I recently stumbled upon a question on Reddit’s LearnTypeScript subreddit regarding custom React hooks. A user wanted to create a toggle custom hook, and stick to the naming convention as regular React hooks do: Returning an array that you destructure when calling the hook. For example useState :

const [ state , setState ] = useState ( 0 )

Why an array? Because you the array’s fields have no name, and you can set names on your own:

const [ count , setCount ] = useState ( 0 )

const [ darkMode , setDarkMode ] = useState ( true )

So naturally, if you have a similar pattern, you also want to return an array.

A custom toggle hook might look like this:

export const useToggle = ( initialValue : boolean ) => {

const [ value , setValue ] = useState ( initialValue )

const toggleValue = ( ) => setValue ( ! value )

return [ value , toggleValue ]

}

Nothing out of the ordinary. The only types we have to set are the types of our input parameters. Let’s try to use it:

export const Body = ( ) => {

const [ isVisible , toggleVisible ] = useToggle ( false )

return (

< >

{ }

< button onClick = { toggleVisible } > Hello < / button >

{ isVisible && < div > World < / div > }

< / >

)

}

So why does this fail? TypeScript’s error message is very elaborate on this: Type ‘boolean | (() => void)’ is not assignable to type ‘((event: MouseEvent<HTMLButtonElement, MouseEvent>) => void) | undefined’. Type ‘false’ is not assignable to type ‘((event: MouseEvent<HTMLButtonElement, MouseEvent>) => void) | undefined’.

It might be very cryptic. But what we should look out for is the first type, which is declared incompatible: boolean | (() => void)' . This comes from returning an array. An array is a list of any length, that can hold as many elements as virtually possible. From the return value in useToggle , TypeScript infers an array type. Since the type of value is boolean (great!) and the type of toggleValue is (() => void) (a function returning nothing), TypeScript tells us that both types are possible in this array.

And this is what breaks the compatibility with onClick . onClick expects a function. Good, toggleValue (or toggleVisible ) is a function. But according to TypeScript, it can also be a boolean! Boom! TypeScript tells you to be explicit, or at least do type checks.

But we shouldn’t need to do extra type-checks. Our code is very clear. It’s the types that are wrong. Because we’re not dealing with an array.

Let’s go for a different name: Tuple. While an array is a list of values that can be of any length, we know exactly how many values we get in a tuple. Usually, we also know the type of each element in a tuple.

So we shouldn’t return an array, but a tuple at useToggle . The problem: In JavaScript an array and a tuple are indistinguishable. In TypeScript’s type system, we can distinguish them.

Option 1: Add a return tuple type #

First possibility: Let’s be intentional with our return type. Since TypeScript – correctly! – infers an array, we have to tell TypeScript that we are expecting a tuple.



export const useToggle =

( initialValue : boolean ) : [ boolean , ( ) => void ] => {

const [ value , setValue ] = useState ( initialValue )

const toggleValue = ( ) => setValue ( ! value )

return [ value , toggleValue ]

}

With [boolean, () => void] as a return type, TypeScript checks that we are returning a tuple in this function. TypeScript does not infer anymore, but rather makes sure that your intended return type is matched by the actual values. And voila, your code doesn’t throw errors anymore.

Option 2: as const #

With a tuple, we know how many elements we are expecting, and know the type of these elements. This sounds like a job for freezing the type with a const assertion.

export const useToggle = ( initialValue : boolean ) => {

const [ value , setValue ] = useState ( initialValue )

const toggleValue = ( ) => setValue ( ! value )



return [ value , toggleValue ] as const

}

The return type is now readonly [boolean, () => void] , because as const makes sure that your values are constant, and not changeable. This type is a little bit different semantically, but in reality, you wouldn’t be able to change the values you return outside of useToggle . So being readonly would be slightly more correct.

And this is, a perfect use case for tuple types! As always, there’s a playground link for you to fiddle around! Have fun!