messages
is a runtime-agnostic actor library.
It is heavily inspired by actix
, a great actor framework.
This crate can be used with any runtime, whether it's popular or not.
However, for the biggest one (tokio
and async-std
) there is an optional
built-in support enabling more convenient interface (such as an automatic
actor spawning).
- Full runtime independence. Can be used with any possible runtime that can spawn futures.
- Low dependencies amount.
- Low amount of boilerplate without derive macros.
- Good performance (close to raw channels).
- Relevant (but sufficient) functionality only.
actix
is a great, thoughtful, polished, and optimized library. If it is possible
for you, you should consider it as the main option.
However, if any of statements below apply to your use case, messages
may be better:
- You can't or don't want to stick to the Actix runtime.
- Your tasks may not have the similar runtime expense (
actix-rt
does not have work stealing and thus some threads may be underloaded in that case). - You are seeking for the simpler interface and don't want to implement asynchronous code atop of the initially sync interface.
But what about xactor
?
xactor
is another good library inspired by Actix. It initially was built for async-std
but
then gained tokio
support.
Nonetheless, this library is not runtime-agnostic. It supports async-std
and tokio
v1, but
is not (yet) compatible with another runtimes.
That being said, messages
initially serves different purpose: provide a way to implement
actor workflow without having to think about supported runtimes.
This library is async-first, meaning that everything is made with respect to asynchronous architecture.
While in some cases synchronous interfaces could've been more performant, it'd make the interface much
more bloated. If synchronous actor interface is preferred, consider using actix
, as it provides one.
TL;DR: This library provides performance that is better than in actix
(for asynchronous message handling;
based on the ring benchmark used by actix
itself) and is tied with futures
channels.
More details are presented in the BENCHES.md.
Note: messages
treats async
and multi-threaded context as its main environment,
thus it may be less suitable (or, more precisely, less efficient) for the partially
sync context. For instance, the sync version of the ring benchmark is by 80% faster than this library.
use messages::prelude::*;
struct Example; // Most of the types can be an actor.
// While `Actor` implementation can be customized, it is not required.
#[async_trait]
impl Actor for Example {}
// Message handler that calculated sum of two numbers.
#[async_trait]
impl Handler<(u8, u8)> for Example {
type Result = u16;
async fn handle(&mut self, (a, b): (u8, u8), context: &Context<Self>) -> u16 {
(a as u16) + (b as u16)
}
}
// Notification handler that calculated just writes received number to stdout.
#[async_trait]
impl Notifiable<u8> for Example {
async fn notify(&mut self, input: u8, context: &Context<Self>) {
println!("Received number {}", input);
}
}
#[tokio::main]
async fn main() {
let mut addr = Example.spawn();
let result = addr.send((22, 20)).await.unwrap();
assert_eq!(result, 42);
addr.notify(42).await.unwrap();
addr.stop().await;
addr.wait_for_stop().await;
}
use messages::prelude::*;
struct Ping;
#[async_trait]
impl Actor for Ping {}
#[async_trait]
impl Handler<u8> for Ping {
type Result = u8;
async fn handle(&mut self, input: u8, context: &Context<Self>) -> u8 {
input
}
}
#[tokio::main]
async fn main() {
let context = Context::new();
let mut addr = context.address();
let actor = Ping;
// Could've been any other runtime.
let mut task_handle = tokio::spawn(context.run(actor));
let result = addr.send(42).await.unwrap();
assert_eq!(result, 42);
addr.stop().await;
addr.wait_for_stop().await;
task_handle.await.unwrap();
}
More examples can be found in the examples directory.
They are numbered and written in a manner so that the next example is always somewhat superior to the previous one. You can consider it to be a temporary alternative for a book (which is coming later).
List of currently provided examples:
- Ping: Simple ping actor without much of functionality.
- Notify: More verbose example showing capabilities of the actor interface.
- Fibonacci: Example of a coroutine actor, i.e. one that can process messages in parallel.
- Ring: Ring benchmark, mostly copied from the corresponding
actix
example. - Timed stream: Example showing both how to attach stream to an actor and send timed notifications to it.
async-std
: Version of theNotify
example adapted forasync-std
runtime.smol
: Example of using a runtime not supported out of the box. In that case,smol
.- WebSocket: Simple actor-based echo websocket server (and a client to play with it).
All kinds of contributions are really appreciated!
messages
library is licensed under the MIT License. See LICENSE for details.