use crate::ops::DerefMut; use crate::pin::Pin; use crate::task::{Context, Poll}; /// A trait for dealing with asynchronous iterators. /// /// This is the main async iterator trait. For more about the concept of async iterators /// generally, please see the [module-level documentation]. In particular, you /// may want to know how to [implement `AsyncIterator`][impl]. /// /// [module-level documentation]: index.html /// [impl]: index.html#implementing-async-iterator #[unstable(feature = "async_iterator", issue = "79024")] #[must_use = "async iterators do nothing unless polled"] #[doc(alias = "Stream")] #[lang = "async_iterator"] pub trait AsyncIterator { /// The type of items yielded by the async iterator. type Item; /// Attempts to pull out the next value of this async iterator, registering the /// current task for wakeup if the value is not yet available, and returning /// `None` if the async iterator is exhausted. /// /// # Return value /// /// There are several possible return values, each indicating a distinct /// async iterator state: /// /// - `Poll::Pending` means that this async iterator's next value is not ready /// yet. Implementations will ensure that the current task will be notified /// when the next value may be ready. /// /// - `Poll::Ready(Some(val))` means that the async iterator has successfully /// produced a value, `val`, and may produce further values on subsequent /// `poll_next` calls. /// /// - `Poll::Ready(None)` means that the async iterator has terminated, and /// `poll_next` should not be invoked again. /// /// # Panics /// /// Once an async iterator has finished (returned `Ready(None)` from `poll_next`), calling its /// `poll_next` method again may panic, block forever, or cause other kinds of /// problems; the `AsyncIterator` trait places no requirements on the effects of /// such a call. However, as the `poll_next` method is not marked `unsafe`, /// Rust's usual rules apply: calls must never cause undefined behavior /// (memory corruption, incorrect use of `unsafe` functions, or the like), /// regardless of the async iterator's state. #[lang = "async_iterator_poll_next"] fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll>; /// Returns the bounds on the remaining length of the async iterator. /// /// Specifically, `size_hint()` returns a tuple where the first element /// is the lower bound, and the second element is the upper bound. /// /// The second half of the tuple that is returned is an [Option]<[usize]>. /// A [`None`] here means that either there is no known upper bound, or the /// upper bound is larger than [`usize`]. /// /// # Implementation notes /// /// It is not enforced that an async iterator implementation yields the declared /// number of elements. A buggy async iterator may yield less than the lower bound /// or more than the upper bound of elements. /// /// `size_hint()` is primarily intended to be used for optimizations such as /// reserving space for the elements of the async iterator, but must not be /// trusted to e.g., omit bounds checks in unsafe code. An incorrect /// implementation of `size_hint()` should not lead to memory safety /// violations. /// /// That said, the implementation should provide a correct estimation, /// because otherwise it would be a violation of the trait's protocol. /// /// The default implementation returns (0, [None]) which is correct for any /// async iterator. #[inline] fn size_hint(&self) -> (usize, Option) { (0, None) } } #[unstable(feature = "async_iterator", issue = "79024")] impl AsyncIterator for &mut S { type Item = S::Item; fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { S::poll_next(Pin::new(&mut **self), cx) } fn size_hint(&self) -> (usize, Option) { (**self).size_hint() } } #[unstable(feature = "async_iterator", issue = "79024")] impl

AsyncIterator for Pin

where P: DerefMut, P::Target: AsyncIterator, { type Item = ::Item; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll> { ::poll_next(self.as_deref_mut(), cx) } fn size_hint(&self) -> (usize, Option) { (**self).size_hint() } } #[unstable(feature = "async_gen_internals", issue = "none")] impl Poll> { /// A helper function for internal desugaring -- produces `Ready(Some(t))`, /// which corresponds to the async iterator yielding a value. #[doc(hidden)] #[unstable(feature = "async_gen_internals", issue = "none")] #[lang = "AsyncGenReady"] pub fn async_gen_ready(t: T) -> Self { Poll::Ready(Some(t)) } /// A helper constant for internal desugaring -- produces `Pending`, /// which corresponds to the async iterator pending on an `.await`. #[doc(hidden)] #[unstable(feature = "async_gen_internals", issue = "none")] #[lang = "AsyncGenPending"] // FIXME(gen_blocks): This probably could be deduplicated. pub const PENDING: Self = Poll::Pending; /// A helper constant for internal desugaring -- produces `Ready(None)`, /// which corresponds to the async iterator finishing its iteration. #[doc(hidden)] #[unstable(feature = "async_gen_internals", issue = "none")] #[lang = "AsyncGenFinished"] pub const FINISHED: Self = Poll::Ready(None); } /// Converts something into an async iterator #[unstable(feature = "async_iterator", issue = "79024")] pub trait IntoAsyncIterator { /// The type of the item yielded by the iterator type Item; /// The type of the resulting iterator type IntoAsyncIter: AsyncIterator; /// Converts `self` into an async iterator #[lang = "into_async_iter_into_iter"] fn into_async_iter(self) -> Self::IntoAsyncIter; } #[unstable(feature = "async_iterator", issue = "79024")] impl IntoAsyncIterator for I { type Item = I::Item; type IntoAsyncIter = I; fn into_async_iter(self) -> Self::IntoAsyncIter { self } }