packages/flutter/lib/src/rendering/mouse_tracker.dart - external/github.com/flutter/flutter - Git at Google

 // 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:collection' show LinkedHashMap;
 import 'dart:ui';

 import 'package:flutter/foundation.dart';
 import 'package:flutter/gestures.dart';
 import 'package:flutter/services.dart';

 import 'package:vector_math/vector_math_64.dart' show Matrix4;

 import 'object.dart';

 export 'package:flutter/services.dart' show
   MouseCursor,
   SystemMouseCursors;

 /// Signature for searching for [MouseTrackerAnnotation]s at the given offset.
 ///
 /// It is used by the [MouseTracker] to fetch annotations for the mouse
 /// position.
 typedef MouseDetectorAnnotationFinder = HitTestResult Function(Offset offset);

 // Various states of a connected mouse device used by [MouseTracker].
 class _MouseState {
   _MouseState({
     required PointerEvent initialEvent,
   }) : assert(initialEvent != null),
        _latestEvent = initialEvent;

   // The list of annotations that contains this device.
   //
   // It uses [LinkedHashMap] to keep the insertion order.
   LinkedHashMap<MouseTrackerAnnotation, Matrix4> get annotations => _annotations;
   LinkedHashMap<MouseTrackerAnnotation, Matrix4> _annotations = LinkedHashMap<MouseTrackerAnnotation, Matrix4>();

   LinkedHashMap<MouseTrackerAnnotation, Matrix4> replaceAnnotations(LinkedHashMap<MouseTrackerAnnotation, Matrix4> value) {
     assert(value != null);
     final LinkedHashMap<MouseTrackerAnnotation, Matrix4> previous = _annotations;
     _annotations = value;
     return previous;
   }

   // The most recently processed mouse event observed from this device.
   PointerEvent get latestEvent => _latestEvent;
   PointerEvent _latestEvent;

   PointerEvent replaceLatestEvent(PointerEvent value) {
     assert(value != null);
     assert(value.device == _latestEvent.device);
     final PointerEvent previous = _latestEvent;
     _latestEvent = value;
     return previous;
   }

   int get device => latestEvent.device;

   @override
   String toString() {
     final String describeLatestEvent = 'latestEvent: ${describeIdentity(latestEvent)}';
     final String describeAnnotations = 'annotations: [list of ${annotations.length}]';
     return '${describeIdentity(this)}($describeLatestEvent, $describeAnnotations)';
   }
 }

 // The information in `MouseTracker._handleDeviceUpdate` to provide the details
 // of an update of a mouse device.
 //
 // This class contains the information needed to handle the update that might
 // change the state of a mouse device, or the [MouseTrackerAnnotation]s that
 // the mouse device is hovering.
 @immutable
 class _MouseTrackerUpdateDetails with Diagnosticable {
   /// When device update is triggered by a new frame.
   ///
   /// All parameters are required.
   const _MouseTrackerUpdateDetails.byNewFrame({
     required this.lastAnnotations,
     required this.nextAnnotations,
     required PointerEvent this.previousEvent,
   }) : assert(previousEvent != null),
        assert(lastAnnotations != null),
        assert(nextAnnotations != null),
        triggeringEvent = null;

   /// When device update is triggered by a pointer event.
   ///
   /// The [lastAnnotations], [nextAnnotations], and [triggeringEvent] are
   /// required.
   const _MouseTrackerUpdateDetails.byPointerEvent({
     required this.lastAnnotations,
     required this.nextAnnotations,
     this.previousEvent,
     required PointerEvent this.triggeringEvent,
   }) : assert(triggeringEvent != null),
        assert(lastAnnotations != null),
        assert(nextAnnotations != null);

   /// The annotations that the device is hovering before the update.
   ///
   /// It is never null.
   final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations;

   /// The annotations that the device is hovering after the update.
   ///
   /// It is never null.
   final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations;

   /// The last event that the device observed before the update.
   ///
   /// If the update is triggered by a frame, the [previousEvent] is never null,
   /// since the pointer must have been added before.
   ///
   /// If the update is triggered by a pointer event, the [previousEvent] is not
   /// null except for cases where the event is the first event observed by the
   /// pointer (which is not necessarily a [PointerAddedEvent]).
   final PointerEvent? previousEvent;

   /// The event that triggered this update.
   ///
   /// It is non-null if and only if the update is triggered by a pointer event.
   final PointerEvent? triggeringEvent;

   /// The pointing device of this update.
   int get device {
     final int result = (previousEvent ?? triggeringEvent)!.device;
     assert(result != null);
     return result;
   }

   /// The last event that the device observed after the update.
   ///
   /// The [latestEvent] is never null.
   PointerEvent get latestEvent {
     final PointerEvent result = triggeringEvent ?? previousEvent!;
     assert(result != null);
     return result;
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(IntProperty('device', device));
     properties.add(DiagnosticsProperty<PointerEvent>('previousEvent', previousEvent));
     properties.add(DiagnosticsProperty<PointerEvent>('triggeringEvent', triggeringEvent));
     properties.add(DiagnosticsProperty<Map<MouseTrackerAnnotation, Matrix4>>('lastAnnotations', lastAnnotations));
     properties.add(DiagnosticsProperty<Map<MouseTrackerAnnotation, Matrix4>>('nextAnnotations', nextAnnotations));
   }
 }

 /// Tracks the relationship between mouse devices and annotations, and
 /// triggers mouse events and cursor changes accordingly.
 ///
 /// The [MouseTracker] tracks the relationship between mouse devices and
 /// [MouseTrackerAnnotation], notified by [updateWithEvent] and
 /// [updateAllDevices]. At every update, [MouseTracker] triggers the following
 /// changes if applicable:
 ///
 ///  * Dispatches mouse-related pointer events (pointer enter, hover, and exit).
 ///  * Changes mouse cursors.
 ///  * Notifies when [mouseIsConnected] changes.
 ///
 /// This class is a [ChangeNotifier] that notifies its listeners if the value of
 /// [mouseIsConnected] changes.
 ///
 /// An instance of [MouseTracker] is owned by the global singleton
 /// [RendererBinding].
 class MouseTracker extends ChangeNotifier {
   final MouseCursorManager _mouseCursorMixin = MouseCursorManager(
     SystemMouseCursors.basic,
   );

   // Tracks the state of connected mouse devices.
   //
   // It is the source of truth for the list of connected mouse devices, and
   // consists of two parts:
   //
   //  * The mouse devices that are connected.
   //  * In which annotations each device is contained.
   final Map<int, _MouseState> _mouseStates = <int, _MouseState>{};

   // Used to wrap any procedure that might change `mouseIsConnected`.
   //
   // This method records `mouseIsConnected`, runs `task`, and calls
   // [notifyListeners] at the end if the `mouseIsConnected` has changed.
   void _monitorMouseConnection(VoidCallback task) {
     final bool mouseWasConnected = mouseIsConnected;
     task();
     if (mouseWasConnected != mouseIsConnected)
       notifyListeners();
   }

   bool _debugDuringDeviceUpdate = false;
   // Used to wrap any procedure that might call `_handleDeviceUpdate`.
   //
   // In debug mode, this method uses `_debugDuringDeviceUpdate` to prevent
   // `_deviceUpdatePhase` being recursively called.
   void _deviceUpdatePhase(VoidCallback task) {
     assert(!_debugDuringDeviceUpdate);
     assert(() {
       _debugDuringDeviceUpdate = true;
       return true;
     }());
     task();
     assert(() {
       _debugDuringDeviceUpdate = false;
       return true;
     }());
   }

   // Whether an observed event might update a device.
   static bool _shouldMarkStateDirty(_MouseState? state, PointerEvent event) {
     if (state == null)
       return true;
     assert(event != null);
     final PointerEvent lastEvent = state.latestEvent;
     assert(event.device == lastEvent.device);
     // An Added can only follow a Removed, and a Removed can only be followed
     // by an Added.
     assert((event is PointerAddedEvent) == (lastEvent is PointerRemovedEvent));

     // Ignore events that are unrelated to mouse tracking.
     if (event is PointerSignalEvent)
       return false;
     return lastEvent is PointerAddedEvent
       || event is PointerRemovedEvent
       || lastEvent.position != event.position;
   }

   LinkedHashMap<MouseTrackerAnnotation, Matrix4> _hitTestResultToAnnotations(HitTestResult result) {
     assert(result != null);
     final LinkedHashMap<MouseTrackerAnnotation, Matrix4> annotations = <MouseTrackerAnnotation, Matrix4>{}
         as LinkedHashMap<MouseTrackerAnnotation, Matrix4>;
     for (final HitTestEntry entry in result.path) {
       if (entry.target is MouseTrackerAnnotation) {
         annotations[entry.target as MouseTrackerAnnotation] = entry.transform!;
       }
     }
     return annotations;
   }

   // Find the annotations that is hovered by the device of the `state`, and
   // their respective global transform matrices.
   //
   // If the device is not connected or not a mouse, an empty map is returned
   // without calling `hitTest`.
   LinkedHashMap<MouseTrackerAnnotation, Matrix4> _findAnnotations(_MouseState state, MouseDetectorAnnotationFinder hitTest) {
     assert(state != null);
     assert(hitTest != null);
     final Offset globalPosition = state.latestEvent.position;
     final int device = state.device;
     if (!_mouseStates.containsKey(device))
       return <MouseTrackerAnnotation, Matrix4>{} as LinkedHashMap<MouseTrackerAnnotation, Matrix4>;

     return _hitTestResultToAnnotations(hitTest(globalPosition));
   }

   // A callback that is called on the update of a device.
   //
   // An event (not necessarily a pointer event) that might change the
   // relationship between mouse devices and [MouseTrackerAnnotation]s is called
   // a _device update_. This method should be called at each such update.
   //
   // The update can be caused by two kinds of triggers:
   //
   //  * Triggered by the addition, movement, or removal of a pointer. Such calls
   //    occur during the handler of the event, indicated by
   //    `details.triggeringEvent` being non-null.
   //  * Triggered by the appearance, movement, or disappearance of an annotation.
   //    Such calls occur after each new frame, during the post-frame callbacks,
   //    indicated by `details.triggeringEvent` being null.
   //
   // Calls of this method must be wrapped in `_deviceUpdatePhase`.
   void _handleDeviceUpdate(_MouseTrackerUpdateDetails details) {
     assert(_debugDuringDeviceUpdate);
     _handleDeviceUpdateMouseEvents(details);
     _mouseCursorMixin.handleDeviceCursorUpdate(
       details.device,
       details.triggeringEvent,
       details.nextAnnotations.keys.map((MouseTrackerAnnotation annotation) => annotation.cursor),
     );
   }

   /// Whether or not at least one mouse is connected and has produced events.
   bool get mouseIsConnected => _mouseStates.isNotEmpty;

   /// Trigger a device update with a new event and its corresponding hit test
   /// result.
   ///
   /// The [updateWithEvent] indicates that an event has been observed, and is
   /// called during the handler of the event.  It is typically called by
   /// [RendererBinding], and should be called with all events received, and let
   /// [MouseTracker] filter which to react to.
   ///
   /// The `getResult` is a function to return the hit test result at the
   /// position of the event. It should not simply return cached hit test
   /// result, because the cache does not change throughout a tap sequence.
   void updateWithEvent(PointerEvent event, ValueGetter<HitTestResult> getResult) {
     if (event.kind != PointerDeviceKind.mouse)
       return;
     if (event is PointerSignalEvent)
       return;
     final HitTestResult result = event is PointerRemovedEvent ? HitTestResult() : getResult();
     final int device = event.device;
     final _MouseState? existingState = _mouseStates[device];
     if (!_shouldMarkStateDirty(existingState, event))
       return;

     _monitorMouseConnection(() {
       _deviceUpdatePhase(() {
         // Update mouseState to the latest devices that have not been removed,
         // so that [mouseIsConnected], which is decided by `_mouseStates`, is
         // correct during the callbacks.
         if (existingState == null) {
           assert(event is! PointerRemovedEvent);
           _mouseStates[device] = _MouseState(initialEvent: event);
         } else {
           assert(event is! PointerAddedEvent);
           if (event is PointerRemovedEvent)
             _mouseStates.remove(event.device);
         }
         final _MouseState targetState = _mouseStates[device] ?? existingState!;

         final PointerEvent lastEvent = targetState.replaceLatestEvent(event);
         final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = event is PointerRemovedEvent ?
             <MouseTrackerAnnotation, Matrix4>{} as LinkedHashMap<MouseTrackerAnnotation, Matrix4> :
             _hitTestResultToAnnotations(result);
         final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = targetState.replaceAnnotations(nextAnnotations);

         _handleDeviceUpdate(_MouseTrackerUpdateDetails.byPointerEvent(
           lastAnnotations: lastAnnotations,
           nextAnnotations: nextAnnotations,
           previousEvent: lastEvent,
           triggeringEvent: event,
         ));
       });
     });
   }

   /// Trigger a device update for all detected devices.
   ///
   /// The [updateAllDevices] is typically called during the post frame phase,
   /// indicating a frame has passed and all objects have potentially moved. The
   /// `hitTest` is a function that acquires the hit test result at a given
   /// position, and must not be empty.
   ///
   /// For each connected device, the [updateAllDevices] will make a hit test on
   /// the device's last seen position, and check if necessary changes need to be
   /// made.
   void updateAllDevices(MouseDetectorAnnotationFinder hitTest) {
     _deviceUpdatePhase(() {
       for (final _MouseState dirtyState in _mouseStates.values) {
         final PointerEvent lastEvent = dirtyState.latestEvent;
         final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = _findAnnotations(dirtyState, hitTest);
         final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = dirtyState.replaceAnnotations(nextAnnotations);

         _handleDeviceUpdate(_MouseTrackerUpdateDetails.byNewFrame(
           lastAnnotations: lastAnnotations,
           nextAnnotations: nextAnnotations,
           previousEvent: lastEvent,
         ));
       }
     });
   }

   /// Returns the active mouse cursor for a device.
   ///
   /// The return value is the last [MouseCursor] activated onto this device, even
   /// if the activation failed.
   ///
   /// This function is only active when asserts are enabled. In release builds,
   /// it always returns null.
   @visibleForTesting
   MouseCursor? debugDeviceActiveCursor(int device) {
     return _mouseCursorMixin.debugDeviceActiveCursor(device);
   }

   // Handles device update and dispatches mouse event callbacks.
   static void _handleDeviceUpdateMouseEvents(_MouseTrackerUpdateDetails details) {
     final PointerEvent latestEvent = details.latestEvent;

     final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = details.lastAnnotations;
     final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = details.nextAnnotations;

     // Order is important for mouse event callbacks. The
     // `_hitTestResultToAnnotations` returns annotations in the visual order
     // from front to back, called the "hit-test order". The algorithm here is
     // explained in https://github.com/flutter/flutter/issues/41420

     // Send exit events to annotations that are in last but not in next, in
     // hit-test order.
     final PointerExitEvent baseExitEvent = PointerExitEvent.fromMouseEvent(latestEvent);
     lastAnnotations.forEach((MouseTrackerAnnotation annotation, Matrix4 transform) {
       if (!nextAnnotations.containsKey(annotation))
         if (annotation.validForMouseTracker && annotation.onExit != null)
           annotation.onExit!(baseExitEvent.transformed(lastAnnotations[annotation]));
     });

     // Send enter events to annotations that are not in last but in next, in
     // reverse hit-test order.
     final List<MouseTrackerAnnotation> enteringAnnotations = nextAnnotations.keys.where(
       (MouseTrackerAnnotation annotation) => !lastAnnotations.containsKey(annotation),
     ).toList();
     final PointerEnterEvent baseEnterEvent = PointerEnterEvent.fromMouseEvent(latestEvent);
     for (final MouseTrackerAnnotation annotation in enteringAnnotations.reversed) {
       if (annotation.validForMouseTracker && annotation.onEnter != null)
         annotation.onEnter!(baseEnterEvent.transformed(nextAnnotations[annotation]));
     }
   }
 }
	// 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:collection' show LinkedHashMap;
	import 'dart:ui';

	import 'package:flutter/foundation.dart';
	import 'package:flutter/gestures.dart';
	import 'package:flutter/services.dart';

	import 'package:vector_math/vector_math_64.dart' show Matrix4;

	import 'object.dart';

	export 'package:flutter/services.dart' show
	MouseCursor,
	SystemMouseCursors;

	/// Signature for searching for [MouseTrackerAnnotation]s at the given offset.
	///
	/// It is used by the [MouseTracker] to fetch annotations for the mouse
	/// position.
	typedef MouseDetectorAnnotationFinder = HitTestResult Function(Offset offset);

	// Various states of a connected mouse device used by [MouseTracker].
	class _MouseState {
	_MouseState({
	required PointerEvent initialEvent,
	}) : assert(initialEvent != null),
	_latestEvent = initialEvent;

	// The list of annotations that contains this device.
	//
	// It uses [LinkedHashMap] to keep the insertion order.
	LinkedHashMap<MouseTrackerAnnotation, Matrix4> get annotations => _annotations;
	LinkedHashMap<MouseTrackerAnnotation, Matrix4> _annotations = LinkedHashMap<MouseTrackerAnnotation, Matrix4>();

	LinkedHashMap<MouseTrackerAnnotation, Matrix4> replaceAnnotations(LinkedHashMap<MouseTrackerAnnotation, Matrix4> value) {
	assert(value != null);
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> previous = _annotations;
	_annotations = value;
	return previous;
	}

	// The most recently processed mouse event observed from this device.
	PointerEvent get latestEvent => _latestEvent;
	PointerEvent _latestEvent;

	PointerEvent replaceLatestEvent(PointerEvent value) {
	assert(value != null);
	assert(value.device == _latestEvent.device);
	final PointerEvent previous = _latestEvent;
	_latestEvent = value;
	return previous;
	}

	int get device => latestEvent.device;

	@override
	String toString() {
	final String describeLatestEvent = 'latestEvent: ${describeIdentity(latestEvent)}';
	final String describeAnnotations = 'annotations: [list of ${annotations.length}]';
	return '${describeIdentity(this)}($describeLatestEvent, $describeAnnotations)';
	}
	}

	// The information in `MouseTracker._handleDeviceUpdate` to provide the details
	// of an update of a mouse device.
	//
	// This class contains the information needed to handle the update that might
	// change the state of a mouse device, or the [MouseTrackerAnnotation]s that
	// the mouse device is hovering.
	@immutable
	class _MouseTrackerUpdateDetails with Diagnosticable {
	/// When device update is triggered by a new frame.
	///
	/// All parameters are required.
	const _MouseTrackerUpdateDetails.byNewFrame({
	required this.lastAnnotations,
	required this.nextAnnotations,
	required PointerEvent this.previousEvent,
	}) : assert(previousEvent != null),
	assert(lastAnnotations != null),
	assert(nextAnnotations != null),
	triggeringEvent = null;

	/// When device update is triggered by a pointer event.
	///
	/// The [lastAnnotations], [nextAnnotations], and [triggeringEvent] are
	/// required.
	const _MouseTrackerUpdateDetails.byPointerEvent({
	required this.lastAnnotations,
	required this.nextAnnotations,
	this.previousEvent,
	required PointerEvent this.triggeringEvent,
	}) : assert(triggeringEvent != null),
	assert(lastAnnotations != null),
	assert(nextAnnotations != null);

	/// The annotations that the device is hovering before the update.
	///
	/// It is never null.
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations;

	/// The annotations that the device is hovering after the update.
	///
	/// It is never null.
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations;

	/// The last event that the device observed before the update.
	///
	/// If the update is triggered by a frame, the [previousEvent] is never null,
	/// since the pointer must have been added before.
	///
	/// If the update is triggered by a pointer event, the [previousEvent] is not
	/// null except for cases where the event is the first event observed by the
	/// pointer (which is not necessarily a [PointerAddedEvent]).
	final PointerEvent? previousEvent;

	/// The event that triggered this update.
	///
	/// It is non-null if and only if the update is triggered by a pointer event.
	final PointerEvent? triggeringEvent;

	/// The pointing device of this update.
	int get device {
	final int result = (previousEvent ?? triggeringEvent)!.device;
	assert(result != null);
	return result;
	}

	/// The last event that the device observed after the update.
	///
	/// The [latestEvent] is never null.
	PointerEvent get latestEvent {
	final PointerEvent result = triggeringEvent ?? previousEvent!;
	assert(result != null);
	return result;
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(IntProperty('device', device));
	properties.add(DiagnosticsProperty<PointerEvent>('previousEvent', previousEvent));
	properties.add(DiagnosticsProperty<PointerEvent>('triggeringEvent', triggeringEvent));
	properties.add(DiagnosticsProperty<Map<MouseTrackerAnnotation, Matrix4>>('lastAnnotations', lastAnnotations));
	properties.add(DiagnosticsProperty<Map<MouseTrackerAnnotation, Matrix4>>('nextAnnotations', nextAnnotations));
	}
	}

	/// Tracks the relationship between mouse devices and annotations, and
	/// triggers mouse events and cursor changes accordingly.
	///
	/// The [MouseTracker] tracks the relationship between mouse devices and
	/// [MouseTrackerAnnotation], notified by [updateWithEvent] and
	/// [updateAllDevices]. At every update, [MouseTracker] triggers the following
	/// changes if applicable:
	///
	/// * Dispatches mouse-related pointer events (pointer enter, hover, and exit).
	/// * Changes mouse cursors.
	/// * Notifies when [mouseIsConnected] changes.
	///
	/// This class is a [ChangeNotifier] that notifies its listeners if the value of
	/// [mouseIsConnected] changes.
	///
	/// An instance of [MouseTracker] is owned by the global singleton
	/// [RendererBinding].
	class MouseTracker extends ChangeNotifier {
	final MouseCursorManager _mouseCursorMixin = MouseCursorManager(
	SystemMouseCursors.basic,
	);

	// Tracks the state of connected mouse devices.
	//
	// It is the source of truth for the list of connected mouse devices, and
	// consists of two parts:
	//
	// * The mouse devices that are connected.
	// * In which annotations each device is contained.
	final Map<int, _MouseState> _mouseStates = <int, _MouseState>{};

	// Used to wrap any procedure that might change `mouseIsConnected`.
	//
	// This method records `mouseIsConnected`, runs `task`, and calls
	// [notifyListeners] at the end if the `mouseIsConnected` has changed.
	void _monitorMouseConnection(VoidCallback task) {
	final bool mouseWasConnected = mouseIsConnected;
	task();
	if (mouseWasConnected != mouseIsConnected)
	notifyListeners();
	}

	bool _debugDuringDeviceUpdate = false;
	// Used to wrap any procedure that might call `_handleDeviceUpdate`.
	//
	// In debug mode, this method uses `_debugDuringDeviceUpdate` to prevent
	// `_deviceUpdatePhase` being recursively called.
	void _deviceUpdatePhase(VoidCallback task) {
	assert(!_debugDuringDeviceUpdate);
	assert(() {
	_debugDuringDeviceUpdate = true;
	return true;
	}());
	task();
	assert(() {
	_debugDuringDeviceUpdate = false;
	return true;
	}());
	}

	// Whether an observed event might update a device.
	static bool _shouldMarkStateDirty(_MouseState? state, PointerEvent event) {
	if (state == null)
	return true;
	assert(event != null);
	final PointerEvent lastEvent = state.latestEvent;
	assert(event.device == lastEvent.device);
	// An Added can only follow a Removed, and a Removed can only be followed
	// by an Added.
	assert((event is PointerAddedEvent) == (lastEvent is PointerRemovedEvent));

	// Ignore events that are unrelated to mouse tracking.
	if (event is PointerSignalEvent)
	return false;
	return lastEvent is PointerAddedEvent
	\|\| event is PointerRemovedEvent
	\|\| lastEvent.position != event.position;
	}

	LinkedHashMap<MouseTrackerAnnotation, Matrix4> _hitTestResultToAnnotations(HitTestResult result) {
	assert(result != null);
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> annotations = <MouseTrackerAnnotation, Matrix4>{}
	as LinkedHashMap<MouseTrackerAnnotation, Matrix4>;
	for (final HitTestEntry entry in result.path) {
	if (entry.target is MouseTrackerAnnotation) {
	annotations[entry.target as MouseTrackerAnnotation] = entry.transform!;
	}
	}
	return annotations;
	}

	// Find the annotations that is hovered by the device of the `state`, and
	// their respective global transform matrices.
	//
	// If the device is not connected or not a mouse, an empty map is returned
	// without calling `hitTest`.
	LinkedHashMap<MouseTrackerAnnotation, Matrix4> _findAnnotations(_MouseState state, MouseDetectorAnnotationFinder hitTest) {
	assert(state != null);
	assert(hitTest != null);
	final Offset globalPosition = state.latestEvent.position;
	final int device = state.device;
	if (!_mouseStates.containsKey(device))
	return <MouseTrackerAnnotation, Matrix4>{} as LinkedHashMap<MouseTrackerAnnotation, Matrix4>;

	return _hitTestResultToAnnotations(hitTest(globalPosition));
	}

	// A callback that is called on the update of a device.
	//
	// An event (not necessarily a pointer event) that might change the
	// relationship between mouse devices and [MouseTrackerAnnotation]s is called
	// a _device update_. This method should be called at each such update.
	//
	// The update can be caused by two kinds of triggers:
	//
	// * Triggered by the addition, movement, or removal of a pointer. Such calls
	// occur during the handler of the event, indicated by
	// `details.triggeringEvent` being non-null.
	// * Triggered by the appearance, movement, or disappearance of an annotation.
	// Such calls occur after each new frame, during the post-frame callbacks,
	// indicated by `details.triggeringEvent` being null.
	//
	// Calls of this method must be wrapped in `_deviceUpdatePhase`.
	void _handleDeviceUpdate(_MouseTrackerUpdateDetails details) {
	assert(_debugDuringDeviceUpdate);
	_handleDeviceUpdateMouseEvents(details);
	_mouseCursorMixin.handleDeviceCursorUpdate(
	details.device,
	details.triggeringEvent,
	details.nextAnnotations.keys.map((MouseTrackerAnnotation annotation) => annotation.cursor),
	);
	}

	/// Whether or not at least one mouse is connected and has produced events.
	bool get mouseIsConnected => _mouseStates.isNotEmpty;

	/// Trigger a device update with a new event and its corresponding hit test
	/// result.
	///
	/// The [updateWithEvent] indicates that an event has been observed, and is
	/// called during the handler of the event. It is typically called by
	/// [RendererBinding], and should be called with all events received, and let
	/// [MouseTracker] filter which to react to.
	///
	/// The `getResult` is a function to return the hit test result at the
	/// position of the event. It should not simply return cached hit test
	/// result, because the cache does not change throughout a tap sequence.
	void updateWithEvent(PointerEvent event, ValueGetter<HitTestResult> getResult) {
	if (event.kind != PointerDeviceKind.mouse)
	return;
	if (event is PointerSignalEvent)
	return;
	final HitTestResult result = event is PointerRemovedEvent ? HitTestResult() : getResult();
	final int device = event.device;
	final _MouseState? existingState = _mouseStates[device];
	if (!_shouldMarkStateDirty(existingState, event))
	return;

	_monitorMouseConnection(() {
	_deviceUpdatePhase(() {
	// Update mouseState to the latest devices that have not been removed,
	// so that [mouseIsConnected], which is decided by `_mouseStates`, is
	// correct during the callbacks.
	if (existingState == null) {
	assert(event is! PointerRemovedEvent);
	_mouseStates[device] = _MouseState(initialEvent: event);
	} else {
	assert(event is! PointerAddedEvent);
	if (event is PointerRemovedEvent)
	_mouseStates.remove(event.device);
	}
	final _MouseState targetState = _mouseStates[device] ?? existingState!;

	final PointerEvent lastEvent = targetState.replaceLatestEvent(event);
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = event is PointerRemovedEvent ?
	<MouseTrackerAnnotation, Matrix4>{} as LinkedHashMap<MouseTrackerAnnotation, Matrix4> :
	_hitTestResultToAnnotations(result);
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = targetState.replaceAnnotations(nextAnnotations);

	_handleDeviceUpdate(_MouseTrackerUpdateDetails.byPointerEvent(
	lastAnnotations: lastAnnotations,
	nextAnnotations: nextAnnotations,
	previousEvent: lastEvent,
	triggeringEvent: event,
	));
	});
	});
	}

	/// Trigger a device update for all detected devices.
	///
	/// The [updateAllDevices] is typically called during the post frame phase,
	/// indicating a frame has passed and all objects have potentially moved. The
	/// `hitTest` is a function that acquires the hit test result at a given
	/// position, and must not be empty.
	///
	/// For each connected device, the [updateAllDevices] will make a hit test on
	/// the device's last seen position, and check if necessary changes need to be
	/// made.
	void updateAllDevices(MouseDetectorAnnotationFinder hitTest) {
	_deviceUpdatePhase(() {
	for (final _MouseState dirtyState in _mouseStates.values) {
	final PointerEvent lastEvent = dirtyState.latestEvent;
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = _findAnnotations(dirtyState, hitTest);
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = dirtyState.replaceAnnotations(nextAnnotations);

	_handleDeviceUpdate(_MouseTrackerUpdateDetails.byNewFrame(
	lastAnnotations: lastAnnotations,
	nextAnnotations: nextAnnotations,
	previousEvent: lastEvent,
	));
	}
	});
	}

	/// Returns the active mouse cursor for a device.
	///
	/// The return value is the last [MouseCursor] activated onto this device, even
	/// if the activation failed.
	///
	/// This function is only active when asserts are enabled. In release builds,
	/// it always returns null.
	@visibleForTesting
	MouseCursor? debugDeviceActiveCursor(int device) {
	return _mouseCursorMixin.debugDeviceActiveCursor(device);
	}

	// Handles device update and dispatches mouse event callbacks.
	static void _handleDeviceUpdateMouseEvents(_MouseTrackerUpdateDetails details) {
	final PointerEvent latestEvent = details.latestEvent;

	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> lastAnnotations = details.lastAnnotations;
	final LinkedHashMap<MouseTrackerAnnotation, Matrix4> nextAnnotations = details.nextAnnotations;

	// Order is important for mouse event callbacks. The
	// `_hitTestResultToAnnotations` returns annotations in the visual order
	// from front to back, called the "hit-test order". The algorithm here is
	// explained in https://github.com/flutter/flutter/issues/41420

	// Send exit events to annotations that are in last but not in next, in
	// hit-test order.
	final PointerExitEvent baseExitEvent = PointerExitEvent.fromMouseEvent(latestEvent);
	lastAnnotations.forEach((MouseTrackerAnnotation annotation, Matrix4 transform) {
	if (!nextAnnotations.containsKey(annotation))
	if (annotation.validForMouseTracker && annotation.onExit != null)
	annotation.onExit!(baseExitEvent.transformed(lastAnnotations[annotation]));
	});

	// Send enter events to annotations that are not in last but in next, in
	// reverse hit-test order.
	final List<MouseTrackerAnnotation> enteringAnnotations = nextAnnotations.keys.where(
	(MouseTrackerAnnotation annotation) => !lastAnnotations.containsKey(annotation),
	).toList();
	final PointerEnterEvent baseEnterEvent = PointerEnterEvent.fromMouseEvent(latestEvent);
	for (final MouseTrackerAnnotation annotation in enteringAnnotations.reversed) {
	if (annotation.validForMouseTracker && annotation.onEnter != null)
	annotation.onEnter!(baseEnterEvent.transformed(nextAnnotations[annotation]));
	}
	}
	}