Typescript Distributive Conditional Types

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旧巷少年郎
旧巷少年郎 2020-11-27 20:16

So i was going through the documentation on typescript and am not able to get my head around this concept.

So the documentation states :-

In instantiations

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  • 2020-11-27 20:55

    Within a distributive conditional type (let's say type BoxIfObject<T> = T extends object ? Array<T> : T;) when the type is applied to a union (let's say number | { a : string }), it's as if the conditional type is applied to each constituent of the union and thus within the conditional type T will in turn refer to each constituent of the union (so T will first be number and then T will be { a : string })

    So when we apply BoxIfObject<number | { a : string }>, T will never refer to the whole union number | { a : string } but to each of it's constituents in turn. Basically BoxIfObject<number | { a : string }> = BoxIfObject<number> | BoxIfObject<{ a : string }> = number | Array<{ a : string }

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  • 2020-11-27 21:04

    Hmm, I just read through the documentation and it makes sense to me... I don't know if I can explain it any better than that, but let's go through it. In what follows, and ...x..., means "some expression in which x might appear".

    Conditional types in which the checked type is a naked type parameter are called distributive conditional types.

    In this case, a type parameter means a generic type parameter, and a naked type parameter is a type expression where the type parameter appears alone and is not part of some more complex type expression. And the checked type is the type appearing before extends. Let's see some examples:

    • type A<T> = string extends T ? "yes" : "no" This is not a distributive conditional type. The checked type is string, which is not a generic type parameter.
    • type B<T> = {x: T} extends {x: number} ? "yes" : "no" This is not a distributive conditional type. The checked type is {x: T}, which has the type parameter T in it, but is not a naked type parameter.
    • type C<T> = T extends string ? "yes" : "no" This is a distributive conditional type; the checked type is T, which is a naked generic type parameter.

    Distributive conditional types are automatically distributed over union types during instantiation. For example, an instantiation of T extends U ? X : Y with the type argument A | B | C for T is resolved as (A extends U ? X : Y) | (B extends U ? X : Y) | (C extends U ? X : Y).

    This is the essence of what a distributive property does. If you have a type alias F<T> defined to be a distributive conditional type, as in:

    type F<T> = T extends ...T... ? ...T... : ...T...
    

    Then F<T> will distribute over unions, meaning that for any types A and B, the type F<A | B> will be equivalent to the type F<A> | F<B>

    In instantiations of a distributive conditional type T extends U ? X : Y, references to T within the conditional type are resolved to individual constituents of the union type (i.e. T refers to the individual constituents after the conditional type is distributed over the union type).

    This is the part that confused you, but it's just explaining how the distribution works. It's saying that to evaluate F<A | B>, you should evaluate F<A> | F<B>. So for F<A>, you take F<T> = T extends ...T... ? ...T... : ...T... and plug in A for T (to get A extends ...A... ? ...A... : ...A...), and then plug in B for T (to get B extends ...B... ? ...B... : ...B...), and then unite them.

    Let's go through a concrete example:

    type D<T> = T extends string ? T : "nope"
    

    What is this:

    type E = D<"a" | "b" | 0 | true> 
    

    Well, here's how not to do it:

    type E = ("a" | "b" | 0 | true) extends string ? ("a" | "b" | 0 | true) : "nope" //                                                                    
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