Trait wasmtime_environ::__core::future::IntoFuture
1.64.0 · source · pub trait IntoFuture {
type Output;
type IntoFuture: Future<Output = Self::Output>;
// Required method
fn into_future(self) -> Self::IntoFuture;
}
Expand description
Conversion into a Future
.
By implementing IntoFuture
for a type, you define how it will be
converted to a future.
§.await
desugaring
The .await
keyword desugars into a call to IntoFuture::into_future
first before polling the future to completion. IntoFuture
is implemented
for all T: Future
which means the into_future
method will be available
on all futures.
use std::future::IntoFuture;
let v = async { "meow" };
let mut fut = v.into_future();
assert_eq!("meow", fut.await);
§Async builders
When implementing futures manually there will often be a choice between
implementing Future
or IntoFuture
for a type. Implementing Future
is a
good choice in most cases. But implementing IntoFuture
is most useful when
implementing “async builder” types, which allow their values to be modified
multiple times before being .await
ed.
use std::future::{ready, Ready, IntoFuture};
/// Eventually multiply two numbers
pub struct Multiply {
num: u16,
factor: u16,
}
impl Multiply {
/// Construct a new instance of `Multiply`.
pub fn new(num: u16, factor: u16) -> Self {
Self { num, factor }
}
/// Set the number to multiply by the factor.
pub fn number(mut self, num: u16) -> Self {
self.num = num;
self
}
/// Set the factor to multiply the number with.
pub fn factor(mut self, factor: u16) -> Self {
self.factor = factor;
self
}
}
impl IntoFuture for Multiply {
type Output = u16;
type IntoFuture = Ready<Self::Output>;
fn into_future(self) -> Self::IntoFuture {
ready(self.num * self.factor)
}
}
// NOTE: Rust does not yet have an `async fn main` function, that functionality
// currently only exists in the ecosystem.
async fn run() {
let num = Multiply::new(0, 0) // initialize the builder to number: 0, factor: 0
.number(2) // change the number to 2
.factor(2) // change the factor to 2
.await; // convert to future and .await
assert_eq!(num, 4);
}
§Usage in trait bounds
Using IntoFuture
in trait bounds allows a function to be generic over both
Future
and IntoFuture
. This is convenient for users of the function, so
when they are using it they don’t have to make an extra call to
IntoFuture::into_future
to obtain an instance of Future
:
use std::future::IntoFuture;
/// Convert the output of a future to a string.
async fn fut_to_string<Fut>(fut: Fut) -> String
where
Fut: IntoFuture,
Fut::Output: std::fmt::Debug,
{
format!("{:?}", fut.await)
}
Required Associated Types§
sourcetype IntoFuture: Future<Output = Self::Output>
type IntoFuture: Future<Output = Self::Output>
Which kind of future are we turning this into?
Required Methods§
sourcefn into_future(self) -> Self::IntoFuture
fn into_future(self) -> Self::IntoFuture
Creates a future from a value.
§Examples
Basic usage:
use std::future::IntoFuture;
let v = async { "meow" };
let mut fut = v.into_future();
assert_eq!("meow", fut.await);