Can someone please explain the difference between Promise and Observable in Angular?

An example on each would be helpful in understanding both the cases. In what scenario can we use each case?

17 Answers 17

up vote 966 down vote accepted

Promise

A Promise handles a single event when an async operation completes or fails.

Note: There are Promise libraries out there that support cancellation, but ES6 Promise doesn't so far.

Observable

An Observable is like a Stream (in many languages) and allows to pass zero or more events where the callback is called for each event.

Often Observable is preferred over Promise because it provides the features of Promise and more. With Observable it doesn't matter if you want to handle 0, 1, or multiple events. You can utilize the same API in each case.

Observable also has the advantage over Promise to be cancelable. If the result of an HTTP request to a server or some other expensive async operation isn't needed anymore, the Subscription of an Observable allows to cancel the subscription, while a Promise will eventually call the success or failed callback even when you don't need the notification or the result it provides anymore.

Observable provides operators like map, forEach, reduce, ... similar to an array

There are also powerful operators like retry(), or replay(), ... that are often quite handy.

  • 113
    So is there a good reason to use Promise instead of Observable in the single callback case or should Observables also be used there since they can work that way too? Basically, is it good practice to "Observable all the things" or does Promise still have its place? – Josh Werts Jul 21 '16 at 14:42
  • 43
    If you want to use the reactive style, just use observables everywhere. If you have observables only you can easy compose. If you mix them it's not so clean anymore. If you don't care about reactive style, you can use promise for single events where you don't care about cancelable and observable for streams of events. – Günter Zöchbauer Jul 21 '16 at 14:45
  • 23
    @GünterZöchbauer Hey - I have no arguments against Observables or functional programming. I am simply stating that I believe that people running into Observables mainly via http in NG2 have no real reason whatsoever to use Observables over Promises to make the calls. They lose nothing practical by using promises. The debounce and retry operators are irrelevant - you can debounce with ng-debounce and if a call is expected to fail, generally, there is a problem with the code. The only time I needed to work with retrying calls was while querying unstable third-party APIs for HVT. – VSO Jan 30 '17 at 16:08
  • 28
    But please don't forget that Promise, along with async/await makes your code flat again! In a majority of situations, and in projects that don't deal with rocket science, there is no need to write those horrible nested functions with unnecessarily complicated chains of methods. You can use async/await today with transpilers, like TypeScript, and write actual human-readable flat code without any of the rxjs boilerplate. You will probably still need rxjs sometimes in select situations, because it really does have a lot of things to offer. – evilkos Jul 2 '17 at 13:59
  • 6
    This answer is misleading, an observable is not like a stream it is like a function that returns a stream. – Benjamin Gruenbaum Jul 3 '17 at 14:59

Promises:

  • return a single value
  • not cancellable
  • more readable code with try/catch and async/await

Observables:

  • work with multiple values over time
  • cancellable
  • support map, filter, reduce and similar operators
  • use Reactive Extensions (RxJS)
  • an array whose items arrive asynchronously over time
  • 6
    obersvable also has finally handling unlike promise which has only success and error handling – Anirudha Mar 22 '17 at 17:59
  • 16
    @Anirudha you can use try/catch/finally with async/await Promises. – CedX Jul 10 '17 at 11:17
  • 3
    "proposed feature for ES 2016" But didn't make it (as you should have known when answering, as the feature set for ES2016 was complete well before June 7th 2016). Also didn't make ES2017, and almost certainly won't make ES2018 as it's still at Stage 1: github.com/tc39/proposal-observable – T.J. Crowder Aug 2 '17 at 17:04
  • This answer is not entirely correct. Observables are not necessarily asynchronous. Also, Observable doesn't always represent multiple values, consider single in RxJS. I think it is better to think about Observables as pushed based sets (I borrowed this from Ben Lesh, RxJS 5 lead). – Dan Macák Dec 6 '17 at 19:32
  • @Anirudha The standard JS Promise supports then, catch, and finally. Were you thinking of some non-standard promise library? – Stuart Updegrave Dec 24 '17 at 13:03

Both Promises and Observables provide us with abstractions that help us deal with the asynchronous nature of our applications. The difference between them was pointed out clearly by @Günter and @Relu.

Since a code snippet is worth a thousand words, let go through the below example to understand them easier.

Thanks @Christoph Burgdorf for the awesome article


Angular uses Rx.js Observables instead of promises for dealing with HTTP.

Suppose that you are building a search function that should instantly show you results as you type. Sound familiar but there are a lot of challenges that come with that task.

  • We don't want to hit the server endpoint every time user presses a key, it should flood them with a storm of HTTP requests. Basically, we only want to hit it once the user has stopped typing instead of with every keystroke.
  • Don’t hit the search endpoint with the same query params for subsequent requests.
  • Deal with out-of-order responses. When we have multiple requests in-flight at the same time we must account for cases where they come back in unexpected order. Imagine we first type computer, stop, a request goes out, we type car, stop, a request goes out. Now we have two requests in-flight. Unfortunately, the request that carries the results for computer comes back after the request that carries the results for car.

The demo will simply consist of two files: app.ts and wikipedia-service.ts. In a real world scenario, we would most likely split things further up, though.


Below is Promise-based implementation that doesn’t handle any of the described edge cases.

wikipedia-service.ts

import { Injectable } from '@angular/core';
import { URLSearchParams, Jsonp } from '@angular/http';

@Injectable()
export class WikipediaService {
  constructor(private jsonp: Jsonp) {}

  search (term: string) {
    var search = new URLSearchParams()
    search.set('action', 'opensearch');
    search.set('search', term);
    search.set('format', 'json');
    return this.jsonp
                .get('http://en.wikipedia.org/w/api.php?callback=JSONP_CALLBACK', { search })
                .toPromise()
                .then((response) => response.json()[1]);
  }
}

We are injecting the Jsonp service to make a GET request against the Wikipedia API with a given search term. Notice that we call toPromise in order to get from an Observable<Response> to a Promise<Response>. Eventually end up with a Promise<Array<string>> as the return type of our search method.

app.ts

// check the plnkr for the full list of imports
import {...} from '...';

@Component({
  selector: 'my-app',
  template: `
    <div>
      <h2>Wikipedia Search</h2>
      <input #term type="text" (keyup)="search(term.value)">
      <ul>
        <li *ngFor="let item of items">{{item}}</li>
      </ul>
    </div>
  `
})
export class AppComponent {
  items: Array<string>;

  constructor(private wikipediaService: WikipediaService) {}

  search(term) {
    this.wikipediaService.search(term)
                         .then(items => this.items = items);
  }
}

Not much of a surprise here either. We inject our WikipediaService and expose it’s functionality via a search method to the template. The template simply binds to keyup and calls search(term.value).

We unwrap the result of the Promise that the search method of the WikipediaService returns and expose it as a simple Array of strings to the template so that we can have *ngFor loop through it and build up a list for us.

See the example of Promise-based implementation on Plunker


Where Observables really shine

Let’s change our code to not hammer the endpoint with every keystroke but instead only send a request when the user stopped typing for 400 ms

To unveil such super powers we first need to get an Observable<string> that carries the search term that the user types in. Instead of manually binding to the keyup event, we can take advantage of Angular’s formControl directive. To use this directive, we first need to import the ReactiveFormsModule into our application module.

app.ts

import { NgModule } from '@angular/core';
import { BrowserModule } from '@angular/platform-browser';
import { JsonpModule } from '@angular/http';
import { ReactiveFormsModule } from '@angular/forms';

@NgModule({
  imports: [BrowserModule, JsonpModule, ReactiveFormsModule]
  declarations: [AppComponent],
  bootstrap: [AppComponent]
})
export class AppModule {}

Once imported, we can use formControl from within our template and set it to the name "term".

<input type="text" [formControl]="term"/>

In our component, we create an instance of FormControl from @angular/form and expose it as a field under the name term on our component.

Behind the scenes, term automatically exposes an Observable<string> as property valueChanges that we can subscribe to. Now that we have an Observable<string>, overcoming the user input is as easy as calling debounceTime(400) on our Observable. This will return a new Observable<string> that will only emit a new value when there haven’t been coming new values for 400ms.

export class App {
  items: Array<string>;
  term = new FormControl();
  constructor(private wikipediaService: WikipediaService) {
    this.term.valueChanges
              .debounceTime(400)        // wait for 400ms pause in events
              .distinctUntilChanged()   // ignore if next search term is same as previous
              .subscribe(term => this.wikipediaService.search(term).then(items => this.items = items));
  }
}

It would be a waste of resources to send out another request for a search term that our app already shows the results for. All we have to do to achieve the desired behavior is to call the distinctUntilChanged operator right after we called debounceTime(400)

See the example of Observable implementation on Plunker

For dealing with out-of-order responses, please check the full article http://blog.thoughtram.io/angular/2016/01/06/taking-advantage-of-observables-in-angular2.html

As far as I am using Http in Angular, I agree that in the normal use cases there is not much difference when using Observable over Promise. None of the advantages are really relevant here in practice. Hope I can see some advanced use case in the future :)


Learn more

  • 12
    I don't completely buy the decision of turning Http service into Observable based. Every explanation I hear relies on the same example: The search by term. But that one is about handling browser events. I would like to hear what the advantage is in applying it when dealing with asynchronous http requests. – Alex Pollan Feb 2 '17 at 7:37
  • Was the decision accidental to avoid mixed patterns? – Alex Pollan Feb 2 '17 at 7:43
  • 2
    @AlexPollan, there's actually a good explanation for benefits of the http service returning an observable on this podcast with Ben Lesh: devchat.tv/js-jabber/…. Ultimately, the major benefit is that you can cancel an observable, and a use case for this described in the link above - while a little contrived - is that if you call out to multiple apis and only care about the first response, no matter which of the apis you called gets back to you first, you can then cancel the requests to the others. – nikolasleblanc Mar 16 '17 at 14:09
  • 1
    @nikolasleblanc, Im pretty sure you can use $q.race() for that? – jameslouiz Mar 29 '17 at 9:28
  • Both of your Plunker projects are broken. Looks like it couldn't find some resources. 'Failed to load resources: the server returned with a status of 404 ()' npmcdn.com/@angular/platform-browser@2.0.0-rc.5//bundles/… – CatGuardian Aug 23 at 17:46

Both Promises and Observables will help us work with the asynchronous functionalities in JavaScript. They are very similar in many cases, however, there are still some differences between the two as well, promises are values that will resolve in asynchronous ways like http calls. On the other hand, observables deal with sequence of asynchronous events. The main differences are listed as below:

promise:

  • having one pipe line
  • usually only use with async data return
  • not easy to cancel

observable:

  • are cancellable
  • are retriable by nature such as retry and retryWhen
  • stream data in multiple pipe lines
  • having array-like operations like map, filter etc
  • can be created from other sources like events
  • they are function, which could be subscribed later on

Also, I've created the graphical image for you below to show the differences visually:

Promises and Observables image

  • promise "not easy to cancel" , is it possible to cancel them ? – Pardeep Jain Jun 13 '17 at 12:18
  • 5
    yes, there is a way to cancel them as well... some people use bluebird or third party libraries... also using Q library in Angular there are ways to cancel it... but as I said not very handy – Alireza Jun 13 '17 at 12:28
  • Having one pipeline sometimes has advantange, ex. in APP_INITIALIZER, if you have multiple pipeline it can never finish sometimes or finish multiple times. – windmaomao May 18 at 13:37
  • running across this issue APP_INITILIZER code I inherited uses observable it is not very clear or usable, I just need to fetch some configuration from a web service it's a one off fail or success event clearly tailored for Promises. Is there an easy way to make it behave like a Promisse... what I mean is the 'then' behavior, since the results cascade heavily on the return of each other. – Astronaut Jun 26 at 17:23

Promises

  1. Definition : Helps you run functions asynchronously, and use their return values (or exceptions) but only once when executed.
  2. Not Lazy
  3. Not cancellable. The two possible decisions are
    • Reject
    • Resolve
  4. Cannot be retried(Promises should have access to the original function that returned the promise in order to have a retry capability, which is a bad practice)

Observables

  1. Definition : Helps you run functions asynchronously, and use their return values in a continous sequence(multiple times) when executed.
  2. By default, it is Lazy as it emits values when time progresses.
  3. Has a lot of operator which simplifies coding effort.
  4. One operator retry can be used to retry when ever needed, also if we need to retry the observable based on some conditions retryWhen can be used.

    Note: A list of operators along with their interactive diagrams is available here at RxMarbles.com

There is one downside of Observables missing in the answers. Promises allow to use the ES7 async/await functions. With them you can write asynchronous code like it would be a synchronous function call, so you don't need callbacks anymore. The only possibility for Observables to do this, is to convert them to Promises. But when you convert them to Promises, you can only have one return value again:

async function getData(){
    const data = await observable.first().toPromise();
    //do stuff with 'data' (no callback function needed)
}

Further reading: How can I `await` on an Rx Observable?

  • 6
    Also surprised why no one pointed out this killer perk of Promises - simplicity and transparency thanks to async/await. I switched to Promises just for the ability of writing flat code. Simple business logic and UI interaction code shouldn't look like rocket science and be polluted by the nested hell of reactive extensions. Also, async/await is not only in the future, you can use it in public production apps now using transpilers. I use TypeScript 2.3 and it's awesome, like a real language. – evilkos Jul 2 '17 at 13:38
  • Yes, I am using TypeScript, too. I love async/await so much that I try to find solutions with promises first, before I use Observables. Or convert buffered Observables to Promises. – besserwisser Jul 3 '17 at 14:33

I am a pictures guy, this was missing in other answers:

enter image description here

 Promises vs Observables

promises and Observable both are handling the asynchronous call only.find above image for main difference.

  • 1
    What exactly do you mean by promise emits only single value, while observable emits multiple – Abel Apr 8 at 16:32
  • A promise does not emit a value at all - a promise is a value over time. A promise multicasts that value to multiple subscribers - once you hold the promise you already have a value. An observable is like a function, subscribing to it invokes the action. – Benjamin Gruenbaum Jun 17 at 16:02
  • @BenjaminGruenbaum Still I didn't get the mean of multiple subscribers can you please provide a link or example. Thanks – Deepak Patidar Jul 3 at 6:17
  • observable1.subscribe(subscriber1), observable1.subscribe(subscriber2) - this invokes the function multiple times. – Benjamin Gruenbaum Jul 3 at 12:26

Even though this answer is late, i have summarized the differences below,

Observable:

  1. Observable is just a function that takes an observer and returns a function Observer: an object with next, error.
  2. Observer allows to subscribe/unsubscribe to its data stream, emit next value to the observer, notify the observer about errors and inform the observer about the stream completion
  3. Observer provides a function to handle next value,errors and end of stream(ui events,http responses,data with web sockets).
  4. Works with multiple values over time
  5. It is cancel-able/retry-able and supports operators such as map,filter,reduce etc.
  6. Creating an Observable can be -Observable.create() - returns Observable that can invoke methods on -Observer Observable.from() - converts an array or iterable into -Observable Observable.fromEvent() - converts an event into Observable -Observable.fromPromise() - converts a Promise into Observable -Observable.range() - returns a sequence of integers in the specified range

Promise:

  1. A promise represents a task that will finish in the future;

  2. Promises become resolved by a value;

  3. Promises get rejected by exceptions;

  4. Not cancellable and it returns a single value

  5. A promise expose a function (then)

    -then returns a new promise;

    -allows for the attachment of that will be executed based on state;

    -handlers are guaranteed to execute in order attached;

I've just dealt with an issue where Promises were the best solution, and I'm sharing it here for anyone stumbling across this question in the event it's useful (this was exactly the answer I was looking for earlier):

In an Angular2 project I have a service that takes some parameters and returns a value list to populate drop down menus on a form. When the form component initializes, I need to call the same service multiple times with different parameters to define a number of different dropdown menus, however if I simply queue up all the variables to call the service, only the last one succeeds and the rest error out. The service fetching from the database could only handle one request at a time.

The only way to successfully populate all the dropdown menu variables was to call the service in a way that prevented a new request from being processed until the last request was finished, and the Promise / .then mechanism solved the problem nicely.

  fetchValueList(listCode): Promise<any> {
      return this.dataSvc.getValueList(listCode, this.stateSvc.currentContext, this.stateSvc.currentLanguageCode)
          .map(response => response.json())
          .toPromise();
  }

  initializeDropDowns() {
      this.fetchValueList('First-Val-List')
          .then(data => {
              this.firstValList = data;
              return this.fetchValueList('Second-Val-List')
          }).then(data => {
              this.secondValList = data;
              return this.fetchValueList('Third-Val-List')
          }).then(data => {
              this.thirdValList = data;
          })  }

I defined the functions in the component, and then called initializeDropDowns() in ngOnInit.

The fetchValueList function returns a Promise, so the first call passes the first listCode and when the Promise resolves, the return value is in the data variable in the .then block where we can assign it to the this.firstValList variable. As the function has returned data, we know the service has finished and it's safe to call again with the second listCode, the return value is in the data variable in the next .then block and we assign it to the this.secondValList variable.

We can chain this as many times as required to populate all the variables, and on the last code block we simply omit the return statement and the block terminates.

This is a very specific use case where we have a single service that needs to be called multiple times as the component initializes, and where the service has to complete its fetch and return a value before it can be called again, but in this case, the Promise / .then method was ideal.

  • 2
    This is certainly also possible with (higher-order) observables. You could for instance use scan() to build a stream of sequential observables. However, your approach is maybe more explicit and easier to understand. – lex82 Apr 27 '17 at 11:51
  • You could replace "then" with "switchMap" and do the exact same thing w/observables. – Dr. C. Hilarius Aug 28 '17 at 17:33
  • The problem with switchMap, as I understand it, is that it will start all the requests in parallel and wait until they all return, then return the values to the calling function whereas in my situation, I have a single server that I can't call multiple times in parallel (as the server will drop unfinished requests when new ones come in), so I had to make sure each call to the database service completed before starting a new call, and the Promise/then seemed to be the best and perhaps only way to solve that. – Stephen R. Smith Aug 28 '17 at 18:32
  • Why didn't you use chained mergeMap? As far as I understood your code, this one is pretty simple and does the job as good as your example. @StephenR.Smith – Ore Dec 18 '17 at 14:03
  • @Ore Can you add a code example of that solving the same problem as another answer? Would be a good reference and may be a good refactoring opportunity in the future. The requirement is that whatever code can't call the backend service in parallel, it has to call, wait for the return value and call again. – Stephen R. Smith Dec 19 '17 at 15:37

I believe all the other answers should clear your doubts. Nevertheless, I just wanted to add that observables are based on functional programming, and I find very useful the functions that come with it like map, flatmap, reduce, zip. The consistency the web achieves especially when it depends on API requests is a brutal improvement.

I strongly recommend this documentation, since it's the official documentation of reactiveX and I find it to be the most clear out there.

If you want to get into observables I would suggest this 3part post: http://blog.danlew.net/2014/09/15/grokking-rxjava-part-1/

Although it's meant for RxJava, the concepts are the same, and it's really well explained. In reactiveX documentation you have the equivalences for each function. You must look for RxJS.

I Hope this helps, just tried contribute here. :)

Observables vs Promises

Promises and Observables ,both of them provide us a simply way that help us Contend with trying to asynchronous nature of our applications. However, there are important differences between the two:

  • Observables can define both the setup and teardown aspects of asynchronous behavior.
  • Observables are cancellable.
  • Moreover, Observables can be retried using one of the retry operators provided by the API, such as retry and retryWhen. On the other hand, Promises require the caller to have access to the original function that returned the promise in order to have a retry capability.

Promises actually enforce this semantics. You can create a Promise, which resolves with some value:

   const numberPromise = new Promise((resolve) => {
    resolve(5);
});

numberPromise.then(value => console.log(value));
// will simply print 5

But attempting to resolve Promise again with another value will fail. Promise is always resolved with the first value passed to the resolve function and ignores further calls to it:

    const numberPromise = new Promise((resolve) => {
    resolve(5);
    resolve(10);
});

numberPromise.then(value => console.log(value));
// still prints only 5

On the contrary, Observables allow you to resolve (or, as we say, “emit”) multiple values. Here is how it would look:

    const numberObservable = new Observable((observer) => {
    observer.next(5);
    observer.next(10);
});

numberObservable.subscribe(value => console.log(value));
// prints 5 and 10

Note how similar the syntax is — we switched Promise to Observable, replaced resolve function with observer.next call and instead of then used subscribe, which behaves very similarly.

  • I tried your example but its not asynchronous – Artanis Zeratul Aug 4 at 13:37

Promise:

  • Provide a single future value;
  • Not lazy;
  • Not cancellable;

Observable:

  • Emits multiple values over time;
  • Lazy;
  • Cancellable;
  • Supports map, filter, reduce and similar operators

You can use promises instead of observables when calling HTTP in Angular if you wish.

Promise - Provide a single future value. Not lazy . Not cancel-able. It will either reject or resolve.

Observable - Provide multiple future value. Lazy . Cancel-able . It provide other methods live map,filter,reduce.

Overview:

  • Both Promises and Observables help us dealing with asynchronous operations. They can call certain callbacks when these asynchronous operations are done.
  • A Promise can only handle one event, Observables are for streams of events over time
  • Promises can't be cancelled once they are pending
  • Data Observables emit can transformed using operators

You can always use an observable for dealing with asynchronous behaviour since an observable has the functionality of a promise. However sometimes this extra functionality that Observables offer is not needed. Then it would be extra overhead to import a library for it in order to use them.

When to use Promises:

Use promises when you have a single async operation of which you want to process the result. For example:

var promise = new Promise((resolve, reject) => {
  // do something once, possibly async
  // code inside the Promise constructor callback is getting executed synchronously

  if (/* everything turned out fine */) {
    resolve("Stuff worked!");
  }
  else {
    reject(Error("It broke"));
  }
});

//after the promise is resolved or rejected we can call .then or .catch method on it

promise.then((val) => console.log(val))      // logs the resolve argument
       .catch((val) => console.log(val));    // logs the reject argument

So a promise executes some code where it either resolves or rejects. If either resolve or reject is called the promise goes from a pending state to either a resolved or rejected state. When the promise state is resolved the then() method is called. When the promise state is rejected, the catch() method is called.

When to use Observables:

Use Observables when there is a stream over time which you need to be handled. In the Observable itself is specified when the next event happened, when an error occurs, or when the Observable is completed. Then we can subscribe to this observable, which activates it and in this subscription we can pass in 3 callbacks (don't always have to pass in all). One callback to be executed for succes, one callback for error, and one callback for completion. For example:

const observable = Rx.Observable.create(observer => {
  // create a single value and complete
  observer.onNext(1);
  observer.onCompleted();
});

source.subscribe(
  x => console.log('onNext: %s', x),   //  success callback
  e => console.log('onError: %s', e),  //  error callback
  () => console.log('onCompleted')     //  completion callback
 );

// first we log: onNext: 1
//  then we log: onCompleted

When creating an observable it requires a callback function which supplies an observer as an argument. On this observer you then can call onNext, onCompleted, onError. Then when the Observable is subscribed to it will call the corresponding callbacks passed into the subscription.

There are lots of answers on this topic already so I wouldn't add a redundant one.

But to someone who just started learning Observable / Angular and wonders which one to use compare with Promise, I would recommend you keep everything Observable and convert all existing Promises in your project to Observable.

Simply because Angular framework itself and it's community are all using Observable. So it would be beneficial when you integrate framework services or 3rd party modules and chaining everything together.

Explain in reference of Angular Http calls for remote Api: Promises is use to maintain the state of asynchronous calls. one the data is obtained from remote Api and show into view

and in Observable come from observable pattern and introduce by Rxjs when it give you facility to update data multiple times throughout the stream as observable data.

protected by Nilesh Rathod May 18 at 11:05

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