StorIO — modern API for SQLiteDatabase and ContentResolver
Overview:
- Powerful & Simple set of Operations:
Put
, Get
, Delete
- API for Humans: Type Safety, Immutability & Thread-Safety
- Convenient builders with compile-time guarantees for required params. Forget about 6-7
null
in queries - Optional Type-Safe Object Mapping, if you don't want to work with
Cursor
and ContentValues
you don't have to - No reflection in Operations and no annotations in the core, also
StorIO
is not ORM - Full control over queries, transaction and object mapping
- Every Operation over
StorIO
can be executed as blocking call or as io.reactivex.Flowable
/io.reactivex.Single
/io.reactivex.Completable
/io.reactivex.Maybe
RxJava
as first class citizen, but it's not required dependency!- Reactive:
io.reactivex.Flowable
from Get
Operation will observe changes in StorIO
(SQLite
or ContentProvider
) and receive updates automatically StorIO
is replacements for SQLiteDatabase
and ContentResolver
APIsStorIO
+ RxJava
is replacement for Loaders
API- We are working on
MockStorIO
(similar to MockWebServer) for easy unit testing
Why StorIO?
- Simple concept of just three main Operations:
Put
, Get
, Delete
-> less bugs - Almost everything is immutable and thread-safe -> less bugs
- Builders for everything make code much, much more readable and obvious -> less bugs
- Our builders give compile time guarantees for required parameters -> less bugs
StorIO
annotated with @NonNull
and @Nullable
annotations -> less bugs- Open Source -> less bugs
- Documentation, Sample app and Design tests -> less bugs
StorIO
has unit and integration tests -> less bugs- Less bugs -> less bugs
Documentation:
Easy ways to learn how to use StorIO
-> check out Documentation
, Design Tests
and Sample App
:
Download:
// If you need StorIO for SQLite
implementation 'com.pushtorefresh.storio3:sqlite:3.0.0'
// If you need StorIO for ContentResolver
implementation 'com.pushtorefresh.storio3:content-resolver:3.0.0'
// Notice that RxJava is optional dependency for StorIO,
// So if you need it -> please add it manually.
You can find all releases on Maven Central.
Some examples
Get list of objects from SQLiteDatabase
List<Tweet> tweets = storIOSQLite
.get()
.listOfObjects(Tweet.class)
.withQuery(Query.builder()
.table("tweets")
.where("author = ?")
.whereArgs("artem_zin")
.build())
.prepare()
.executeAsBlocking();
Put something to SQLiteDatabase
storIOSQLite
.put()
.objects(someTweets)
.prepare()
.executeAsBlocking();
Delete something from SQLiteDatabase
storIOSQLite
.delete()
.byQuery(DeleteQuery.builder()
.table("tweets")
.where("timestamp <= ?")
.whereArgs(System.currentTimeMillis() - 86400)
.build())
.prepare()
.executeAsBlocking();
Reactive? Single.just(true)!
Get something as io.reactivex.Flowable and receive updates!
storIOSQLite
.get()
.listOfObjects(Tweet.class)
.withQuery(Query.builder()
.table("tweets")
.build())
.prepare()
.asRxFlowable(BackpressureStrategy.LATEST)
.observeOn(mainThread())
.subscribe(tweets -> {
adapter.setData(tweets);
}
);
Want to work with plain Cursor, no problems
Cursor cursor = storIOSQLite
.get()
.cursor()
.withQuery(Query.builder()
.table("tweets")
.where("who_cares = ?")
.whereArgs("nobody")
.build())
.prepare()
.executeAsBlocking();
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())
.getResolver(new TweetGetResolver())
.deleteResolver(new TweetDeleteResolver())
.build())
.addTypeMapping(...)
.build();
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
Notice that annotation processors are not part of the library core, you can work with StorIO without them, we just made them to save you from boilerplate.
StorIOSQLite
:
dependencies {
implementation 'com.pushtorefresh.storio3:sqlite-annotations:insert-latest-version-here'
annotationProcessor 'com.pushtorefresh.storio3:sqlite-annotations-processor:insert-latest-version-here'
}
StorIOContentResolver
:
dependencies {
implementation 'com.pushtorefresh.storio3:content-resolver-annotations:insert-latest-version-here'
annotationProcessor 'com.pushtorefresh.storio3:content-resolver-annotations-processor:insert-latest-version-here'
}
@StorIOSQLiteType(table = "tweets")
public class Tweet {
@StorIOSQLiteColumn(name = "author")
String author;
@StorIOSQLiteColumn(name = "content")
String content;
Tweet() {}
}
Kotlin
:
In order to make annotation processors work with Kotlin you need to add the following to your build.gradle
:
apply plugin: 'kotlin-kapt'
Then use kapt
configuration instead of annotationProcessor
.
@StorIOSQLiteType(table = "tweets")
data class Tweet @StorIOSQLiteCreator constructor(
StorIOSQLiteColumn(name = "author") val author: String,
StorIOSQLiteColumn(name = "content") val content: String)
AutoValue
:
@AutoValue
@StorIOSQLiteType(table = "tweets")
public abstract class Tweet {
@StorIOSQLiteColumn(name = "author")
abstract String author();
@StorIOSQLiteColumn(name = "content")
abstract String content();
@StorIOSQLiteCreator
static Tweet create(String author, String content) {
return new AutoValue_Tweet(author, content);
}
}
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())
.getResolver(new TweetStorIOSQLiteGetResolver())
.deleteResolver(new TweetStorIOSQLiteDeleteResolver())
.build())
.addTypeMapping(...)
.build();
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.
Versioning:
Because StorIO works with important things like User data and so on, we use Semantic Versioning 2.0.0 scheme for releases (http://semver.org).
Short example:
1.2.3
-> MAJOR.MINOR.PATCH
MAJOR
version changes when we make incompatible API changes.MINOR
version changes when we add functionality in a backwards-compatible manner.PATCH
version changes when we make backwards-compatible bug fixes.
Please read CHANGELOG
and check what part of the version has changed, before switching to new version.
Architecture:
StorIOSQLite
and StorIOContentResolver
— are abstractions with default implementations: DefaultStorIOSQLite
and DefaultStorIOContentResolver
.
It means, that you can have your own implementation of StorIOSQLite
and StorIOContentResolver
with custom behavior, such as memory caching, verbose logging and so on or mock implementation for unit testing (we are working on MockStorIO
).
One of the main goals of StorIO
— clean API for Humans which will be easy to use and understand, that's why StorIOSQLite
and StorIOContentResolver
have just several methods, but we understand that sometimes you need to go under the hood and StorIO
allows you to do it: StorIOSQLite.LowLevel
and StorIOContentResolver.LowLevel
encapsulates low-level methods, you can use them if you need, but please try to avoid it.
Queries
All Query
objects are immutable, you can share them safely.
Concept of Prepared Operations
You may notice that each Operation (Get, Put, Delete) should be prepared with prepare()
. StorIO
has an entity called PreparedOperation
, and you can use them to perform group execution of several Prepared Operations or provide PreparedOperation
as a return type of your API (for example in Model layer) and client will decide how to execute it: executeAsBlocking()
or asRxFlowable()
. Also, Prepared Operations might be useful for ORMs based on StorIO
.
You can customize behavior of every Operation via Resolvers
: GetResolver
, PutResolver
, DeleteResolver
.
Rx Support Design
Every Operation can be executed as io.reactivex.Flowable
, io.reactivex.Single
, io.reactivex.Completable
or io.reactivex.Maybe
. Get Operations will be automatically subscribed to the updates of the data.
Every rx operation runs on Schedulers.io()
. You can change it by defaultRxScheduler()
or set it to null
to execute on current thread.
3rd party additions/integrations for StorIO
- CodeGenUnderStorIO allows you generate Java classes for db entities from the db schema built in some visual editor.
Master branch build status:
Made with love in Pushtorefresh.com by @artem_zin, @nikitin-da and @geralt-encore