@OlegValteriswithUkraine thanks for the logical explanation

From observing the TS questions on SO, seems one of the hardest things for new TS coders, including users with five digit rep, is the concept that something could be null and that they have to handle this case. I'm baffled at the amount of times "use a null guard" is the answer to a question. It's something that shows up so often it might be a good candidate for a duplicate yet I don't feel it an appropriate FAQ. "If something could be null, do an if check to prevent that case"

With that said, it means :

var p = Promise.resolve( 21 );
p
.then( function(v){
console.log( v ); // 21
// fulfill the chained promise with value `42`
return v * 2;
} )
// here's the chained promise
.then( function(v){
console.log( v ); // 42
} );

Is this how it happens? : Promise.resolve(21) will create a new promise and immediately resolves it (asynchronously). The moment the promise is created and returned, (first)then function registers the associated callback. And the new promise is created and returned and passed to (second) then. Where it registers another callback. As first promise is resolved to 42, it calls the first callback to log 21 and after that second callback gets resolved and logs 42

Correction: As first promise is resolved to 21, it calls the first callback to log 21 and after that second callback gets resolved and logs 42

Promise.resolve() creates the resolved promise but handles the resolution (firing all then/catch/finally handler) in the next tick. So, even though you start with a resolved promise, it all still works asynchronously. It essentially doesn't matter if you have to wait for the value or not - you'd get the exact same resolt in the end, except on one case you might need to wait longer.

But to answer your question more concretely - Promise.resolve(21) would (as I said) create a promise but only fire the callbacks later. So, the first and second then() are still executed before that point. Thus the entire promise resolution chain is there and ready. Once the code runs to completion in the current cycle of the event loop, the next item in the queue would be picked up.

In this simple application, the next one would be firing the callback(s) of p which would then trigger the downstream promises to also resolve (as they depend on p) and then their callbacks would be resolved.

@VLAZ Thanks for the explanation. It seems my understanding is fine that i have wrote.

That at the time of registering the callback, then() creates a new promise to chain calls

That's correct. p2 = p1.then(something) ends up with two promises.

You can attach multiple then callbacks to one promise: p1.then(something); p1.then(somethingElse) and both something and something will be fired when p1 resolves.

Yes ..

@VLAZ I believe it's a case of a much larger problem of inability to comprehend that a value can be missing when accessed. We wouldn't have so many NPEs otherwise

@OlegValteriswithUkraine I admit I've had the same problem when I began programming. But I'd expect somebody with 27k rep to not really struggle with this concept.

i think people just expect types to fix it somehow

new users to typescript sometimes seem to think it can do more than it does

and trust in it 100% for incoming data from the user or from an api, then get errors in prod

I do consider "why didn't my random type assertion also fix the data" as a separate class of problem.

I saw an answer today that claimed type assertions prevented runtime problems. I think it was AI generated but still. It's a really stupid claim to make.

For clarity, the context was code like this:

const foo: bigint = 0 as any as bigint;

there would definitely not be any runtime error if you do 42n + foo

tbf i too had this misconception very early on with typescript, but it didn't last long. it was more a case of... i have this incoming object from a json response and i need to use it within this class... how do i type it

that turned into how do i create json templates, and a whole useless rabbithole

var p = Promise.resolve( 21 );
p.then( function(v){
console.log( v ); // 21
return new Promise( function(resolve,reject){
resolve( v * 2 );
} );
} )
.then( function(v){
console.log( v ); // 42
} );

!!> 42

@KevinB 42 Logged: [ ] Took: 0ms

second then() already has registered the callback to the promise. But (return new Promise(){...}) returns another new Promise

so second resolve i.e. resolve(v * 2) will get resolved right where it is and value 42 will be passed to second then() to log 42

So my Question: second then() first registered the callback for the promise which was created by the first then(). But new promise overwrote the first promise or what??

well

it's more a case of what .then does

if you return a promise to .then, .then will return that promise rather than creating a new one.

eh

that explanation isn't clear/100% accurate i guess

tldr, the callbacks are registered immediately, but what gets passed to the callback is dependant on how the previous promise resolves and what the previous callback returns

I have read in the Book YDKJS: "Every time you call then(..) on a Promise, it creates and returns a new Promise, which we can chain with."

yes

you can effectively say you have 4 promises at work in your given code

at any one of those points, you could have stored that promise in a variable and created entirely separate chains of promises

yes

@Sadiq Promises auto flatten. Returning a plain value and returning a promise from a .then() is effectively treated the same and the next .then() handler in the chain will only ever get a plain value, never a promise.

@VLAZ Agreed! but where is the new promise returned to => return new Promise () ...

the .then callback

what you return to .then is passed along to the next .then as an argument, unless it's a promise in which case the result of that promise is passed along to the next .then as an argument.

it's more, the second .then's callback returns and is "done" when it returns the new promise.

it's just that promise that the .then initially returns won't resolve until the promise the callback returned resolves

keep in mind, that new promise coulda instead been an entirely different .then chain, so it wouldn't have resolved until all of those resolved in that case.

it isn't any kind of special handling, it's just, if it returns a promise, now it has to wait for that promise to resolve to know what gets passed along in the chain.

so my above assumption is fine right

i just don't like the wording, i guess. you aren't registering a callback multiple times

it's just one

the first .then doesn't care about what happens within the new promise

it returns that promise, and then the chain continues on once that promise resolves

@KevinB Yes it doesn't care.. But it actually creates a new promise to be returned to next .then() in the chain

eh

@KevinB If it won't register the second time (due to return new Promise) then how will the handler be called?

you returned the promise

so the promise created by .then won't be resolved until that promise is resolved

@KevinB So that promise will only get resolved not registered?

i'm honestly not sure what registered is referring to

here's your code broken down a bit more

var x = (v) => new Promise( resolve => resolve(v * 2) );
var a = Promise.resolve( 21 );
var b = a.then( function(v){
  console.log( v ); // 21
  return x(v);
});
var c = b.then(function(v){
  console.log(v); // 42
});

it functions identically, except that there's an additional function, x, that returns a promise

Promises are like listeners .. so that when it gets resolved, the associated aka registered handler will be called. So the registering is must for the handler to be called

the callback you passed to b's .then doesn't care what x does

it only returns the result

it doesn't "register" a callback

if that result happens to be a promise, then the promise represented by b won't be resolved until that promise is resolved

you can even create the promise ahead of time for the same result

the act of using .then isn't what defines what the inner promise does

I don't like the event listener way of looking at it, but that's a fair comparison i think

@KevinB hmm .. its relatable

but, effectively, the promise contained in b above is produced immediately, upon calling a.then()

the callback you give .then is called when a resolves and returns a new promise. now you're waiting for that promise to resolve before b can resolve

b didn't define a callback, the function x did. that promise could have even already existed prior to a resolving

my point is it's a separate part of the process

@KevinB YEs i agree with that from the beginning .. But im stuck about the promises 'b' holds

b holds a new promise that is bound to the result of the promise x() returns

so the promise returned from a.then() is overwritten? due to new promise

or shadowed ... something like that?

no, it's... different

kinda like how {} and {} are different. Yes both b and the the promise returned by x will resolve at the same time, but they aren't the same promise

@KevinB Yes

var x = (v) => new Promise( resolve => resolve(v * 2) );
var y;
var a = Promise.resolve( 21 );
var b = a.then( function(v){
  console.log( v ); // 21
  y = x(v);
  return y;
});
var c = b.then(function(v){
  console.log(v); // 42
  console.log(y === b); // false
});

that's why 4 promises in this code

y here is set to the promise returned by x(v), and can independantly have it's own .then called on it without affecting b

@KevinB Exactly!

The whole point of the promise system is for each step of the way to be independently accessible/usable

if by returning a promise to .then the .then became that promise, that would be lost

so instead, it just resolves the original promise with the result

var b = a.then( function(v){
  console.log( v ); // 21
  y = x(v);
  return y;
});

This part will get 2 promises, first from a.then(). Later, from y

right. a.then( creates a promise, and x(v) creates one

so by that i was saying ... that both promises are associated with the same handler

you could then do b.then( v => y.then( v => x(v) ) ).then(console.log) to get 84, without interfereing with c

because y is independant of b's outcome

@KevinB yes

err, that'd be clearer if i replace v in b.then( v with _

since it is unused, ;)

the purpose of the b.then there is just to ensure y has been defined

hi

@Michelle Welcome to the JavaScript chat! Please review the room rules. If you have a question, just post it, and if anyone's free and interested they'll help. If you want to report an abusive user or a problem in this room, visit our meta.

I need to implement an infinite scrolling, I have a loadmoremessage function but it's not working. Please can anybody help?

why isn't it working?

I'm using React native, here I explain in more detail what's happening stackoverflow.com/questions/77199375/…

const loadMoreMessages = async () => {
    const getEarlyMessage = last(sortedMessages);
    if (isEmpty(room)) return;

    const options = { roomId: room?.id, limit: 10, _id: getEarlyMessage._id };
    const data = await getRoomMessages(options);
    dispatch(addMessage(data));
};

so, first, is the room being reported as empty?

effectively, work through the function until you find which piece of it isn't working

there's several bits there that could be returning something unexpected and causing it to not do anything

ok I'll do that now

@VLAZ I hope you are joking xD We've both seen worse from high-reps precisely because it doesn't measure knowledge (oh, how I wish more than 1 person at SE understood that)