For example i have type

type abc = 'a' | 'b' | 'c';

How to make tuple type that contains all elements of the union in compile time?

type t = ['a','b', 'c'];
  • Unions can only contain a value that is one of a list of types. So you can't have a union that contains all values, by definition. What are you trying to achieve? – Etienne de Martel Mar 12 '19 at 17:08
  • "keyof {a: number, b: number, c: number}" returns 'a'|'b'|'c', but i need tuple to make some metaprogramming stuff – Nail Achmedzhanov Mar 12 '19 at 18:31
  • What is your actual use case? Can you give a small example for how you’d plan to use the tuple in your code? – jcalz Mar 12 '19 at 20:28
  • I thougnt about converting poco objects to arrays with type safety. – Nail Achmedzhanov Mar 14 '19 at 5:10

It's easy to convert from a tuple type to a union type; for example, see this question. But the opposite, converting from a union to a tuple is one of those Truly Bad Ideas that you shouldn't try to do. Let's do it first and scold ourselves later:

// oh boy don't do this
type UnionToIntersection<U> =
  (U extends any ? (k: U) => void : never) extends ((k: infer I) => void) ? I : never
type LastOf<T> =
  UnionToIntersection<T extends any ? () => T : never> extends () => (infer R) ? R : never

// TS4.0+
type Push<T extends any[], V> = [...T, V];

// TS4.1+
type TuplifyUnion<T, L = LastOf<T>, N = [T] extends [never] ? true : false> =
  true extends N ? [] : Push<TuplifyUnion<Exclude<T, L>>, L>

type abc = 'a' | 'b' | 'c';
type t = TuplifyUnion<abc>; // ["a", "b", "c"] 

Playground link

That kind of works, but I really really REALLY recommend not using it for any official purpose or in any production code. Here's why:

  • You can't rely on the ordering of a union type. It's an implementation detail of the compiler; since X | Y is equivalent to Y | X, the compiler feels free to change one to the other. And sometimes it does:

      type TypeTrue1A = TuplifyUnion<true | 1 | "a">; // [true, 1, "a"] 🙂
      type Type1ATrue = TuplifyUnion<1 | "a" | true>; // [true, 1, "a"]!! 😮

    So there's really no way to preserve the order.

  • You can't rely on what the compiler considers a union and when it collapses or expands. "a" | string will just be collapsed to string, and boolean is actually expanded to false | true:

      type TypeAString = TuplifyUnion<"a" | string>; // [string]
      type TypeBoolean = TuplifyUnion<boolean>; // [false, true]

    So if you were planning to preserve some existing number of elements, you should stop planning that. There's no general way to have a tuple go to a union and back without losing this information as well.

  • There's no supported way to iterate through a general union. The tricks I'm using all abuse conditional types. First I convert a union A | B | C into a union of functions like ()=>A | ()=>B | ()=>C, and then use an intersection inference trick to convert that union of functions into an intersection of functions like ()=>A & ()=>B & ()=>C, which is interpreted as a single overloaded function type, and using conditional types to pull out the return value only grabs the last overload. All of that craziness ends up taking A | B | C and pulling out just one constituent, probably C. Then you have to push that onto the end of a tuple you're building up.

  • (The following is no longer true since microsoft/TypeScript#40002) The obvious solution results in circular type aliases, which are forbidden. You can use evil tricks to fool the compiler into not noticing your recursive type alias, but it is frowned upon. I've tried to do it and never have good results. So the only way to go here that doesn't explode the compiler is to pick a maximum finite tuple length that will work, say 10, and then unroll the normally recursive definition into that many nearly redundant lines.

So there you go. You can kind of do it, but don't do it. (And if you do do it, don't blame me if something explodes. 💣) Hope that helps. Good luck!

  • I've read about intersection interference trick. Compiler infers intersection type with contra-variant, so it should infer union with covarian, right? But this one doesn't make union from interssction type IntersectionToUnion<U> = (U extends any ? U[] : never) extends (infer I)[] ? I : never; Why? – Nail Achmedzhanov Mar 14 '19 at 7:20
  • 3
    Because conditional types distribute over unions, not intersections. Currently nothing in the language distributes over intersections. – jcalz Mar 14 '19 at 10:35
  • It might be bad but sometimes we need to convert type to tuple. Eg., third party library exposes union type for which i need a tuple to make some stuff in my app – JPS Apr 2 at 7:51
  • @JPS well I hope you won't blame me when crazy things happen! – jcalz Apr 2 at 22:03

I've sometimes faced a situation in which I want to derive type B from type A but find that either TS does not support it, or that doing the transformation results in code that's hard to follow. Sometimes, the choice of deriving B from A is arbitrary and I could just as well derive in the other direction. Here if you can start with your tuple, you can easily derive a type that covers all the values that the tuple accepts as elements:

type X = ["a", "b", "c"];

type AnyElementOf<T extends any[]> = T[number];

type AnyElementOfX = AnyElementOf<X>;

If you inspect the expansion of AnyElementOfX you'll get "a" | "b" | "c".

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