- Installation
- Setup
- Registering factories
- Registering singletons
- Disposing of singletons
- Registering asynchronous injectables
- Passing Parameters to factories
- Binding abstract classes to implementations
- Register under different environments
- Using named factories and static create functions
- Registering third party types
- Auto registering
dependencies:
# add injectable to your dependencies
injectable:
# add get_it
get_it:
dev_dependencies:
# add the generator to your dev_dependencies
injectable_generator:
# add build runner if not already added
build_runner:
- Create a new dart file and define a global var for your GetIt instance.
- Define a top-level function (lets call it configureDependencies) then annotate it with @injectableInit.
- Call the Generated func $initGetIt(), or your custom initilizer name inside your configure func and pass in the getIt instance.
final getIt = GetIt.instance;
@InjectableInit(
initializerName: r'$initGetIt', // default
preferRelativeImports: true, // default
asExtension: false, // default
)
void configureDependencies() => $initGetIt(getIt);
Note: you can tell injectable what directories to generate for using the generateForDir property inside of @injectableInit.
The following example will only process files inside of the test folder.
@InjectableInit(generateForDir: ['test'])
void configureDependencies() => $initGetIt(getIt);
- Call configureDependencies() in your main func before running the App.
void main() {
configureDependencies();
runApp(MyApp());
}
All you have to do now is annotate your injectable classes with @injectable and let the generator do the work.
@injectable
class ServiceA {}
@injectable
class ServiceB {
ServiceB(ServiceA serviceA);
}
Use the [watch] flag to watch the files' system for edits and rebuild as necessary.
flutter packages pub run build_runner watch
if you want the generator to run one time and exits use
flutter packages pub run build_runner build
Injectable will generate the needed register functions for you
final getIt = GetIt.instance;
void $initGetIt(GetIt getIt,{String environment,EnvironmentFilter environmentFilter}) {
final gh = GetItHelper(getIt, environment);
gh.factory<ServiceA>(() => ServiceA());
gh.factory<ServiceB>(ServiceA(getIt<ServiceA>()));
}
Use the @singleton
or @lazySingleton
to annotate your singleton classes.
Alternatively use the constructor version to pass signalsReady to getIt.registerSingleton(signalsReady)
@Singleton(signalsReady: true)
>> getIt.registerSingleton(Model(), signalsReady: true)
@LazySingleton()
>> getIt.registerLazySingleton(() => Model())
@singleton // or @lazySingleton
class ApiProvider {}
GetIt provides a way to dispose singleton and lazySingleton instances by passing a dispose callBack to the register function, Injectable works in the static realm which means it's not possible to pass instance functions to your annotation, luckly injectable provides two simple ways to handle instance disposing.
1- Annotating an instance method inside of your singleton class with @disposeMethod
.
@singleton // or lazySingleton
class DataSource {
@disposeMethod
void dispose(){
// logic to dispose instance
}
}
2- Passing a reference to a dispose function to Singleton()
or LazySingleton()
annotations.
@Singleton(dispose: disposeDataSource)
class DataSource {
void dispose() {
// logic to dispose instance
}
}
/// dispose function signature must match Function(T instance)
FutureOr disposeDataSource(DataSource instance){
instance.dispose();
}
Requires GetIt >= 4.0.0
if we are to make our instance creation async we're gonna need a static initializer method since constructors can not be asynchronous.
class ApiClient {
static Future<ApiClient> create(Deps ...) async {
....
return apiClient;
}
}
Now simply annotate your class with @injectable
and tell injectable to use that static initializer method as a factory method using the @factoryMethod
annotation
@injectable // or lazy/singleton
class ApiClient {
@factoryMethod
static Future<ApiClient> create(Deps ...) async {
....
return apiClient;
}
}
injectable will automatically register it as an asynchronous factory because the return type is a Future.
factoryAsync<ApiClient>(() => ApiClient.create());
just wrap your instance with a future, and you're good to go
@module
abstract class RegisterModule {
Future<SharedPreferences> get prefs => SharedPreferences.getInstance();
}
Don't forget to call getAsync<T>()
instead of get<T>()
when resolving an async injectable.
if you want to pre-await the future and register it's resolved value, annotate your async dependencies with @preResolve
.
@module
abstract class RegisterModule {
@preResolve
Future<SharedPreferences> get prefs => SharedPreferences.getInstance();
}
Future<void> $initGetIt(GetIt get, {String environment, EnvironmentFilter environmentFilter}) async {
final gh = GetItHelper(getIt, environment);
final registerModule = _$RegisterModule();
final sharedPreferences = await registerModule.prefs;
gh.factory<SharedPreferences>(() => sharedPreferences);
...
}
as you can see this will make your initGetIt
func async so be sure to await for it
Requires GetIt >= 4.0.0
If you're working with a class you own simply annotate your changing constructor param with @factoryParam
, you can have up to two parameters max!
@injectable
class BackendService {
BackendService(@factoryParam String url);
}
factoryParam<BackendService, String, dynamic>(
(url, _) => BackendService(url),
);
// Maximum 2 params
getIt<BackendService>(param1: 'www.example.com')
if you declare a module member as a method instead of a simple accessor, injectable will treat it as a factory method, meaning it will inject it's parameters as it would with a regular constructor.
The same way if you annotate an injected param with @factoryParam
injectable will treat it as a factory param.
@module
abstract class RegisterModule {
BackendService getService(ApiClient client, @factoryParam String url) => BackendService(client, url);
}
factoryParam<BackendService, String, dynamic>(
(url, _) => registerModule.getService(g<ApiClient>(), url));
Use the 'as' Property inside of Injectable(as:..)
to pass an abstract type that's implemented by the registered dependency
@Injectable(as: Service)
class ServiceImpl implements Service {}
// or
@Singleton(as: Service)
class ServiceImpl implements Service {}
// or
@LazySingleton(as: Service)
class ServiceImpl implements Service {}
factory<Service>(() => ServiceImpl())
Since we can't use type binding to register more than one implementation, we have to use names (tags)
to register our instances or register under different environment. (we will get to that later)
@Named("impl1")
@Injectable(as: Service)
class ServiceImpl implements Service {}
@Named("impl2")
@Injectable(as: Service)
class ServiceImp2 implements Service {}
Next annotate the injected instance with @Named()
right in the constructor and pass in the name of the desired implementation.
@injectable
class MyRepo {
final Service service;
MyRepo(@Named('impl1') this.service)
}
factory<Service>(() => ServiceImpl1(), instanceName: 'impl1')
factory<Service>(() => ServiceImpl2(), instanceName: 'impl2')
factory<MyRepo>(() => MyRepo(getIt('impl1'))
Use the lower cased @named annotation to automatically assign the implementation class name to the instance name.
Then use @Named.from(Type)
annotation to extract the name from the type
@named
@Injectable(as: Service)
class ServiceImpl1 implements Service {}
@injectable
class MyRepo {
final Service service;
MyRepo(@Named.from(ServiceImpl1) this.service)
}
factory<Service>(() => ServiceImpl1(), instanceName: 'ServiceImpl1')
factory<MyRepo>(() => MyRepo(getIt('ServiceImpl1'))
it is possible to register different dependencies for different environments by using @Environment('name')
annotation.
in the below example ServiceA is now only registered if we pass the environment name to $initGetIt(environment: 'dev')
@Environment("dev")
@injectable
class ServiceA {}
you could also create your own environment annotations by assigning the const constructor Environment("")
to a global const var.
const dev = Environment('dev');
// then just use it to annotate your classes
@dev
@injectable
class ServiceA {}
You can assign multiple environment names to the same class
@test
@dev
@injectable
class ServiceA {}
Alternatively use the env property in injectable and subs to assign environment names to your dependencies
@Injectable(as: Service, env: [Environment.dev, Environment.test])
class RealServiceImpl implements Service {}
Now passing your environment to $initGetIt function will create a simple environment filter that will only validate dependencies that have no environments or one of their environments matches the given environment.
Alternatively, you can pass your own EnvironmentFilter
to decide what dependencies to register based on their environment keys, or use one of the shipped ones
- NoEnvOrContainsAll
- NoEnvOrContainsAny
- SimpleEnvironmentFilter
By default, injectable will use the default constructor to build your dependencies but, you can tell injectable to use named/factory constructors or static create functions by using the @factoryMethod
annotation. .
@injectable
class MyRepository {
@factoryMethod
MyRepository.from(Service s);
}
The constructor named "from" will be used when building MyRepository.
factory<MyRepository>(MyRepository.from(getIt<Service>()))
or annotate static create functions or factories inside of abstract classes with @factoryMethod
.
@injectable
abstract class Service {
@factoryMethod
static ServiceImpl2 create(ApiClient client) => ServiceImpl2(client);
@factoryMethod
factory Service.from() => ServiceImpl();
}
Generated code.
factory<Service>(() => Service.create(getIt<ApiClient>()))
To Register third party types, create an abstract class and annotate it with @module
then add your third party types as property accessors or methods like follows:
@module
abstract class RegisterModule {
@singleton
ThirdPartyType get thirdPartyType;
@prod
@Injectable(as: ThirdPartyAbstract)
ThirdPartyImpl get thirdPartyType;
}
In some cases you'd need to register instances that are asynchronous or singleton instances or just have a custom initializer and that's a bit hard for injectable to figure out on it's own, so you need to tell injectable how to initialize them;
@module
abstract class RegisterModule {
// You can register named preemptive types like follows
@Named("BaseUrl")
String get baseUrl => 'My base url';
// url here will be injected
@lazySingleton
Dio dio(@Named('BaseUrl') String url) => Dio(BaseOptions(baseUrl: url));
// same thing works for instances that's gotten asynchronous.
// all you need to do is wrap your instance with a future and tell injectable how
// to initialize it
@preResolve // if you need to pre resolve the value
Future<SharedPreferences> get prefs => SharedPreferences.getInstance();
// Also, make sure you await for your configure function before running the App.
}
if you're facing even a weirder scenario you can always register them manually in the configure function.
Instead of annotating every single injectable class you write, it is possible to use a Convention Based Configuration to auto register your injectable classes, especially if you follow a concise naming convention.
for example, you can tell the generator to auto-register any class that ends with Service, Repository or Bloc
using a simple regex pattern
class_name_pattern: 'Service$|Repository$|Bloc$'
To use auto-register create a file with the name build.yaml in the same directory as pubspec.yaml and add
targets:
$default:
builders:
injectable_generator:injectable_builder:
options:
auto_register: true
# auto registers any class with a name matches the given pattern
class_name_pattern:
"Service$|Repository$|Bloc$"
# auto registers any class inside a file with a
# name matches the given pattern
file_name_pattern: "_service$|_repository$|_bloc$"
Make sure you always Save your files before running the generator, if that does not work you can always try to clean and rebuild.
flutter packages pub run build_runner clean
- You can support the library by staring it on Github && liking it on pub or report any bugs you encounter.
- also, if you have a suggestion or think something can be implemented in a better way, open an issue and let's talk about it.