packages/webview_flutter/webview_flutter_android/lib/src/instance_manager.dart - mirrors/plugins - Git at Google

 // Copyright 2013 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 'package:flutter/foundation.dart';

 /// An immutable object that can provide functional copies of itself.
 ///
 /// All implementers are expected to be immutable as defined by the annotation.
 // TODO(bparrishMines): Uncomment annotation once
 // https://github.com/flutter/plugins/pull/5831 lands or when making a breaking
 // change for https://github.com/flutter/flutter/issues/107199.
 // @immutable
 mixin Copyable {
   /// Instantiates and returns a functionally identical object to oneself.
   ///
   /// Outside of tests, this method should only ever be called by
   /// [InstanceManager].
   ///
   /// Subclasses should always override their parent's implementation of this
   /// method.
   @protected
   Copyable copy();
 }

 /// Maintains instances used to communicate with the native objects they
 /// represent.
 ///
 /// Added instances are stored as weak references and their copies are stored
 /// as strong references to maintain access to their variables and callback
 /// methods. Both are stored with the same identifier.
 ///
 /// When a weak referenced instance becomes inaccessible,
 /// [onWeakReferenceRemoved] is called with its associated identifier.
 ///
 /// If an instance is retrieved and has the possibility to be used,
 /// (e.g. calling [getInstanceWithWeakReference]) a copy of the strong reference
 /// is added as a weak reference with the same identifier. This prevents a
 /// scenario where the weak referenced instance was released and then later
 /// returned by the host platform.
 class InstanceManager {
   /// Constructs an [InstanceManager].
   InstanceManager({required void Function(int) onWeakReferenceRemoved}) {
     this.onWeakReferenceRemoved = (int identifier) {
       _weakInstances.remove(identifier);
       onWeakReferenceRemoved(identifier);
     };
     _finalizer = Finalizer<int>(this.onWeakReferenceRemoved);
   }

   // Identifiers are locked to a specific range to avoid collisions with objects
   // created simultaneously by the host platform.
   // Host uses identifiers >= 2^16 and Dart is expected to use values n where,
   // 0 <= n < 2^16.
   static const int _maxDartCreatedIdentifier = 65536;

   // Expando is used because it doesn't prevent its keys from becoming
   // inaccessible. This allows the manager to efficiently retrieve an identifier
   // of an instance without holding a strong reference to that instance.
   //
   // It also doesn't use `==` to search for identifiers, which would lead to an
   // infinite loop when comparing an object to its copy. (i.e. which was caused
   // by calling instanceManager.getIdentifier() inside of `==` while this was a
   // HashMap).
   final Expando<int> _identifiers = Expando<int>();
   final Map<int, WeakReference<Copyable>> _weakInstances =
       <int, WeakReference<Copyable>>{};
   final Map<int, Copyable> _strongInstances = <int, Copyable>{};
   late final Finalizer<int> _finalizer;
   int _nextIdentifier = 0;

   /// Called when a weak referenced instance is removed by [removeWeakReference]
   /// or becomes inaccessible.
   late final void Function(int) onWeakReferenceRemoved;

   /// Adds a new instance that was instantiated by Dart.
   ///
   /// In other words, Dart wants to add a new instance that will represent
   /// an object that will be instantiated on the host platform.
   ///
   /// Throws assertion error if the instance has already been added.
   ///
   /// Returns the randomly generated id of the [instance] added.
   int addDartCreatedInstance(Copyable instance) {
     assert(getIdentifier(instance) == null);

     final int identifier = _nextUniqueIdentifier();
     _addInstanceWithIdentifier(instance, identifier);
     return identifier;
   }

   /// Removes the instance, if present, and call [onWeakReferenceRemoved] with
   /// its identifier.
   ///
   /// Returns the identifier associated with the removed instance. Otherwise,
   /// `null` if the instance was not found in this manager.
   ///
   /// This does not remove the the strong referenced instance associated with
   /// [instance]. This can be done with [remove].
   int? removeWeakReference(Copyable instance) {
     final int? identifier = getIdentifier(instance);
     if (identifier == null) {
       return null;
     }

     _identifiers[instance] = null;
     _finalizer.detach(instance);
     onWeakReferenceRemoved(identifier);

     return identifier;
   }

   /// Removes [identifier] and its associated strongly referenced instance, if
   /// present, from the manager.
   ///
   /// Returns the strong referenced instance associated with [identifier] before
   /// it was removed. Returns `null` if [identifier] was not associated with
   /// any strong reference.
   ///
   /// This does not remove the the weak referenced instance associtated with
   /// [identifier]. This can be done with [removeWeakReference].
   T? remove<T extends Copyable>(int identifier) {
     return _strongInstances.remove(identifier) as T?;
   }

   /// Retrieves the instance associated with identifier.
   ///
   /// The value returned is chosen from the following order:
   ///
   /// 1. A weakly referenced instance associated with identifier.
   /// 2. If the only instance associated with identifier is a strongly
   /// referenced instance, a copy of the instance is added as a weak reference
   /// with the same identifier. Returning the newly created copy.
   /// 3. If no instance is associated with identifier, returns null.
   ///
   /// This method also expects the host `InstanceManager` to have a strong
   /// reference to the instance the identifier is associated with.
   T? getInstanceWithWeakReference<T extends Copyable>(int identifier) {
     final Copyable? weakInstance = _weakInstances[identifier]?.target;

     if (weakInstance == null) {
       final Copyable? strongInstance = _strongInstances[identifier];
       if (strongInstance != null) {
         final Copyable copy = strongInstance.copy();
         _identifiers[copy] = identifier;
         _weakInstances[identifier] = WeakReference<Copyable>(copy);
         _finalizer.attach(copy, identifier, detach: copy);
         return copy as T;
       }
       return strongInstance as T?;
     }

     return weakInstance as T;
   }

   /// Retrieves the identifier associated with instance.
   int? getIdentifier(Copyable instance) {
     return _identifiers[instance];
   }

   /// Adds a new instance that was instantiated by the host platform.
   ///
   /// In other words, the host platform wants to add a new instance that
   /// represents an object on the host platform. Stored with [identifier].
   ///
   /// Throws assertion error if the instance or its identifier has already been
   /// added.
   ///
   /// Returns unique identifier of the [instance] added.
   void addHostCreatedInstance(Copyable instance, int identifier) {
     assert(!containsIdentifier(identifier));
     assert(getIdentifier(instance) == null);
     assert(identifier >= 0);
     _addInstanceWithIdentifier(instance, identifier);
   }

   void _addInstanceWithIdentifier(Copyable instance, int identifier) {
     _identifiers[instance] = identifier;
     _weakInstances[identifier] = WeakReference<Copyable>(instance);
     _finalizer.attach(instance, identifier, detach: instance);

     final Copyable copy = instance.copy();
     _identifiers[copy] = identifier;
     _strongInstances[identifier] = copy;
   }

   /// Whether this manager contains the given [identifier].
   bool containsIdentifier(int identifier) {
     return _weakInstances.containsKey(identifier) ||
         _strongInstances.containsKey(identifier);
   }

   int _nextUniqueIdentifier() {
     late int identifier;
     do {
       identifier = _nextIdentifier;
       _nextIdentifier = (_nextIdentifier + 1) % _maxDartCreatedIdentifier;
     } while (containsIdentifier(identifier));
     return identifier;
   }
 }
	// Copyright 2013 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 'package:flutter/foundation.dart';

	/// An immutable object that can provide functional copies of itself.
	///
	/// All implementers are expected to be immutable as defined by the annotation.
	// TODO(bparrishMines): Uncomment annotation once
	// https://github.com/flutter/plugins/pull/5831 lands or when making a breaking
	// change for https://github.com/flutter/flutter/issues/107199.
	// @immutable
	mixin Copyable {
	/// Instantiates and returns a functionally identical object to oneself.
	///
	/// Outside of tests, this method should only ever be called by
	/// [InstanceManager].
	///
	/// Subclasses should always override their parent's implementation of this
	/// method.
	@protected
	Copyable copy();
	}

	/// Maintains instances used to communicate with the native objects they
	/// represent.
	///
	/// Added instances are stored as weak references and their copies are stored
	/// as strong references to maintain access to their variables and callback
	/// methods. Both are stored with the same identifier.
	///
	/// When a weak referenced instance becomes inaccessible,
	/// [onWeakReferenceRemoved] is called with its associated identifier.
	///
	/// If an instance is retrieved and has the possibility to be used,
	/// (e.g. calling [getInstanceWithWeakReference]) a copy of the strong reference
	/// is added as a weak reference with the same identifier. This prevents a
	/// scenario where the weak referenced instance was released and then later
	/// returned by the host platform.
	class InstanceManager {
	/// Constructs an [InstanceManager].
	InstanceManager({required void Function(int) onWeakReferenceRemoved}) {
	this.onWeakReferenceRemoved = (int identifier) {
	_weakInstances.remove(identifier);
	onWeakReferenceRemoved(identifier);
	};
	_finalizer = Finalizer<int>(this.onWeakReferenceRemoved);
	}

	// Identifiers are locked to a specific range to avoid collisions with objects
	// created simultaneously by the host platform.
	// Host uses identifiers >= 2^16 and Dart is expected to use values n where,
	// 0 <= n < 2^16.
	static const int _maxDartCreatedIdentifier = 65536;

	// Expando is used because it doesn't prevent its keys from becoming
	// inaccessible. This allows the manager to efficiently retrieve an identifier
	// of an instance without holding a strong reference to that instance.
	//
	// It also doesn't use `==` to search for identifiers, which would lead to an
	// infinite loop when comparing an object to its copy. (i.e. which was caused
	// by calling instanceManager.getIdentifier() inside of `==` while this was a
	// HashMap).
	final Expando<int> _identifiers = Expando<int>();
	final Map<int, WeakReference<Copyable>> _weakInstances =
	<int, WeakReference<Copyable>>{};
	final Map<int, Copyable> _strongInstances = <int, Copyable>{};
	late final Finalizer<int> _finalizer;
	int _nextIdentifier = 0;

	/// Called when a weak referenced instance is removed by [removeWeakReference]
	/// or becomes inaccessible.
	late final void Function(int) onWeakReferenceRemoved;

	/// Adds a new instance that was instantiated by Dart.
	///
	/// In other words, Dart wants to add a new instance that will represent
	/// an object that will be instantiated on the host platform.
	///
	/// Throws assertion error if the instance has already been added.
	///
	/// Returns the randomly generated id of the [instance] added.
	int addDartCreatedInstance(Copyable instance) {
	assert(getIdentifier(instance) == null);

	final int identifier = _nextUniqueIdentifier();
	_addInstanceWithIdentifier(instance, identifier);
	return identifier;
	}

	/// Removes the instance, if present, and call [onWeakReferenceRemoved] with
	/// its identifier.
	///
	/// Returns the identifier associated with the removed instance. Otherwise,
	/// `null` if the instance was not found in this manager.
	///
	/// This does not remove the the strong referenced instance associated with
	/// [instance]. This can be done with [remove].
	int? removeWeakReference(Copyable instance) {
	final int? identifier = getIdentifier(instance);
	if (identifier == null) {
	return null;
	}

	_identifiers[instance] = null;
	_finalizer.detach(instance);
	onWeakReferenceRemoved(identifier);

	return identifier;
	}

	/// Removes [identifier] and its associated strongly referenced instance, if
	/// present, from the manager.
	///
	/// Returns the strong referenced instance associated with [identifier] before
	/// it was removed. Returns `null` if [identifier] was not associated with
	/// any strong reference.
	///
	/// This does not remove the the weak referenced instance associtated with
	/// [identifier]. This can be done with [removeWeakReference].
	T? remove<T extends Copyable>(int identifier) {
	return _strongInstances.remove(identifier) as T?;
	}

	/// Retrieves the instance associated with identifier.
	///
	/// The value returned is chosen from the following order:
	///
	/// 1. A weakly referenced instance associated with identifier.
	/// 2. If the only instance associated with identifier is a strongly
	/// referenced instance, a copy of the instance is added as a weak reference
	/// with the same identifier. Returning the newly created copy.
	/// 3. If no instance is associated with identifier, returns null.
	///
	/// This method also expects the host `InstanceManager` to have a strong
	/// reference to the instance the identifier is associated with.
	T? getInstanceWithWeakReference<T extends Copyable>(int identifier) {
	final Copyable? weakInstance = _weakInstances[identifier]?.target;

	if (weakInstance == null) {
	final Copyable? strongInstance = _strongInstances[identifier];
	if (strongInstance != null) {
	final Copyable copy = strongInstance.copy();
	_identifiers[copy] = identifier;
	_weakInstances[identifier] = WeakReference<Copyable>(copy);
	_finalizer.attach(copy, identifier, detach: copy);
	return copy as T;
	}
	return strongInstance as T?;
	}

	return weakInstance as T;
	}

	/// Retrieves the identifier associated with instance.
	int? getIdentifier(Copyable instance) {
	return _identifiers[instance];
	}

	/// Adds a new instance that was instantiated by the host platform.
	///
	/// In other words, the host platform wants to add a new instance that
	/// represents an object on the host platform. Stored with [identifier].
	///
	/// Throws assertion error if the instance or its identifier has already been
	/// added.
	///
	/// Returns unique identifier of the [instance] added.
	void addHostCreatedInstance(Copyable instance, int identifier) {
	assert(!containsIdentifier(identifier));
	assert(getIdentifier(instance) == null);
	assert(identifier >= 0);
	_addInstanceWithIdentifier(instance, identifier);
	}

	void _addInstanceWithIdentifier(Copyable instance, int identifier) {
	_identifiers[instance] = identifier;
	_weakInstances[identifier] = WeakReference<Copyable>(instance);
	_finalizer.attach(instance, identifier, detach: instance);

	final Copyable copy = instance.copy();
	_identifiers[copy] = identifier;
	_strongInstances[identifier] = copy;
	}

	/// Whether this manager contains the given [identifier].
	bool containsIdentifier(int identifier) {
	return _weakInstances.containsKey(identifier) \|\|
	_strongInstances.containsKey(identifier);
	}

	int _nextUniqueIdentifier() {
	late int identifier;
	do {
	identifier = _nextIdentifier;
	_nextIdentifier = (_nextIdentifier + 1) % _maxDartCreatedIdentifier;
	} while (containsIdentifier(identifier));
	return identifier;
	}
	}