RxJS-based message/event bus service for Angular apps inspired by NgRadio. Inject it in your application module. You can check npm page.
npm install --save ng-event-bus
Angular version | ng-event-bus version |
---|---|
18.x | 7.x.x |
17.x | 6.x.x |
16.x | 5.1.x |
15.x | 5.0.x |
15.x | 5.0.x |
14.x | 4.x.x |
13.x | 4.x.x |
12.x | 3.x.x |
11.x | 2.x.x |
First, import it:
import { NgEventBus } from 'ng-event-bus';
Then, inject it as a service (do not forget about providers) in your Angular application:
import { NgEventBus } from 'ng-event-bus';
@NgModule({
imports:[
...
],
providers: [
...,
NgEventBus,
...
],
constructor(private eventBus: NgEventBus) { ... }
Since you have NgEventBus
instance in your app, you can use these methods for passing messages:
-
this.eventBus.cast(key, data)
- send a message to event bus. -
this.eventBus.on(pattern)
- returns observable you can subscribe to listen events.
Where:
key
must be a string and must not be empty, otherwise it will throw an exception.data
is optional and can be any type of object.pattern
must be a string and must not be empty.
Patterns may contain multiple segments split by :
. Use this feature to create namespaces for messages you cast. You can use *
in pattern
to subscribe to any matching segment, or use **
to subscribe to all segments, starting from particular position.
For example, you can use on('error:*')
and subscribe to all errors, including something like error:http
or error:internal
and so on:
this.eventBus.cast('app:start', 'started');
this.eventBus.cast('message:greet', 'Hi!');
this.eventBus.cast('message:bye', 'Bye!');
this.eventBus.on('app:start').subscribe((meta: MetaData) => {
console.log(meta.data); // will receive 'started' only
});
this.eventBus.on('message:greet').subscribe((meta: MetaData) => {
console.log(meta.data); // will receive 'Hi!'
});
this.eventBus.on('message:bye').subscribe((meta: MetaData) => {
console.log(meta.data); // will receive 'Bye!'
});
this.eventBus.on('message:*').subscribe((meta: MetaData) => {
console.log(meta.data); // will receive both 'Hi!' and 'Bye!'
});
this.eventBus.on('**').subscribe((meta: MetaData) => {
console.log(meta.data); // will receive all messages: 'started', 'Hi!' and 'Bye!'
});
When you subscribe to the observable, you can optionally get an instance of MetaData
class. This instance contains information related to the emission of the event through the bus. The properties of this instance are:
id
: A unique identifier of the message sent through the events bus.key
: Original key associated to the message.data
: Data associated to message. It's optional.timestamp
: Time in milliseconds in which the message was generated.
this.eventBus.cast('app:start', 'started');
this.eventBus.on('app:start').subscribe((meta: MetaData) => {
console.log(meta.id); // will print "d9c31eb0-b3f3-4764-a96d-6a703112a696"
console.log(meta.key); // will print "app:start"
console.log(meta.data); // will print "started"
console.log(meta.timestamp); // will print 1605934473553
});
this.eventBus.cast('message:bye', {message: 'bye'});
this.eventBus.on('**').subscribe((meta: MetaData) => {
console.log(meta.id); // will print "4945f28c-d2a5-4738-b7d1-f3df8f08422c"
console.log(meta.key); // will print "message:bye"
console.log(meta.data); // will print {message: 'bye'}
console.log(meta.timestamp); // will print 1605934709116
});
These strings will match:
-
on('**' ).suscribe
can subscribe to any message with any segments count -
on('a' ).suscribe
can subscribe tocast('a', ...)
-
on('a:b' ).suscribe
can subscribe tocast('a:b', ...)
-
on('a:b:c' ).suscribe
can subscribe tocast('a:b:c', ...)
-
on('a:**' ).suscribe
can subscribe tocast('a:b:c', ...)
,cast('a:b:c:d:e:f', ...)
-
on('a:*:*' ).suscribe
can subscribe tocast('a:b:c', ...)
,cast('a:f:g', ...)
,cast('a:n:m', ...)
-
on('a:b:*' ).suscribe
can subscribe tocast('a:b:c', ...)
,cast('a:b:d', ...)
, but notcast('a:b', ...)
-
on('a:b:**').suscribe
can subscribe tocast('a:b:c',. ..)
-
on('*:b:*' ).suscribe
can subscribe tocast('a:b:c', ...)
-
on('a:*:*' ).suscribe
can subscribe tocast('a:b:c', ...)
Yes, in the normal scenario usage it's necessary you unsubscribe from the observable to avoid memory leaks. That happens because the library exposes an infinite observable. That's no exactly related to the library, but in the way in which the observables work in RxJS.
However, there are ways that you don't need to unsubscribe, for example if you use .first()
in the pipe of the observable because using this method would turn it into a finite observable (It would apply in your case if you're just waiting for a one-time event).
I recommend you to read this stackoverflow answer about a similar question.
See the Releases page for a list of all releases, including changes.
If you run into any issues, please email me at [email protected] or you can use the contact form in my page.
For bug reports, please open an issue on GitHub.
- Fork it.
- Create your feature branch (
git checkout -b my-new-feature
). - Commit your changes (
git commit -am 'Added some feature'
). - Push to the branch (
git push origin my-new-feature
). - Create a new Pull Request.