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cheep-crator-2/vendor/futures-0.1.31/benches/sync_mpsc.rs

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Rust
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#![feature(test)]
#[macro_use]
extern crate futures;
extern crate test;
use futures::{Async, Poll, AsyncSink};
use futures::executor;
use futures::executor::{Notify, NotifyHandle};
use futures::sink::Sink;
use futures::stream::Stream;
use futures::sync::mpsc::unbounded;
use futures::sync::mpsc::channel;
use futures::sync::mpsc::Sender;
use futures::sync::mpsc::UnboundedSender;
use test::Bencher;
fn notify_noop() -> NotifyHandle {
struct Noop;
impl Notify for Noop {
fn notify(&self, _id: usize) {}
}
const NOOP : &'static Noop = &Noop;
NotifyHandle::from(NOOP)
}
/// Single producer, single consumer
#[bench]
fn unbounded_1_tx(b: &mut Bencher) {
b.iter(|| {
let (tx, rx) = unbounded();
let mut rx = executor::spawn(rx);
// 1000 iterations to avoid measuring overhead of initialization
// Result should be divided by 1000
for i in 0..1000 {
// Poll, not ready, park
assert_eq!(Ok(Async::NotReady), rx.poll_stream_notify(&notify_noop(), 1));
UnboundedSender::unbounded_send(&tx, i).unwrap();
// Now poll ready
assert_eq!(Ok(Async::Ready(Some(i))), rx.poll_stream_notify(&notify_noop(), 1));
}
})
}
/// 100 producers, single consumer
#[bench]
fn unbounded_100_tx(b: &mut Bencher) {
b.iter(|| {
let (tx, rx) = unbounded();
let mut rx = executor::spawn(rx);
let tx: Vec<_> = (0..100).map(|_| tx.clone()).collect();
// 1000 send/recv operations total, result should be divided by 1000
for _ in 0..10 {
for i in 0..tx.len() {
assert_eq!(Ok(Async::NotReady), rx.poll_stream_notify(&notify_noop(), 1));
UnboundedSender::unbounded_send(&tx[i], i).unwrap();
assert_eq!(Ok(Async::Ready(Some(i))), rx.poll_stream_notify(&notify_noop(), 1));
}
}
})
}
#[bench]
fn unbounded_uncontended(b: &mut Bencher) {
b.iter(|| {
let (tx, mut rx) = unbounded();
for i in 0..1000 {
UnboundedSender::unbounded_send(&tx, i).expect("send");
// No need to create a task, because poll is not going to park.
assert_eq!(Ok(Async::Ready(Some(i))), rx.poll());
}
})
}
/// A Stream that continuously sends incrementing number of the queue
struct TestSender {
tx: Sender<u32>,
last: u32, // Last number sent
}
// Could be a Future, it doesn't matter
impl Stream for TestSender {
type Item = u32;
type Error = ();
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
match self.tx.start_send(self.last + 1) {
Err(_) => panic!(),
Ok(AsyncSink::Ready) => {
self.last += 1;
Ok(Async::Ready(Some(self.last)))
}
Ok(AsyncSink::NotReady(_)) => {
Ok(Async::NotReady)
}
}
}
}
/// Single producers, single consumer
#[bench]
fn bounded_1_tx(b: &mut Bencher) {
b.iter(|| {
let (tx, rx) = channel(0);
let mut tx = executor::spawn(TestSender {
tx: tx,
last: 0,
});
let mut rx = executor::spawn(rx);
for i in 0..1000 {
assert_eq!(Ok(Async::Ready(Some(i + 1))), tx.poll_stream_notify(&notify_noop(), 1));
assert_eq!(Ok(Async::NotReady), tx.poll_stream_notify(&notify_noop(), 1));
assert_eq!(Ok(Async::Ready(Some(i + 1))), rx.poll_stream_notify(&notify_noop(), 1));
}
})
}
/// 100 producers, single consumer
#[bench]
fn bounded_100_tx(b: &mut Bencher) {
b.iter(|| {
// Each sender can send one item after specified capacity
let (tx, rx) = channel(0);
let mut tx: Vec<_> = (0..100).map(|_| {
executor::spawn(TestSender {
tx: tx.clone(),
last: 0
})
}).collect();
let mut rx = executor::spawn(rx);
for i in 0..10 {
for j in 0..tx.len() {
// Send an item
assert_eq!(Ok(Async::Ready(Some(i + 1))), tx[j].poll_stream_notify(&notify_noop(), 1));
// Then block
assert_eq!(Ok(Async::NotReady), tx[j].poll_stream_notify(&notify_noop(), 1));
// Recv the item
assert_eq!(Ok(Async::Ready(Some(i + 1))), rx.poll_stream_notify(&notify_noop(), 1));
}
}
})
}
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