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/// Pins a value on the stack. /// /// Calls to `async fn` return anonymous [`Future`] values that are `!Unpin`. /// These values must be pinned before they can be polled. Calling `.await` will /// handle this, but consumes the future. If it is required to call `.await` on /// a `&mut _` reference, the caller is responsible for pinning the future. /// /// Pinning may be done by allocating with [`Box::pin`] or by using the stack /// with the `pin!` macro. /// /// The following will **fail to compile**: /// /// ```compile_fail /// async fn my_async_fn() { /// // async logic here /// } /// /// #[tokio::main] /// async fn main() { /// let mut future = my_async_fn(); /// (&mut future).await; /// } /// ``` /// /// To make this work requires pinning: /// /// ``` /// use tokio::pin; /// /// async fn my_async_fn() { /// // async logic here /// } /// /// #[tokio::main] /// async fn main() { /// let future = my_async_fn(); /// pin!(future); /// /// (&mut future).await; /// } /// ``` /// /// Pinning is useful when using `select!` and stream operators that require `T: /// Stream + Unpin`. /// /// [`Future`]: trait@std::future::Future /// [`Box::pin`]: # /// /// # Usage /// /// The `pin!` macro takes **identifiers** as arguments. It does **not** work /// with expressions. /// /// The following does not compile as an expression is passed to `pin!`. /// /// ```compile_fail /// async fn my_async_fn() { /// // async logic here /// } /// /// #[tokio::main] /// async fn main() { /// let mut future = pin!(my_async_fn()); /// (&mut future).await; /// } /// ``` /// /// # Examples /// /// Using with select: /// /// ``` /// use tokio::{pin, select}; /// use tokio::stream::{self, StreamExt}; /// /// async fn my_async_fn() { /// // async logic here /// } /// /// #[tokio::main] /// async fn main() { /// let mut stream = stream::iter(vec![1, 2, 3, 4]); /// /// let future = my_async_fn(); /// pin!(future); /// /// loop { /// select! { /// _ = &mut future => { /// // Stop looping `future` will be polled after completion /// break; /// } /// Some(val) = stream.next() => { /// println!("got value = {}", val); /// } /// } /// } /// } /// ``` /// /// Because assigning to a variable followed by pinning is common, there is also /// a variant of the macro that supports doing both in one go. /// /// ``` /// use tokio::{pin, select}; /// /// async fn my_async_fn() { /// // async logic here /// } /// /// #[tokio::main] /// async fn main() { /// pin! { /// let future1 = my_async_fn(); /// let future2 = my_async_fn(); /// } /// /// select! { /// _ = &mut future1 => {} /// _ = &mut future2 => {} /// } /// } /// ``` #[macro_export] macro_rules! pin { ($($x:ident),*) => { $( // Move the value to ensure that it is owned let mut $x = $x; // Shadow the original binding so that it can't be directly accessed // ever again. #[allow(unused_mut)] let mut $x = unsafe { $crate::macros::support::Pin::new_unchecked(&mut $x) }; )* }; ($( let $x:ident = $init:expr; )*) => { $( let $x = $init; $crate::pin!($x); )* }; }