sdk/lib/async/schedule_microtask.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 part of dart.async;

 typedef void _AsyncCallback();

 class _AsyncCallbackEntry {
   final _AsyncCallback callback;
   _AsyncCallbackEntry? next;
   _AsyncCallbackEntry(this.callback);
 }

 /// Head of single linked list of pending callbacks.
 _AsyncCallbackEntry? _nextCallback;

 /// Tail of single linked list of pending callbacks.
 _AsyncCallbackEntry? _lastCallback;

 /// Tail of priority callbacks added by the currently executing callback.
 ///
 /// Priority callbacks are put at the beginning of the
 /// callback queue, so that if one callback schedules more than one
 /// priority callback, they are still enqueued in scheduling order.
 _AsyncCallbackEntry? _lastPriorityCallback;

 /// Whether we are currently inside the callback loop.
 ///
 /// If we are inside the loop, we never need to schedule the loop,
 /// even if adding a first element.
 bool _isInCallbackLoop = false;

 void _microtaskLoop() {
   for (var entry = _nextCallback; entry != null; entry = _nextCallback) {
     _lastPriorityCallback = null;
     var next = entry.next;
     _nextCallback = next;
     if (next == null) _lastCallback = null;
     (entry.callback)();
   }
 }

 void _startMicrotaskLoop() {
   _isInCallbackLoop = true;
   try {
     // Moved to separate function because try-finally prevents
     // good optimization.
     _microtaskLoop();
   } finally {
     _lastPriorityCallback = null;
     _isInCallbackLoop = false;
     if (_nextCallback != null) {
       _AsyncRun._scheduleImmediate(_startMicrotaskLoop);
     }
   }
 }

 /// Schedules a callback to be called as a microtask.
 ///
 /// The microtask is called after all other currently scheduled
 /// microtasks, but as part of the current system event.
 void _scheduleAsyncCallback(_AsyncCallback callback) {
   _AsyncCallbackEntry newEntry = new _AsyncCallbackEntry(callback);
   _AsyncCallbackEntry? lastCallback = _lastCallback;
   if (lastCallback == null) {
     _nextCallback = _lastCallback = newEntry;
     if (!_isInCallbackLoop) {
       _AsyncRun._scheduleImmediate(_startMicrotaskLoop);
     }
   } else {
     lastCallback.next = newEntry;
     _lastCallback = newEntry;
   }
 }

 /// Schedules a callback to be called before all other currently scheduled ones.
 ///
 /// This callback takes priority over existing scheduled callbacks.
 /// It is only used internally to give higher priority to error reporting.
 ///
 /// Is always run in the root zone.
 void _schedulePriorityAsyncCallback(_AsyncCallback callback) {
   if (_nextCallback == null) {
     _scheduleAsyncCallback(callback);
     _lastPriorityCallback = _lastCallback;
     return;
   }
   _AsyncCallbackEntry entry = new _AsyncCallbackEntry(callback);
   _AsyncCallbackEntry? lastPriorityCallback = _lastPriorityCallback;
   if (lastPriorityCallback == null) {
     entry.next = _nextCallback;
     _nextCallback = _lastPriorityCallback = entry;
   } else {
     var next = lastPriorityCallback.next;
     entry.next = next;
     lastPriorityCallback.next = entry;
     _lastPriorityCallback = entry;
     if (next == null) {
       _lastCallback = entry;
     }
   }
 }

 /// Runs a function asynchronously.
 ///
 /// Callbacks registered through this function are always executed in order and
 /// are guaranteed to run before other asynchronous events (like [Timer] events,
 /// or DOM events).
 ///
 /// **Warning:** it is possible to starve the DOM by registering asynchronous
 /// callbacks through this method. For example the following program runs
 /// the callbacks without ever giving the Timer callback a chance to execute:
 /// ```dart
 /// main() {
 ///   Timer.run(() { print("executed"); });  // Will never be executed.
 ///   foo() {
 ///     scheduleMicrotask(foo);  // Schedules [foo] in front of other events.
 ///   }
 ///   foo();
 /// }
 /// ```
 /// ## Other resources
 ///
 /// * [The Event Loop and Dart](https://dart.dev/articles/event-loop/):
 /// Learn how Dart handles the event queue and microtask queue, so you can write
 /// better asynchronous code with fewer surprises.
 @pragma('vm:entry-point', 'call')
 void scheduleMicrotask(void Function() callback) {
   _Zone currentZone = Zone._current;
   if (identical(_rootZone, currentZone)) {
     // No need to bind the callback. We know that the root's scheduleMicrotask
     // will be invoked in the root zone.
     _rootScheduleMicrotask(null, null, _rootZone, callback);
     return;
   }
   _ZoneFunction implementation = currentZone._scheduleMicrotask;
   if (identical(_rootZone, implementation.zone) &&
       _rootZone.inSameErrorZone(currentZone)) {
     _rootScheduleMicrotask(
         null, null, currentZone, currentZone.registerCallback(callback));
     return;
   }
   Zone.current.scheduleMicrotask(Zone.current.bindCallbackGuarded(callback));
 }

 class _AsyncRun {
   /// Schedule the given callback before any other event in the event-loop.
   external static void _scheduleImmediate(void Function() callback);
 }
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	part of dart.async;

	typedef void _AsyncCallback();

	class _AsyncCallbackEntry {
	final _AsyncCallback callback;
	_AsyncCallbackEntry? next;
	_AsyncCallbackEntry(this.callback);
	}

	/// Head of single linked list of pending callbacks.
	_AsyncCallbackEntry? _nextCallback;

	/// Tail of single linked list of pending callbacks.
	_AsyncCallbackEntry? _lastCallback;

	/// Tail of priority callbacks added by the currently executing callback.
	///
	/// Priority callbacks are put at the beginning of the
	/// callback queue, so that if one callback schedules more than one
	/// priority callback, they are still enqueued in scheduling order.
	_AsyncCallbackEntry? _lastPriorityCallback;

	/// Whether we are currently inside the callback loop.
	///
	/// If we are inside the loop, we never need to schedule the loop,
	/// even if adding a first element.
	bool _isInCallbackLoop = false;

	void _microtaskLoop() {
	for (var entry = _nextCallback; entry != null; entry = _nextCallback) {
	_lastPriorityCallback = null;
	var next = entry.next;
	_nextCallback = next;
	if (next == null) _lastCallback = null;
	(entry.callback)();
	}
	}

	void _startMicrotaskLoop() {
	_isInCallbackLoop = true;
	try {
	// Moved to separate function because try-finally prevents
	// good optimization.
	_microtaskLoop();
	} finally {
	_lastPriorityCallback = null;
	_isInCallbackLoop = false;
	if (_nextCallback != null) {
	_AsyncRun._scheduleImmediate(_startMicrotaskLoop);
	}
	}
	}

	/// Schedules a callback to be called as a microtask.
	///
	/// The microtask is called after all other currently scheduled
	/// microtasks, but as part of the current system event.
	void _scheduleAsyncCallback(_AsyncCallback callback) {
	_AsyncCallbackEntry newEntry = new _AsyncCallbackEntry(callback);
	_AsyncCallbackEntry? lastCallback = _lastCallback;
	if (lastCallback == null) {
	_nextCallback = _lastCallback = newEntry;
	if (!_isInCallbackLoop) {
	_AsyncRun._scheduleImmediate(_startMicrotaskLoop);
	}
	} else {
	lastCallback.next = newEntry;
	_lastCallback = newEntry;
	}
	}

	/// Schedules a callback to be called before all other currently scheduled ones.
	///
	/// This callback takes priority over existing scheduled callbacks.
	/// It is only used internally to give higher priority to error reporting.
	///
	/// Is always run in the root zone.
	void _schedulePriorityAsyncCallback(_AsyncCallback callback) {
	if (_nextCallback == null) {
	_scheduleAsyncCallback(callback);
	_lastPriorityCallback = _lastCallback;
	return;
	}
	_AsyncCallbackEntry entry = new _AsyncCallbackEntry(callback);
	_AsyncCallbackEntry? lastPriorityCallback = _lastPriorityCallback;
	if (lastPriorityCallback == null) {
	entry.next = _nextCallback;
	_nextCallback = _lastPriorityCallback = entry;
	} else {
	var next = lastPriorityCallback.next;
	entry.next = next;
	lastPriorityCallback.next = entry;
	_lastPriorityCallback = entry;
	if (next == null) {
	_lastCallback = entry;
	}
	}
	}

	/// Runs a function asynchronously.
	///
	/// Callbacks registered through this function are always executed in order and
	/// are guaranteed to run before other asynchronous events (like [Timer] events,
	/// or DOM events).
	///
	/// Warning: it is possible to starve the DOM by registering asynchronous
	/// callbacks through this method. For example the following program runs
	/// the callbacks without ever giving the Timer callback a chance to execute:
	/// ```dart
	/// main() {
	/// Timer.run(() { print("executed"); }); // Will never be executed.
	/// foo() {
	/// scheduleMicrotask(foo); // Schedules [foo] in front of other events.
	/// }
	/// foo();
	/// }
	/// ```
	/// ## Other resources
	///
	/// * [The Event Loop and Dart](https://dart.dev/articles/event-loop/):
	/// Learn how Dart handles the event queue and microtask queue, so you can write
	/// better asynchronous code with fewer surprises.
	@pragma('vm:entry-point', 'call')
	void scheduleMicrotask(void Function() callback) {
	_Zone currentZone = Zone._current;
	if (identical(_rootZone, currentZone)) {
	// No need to bind the callback. We know that the root's scheduleMicrotask
	// will be invoked in the root zone.
	_rootScheduleMicrotask(null, null, _rootZone, callback);
	return;
	}
	_ZoneFunction implementation = currentZone._scheduleMicrotask;
	if (identical(_rootZone, implementation.zone) &&
	_rootZone.inSameErrorZone(currentZone)) {
	_rootScheduleMicrotask(
	null, null, currentZone, currentZone.registerCallback(callback));
	return;
	}
	Zone.current.scheduleMicrotask(Zone.current.bindCallbackGuarded(callback));
	}

	class _AsyncRun {
	/// Schedule the given callback before any other event in the event-loop.
	external static void _scheduleImmediate(void Function() callback);
	}