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#![allow(non_snake_case)] use crate::future::{MaybeDone, maybe_done}; use crate::try_future::{TryFutureExt, IntoFuture}; use core::fmt; use core::pin::Pin; use futures_core::future::{Future, TryFuture}; use futures_core::task::{Context, Poll}; use pin_utils::unsafe_pinned; macro_rules! generate { ($( $(#[$doc:meta])* ($Join:ident, <Fut1, $($Fut:ident),*>), )*) => ($( $(#[$doc])* #[must_use = "futures do nothing unless polled"] pub struct $Join<Fut1: TryFuture, $($Fut: TryFuture),*> { Fut1: MaybeDone<IntoFuture<Fut1>>, $($Fut: MaybeDone<IntoFuture<$Fut>>,)* } impl<Fut1, $($Fut),*> fmt::Debug for $Join<Fut1, $($Fut),*> where Fut1: TryFuture + fmt::Debug, Fut1::Ok: fmt::Debug, Fut1::Error: fmt::Debug, $( $Fut: TryFuture + fmt::Debug, $Fut::Ok: fmt::Debug, $Fut::Error: fmt::Debug, )* { fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { fmt.debug_struct(stringify!($Join)) .field("Fut1", &self.Fut1) $(.field(stringify!($Fut), &self.$Fut))* .finish() } } impl<Fut1, $($Fut),*> $Join<Fut1, $($Fut),*> where Fut1: TryFuture, $( $Fut: TryFuture<Error=Fut1::Error> ),* { fn new(Fut1: Fut1, $($Fut: $Fut),*) -> $Join<Fut1, $($Fut),*> { $Join { Fut1: maybe_done(TryFutureExt::into_future(Fut1)), $($Fut: maybe_done(TryFutureExt::into_future($Fut))),* } } unsafe_pinned!(Fut1: MaybeDone<IntoFuture<Fut1>>); $( unsafe_pinned!($Fut: MaybeDone<IntoFuture<$Fut>>); )* } impl<Fut1, $($Fut),*> Future for $Join<Fut1, $($Fut),*> where Fut1: TryFuture, $( $Fut: TryFuture<Error=Fut1::Error> ),* { type Output = Result<(Fut1::Ok, $($Fut::Ok),*), Fut1::Error>; #[allow(clippy::useless_let_if_seq)] fn poll( mut self: Pin<&mut Self>, cx: &mut Context<'_> ) -> Poll<Self::Output> { let mut all_done = true; if self.as_mut().Fut1().poll(cx).is_pending() { all_done = false; } else if self.as_mut().Fut1().output_mut().unwrap().is_err() { return Poll::Ready(Err( self.as_mut().Fut1().take_output().unwrap().err().unwrap())); } $( if self.as_mut().$Fut().poll(cx).is_pending() { all_done = false; } else if self.as_mut().$Fut().output_mut().unwrap().is_err() { return Poll::Ready(Err( self.as_mut().$Fut().take_output().unwrap().err().unwrap())); } )* if all_done { Poll::Ready(Ok(( self.as_mut().Fut1().take_output().unwrap().ok().unwrap(), $( self.as_mut().$Fut().take_output().unwrap().ok().unwrap() ),* ))) } else { Poll::Pending } } } )*) } generate! { /// Future for the [`try_join`](try_join()) function. (TryJoin, <Fut1, Fut2>), /// Future for the [`try_join3`] function. (TryJoin3, <Fut1, Fut2, Fut3>), /// Future for the [`try_join4`] function. (TryJoin4, <Fut1, Fut2, Fut3, Fut4>), /// Future for the [`try_join5`] function. (TryJoin5, <Fut1, Fut2, Fut3, Fut4, Fut5>), } /// Joins the result of two futures, waiting for them both to complete or /// for one to produce an error. /// /// This function will return a new future which awaits both futures to /// complete. If successful, the returned future will finish with a tuple of /// both results. If unsuccesful, it will complete with the first error /// encountered. /// /// Note that this function consumes the passed futures and returns a /// wrapped version of it. /// /// # Examples /// /// When used on multiple futures that return [`Ok`], `try_join` will return /// [`Ok`] of a tuple of the values: /// /// ``` /// #![feature(async_await, await_macro, futures_api)] /// # futures::executor::block_on(async { /// use futures::future; /// /// let a = future::ready(Ok::<i32, i32>(1)); /// let b = future::ready(Ok::<i32, i32>(2)); /// let pair = future::try_join(a, b); /// /// assert_eq!(await!(pair), Ok((1, 2))); /// # }); /// ``` /// /// If one of the futures resolves to an error, `try_join` will return /// that error: /// /// ``` /// #![feature(async_await, await_macro, futures_api)] /// # futures::executor::block_on(async { /// use futures::future; /// /// let a = future::ready(Ok::<i32, i32>(1)); /// let b = future::ready(Err::<i32, i32>(2)); /// let pair = future::try_join(a, b); /// /// assert_eq!(await!(pair), Err(2)); /// # }); /// ``` pub fn try_join<Fut1, Fut2>(future1: Fut1, future2: Fut2) -> TryJoin<Fut1, Fut2> where Fut1: TryFuture, Fut2: TryFuture<Error = Fut1::Error>, { TryJoin::new(future1, future2) } /// Same as [`try_join`](try_join()), but with more futures. /// /// # Examples /// /// ``` /// #![feature(async_await, await_macro, futures_api)] /// # futures::executor::block_on(async { /// use futures::future; /// /// let a = future::ready(Ok::<i32, i32>(1)); /// let b = future::ready(Ok::<i32, i32>(2)); /// let c = future::ready(Ok::<i32, i32>(3)); /// let tuple = future::try_join3(a, b, c); /// /// assert_eq!(await!(tuple), Ok((1, 2, 3))); /// # }); /// ``` pub fn try_join3<Fut1, Fut2, Fut3>( future1: Fut1, future2: Fut2, future3: Fut3, ) -> TryJoin3<Fut1, Fut2, Fut3> where Fut1: TryFuture, Fut2: TryFuture<Error = Fut1::Error>, Fut3: TryFuture<Error = Fut1::Error>, { TryJoin3::new(future1, future2, future3) } /// Same as [`try_join`](try_join()), but with more futures. /// /// # Examples /// /// ``` /// #![feature(async_await, await_macro, futures_api)] /// # futures::executor::block_on(async { /// use futures::future; /// /// let a = future::ready(Ok::<i32, i32>(1)); /// let b = future::ready(Ok::<i32, i32>(2)); /// let c = future::ready(Ok::<i32, i32>(3)); /// let d = future::ready(Ok::<i32, i32>(4)); /// let tuple = future::try_join4(a, b, c, d); /// /// assert_eq!(await!(tuple), Ok((1, 2, 3, 4))); /// # }); /// ``` pub fn try_join4<Fut1, Fut2, Fut3, Fut4>( future1: Fut1, future2: Fut2, future3: Fut3, future4: Fut4, ) -> TryJoin4<Fut1, Fut2, Fut3, Fut4> where Fut1: TryFuture, Fut2: TryFuture<Error = Fut1::Error>, Fut3: TryFuture<Error = Fut1::Error>, Fut4: TryFuture<Error = Fut1::Error>, { TryJoin4::new(future1, future2, future3, future4) } /// Same as [`try_join`](try_join()), but with more futures. /// /// # Examples /// /// ``` /// #![feature(async_await, await_macro, futures_api)] /// # futures::executor::block_on(async { /// use futures::future; /// /// let a = future::ready(Ok::<i32, i32>(1)); /// let b = future::ready(Ok::<i32, i32>(2)); /// let c = future::ready(Ok::<i32, i32>(3)); /// let d = future::ready(Ok::<i32, i32>(4)); /// let e = future::ready(Ok::<i32, i32>(5)); /// let tuple = future::try_join5(a, b, c, d, e); /// /// assert_eq!(await!(tuple), Ok((1, 2, 3, 4, 5))); /// # }); /// ``` pub fn try_join5<Fut1, Fut2, Fut3, Fut4, Fut5>( future1: Fut1, future2: Fut2, future3: Fut3, future4: Fut4, future5: Fut5, ) -> TryJoin5<Fut1, Fut2, Fut3, Fut4, Fut5> where Fut1: TryFuture, Fut2: TryFuture<Error = Fut1::Error>, Fut3: TryFuture<Error = Fut1::Error>, Fut4: TryFuture<Error = Fut1::Error>, Fut5: TryFuture<Error = Fut1::Error>, { TryJoin5::new(future1, future2, future3, future4, future5) }