[][src]Trait futures_util::future::FutureExt

pub trait FutureExt: Future {
    fn map<U, F>(self, f: F) -> Map<Self, F>
    where
        F: FnOnce(Self::Output) -> U,
        Self: Sized
, { ... }
fn then<Fut, F>(self, f: F) -> Then<Self, Fut, F>
    where
        F: FnOnce(Self::Output) -> Fut,
        Fut: Future,
        Self: Sized
, { ... }
fn join<Fut2>(self, other: Fut2) -> Join<Self, Fut2>
    where
        Fut2: Future,
        Self: Sized
, { ... }
fn join3<Fut2, Fut3>(
        self,
        future2: Fut2,
        future3: Fut3
    ) -> Join3<Self, Fut2, Fut3>
    where
        Fut2: Future,
        Fut3: Future,
        Self: Sized
, { ... }
fn join4<Fut2, Fut3, Fut4>(
        self,
        future2: Fut2,
        future3: Fut3,
        future4: Fut4
    ) -> Join4<Self, Fut2, Fut3, Fut4>
    where
        Fut2: Future,
        Fut3: Future,
        Fut3: Future,
        Fut4: Future,
        Self: Sized
, { ... }
fn join5<Fut2, Fut3, Fut4, Fut5>(
        self,
        future2: Fut2,
        future3: Fut3,
        future4: Fut4,
        future5: Fut5
    ) -> Join5<Self, Fut2, Fut3, Fut4, Fut5>
    where
        Fut2: Future,
        Fut3: Future,
        Fut3: Future,
        Fut4: Future,
        Fut5: Future,
        Self: Sized
, { ... }
fn into_stream(self) -> IntoStream<Self>
    where
        Self: Sized
, { ... }
fn flatten(self) -> Flatten<Self>
    where
        Self::Output: Future,
        Self: Sized
, { ... }
fn flatten_stream(self) -> FlattenStream<Self>
    where
        Self::Output: Stream,
        Self: Sized
, { ... }
fn fuse(self) -> Fuse<Self>
    where
        Self: Sized
, { ... }
fn inspect<F>(self, f: F) -> Inspect<Self, F>
    where
        F: FnOnce(&Self::Output),
        Self: Sized
, { ... }
fn catch_unwind(self) -> CatchUnwind<Self>
    where
        Self: Sized + UnwindSafe
, { ... }
fn shared(self) -> Shared<Self>
    where
        Self: Sized,
        Self::Output: Clone
, { ... }
fn remote_handle(self) -> (Remote<Self>, RemoteHandle<Self::Output>)
    where
        Self: Sized
, { ... }
fn boxed(self) -> Pin<Box<Self>>
    where
        Self: Sized
, { ... }
fn unit_error(self) -> UnitError<Self>
    where
        Self: Sized
, { ... }
fn poll_unpin(&mut self, waker: &Waker) -> Poll<Self::Output>
    where
        Self: Unpin + Sized
, { ... } }

An extension trait for Futures that provides a variety of convenient adapters.

Provided methods

fn map<U, F>(self, f: F) -> Map<Self, F> where
    F: FnOnce(Self::Output) -> U,
    Self: Sized

Map this future's output to a different type, returning a new future of the resulting type.

This function is similar to the Option::map or Iterator::map where it will change the type of the underlying future. This is useful to chain along a computation once a future has been resolved.

Note that this function consumes the receiving future and returns a wrapped version of it, similar to the existing map methods in the standard library.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let future = future::ready(1);
let new_future = future.map(|x| x + 3);
assert_eq!(await!(new_future), 4);

fn then<Fut, F>(self, f: F) -> Then<Self, Fut, F> where
    F: FnOnce(Self::Output) -> Fut,
    Fut: Future,
    Self: Sized

Chain on a computation for when a future finished, passing the result of the future to the provided closure f.

The returned value of the closure must implement the Future trait and can represent some more work to be done before the composed future is finished.

The closure f is only run after successful completion of the self future.

Note that this function consumes the receiving future and returns a wrapped version of it.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let future_of_1 = future::ready(1);
let future_of_4 = future_of_1.then(|x| future::ready(x + 3));
assert_eq!(await!(future_of_4), 4);

fn join<Fut2>(self, other: Fut2) -> Join<Self, Fut2> where
    Fut2: Future,
    Self: Sized

Joins the result of two futures, waiting for them both to complete.

This function will return a new future which awaits both this and the other future to complete. The returned future will finish with a tuple of both results.

Note that this function consumes the receiving future and returns a wrapped version of it.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let a = future::ready(1);
let b = future::ready(2);
let pair = a.join(b);

assert_eq!(await!(pair), (1, 2));

fn join3<Fut2, Fut3>(
    self,
    future2: Fut2,
    future3: Fut3
) -> Join3<Self, Fut2, Fut3> where
    Fut2: Future,
    Fut3: Future,
    Self: Sized

Same as join, but with more futures.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let a = future::ready(1);
let b = future::ready(2);
let c = future::ready(3);
let tuple = a.join3(b, c);

assert_eq!(await!(tuple), (1, 2, 3));

fn join4<Fut2, Fut3, Fut4>(
    self,
    future2: Fut2,
    future3: Fut3,
    future4: Fut4
) -> Join4<Self, Fut2, Fut3, Fut4> where
    Fut2: Future,
    Fut3: Future,
    Fut3: Future,
    Fut4: Future,
    Self: Sized

Same as join, but with more futures.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let a = future::ready(1);
let b = future::ready(2);
let c = future::ready(3);
let d = future::ready(4);
let tuple = a.join4(b, c, d);

assert_eq!(await!(tuple), (1, 2, 3, 4));

fn join5<Fut2, Fut3, Fut4, Fut5>(
    self,
    future2: Fut2,
    future3: Fut3,
    future4: Fut4,
    future5: Fut5
) -> Join5<Self, Fut2, Fut3, Fut4, Fut5> where
    Fut2: Future,
    Fut3: Future,
    Fut3: Future,
    Fut4: Future,
    Fut5: Future,
    Self: Sized

Same as join, but with more futures.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let a = future::ready(1);
let b = future::ready(2);
let c = future::ready(3);
let d = future::ready(4);
let e = future::ready(5);
let tuple = a.join5(b, c, d, e);

assert_eq!(await!(tuple), (1, 2, 3, 4, 5));

fn into_stream(self) -> IntoStream<Self> where
    Self: Sized

Convert this future into a single element stream.

The returned stream contains single success if this future resolves to success or single error if this future resolves into error.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};
use futures::stream::StreamExt;

let future = future::ready(17);
let stream = future.into_stream();
let collected: Vec<_> = await!(stream.collect());
assert_eq!(collected, vec![17]);

fn flatten(self) -> Flatten<Self> where
    Self::Output: Future,
    Self: Sized

Flatten the execution of this future when the successful result of this future is itself another future.

This can be useful when combining futures together to flatten the computation out the final result. This method can only be called when the successful result of this future itself implements the IntoFuture trait and the error can be created from this future's error type.

This method is roughly equivalent to self.and_then(|x| x).

Note that this function consumes the receiving future and returns a wrapped version of it.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let nested_future = future::ready(future::ready(1));
let future = nested_future.flatten();
assert_eq!(await!(future), 1);

fn flatten_stream(self) -> FlattenStream<Self> where
    Self::Output: Stream,
    Self: Sized

Flatten the execution of this future when the successful result of this future is a stream.

This can be useful when stream initialization is deferred, and it is convenient to work with that stream as if stream was available at the call site.

Note that this function consumes this future and returns a wrapped version of it.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};
use futures::stream::{self, StreamExt};

let stream_items = vec![17, 18, 19];
let future_of_a_stream = future::ready(stream::iter(stream_items));

let stream = future_of_a_stream.flatten_stream();
let list: Vec<_> = await!(stream.collect());
assert_eq!(list, vec![17, 18, 19]);

fn fuse(self) -> Fuse<Self> where
    Self: Sized

Fuse a future such that poll will never again be called once it has completed. This method can be used to turn any Future into a FusedFuture.

Normally, once a future has returned Poll::Ready from poll, any further calls could exhibit bad behavior such as blocking forever, panicking, never returning, etc. If it is known that poll may be called too often then this method can be used to ensure that it has defined semantics.

If a fused future is polled after having returned Poll::Ready previously, it will return Poll::Pending, from poll again (and will continue to do so for all future calls to poll).

This combinator will drop the underlying future as soon as it has been completed to ensure resources are reclaimed as soon as possible.

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnOnce(&Self::Output),
    Self: Sized

Do something with the output of a future before passing it on.

When using futures, you'll often chain several of them together. While working on such code, you might want to check out what's happening at various parts in the pipeline, without consuming the intermediate value. To do that, insert a call to inspect.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let future = future::ready(1);
let new_future = future.inspect(|&x| println!("about to resolve: {}", x));
assert_eq!(await!(new_future), 1);

fn catch_unwind(self) -> CatchUnwind<Self> where
    Self: Sized + UnwindSafe

Catches unwinding panics while polling the future.

In general, panics within a future can propagate all the way out to the task level. This combinator makes it possible to halt unwinding within the future itself. It's most commonly used within task executors. It's not recommended to use this for error handling.

Note that this method requires the UnwindSafe bound from the standard library. This isn't always applied automatically, and the standard library provides an AssertUnwindSafe wrapper type to apply it after-the fact. To assist using this method, the Future trait is also implemented for AssertUnwindSafe<F> where F implements Future.

This method is only available when the std feature of this library is activated, and it is activated by default.

Examples

This example is not tested
#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt, Ready};

let future = future::ready(2);
assert!(await!(future.catch_unwind()).is_ok());

let future = future::lazy(|_| -> Ready<i32> {
    unimplemented!()
});
assert!(await!(future.catch_unwind()).is_err());

fn shared(self) -> Shared<Self> where
    Self: Sized,
    Self::Output: Clone

Create a cloneable handle to this future where all handles will resolve to the same result.

The shared combinator method provides a method to convert any future into a cloneable future. It enables a future to be polled by multiple threads.

This method is only available when the std feature of this library is activated, and it is activated by default.

Examples

#![feature(async_await, await_macro, futures_api)]
use futures::future::{self, FutureExt};

let future = future::ready(6);
let shared1 = future.shared();
let shared2 = shared1.clone();

assert_eq!(6, await!(shared1));
assert_eq!(6, await!(shared2));
// Note, unlike most examples this is written in the context of a
// synchronous function to better illustrate the cross-thread aspect of
// the `shared` combinator.

use futures::future::{self, FutureExt};
use futures::executor::block_on;
use std::thread;

let future = future::ready(6);
let shared1 = future.shared();
let shared2 = shared1.clone();
let join_handle = thread::spawn(move || {
    assert_eq!(6, block_on(shared2));
});
assert_eq!(6, block_on(shared1));
join_handle.join().unwrap();

fn remote_handle(self) -> (Remote<Self>, RemoteHandle<Self::Output>) where
    Self: Sized

Turn this future into a future that yields () on completion and sends its output to another future on a separate task.

This can be used with spawning executors to easily retrieve the result of a future executing on a separate task or thread.

fn boxed(self) -> Pin<Box<Self>> where
    Self: Sized

Wrap the future in a Box, pinning it.

fn unit_error(self) -> UnitError<Self> where
    Self: Sized

Turns a Future into a TryFuture with Error = ().

fn poll_unpin(&mut self, waker: &Waker) -> Poll<Self::Output> where
    Self: Unpin + Sized

A convenience for calling Future::poll on Unpin future types.

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Implementors

impl<T: ?Sized> FutureExt for T where
    T: Future
[src]

fn map<U, F>(self, f: F) -> Map<Self, F> where
    F: FnOnce(Self::Output) -> U,
    Self: Sized
[src]

fn then<Fut, F>(self, f: F) -> Then<Self, Fut, F> where
    F: FnOnce(Self::Output) -> Fut,
    Fut: Future,
    Self: Sized
[src]

fn join<Fut2>(self, other: Fut2) -> Join<Self, Fut2> where
    Fut2: Future,
    Self: Sized
[src]

fn join3<Fut2, Fut3>(
    self,
    future2: Fut2,
    future3: Fut3
) -> Join3<Self, Fut2, Fut3> where
    Fut2: Future,
    Fut3: Future,
    Self: Sized
[src]

fn join4<Fut2, Fut3, Fut4>(
    self,
    future2: Fut2,
    future3: Fut3,
    future4: Fut4
) -> Join4<Self, Fut2, Fut3, Fut4> where
    Fut2: Future,
    Fut3: Future,
    Fut3: Future,
    Fut4: Future,
    Self: Sized
[src]

fn join5<Fut2, Fut3, Fut4, Fut5>(
    self,
    future2: Fut2,
    future3: Fut3,
    future4: Fut4,
    future5: Fut5
) -> Join5<Self, Fut2, Fut3, Fut4, Fut5> where
    Fut2: Future,
    Fut3: Future,
    Fut3: Future,
    Fut4: Future,
    Fut5: Future,
    Self: Sized
[src]

fn into_stream(self) -> IntoStream<Self> where
    Self: Sized
[src]

fn flatten(self) -> Flatten<Self> where
    Self::Output: Future,
    Self: Sized
[src]

fn flatten_stream(self) -> FlattenStream<Self> where
    Self::Output: Stream,
    Self: Sized
[src]

fn fuse(self) -> Fuse<Self> where
    Self: Sized
[src]

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnOnce(&Self::Output),
    Self: Sized
[src]

fn catch_unwind(self) -> CatchUnwind<Self> where
    Self: Sized + UnwindSafe
[src]

fn shared(self) -> Shared<Self> where
    Self: Sized,
    Self::Output: Clone
[src]

fn remote_handle(self) -> (Remote<Self>, RemoteHandle<Self::Output>) where
    Self: Sized
[src]

fn boxed(self) -> Pin<Box<Self>> where
    Self: Sized
[src]

fn unit_error(self) -> UnitError<Self> where
    Self: Sized
[src]

fn poll_unpin(&mut self, waker: &Waker) -> Poll<Self::Output> where
    Self: Unpin + Sized
[src]

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