sqflite 1.2.0-dev.1 sqflite: ^1.2.0-dev.1 copied to clipboard
Flutter plugin for SQLite, a self-contained, high-reliability, embedded, SQL database engine.
sqflite #
SQLite plugin for Flutter. Supports both iOS and Android.
- Support transactions and batches
- Automatic version managment during open
- Helpers for insert/query/update/delete queries
- DB operation executed in a background thread on iOS and Android
Getting Started #
In your flutter project add the dependency:
dependencies:
...
sqflite: ^1.1.8
For help getting started with Flutter, view the online documentation.
Usage example #
Import sqflite.dart
import 'package:sqflite/sqflite.dart';
Opening a database #
A SQLite database is a file in the file system identified by a path. If relative, this path is relative to the path
obtained by getDatabasesPath()
, which is the default database directory on Android and the documents directory on iOS.
var db = await openDatabase('my_db.db');
There is a basic migration mechanism to handle schema changes during opening.
Many applications use one database and would never need to close it (it will be closed when the application is terminated). If you want to release resources, you can close the database.
await db.close();
Raw SQL queries #
Demo code to perform Raw SQL queries
// Get a location using getDatabasesPath
var databasesPath = await getDatabasesPath();
String path = join(databasesPath, 'demo.db');
// Delete the database
await deleteDatabase(path);
// open the database
Database database = await openDatabase(path, version: 1,
onCreate: (Database db, int version) async {
// When creating the db, create the table
await db.execute(
'CREATE TABLE Test (id INTEGER PRIMARY KEY, name TEXT, value INTEGER, num REAL)');
});
// Insert some records in a transaction
await database.transaction((txn) async {
int id1 = await txn.rawInsert(
'INSERT INTO Test(name, value, num) VALUES("some name", 1234, 456.789)');
print('inserted1: $id1');
int id2 = await txn.rawInsert(
'INSERT INTO Test(name, value, num) VALUES(?, ?, ?)',
['another name', 12345678, 3.1416]);
print('inserted2: $id2');
});
// Update some record
int count = await database.rawUpdate(
'UPDATE Test SET name = ?, VALUE = ? WHERE name = ?',
['updated name', '9876', 'some name']);
print('updated: $count');
// Get the records
List<Map> list = await database.rawQuery('SELECT * FROM Test');
List<Map> expectedList = [
{'name': 'updated name', 'id': 1, 'value': 9876, 'num': 456.789},
{'name': 'another name', 'id': 2, 'value': 12345678, 'num': 3.1416}
];
print(list);
print(expectedList);
assert(const DeepCollectionEquality().equals(list, expectedList));
// Count the records
count = Sqflite
.firstIntValue(await database.rawQuery('SELECT COUNT(*) FROM Test'));
assert(count == 2);
// Delete a record
count = await database
.rawDelete('DELETE FROM Test WHERE name = ?', ['another name']);
assert(count == 1);
// Close the database
await database.close();
Basic information on SQL here.
SQL helpers #
Example using the helpers
final String tableTodo = 'todo';
final String columnId = '_id';
final String columnTitle = 'title';
final String columnDone = 'done';
class Todo {
int id;
String title;
bool done;
Map<String, dynamic> toMap() {
var map = <String, dynamic>{
columnTitle: title,
columnDone: done == true ? 1 : 0
};
if (id != null) {
map[columnId] = id;
}
return map;
}
Todo();
Todo.fromMap(Map<String, dynamic> map) {
id = map[columnId];
title = map[columnTitle];
done = map[columnDone] == 1;
}
}
class TodoProvider {
Database db;
Future open(String path) async {
db = await openDatabase(path, version: 1,
onCreate: (Database db, int version) async {
await db.execute('''
create table $tableTodo (
$columnId integer primary key autoincrement,
$columnTitle text not null,
$columnDone integer not null)
''');
});
}
Future<Todo> insert(Todo todo) async {
todo.id = await db.insert(tableTodo, todo.toMap());
return todo;
}
Future<Todo> getTodo(int id) async {
List<Map> maps = await db.query(tableTodo,
columns: [columnId, columnDone, columnTitle],
where: '$columnId = ?',
whereArgs: [id]);
if (maps.length > 0) {
return Todo.fromMap(maps.first);
}
return null;
}
Future<int> delete(int id) async {
return await db.delete(tableTodo, where: '$columnId = ?', whereArgs: [id]);
}
Future<int> update(Todo todo) async {
return await db.update(tableTodo, todo.toMap(),
where: '$columnId = ?', whereArgs: [todo.id]);
}
Future close() async => db.close();
}
Read results #
Assuming the following read results:
List<Map<String, dynamic>> records = await db.query('my_table');
Resulting map items are read-only
// get the first record
Map<String, dynamic> mapRead = records.first;
// Update it in memory...this will throw an exception
mapRead['my_column'] = 1;
// Crash... `mapRead` is read-only
You need to create a new map if you want to modify it in memory:
// get the first record
Map<String, dynamic> map = Map<String, dynamic>.from(mapRead);
// Update it in memory now
map['my_column'] = 1;
Transaction #
Don't use the database but only use the Transaction object in a transaction to access the database
await database.transaction((txn) async {
// Ok
await txn.execute('CREATE TABLE Test1 (id INTEGER PRIMARY KEY)');
// DON'T use the database object in a transaction
// this will deadlock!
await database.execute('CREATE TABLE Test2 (id INTEGER PRIMARY KEY)');
});
A transaction is committed if the callback does not throw an error. If an error is thrown, the transaction is cancelled. So to rollback a transaction one way is to throw an exception.
Batch support #
To avoid ping-pong between dart and native code, you can use Batch
:
batch = db.batch();
batch.insert('Test', {'name': 'item'});
batch.update('Test', {'name': 'new_item'}, where: 'name = ?', whereArgs: ['item']);
batch.delete('Test', where: 'name = ?', whereArgs: ['item']);
results = await batch.commit();
Getting the result for each operation has a cost (id for insertion and number of changes for update and delete), especially on Android where an extra SQL request is executed. If you don't care about the result and worry about performance in big batches, you can use
await batch.commit(noResult: true);
Warning, during a transaction, the batch won't be committed until the transaction is committed
await database.transaction((txn) async {
var batch = txn.batch();
// ...
// commit but the actual commit will happen when the transaction is committed
// however the data is available in this transaction
await batch.commit();
// ...
});
By default a batch stops as soon as it encounters an error (which typically reverts the uncommitted changes). You can ignore errors so that every successfull operation is ran and committed even if one operation fails:
await batch.commit(continueOnError: true);
Table and column names #
In general it is better to avoid using SQLite keywords for entity names. If any of the following name is used:
"add","all","alter","and","as","autoincrement","between","case","check","collate","commit","constraint","create","default","deferrable","delete","distinct","drop","else","escape","except","exists","foreign","from","group","having","if","in","index","insert","intersect","into","is","isnull","join","limit","not","notnull","null","on","or","order","primary","references","select","set","table","then","to","transaction","union","unique","update","using","values","when","where"
the helper will escape the name i.e.
db.query('table')
will be equivalent to manually adding double-quote around the table name (confusingly here named table
)
db.rawQuery('SELECT * FROM "table"');
However in any other raw statement (including orderBy
, where
, groupBy
), make sure to escape the name
properly using double quote. For example see below where the column name group
is not escaped in the columns
argument, but is escaped in the where
argument.
db.query('table', columns: ['group'], where: '"group" = ?', whereArgs: ['my_group']);
Supported SQLite types #
No validity check is done on values yet so please avoid non supported types https://www.sqlite.org/datatype3.html
DateTime
is not a supported SQLite type. Personally I store them as
int (millisSinceEpoch) or string (iso8601)
bool
is not a supported SQLite type. Use INTEGER
and 0 and 1 values.
More information on supported types here.
INTEGER #
- Dart type:
int
- Supported values: from -2^63 to 2^63 - 1
REAL #
- Dart type:
num
TEXT #
- Dart type:
String
BLOB #
- Dart type:
Uint8List
- Dart type
List<int>
is supported but not recommended (slow conversion)
Current issues #
- Due to the way transaction works in SQLite (threads), concurrent read and write transaction are not supported. All calls are currently synchronized and transactions block are exclusive. I thought that a basic way to support concurrent access is to open a database multiple times but it only works on iOS as Android reuses the same database object. I also thought a native thread could be a potential future solution however on android accessing the database in another thread is blocked while in a transaction...
- Currently INTEGER are limited to -2^63 to 2^63 - 1 (although Android supports bigger ones)
More #
- How to guide