Struct event_listener::Event

pub struct Event<T = ()> { /* private fields */ }

A synchronization primitive for notifying async tasks and threads.

Listeners can be registered using Event::listen(). There are two ways to notify listeners:

1. Event::notify() notifies a number of listeners.
2. Event::notify_additional() notifies a number of previously unnotified listeners.

If there are no active listeners at the time a notification is sent, it simply gets lost.

There are two ways for a listener to wait for a notification:

1. In an asynchronous manner using .await.
2. In a blocking manner by calling EventListener::wait() on it.

If a notified listener is dropped without receiving a notification, dropping will notify another active listener. Whether one additional listener will be notified depends on what kind of notification was delivered.

Listeners are registered and notified in the first-in first-out fashion, ensuring fairness.

Implementations

impl<T> Event<T>

pub const fn with_tag() -> Self

Creates a new Event with a tag type.

Tagging cannot be implemented efficiently on no_std, so this is only available when the std feature is enabled.

Examples

use event_listener::Event;

let event = Event::<usize>::with_tag();

pub fn is_notified(&self) -> bool

Tell whether any listeners are currently notified.

Examples

use event_listener::Event;

let event = Event::new();
let listener = event.listen();
assert!(!event.is_notified());

event.notify(1);
assert!(event.is_notified());

pub fn listen(&self) -> Pin<Box<EventListener<T>>>

Returns a guard listening for a notification.

This method emits a SeqCst fence after registering a listener. For now, this method is an alias for calling EventListener::new(), pinning it to the heap, and then inserting it into a list.

Examples

use event_listener::Event;

let event = Event::new();
let listener = event.listen();

Caveats

The above example is equivalent to this code:

use event_listener::{Event, EventListener};

let event = Event::new();
let mut listener = Box::pin(EventListener::new());
listener.as_mut().listen(&event);

It creates a new listener, pins it to the heap, and inserts it into the linked list of listeners. While this type of usage is simple, it may be desired to eliminate this heap allocation. In this case, consider using the EventListener::new constructor directly, which allows for greater control over where the EventListener is allocated. However, users of this new method must be careful to ensure that the EventListener is listening before waiting on it; panics may occur otherwise.

pub fn notify(&self, notify: impl IntoNotification<Tag = T>) -> usize

Notifies a number of active listeners.

The number is allowed to be zero or exceed the current number of listeners.

The Notification trait is used to define what kind of notification is delivered. The default implementation (implemented on usize) is a notification that only notifies at least the specified number of listeners.

In certain cases, this function emits a SeqCst fence before notifying listeners.

This function returns the number of EventListeners that were notified by this call.

Caveats

If the std feature is disabled, the notification will be delayed under high contention, such as when another thread is taking a while to notify the event. In this circumstance, this function will return 0 instead of the number of listeners actually notified. Therefore if the std feature is disabled the return value of this function should not be relied upon for soundness and should be used only as a hint.

If the std feature is enabled, no spurious returns are possible, since the std implementation uses system locking primitives to ensure there is no unavoidable contention.

Examples

Use the default notification strategy:

use event_listener::Event;

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify(1);

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify(2);

Notify without emitting a SeqCst fence. This uses the relaxed notification strategy. This is equivalent to calling Event::notify_relaxed().

use event_listener::{prelude::*, Event};
use std::sync::atomic::{self, Ordering};

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify(1.relaxed());

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// We should emit a fence manually when using relaxed notifications.
atomic::fence(Ordering::SeqCst);

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify(2.relaxed());

Notify additional listeners. In contrast to Event::notify(), this method will notify n additional listeners that were previously unnotified. This uses the additional notification strategy. This is equivalent to calling Event::notify_additional().

use event_listener::{prelude::*, Event};

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify(1.additional());

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify(1.additional());
event.notify(1.additional());

Notifies with the additional and relaxed strategies at the same time. This is equivalent to calling Event::notify_additional_relaxed().

use event_listener::{prelude::*, Event};
use std::sync::atomic::{self, Ordering};

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify(1.additional().relaxed());

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// We should emit a fence manually when using relaxed notifications.
atomic::fence(Ordering::SeqCst);

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify(1.additional().relaxed());
event.notify(1.additional().relaxed());

impl Event<()>

pub const fn new() -> Self

Creates a new Event.

Examples

use event_listener::Event;

let event = Event::new();

pub fn notify_relaxed(&self, n: usize) -> usize

Notifies a number of active listeners without emitting a SeqCst fence.

The number is allowed to be zero or exceed the current number of listeners.

In contrast to Event::notify_additional(), this method only makes sure at least n listeners among the active ones are notified.

Unlike Event::notify(), this method does not emit a SeqCst fence.

This method only works for untagged events. In other cases, it is recommended to instead use Event::notify() like so:

use event_listener::{prelude::*, Event};
let event = Event::new();

// Old way:
event.notify_relaxed(1);

// New way:
event.notify(1.relaxed());

Examples

use event_listener::Event;
use std::sync::atomic::{self, Ordering};

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify_relaxed(1);

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// We should emit a fence manually when using relaxed notifications.
atomic::fence(Ordering::SeqCst);

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify_relaxed(2);

pub fn notify_additional(&self, n: usize) -> usize

Notifies a number of active and still unnotified listeners.

The number is allowed to be zero or exceed the current number of listeners.

In contrast to Event::notify(), this method will notify n additional listeners that were previously unnotified.

This method emits a SeqCst fence before notifying listeners.

This method only works for untagged events. In other cases, it is recommended to instead use Event::notify() like so:

use event_listener::{prelude::*, Event};
let event = Event::new();

// Old way:
event.notify_additional(1);

// New way:
event.notify(1.additional());

Examples

use event_listener::Event;

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify_additional(1);

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify_additional(1);
event.notify_additional(1);

pub fn notify_additional_relaxed(&self, n: usize) -> usize

Notifies a number of active and still unnotified listeners without emitting a SeqCst fence.

The number is allowed to be zero or exceed the current number of listeners.

In contrast to Event::notify(), this method will notify n additional listeners that were previously unnotified.

Unlike Event::notify_additional(), this method does not emit a SeqCst fence.

This method only works for untagged events. In other cases, it is recommended to instead use Event::notify() like so:

use event_listener::{prelude::*, Event};
let event = Event::new();

// Old way:
event.notify_additional_relaxed(1);

// New way:
event.notify(1.additional().relaxed());

Examples

use event_listener::Event;
use std::sync::atomic::{self, Ordering};

let event = Event::new();

// This notification gets lost because there are no listeners.
event.notify(1);

let listener1 = event.listen();
let listener2 = event.listen();
let listener3 = event.listen();

// We should emit a fence manually when using relaxed notifications.
atomic::fence(Ordering::SeqCst);

// Notifies two listeners.
//
// Listener queueing is fair, which means `listener1` and `listener2`
// get notified here since they start listening before `listener3`.
event.notify_additional_relaxed(1);
event.notify_additional_relaxed(1);

Trait Implementations

impl<T> Debug for Event<T>

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Default for Event

fn default() -> Self

Returns the “default value” for a type.

impl<T> Drop for Event<T>

fn drop(&mut self)

Executes the destructor for this type.

impl<T> RefUnwindSafe for Event<T>

impl<T: Send> Send for Event<T>

impl<T: Send> Sync for Event<T>

impl<T> UnwindSafe for Event<T>