// Copyright 2014 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'package:flutter/foundation.dart';
import 'package:flutter/services.dart';
import 'editable_text.dart';
import 'restoration.dart';
/// A [RestorableProperty] that makes the wrapped value accessible to the owning
/// [State] object via the [value] getter and setter.
///
/// Whenever a new [value] is set, [didUpdateValue] is called. Subclasses should
/// call [notifyListeners] from this method if the new value changes what
/// [toPrimitives] returns.
///
/// ## Using a RestorableValue
///
/// {@tool dartpad --template=stateful_widget_restoration}
/// A [StatefulWidget] that has a restorable [int] property.
///
/// ```dart
/// // The current value of the answer is stored in a [RestorableProperty].
/// // During state restoration it is automatically restored to its old value.
/// // If no restoration data is available to restore the answer from, it is
/// // initialized to the specified default value, in this case 42.
/// RestorableInt _answer = RestorableInt(42);
///
/// @override
/// void restoreState(RestorationBucket? oldBucket, bool initialRestore) {
/// // All restorable properties must be registered with the mixin. After
/// // registration, the answer either has its old value restored or is
/// // initialized to its default value.
/// registerForRestoration(_answer, 'answer');
/// }
///
/// void _incrementAnswer() {
/// setState(() {
/// // The current value of the property can be accessed and modified via
/// // the value getter and setter.
/// _answer.value += 1;
/// });
/// }
///
/// @override
/// void dispose() {
/// // Properties must be disposed when no longer used.
/// _answer.dispose();
/// super.dispose();
/// }
///
/// @override
/// Widget build(BuildContext context) {
/// return OutlinedButton(
/// child: Text('${_answer.value}'),
/// onPressed: _incrementAnswer,
/// );
/// }
/// ```
/// {@end-tool}
///
/// ## Creating a subclass
///
/// {@tool snippet}
/// This example shows how to create a new `RestorableValue` subclass,
/// in this case for the [Duration] class.
///
/// ```dart
/// class RestorableDuration extends RestorableValue<Duration> {
/// @override
/// Duration createDefaultValue() => const Duration();
///
/// @override
/// void didUpdateValue(Duration? oldValue) {
/// if (oldValue == null || oldValue.inMicroseconds != value.inMicroseconds)
/// notifyListeners();
/// }
///
/// @override
/// Duration fromPrimitives(Object? data) {
/// if (data != null) {
/// return Duration(microseconds: data as int);
/// }
/// return const Duration();
/// }
///
/// @override
/// Object toPrimitives() {
/// return value.inMicroseconds;
/// }
/// }
/// ```
/// {@end-tool}
///
/// See also:
///
/// * [RestorableProperty], which is the super class of this class.
/// * [RestorationMixin], to which a [RestorableValue] needs to be registered
/// in order to work.
/// * [RestorationManager], which provides an overview of how state restoration
/// works in Flutter.
abstract class RestorableValue<T> extends RestorableProperty<T> {
/// The current value stored in this property.
///
/// A representation of the current value is stored in the restoration data.
/// During state restoration, the property will restore the value to what it
/// was when the restoration data it is getting restored from was collected.
///
/// The [value] can only be accessed after the property has been registered
/// with a [RestorationMixin] by calling
/// [RestorationMixin.registerForRestoration].
T get value {
assert(isRegistered);
return _value as T;
}
T? _value;
set value(T newValue) {
assert(isRegistered);
if (newValue != _value) {
final T? oldValue = _value;
_value = newValue;
didUpdateValue(oldValue);
}
}
@mustCallSuper
@override
void initWithValue(T value) {
_value = value;
}
/// Called whenever a new value is assigned to [value].
///
/// The new value can be accessed via the regular [value] getter and the
/// previous value is provided as `oldValue`.
///
/// Subclasses should call [notifyListeners] from this method, if the new
/// value changes what [toPrimitives] returns.
@protected
void didUpdateValue(T? oldValue);
}
// _RestorablePrimitiveValueN and its subclasses allows for null values.
// See [_RestorablePrimitiveValue] for the non-nullable version of this class.
class _RestorablePrimitiveValueN<T extends Object?> extends RestorableValue<T> {
_RestorablePrimitiveValueN(this._defaultValue)
: assert(debugIsSerializableForRestoration(_defaultValue)),
super();
final T _defaultValue;
@override
T createDefaultValue() => _defaultValue;
@override
void didUpdateValue(T? oldValue) {
assert(debugIsSerializableForRestoration(value));
notifyListeners();
}
@override
T fromPrimitives(Object? serialized) => serialized as T;
@override
Object? toPrimitives() => value;
}
// _RestorablePrimitiveValue and its subclasses are non-nullable.
// See [_RestorablePrimitiveValueN] for the nullable version of this class.
class _RestorablePrimitiveValue<T extends Object> extends _RestorablePrimitiveValueN<T> {
_RestorablePrimitiveValue(T _defaultValue)
: assert(_defaultValue != null),
assert(debugIsSerializableForRestoration(_defaultValue)),
super(_defaultValue);
@override
set value(T value) {
assert(value != null);
super.value = value;
}
@override
T fromPrimitives(Object? serialized) {
assert(serialized != null);
return super.fromPrimitives(serialized);
}
@override
Object toPrimitives() {
assert(value != null);
return super.toPrimitives()!;
}
}
/// A [RestorableProperty] that knows how to store and restore a [num].
///
/// {@template flutter.widgets.RestorableNum}
/// The current [value] of this property is stored in the restoration data.
/// During state restoration the property is restored to the value it had when
/// the restoration data it is getting restored from was collected.
///
/// If no restoration data is available, [value] is initialized to the
/// `defaultValue` given in the constructor.
/// {@endtemplate}
///
/// Instead of using the more generic [RestorableNum] directly, consider using
/// one of the more specific subclasses (e.g. [RestorableDouble] to store a
/// [double] and [RestorableInt] to store an [int]).
///
/// See also:
///
/// * [RestorableNumN] for the nullable version of this class.
class RestorableNum<T extends num> extends _RestorablePrimitiveValue<T> {
/// Creates a [RestorableNum].
///
/// {@template flutter.widgets.RestorableNum.constructor}
/// If no restoration data is available to restore the value in this property
/// from, the property will be initialized with the provided `defaultValue`.
/// {@endtemplate}
RestorableNum(T defaultValue) : assert(defaultValue != null), super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [double].
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableDoubleN] for the nullable version of this class.
class RestorableDouble extends RestorableNum<double> {
/// Creates a [RestorableDouble].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableDouble(double defaultValue) : assert(defaultValue != null), super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore an [int].
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableIntN] for the nullable version of this class.
class RestorableInt extends RestorableNum<int> {
/// Creates a [RestorableInt].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableInt(int defaultValue) : assert(defaultValue != null), super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [String].
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableStringN] for the nullable version of this class.
class RestorableString extends _RestorablePrimitiveValue<String> {
/// Creates a [RestorableString].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableString(String defaultValue) : assert(defaultValue != null), super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [bool].
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableBoolN] for the nullable version of this class.
class RestorableBool extends _RestorablePrimitiveValue<bool> {
/// Creates a [RestorableBool].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableBool(bool defaultValue) : assert(defaultValue != null), super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [bool] that is
/// nullable.
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableBool] for the non-nullable version of this class.
class RestorableBoolN extends _RestorablePrimitiveValueN<bool?> {
/// Creates a [RestorableBoolN].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableBoolN(bool? defaultValue) : super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [num]
/// that is nullable.
///
/// {@macro flutter.widgets.RestorableNum}
///
/// Instead of using the more generic [RestorableNumN] directly, consider using
/// one of the more specific subclasses (e.g. [RestorableDoubleN] to store a
/// [double] and [RestorableIntN] to store an [int]).
///
/// See also:
///
/// * [RestorableNum] for the non-nullable version of this class.
class RestorableNumN<T extends num?> extends _RestorablePrimitiveValueN<T> {
/// Creates a [RestorableNumN].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableNumN(T defaultValue) : super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [double]
/// that is nullable.
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableDouble] for the non-nullable version of this class.
class RestorableDoubleN extends RestorableNumN<double?> {
/// Creates a [RestorableDoubleN].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableDoubleN(double? defaultValue) : super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore an [int]
/// that is nullable.
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableInt] for the non-nullable version of this class.
class RestorableIntN extends RestorableNumN<int?> {
/// Creates a [RestorableIntN].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableIntN(int? defaultValue) : super(defaultValue);
}
/// A [RestorableProperty] that knows how to store and restore a [String]
/// that is nullable.
///
/// {@macro flutter.widgets.RestorableNum}
///
/// See also:
///
/// * [RestorableString] for the non-nullable version of this class.
class RestorableStringN extends _RestorablePrimitiveValueN<String?> {
/// Creates a [RestorableString].
///
/// {@macro flutter.widgets.RestorableNum.constructor}
RestorableStringN(String? defaultValue) : super(defaultValue);
}
/// A base class for creating a [RestorableProperty] that stores and restores a
/// [Listenable].
///
/// This class may be used to implement a [RestorableProperty] for a
/// [Listenable], whose information it needs to store in the restoration data
/// change whenever the [Listenable] notifies its listeners.
///
/// The [RestorationMixin] this property is registered with will call
/// [toPrimitives] whenever the wrapped [Listenable] notifies its listeners to
/// update the information that this property has stored in the restoration
/// data.
abstract class RestorableListenable<T extends Listenable> extends RestorableProperty<T> {
/// The [Listenable] stored in this property.
///
/// A representation of the current value of the [Listenable] is stored in the
/// restoration data. During state restoration, the [Listenable] returned by
/// this getter will be restored to the state it had when the restoration data
/// the property is getting restored from was collected.
///
/// The [value] can only be accessed after the property has been registered
/// with a [RestorationMixin] by calling
/// [RestorationMixin.registerForRestoration].
T get value {
assert(isRegistered);
return _value!;
}
T? _value;
@override
void initWithValue(T value) {
assert(value != null);
_value?.removeListener(notifyListeners);
_value = value;
_value!.addListener(notifyListeners);
}
@override
void dispose() {
super.dispose();
_value?.removeListener(notifyListeners);
}
}
/// A base class for creating a [RestorableProperty] that stores and restores a
/// [ChangeNotifier].
///
/// This class may be used to implement a [RestorableProperty] for a
/// [ChangeNotifier], whose information it needs to store in the restoration
/// data change whenever the [ChangeNotifier] notifies its listeners.
///
/// The [RestorationMixin] this property is registered with will call
/// [toPrimitives] whenever the wrapped [ChangeNotifier] notifies its listeners
/// to update the information that this property has stored in the restoration
/// data.
///
/// Furthermore, the property will dispose the wrapped [ChangeNotifier] when
/// either the property itself is disposed or its value is replaced with another
/// [ChangeNotifier] instance.
abstract class RestorableChangeNotifier<T extends ChangeNotifier> extends RestorableListenable<T> {
@override
void initWithValue(T value) {
_disposeOldValue();
super.initWithValue(value);
}
@override
void dispose() {
_disposeOldValue();
super.dispose();
}
void _disposeOldValue() {
if (_value != null) {
// Scheduling a microtask for dispose to give other entities a chance
// to remove their listeners first.
scheduleMicrotask(_value!.dispose);
}
}
}
/// A [RestorableProperty] that knows how to store and restore a
/// [TextEditingController].
///
/// The [TextEditingController] is accessible via the [value] getter. During
/// state restoration, the property will restore [TextEditingController.text] to
/// the value it had when the restoration data it is getting restored from was
/// collected.
class RestorableTextEditingController extends RestorableChangeNotifier<TextEditingController> {
/// Creates a [RestorableTextEditingController].
///
/// This constructor treats a null `text` argument as if it were the empty
/// string.
factory RestorableTextEditingController({String? text}) => RestorableTextEditingController.fromValue(
text == null ? TextEditingValue.empty : TextEditingValue(text: text),
);
/// Creates a [RestorableTextEditingController] from an initial
/// [TextEditingValue].
///
/// This constructor treats a null `value` argument as if it were
/// [TextEditingValue.empty].
RestorableTextEditingController.fromValue(TextEditingValue value) : _initialValue = value;
final TextEditingValue _initialValue;
@override
TextEditingController createDefaultValue() {
return TextEditingController.fromValue(_initialValue);
}
@override
TextEditingController fromPrimitives(Object? data) {
return TextEditingController(text: data! as String);
}
@override
Object toPrimitives() {
return value.text;
}
}