Question about 2 rxjs observables and a timer - rxjs

I have a question about rxjs in the context of nestjs CQRS sagas.
Suppose I have a scenario where there is two events being published one after another one. One sets the value and the other one unsets it. I need to be able to listen to the event which sets the value for 3 seconds and perform some action if another event has not been published in the meantime.
Here is some code for starters:
valuePersisted = (events$: Observable<any>): Observable<ICommand> => {
return events$
.pipe(
ofType(ValueHasBeenSet),
map(event => {
return new SomeCommand();
}),
);
}
I need to listen to ValueHasBeenUnset event somehow and cancel out of the stream in case this event was received within some time.
EDIT
I just realized that events ValueHasBeenSet and ValueHasBeenUnset can have different value types to be set and unset and code should distinguish that. For example both events have a property called type and its value can be 'blue' | 'yellow'. Is there a way to preserve the logic per event type keeping only two generic events ValueHasBeenSet and ValueHasBeenUnset?

Consider implementing it in the following way:
return events$
.pipe(
ofType(ValueHasBeenSet), // <- listen for ValueHasBeenSet event
switchMap(x => { // <- use switchMap to return a timer
return timer(3000).pipe(
takeUntil(events$.pipe(ofType(ValueHasBeenUnset))), // <- unsubscribe from the timer on ValueHasBeenUnset event
map(event => {
return new SomeCommand(); // <- map to SomeCommand once 3 seconds have passed
})
)
})

Related

rxjs: why the stream emit twice when another stream use take(1)

When I use take(1), it will console.log twice 1, like below code:
const a$ = new BehaviorSubject(1).pipe(publishReplay(1), refCount());
a$.pipe(take(1)).subscribe();
a$.subscribe((v) => console.log(v)); // emit twice (1 1)
But when I remove take(1) or remove publishReplay(1), refCount(), it follow my expected (only one 1 console.log).
const a$ = new BehaviorSubject(1).pipe(publishReplay(1), refCount());
a$.subscribe();
a$.subscribe((v) => console.log(v)); // emit 1
// or
const a$ = new BehaviorSubject(1);
a$.pipe(take(1)).subscribe();
a$.subscribe((v) => console.log(v)); // emit 1
Why?
Version: rxjs 6.5.2
Let's first have a look at how publishReplay is defined:
const subject = new ReplaySubject<T>(bufferSize, windowTime, scheduler);
return (source: Observable<T>) => multicast(() => subject, selector!)(source) as ConnectableObservable<R>;
multicast() will return a ConnectableObservable, which is an observable that exposes the connect method. Used in conjunction with refCount, the source will be subscribed when the first subscriber registers and will automatically unsubscribe from the source when there are no more active subscribers. The multicasting behavior is achieved by placing a Subject(or any kind of subject) between the data consumers and the data producer.
() => subject implies that the same subject instance will be used every time the source will be subscribed, which is an important aspect as to why you're getting that behavior.
const src$ = (new BehaviorSubject(1)).pipe(
publishReplay(1), refCount() // 1 1
);
src$.pipe(take(1)).subscribe()
src$.subscribe(console.log)
Let's see what would be the flow of the above snippet:
src$.pipe(take(1)).subscribe()
Since it's the first subscriber, the source(the BehaviorSubject) will be subscribed. When this happens, it will emit 1, which will have to go through the ReplaySubject in use. Then, the subject will pass along that value to its subscribers(e.g take(1)). But because you're using publishReplay(1)(1 indicates the bufferSize), that value will be cached by that subject.
src$.subscribe(console.log)
The way refCount works is that it first subscribes to the Subject in use, and then to the source:
const refCounter = new RefCountSubscriber(subscriber, connectable);
// Subscribe to the subject in use
const subscription = connectable.subscribe(refCounter);
if (!refCounter.closed) {
// Subscribe to the source
(<any> refCounter).connection = connectable.connect();
}
Incidentally, here's what happens on connectable.subscribe:
_subscribe(subscriber: Subscriber<T>) {
return this.getSubject().subscribe(subscriber);
}
Since the subject is a ReplaySubject, it will send the cached values to its newly registered subscriber(hence the first 1). Then, because there were no subscribers before(due to take(1), which completes after the first emission), the source will be unsubscribed again, which should explain why you're getting the second 1.
If you'd like to get only one 1 value, you can achieve this by making sure that every time the source is subscribed, a different subject will be used:
const src$ = (new BehaviorSubject(1)).pipe(
shareReplay({ bufferSize:1, refCount: true }) // 1
);
src$.pipe(take(1)).subscribe()
src$.subscribe(console.log)
StackBlitz.

RxJS Unsubscribe Only From Inner Observable

Let's say I have an interval that each second sends an heartbeat. At each beat i'd like to inspect something on my web page and react accordingly. I'd also like the option to unsubscribe from the inner Observables actions, but keep getting the heartbeat so when i subscribe back, everything will flow as before.
Creating a Subscription from Interval and piping it leaves no option to unsubscribe from the inner action, but only the whole subscription as whole.
Is there a way to return the inner Observable so i can unsubscribe from it while still retaining the heartbeat created from the Interval?
Edit: I've tried to create a class to describe what I'm talking about:
class Monitor {
sub: Subscription | null = null;
start() {
this.sub = this.monitor().subscribe();
}
monitor() {
const dom$ = someSelectorObserver(this.win.document, '#someSelector').pipe(
mergeMap(newElementOrBail => {
if (newElementOrBail) {
return handle(newElementOrBail);
} else {
return bail();
}
}),
tap({
error: error => this.log.error(error),
}),
);
return dom$;
}
handle(ele: HTMLElement) {
// do stuff
}
bail() {
this.sub.unsubscribe();
}
}
So basically my monitor starts with creating the subscription, as long as there's a new element to handle everything is fine, but when a bail signal appears I'd like to unsubscribe while still monitoring the DOM changes for a return of the previous elements.
So the outer subscription is basically the DOM observer and the inner is the mergeMap handle function. Does it make more sense?
You could just put some conditional on your inner observable:
private takeSignal = true
interval(3000).pipe(switchMap(() => takeSignal ? inner$ : NEVER))
Then just flip takeSignal as needed.
But it seems easier to just unsubscribe from the whole thing and resubscribe when needed. Why keep the interval going when you’re not using it?
You can split your logic in two (or more) streams.
Store heartbeat$ in a separate variable and subscribe to multiple times for different reasons.
In this way, you'd be able to split your logic into different streams and control subscriptions individually.
const heartbeat$ = interval(3000);
const inspectWeb = heartbeat$.pipe(
// do stuff
).subscribe()
inspectWeb.unsubscribe()
heartbeat$.pipe(
// do other stuff
).subscribe()

RxJS 6: Why calling value on BehaviorSubject is a bad thing? (according to no-subject-value lint rule) [duplicate]

I have an Angular 2 service:
import {Storage} from './storage';
import {Injectable} from 'angular2/core';
import {Subject} from 'rxjs/Subject';
#Injectable()
export class SessionStorage extends Storage {
private _isLoggedInSource = new Subject<boolean>();
isLoggedIn = this._isLoggedInSource.asObservable();
constructor() {
super('session');
}
setIsLoggedIn(value: boolean) {
this.setItem('_isLoggedIn', value, () => {
this._isLoggedInSource.next(value);
});
}
}
Everything works great. But I have another component which doesn't need to subscribe, it just needs to get the current value of isLoggedIn at a certain point in time. How can I do this?
A Subject or Observable doesn't have a current value. When a value is emitted, it is passed to subscribers and the Observable is done with it.
If you want to have a current value, use BehaviorSubject which is designed for exactly that purpose. BehaviorSubject keeps the last emitted value and emits it immediately to new subscribers.
It also has a method getValue() to get the current value.
The only way you should be getting values "out of" an Observable/Subject is with subscribe!
If you're using getValue() you're doing something imperative in declarative paradigm. It's there as an escape hatch, but 99.9% of the time you should NOT use getValue(). There are a few interesting things that getValue() will do: It will throw an error if the subject has been unsubscribed, it will prevent you from getting a value if the subject is dead because it's errored, etc. But, again, it's there as an escape hatch for rare circumstances.
There are several ways of getting the latest value from a Subject or Observable in a "Rx-y" way:
Using BehaviorSubject: But actually subscribing to it. When you first subscribe to BehaviorSubject it will synchronously send the previous value it received or was initialized with.
Using a ReplaySubject(N): This will cache N values and replay them to new subscribers.
A.withLatestFrom(B): Use this operator to get the most recent value from observable B when observable A emits. Will give you both values in an array [a, b].
A.combineLatest(B): Use this operator to get the most recent values from A and B every time either A or B emits. Will give you both values in an array.
shareReplay(): Makes an Observable multicast through a ReplaySubject, but allows you to retry the observable on error. (Basically it gives you that promise-y caching behavior).
publishReplay(), publishBehavior(initialValue), multicast(subject: BehaviorSubject | ReplaySubject), etc: Other operators that leverage BehaviorSubject and ReplaySubject. Different flavors of the same thing, they basically multicast the source observable by funneling all notifications through a subject. You need to call connect() to subscribe to the source with the subject.
I had similar situation where late subscribers subscribe to the Subject after its value arrived.
I found ReplaySubject which is similar to BehaviorSubject works like a charm in this case.
And here is a link to better explanation: http://reactivex.io/rxjs/manual/overview.html#replaysubject
const observable = of('response')
function hasValue(value: any) {
return value !== null && value !== undefined;
}
function getValue<T>(observable: Observable<T>): Promise<T> {
return observable
.pipe(
filter(hasValue),
first()
)
.toPromise();
}
const result = await getValue(observable)
// Do the logic with the result
// .................
// .................
// .................
You can check the full article on how to implement it from here.
https://www.imkrish.com/blog/development/simple-way-get-value-from-observable
I encountered the same problem in child components where initially it would have to have the current value of the Subject, then subscribe to the Subject to listen to changes. I just maintain the current value in the Service so it is available for components to access, e.g. :
import {Storage} from './storage';
import {Injectable} from 'angular2/core';
import {Subject} from 'rxjs/Subject';
#Injectable()
export class SessionStorage extends Storage {
isLoggedIn: boolean;
private _isLoggedInSource = new Subject<boolean>();
isLoggedIn = this._isLoggedInSource.asObservable();
constructor() {
super('session');
this.currIsLoggedIn = false;
}
setIsLoggedIn(value: boolean) {
this.setItem('_isLoggedIn', value, () => {
this._isLoggedInSource.next(value);
});
this.isLoggedIn = value;
}
}
A component that needs the current value could just then access it from the service, i.e,:
sessionStorage.isLoggedIn
Not sure if this is the right practice :)
A similar looking answer was downvoted. But I think I can justify what I'm suggesting here for limited cases.
While it's true that an observable doesn't have a current value, very often it will have an immediately available value. For example with redux / flux / akita stores you may request data from a central store, based on a number of observables and that value will generally be immediately available.
If this is the case then when you subscribe, the value will come back immediately.
So let's say you had a call to a service, and on completion you want to get the latest value of something from your store, that potentially might not emit:
You might try to do this (and you should as much as possible keep things 'inside pipes'):
serviceCallResponse$.pipe(withLatestFrom(store$.select(x => x.customer)))
.subscribe(([ serviceCallResponse, customer] => {
// we have serviceCallResponse and customer
});
The problem with this is that it will block until the secondary observable emits a value, which potentially could be never.
I found myself recently needing to evaluate an observable only if a value was immediately available, and more importantly I needed to be able to detect if it wasn't. I ended up doing this:
serviceCallResponse$.pipe()
.subscribe(serviceCallResponse => {
// immediately try to subscribe to get the 'available' value
// note: immediately unsubscribe afterward to 'cancel' if needed
let customer = undefined;
// whatever the secondary observable is
const secondary$ = store$.select(x => x.customer);
// subscribe to it, and assign to closure scope
sub = secondary$.pipe(take(1)).subscribe(_customer => customer = _customer);
sub.unsubscribe();
// if there's a delay or customer isn't available the value won't have been set before we get here
if (customer === undefined)
{
// handle, or ignore as needed
return throwError('Customer was not immediately available');
}
});
Note that for all of the above I'm using subscribe to get the value (as #Ben discusses). Not using a .value property, even if I had a BehaviorSubject.
Although it may sound overkill, this is just another "possible" solution to keep Observable type and reduce boilerplate...
You could always create an extension getter to get the current value of an Observable.
To do this you would need to extend the Observable<T> interface in a global.d.ts typings declaration file. Then implement the extension getter in a observable.extension.ts file and finally include both typings and extension file to your application.
You can refer to this StackOverflow Answer to know how to include the extensions into your Angular application.
// global.d.ts
declare module 'rxjs' {
interface Observable<T> {
/**
* _Extension Method_ - Returns current value of an Observable.
* Value is retrieved using _first()_ operator to avoid the need to unsubscribe.
*/
value: Observable<T>;
}
}
// observable.extension.ts
Object.defineProperty(Observable.prototype, 'value', {
get <T>(this: Observable<T>): Observable<T> {
return this.pipe(
filter(value => value !== null && value !== undefined),
first());
},
});
// using the extension getter example
this.myObservable$.value
.subscribe(value => {
// whatever code you need...
});
There are two ways you can achieve this.
BehaviorSubject has a method getValue() which you can get the value in a specific point of time.
You can subscribe directly with the BehaviorSubject and you may pass the subscribed value to a class member, field or property.
I wouldn't recommend both approaches.
In the first approach, it's a convenient method you can get the value anytime, you may refer to this as the current snapshot at that point of time. Problem with this is you can introduce race conditions in your code, you may invoke this method in many different places and in different timing which is hard to debug.
The second approach is what most developers employ when they want a raw value upon subscription, you can track the subscription and when do you exactly unsubscribe to avoid further memory leak, you may use this if you're really desperate to bind it to a variable and there's no other ways to interface it.
I would recommend, looking again at your use cases, where do you use it? For example you want to determine if the user is logged in or not when you call any API, you can combine it other observables:
const data$ = apiRequestCall$().pipe(
// Latest snapshot from BehaviorSubject.
withLatestFrom(isLoggedIn),
// Allow call only if logged in.
filter(([request, loggedIn]) => loggedIn)
// Do something else..
);
With this, you may use it directly to the UI by piping data$ | async in case of angular.
A subscription can be created, then after taking the first emitted item, destroyed. In the example below, pipe() is a function that uses an Observable as its input and returns another Observable as its output, while not modifying the first observable.
Sample created with Angular 8.1.0 packages "rxjs": "6.5.3", "rxjs-observable": "0.0.7"
ngOnInit() {
...
// If loading with previously saved value
if (this.controlValue) {
// Take says once you have 1, then close the subscription
this.selectList.pipe(take(1)).subscribe(x => {
let opt = x.find(y => y.value === this.controlValue);
this.updateValue(opt);
});
}
}
You could store the last emitted value separately from the Observable. Then read it when needed.
let lastValue: number;
const subscription = new Service().start();
subscription
.subscribe((data) => {
lastValue = data;
}
);
The best way to do this is using Behaviur Subject, here is an example:
var sub = new rxjs.BehaviorSubject([0, 1])
sub.next([2, 3])
setTimeout(() => {sub.next([4, 5])}, 1500)
sub.subscribe(a => console.log(a)) //2, 3 (current value) -> wait 2 sec -> 4, 5
Another approach, If you want / can to use async await (has to be inside of an async functions) you can do this with modern Rxjs:
async myFunction () {
const currentValue = await firstValueFrom(
of(0).pipe(
withLatestFrom(this.yourObservable$),
map((tuple) => tuple[1]),
take(1)
)
);
// do stuff with current value
}
This will emit a value "Right away" because of withLatestFrom, and then will resolve the promise.

'fromEvent' always observing, but 'from(myArray)' terminates observing after all values are processed

So Im struggling a bit with my understanding of RxJs and observables.
Can it be explained why 'fromEvent' always reacts to a new event no matter how much time has passed without a new value...yet pushing new values into an existing array that is being observed using 'from' doesn't work in the same way if they are both observables at this point and should react to async events why do we need to use 'Subject' for arrays?
I have seen we need to use a 'Subject' for an array ...but why? I would like to understand the reason/mechanism
This is a little bit like asking why and Array.forEach doesn't also iterate over items I add to an array via .push while addEventListener() continues listening for events even far in the future.
The behaviors of the two are different because the underlying data structures are different.
#fromArray
For an Array the implementation is essentially:
function fromArray(array) {
return new Observable(observer => {
try {
// Iterate through each item in the array and emit it to the Observer
array.forEach(item => observer.next(item));
// Array iteration is synchronous, which when we get here we are done iterating
observer.complete();
} catch (e) { observer.error(e) }
})
}
Where the function passed to the observable gets run each time a subscriber subscribes to the Observable. Because Arrays don't have a mechanism to detect changes to them there is no way to listen for additional updates to a native array (note: I am ignoring monkey-patching or creating some sort of substitute array data type that does support such things for simplicity).
#fromEvent
The fromEvent on the other hand would look more like:
function fromEvent(node, eventName, selector) {
// Convert the passed in event or just use the identity
let transform = selector || x => x;
// Construct an Observable using the constructor
return new Observable(observer => {
// Build a compatible handler, we also use this for the unsubscribe logic
const nextHandler = (value) => {
try {
observer.next(transform(value));
} catch (e) { observer.error(e); }
}
// Start listening for events
node.addEventListener(eventName, nextHandler);
// Return a way to tear down the subscription when we are done
return () => node.removeEventListener(eventName, nextHandler);
})
// Shares the underlying Subscription across multiple subscribers
// so we don't create new event handlers for each.
.share();
}
Here we are simply wrapping the native event handler (obviously the real implementation is more robust than this). But because the underlying source is actually an event handler which does have a mechanism to report new event (by definition really), we continue to get events in perpetuity (or until we unsubscribe).

RxJS 5 Timed Cache

I am trying to get time expiry cache to work for an observable that abstracts a "request-response", using postMessage and message events on the window.
The remote window expects a message getItemList and replies to it with a message of type {type: 'itemList', data: []}.
I would like to model the itemList$ observable in such a way that it caches the last result for 3 seconds, so that no new requests are made during that time, however, I cannot think of a way to achieve that in an elegant (read, one observable – no subjects) and succint manner.
Here is the example in code:
const remote = someIframe.contentWindow;
const getPayload = message => message.data;
const ofType = type => message => message.type === type;
// all messages coming in from the remote iframe
const messages$ = Observable.fromEvent(window, 'message')
.map(getPayload)
.map(JSON.parse);
// the observable of (cached) items
const itemList$ = Observable.defer(() => {
console.log('sending request');
// sending a request here, should happen once every 3 seconds at most
remote.postMessage('getItemList');
// listening to remote messages with the type `itemList`
return messages$
.filter(ofType('itemList'))
.map(getPayload);
})
.cache(1, 3000);
/**
* Always returns a promise of the list of items
* #returns {Promise<T>}
*/
function getItemList() {
return itemList$
.first()
.toPromise();
}
// poll every second
setInterval(() => {
getItemList()
.then(response => console.log('got response', response));
}, 1000);
I am aware of the (very similar) question, but I am wondering if anyone can come up with a solution without explicit subjects.
Thank you in advance!
I believe you are looking for the rxjs operator throttle:
Documentation on rxjs github repo
Returns an Observable that emits only the first item emitted by the
source Observable during sequential time windows of a specified
duration.
Basically, if you would like to wait until the inputs have quieted for a certain period of time before taking action, you want to debounce.
If you do not want to wait at all, but do not wish to make more than 1 query within a specific amount of time, you will want to throttle. From your use case, I think you want to throttle

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