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#Droid Migrate ##Android SQLite migrations made easy!

Two easy commands. One to create your first database migration:

$> droid-migrate init -d my_database

And another to upgrade:

$> droid-migrate generate up

Need to rollback? No problem, run:

$> droid-migrate generate down

You can read Introducing Android Migrations for a detailed tutorial or you can read on.

Why do I need Droid Migrate?

Rails migrations are beautiful. Progressive database changes are nicely encapsulated in migrations, which can be applied for both upgrades and rollbacks. When I started working on an Android app that made use of SQLite, I found myself wishing for the same facility.

Android does come with a helper class, android.database.sqlite.SQLiteOpenHelper, that facilitates database migrations somewhat and this framework makes use of it. In essence, the SQLiteOpenHelper class keys off of a database version and will run a corresponding onCreate, onUpgrade, or onDowngrade method depending on what version number an instance is initialized with. What those methods do and what version number is used is left entirely up to you, the app developer.

That's where Droid Migrate comes in -- this project manages version numbers and the migrations associated with them. Each migration can have a up and down method associated with it. You then plug in the appropriate SQL. Droid Migrate handles upgrades and rollbacks like Rails migrations.

Droid Migrate also provides you with a handy facade, dubbed DatabaseHelper from which you should obtain database connections (for doing things like displaying data, writing to SQLite, etc). This class is the core behind any migration that'll take place for your app.

If you've ever worked with Rails migrations, then you'll be right at home. If Rails migrations are new you to, but you've managed to deal with app SQLite upgrades and rollbacks, then you'll find this framework quite useful.

#How to get started

##Step 1: Set up PATH

Clone this repository (or download the zip file). Fire up a terminal and run ant dist. This will run some tests and ultimately build a few jar files. One jar file contains the bare minimum classes you'll need in an Android project (it's 4KB in size and Droid Migrate will automatically place it into your project's libs directory). The other jar file has code required for generating migrations and is not indented to be bundled with your app.

Once you've done that, you'll need to do two things: create a new environment variable dubbed DROID_MIGRATE_HOME and update your PATH. DROID_MIGRATE_HOME should be set to where you cloned (or unzipped) this project. Update your PATH to include DROID_MIGRATE_HOME\bin.

##Step 2: Create an initial migration

Next, open a terminal in the root of a desired Android project. Droid Migrate will create a number of assets for you depending on what command you issue.

If you are creating an initial migration -- i.e. on app create, for example, then you'll need to initialize Droid Migrate like so:

$> droid-migrate init -d <your database name> 

That is, the init command creates an initial migration for the database as specified by the -d flag. The migration class (along with a few other classes) will be put into your app's main package or a new one as specified by the -p flag.

For example, if you specified the -p flag's value as com.acme.app then that package will have two classes:

  • DatabaseHelper
  • DBVersion1

The class DatabaseHelper manages migrations and DBVersion1 is your first initial migration. What's more, a new XML document will be generated in the res/values directory dubbed migrations.xml. This document will contain values for the database sequence for migrations, the package name, and the database name. That XML document will be represented in your app's R file; you'll notice that the class DatabaseHelper makes use of the R object too.

You will need to implement your database creation via the DBVersion1 class -- simply provide your SQL String statements to the execSQL method inside the up method (and corresponding logic in the down method for rollbacks).

For example, if you were creating a table dubbed hops and populating it with data, your initial migration's up and down methods could be implemented like so:

import com.b50.migrations.AbstractMigration;

public class DBVersion1 extends AbstractMigration {

	public void up() {
		String create = "CREATE TABLE hops (_id integer  PRIMARY KEY AUTOINCREMENT DEFAULT NULL, name TEXT, "
				+ "description TEXT, substitutions TEXT DEFAULT '', alpha_acid TEXT DEFAULT '', beer_styles TEXT DEFAULT '', "
				+ "type TEXT DEFAULT '', user_notes TEXT DEFAULT '');";
		execSQL(create);
		String oneThing = "INSERT INTO 'hops' VALUES(1,'Amarillo','Spicy hop with mild bitterness and a noble aroma.  "
				+ "Good all around hop.','Cascade, Centennial','7 to 10','Ale, IPA','Aroma', '');";
		execSQL(oneThing);
	}

	public void down() {
		execSQL("DROP TABLE hops;");
	}
}

You do not need to edit any other files (i.e. don't worry about the migrations.xml file nor the DatabaseHelper class).

Once your app starts up on a device, so long as you use the DatabaseHelper object to obtain a SQL connection for building ListViews or what have you, a migration will take place.

For example, inside an onCreate method of your main Activity, you can grab a connection to SQLite like so:

SQLiteDatabase db = (new DatabaseHelper(this)).getWritableDatabase();

This will result in a relevant migration.

##Step 3: Create subsequent migrations

When you need to update SQLite either with database tables changes (i.e. ALTER commands) or you need to add more data (via INSERTs, UPDATEs, etc), you can generate a migration. This process will increment the database version found in the migrations.xml file and create a new migration class (DBVersion<next_sequence>. Note, you can even generate a rollback.

If you want to generate an upgrade migration, you need to open a terminal in the root of a previously Droid Migrate initialized project and type:

$> droid-migrate generate up

And if you need to rollback to a previous version, type:

$> droid-migrate generate down

You will then need to provide the relevant SQL details in the newly generated DBVersion<next_sequence> class (just like you did for the initial class, dubbed DBVersion1).

#How it works

Droid Migrate's secret sauce can be found in three files:

  • DatabaseHelper
  • DBVersion<some_sequence>
  • res/values/migrations.xml

DatabaseHelper, as mentioned in the how to section, is a simple facade that makes working with a SQLite instance easier. Think of it (or any class that extends Android's SQLiteOpenHelper) as the canonical way to interact with SQLite in an Android app.

In practice, you shouldn't ever need to alter this class. In fact, it is important that you don't alter the constructor, nor override the methods onDowngrade, onCreate, or onUpgrade -- take a look at the source code for these methods if you will, but they leverage a simple class dubbed Migrator that ultimately works with instances of AbstractMigration, which all DBVersion<sequence_number> types extend from.

For every corresponding version of your app's database, there's a DBVersion class -- these classes are named in sequence (i.e. DBVersion1, DBVersion2, and so on). These classes have up and down methods that correspond to upgrades and rollbacks, respectively. The base type, AbstractMigration has a method called execSQL that takes a String representing one to many SQL statements.

Finally, every Java framework worth its salt has a configuration file and Droid Migrate doesn't disappoint. migrations.xml is the beast that drives things (although beast is a stretch as the file has only 3 elements!) . In fact, because Android generates a simple reference file for all elements in XML files (called R), you note that the DatabaseHelper class makes implicit use of your app's R file.

For instance, the migrations.xml file has an element dubbed database_version:

<integer name="database_version">2</integer>

If you take a look in DatabaseHelper's constructor, you'll see this line:

super(context, context.getString(R.string.database_name), 
	  null, context.getResources().getInteger(R.integer.database_version));

Note the reference to the R file obtaining the database_version value!

#Bonus info

I built an app that uses SQLite to manage some simple data. I released it. Then I made some changes. Then I got a headache dealing with upgrades. I got a bigger headache when I saw an example of how to manage migrations (before Droid Migrate!). Take a look at this class. That's not a trivial class (nor a trivial app), nevertheless, it blows my mind and, in fact, saddens me. So I created Droid Migrate.

License

The MIT License

Copyright (c) 2013 Andrew Glover

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE

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