Async Özellikleri (Traits)
Async methods in traits are were stabilized in the 1.75 release. This required support for using return-position impl Trait
in traits, as the desugaring for async fn
includes -> impl Future<Output = ...>
.
However, even with the native support, there are some pitfalls around async fn
:
-
Return-position
impl Trait
captures all in-scope lifetimes (so some patterns of borrowing cannot be expressed). -
Async traits cannot be used with trait objects (
dyn Trait
support).
The async_trait crate provides a workaround for dyn
support through a macro, with some caveats:
use async_trait::async_trait; use std::time::Instant; use tokio::time::{sleep, Duration}; #[async_trait] trait Sleeper { async fn sleep(&self); } struct FixedSleeper { sleep_ms: u64, } #[async_trait] impl Sleeper for FixedSleeper { async fn sleep(&self) { sleep(Duration::from_millis(self.sleep_ms)).await; } } async fn run_all_sleepers_multiple_times( sleepers: Vec<Box<dyn Sleeper>>, n_times: usize, ) { for _ in 0..n_times { println!("Running all sleepers..."); for sleeper in &sleepers { let start = Instant::now(); sleeper.sleep().await; println!("Slept for {} ms", start.elapsed().as_millis()); } } } #[tokio::main] async fn main() { let sleepers: Vec<Box<dyn Sleeper>> = vec![ Box::new(FixedSleeper { sleep_ms: 50 }), Box::new(FixedSleeper { sleep_ms: 100 }), ]; run_all_sleepers_multiple_times(sleepers, 5).await; }
-
async_trait
is easy to use, but note that it's using heap allocations to achieve this. This heap allocation has performance overhead. -
The challenges in language support for
async trait
are too deep to describe in-depth in this class. See this blog post by Niko Matsakis if you are interested in digging deeper. See also these keywords:- RPIT: short for return-position
impl Trait
. - RPITIT: short for return-position
impl Trait
in trait (RPIT in trait).
- RPIT: short for return-position
-
Try creating a new sleeper struct that will sleep for a random amount of time and adding it to the
Vec
.