates to Flowable on each change in tables from Query

storIOSQLite
  .get()
  .listOfObjects(Tweet.class)
  .withQuery(Query.builder()
    .table("tweets")
    .build())
  .prepare()
  .asRxFlowable(BackpressureStrategy.LATEST) // Get Result as io.reactivex.Flowable and subscribe to further updates of tables from Query!
  .observeOn(mainThread()) // All Rx operations work on Schedulers.io()
  .subscribe(tweets -> { // Please don't forget to unsubscribe
      // will be called with first result and then after each change of tables from Query
      // several changes in transaction -> one notification
      adapter.setData(tweets);
    }
  );
// don't forget to manage Subscription and unsubscribe in lifecycle methods to prevent memory leaks

Second case: Handle changes manually

storIOSQLite
  .observeChangesInTable("tweets")
  .subscribe(changes -> { // Just subscribe or apply Rx Operators such as Debounce, Filter, etc
    // do what you want!
  });

Third case: Observe changes of tags to have more fine-grained control over notifications

storIOSQLite
  .get()
  .listOfObjects(Tweet.class)
  .withQuery(Query.builder()
    .table("tweets")
    .observesTags("particular_change_tag") // Subscribe to changes with this particular tag(s).
    .build())
  .prepare()
  .asRxFlowable(BackpressureStrategy.LATEST);

Also you can handle changes of tags manually

storIOSQLite
  .observeChangesOfTag("particular_change_tag")
  .subscribe(changes -> {
    // Just subscribe or apply Rx Operators such as Debounce, Filter, etc.
  });

Get result via Rx only once and ignore further changes

storIOSQLite
  .get()
  .listOfObjects(Tweet.class)
  .withQuery(Query.builder()
          .table("tweets")
          .build())
  .prepare()
  .asRxFlowable(BackpressureStrategy.LATEST)
  .take(1)  // To get result only once and ignore further changes of this table
  .observeOn(mainThread())
  .subscribe(tweets -> {
      // Display data
    }
  );

Get result with RawQuery with joins and other SQL things

storIOSQLite
  .get()
  .listOfObjects(TweetAndUser.class)
  .withQuery(RawQuery.builder()
    .query("SELECT * FROM tweets JOIN users ON tweets.user_name = users.name WHERE tweets.user_name = ?")
    .args("artem_zin")
    .build())
  .prepare()
  .asRxFlowable(BackpressureStrategy.LATEST);

Customize behavior of Get Operation with GetResolver

GetResolver<Type> getResolver = new DefaultGetResolver()<Type> {
  @Override @NonNull public SomeType mapFromCursor(@NonNull Cursor cursor) {
    return new SomeType(); // parse Cursor here
  }
};

storIOSQLite
  .get()
  .listOfObjects(Tweet.class)
  .withQuery(someQuery)
  .withGetResolver(getResolver) // here we set custom GetResolver for Get Operation
  .prepare()
  .executeAsBlocking();

Several things about Get Operation:

• There is DefaultGetResolver — Default implementation of GetResolver which simply redirects query to StorIOSQLite, in 99% of cases DefaultGetResolver will be enough
• As you can see, results of Get Operation computed even if you'll apply RxJava operators such as Debounce, if you want to avoid unneeded computations, please combine StorIOSQLite.observeChangesInTable() with Get Operation manually.
• In next versions of StorIO we are going to add Lazy<T> to allow you skip unneeded computations
• If you want to Put multiple items into StorIOSQLite, better to do this in transaction to avoid multiple calls to the listeners (see docs about Put Operation)

2. Put Operation

Put object of some type

Tweet tweet = getSomeTweet();

storIOSQLite
  .put()
  .object(tweet)
  .prepare()
  .executeAsBlocking(); // or asRxSingle()

Put multiple objects of some type

List<Tweet> tweets = getSomeTweets();

storIOSQLite
  .put()
  .objects(tweets)
  .prepare()
  .executeAsBlocking(); // or asRxSingle()

Put ContentValues

ContentValues contentValues = getSomeContentValues(); 

storIOSQLite
  .put()
  .contentValues(contentValues)
  .withPutResolver(putResolver) // requires PutResolver<ContentValues>
  .prepare()
  .executeAsBlocking(); // or asRxSingle()

Put Operation requires PutResolver which defines the behavior of Put Operation (insert or update).

PutResolver<SomeType> putResolver = new DefaultPutResolver<SomeType>() {
  @Override @NonNull public InsertQuery mapToInsertQuery(@NonNull SomeType object) {
    return InsertQuery.builder()
      .table("some_table")
      .affectsTags("particular_change_tag") // optional: you can specify affected tags to notify Observers
      .build();
  }
  
  @Override @NonNull public UpdateQuery mapToUpdateQuery(@NonNull SomeType object) {
    return UpdateQuery.builder()
      .table("some_table")
      .where("some_column = ?")
      .whereArgs(object.someColumn())
      .affectsTags("particular_change_tag") // optional: you can specify affected tags to notify Observers
      .build();
  }
  
  @Override @NonNull public ContentValues mapToContentValues(@NonNull SomeType object) {
    final ContentValues contentValues = new ContentValues();
    // fill with fields from object
    return contentValues;
  }
};

Several things about Put Operation:

• Put Operation requires PutResolver
• Put Operation for collections can be executed in transaction and by default it will use transaction, you can customize this via useTransaction(true) or useTransaction(false)
• Put Operation in transaction will produce only one notification to StorIOSQLite observers
• Result of Put Operation can be useful if you want to know what happened: insert (and insertedId) or update (and number of updated rows)

3. Delete Operation

Delete object

Tweet tweet = getSomeTweet();

storIOSQLite
  .delete()
  .object(tweet)
  .prepare()
  .executeAsBlocking(); // or asRxCompletable()

Delete multiple objects

List<Tweet> tweets = getSomeTweets();

storIOSQLite
  .delete()
  .objects(tweets)
  .prepare()
  .executeAsBlocking(); // or asRxCompletable()

Delete Resolver

DeleteResolver<SomeType> deleteResolver = new DefaultDeleteResolver<SomeType>() {
  @Override @NonNull public DeleteQuery mapToDeleteQuery(@NonNull SomeType object) {
    return DeleteQuery.builder()
      .table("some_table")
      .where("some_column = ?")
      .whereArgs(object.someColumn())
      .affectsTags("particular_change_tag") // optional: you can specify affected tags to notify Observers
      .build();
  }
};

Several things about Delete Operation:

• Delete Operation foc collection can be performed in transaction, by default it will use transaction if possible
• Same rules as for Put Operation about notifications for StorIOSQLite observers: transaction -> one notification, without transaction - multiple notifications
• Result of Delete Operation can be useful if you want to know what happened

4. ExecSql Operation

Sometimes you need to execute raw sql, StorIOSQLite allows you to do it

storIOSQLite
  .executeSQL()
  .withQuery(RawQuery.builder()
    .query("ALTER TABLE tweets ADD COLUMN number_of_retweets INTEGER")
    .affectsTables("tweets")                // optional: you can specify affected by this query tables
    .affectsTags("particular_change_tag")   // optional: and tags to notify Observers
    .build())
  .prepare()
  .executeAsBlocking(); // or asRxCompletable()

Several things about ExecSql:

• Use it for non insert/update/query/delete operations
• Notice that you can set list of tables and tags that will be affected by RawQuery and StorIOSQLite will notify Observers

How object mapping works?

You can set default type mappings when you build instance of StorIOSQLite or StorIOContentResolver

StorIOSQLite storIOSQLite = DefaultStorIOSQLite.builder()
  .sqliteOpenHelper(someSQLiteOpenHelper
  .addTypeMapping(Tweet.class, SQLiteTypeMapping.<Tweet>builder()
    .putResolver(new TweetPutResolver()) // object that knows how to perform Put Operation (insert or update)
    .getResolver(new TweetGetResolver()) // object that knows how to perform Get Operation
    .deleteResolver(new TweetDeleteResolver())  // object that knows how to perform Delete Operation
    .build())
  .addTypeMapping(...)
  // other options
  .build(); // This instance of StorIOSQLite will know how to work with Tweet objects

You can override Operation Resolver per each individual Operation, it can be useful for working with SQL JOIN.

To save you from coding boilerplate classes we created Annotation Processor which will generate PutResolver, GetResolver and DeleteResolver at compile time, you just need to use generated classes

dependencies {
    // At the moment there is annotation processor only for StorIOSQLite
  	implementation 'com.pushtorefresh.storio3:sqlite-annotations:insert-latest-version-here'

  	// We recommend to use Android Gradle Apt plugin: https://bitbucket.org/hvisser/android-apt
  	annotationProcessor 'com.pushtorefresh.storio3:sqlite-annotations-processor:insert-latest-version-here'
}

@StorIOSQLiteType(table = "tweets")
public class Tweet {
  
  // annotated fields should have package-level visibility
  @StorIOSQLiteColumn(name = "author")
  String author;

  @StorIOSQLiteColumn(name = "content")
  String content;

    // please leave default constructor with package-level visibility
  Tweet() {}
}

Annotation Processor will generate three classes in same package as annotated class during compilation:

• TweetStorIOSQLitePutResolver
• TweetStorIOSQLiteGetResolver
• TweetStorIOSQLiteDeleteResolver

You just need to apply them:

StorIOSQLite storIOSQLite = DefaultStorIOSQLite.builder()
  .sqliteOpenHelper(someSQLiteOpenHelper)
  .addTypeMapping(Tweet.class, SQLiteTypeMapping.<Tweet>builder()
    .putResolver(new TweetStorIOSQLitePutResolver()) // object that knows how to perform Put Operation (insert or update)
    .getResolver(new TweetStorIOSQLiteGetResolver()) // object that knows how to perform Get Operation
    .deleteResolver(new TweetStorIOSQLiteDeleteResolver())  // object that knows how to perform Delete Operation
    .build())
  .addTypeMapping(...)
  // other options
  .build(); // This instance of StorIOSQLite will know how to work with Tweet objects

BTW: Here is a class with all types of fields, supported by StorIO SQLite Annotation Processor.

Few tips about Operation Resolvers:

• If your entities are immutable or they have builders or they use AutoValue/AutoParcel -> write your own Operation Resolvers
• If you want to write your own Operation Resolver -> take a look at Default Operation resolvers, they can fit your needs
• Via custom Operation Resolvers you can implement any Operation as you want -> store one object in multiple tables, use custom sql things and so on

API of StorIOContentResolver is same.