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use crate::runtime::task::{Header, RawTask};
use std::fmt;
use std::future::Future;
use std::marker::PhantomData;
use std::panic::{RefUnwindSafe, UnwindSafe};
use std::pin::Pin;
use std::task::{Context, Poll, Waker};
cfg_rt! {
/// An owned permission to join on a task (await its termination).
///
/// This can be thought of as the equivalent of [`std::thread::JoinHandle`]
/// for a Tokio task rather than a thread. Note that the background task
/// associated with this `JoinHandle` started running immediately when you
/// called spawn, even if you have not yet awaited the `JoinHandle`.
///
/// A `JoinHandle` *detaches* the associated task when it is dropped, which
/// means that there is no longer any handle to the task, and no way to `join`
/// on it.
///
/// This `struct` is created by the [`task::spawn`] and [`task::spawn_blocking`]
/// functions.
///
/// # Cancel safety
///
/// The `&mut JoinHandle<T>` type is cancel safe. If it is used as the event
/// in a `tokio::select!` statement and some other branch completes first,
/// then it is guaranteed that the output of the task is not lost.
///
/// If a `JoinHandle` is dropped, then the task continues running in the
/// background and its return value is lost.
///
/// # Examples
///
/// Creation from [`task::spawn`]:
///
/// ```
/// use tokio::task;
///
/// # async fn doc() {
/// let join_handle: task::JoinHandle<_> = task::spawn(async {
/// // some work here
/// });
/// # }
/// ```
///
/// Creation from [`task::spawn_blocking`]:
///
/// ```
/// use tokio::task;
///
/// # async fn doc() {
/// let join_handle: task::JoinHandle<_> = task::spawn_blocking(|| {
/// // some blocking work here
/// });
/// # }
/// ```
///
/// The generic parameter `T` in `JoinHandle<T>` is the return type of the spawned task.
/// If the return value is an i32, the join handle has type `JoinHandle<i32>`:
///
/// ```
/// use tokio::task;
///
/// # async fn doc() {
/// let join_handle: task::JoinHandle<i32> = task::spawn(async {
/// 5 + 3
/// });
/// # }
///
/// ```
///
/// If the task does not have a return value, the join handle has type `JoinHandle<()>`:
///
/// ```
/// use tokio::task;
///
/// # async fn doc() {
/// let join_handle: task::JoinHandle<()> = task::spawn(async {
/// println!("I return nothing.");
/// });
/// # }
/// ```
///
/// Note that `handle.await` doesn't give you the return type directly. It is wrapped in a
/// `Result` because panics in the spawned task are caught by Tokio. The `?` operator has
/// to be double chained to extract the returned value:
///
/// ```
/// use tokio::task;
/// use std::io;
///
/// #[tokio::main]
/// async fn main() -> io::Result<()> {
/// let join_handle: task::JoinHandle<Result<i32, io::Error>> = tokio::spawn(async {
/// Ok(5 + 3)
/// });
///
/// let result = join_handle.await??;
/// assert_eq!(result, 8);
/// Ok(())
/// }
/// ```
///
/// If the task panics, the error is a [`JoinError`] that contains the panic:
///
/// ```
/// use tokio::task;
/// use std::io;
/// use std::panic;
///
/// #[tokio::main]
/// async fn main() -> io::Result<()> {
/// let join_handle: task::JoinHandle<Result<i32, io::Error>> = tokio::spawn(async {
/// panic!("boom");
/// });
///
/// let err = join_handle.await.unwrap_err();
/// assert!(err.is_panic());
/// Ok(())
/// }
///
/// ```
/// Child being detached and outliving its parent:
///
/// ```no_run
/// use tokio::task;
/// use tokio::time;
/// use std::time::Duration;
///
/// # #[tokio::main] async fn main() {
/// let original_task = task::spawn(async {
/// let _detached_task = task::spawn(async {
/// // Here we sleep to make sure that the first task returns before.
/// time::sleep(Duration::from_millis(10)).await;
/// // This will be called, even though the JoinHandle is dropped.
/// println!("♫ Still alive ♫");
/// });
/// });
///
/// original_task.await.expect("The task being joined has panicked");
/// println!("Original task is joined.");
///
/// // We make sure that the new task has time to run, before the main
/// // task returns.
///
/// time::sleep(Duration::from_millis(1000)).await;
/// # }
/// ```
///
/// [`task::spawn`]: crate::task::spawn()
/// [`task::spawn_blocking`]: crate::task::spawn_blocking
/// [`std::thread::JoinHandle`]: std::thread::JoinHandle
/// [`JoinError`]: crate::task::JoinError
pub struct JoinHandle<T> {
raw: RawTask,
_p: PhantomData<T>,
}
}
unsafe impl<T: Send> Send for JoinHandle<T> {}
unsafe impl<T: Send> Sync for JoinHandle<T> {}
impl<T> UnwindSafe for JoinHandle<T> {}
impl<T> RefUnwindSafe for JoinHandle<T> {}
impl<T> JoinHandle<T> {
pub(super) fn new(raw: RawTask) -> JoinHandle<T> {
JoinHandle {
raw,
_p: PhantomData,
}
}
/// Abort the task associated with the handle.
///
/// Awaiting a cancelled task might complete as usual if the task was
/// already completed at the time it was cancelled, but most likely it
/// will fail with a [cancelled] `JoinError`.
///
/// ```rust
/// use tokio::time;
///
/// # #[tokio::main(flavor = "current_thread", start_paused = true)]
/// # async fn main() {
/// let mut handles = Vec::new();
///
/// handles.push(tokio::spawn(async {
/// time::sleep(time::Duration::from_secs(10)).await;
/// true
/// }));
///
/// handles.push(tokio::spawn(async {
/// time::sleep(time::Duration::from_secs(10)).await;
/// false
/// }));
///
/// for handle in &handles {
/// handle.abort();
/// }
///
/// for handle in handles {
/// assert!(handle.await.unwrap_err().is_cancelled());
/// }
/// # }
/// ```
/// [cancelled]: method@super::error::JoinError::is_cancelled
pub fn abort(&self) {
self.raw.remote_abort();
}
/// Checks if the task associated with this `JoinHandle` has finished.
///
/// Please note that this method can return `false` even if [`abort`] has been
/// called on the task. This is because the cancellation process may take
/// some time, and this method does not return `true` until it has
/// completed.
///
/// ```rust
/// use tokio::time;
///
/// # #[tokio::main(flavor = "current_thread", start_paused = true)]
/// # async fn main() {
/// let handle1 = tokio::spawn(async {
/// // do some stuff here
/// });
/// let handle2 = tokio::spawn(async {
/// // do some other stuff here
/// time::sleep(time::Duration::from_secs(10)).await;
/// });
/// // Wait for the task to finish
/// handle2.abort();
/// time::sleep(time::Duration::from_secs(1)).await;
/// assert!(handle1.is_finished());
/// assert!(handle2.is_finished());
/// # }
/// ```
/// [`abort`]: method@JoinHandle::abort
pub fn is_finished(&self) -> bool {
let state = self.raw.header().state.load();
state.is_complete()
}
/// Set the waker that is notified when the task completes.
pub(crate) fn set_join_waker(&mut self, waker: &Waker) {
if self.raw.try_set_join_waker(waker) {
// In this case the task has already completed. We wake the waker immediately.
waker.wake_by_ref();
}
}
/// Returns a new `AbortHandle` that can be used to remotely abort this task.
///
/// Awaiting a task cancelled by the `AbortHandle` might complete as usual if the task was
/// already completed at the time it was cancelled, but most likely it
/// will fail with a [cancelled] `JoinError`.
///
/// ```rust
/// use tokio::{time, task};
///
/// # #[tokio::main(flavor = "current_thread", start_paused = true)]
/// # async fn main() {
/// let mut handles = Vec::new();
///
/// handles.push(tokio::spawn(async {
/// time::sleep(time::Duration::from_secs(10)).await;
/// true
/// }));
///
/// handles.push(tokio::spawn(async {
/// time::sleep(time::Duration::from_secs(10)).await;
/// false
/// }));
///
/// let abort_handles: Vec<task::AbortHandle> = handles.iter().map(|h| h.abort_handle()).collect();
///
/// for handle in abort_handles {
/// handle.abort();
/// }
///
/// for handle in handles {
/// assert!(handle.await.unwrap_err().is_cancelled());
/// }
/// # }
/// ```
/// [cancelled]: method@super::error::JoinError::is_cancelled
pub fn abort_handle(&self) -> super::AbortHandle {
self.raw.ref_inc();
super::AbortHandle::new(self.raw)
}
/// Returns a [task ID] that uniquely identifies this task relative to other
/// currently spawned tasks.
///
/// **Note**: This is an [unstable API][unstable]. The public API of this type
/// may break in 1.x releases. See [the documentation on unstable
/// features][unstable] for details.
///
/// [task ID]: crate::task::Id
/// [unstable]: crate#unstable-features
#[cfg(tokio_unstable)]
#[cfg_attr(docsrs, doc(cfg(tokio_unstable)))]
pub fn id(&self) -> super::Id {
// Safety: The header pointer is valid.
unsafe { Header::get_id(self.raw.header_ptr()) }
}
}
impl<T> Unpin for JoinHandle<T> {}
impl<T> Future for JoinHandle<T> {
type Output = super::Result<T>;
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
ready!(crate::trace::trace_leaf(cx));
let mut ret = Poll::Pending;
// Keep track of task budget
let coop = ready!(crate::runtime::coop::poll_proceed(cx));
// Try to read the task output. If the task is not yet complete, the
// waker is stored and is notified once the task does complete.
//
// The function must go via the vtable, which requires erasing generic
// types. To do this, the function "return" is placed on the stack
// **before** calling the function and is passed into the function using
// `*mut ()`.
//
// Safety:
//
// The type of `T` must match the task's output type.
unsafe {
self.raw
.try_read_output(&mut ret as *mut _ as *mut (), cx.waker());
}
if ret.is_ready() {
coop.made_progress();
}
ret
}
}
impl<T> Drop for JoinHandle<T> {
fn drop(&mut self) {
if self.raw.state().drop_join_handle_fast().is_ok() {
return;
}
self.raw.drop_join_handle_slow();
}
}
impl<T> fmt::Debug for JoinHandle<T>
where
T: fmt::Debug,
{
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
// Safety: The header pointer is valid.
let id_ptr = unsafe { Header::get_id_ptr(self.raw.header_ptr()) };
let id = unsafe { id_ptr.as_ref() };
fmt.debug_struct("JoinHandle").field("id", id).finish()
}
}