1#![no_std]
2
3use ach_ring as ach;
4use ach_util::Error;
5use async_ach_notify::Notify;
6use futures_util::StreamExt;
7
8pub struct Ring<T, const N: usize, const MP: usize, const MC: usize> {
9 buf: ach::Ring<T, N>,
10 consumer: Notify<MP>,
11 producer: Notify<MC>,
12}
13impl<T, const N: usize, const MP: usize, const MC: usize> Ring<T, N, MP, MC> {
14 pub const fn new() -> Self {
15 Self {
16 buf: ach::Ring::new(),
17 consumer: Notify::new(),
18 producer: Notify::new(),
19 }
20 }
21 pub fn len(&self) -> usize {
22 self.buf.len()
23 }
24 pub fn is_empty(&self) -> bool {
25 self.buf.is_empty()
26 }
27}
28impl<T, const N: usize, const MP: usize, const MC: usize> Default for Ring<T, N, MP, MC> {
29 fn default() -> Self {
30 Self::new()
31 }
32}
33impl<T: Unpin, const N: usize, const MP: usize, const MC: usize> Ring<T, N, MP, MC> {
34 pub fn try_push(&self, val: T) -> Result<(), Error<T>> {
38 self.buf.push(val).inspect(|_x| {
39 self.producer.notify_one();
40 })
41 }
42 pub async fn push(&self, mut val: T) {
44 let mut wait_c = self.consumer.listen();
45 while let Err(err) = self.try_push(val) {
46 val = err.input;
47 wait_c.next().await;
48 }
49 }
50
51 pub fn try_pop(&self) -> Result<T, Error<()>> {
55 self.buf.pop().inspect(|_x| {
56 self.consumer.notify_one();
57 })
58 }
59 pub async fn pop(&self) -> T {
61 let mut wait_p = self.producer.listen();
62 loop {
63 if let Ok(v) = self.try_pop() {
64 break v;
65 } else {
66 wait_p.next().await;
67 }
68 }
69 }
70}