Originally posted on my blog.
The Problem
The general problem is that we want to wait for a state update an then do something afterwards. Unfortunatly we can not write sequential code, because every state update is asynchronous.
In "old" react we could simply pass a callback. As an example we will look at a class component, that contains filters for an article list view:
class FilterSidebar extends React.Component {
constructor(){
this.state = {
filters: {},
articles: []
}
}
fetchArticles = async () => {
const fetchedArticles = await API.getArticles(this.state.filters);
this.setState({articles: fetchedArticles})
}
reset = () => {
this.setState({filters: {}}, this.fetchArticles);
}
setColorFilter = (color) => {
this.setState(state => ({filters: {...state.filters, color}));
}
// more filters & render ...
}
-
fetchArticles
: fetcharticles
from an API service based on thefilters
in the state. -
reset
: clear allfilters
and then fetcharticles
, by passingfetchArticles
as callback tosetState
. This will guarantee that the state offilters
is cleared before callingfetchArticles
-
setColorFilter
: sets filter forarticles
to have a specific color (just an example to help your imagination!)
Using functional components this would look a bit different:
const FiltersSidebar = () => {
const [articles, setArticles] = useState([]);
const [filters, setFilters] = useState({});
const fetchArticles = async () => {
const fetchedArticles = await API.getArticles(filters);
setArticles(fetchedArticles)
}
const reset = () => {
setFilters({});
// uuhh, ouhh .. fetchArticles will use old state of "filters"
fetchArticles();
}
const setColorFilter = (color) => {
setFilters(currentFilters => ({...currentFilters, color}));
}
// more filters & return ..
}
The problem here is that the setter, which is returned by useState
(here setFilters
), doesn't allow us to pass a callback function as second argument. But in this case we can use useEffect
and useRef
to handle the problem:
const FiltersSidebar = () => {
const [articles, setArticles] = useState([]);
const [filters, setFilters] = useState({});
const resettingRef = useRef(false);
const fetchArticles = async () => {
const fetchedArticles = await API.getArticles(filters);
setArticles(fetchedArticles)
}
const reset = () => {
resettingRef.current = true;
setFilters({});
}
useEffect(() => {
if(resettingRef.current){
resettingRef.current = false;
fetchArticles();
}
},[filters])
// ...
}
Okay, that looks a bit ugly but at least it works..
But what happens if the filter logic gets much more complicated and we want to extract logic for filters in custom hooks:
const useStringFilter = (initialValue = "") => {
const [value, setValue] = useState(initialValue);
// maybe more complex stuff here
const reset = () => {
setValue(initialValue)
}
return {
value,
setValue,
reset
}
}
// and filters for other types like useDateFilter etc..
Then our component could look like this:
const FiltersSidebar = () => {
const [articles, setArticles] = useState([]);
const colorFilter = useStringFilter();
const nameFilter = useStringFilter();
const releaseDateFilter = useDateFilter();
const fetchArticles = async () => {
const filters = {
color: colorFilter.value,
name: nameFilter.value,
releaseDate: releaseDateFilter.value
}
const fetchedArticles = await API.getArticles(filters);
setArticles(fetchedArticles)
}
const reset = () => {
colorFilter.reset(); // will trigger a state update inside of useStringFilter
nameFilter.reset(); // will trigger a state update inside of useStringFilter
releaseDateFilter.reset(); // will trigger a state update inside of useDateFilter
// fetchArticles will use old state of colorFilter, nameFilter and releaseDateFilter
fetchArticles();
}
// ...
}
What to do now?
There is no straightforward way when using useEffect
and useRef
anymore, because we need to wait for multiple state updates to be completed. And that exactly is the actual problem!
The Solution
With a custom hook - namely useStateWithPromise
- this problem can be solved:
const useStateWithPromise = (initialState) => {
const [state, setState] = useState(initialState);
const resolverRef = useRef(null);
useEffect(() => {
if (resolverRef.current) {
resolverRef.current(state);
resolverRef.current = null;
}
/**
* Since a state update could be triggered with the exact same state again,
* it's not enough to specify state as the only dependency of this useEffect.
* That's why resolverRef.current is also a dependency, because it will guarantee,
* that handleSetState was called in previous render
*/
}, [resolverRef.current, state]);
const handleSetState = useCallback((stateAction) => {
setState(stateAction);
return new Promise(resolve => {
resolverRef.current = resolve;
});
}, [setState])
return [state, handleSetState];
};
It's not important to fully understand this hook. But what you should understand is that useStateWithPromise
returns, just like useState
, a getter and setter with a small important difference:
the setter returns a Promise
, which we can await
!
Now we can replace the useState
statements in our custom filter hooks with useStateWithPromise
:
const useStringFilter = (initialValue = "") => {
const [value, setValue] = useStateWithPromise(initialValue);
const reset = () => {
// this will return a promise containing the updated state
return setValue(initialValue);
}
return {
value,
setValue,
reset
}
}
And then we can finally await
state updates:
const FiltersSidebar = () => {
// ...
const reset = async () => {
// wait for all state updates to be completed
await Promise.all([
colorFilter.reset(),
nameFilter.reset(),
releaseDateFilter.reset()
]);
// fetchArticles will STILL use old state of colorFilter, nameFilter and releaseDateFilter
fetchArticles();
}
// ...
}
Well, that was a WT.. moment for me, but it makes sense if you really think about how functional components work.
Viewing the code from plain JavaScript side (without react) reset
is just a function inside of a function(al component). So each time the function is called (in the react terms: the functions is rerendered), reset
will be a new function with a new reference. After we await
the state updates of the filters with Promise.all
, reset
will still point to the exact same "old" fetchArticles
reference, which is still pointing to "old" state! But in the meantime multiple state updates happend and there is much "newer" version of reset
and also fetchArticles
, which is pointing to the updated state.
With one additional state property, here resetted
, this can be fixed:
const FiltersSidebar = () => {
// ...
const [resetted, setResetted] = useState(false)
useEffect(() => {
if(resetted){
fetchArticles();
setResetted(false);
}
},[resetted]);
const reset = async () => {
await Promise.all([
colorFilter.reset(),
nameFilter.reset(),
releaseDateFilter.reset()
]);
setResetted(true);
}
// ...
}
Now setResetted(true)
will trigger a rerender of the component and it's guaranteed that the fetchArticles
call inside of the useEffect
statement will use the latest state for the API call.
The Solution ?
When I implemented useStateWithPromise
I really thought that's the perfect solution and also questioned why there is no build-in solution for this in react? But after my WT.. moment I really understood why react didn't include such functionality:
It simply doesn't fit to the general design of functional components!
When you use class components, you work a lot with mutable references (e.g. this.state
is reference that constantly gets updated by this.setState
calls). But that's an anti pattern for functional components, because here you always try to work with immutable data and there is a reason for that:
Mutable references tend to cause unwanted side effects!
If your state has a non-primitive type (e.g. an object or array) it's recommended create new references instead of keeping the old one:
const MyComponent = () => {
const [immutableData, setImmutableData] = useState({a: "a", b: "b"});
let [mutableData, setMutableData] = useState({a: "a", b: "b"});
const setNewData = () => {
// good: new reference!
setImmutableData({a: "new a", b: "new b"})
// bad: same reference!
mutableData.a = "new a";
mutableData.b = "new b";
setMutableData(mutableData)
}
useEffect(() => { console.log("immutable data changed") }, [immutableData])
// will never be called because mutableData will always have same reference
useEffect(() => { console.log("mutable data changed") }, [mutableData])
return (
<>
<ChildComponent data={immutableData} />
{/**
* changing mutableData without the state setter, (e.g. mutableData.a = "new a")
* could cause unwanted side effects, because ChildComponent wouldn't be rerendered,
* so e.g. no useEffect statements inside ChildComponent would be triggered
*/}
<ChildComponent data={mutableData} />
</>
)
}
To come back to the example:
- each state update (e.g.
reset
of filter) causes a rerender - each rerender creates a new reference for
reset
andfetchArticles
- each
fetchArticles
reference will point to a different immutable state - after the
await
inreset
thefetchArticles
call will use "old" state, because it's an "old" version offetchArticles
So the general issue is that we have multiple fetchArticles
versions (after each render) which all point to different states, because states in functional components are/should be immutable.
Conclusion
There is a reason why react didn't implement this feature for functional components. If you have the time and the ability to (re-)build the architecture of your app, you should really think about using useStateWithPromise
.
I used it once in production, but only because the time was limited and my customer didn't want to spent to much time refactoring the code. For the next project I had a similiar problem but was able to switch the approach and solve this problem differently. E.g. in our example the actual problem was that we had multiple states in multiple hooks but could not reset them easily all at once (we needed to call reset
on each filter). If the state of all filters would be in one place, it would be much easier to reset them all together. A different approach would be to store inital values in a ref so it's not even necessary to wait for the state to be updated.
As final conclusion: If you have the necessarity to await
state updates in a manner like with useStateWithPromise
you either have a non-ideal architechture, your requirments have changed or you have a really special case. 😉
Top comments (4)
Hello Yusuf Aran,
Thank you so much, your article is very useful.
I'm new guy and started with react native project.
I got same problem with you in this your article.
Currently, I used useStateWithPromise to solve problem for temporaty in my project.
Do yo have any new approach to solve this problem ?
Hey Nguyen!
I am happy to hear that you find my article useful.
As I stated in my conclusion, you should probably not use
useStateWithPromise
and no, unfortunatly I have no new or better solution yet.I could try to help you with your case if you share some code (ideally with a codesandbox).
Thanks for all this, especially the explanation of why not to use it.
You are welcome :)