state_manager library

Get State Manager is a light, modern and powerful state manager to Flutter

Classes

Bind<T>
BindElement<T>
The BindElement is responsible for injecting dependencies into the widget tree so that they can be observed
Binder<T>
Binding
Binding should be extended. When using GetMaterialApp, all GetPages and navigation methods (like Get.to()) have a binding property that takes an instance of Bindings to manage the dependencies() (via Get.put()) for the Route you are opening.
Binds
CustomStatus<T>
EmptyStatus<T>
Engine
ErrorStatus<T, S>
FastList<T>
FullLifeCycleController
A controller with super lifecycles (including native lifecycles)
GetBuilder<T extends GetxController>
GetInterface
GetInterface allows any auxiliary package to be merged into the "Get" class through extensions
GetListenable<T>
GetNotifier<T>
GetNotifier has a native status and state implementation, with the Get Lifecycle
GetResponsiveView<T>
Extend this widget to build responsive view. this widget contains the screen property that have all information about the screen size and type. You have two options to build it. 1- with builder method you return the widget to build. 2- with methods desktop, tablet,phone, watch. the specific method will be built when the screen type matches the method when the screen is ScreenType.Tablet the tablet method will be exuded and so on. Note if you use this method please set the property alwaysUseBuilder to false With settings property you can set the width limit for the screen types.
GetResponsiveWidget<T extends GetLifeCycleMixin>
GetStatus<T>
GetView<T>
GetView is a great way of quickly access your Controller without having to call Get.find
GetWidget<S extends GetLifeCycleMixin>
GetWidget is a great way of quickly access your individual Controller without having to call Get.find
GetX<T extends GetLifeCycleMixin>
GetxController
GetXState<T extends GetLifeCycleMixin>
LoadingStatus<T>
MiniStream<T>
MiniSubscription<T>
Node<T>
Observer
Obx
The simplest reactive widget in GetX.
ObxElement
ObxError
ObxStatelessWidget
A StatelessWidget than can listen reactive changes.
ObxValue<T extends RxInterface>
Similar to Obx, but manages a local state. Pass the initial data in constructor. Useful for simple local states, like toggles, visibility, themes, button states, etc. Sample: ObxValue((data) => Switch( value: data.value, onChanged: (flag) => data.value = flag, ), false.obs, ),
ObxWidget
The ObxWidget is the base for all GetX reactive widgets
ResponsiveScreen
ResponsiveScreenSettings
Rx<T>
Foundation class used for custom Types outside the common native Dart types. For example, any custom "Model" class, like User().obs will use Rx as wrapper.
RxBool
RxController
A clean controller to be used with only Rx variables
RxDouble
RxInt
RxInterface<T>
This class is the foundation for all reactive (Rx) classes that makes Get so powerful. This interface is the contract that _RxImpl
RxList<E>
Create a list similar to List<T>
RxMap<K, V>
Rxn<T>
RxnBool
RxnDouble
RxnInt
RxnNum
RxnString
Rx class for String Type.
RxNum
RxSet<E>
RxString
Rx class for String Type.
StateController<T>
A recommended way to use Getx with Future fetching
SuccessStatus<T>
SuperController<T>
A controller with super lifecycles (including native lifecycles) and StateMixins
Value<T>
ValueBuilder<T>
Manages a local state like ObxValue, but uses a callback instead of a Rx value.
ValueBuilderState<T>
Worker
Workers

Enums

ScreenType
SmartManagement
GetX by default disposes unused controllers from memory, Through different behaviors. SmartManagement.full SmartManagement.full is the default one. Dispose classes that are not being used and were not set to be permanent. In the majority of the cases you will want to keep this config untouched. If you new to GetX then don't change this. SmartManagement.onlyBuilder only controllers started in init: or loaded into a Binding with Get.lazyPut() will be disposed. If you use Get.put() or Get.putAsync() or any other approach, SmartManagement will not have permissions to exclude this dependency. With the default behavior, even widgets instantiated with "Get.put" will be removed, unlike SmartManagement.onlyBuilders. SmartManagement.keepFactoryJust like SmartManagement.full, it will remove it's dependencies when it's not being used anymore. However, it will keep their factory, which means it will recreate the dependency if you need that instance again.

Mixins

FullLifeCycleMixin
GetResponsiveMixin
GetSingleTickerProviderStateMixin
Used like SingleTickerProviderMixin but only with Get Controllers. Simplifies AnimationController creation inside GetxController.
GetTickerProviderStateMixin
Used like TickerProviderMixin but only with Get Controllers. Simplifies multiple AnimationController creation inside GetxController.
RxObjectMixin<T>
global object that registers against GetX and Obx, and allows the reactivity of those Widgets and Rx values.
ScrollMixin
this mixin allow to fetch data when the scroll is at the bottom or on the top
SingleGetTickerProviderMixin
Used like SingleTickerProviderMixin but only with Get Controllers. Simplifies AnimationController creation inside GetxController.
StatelessObserverComponent
a Component that can track changes in a reactive variable
StateMixin<T>

Extensions

BoolExtension on bool
DoubleExtension on double
IntExtension on int
ListExtension on List<E>
MapExtension on Map<K, V>
ReadExt on BuildContext
RxBoolExt on Rx<bool>
RxDoubleExt on Rx<double>
RxIntExt on Rx<int>
RxnBoolExt on Rx<bool?>
RxnDoubleExt on Rx<double?>
RxnIntExt on Rx<int?>
RxnNumExt on Rx<T?>
RxnStringExt on Rx<String?>
RxNumExt on Rx<T>
RxStringExt on Rx<String>
RxT on T
RxTnew on Object
This method will replace the old .obs method. It's a breaking change, but it is essential to avoid conflicts with the new dart 3 features. T will be inferred by contextual type inference rather than the extension type.
SetExtension on Set<E>
StateExt on StateMixin<T>
StatusDataExt on GetStatus<T>
StringExtension on String
WatchExt on BuildContext

Properties

Get → _GetImpl
final

Functions

ambiguate<T>(T? value) → T?
This allows a value of type T or T? to be treated as a value of type T?.
debounce<T>(GetListenable<T> listener, WorkerCallback<T> callback, {Duration? time, Function? onError, void onDone()?, bool? cancelOnError}) Worker
debounce is similar to interval, but sends the last value. Useful for Anti DDos, every time the user stops typing for 1 second, for instance. When listener emits the last "value", when time hits, it calls callback with the last "value" emitted.
defaultLogWriterCallback(String value, {bool isError = false}) → void
default logger from GetX
ever<T>(GetListenable<T> listener, WorkerCallback<T> callback, {dynamic condition = true, Function? onError, void onDone()?, bool? cancelOnError}) Worker
Called every time listener changes. As long as the condition returns true.
everAll(List<RxInterface> listeners, WorkerCallback callback, {dynamic condition = true, Function? onError, void onDone()?, bool? cancelOnError}) Worker
Similar to ever, but takes a list of listeners, the condition for the callback is common to all listeners, and the callback is executed to each one of them. The Worker is common to all, so worker.dispose() will cancel all streams.
interval<T>(GetListenable<T> listener, WorkerCallback<T> callback, {Duration time = const Duration(seconds: 1), dynamic condition = true, Function? onError, void onDone()?, bool? cancelOnError}) Worker
Ignore all changes in listener during time (1 sec by default) or until condition is met (can be a bool expression or a bool Function()), It brings the 1st "value" since the period of time, so if you click a counter button 3 times in 1 sec, it will show you "1" (after 1 sec of the first press) click counter 3 times in 1 sec, it will show you "4" (after 1 sec) click counter 2 times in 1 sec, it will show you "7" (after 1 sec).
once<T>(GetListenable<T> listener, WorkerCallback<T> callback, {dynamic condition = true, Function? onError, void onDone()?, bool? cancelOnError}) Worker
once() will execute only 1 time when condition is met and cancel the subscription to the listener stream right after that. condition defines when callback is called, and can be a bool or a bool Function().

Typedefs

FuturizeCallback<T> = Future<T> Function(VoidCallback fn)
GetControllerBuilder<T extends GetLifeCycleMixin> = Widget Function(T controller)
GetXControllerBuilder<T extends GetLifeCycleMixin> = Widget Function(T controller)
InitBuilder<T> = T Function()
LogWriterCallback = void Function(String text, {bool isError})
VoidCallback from logs
NotifierBuilder<T> = Widget Function(T state)
ValueBuilderBuilder<T> = Widget Function(T snapshot, ValueBuilderUpdateCallback<T> updater)
ValueBuilderUpdateCallback<T> = void Function(T snapshot)
ValueUpdater<T> = T Function()
VoidCallback = void Function()
WidgetCallback = Widget Function()
WorkerCallback<T> = dynamic Function(T callback)

Exceptions / Errors

BindError<T>