With a union of array types (NOT an array of unions, e.g. Foo[] | Bar[]
, not (Foo|Bar)[]
), is it possible to call something like Array.prototype.map on the union to the effect of safely mapping each union variant to a new value with the SAME TYPE (e.g. same variant, but perhaps changing some fields, etc).
Here is an example:
type HomogenousLetters = 'a'[] | 'b'[];
const array: HomogenousLetters = ['a', 'a', 'a'] as HomogenousLetters;
Now, suppose we wanted to map between this array and one of the same union variant.
We might want to call Array.prototype.map
, but this fails to compile in even a trivial case.
// ERROR: Type '("a" | "b")[]' is not assignable to type '"a"[] | "b"[]'.
const mappedArray: HomogenousLetters = array.map((letter) => letter);
I understand this is reasonable behaviour - the type signature of Array.prototype.map() gives no guarantee that homogenous inputs give homogenous outputs (i.e. that each "letter" in array will be of the same union variant), but in that case, how COULD we ensure this?
(a|b)[]
because that's the best that can be done in this situation. What you are looking for is runtime type-inference, which although possible to some extent (using type guards), it is just not feasible in this case to make such an assertion("a" | "b")[]
isn't so much unsafe as much as it is incomplete. Really you want the compiler to be "smarter", not safer. And it pretty much can't be here, without some sort of distributive control flow analysis, and TS doesn't support that. I think nothing you do will be better thanconst mappedArray = array.map(<T,>(letter: T) => letter) as HomogenousLetters;
, where you take the narrowing job away from the relatively inept compiler.