36

Is it possible to use a union type as a key in an interface? For example, I want to do something like this:

interface IMargin {
  [key in 'foo' | 'bar']: boolean;
}

But I'm getting this error:

A computed property name in an interface must refer to an expression whose type is a literal type or a 'unique symbol' type.ts(1169)

Is there any way around this?

The use case is turning an array of values into an interface:

const possibleTypes = ['foo', 'bar'];
interface Types {
    foo?: boolean;
    bar?: boolean;
}
1

4 Answers 4

48

You can use an object type instead of an interface, which are mostly interchangeable:

type IMargin = {
    [key in 'foo' | 'bar']: boolean;
}
2
  • This is helpful, thanks -- adopting type instead of interface gets me part of the way there. As you can see in my comment on Titian's answer, though, I'm still stuck generating the union type from the array. Mar 6, 2019 at 14:10
  • 1
    I get A computed property name in an interface must refer to an expression whose type is a literal type or a 'unique symbol' type.ts(1169)
    – raphisama
    Oct 16, 2020 at 3:51
9

This is not necessarily an answer, but I think this may interest others.

You can use a Union Type as a key in a sub-property of an Interface.

export type Language = 'EN' | 'DE' | 'IT';

export interface Document {
  generic: string;
  languages: {
    [key in Language]: string[];
  }
}
3
  • 2
    It's treated like using the type keyword. If you used type instead of interface you'd be permitted to do it there too.
    – Kevin Beal
    Apr 30, 2021 at 17:18
  • but what in case, I don't want to specify all languages? With that, right now, all languages are required. How to ensure that key simply belongs to specified keys, without requiring them all?
    – noisy
    Jun 1, 2022 at 7:43
  • Hello @noisy, i know its an old comment, but did you get a workaround to get just one of the languages as a single key, instead of multiple possible keys ? Jan 25 at 20:30
5

Interfaces do not support mapped types (which is what you are looing for here). You can use a type alias, for most uses it should work the same (not all cases but if the types are known you can implement the type alias just as you would the interface).

const possibleTypes = (<T extends string[]>(...o: T) => o)('foo', 'bar');
type Types = Record<typeof possibleTypes[number], boolean>

The mapped type Record should work will here

11
  • Hey, thank you for your answer. That works fine, as long as you pass in ('foo', 'bar') directly. However, it doesn't work when you pass in (...['foo', 'bar']). Is there any way to fix this? The use case here is generating a type or interface from an array. Mar 6, 2019 at 14:06
  • @ElliotBonneville you mean to the IIFE in possibleTypes? The idea is that the array should be of a literal type that is either typed as the tuple ['foo', 'bar'] or the array Array<'foo' | 'bar'>. If you have that array correctly typed you can just use that without the IIFE. Otherwise you either need to type assert it to something that is of one of the types above. If it's just a syntactic preference to use an array you can go with const possibleTypes = (<T extends string>(o: T[]) => o)(['foo', 'bar']); but I like the original version better :) Mar 6, 2019 at 14:11
  • @ElliotBonneville the (...['foo', 'bar']) does not work, this a limitation of ts. The array literal will be inferred to string[] before the spread operation and thus the literal types are lost Mar 6, 2019 at 14:14
  • Ah, I see. That helps more, and we're getting there! I'm still getting stuck though pulling this into my actual use case. I have a feeling the string literal type is getting lost in translation somewhere. Here's what I'm trying to accomplish: stackblitz.com/edit/typescript-dftj9c Mar 6, 2019 at 14:28
  • @ElliotBonneville that is a horse of a different color .. you can't create string literal types from concatenations unfortunately. Your types are getting lost anyway because the parameters are types as string[] which can be solved with generics. But you still could not generate prefix1_a as a string literal type in the type system currently. Mar 6, 2019 at 14:36
2

convert possible types to enum convert interface to type since An index signature parameter type cannot be a literal type or generic type. Consider using a mapped object type instead

enum possibleTypes { 'foo', 'bar' };
type Types {
    [key in keyof typeof possibleTypes]: boolean
}

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