use core::cell::Cell; use core::fmt; use core::marker::PhantomData; use core::task::Waker; /// A synchronization primitive for task wakeup. /// /// Sometimes the task interested in a given event will change over time. /// An `LocalWaker` can coordinate concurrent notifications with the consumer /// potentially "updating" the underlying task to wake up. This is useful in /// scenarios where a computation completes in another task and wants to /// notify the consumer, but the consumer is in the process of being migrated to /// a new logical task. /// /// Consumers should call `register` before checking the result of a computation /// and producers should call `wake` after producing the computation (this /// differs from the usual `thread::park` pattern). It is also permitted for /// `wake` to be called **before** `register`. This results in a no-op. /// /// A single `AtomicWaker` may be reused for any number of calls to `register` or /// `wake`. #[derive(Default)] pub struct LocalWaker { pub(crate) waker: Cell>, // mark LocalWaker as a !Send type. _t: PhantomData<*const ()>, } impl LocalWaker { /// Create an `LocalWaker`. pub fn new() -> Self { LocalWaker { waker: Cell::new(None), _t: PhantomData, } } /// Registers the waker to be notified on calls to `wake`. /// /// Returns `true` if waker was registered before. #[inline] pub fn register(&self, waker: &Waker) -> bool { let last_waker = self.waker.replace(Some(waker.clone())); last_waker.is_some() } /// Calls `wake` on the last `Waker` passed to `register`. /// /// If `register` has not been called yet, then this does nothing. #[inline] pub fn wake(&self) { if let Some(waker) = self.take() { waker.wake(); } } /// Returns the last `Waker` passed to `register`, so that the user can wake it. /// /// If a waker has not been registered, this returns `None`. #[inline] pub fn take(&self) -> Option { self.waker.take() } } impl fmt::Debug for LocalWaker { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "LocalWaker") } }