Hugging Face's logo

Datasets:
opencsg
/
csg-robomaster

Languages:
English
Tags:
code
License:
Dataset card Files Community
csg-robomaster / binaries /runtime /src /operator /channel.rs
cistine's picture
cistine
Upload 490 files
b98ffbb verified
raw
history blame contribute delete
No virus
4.3 kB
use dora_core::config::DataId;
use dora_node_api::Event;
use futures::{
future::{self, FusedFuture},
FutureExt,
};
use std::collections::{BTreeMap, VecDeque};
pub fn channel(
runtime: &tokio::runtime::Handle,
queue_sizes: BTreeMap<DataId, usize>,
) -> (flume::Sender<Event>, flume::Receiver<Event>) {
let (incoming_tx, incoming_rx) = flume::bounded(10);
let (outgoing_tx, outgoing_rx) = flume::bounded(0);
runtime.spawn(async {
let mut buffer = InputBuffer::new(queue_sizes);
buffer.run(incoming_rx, outgoing_tx).await;
});
(incoming_tx, outgoing_rx)
}
struct InputBuffer {
queue: VecDeque<Option<Event>>,
queue_sizes: BTreeMap<DataId, usize>,
}
impl InputBuffer {
pub fn new(queue_sizes: BTreeMap<DataId, usize>) -> Self {
Self {
queue: VecDeque::new(),
queue_sizes,
}
}
pub async fn run(&mut self, incoming: flume::Receiver<Event>, outgoing: flume::Sender<Event>) {
let mut send_out_buf = future::Fuse::terminated();
let mut incoming_closed = false;
loop {
let next_incoming = if incoming_closed {
future::Fuse::terminated()
} else {
incoming.recv_async().fuse()
};
match future::select(next_incoming, send_out_buf).await {
future::Either::Left((event, mut send_out)) => {
match event {
Ok(event) => {
// received a new event -> push it to the queue
self.add_event(event);
// if outgoing queue is empty, fill it again
if send_out.is_terminated() {
send_out = self.send_next_queued(&outgoing);
}
}
Err(flume::RecvError::Disconnected) => {
incoming_closed = true;
}
}
// reassign the send_out future, which might be still in progress
send_out_buf = send_out;
}
future::Either::Right((send_result, _)) => match send_result {
Ok(()) => {
send_out_buf = self.send_next_queued(&outgoing);
}
Err(flume::SendError(_)) => break,
},
};
if incoming_closed && send_out_buf.is_terminated() && self.queue.is_empty() {
break;
}
}
}
fn send_next_queued<'a>(
&mut self,
outgoing: &'a flume::Sender<Event>,
) -> future::Fuse<flume::r#async::SendFut<'a, Event>> {
loop {
match self.queue.pop_front() {
Some(Some(next)) => break outgoing.send_async(next).fuse(),
Some(None) => {
// dropped event, try again with next one
}
None => break future::Fuse::terminated(),
}
}
}
fn add_event(&mut self, event: Event) {
self.queue.push_back(Some(event));
// drop oldest input events to maintain max queue length queue
self.drop_oldest_inputs();
}
fn drop_oldest_inputs(&mut self) {
let mut queue_size_remaining = self.queue_sizes.clone();
let mut dropped = 0;
// iterate over queued events, newest first
for event in self.queue.iter_mut().rev() {
let Some(Event::Input { id: input_id, .. }) = event.as_mut() else {
continue;
};
match queue_size_remaining.get_mut(input_id) {
Some(0) => {
dropped += 1;
*event = None;
}
Some(size_remaining) => {
*size_remaining = size_remaining.saturating_sub(1);
}
None => {
tracing::warn!("no queue size known for received operator input `{input_id}`");
}
}
}
if dropped > 0 {
tracing::debug!("dropped {dropped} operator inputs because event queue was too full");
}
}
}