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Consider a function:

const f = a => b => ... x => { return somevalue }

How do I get the type for just the last function typeof x => { return somevalue } without knowing the total amount of closures?

My initial thought is that we need to build a type that uses recursion and conditional type checking until we reach the end. However, I'm not sure if typescript supports recursive types for this kind of problem.

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Recursive conditional types will be supported in TypeScript 4.1 when it comes out. For now it's available in typescript@next. Then you'll be able to write something like

type LastFunc<T extends (...args: any) => any> =
    T extends (...args: any) => infer R ? 
    R extends (...args: any) => any ? LastFunc<R> : T : never;

and use it on your f function:

declare const somevalue: SomeValue;
const f = (a: any) => (b: any) => (c: any) => (d: any) => (x: any) => { return somevalue }
type LastFuncF = LastFunc<typeof f>; // type LastFuncF = (x: any) => SomeValue

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Until then, you can use either an unsupported workaround to get this behavior, like the following deferred-object-lookup thing which is confusing and annoying:

type LastFunc<T extends (...args: any) => any> =
    T extends (...args: any) => infer R ? {
        0: LastFunc<Extract<R, (...args: any) => any>>, 1: T
    }[R extends (...args: any) => any ? 0 : 1] : never

or you can use only supported features by unrolling the loop to a fixed depth, which is redundant and annoying:

type LastFunc<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF0<R> : T : never;
type LF0<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF1<R> : T : never;
type LF1<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF2<R> : T : never;
type LF2<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF3<R> : T : never;
type LF3<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF4<R> : T : never;
type LF4<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF5<R> : T : never;
type LF5<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF6<R> : T : never;
type LF6<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF7<R> : T : never;
type LF7<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF8<R> : T : never;
type LF8<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LF9<R> : T : never;
type LF9<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? LFX<R> : T : never;
type LFX<T extends (...args: any) => any> = T extends (...args: any) => infer R ? R extends (...args: any) => any ? R : T : never;

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Personally I'd just wait until TS4.1, if I were you. Okay, hope that helps; good luck!

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