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An annotation-based ORM for Flutter inspired by the Room persistence library. This library is based on sqflite and wraps it for better APIs.

flutter_orm #

An annotation-based ORM for Flutter inspired by the Room persistence library. This library is based on sqflite and wraps it for better APIs. Supports Android, iOS and MacOS.

  • Simple APIs for create DB, Entities
  • Simple APIs for CRUD operations
  • Supports transactions
  • Supports custom type converters
  • Supports migrations

Usage example:

  • notes: Simple flutter notes project working on Android/iOS

The library is in Beta and isn't completely stable.

Getting Started #

In your flutter project add the dependency:

dependencies:
  ...
  flutter_orm:
  sqflite:

dev_dependencies:
  ...
  flutter_orm_generator:
  build_runner:

For help getting started with Flutter, view the online documentation.

Import #

import 'package:flutter_orm/flutter_orm.dart';

Note that, if you make any change in structure of database(include DB, Dao, Entity and etc), you have to run below command for apply changes.

flutter pub run build_runner build --delete-conflicting-outputs;

Entity(Table) #

For create an entity or table, you can use @Entity annotation on a class. You can set tableName and indices for this table, in this annotation. If you don't set tableName, the class name will be set as the default name. You have to set primary key for table by using @PrimaryKey annotation. The entity must have exactly one primary key and only integer primary key can be auto auto generated. Auto generated primary key must be nullable. All properties of the class that this annotation applied on, map to a column in the table unless properties that @Ignore annotation are applied on. Default column name is property name. If you want to change it use @Column annotation and set name property.

@Entity(tableName: 'notes', indices: [
  Index(columns: ['text'], unique: true)
])
class Note {
  @PrimaryKey(autoGenerate: true)
  final int? id;

  final String text;
  final bool isEdited;
  final DateTime createDate;
  final DateTime? updateDate;

  @Column(name: 'lat')
  final double? latitude;

  @Column(name: 'lng')
  final double? longitude;

  @Ignore()
  final String? ignoreTest;

  Note({
    this.id,
    required this.text,
    required this.isEdited,
    required this.createDate,
    this.updateDate,
    this.latitude,
    this.longitude,
    this.ignoreTest,
  });
}

Database #

For create a database, you can use @DB annotation on an abstract class. Database entities(tables) must be defined in this annotation. Configuration methods like OnConfigure, OnCreate, OnOpen, OnUpgrade and OnDowngrade for actions like Migration can define in this class.

@DB(
  name: 'note_db',
  version: 1,
  entities: [Note],
)
abstract class NoteDB {
  @OnUpgrade()
  Future<void> onUpgrade(Database db, int oldVersion, int newVersion) async {
    print('onUpgrade');
  }

  @OnDowngrade()
  Future<void> onDowngrade(Database db, int oldVersion, int newVersion) async {
    print('onDowngrade');
  }

  @OnConfigure()
  Future<void> onConfigure(Database db) async {
    print('onConfigure');
  }

  @OnOpen()
  Future<void> onOpen(Database db) async {
    print('onOpen');
  }
}

Database Builder #

For initialize databases and generate methods for access to databases, you have to define an abstract class with @DBBuilder annotation and pass databases class to databases paramater of @DBBuilder annotation. You don't need to do anything extra.

@DBBuilder(databases: [NoteDB])
abstract class DatabaseBuilder {}

After define this class, you can create and access to database like this:

NoteDB db = await DBContext.getNoteDB();

Both DB and DBBuilder class, must be defined in separated files.

Dao #

For Create Dao(Data Access Object) you can use @Dao annotation. @Dao annotation must apply on an abstract class. In this class you can define methods for access and manipulate data in tables.

@Dao()
abstract class NoteDao {
  // methods for access and manipulate data
}

After define this class, you have to define an abstract method in your db class for access to this dao:

@DB(
  name: 'note_db',
  version: 1,
  entities: [Note],
)
abstract class NoteDB {
  NoteDao noteDao();
}

For access to dao, do like this:

NoteDB noteDB = await DBContext.getNoteDB();
final dao = noteDB.noteDao();
int count = await dao.count() ?? 0;

Insert #

For insert data in your tables, you can use @Insert annotation. Methods that annotated with this annotation can have only one input parameter that is an Entity or List of an Entity and cannot be nullable. If the input parameter is Entity, the return type can be Future<void> or Future<int?>, but if the input parameter is List of Entity, the return type only can be Future<void>. You can set OnConflictStrategy for when conflict occurs.

@Dao()
abstract class NoteDao {
  @Insert(onConflict: OnConflictStrategy.ignore)
  Future<void> insert(Note note);
  
  @Insert(onConflict: OnConflictStrategy.ignore)
  Future<void> bulkInsert(List<Note> notes);
}

Update #

For update data in your tables, you can use @Update annotation. Methods that annotated with this annotation can have only one input parameter that is an Entity or List of an Entity and cannot be nullable. If the input parameter is Entity, the return type can be Future<void> or Future<int?>, but if the input parameter is List of Entity, the return type only can be Future<void>. You can set OnConflictStrategy for when conflict occurs.

@Dao()
abstract class NoteDao {
  @Update(onConflict: OnConflictStrategy.replace)
  Future<void> update(Note note);
  
  @Update(onConflict: OnConflictStrategy.replace)
  Future<void> bulkUpdate(List<Note> notes);
}

Delete #

For delete data in your tables, you can use @Delete annotation. Methods that annotated with this annotation can have only one input parameter that is an Entity and cannot be nullable. The return type can be Future<void> or Future<int?>.

@Dao()
abstract class NoteDao {
  @Delete()
  Future<void> delete(Note note);
}

Query #

For define raw query to access or manipulate your data, you can use @Query annotation. You have to pass your raw query as a String to query property of this annotation. Also, you have to detect the return type, yourself. You can fetch raw results as List<Map<String, Object?>>? by using RawData class as the return type. Also, you can fetch results as a custom class. In this case you must pass that custom class to the @SingularReturnType annotation. For better query, you can have any number of input parameters and you can pass these parameters to query using the colon(:) symbol.

@Dao()
abstract class NoteDao {
   @Query("select * from Note")
   Future<List<Note>> all();
   
   @Query("delete from Note")
   Future<void> deleteAll();
   
   @Query("select * from Note where id= :id")
   Future<Note?> getById(int id);
   
   @Query("select count(*) from Note")
   Future<int?> count();
   
   @Query("select * from Note where isEdited= :isEdited")
   Future<List<Note>> getNotes(bool isEdited);
   
   @Query("select * from Note where id IN (:ids)")
   Future<List<Note>> getNotesByIds(List<int> ids);
   
   @Query("select * from Note where lat IN (:lats)")
   Future<List<Note>> getNotesByLatitudes(List<double> lats);
   
   @Query("select * from Note where text LIKE '%:search%'")
   Future<RawData> search(String search);
   
   @Query("select lat from Note")
   Future<List<double>> getLatitudes();
   
   @Query("select id, text, lat, createDate from Note")
   @SingularReturnType(CustomNote)
   Future<List<CustomNote>> getCustomNotes();
   
   @Query("select id, text, lat, createDate from Note where id= :id")
   @SingularReturnType(CustomNote)
   Future<CustomNote?> getCustomNoteById(int id);
}

Transaction #

Transactions can define using @Transactional annotation. For define transaction you have to use other dao methods name as sequentialActions and pass required parameters by @InsertParam, @UpdateParam, @DeleteParam and @QueryParam annotations. For example if the first method of the sequentialActions property, is an insert method, you have to define an input parameter with @InsertParam annotation and correct type based on original method. @QueryParam has two arguments. The first is method name and the second is parameter name in original method. The return type of these methods must be Future<void>.

@Dao()
abstract class NoteDao {
  @Insert(onConflict: OnConflictStrategy.ignore)
  Future<void> insert(Note note);
  
  @Query("delete from Note where id = :id")
  Future<void> deleteById(int id);
  
  @Transactional(sequentialActions: ['insert', 'deleteById'])
  Future<void> insertAndDeleteById(
    @InsertParam() Note newNote,
    @QueryParam('deleteById', 'id') int noteId,
  );
}

TypeConverter #

If there are types that doesn't support internally, you can define these types yourself, using @TypeConverter annotation. You can define a class and write methods for convert these types to a supported type. these methods must annotated with @TypeConverter annotation.

class Converters {
  @TypeConverter()
  static DateTime to(String value) {
    return DateTime.parse(value);
  }
  
  @TypeConverter()
  static String from(DateTime dateTime) {
    return dateTime.toIso8601String();
  }
}

Note that you have to write both methods(from and to). After define these methods, you can use DateTime in your entities as a field. Note that DateTime class, is support internally and you don't need define TypeConverter for that. After that, you have to pass this class to your database class in @TypeConverters annotation.

@DB(
  name: 'note_db',
  version: 1,
  entities: [Note],
)
@TypeConverters(Converters)
abstract class NoteDB {
  // DAOs
}

built-in types support: #

  • int
  • num
  • String
  • Uint8List
  • bool
  • double
  • DateTime
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An annotation-based ORM for Flutter inspired by the Room persistence library. This library is based on sqflite and wraps it for better APIs.

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