What is the difference between:

new Promise(function(res, rej) {
  .then(function(result) {
    return "bbb";
  .then(function(result) {

and this:

new Promise(function(res, rej) {
  .then(function(result) {
    return Promise.resolve("bbb");
  .then(function(result) {

I'm asking as I'm getting different behaviour Using Angular and $http service with chaining .then(). A bit too much code hence first the example above.

  • 1
    What "different behavior" are you seeing? Both examples should work and behave approximately the same. The Promise.resolve() in the second example is unnecessary. – JLRishe Dec 31 '14 at 5:13
  • 4
    @pixelbits There is nothing wrong whatsoever with returning a promise from a then handler, in fact, it's a key aspect of the promises spec that you can do that. – user663031 Dec 31 '14 at 5:47
  • Note that this works with arbitrarily nested thens - the 'other languages' term for this is that then is both a map and a flatMap. – Benjamin Gruenbaum Dec 31 '14 at 7:22
  • in line 2 why do you have to call res("aaa"), why can't return "aaa" be sufficient and the Promise catch for resolve() it in the same way that it catches exceptions for reject() ? – Sam Liddicott Nov 9 '16 at 14:41

The rule is, if the function that is in the then handler returns a value, the promise resolves/rejects with that value, and if the function returns a promise, what happens is, the next then clause will be the then clause of the promise the function returned, so, in this case, the first example falls through the normal sequence of the thens and prints out values as one might expect, in the second example, the promise object that gets returned when you do Promise.resolve("bbb")'s then is the then that gets invoked when chaining(for all intents and purposes). The way it actually works is described below in more detail.

Quoting from the Promises/A+ spec:

The promise resolution procedure is an abstract operation taking as input a promise and a value, which we denote as [[Resolve]](promise, x). If x is a thenable, it attempts to make promise adopt the state of x, under the assumption that x behaves at least somewhat like a promise. Otherwise, it fulfills promise with the value x.

This treatment of thenables allows promise implementations to interoperate, as long as they expose a Promises/A+-compliant then method. It also allows Promises/A+ implementations to “assimilate” nonconformant implementations with reasonable then methods.

The key thing to notice here is this line:

if x is a promise, adopt its state [3.4]

link: https://promisesaplus.com/#point-49

  • 3
    "Adopt its state" is a concise and useful way to express the behavior when a then handler returns a promise. +1 for the spec reference. – user663031 Dec 31 '14 at 6:32
  • 63
    Actually - the relevant part of the spec here is the fact that [[Resolve]] is called both on thenables and values so essentially it wraps a value with the promise so return "aaa" is the same as return Promise.resolve("aaa") and return Promise.resolve("aaa") is the same as return Promise.resolve(Promise.resolve("aaa")) - since resolve is idempotent calling it on a value more than once has the same result. – Benjamin Gruenbaum Dec 31 '14 at 7:20
  • 8
    @Benjamin Gruenbaum does it mean that return "aaa" and return Promise.resolve("aaa") are interchangeable in thenables in any cases? – CSnerd Dec 6 '15 at 19:10
  • 8
    Yes, that's exactly what it means. – Benjamin Gruenbaum Dec 6 '15 at 20:01

Both of your examples should behave pretty much the same.

A value returned inside a then() handler becomes the resolution value of the promise returned from that then(). If the value returned inside the .then is a promise, the promise returned by then() will "adopt the state" of that promise and resolve/reject just as the returned promise does.

In your first example, you return "bbb" in the first then() handler, so "bbb" is passed into the next then() handler.

In your second example, you return a promise that is immediately resolved with the value "bbb", so "bbb" is passed into the next then() handler. (The Promise.resolve() here is extraneous).

The outcome is the same.

If you can show us an example that actually exhibits different behavior, we can tell you why that is happening.

  • 1
    Nice answer! What about Promise.resolve(); vs return;? – FabianTe May 29 '18 at 12:06
  • 1
    @FabianTe Those also would have the same effect, except with undefined instead of "bbb". – JLRishe May 29 '18 at 19:42

In simple terms, inside a then handler function:

A) When x is a value (number, string, etc):

  1. return x is equivalent to return Promise.resolve(x)
  2. throw x is equivalent to return Promise.reject(x)

B) When x is a Promise that is already settled (not pending anymore):

  1. return x is equivalent to return Promise.resolve(x), if the Promise was already resolved.
  2. return x is equivalent to return Promise.reject(x), if the Promise was already rejected.

C) When x is a Promise that is pending:

  1. return x will return a pending Promise, and it will be evaluated on the subsequent then.

Read more on this topic on the Promise.prototype.then() docs.


You already got a good formal answer. I figured I should add a short one.

The following things are identical with Promises/A+ promises:

  • Calling Promise.resolve (In your Angular case that's $q.when)
  • Calling the promise constructor and resolving in its resolver. In your case that's new $q.
  • Returning a value from a then callback.
  • Calling Promise.all on an array with a value and then extract that value.

So the following are all identical for a promise or plain value X:

new Promise(function(resolve, reject){ resolve(x); });
Promise.resolve().then(function(){ return x; });
Promise.all([x]).then(function(arr){ return arr[0]; });

And it's no surprise, the promises specification is based on the Promise Resolution Procedure which enables easy interoperation between libraries (like $q and native promises) and makes your life overall easier. Whenever a promise resolution might occur a resolution occurs creating overall consistency.

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