Crates.io | starbase_events |
lib.rs | starbase_events |
version | |
source | src |
created_at | 2023-04-06 22:57:33.201763 |
updated_at | 2024-12-03 18:53:11.497482 |
description | Async and mutable event system. |
homepage | |
repository | https://github.com/moonrepo/starbase |
max_upload_size | |
id | 832553 |
Cargo.toml error: | TOML parse error at line 18, column 1 | 18 | autolib = false | ^^^^^^^ unknown field `autolib`, expected one of `name`, `version`, `edition`, `authors`, `description`, `readme`, `license`, `repository`, `homepage`, `documentation`, `build`, `resolver`, `links`, `default-run`, `default_dash_run`, `rust-version`, `rust_dash_version`, `rust_version`, `license-file`, `license_dash_file`, `license_file`, `licenseFile`, `license_capital_file`, `forced-target`, `forced_dash_target`, `autobins`, `autotests`, `autoexamples`, `autobenches`, `publish`, `metadata`, `keywords`, `categories`, `exclude`, `include` |
size | 0 |
An async event emitter for the starbase
application framework. This crate works quite differently
than other event systems, as subscribers can mutate event data. Because of this, we cannot use
message channels, and must take extra precaution to satisfy Send
+ Sync
requirements.
Events must derive Event
or implement the Event
trait.
use starbase_events::Event;
use app::Project;
#[derive(Debug, Event)]
pub struct ProjectCreatedEvent(pub Project);
Events can optionally contain data, which is passed to and can be mutated by subscribers. By default
the value is a unit type (()
), but can be customized with #[event]
for derived events, or
type Data
when implemented manually.
use starbase_events::Event;
use std::path::PathBuf;
#[derive(Event)]
#[event(dataset = PathBuf)]
pub struct CacheCheckEvent(pub PathBuf);
// OR
pub struct CacheCheckEvent(pub PathBuf);
impl Event for CacheCheckEvent {
type Data = PathBuf;
}
An Emitter
is in charge of managing subscribers, and dispatching an event to each subscriber,
while taking into account the execution flow and once subscribers.
Every event will require its own emitter instance.
use starbase_events::Emitter;
let project_created = Emitter::<ProjectCreatedEvent>::new();
let cache_check: Emitter<CacheCheckEvent> = Emitter::new();
Subscribers are async functions that are registered into an emitter, and are executed when the
emitter emits an event. They are passed the event object as a Arc<T>
, and the event's data as
Arc<RwLock<T::Data>>
, allowing for the event to referenced immutably, and its data to be accessed
mutably or immutably.
use starbase_events::{Event, EventResult, EventState};
async fn update_root(
event: Arc<ProjectCreatedEvent>,
data: Arc<RwLock<<ProjectCreatedEvent as Event>::Data>>
) -> EventResult {
let mut data = data.write().await;
data.root = new_path;
Ok(EventState::Continue)
}
emitter.on(subscriber).await; // Runs multiple times
emitter.once(subscriber).await; // Only runs once
Furthermore, we provide a #[subscriber]
function attribute that streamlines the function
implementation. For example, the above subscriber can be rewritten as:
#[subscriber]
async fn update_root(mut data: ProjectCreatedEvent) {
data.root = new_path;
}
When using #[subscriber]
, the following benefits apply:
EventState::Continue
.mut event
or &mut Event
will acquire a write lock on data, otherwise a read lock.event
.Subscribers can control the event execution flow by returning EventState
, which supports the
following variants:
Continue
- Continues to the next subscriber (default).Stop
- Stops after this subscriber, discarding subsequent subscribers.#[subscriber]
async fn continue_flow(mut event: CacheCheckEvent) {
Ok(EventState::Continue)
}
#[subscriber]
async fn stop_flow(mut event: CacheCheckEvent) {
Ok(EventState::Stop)
}
When an event is emitted, subscribers are executed sequentially in the same thread so that each subscriber can mutate the event if necessary. Because of this, events do not support references/lifetimes for inner values, and instead must own everything.
An event can be emitted with the emit()
method, which requires an owned event (and owned inner
data).
let data = emitter.emit(ProjectCreatedEvent(owned_project)).await?;
Emitting returns the event data after all modifications.