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rt_multi_threaded.rs
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rt_multi_threaded.rs
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//! Benchmark implementation details of the threaded scheduler. These benches are
//! intended to be used as a form of regression testing and not as a general
//! purpose benchmark demonstrating real-world performance.
use tokio::runtime::{self, Runtime};
use tokio::sync::oneshot;
use bencher::{benchmark_group, benchmark_main, Bencher};
use std::sync::atomic::AtomicUsize;
use std::sync::atomic::Ordering::Relaxed;
use std::sync::{mpsc, Arc};
const NUM_WORKERS: usize = 4;
const NUM_SPAWN: usize = 10_000;
fn spawn_many_local(b: &mut Bencher) {
let rt = rt();
let (tx, rx) = mpsc::sync_channel(1000);
let rem = Arc::new(AtomicUsize::new(0));
b.iter(|| {
rem.store(NUM_SPAWN, Relaxed);
rt.block_on(async {
for _ in 0..NUM_SPAWN {
let tx = tx.clone();
let rem = rem.clone();
tokio::spawn(async move {
if 1 == rem.fetch_sub(1, Relaxed) {
tx.send(()).unwrap();
}
});
}
let _ = rx.recv().unwrap();
});
});
}
fn spawn_many_remote_idle(b: &mut Bencher) {
let rt = rt();
let mut handles = Vec::with_capacity(NUM_SPAWN);
b.iter(|| {
for _ in 0..NUM_SPAWN {
handles.push(rt.spawn(async {}));
}
rt.block_on(async {
for handle in handles.drain(..) {
handle.await.unwrap();
}
});
});
}
fn spawn_many_remote_busy(b: &mut Bencher) {
let rt = rt();
let rt_handle = rt.handle();
let mut handles = Vec::with_capacity(NUM_SPAWN);
// Spawn some tasks to keep the runtimes busy
for _ in 0..(2 * NUM_WORKERS) {
rt.spawn(async {
loop {
tokio::task::yield_now().await;
std::thread::sleep(std::time::Duration::from_micros(10));
}
});
}
b.iter(|| {
for _ in 0..NUM_SPAWN {
handles.push(rt_handle.spawn(async {}));
}
rt.block_on(async {
for handle in handles.drain(..) {
handle.await.unwrap();
}
});
});
}
fn yield_many(b: &mut Bencher) {
const NUM_YIELD: usize = 1_000;
const TASKS: usize = 200;
let rt = rt();
let (tx, rx) = mpsc::sync_channel(TASKS);
b.iter(move || {
for _ in 0..TASKS {
let tx = tx.clone();
rt.spawn(async move {
for _ in 0..NUM_YIELD {
tokio::task::yield_now().await;
}
tx.send(()).unwrap();
});
}
for _ in 0..TASKS {
let _ = rx.recv().unwrap();
}
});
}
fn ping_pong(b: &mut Bencher) {
const NUM_PINGS: usize = 1_000;
let rt = rt();
let (done_tx, done_rx) = mpsc::sync_channel(1000);
let rem = Arc::new(AtomicUsize::new(0));
b.iter(|| {
let done_tx = done_tx.clone();
let rem = rem.clone();
rem.store(NUM_PINGS, Relaxed);
rt.block_on(async {
tokio::spawn(async move {
for _ in 0..NUM_PINGS {
let rem = rem.clone();
let done_tx = done_tx.clone();
tokio::spawn(async move {
let (tx1, rx1) = oneshot::channel();
let (tx2, rx2) = oneshot::channel();
tokio::spawn(async move {
rx1.await.unwrap();
tx2.send(()).unwrap();
});
tx1.send(()).unwrap();
rx2.await.unwrap();
if 1 == rem.fetch_sub(1, Relaxed) {
done_tx.send(()).unwrap();
}
});
}
});
done_rx.recv().unwrap();
});
});
}
fn chained_spawn(b: &mut Bencher) {
const ITER: usize = 1_000;
let rt = rt();
fn iter(done_tx: mpsc::SyncSender<()>, n: usize) {
if n == 0 {
done_tx.send(()).unwrap();
} else {
tokio::spawn(async move {
iter(done_tx, n - 1);
});
}
}
let (done_tx, done_rx) = mpsc::sync_channel(1000);
b.iter(move || {
let done_tx = done_tx.clone();
rt.block_on(async {
tokio::spawn(async move {
iter(done_tx, ITER);
});
done_rx.recv().unwrap();
});
});
}
fn rt() -> Runtime {
runtime::Builder::new_multi_thread()
.worker_threads(NUM_WORKERS)
.enable_all()
.build()
.unwrap()
}
benchmark_group!(
scheduler,
spawn_many_local,
spawn_many_remote_idle,
spawn_many_remote_busy,
ping_pong,
yield_many,
chained_spawn,
);
benchmark_main!(scheduler);