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use std::convert::TryFrom;
use crate::api::element::Element;
use crate::channel::receiver::ChannelReceiver;
use crate::channel::sender::ChannelSender;
use crate::metrics::metric::Tag;
use crate::metrics::{register_counter, register_gauge};
pub const CHANNEL_CAPACITY_PREFIX: &str = "Channel.Capacity.";
pub const CHANNEL_SIZE_PREFIX: &str = "Channel.Size.";
pub const CHANNEL_ACCEPTED_PREFIX: &str = "Channel.Accepted.";
pub const CHANNEL_DRAIN_PREFIX: &str = "Channel.Drain.";
pub type TrySendError<T> = crossbeam::channel::TrySendError<T>;
pub type TryRecvError = crossbeam::channel::TryRecvError;
pub type RecvTimeoutError = crossbeam::channel::RecvTimeoutError;
pub type SendTimeoutError<T> = crossbeam::channel::SendTimeoutError<T>;
pub type RecvError = crossbeam::channel::RecvError;
pub type SendError<T> = crossbeam::channel::SendError<T>;
pub type Receiver<T> = crossbeam::channel::Receiver<T>;
pub type Sender<T> = crossbeam::channel::Sender<T>;
pub type Select<'a> = crossbeam::channel::Select<'a>;
pub fn unbounded<T>() -> (Sender<T>, Receiver<T>) {
crossbeam::channel::unbounded()
}
pub fn bounded<T>(cap: usize) -> (Sender<T>, Receiver<T>) {
crossbeam::channel::bounded(cap)
}
pub mod receiver;
pub mod select;
pub mod sender;
pub mod utils;
pub type ElementReceiver = ChannelReceiver<Element>;
pub type ElementSender = ChannelSender<Element>;
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub enum BaseOn {
UnBounded,
Bounded,
}
impl<'a> TryFrom<&'a str> for BaseOn {
type Error = anyhow::Error;
fn try_from(mode_str: &'a str) -> Result<Self, Self::Error> {
match mode_str {
"Bounded" => Ok(BaseOn::Bounded),
"UnBounded" => Ok(BaseOn::UnBounded),
_ => Err(anyhow!("Unsupported mode {}", mode_str)),
}
}
}
impl std::fmt::Display for BaseOn {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
BaseOn::Bounded => write!(f, "Bounded"),
BaseOn::UnBounded => write!(f, "UnBounded"),
}
}
}
pub fn named_channel<T>(
name: &str,
tags: Vec<Tag>,
cap: usize,
) -> (ChannelSender<T>, ChannelReceiver<T>)
where
T: Clone,
{
named_channel_with_base(name, tags, cap, BaseOn::UnBounded)
}
pub fn named_channel_with_base<T>(
name: &str,
tags: Vec<Tag>,
cap: usize,
base_on: BaseOn,
) -> (ChannelSender<T>, ChannelReceiver<T>)
where
T: Clone,
{
info!(
"Create channel named with {}, capacity: {}, base on: {}",
name, cap, base_on
);
let (sender, receiver) = match base_on {
BaseOn::Bounded => bounded(cap),
BaseOn::UnBounded => unbounded(),
};
let size = register_gauge(CHANNEL_SIZE_PREFIX.to_owned() + name, tags.clone());
let accepted_counter =
register_counter(CHANNEL_ACCEPTED_PREFIX.to_owned() + name, tags.clone());
let drain_counter = register_counter(CHANNEL_DRAIN_PREFIX.to_owned() + name, tags);
(
ChannelSender::new(name, sender, base_on, cap, size.clone(), accepted_counter),
ChannelReceiver::new(name, receiver, size.clone(), drain_counter),
)
}
#[cfg(test)]
mod tests {
use std::time::Duration;
use crate::channel::{named_channel_with_base, BaseOn};
use crate::utils::date_time::current_timestamp;
use crate::utils::thread::spawn;
#[test]
pub fn bounded_test() {
let (sender, receiver) = crate::channel::unbounded();
std::thread::sleep(Duration::from_secs(2));
for n in 0..100 {
let sender = sender.clone();
spawn(n.to_string().as_str(), move || {
for i in 0..10000 {
sender.send(i.to_string()).unwrap();
}
});
}
{
let _a = sender;
}
let mut begin = Duration::default();
while let Ok(_n) = receiver.recv() {
if begin.as_nanos() == 0 {
begin = current_timestamp();
}
}
let end = current_timestamp();
println!("{}", end.checked_sub(begin).unwrap().as_nanos());
}
#[test]
pub fn channel_sender_test() {
let cap = 1 * 1;
let (sender, receiver) = named_channel_with_base("", vec![], cap, BaseOn::Bounded);
let recv_thread_handle = spawn("recv_thread", move || {
std::thread::sleep(Duration::from_secs(1));
let begin = current_timestamp();
while let Ok(_n) = receiver.recv() {}
let end = current_timestamp();
println!("{}", end.checked_sub(begin).unwrap().as_nanos());
});
let mut bs = Vec::with_capacity(1024 * 8);
for _n in 0..bs.capacity() {
bs.push('a' as u8);
}
let s = String::from_utf8(bs).unwrap();
let send_thread_handle = spawn("send_thread", move || {
for _n in 0..100 * 10000 {
sender.send(s.clone()).unwrap();
}
std::thread::sleep(Duration::from_secs(10));
for _n in 0..cap {
sender.send("".to_string()).unwrap();
}
});
send_thread_handle.join().unwrap();
recv_thread_handle.join().unwrap();
println!("finish");
std::thread::park();
}
}