Sqflite package extension to add some ORM abilities. From Sqlite/Sqflite fan, with love ).
- Index
- Motivation
- Code generation
- What is inside
- DbEngine
- Field mapping
- What if we need to support DateTime for our entity?
- Primary Key
- Custom fields
- Migration from one database version to new one
- Hive to SQLite migration
- Usage
Sqflite (https://pub.dev/packages/sqflite) is a cool and powerful sqlite package that supports a lot of stuff, including:
- Support transactions and batches
- Automatic version management during open
- Helpers for insert/query/update/delete queries
- DB operation executed in a background thread on iOS and Android
But there is one thing missing - an ORM approach that would allow you to get some ORM practices out of the box for working with classes in the code, the instances of which you plan to store in the database and further continue to work with them.
This package is an attempt to add some syntax sugar to Sqflite that makes it even easier, declarative, and safer when we are talking about data type conversions.
I'll try to show you how it might look in our code.
Imagine that we have an entity of type ProfileEntity that needs to be stored in the database. In Dart, it is declared like this:
class ProfileEntity {
final String firstName;
final String lastName;
final String? position;
final String? profile;
...
}If we want to store instances of this type in the database (we can reference it as Entity further), we can mark it up in the code with @SqlEntityDefinition annotations, including setting the name of the table in the database.
For example, it might look like this:
@SqlEntityDefinition(tableName: 'profile')
class ProfileEntity {
@SqlField(fieldName: 'first_name')
final String firstName;
@SqlField(fieldName: 'last_name')
final String lastName;
@SqlField(fieldName: 'position')
final String? position;
@SqlField(fieldName: 'profile')
final String? profile;
@SqlField(fieldName: 'team_name')
final String? teamName;
In this example, using the SqlEntityDefinition annotation, we specify the name of the table (profile). Using the SqlField annotation, we determine which are the fields we need to store in the database, and corresponding columns to be used to store them.
Very similar to Hive, isn't it https://pub.dev/packages/hive#store-objects?
Then there is the step of code generation.
We add the corresponding part file to the file of the declared entity itself, by analogy with how we do it for json_serializable, freezed or hive etc.
For example,
part 'profile_entity.sql.g.dart';
@SqlEntityDefinition(tableName: 'profile')
class ProfileEntity {Let's start code generation:
flutter pub run build_runner build --delete-conflicting-outputsAs a result, after code generation, the following functions will be available to us in the code:
Storing the Entity:
await dbEngine.storeEntity(
ProfileEntity(
firstName: 'A',
lastName: 'B',
),
);Get all available entities of specified Type:
await dbEngine.retrieveCollection<ProfileEntity>();Or just the very first one:
await dbEngine.retrieveFirstEntity<ProfileEntity>();Update an entity according to a given condition:
final updatedEntity = ProfileEntity(
firstName: 'A',
lastName: 'C',
);
await dbEngine.updateEntity(
updatedEntity,
where: '${ProfileEntitySqlAdapter.columns.lastName} == ?',
whereArgs: ['B'],
);Or we can delete some entities by condition:
await dbEngine.deleteEntity<ProfileEntity>(
where: '${ProfileEntitySqlAdapter.columns.lastName} == ?',
whereArgs: ['B'],
);or all entities at once:
await dbEngine.clearEntities<ProfileEntity>();If you need to return a data set from the database according to your custom conditions, you can use the queryEntities construct:
final selectedEntities = await dbEngine.queryEntities<ProfileEntity>(
where: '${ProfileEntitySqlAdapter.columns.lastName} == ?',
whereArgs: ['B'],
orderBy: '${ProfileEntitySqlAdapter.columns.firstName} ASC',
limit: 1
);A very important thing that should not be forgotten is Ttransactions.
They are also supported, just specify transaction object in helper methods:
Example:
await dbEngine.beginTransaction((txn) async {
await dbEngine.updateEntity(
updatedEntity,
where: '${ProfileEntitySqlAdapter.columns.lastName} == ?',
whereArgs: ['B'],
transaction: txn,
);
await dbEngine.deleteEntity<ProfileEntity>(
where: '${ProfileEntitySqlAdapter.columns.lastName} == ?',
whereArgs: ['B'],
transaction: txn,
);
});And batches:
await dbEngine.beginTransaction(
(transaction) async {
final batch = transaction.batch();
dbEngine.storeEntitiesBatch(entities: entities, batch: batch);
await batch commit(noResult: true);
},
)After code generation for each entity in the generated classes, we get several important things:
- Factory method to create Entity from raw sql data
- Factory method to get raw sql data from class annotated by SqlEntityDefinition
- SqlAdapter Class - Helper class used to create table for class annotated by SqlEntityDefinition. This class contains the logic for serializing an entity into a database format (in fact, it is a Json Map), deserialization logic, and a Sqlite script for creating a table inside the database.
For the examples above, our SqlAdapter will look like this:
class ProfileEntitySqlAdapter implements SqlAdapter<ProfileEntity> {
static const ProfileEntityColumnsDeclaration columns =
ProfileEntityColumnsDeclaration();
const ProfileEntitySqlAdapter();
@override
Type get modelType => ProfileEntity;
@override
ProfileEntity deserialize(Map<String, dynamic> json) =>
_$ProfileEntityFromSqlDataMap(json);
@override
Map<String, dynamic> serialize(ProfileEntity entity) =>
_$ProfileEntityToSqlDataMap(entity);
@override
String get tableName => 'profile';
@override
String get createEntityTableScript => '''
CREATE TABLE profile(
first_name TEXT NOT NULL ,
last_name TEXT NOT NULL ,
position TEXT,
profile TEXT,
team_name TEXT,
id INTEGER PRIMARY KEY AUTOINCREMENT ,
created INTEGER NOT NULL DEFAULT (DATETIME('now')))
''';
}SqlAdapters themselves do not know how to work with a database. They need some kind of engine. In the examples above, we worked with methods through a dbEngine instance.
What is it?
In order to be able to create the appropriate tables in the database for our entities after code generation, we create such an auxiliary class, inherited from the provided SqliteEngine class. The only field that needs to be implemented is to specify the database version (to be able to migrate in the future).
For example,
class ApplicationDBEngine extends SqliteEngine {
@override
int get dbVersion => 1;
}Next, when we want to work with database we need to create and initialize an instance of our SqliteEngine:
final dbEngine = ApplicationDBEngine();Using the registryAdapters method, we enumerate the list of sql adapters of all types for which we need to create our own tables:
dbEngine.registryAdapters(
[
const ImageEntitySqlAdapter(),
const ProfileEntitySqlAdapter(),
],
);The last thing we need is to create the database itself in case it doesn't exist.
await dbEngine.initialize(databaseIdentity: 'test_only')You can also configure a specific file name using the optional filePathFactory parameter.
await dbEngine.initialize(
databaseIdentity: 'test_only',
filePathFactory: () => applicationDatabaseFilePath,
)Above, for the Profile entity, we used the TEXT data type to store entity fields. This data type is used by default, if we do not specify otherwise.
But we can specify any of the supported Sqlite data types using the SqlField annotation on the fieldType field:
For example,
@SqlField(
fieldName: 'uploaded_at',
fieldType: SqlFieldType.integer,The following SqlFieldType enumeration types are supported:
- integer
- real
- text
- blob
what corresponds to the used sqlite type: https://www.sqlite.org/datatype3.html
Sqlite does not support the Date data type. However, using the Sqlfield annotation, we can support custom serialization / deserialization of this data type to any of the data types supported in Sqlite.
For example, convert datetime from dart to int data type via microsecondsSinceEpoch. Back via DateTime.fromMicrosecondsSinceEpoch(microsecondsSinceEpoch).
The same is true for the boolean type, performing conversions to and from integer.
We can do this by specifying tear-off methods for the toRawData, fromRawData factories.
For example,
@SqlField(
fieldName: 'created_at',
fieldType: SqlFieldType.integer,
toRawData: SqliteCodec.dateTimeEncode,
fromRawData: SqliteCodec.dateTimeDecode,
)
final DateTime createdAt;
...
abstract class SqliteCodec {
static DateTime dateTimeDecode(int microsecondsSinceEpoch) =>
DateTime.fromMicrosecondsSinceEpoch(microsecondsSinceEpoch);
static int dateTimeEncode(DateTime value) => value.microsecondsSinceEpoch;
}
In order to maintain the uniqueness of records, using the SqlField annotation, you can specify that a particular field will be used as the primary key in the corresponding table.
For example,
@SqlField(
fieldName: 'id',
fieldType: SqlFieldType.integer,
isPrimaryKey: true
)
final int id;You can specify isPrimaryKey for several fields - in this case, the compound primary key will be formed.
It happens that for some entities we need to support some service fields in the database table that should not be part of the class.
This can be an auto increment field, or other fields with default values set, such as the date a record was created in a table, or the date it was updated.
In this case, you can use the SqlEntityDefinition annotation by specifying such fields outside the entity itself.
For example,
@SqlEntityDefinition(
tableName: 'profile',
fields: [
SQLField(
fieldName: 'id',
fieldType: SqlFieldType.integer,
isAutoIncrement: true,
isPrimaryKey: true,
),
SQLField(
fieldName: 'created',
fieldType: SqlFieldType.integer,
defaultValueExpression: '(DATETIME(\'now\'))'),
],
)For the case above, these fields can also be used in where expressions, for example, for custom queries in queryEntities.
await dbEngine.queryEntities<ProfileEntity>(
where: '${ProfileEntitySqlAdapter.columns.created} > ? ',
whereArgs: [
lastCreatedDate,
],
);Above, we talked about creating our own SqliteEngine class, which will contain all the logic for working with entities.
class ApplicationDBEngine extends SqliteEngine {
@override
int get dbVersion => 1;
}It was important to specify the version number.
It often happens that the database changes and it is necessary to support it with an upgrade to a new version.
There is also support for such a scenario, and it is implemented through the implementation of the property
Map<int, DatabaseMigration> get migrations;migrations getter should return a Map whose key is the version number to which the script specified by the DatabaseMigration function will be executed.
For example, such migrations might look like this:
Map<int, DatabaseMigration> get migrations => {
2: (db) => db.execute(
'ALTER TABLE profile ADD COLUMN team_lead TEXT',
),
3: (db) => db.execute(
'ALTER TABLE image ADD COLUMN created INTEGER',
),
};This collection of migrations tells us that if version 2 is installed on the client, and the current version of the new database should become 3, then only the script will be executed:
ALTER TABLE image ADD COLUMN created INTEGERIf version 1 was previously installed, then both migrations will be performed - from version 1 to version 2, and from version 2 to version 3.
As shown above, the proposed approach is very similar to Hive, when we use annotations to define the types that Hive will work with.
The @HiveType annotation corresponds to the SqlEntityDefinition.
@HiveField to @SqlField.
TypeAdapter is responsible for about the same functions as SqlAdapter.
At the same time, the logic for registering a list of such adapters is also very similar.
Compare the code:
hive.registerAdapter(ImageEntityAdapter());
hive.registerAdapter(ProfileEntityAdapter());and
dbEngine.registryAdapters(
[
const ImageEntitySqlAdapter(),
const ProfileEntitySqlAdapter(),
],
);Therefore, if you want to switch from Hive to Sqflite, it will be quite easy for you to do it. Of course it won't be so easy ). You will need to refactor all interactions with your entities in the code (to store them, retrieve etc).
But, welcome.
To mark up your classes with @Sql... annotations, and to declare the Sqlite database engine class (under the hood is Sqflite), you need to add sqflite_entities package to the pubspec in the dependencies:
sqflite_entities
flutter pub add sqflite_entitiesTo perform the code generation, you need to add the sqflite_entities_generator package to dev_dependencies:
flutter pub add sqflite_entities_generator --devWishes and comments are welcome.