katana_scoped 2.6.1 katana_scoped: ^2.6.1 copied to clipboard
A state management package to allow for retention and management while specifying the scope of the state.
Katana Scoped
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Introduction #
Flutter's status is divided into the following two categories as officially described.
https://docs.flutter.dev/development/data-and-backend/state-mgmt/ephemeral-vs-app
- Ephemeral state
- Closed state within a single widget. The current position of the navigation bar, the current input state of the text form, etc.
- App state
- State shared within an app. Used between multiple Widgets, e.g. data retrieved from DB, login status, user preferences, etc.
Ephemeral state is available as soon as a widget is created and should be destroyed as soon as the widget is destroyed. In contrast, App state is retained even after the widget is destroyed, and should be available to all widgets in the same way.
There are many state management methods such as State+StatefulWidget
, Provider+ChangeNotifier
, riverpod+StateNotifier
, GetX
, etc., but not many of them explicitly make such a division.
Therefore, I believe that they are consciously (or unconsciously) changing the way they handle states by being creative in their use of packages and by combining multiple state management methods.
(I used riverpod for App state and StatefulWidget for Ephemeral state)
Therefore, I further redefined the above state types as scopes as shown below and created a state management package that can be used to explicitly separate them.
Widget
- Individual widget, synonymous with Ephemeral state
ScopedWidget<T>
can take it- Manage closed states on individual widgets, such as show/hide toggles and current input state of text forms
Page
- One screen of the application. Assumed to have single and multiple Widget
PageScopedWidget
will be able to take it- Manage closed states on one screen, such as the current position of the navigation bar
App
- The entire app, synonymous with App state
- You can get it from anywhere.
- Manage data retrieved from DB, login status, user preferences, and other status used throughout the application
Ephemeral state is divided into two types, Page
and Widget
, because there are many opportunities to manage the state of each screen across widgets, and we felt it would be more convenient.
In fact, when controlling a map, you want to use a single controller for each widget placed in the map, but if you want to discard a controller when you move the screen to save memory, you may want to prepare a controller closed in Page scope for easier handling. It may be easier to handle if you have a controller closed in the Page scope.
You can simply create a Widget by inheriting from a specific abstract class, like riverpod's ConsumerWidget.
You can manage the state like flutter_hooks without writing special boilerplate.
Samples of famous counter applications can be created with this simplicity.
// counter_page.dart
class CounterPage extends PageScopedWidget {
const CounterPage({super.key});
@override
Widget build(BuildContext context, PageRef ref) {
final counter = ref.page.watch((ref) => ValueNotifier(0));
return Scaffold(
appBar: AppBar(
title: const Text("Test App"),
),
body: Center(
child: Text("${counter.value}"),
),
floatingActionButton: FloatingActionButton(
onPressed: () {
counter.value++;
},
child: const Icon(Icons.add),
),
);
}
}
I also make it easy to add custom methods like flutter_hooks.
By explicitly specifying the scope
at that time, users will be able to use it without being aware of the scope.
// repository_value.dart
extension RepositoryAppRefExtension on AppScopedValueOrAppRef {
Repository repository(){
return getScopedValue(
(ref) => RepositoryValue(),
listen: true,
);
}
}
class Repository with ChangeNotifier {
~~~~~
}
class RepositoryValue extends ScopedValue<Repository> {
@override
ScopedValueState<Repository, RepositoryValue> createState() =>
RepositoryValueState();
}
class RepositoryValueState
extends ScopedValueState<Repository, RepositoryValue> {
late Repository repository;
@override
void initValue() {
super.initValue();
repository = Repository();
repository.addListener(_handeldOnUpdate);
}
void _handeldOnUpdate() {
setState(() {});
}
@override
void dispose() {
super.dispose();
repository.removeListener(_handeldOnUpdate);
repository.dispose();
}
@override
Repository build() => repository;
}
If the above implementation is done beforehand, it can be used as follows
// test_page.dart
class TestPage extends PageScopedWidget {
const TestPage();
@override
Widget build(BuildContext context, PageRef ref){
// DB Repository for app.
final respository = ref.app.repository();
~~~~
}
}
By applying the above mechanisms, it is possible not only to manage the state of the system, but also to do the following and more.
- Manage page and widget lifecycle
- Manual redraw of pages and widgets
- Wait for Future to finish and redraw at the end
- Redraw when Stream value is updated
Installation #
Import the following packages
flutter pub add katana_scoped
Implementation #
Advance preparation #
Be sure to create an AppRef
and place the AppScoped
widget near the root of the app.
// main.dart
import 'package:flutter/material.dart';
import 'package:katana_scoped/katana_scoped.dart';
void main() {
runApp(const MyApp());
}
final appRef = AppRef();
class MyApp extends StatelessWidget {
const MyApp({super.key});
@override
Widget build(BuildContext context) {
return AppScoped(
appRef: appRef,
child: MaterialApp(
home: const ScopedTestPage(),
title: "Flutter Demo",
theme: ThemeData(
primarySwatch: Colors.blue,
),
),
);
}
}
Defining AppRef
as a global variable makes it possible to retrieve the state even from outside the Widget.
Create a Page #
When creating a page, implement a widget that extends PageScopedWidget
.
From PageRef
, app
and page
can be obtained, and the status can be obtained in App scope
and Page scope
, respectively.
// counter_page.dart
import 'package:flutter/material.dart';
import 'package:katana_scoped/katana_scoped.dart';
class CounterPage extends PageScopedWidget {
const CounterPage({super.key});
@override
Widget build(BuildContext context, PageRef ref) {
final counter = ref.page.watch((ref) => ValueNotifier(0));
return Scaffold(
appBar: AppBar(
title: const Text("Test App"),
),
body: Center(
child: Text("${counter.value}"),
),
floatingActionButton: FloatingActionButton(
onPressed: () {
counter.value++;
},
child: const Icon(Icons.add),
),
);
}
}
Create a Widget #
Widget under the page can be placed anything such as StatelessWidget
or StatefulWidget
, but if you want to manage the state, you can do so by creating a ScopedWidget
.
From WidgetRef
, app
, page
, and widget
can be obtained, and their states can be obtained in App scope
, Page scope
, and Widget scope
, respectively.
// scoped_test_page.dart
import 'package:flutter/material.dart';
import 'package:katana_scoped/katana_scoped.dart';
class ScopedTestPage extends PageScopedWidget {
const ScopedTestPage({super.key});
@override
Widget build(BuildContext context, PageRef ref) {
return Scaffold(
appBar: AppBar(
title: const Text("Test App"),
),
body: ScopedTestContent(),
);
}
}
class ScopedTestContent extends ScopedWidget {
const ScopedTestContent({
super.key,
});
@override
Widget build(BuildContext context, WidgetRef ref) {
final widget = ref.widget.watch((ref) => ValueNotifier(0));
final page = ref.page.watch((ref) => ValueNotifier(0));
final app = ref.app.watch((ref) => ValueNotifier(0));
return Column(
children: [
ListTile(
title: Text(app.value.toString()),
onTap: () {
app.value++;
},
),
ListTile(
title: Text(page.value.toString()),
onTap: () {
page.value++;
},
),
ListTile(
title: Text(widget.value.toString()),
onTap: () {
widget.value++;
},
),
],
);
}
}
Available ScopedValueFunction
#
When the state is acquired in App scope
, Page scope
, or Widget scope
, it is acquired through ScopedValueFunction
.
The default ScopedValueFunction
defined in the package is
T cache<T>(T Function(Ref ref) callback, { List<Object> keys = const [], String? name })
- Cache the value returned by
callback
.- The
ref
passed to callback is theRef
that was passed when this method was called.
- The
- If the value of keys is changed,
callback
is executed again to update the cached value. name
can be specified to save it as a different state.
- Cache the value returned by
T watch<T extends Listenable>( T Function(Ref ref) callback, { List<Object> keys = const [], String? name, bool disposal = true })
- Cache the value returned by
callback
.- The
ref
passed to callback is theRef
that was passed when this method was called.
- The
- If
notifyListners
are executed insideT
monitoring values on further executed Widget, the Widget will be redrawn. - If the value of keys is changed,
callback
is executed again to update the cached value. name
can be specified to save it as a different state.- If
disposal
is set to false, the givenChangeNotifier
will not be destroyed if the reference is lost.
- Cache the value returned by
OnContext on({ FutureOr<void> Function()? initOrUpdate, VoidCallback? disposed, List<Object> keys = const [], String? name })
- Only page scope and widget scope can be executed.
- It is possible to execute each process on the life cycle of the executed widget.
- initOrUpdate
- Processing runs the first time the on method is executed and the first time it is executed with a different value for
keys
. - If the value is returned as Future, the end can be monitored and detected by
OnContext.future
returned from the on method. - It is possible to implement a CircularProgressIndicator that performs some kind of initialization process and displays the CircularProgressIndicator until it finishes.
- Processing runs the first time the on method is executed and the first time it is executed with a different value for
- disposed
- Executed when the widget is destroyed.
- initOrUpdate
void refresh()
- When executed, the associated widget will be redrawn.
T query<T>(ScopedQuery<T> query)
- Define a query that provides a global state like riverpod and read it to manage the state.
- See below for details.
ScopedQuery #
By defining ScopedQuery separately, it is possible to issue and use queries that provide state globally like riverpod. T query<T>(ScopedQuery<T> query)
of each scope can be used to manage the state.
It is also possible to load further other queries with ref
available in the callback.
final valueNotifierQuery = ChangeNotifierScopedQuery(
(ref) => ValueNotifier(0),
);
class TestPage extends PageScopedWidget {
@override
Widget build(BuildContext context, PageRef ref) {
final valueNotifier = ref.page.query(valueNotifierQuery);
return Scaffold(
body: Center(child: Text("${valueNotifier.value}")),
);
}
}
The following types of ScopedQuery are available
- ScopedQuery
- Holds the value returned by the callback.
- It has the same functionality as
cache
.
- ChangeNotifierScopedQuery
- Holds the value returned in the callback and monitors for value changes.
- It has the same functionality as
watch
.
It is also possible to create ScopedQuery specific to each scope.
- AppScopedQuery
- Create a ScopedQuery limited to the App scope.
- PageScopedQuery
- Create a ScopedQuery limited to Page scope.
- WidgetScopedQuery
- Create a ScopedQuery limited to the Widget scope.
Add ScopedValueFunction
#
Explicitly limited scope use #
A new ScopedValueFunction
can be added using an existing ScopedValueFunction
.
In such cases, it is possible to use a limited scope.
For example, suppose that a class for retrieving data from DB is created with XXRepository
by inheriting ChangeNotifier.
I want to manage the data from the DB in App scope, so by default, I use the following.
final userRepository = ref.app.watch((ref) => UserRepository());
In this case, however, it can also be written as follows
final userRepository = ref.page.watch((ref) => UserRepository());
In this case, the state can be managed, but when the page is destroyed, the state is also destroyed.
So, add a separate ScopedValueFunction
to force it to be managed as a scope of the application.
Extension
is used for addition.
// user_repository_extension.dart
extension UserRepositoryAppRef on RefHasApp {
TRepository repository<TRepository extends Repository>(
TRepository source,
) {
return app.watch((ref) => source);
}
}
By implementing the above, it can be used as follows.
final userRepository = ref.repository(UserRepository());
ScopedValueFunction
can be defined in various scopes by changing the class specified by on
.
- on
Ref
ScopedValueFunction
will be added to allAppRef
,PageRef.app
,PageRef.page
,WidgetRef.app
,WidgetRef.page
, andWidgetRef.widget
.
- on
AppRef
ScopedValueFunction
is added toAppRef
only.
- on
PageRef
ScopedValueFunction
is added toPageRef
only.
- on
WidgetRef
ScopedValueFunction
is added toWidgetRef
only.
- on
RefHasApp
ScopedValueFunction
is added to references with .app, i.e.PageRef
andWidgetRef
. Only interfaces with .app are available.
- on
RefHasPage
ScopedValueFunction
is added to references with .page, i.e.PageRef
andWidgetRef
. Only interfaces with .page are available.
- on
RefHasWidget
ScopedValueFunction
is added to the reference with .widget, i.e.WidgetRef
. Only interfaces with .widget are available.
- on
AppScopedValueRef
ScopedValueFunction
is added to the .app itself, i.e.PageRef.app
andWidgetRef.app
.
- on
PageScopedValueRef
ScopedValueFunction
is added to the .page itself, i.e.PageRef.page
andWidgetRef.page
.
- on
WidgetScopedValueRef
ScopedValueFunction
is added to the .widget itself, i.e.,WidgetRef.widget
.
- on
AppScopedValueOrAppRef
- AppRef and .app itself, i.e.
AppRef
,PageRef.app
andWidgetRef.app
, will all haveScopedValueFunction
in their App scopes.
- AppRef and .app itself, i.e.
- on
PageOrWidgetScopedValueRef
ScopedValueFunction
is added to the .page itself or the .widget itself, i.e.PageRef.page
,WidgetRef.page
,WidgetRef.widget
.
- on
PageOrAppScopedValueOrAppRef
ScopedValueFunction
will be added to AppRef and .app itself, i.e.AppRef
andPageRef.app
,PageRef.page
,WidgetRef.app
,WidgetRef.page
.
- on
QueryScopedValueRef<TRef extends Ref>
ScopedValueFunction
is added to theRef
passed to theScopedQuery
provider.
Create a new ScopedValue
#
It is also possible to create a new ScopedValue and add a ScopedValueFunction
with new functionality.
For example, if you want to implement a function like a so-called FutureBuilder
that executes a process that returns a Future
and redraws the screen when the Future
is completed, create a new ScopedValue
and ScopedValueState
as shown below.
// future_value.dart
class FutureValue<T> extends ScopedValue<Future<T>> {
const FutureValue(this.future);
final Future<T> future;
@override
ScopedValueState<Future<T>, ScopedValue<Future<T>>> createState() =>
FutureValueState<T>();
}
class FutureValueState<T> extends ScopedValueState<Future<T>, FutureValue<T>> {
late final Future<T> _future;
@override
void initValue() {
super.initValue();
_future = value.future;
_future.then(
(value) => setState(() {}),
);
}
@override
Future<T> build() => _future;
}
If you want to add this as a ScopedValueFunction
, write the following via the getScopedValue
method.
extension FutureValueRefExtension on Ref {
Future<T> useFuture<T>(Future<T> Function() callback) {
return getScopedValue(
(ref) => FutureValue(callback.call()),
listen: true,
);
}
}
The actual use of this is as follows.
ref.page.useFuture(() => Future.delayed(const Duration(seconds: 5))); // Redraw after 5 seconds
In this case, I simply return the Future as is, but by creating a snapshot
object with FutureValueState<T>
and monitoring it, it is possible to implement a mechanism like FutureBuilder that allows the status of the snapshot to be monitored at any time.
GitHub Sponsors #
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