I have the following redux-thunk action creator:

function updateInitiator(form_request_id, { to_recipient }) {
  return (dispatch) => {
    const url = `/some/url`;
    const data = { to_recipient };

    return fetch(url, { method: 'PUT', body: JSON.stringify(data) }).then(() => {

Then I declare the type of the function:

type UpdateInitiator = typeof updateInitiator;

I'm trying to derive the type of a bound thunk action. In short, when the action creator is "bound" in react-redux, it automatically calls the function returned with dispatch and then returns the return result of that internal function. I'm trying to declare a type for this behavior. It works if I do it without generics:

type BoundUpdateInitiator = (...args: Parameters<UpdateInitiator>) => ReturnType<ReturnType<UpdateInitiator>>;

But when I try to declare a generic type for any bound function, I'm having some trouble:

type BoundThunk<T> = (...args: Parameters<T>) => ReturnType<ReturnType<T>>;
type BoundUpdateInitiator = BoundThunk<UpdateInitiator>;

This gives me the error:

error TS2344: Type 'T' does not satisfy the constraint '(...args: any) => any'.

236 type BoundThunk<T> = (...args: Parameters<T>) => ReturnType<ReturnType<T>>;

error TS2344: Type 'ReturnType<T>' does not satisfy the constraint '(...args: any) => any'.
  Type 'unknown' is not assignable to type '(...args: any) => any'.
    Type '{}' provides no match for the signature '(...args: any): any'.

236 type BoundThunk<T> = (...args: Parameters<T>) => ReturnType<ReturnType<T>>;

error TS2344: Type 'T' does not satisfy the constraint '(...args: any) => any'.

236 type BoundThunk<T> = (...args: Parameters<T>) => ReturnType<ReturnType<T>>;

I can vaguely understand that T might be things other than a function, and similarly ReturnType<T> might also not be a function, and this generic type maybe doesn't account for those cases. I'm having trouble understanding how I can account for them, however. Ideally by not allowing them. Any suggestions?

  • This is what generic type constraints are for. Look at the definitions of ReturnType<T> and Parameters<T> and you'll immediately see what you have to write. Ex: type BoundThunk<T extends (...args: any[]) => any> = (...args: Parameters<T>) => stuff – Aluan Haddad Mar 27 at 4:05
  • @AluanHaddad that did the trick. If you want to make an answer I'll mark it as correct. – lobati Mar 27 at 5:14

In order to accomplish this we would use a generic type constraint.

This is in fact how the type parameters of the language provided utility types Parameters and ReturnType are specified and what in turn causes the error.

In order to instantiate a generic type, say ReturnType, with our type parameterto, our type parameter must constrained at least as restrictively as the type parameter of ReturnType. By looking at the definition of ReturnType<T> we can determine the minimum constraints we need to apply and the associated syntax

type ReturnType<T extends (...args: any) => any> =
    // details

Don't worry about the implementation (after the =) as that is a broader topic. In this situation, we will focus on the constraints of T specificied using the extends keyword at the declaration of T.

Therefore, in order to pass the T declared by BoundThunk<T> to ReturnType<T> we must constrain it to meet the requirements above (note that Parameters<T> has identical constraints).

type BoundThunk<T extends (...args: any) => any> =
    (...args: Parameters<T>) => ReturnType<ReturnType<T>>;

However, our requirements for T are actually more restrictive because we apply ReturnType ReturnType<T>, implying that T is a higher order function, in this case a function that returns a function.

We will therefore refine our constraint accordingly

type BoundThunk<T extends (...args: any) => (...args: any) => any> =
    (...args: Parameters<T>) => ReturnType<ReturnType<T>>;
|improve this answer|||||
  • thanks for the thorough response! Is there any way to declare the type without using any? It doesn't look like it, but I was curious. In general I know it's ideal to use a more specific type than any, though in this case it doesn't look like it gets propagated anywhere. – lobati Mar 27 at 15:43
  • Yes, you absolutely can use a more specific type like T extends (s: string, b: boolean) => number and that is a good idea if we have more information. It's worth noting however, that the anys above don't actually result in a function that takes any arguments and returns a result of type any they just allow the BoundThunk type to be a applied to any function that returns another function. Basically any doesn't remove type information when used in a constraint, it makes the constraint less specific. Constraints are like super types – Aluan Haddad Mar 27 at 15:51

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