#![allow(unknown_lints, unexpected_cfgs)] #![warn(rust_2018_idioms)] #![cfg(feature = "full")] use futures::future::FutureExt; use tokio::sync::oneshot; use tokio::task::JoinSet; use tokio::time::Duration; fn rt() -> tokio::runtime::Runtime { tokio::runtime::Builder::new_current_thread() .build() .unwrap() } #[tokio::test(start_paused = true)] async fn test_with_sleep() { let mut set = JoinSet::new(); for i in 0..10 { set.spawn(async move { i }); assert_eq!(set.len(), 1 + i); } set.detach_all(); assert_eq!(set.len(), 0); assert!(set.join_next().await.is_none()); for i in 0..10 { set.spawn(async move { tokio::time::sleep(Duration::from_secs(i as u64)).await; i }); assert_eq!(set.len(), 1 + i); } let mut seen = [false; 10]; while let Some(res) = set.join_next().await.transpose().unwrap() { seen[res] = true; } for was_seen in &seen { assert!(was_seen); } assert!(set.join_next().await.is_none()); // Do it again. for i in 0..10 { set.spawn(async move { tokio::time::sleep(Duration::from_secs(i as u64)).await; i }); } let mut seen = [false; 10]; while let Some(res) = set.join_next().await.transpose().unwrap() { seen[res] = true; } for was_seen in &seen { assert!(was_seen); } assert!(set.join_next().await.is_none()); } #[tokio::test] async fn test_abort_on_drop() { let mut set = JoinSet::new(); let mut recvs = Vec::new(); for _ in 0..16 { let (send, recv) = oneshot::channel::<()>(); recvs.push(recv); set.spawn(async { // This task will never complete on its own. futures::future::pending::<()>().await; drop(send); }); } drop(set); for recv in recvs { // The task is aborted soon and we will receive an error. assert!(recv.await.is_err()); } } #[tokio::test] async fn alternating() { let mut set = JoinSet::new(); assert_eq!(set.len(), 0); set.spawn(async {}); assert_eq!(set.len(), 1); set.spawn(async {}); assert_eq!(set.len(), 2); for _ in 0..16 { let () = set.join_next().await.unwrap().unwrap(); assert_eq!(set.len(), 1); set.spawn(async {}); assert_eq!(set.len(), 2); } } #[tokio::test(start_paused = true)] async fn abort_tasks() { let mut set = JoinSet::new(); let mut num_canceled = 0; let mut num_completed = 0; for i in 0..16 { let abort = set.spawn(async move { tokio::time::sleep(Duration::from_secs(i as u64)).await; i }); if i % 2 != 0 { // abort odd-numbered tasks. abort.abort(); } } loop { match set.join_next().await { Some(Ok(res)) => { num_completed += 1; assert_eq!(res % 2, 0); } Some(Err(e)) => { assert!(e.is_cancelled()); num_canceled += 1; } None => break, } } assert_eq!(num_canceled, 8); assert_eq!(num_completed, 8); } #[test] fn runtime_gone() { let mut set = JoinSet::new(); { let rt = rt(); set.spawn_on(async { 1 }, rt.handle()); drop(rt); } assert!(rt() .block_on(set.join_next()) .unwrap() .unwrap_err() .is_cancelled()); } #[tokio::test] async fn join_all() { let mut set: JoinSet = JoinSet::new(); for _ in 0..5 { set.spawn(async { 1 }); } let res: Vec = set.join_all().await; assert_eq!(res.len(), 5); for itm in res.into_iter() { assert_eq!(itm, 1) } } #[cfg(panic = "unwind")] #[tokio::test(start_paused = true)] async fn task_panics() { let mut set: JoinSet<()> = JoinSet::new(); let (tx, mut rx) = oneshot::channel(); assert_eq!(set.len(), 0); set.spawn(async move { tokio::time::sleep(Duration::from_secs(2)).await; tx.send(()).unwrap(); }); assert_eq!(set.len(), 1); set.spawn(async { tokio::time::sleep(Duration::from_secs(1)).await; panic!(); }); assert_eq!(set.len(), 2); let panic = tokio::spawn(set.join_all()).await.unwrap_err(); assert!(rx.try_recv().is_err()); assert!(panic.is_panic()); } #[tokio::test(start_paused = true)] async fn abort_all() { let mut set: JoinSet<()> = JoinSet::new(); for _ in 0..5 { set.spawn(futures::future::pending()); } for _ in 0..5 { set.spawn(async { tokio::time::sleep(Duration::from_secs(1)).await; }); } // The join set will now have 5 pending tasks and 5 ready tasks. tokio::time::sleep(Duration::from_secs(2)).await; set.abort_all(); assert_eq!(set.len(), 10); let mut count = 0; while let Some(res) = set.join_next().await { if let Err(err) = res { assert!(err.is_cancelled()); } count += 1; } assert_eq!(count, 10); assert_eq!(set.len(), 0); } // This ensures that `join_next` works correctly when the coop budget is // exhausted. #[tokio::test(flavor = "current_thread")] async fn join_set_coop() { // Large enough to trigger coop. const TASK_NUM: u32 = 1000; static SEM: tokio::sync::Semaphore = tokio::sync::Semaphore::const_new(0); let mut set = JoinSet::new(); for _ in 0..TASK_NUM { set.spawn(async { SEM.add_permits(1); }); } // Wait for all tasks to complete. // // Since this is a `current_thread` runtime, there's no race condition // between the last permit being added and the task completing. let _ = SEM.acquire_many(TASK_NUM).await.unwrap(); let mut count = 0; let mut coop_count = 0; loop { match set.join_next().now_or_never() { Some(Some(Ok(()))) => {} Some(Some(Err(err))) => panic!("failed: {}", err), None => { coop_count += 1; tokio::task::yield_now().await; continue; } Some(None) => break, } count += 1; } assert!(coop_count >= 1); assert_eq!(count, TASK_NUM); } #[tokio::test(flavor = "current_thread")] async fn try_join_next() { const TASK_NUM: u32 = 1000; let (send, recv) = tokio::sync::watch::channel(()); let mut set = JoinSet::new(); for _ in 0..TASK_NUM { let mut recv = recv.clone(); set.spawn(async move { recv.changed().await.unwrap() }); } drop(recv); assert!(set.try_join_next().is_none()); send.send_replace(()); send.closed().await; let mut count = 0; loop { match set.try_join_next() { Some(Ok(())) => { count += 1; } Some(Err(err)) => panic!("failed: {}", err), None => { break; } } } assert_eq!(count, TASK_NUM); } #[cfg(tokio_unstable)] #[tokio::test(flavor = "current_thread")] async fn try_join_next_with_id() { const TASK_NUM: u32 = 1000; let (send, recv) = tokio::sync::watch::channel(()); let mut set = JoinSet::new(); let mut spawned = std::collections::HashSet::with_capacity(TASK_NUM as usize); for _ in 0..TASK_NUM { let mut recv = recv.clone(); let handle = set.spawn(async move { recv.changed().await.unwrap() }); spawned.insert(handle.id()); } drop(recv); assert!(set.try_join_next_with_id().is_none()); send.send_replace(()); send.closed().await; let mut count = 0; let mut joined = std::collections::HashSet::with_capacity(TASK_NUM as usize); loop { match set.try_join_next_with_id() { Some(Ok((id, ()))) => { count += 1; joined.insert(id); } Some(Err(err)) => panic!("failed: {}", err), None => { break; } } } assert_eq!(count, TASK_NUM); assert_eq!(joined, spawned); }