#![cfg(feature = "macros")] #![allow(clippy::disallowed_names)] use std::sync::Arc; use tokio::sync::{oneshot, Semaphore}; use tokio_test::{assert_pending, assert_ready, task}; #[cfg(tokio_wasm_not_wasi)] use wasm_bindgen_test::wasm_bindgen_test as maybe_tokio_test; #[cfg(not(tokio_wasm_not_wasi))] use tokio::test as maybe_tokio_test; #[maybe_tokio_test] async fn sync_one_lit_expr_comma() { let foo = tokio::try_join!(async { ok(1) },); assert_eq!(foo, Ok((1,))); } #[maybe_tokio_test] async fn sync_one_lit_expr_no_comma() { let foo = tokio::try_join!(async { ok(1) }); assert_eq!(foo, Ok((1,))); } #[maybe_tokio_test] async fn sync_two_lit_expr_comma() { let foo = tokio::try_join!(async { ok(1) }, async { ok(2) },); assert_eq!(foo, Ok((1, 2))); } #[maybe_tokio_test] async fn sync_two_lit_expr_no_comma() { let foo = tokio::try_join!(async { ok(1) }, async { ok(2) }); assert_eq!(foo, Ok((1, 2))); } #[maybe_tokio_test] async fn two_await() { let (tx1, rx1) = oneshot::channel::<&str>(); let (tx2, rx2) = oneshot::channel::(); let mut join = task::spawn(async { tokio::try_join!(async { rx1.await }, async { rx2.await }) }); assert_pending!(join.poll()); tx2.send(123).unwrap(); assert!(join.is_woken()); assert_pending!(join.poll()); tx1.send("hello").unwrap(); assert!(join.is_woken()); let res: Result<(&str, u32), _> = assert_ready!(join.poll()); assert_eq!(Ok(("hello", 123)), res); } #[maybe_tokio_test] async fn err_abort_early() { let (tx1, rx1) = oneshot::channel::<&str>(); let (tx2, rx2) = oneshot::channel::(); let (_tx3, rx3) = oneshot::channel::(); let mut join = task::spawn(async { tokio::try_join!(async { rx1.await }, async { rx2.await }, async { rx3.await }) }); assert_pending!(join.poll()); tx2.send(123).unwrap(); assert!(join.is_woken()); assert_pending!(join.poll()); drop(tx1); assert!(join.is_woken()); let res = assert_ready!(join.poll()); assert!(res.is_err()); } #[test] #[cfg(target_pointer_width = "64")] fn join_size() { use futures::future; use std::mem; let fut = async { let ready = future::ready(ok(0i32)); tokio::try_join!(ready) }; assert_eq!(mem::size_of_val(&fut), 32); let fut = async { let ready1 = future::ready(ok(0i32)); let ready2 = future::ready(ok(0i32)); tokio::try_join!(ready1, ready2) }; assert_eq!(mem::size_of_val(&fut), 48); } fn ok(val: T) -> Result { Ok(val) } async fn non_cooperative_task(permits: Arc) -> Result { let mut exceeded_budget = 0; for _ in 0..5 { // Another task should run after this task uses its whole budget for _ in 0..128 { let _permit = permits.clone().acquire_owned().await.unwrap(); } exceeded_budget += 1; } Ok(exceeded_budget) } async fn poor_little_task(permits: Arc) -> Result { let mut how_many_times_i_got_to_run = 0; for _ in 0..5 { let _permit = permits.clone().acquire_owned().await.unwrap(); how_many_times_i_got_to_run += 1; } Ok(how_many_times_i_got_to_run) } #[tokio::test] async fn try_join_does_not_allow_tasks_to_starve() { let permits = Arc::new(Semaphore::new(10)); // non_cooperative_task should yield after its budget is exceeded and then poor_little_task should run. let result = tokio::try_join!( non_cooperative_task(Arc::clone(&permits)), poor_little_task(permits) ); let (non_cooperative_result, little_task_result) = result.unwrap(); assert_eq!(5, non_cooperative_result); assert_eq!(5, little_task_result); } #[tokio::test] async fn a_different_future_is_polled_first_every_time_poll_fn_is_polled() { let poll_order = Arc::new(std::sync::Mutex::new(vec![])); let fut = |x, poll_order: Arc>>| async move { for _ in 0..4 { { let mut guard = poll_order.lock().unwrap(); guard.push(x); } tokio::task::yield_now().await; } }; tokio::join!( fut(1, Arc::clone(&poll_order)), fut(2, Arc::clone(&poll_order)), fut(3, Arc::clone(&poll_order)), ); // Each time the future created by join! is polled, it should start // by polling a different future first. assert_eq!( vec![1, 2, 3, 2, 3, 1, 3, 1, 2, 1, 2, 3], *poll_order.lock().unwrap() ); } #[tokio::test] async fn empty_try_join() { assert_eq!(tokio::try_join!() as Result<_, ()>, Ok(())); }