Struct multiqueue::MPMCUniReceiver [−][src]
pub struct MPMCUniReceiver<T> { /* fields omitted */ }Expand description
This is the receiving end of a standard mpmc view of the queue
for when it’s statically know that there is only one receiver.
It functions similarly to the BroadcastUniReceiver execpt there
is only ever one stream. As a result, the type doesn’t need to be clone or sync
Implementations
Identical to MPMCReceiver::try_recv
Applies the passed function to the value in the queue without copying it out
If there is no data in the queue or the writers have disconnected,
returns an Err((F, TryRecvError))
Example
use multiqueue::mpmc_queue;
let (w, r) = mpmc_queue(10);
let single_r = r.into_single().unwrap();
for i in 0..5 {
w.try_send(i).unwrap();
}
for i in 0..5 {
let val = match single_r.try_recv_view(|x| 1 + *x) {
Ok(val) => val,
Err(_) => panic!("Queue shouldn't be disconncted or empty"),
};
assert_eq!(i + 1, val);
}
assert!(single_r.try_recv_view(|x| *x).is_err());
drop(w);
assert!(single_r.try_recv_view(|x| *x).is_err());Applies the passed function to the value in the queue without copying it out If there is no data in the queue, blocks until an item is pushed into the queue or all writers disconnect
Example
use multiqueue::mpmc_queue;
let (w, r) = mpmc_queue(10);
let single_r = r.into_single().unwrap();
for i in 0..5 {
w.try_send(i).unwrap();
}
for i in 0..5 {
let val = match single_r.recv_view(|x| 1 + *x) {
Ok(val) => val,
Err(_) => panic!("Queue shouldn't be disconncted or empty"),
};
assert_eq!(i + 1, val);
}
drop(w);
assert!(single_r.recv_view(|x| *x).is_err());Removes the given reader from the queue subscription lib Returns true if this is the last reader in a given broadcast unit
Examples
use multiqueue::mpmc_queue;
let (writer, reader) = mpmc_queue(2);
writer.try_send(1).expect("This will succeed since queue is empty");
reader.try_recv().expect("This reader can read");
reader.unsubscribe();
// Fails since there's no readers left
assert!(writer.try_send(1).is_err());Transforms the MPMCUniReceiver into a MPMCReceiver
Example
use multiqueue::mpmc_queue;
let (w, r) = mpmc_queue(10);
w.try_send(1).unwrap();
let single_r = r.into_single().unwrap();
let normal_r = single_r.into_multi();
normal_r.clone();Returns a non-owning iterator that iterates over the queue until it fails to receive an item, either through being empty or begin disconnected. This iterator will never block.
Examples:
use multiqueue::mpmc_queue;
let (w, r) = mpmc_queue(2);
let sr = r.into_single().unwrap();
w.try_send(1).unwrap();
w.try_send(2).unwrap();
w.unsubscribe();
for val in sr.iter_with(|x| 2 * *x).zip(1..2) {
assert_eq!(val.0, val.1 * 2);
}pub fn try_iter_with<'a, R, F: FnMut(&T) -> R>(
&'a self,
op: F
) -> MPMCUniRefIter<'a, R, F, T>
pub fn try_iter_with<'a, R, F: FnMut(&T) -> R>(
&'a self,
op: F
) -> MPMCUniRefIter<'a, R, F, T>
Returns a non-owning iterator that iterates over the queue until it fails to receive an item, either through being empty or begin disconnected. This iterator will never block.
Examples:
use multiqueue::mpmc_queue;
let (w, r) = mpmc_queue(2);
let sr = r.into_single().unwrap();
for _ in 0 .. 3 {
w.try_send(1).unwrap();
w.try_send(2).unwrap();
for val in sr.try_iter_with(|x| 2 * *x).zip(1..2) {
assert_eq!(val.0, val.1*2);
}
}