armv7a/usr/lib/rustlib/src/rust/library/core/src/future/join.rs - manifest_repos/toolchain - Git at Google

 #![allow(unused_imports, unused_macros)] // items are used by the macro

 use crate::cell::UnsafeCell;
 use crate::future::{poll_fn, Future};
 use crate::mem;
 use crate::pin::Pin;
 use crate::task::{Context, Poll};

 /// Polls multiple futures simultaneously, returning a tuple
 /// of all results once complete.
 ///
 /// While `join!(a, b).await` is similar to `(a.await, b.await)`,
 /// `join!` polls both futures concurrently and is therefore more efficient.
 ///
 /// # Examples
 ///
 /// ```
 /// #![feature(future_join)]
 ///
 /// use std::future::join;
 ///
 /// async fn one() -> usize { 1 }
 /// async fn two() -> usize { 2 }
 ///
 /// # let _ =  async {
 /// let x = join!(one(), two()).await;
 /// assert_eq!(x, (1, 2));
 /// # };
 /// ```
 ///
 /// `join!` is variadic, so you can pass any number of futures:
 ///
 /// ```
 /// #![feature(future_join)]
 ///
 /// use std::future::join;
 ///
 /// async fn one() -> usize { 1 }
 /// async fn two() -> usize { 2 }
 /// async fn three() -> usize { 3 }
 ///
 /// # let _ = async {
 /// let x = join!(one(), two(), three()).await;
 /// assert_eq!(x, (1, 2, 3));
 /// # };
 /// ```
 #[unstable(feature = "future_join", issue = "91642")]
 pub macro join( $($fut:expr),+ $(,)? ) {
     // Funnel through an internal macro not to leak implementation details.
     join_internal! {
         current_position: []
         futures_and_positions: []
         munching: [ $($fut)+ ]
     }
 }

 // FIXME(danielhenrymantilla): a private macro should need no stability guarantee.
 #[unstable(feature = "future_join", issue = "91642")]
 /// To be able to *name* the i-th future in the tuple (say we want the .4-th),
 /// the following trick will be used: `let (_, _, _, _, it, ..) = tuple;`
 /// In order to do that, we need to generate a `i`-long repetition of `_`,
 /// for each i-th fut. Hence the recursive muncher approach.
 macro join_internal {
     // Recursion step: map each future with its "position" (underscore count).
     (
         // Accumulate a token for each future that has been expanded: "_ _ _".
         current_position: [
             $($underscores:tt)*
         ]
         // Accumulate Futures and their positions in the tuple: `_0th ()   _1st ( _ ) …`.
         futures_and_positions: [
             $($acc:tt)*
         ]
         // Munch one future.
         munching: [
             $current:tt
             $($rest:tt)*
         ]
     ) => (
         join_internal! {
             current_position: [
                 $($underscores)*
                 _
             ]
             futures_and_positions: [
                 $($acc)*
                 $current ( $($underscores)* )
             ]
             munching: [
                 $($rest)*
             ]
         }
     ),

     // End of recursion: generate the output future.
     (
         current_position: $_:tt
         futures_and_positions: [
             $(
                 $fut_expr:tt ( $($pos:tt)* )
             )*
         ]
         // Nothing left to munch.
         munching: []
     ) => (
         match ( $( MaybeDone::Future($fut_expr), )* ) { futures => async {
             let mut futures = futures;
             // SAFETY: this is `pin_mut!`.
             let mut futures = unsafe { Pin::new_unchecked(&mut futures) };
             poll_fn(move |cx| {
                 let mut done = true;
                 // For each `fut`, pin-project to it, and poll it.
                 $(
                     // SAFETY: pinning projection
                     let fut = unsafe {
                         futures.as_mut().map_unchecked_mut(|it| {
                             let ( $($pos,)* fut, .. ) = it;
                             fut
                         })
                     };
                     // Despite how tempting it may be to `let () = fut.poll(cx).ready()?;`
                     // doing so would defeat the point of `join!`: to start polling eagerly all
                     // of the futures, to allow parallelizing the waits.
                     done &= fut.poll(cx).is_ready();
                 )*
                 if !done {
                     return Poll::Pending;
                 }
                 // All ready; time to extract all the outputs.

                 // SAFETY: `.take_output()` does not break the `Pin` invariants for that `fut`.
                 let futures = unsafe {
                     futures.as_mut().get_unchecked_mut()
                 };
                 Poll::Ready(
                     ($(
                         {
                             let ( $($pos,)* fut, .. ) = &mut *futures;
                             fut.take_output().unwrap()
                         }
                     ),*) // <- no trailing comma since we don't want 1-tuples.
                 )
             }).await
         }}
     ),
 }

 /// Future used by `join!` that stores it's output to
 /// be later taken and doesn't panic when polled after ready.
 ///
 /// This type is public in a private module for use by the macro.
 #[allow(missing_debug_implementations)]
 #[unstable(feature = "future_join", issue = "91642")]
 pub enum MaybeDone<F: Future> {
     Future(F),
     Done(F::Output),
     Taken,
 }

 #[unstable(feature = "future_join", issue = "91642")]
 impl<F: Future> MaybeDone<F> {
     pub fn take_output(&mut self) -> Option<F::Output> {
         match *self {
             MaybeDone::Done(_) => match mem::replace(self, Self::Taken) {
                 MaybeDone::Done(val) => Some(val),
                 _ => unreachable!(),
             },
             _ => None,
         }
     }
 }

 #[unstable(feature = "future_join", issue = "91642")]
 impl<F: Future> Future for MaybeDone<F> {
     type Output = ();

     fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
         // SAFETY: pinning in structural for `f`
         unsafe {
             // Do not mix match ergonomics with unsafe.
             match *self.as_mut().get_unchecked_mut() {
                 MaybeDone::Future(ref mut f) => {
                     let val = Pin::new_unchecked(f).poll(cx).ready()?;
                     self.set(Self::Done(val));
                 }
                 MaybeDone::Done(_) => {}
                 MaybeDone::Taken => unreachable!(),
             }
         }

         Poll::Ready(())
     }
 }
	#![allow(unused_imports, unused_macros)] // items are used by the macro

	use crate::cell::UnsafeCell;
	use crate::future::{poll_fn, Future};
	use crate::mem;
	use crate::pin::Pin;
	use crate::task::{Context, Poll};

	/// Polls multiple futures simultaneously, returning a tuple
	/// of all results once complete.
	///
	/// While `join!(a, b).await` is similar to `(a.await, b.await)`,
	/// `join!` polls both futures concurrently and is therefore more efficient.
	///
	/// # Examples
	///
	/// ```
	/// #![feature(future_join)]
	///
	/// use std::future::join;
	///
	/// async fn one() -> usize { 1 }
	/// async fn two() -> usize { 2 }
	///
	/// # let _ = async {
	/// let x = join!(one(), two()).await;
	/// assert_eq!(x, (1, 2));
	/// # };
	/// ```
	///
	/// `join!` is variadic, so you can pass any number of futures:
	///
	/// ```
	/// #![feature(future_join)]
	///
	/// use std::future::join;
	///
	/// async fn one() -> usize { 1 }
	/// async fn two() -> usize { 2 }
	/// async fn three() -> usize { 3 }
	///
	/// # let _ = async {
	/// let x = join!(one(), two(), three()).await;
	/// assert_eq!(x, (1, 2, 3));
	/// # };
	/// ```
	#[unstable(feature = "future_join", issue = "91642")]
	pub macro join( $($fut:expr),+ $(,)? ) {
	// Funnel through an internal macro not to leak implementation details.
	join_internal! {
	current_position: []
	futures_and_positions: []
	munching: [ $($fut)+ ]
	}
	}

	// FIXME(danielhenrymantilla): a private macro should need no stability guarantee.
	#[unstable(feature = "future_join", issue = "91642")]
	/// To be able to name the i-th future in the tuple (say we want the .4-th),
	/// the following trick will be used: `let (_, _, _, _, it, ..) = tuple;`
	/// In order to do that, we need to generate a `i`-long repetition of `_`,
	/// for each i-th fut. Hence the recursive muncher approach.
	macro join_internal {
	// Recursion step: map each future with its "position" (underscore count).
	(
	// Accumulate a token for each future that has been expanded: "_ _ _".
	current_position: [
	$($underscores:tt)*
	]
	// Accumulate Futures and their positions in the tuple: `_0th () _1st ( _ ) …`.
	futures_and_positions: [
	$($acc:tt)*
	]
	// Munch one future.
	munching: [
	$current:tt
	$($rest:tt)*
	]
	) => (
	join_internal! {
	current_position: [
	$($underscores)*
	_
	]
	futures_and_positions: [
	$($acc)*
	$current ( $($underscores)* )
	]
	munching: [
	$($rest)*
	]
	}
	),

	// End of recursion: generate the output future.
	(
	current_position: $_:tt
	futures_and_positions: [
	$(
	$fut_expr:tt ( $($pos:tt)* )
	)*
	]
	// Nothing left to munch.
	munching: []
	) => (
	match ( $( MaybeDone::Future($fut_expr), )* ) { futures => async {
	let mut futures = futures;
	// SAFETY: this is `pin_mut!`.
	let mut futures = unsafe { Pin::new_unchecked(&mut futures) };
	poll_fn(move \|cx\| {
	let mut done = true;
	// For each `fut`, pin-project to it, and poll it.
	$(
	// SAFETY: pinning projection
	let fut = unsafe {
	futures.as_mut().map_unchecked_mut(\|it\| {
	let ( $($pos,)* fut, .. ) = it;
	fut
	})
	};
	// Despite how tempting it may be to `let () = fut.poll(cx).ready()?;`
	// doing so would defeat the point of `join!`: to start polling eagerly all
	// of the futures, to allow parallelizing the waits.
	done &= fut.poll(cx).is_ready();
	)*
	if !done {
	return Poll::Pending;
	}
	// All ready; time to extract all the outputs.

	// SAFETY: `.take_output()` does not break the `Pin` invariants for that `fut`.
	let futures = unsafe {
	futures.as_mut().get_unchecked_mut()
	};
	Poll::Ready(
	($(
	{
	let ( $($pos,)* fut, .. ) = &mut *futures;
	fut.take_output().unwrap()
	}
	),*) // <- no trailing comma since we don't want 1-tuples.
	)
	}).await
	}}
	),
	}

	/// Future used by `join!` that stores it's output to
	/// be later taken and doesn't panic when polled after ready.
	///
	/// This type is public in a private module for use by the macro.
	#[allow(missing_debug_implementations)]
	#[unstable(feature = "future_join", issue = "91642")]
	pub enum MaybeDone<F: Future> {
	Future(F),
	Done(F::Output),
	Taken,
	}

	#[unstable(feature = "future_join", issue = "91642")]
	impl<F: Future> MaybeDone<F> {
	pub fn take_output(&mut self) -> Option<F::Output> {
	match *self {
	MaybeDone::Done(_) => match mem::replace(self, Self::Taken) {
	MaybeDone::Done(val) => Some(val),
	_ => unreachable!(),
	},
	_ => None,
	}
	}
	}

	#[unstable(feature = "future_join", issue = "91642")]
	impl<F: Future> Future for MaybeDone<F> {
	type Output = ();

	fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
	// SAFETY: pinning in structural for `f`
	unsafe {
	// Do not mix match ergonomics with unsafe.
	match *self.as_mut().get_unchecked_mut() {
	MaybeDone::Future(ref mut f) => {
	let val = Pin::new_unchecked(f).poll(cx).ready()?;
	self.set(Self::Done(val));
	}
	MaybeDone::Done(_) => {}
	MaybeDone::Taken => unreachable!(),
	}
	}

	Poll::Ready(())
	}
	}