5 releases
0.0.5 | Jun 16, 2024 |
---|---|
0.0.4 | Jun 1, 2024 |
0.0.3 | May 31, 2024 |
0.0.2 | May 31, 2024 |
0.0.1 | May 31, 2024 |
#210 in WebAssembly
138 downloads per month
Used in wasi-sol
19KB
178 lines
📢 Emitter RS
📢 Emitter RS is a simple EventEmitter implementation for Rust and Wasm, providing easy event subscription and firing capabilities.
🚀 Getting Started
To start using emitter-rs
, add it to your Cargo.toml
:
[dependencies]
emitter-rs = "0.0.5"
Then, you can use it in your code:
use emitter_rs::EventEmitter;
fn main() {
let mut event_emitter = EventEmitter::new();
event_emitter.on("Say Hello", |value: String| {
println!("{}", value);
});
event_emitter.emit("Say Hello", "Hello world!".to_string());
}
💡 Basic Usage
You can emit and listen to values of any type as long as they implement the serde
Serialize
and Deserialize
traits. A single EventEmitter
instance can have listeners to values of multiple types.
use emitter_rs::EventEmitter;
fn main() {
let mut event_emitter = EventEmitter::new();
event_emitter.on("Add three", |number: f32| println!("{}", number + 3.0));
event_emitter.emit("Add three", 5.0 as f32);
event_emitter.emit("Add three", 4.0 as f32);
}
// >> "8"
// >> "7"
Using a more advanced value type such as a struct by implementing the serde
traits:
use emitter_rs::EventEmitter;
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize)]
struct Date {
month: String,
day: String,
}
fn main() {
let mut event_emitter = EventEmitter::new();
event_emitter.on("LOG_DATE", |date: Date| {
println!("Month: {} - Day: {}", date.month, date.day)
});
event_emitter.emit("LOG_DATE", Date {
month: "January".to_string(),
day: "Tuesday".to_string()
});
}
// >> "Month: January - Day: Tuesday"
Removing listeners is also easy:
use emitter_rs::EventEmitter;
fn main() {
let mut event_emitter = EventEmitter::new();
let listener_id = event_emitter.on("Hello", |_: ()| println!("Hello World"));
match event_emitter.remove_listener(&listener_id) {
Some(_listener_id) => println!("Removed event listener!"),
None => println!("No event listener of that id exists")
}
}
// >> "Removed event listener!"
🌐 Creating a Global EventEmitter
You can create a global EventEmitter
instance that can be shared across files:
// global_event_emitter.rs
use std::sync::Mutex;
use emitter_rs::EventEmitter;
use lazy_static::lazy_static;
// Use lazy_static! because the size of EventEmitter is not known at compile time
lazy_static! {
// Export the emitter with `pub` keyword
pub static ref EVENT_EMITTER: Mutex<EventEmitter> = Mutex::new(EventEmitter::new());
}
Then import this instance into multiple files:
// main.rs
mod global_event_emitter;
use global_event_emitter::EVENT_EMITTER;
fn main() {
// We need to maintain a lock through the mutex to avoid data races
EVENT_EMITTER.lock().unwrap().on("Hello", |_: ()| println!("hello there!"));
EVENT_EMITTER.lock().unwrap().emit("Hello", ());
}
And in another file, you can listen to the "Hello"
event in main.rs
by adding a listener to the global event emitter:
// some_random_file.rs
use emitter_rs::event_emitter_file::EVENT_EMITTER;
fn random_function() {
// When the "Hello" event is emitted in `main.rs`, print "Random stuff!"
EVENT_EMITTER.lock().unwrap().on("Hello", |_: ()| println!("Random stuff!"));
}
🌟 Usage in WASM
Emitter RS
can be seamlessly integrated into WebAssembly (WASM) projects, allowing you to create event-driven applications in the browser. Consider the following as an example:
use emitter_rs::EventEmitter;
use std::sync::{Arc, Mutex};
use wasm_bindgen_futures::spawn_local;
fn run() {
let mut event_emitter = EventEmitter::new();
let result = Arc::new(Mutex::new(String::new()));
let cloned_result = Arc::clone(&result);
spawn_local(async move {
event_emitter.on("some_event", move |value: String| {
let mut result = cloned_result.lock().unwrap();
result.push_str(&value);
});
event_emitter.emit("some_event", "Hello, world!".to_string());
assert_eq!(*result.lock().unwrap(), "Hello, world!");
});
}
[!NOTE] Emitter RS is a maintained fork of
event-emitter-rs
crate.
📄 License
This project is licensed under the MIT License.
Dependencies
~1–3.5MB
~70K SLoC