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use crate::loom::sync::{atomic::AtomicUsize, Arc};
use crate::sync::mpsc::chan;
use crate::sync::mpsc::error::{SendError, TryRecvError};
use std::fmt;
use std::task::{Context, Poll};
/// Send values to the associated `UnboundedReceiver`.
///
/// Instances are created by the
/// [`unbounded_channel`](unbounded_channel) function.
pub struct UnboundedSender<T> {
chan: chan::Tx<T, Semaphore>,
}
/// An unbounded sender that does not prevent the channel from being closed.
///
/// If all [`UnboundedSender`] instances of a channel were dropped and only
/// `WeakUnboundedSender` instances remain, the channel is closed.
///
/// In order to send messages, the `WeakUnboundedSender` needs to be upgraded using
/// [`WeakUnboundedSender::upgrade`], which returns `Option<UnboundedSender>`. It returns `None`
/// if all `UnboundedSender`s have been dropped, and otherwise it returns an `UnboundedSender`.
///
/// [`UnboundedSender`]: UnboundedSender
/// [`WeakUnboundedSender::upgrade`]: WeakUnboundedSender::upgrade
///
/// #Examples
///
/// ```
/// use tokio::sync::mpsc::unbounded_channel;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx, _rx) = unbounded_channel::<i32>();
/// let tx_weak = tx.downgrade();
///
/// // Upgrading will succeed because `tx` still exists.
/// assert!(tx_weak.upgrade().is_some());
///
/// // If we drop `tx`, then it will fail.
/// drop(tx);
/// assert!(tx_weak.clone().upgrade().is_none());
/// }
/// ```
pub struct WeakUnboundedSender<T> {
chan: Arc<chan::Chan<T, Semaphore>>,
}
impl<T> Clone for UnboundedSender<T> {
fn clone(&self) -> Self {
UnboundedSender {
chan: self.chan.clone(),
}
}
}
impl<T> fmt::Debug for UnboundedSender<T> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("UnboundedSender")
.field("chan", &self.chan)
.finish()
}
}
/// Receive values from the associated `UnboundedSender`.
///
/// Instances are created by the
/// [`unbounded_channel`](unbounded_channel) function.
///
/// This receiver can be turned into a `Stream` using [`UnboundedReceiverStream`].
///
/// [`UnboundedReceiverStream`]: https://docs.rs/tokio-stream/0.1/tokio_stream/wrappers/struct.UnboundedReceiverStream.html
pub struct UnboundedReceiver<T> {
/// The channel receiver
chan: chan::Rx<T, Semaphore>,
}
impl<T> fmt::Debug for UnboundedReceiver<T> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("UnboundedReceiver")
.field("chan", &self.chan)
.finish()
}
}
/// Creates an unbounded mpsc channel for communicating between asynchronous
/// tasks without backpressure.
///
/// A `send` on this channel will always succeed as long as the receive half has
/// not been closed. If the receiver falls behind, messages will be arbitrarily
/// buffered.
///
/// **Note** that the amount of available system memory is an implicit bound to
/// the channel. Using an `unbounded` channel has the ability of causing the
/// process to run out of memory. In this case, the process will be aborted.
pub fn unbounded_channel<T>() -> (UnboundedSender<T>, UnboundedReceiver<T>) {
let (tx, rx) = chan::channel(Semaphore(AtomicUsize::new(0)));
let tx = UnboundedSender::new(tx);
let rx = UnboundedReceiver::new(rx);
(tx, rx)
}
/// No capacity
#[derive(Debug)]
pub(crate) struct Semaphore(pub(crate) AtomicUsize);
impl<T> UnboundedReceiver<T> {
pub(crate) fn new(chan: chan::Rx<T, Semaphore>) -> UnboundedReceiver<T> {
UnboundedReceiver { chan }
}
/// Receives the next value for this receiver.
///
/// This method returns `None` if the channel has been closed and there are
/// no remaining messages in the channel's buffer. This indicates that no
/// further values can ever be received from this `Receiver`. The channel is
/// closed when all senders have been dropped, or when [`close`] is called.
///
/// If there are no messages in the channel's buffer, but the channel has
/// not yet been closed, this method will sleep until a message is sent or
/// the channel is closed.
///
/// # Cancel safety
///
/// This method is cancel safe. If `recv` is used as the event in a
/// [`tokio::select!`](crate::select) statement and some other branch
/// completes first, it is guaranteed that no messages were received on this
/// channel.
///
/// [`close`]: Self::close
///
/// # Examples
///
/// ```
/// use tokio::sync::mpsc;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx, mut rx) = mpsc::unbounded_channel();
///
/// tokio::spawn(async move {
/// tx.send("hello").unwrap();
/// });
///
/// assert_eq!(Some("hello"), rx.recv().await);
/// assert_eq!(None, rx.recv().await);
/// }
/// ```
///
/// Values are buffered:
///
/// ```
/// use tokio::sync::mpsc;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx, mut rx) = mpsc::unbounded_channel();
///
/// tx.send("hello").unwrap();
/// tx.send("world").unwrap();
///
/// assert_eq!(Some("hello"), rx.recv().await);
/// assert_eq!(Some("world"), rx.recv().await);
/// }
/// ```
pub async fn recv(&mut self) -> Option<T> {
use crate::future::poll_fn;
poll_fn(|cx| self.poll_recv(cx)).await
}
/// Tries to receive the next value for this receiver.
///
/// This method returns the [`Empty`] error if the channel is currently
/// empty, but there are still outstanding [senders] or [permits].
///
/// This method returns the [`Disconnected`] error if the channel is
/// currently empty, and there are no outstanding [senders] or [permits].
///
/// Unlike the [`poll_recv`] method, this method will never return an
/// [`Empty`] error spuriously.
///
/// [`Empty`]: crate::sync::mpsc::error::TryRecvError::Empty
/// [`Disconnected`]: crate::sync::mpsc::error::TryRecvError::Disconnected
/// [`poll_recv`]: Self::poll_recv
/// [senders]: crate::sync::mpsc::Sender
/// [permits]: crate::sync::mpsc::Permit
///
/// # Examples
///
/// ```
/// use tokio::sync::mpsc;
/// use tokio::sync::mpsc::error::TryRecvError;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx, mut rx) = mpsc::unbounded_channel();
///
/// tx.send("hello").unwrap();
///
/// assert_eq!(Ok("hello"), rx.try_recv());
/// assert_eq!(Err(TryRecvError::Empty), rx.try_recv());
///
/// tx.send("hello").unwrap();
/// // Drop the last sender, closing the channel.
/// drop(tx);
///
/// assert_eq!(Ok("hello"), rx.try_recv());
/// assert_eq!(Err(TryRecvError::Disconnected), rx.try_recv());
/// }
/// ```
pub fn try_recv(&mut self) -> Result<T, TryRecvError> {
self.chan.try_recv()
}
/// Blocking receive to call outside of asynchronous contexts.
///
/// # Panics
///
/// This function panics if called within an asynchronous execution
/// context.
///
/// # Examples
///
/// ```
/// use std::thread;
/// use tokio::sync::mpsc;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx, mut rx) = mpsc::unbounded_channel::<u8>();
///
/// let sync_code = thread::spawn(move || {
/// assert_eq!(Some(10), rx.blocking_recv());
/// });
///
/// let _ = tx.send(10);
/// sync_code.join().unwrap();
/// }
/// ```
#[track_caller]
#[cfg(feature = "sync")]
#[cfg_attr(docsrs, doc(alias = "recv_blocking"))]
pub fn blocking_recv(&mut self) -> Option<T> {
crate::future::block_on(self.recv())
}
/// Closes the receiving half of a channel, without dropping it.
///
/// This prevents any further messages from being sent on the channel while
/// still enabling the receiver to drain messages that are buffered.
///
/// To guarantee that no messages are dropped, after calling `close()`,
/// `recv()` must be called until `None` is returned.
pub fn close(&mut self) {
self.chan.close();
}
/// Polls to receive the next message on this channel.
///
/// This method returns:
///
/// * `Poll::Pending` if no messages are available but the channel is not
/// closed, or if a spurious failure happens.
/// * `Poll::Ready(Some(message))` if a message is available.
/// * `Poll::Ready(None)` if the channel has been closed and all messages
/// sent before it was closed have been received.
///
/// When the method returns `Poll::Pending`, the `Waker` in the provided
/// `Context` is scheduled to receive a wakeup when a message is sent on any
/// receiver, or when the channel is closed. Note that on multiple calls to
/// `poll_recv`, only the `Waker` from the `Context` passed to the most
/// recent call is scheduled to receive a wakeup.
///
/// If this method returns `Poll::Pending` due to a spurious failure, then
/// the `Waker` will be notified when the situation causing the spurious
/// failure has been resolved. Note that receiving such a wakeup does not
/// guarantee that the next call will succeed — it could fail with another
/// spurious failure.
pub fn poll_recv(&mut self, cx: &mut Context<'_>) -> Poll<Option<T>> {
self.chan.recv(cx)
}
}
impl<T> UnboundedSender<T> {
pub(crate) fn new(chan: chan::Tx<T, Semaphore>) -> UnboundedSender<T> {
UnboundedSender { chan }
}
/// Attempts to send a message on this `UnboundedSender` without blocking.
///
/// This method is not marked async because sending a message to an unbounded channel
/// never requires any form of waiting. Because of this, the `send` method can be
/// used in both synchronous and asynchronous code without problems.
///
/// If the receive half of the channel is closed, either due to [`close`]
/// being called or the [`UnboundedReceiver`] having been dropped, this
/// function returns an error. The error includes the value passed to `send`.
///
/// [`close`]: UnboundedReceiver::close
/// [`UnboundedReceiver`]: UnboundedReceiver
pub fn send(&self, message: T) -> Result<(), SendError<T>> {
if !self.inc_num_messages() {
return Err(SendError(message));
}
self.chan.send(message);
Ok(())
}
fn inc_num_messages(&self) -> bool {
use std::process;
use std::sync::atomic::Ordering::{AcqRel, Acquire};
let mut curr = self.chan.semaphore().0.load(Acquire);
loop {
if curr & 1 == 1 {
return false;
}
if curr == usize::MAX ^ 1 {
// Overflowed the ref count. There is no safe way to recover, so
// abort the process. In practice, this should never happen.
process::abort()
}
match self
.chan
.semaphore()
.0
.compare_exchange(curr, curr + 2, AcqRel, Acquire)
{
Ok(_) => return true,
Err(actual) => {
curr = actual;
}
}
}
}
/// Completes when the receiver has dropped.
///
/// This allows the producers to get notified when interest in the produced
/// values is canceled and immediately stop doing work.
///
/// # Cancel safety
///
/// This method is cancel safe. Once the channel is closed, it stays closed
/// forever and all future calls to `closed` will return immediately.
///
/// # Examples
///
/// ```
/// use tokio::sync::mpsc;
///
/// #[tokio::main]
/// async fn main() {
/// let (tx1, rx) = mpsc::unbounded_channel::<()>();
/// let tx2 = tx1.clone();
/// let tx3 = tx1.clone();
/// let tx4 = tx1.clone();
/// let tx5 = tx1.clone();
/// tokio::spawn(async move {
/// drop(rx);
/// });
///
/// futures::join!(
/// tx1.closed(),
/// tx2.closed(),
/// tx3.closed(),
/// tx4.closed(),
/// tx5.closed()
/// );
//// println!("Receiver dropped");
/// }
/// ```
pub async fn closed(&self) {
self.chan.closed().await
}
/// Checks if the channel has been closed. This happens when the
/// [`UnboundedReceiver`] is dropped, or when the
/// [`UnboundedReceiver::close`] method is called.
///
/// [`UnboundedReceiver`]: crate::sync::mpsc::UnboundedReceiver
/// [`UnboundedReceiver::close`]: crate::sync::mpsc::UnboundedReceiver::close
///
/// ```
/// let (tx, rx) = tokio::sync::mpsc::unbounded_channel::<()>();
/// assert!(!tx.is_closed());
///
/// let tx2 = tx.clone();
/// assert!(!tx2.is_closed());
///
/// drop(rx);
/// assert!(tx.is_closed());
/// assert!(tx2.is_closed());
/// ```
pub fn is_closed(&self) -> bool {
self.chan.is_closed()
}
/// Returns `true` if senders belong to the same channel.
///
/// # Examples
///
/// ```
/// let (tx, rx) = tokio::sync::mpsc::unbounded_channel::<()>();
/// let tx2 = tx.clone();
/// assert!(tx.same_channel(&tx2));
///
/// let (tx3, rx3) = tokio::sync::mpsc::unbounded_channel::<()>();
/// assert!(!tx3.same_channel(&tx2));
/// ```
pub fn same_channel(&self, other: &Self) -> bool {
self.chan.same_channel(&other.chan)
}
/// Converts the `UnboundedSender` to a [`WeakUnboundedSender`] that does not count
/// towards RAII semantics, i.e. if all `UnboundedSender` instances of the
/// channel were dropped and only `WeakUnboundedSender` instances remain,
/// the channel is closed.
pub fn downgrade(&self) -> WeakUnboundedSender<T> {
WeakUnboundedSender {
chan: self.chan.downgrade(),
}
}
}
impl<T> Clone for WeakUnboundedSender<T> {
fn clone(&self) -> Self {
WeakUnboundedSender {
chan: self.chan.clone(),
}
}
}
impl<T> WeakUnboundedSender<T> {
/// Tries to convert a WeakUnboundedSender into an [`UnboundedSender`].
/// This will return `Some` if there are other `Sender` instances alive and
/// the channel wasn't previously dropped, otherwise `None` is returned.
pub fn upgrade(&self) -> Option<UnboundedSender<T>> {
chan::Tx::upgrade(self.chan.clone()).map(UnboundedSender::new)
}
}
impl<T> fmt::Debug for WeakUnboundedSender<T> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt.debug_struct("WeakUnboundedSender").finish()
}
}