TS types: Convert arrays of keys and array of values to object

Question

I'm trying to create a type that takes two lists as an input:

Keys: ["foo", "bar", "baz"]
Values: [50, number, "abc"]

to, then, output the following object composed from their keys and values:

{
    foo: 50,
    bar: number,
    baz: "abc"
}

type UnionToIntersection<T> = (T extends object ? (k: T) => void : never) extends (k: infer U) => void ? U : never;

type KeyValuePairsFromLists<
    Keys extends Array<string | number>,
    Values extends Array<any>
> = {
    [index in keyof Keys]: index extends keyof Values
        ? [Keys[index], Values[index]]
        : never;
};
type ObjectFromKeyValuePairs<
    KV extends Array<[string | number, any]>,
    T = {
        [index in keyof KV]: KV[index] extends [string | number, any]
            ? Record<KV[index][0], KV[index][1]>
            : never;
    }
> = UnionToIntersection<T[keyof T]>;

type ObjectFromKeyValueArrays<
    Keys extends Array<string | number>,
    Values extends Array<any>
> = ObjectFromKeyValuePairs<KeyValuePairsFromLists<Keys, Values>>;

const myObj = {} as ObjectFromKeyValueArrays<
    ["foo", "bar"],
    [5,     "bar"]
>;

type foo = typeof myObj.foo // 5
type bar = typeof myObj.bar // string

The way I'm doing it now is by converting the arrays into key/value pairs, then mapping them to a union of objects with a single key, and converting that to an intersection to get the final object.

Is there some better way of achieving this? Am I doing this wrong?

Answer 1

Solution:

type Length<T extends ReadonlyArray<any>> = T extends { length: infer L }
  ? L
  : never;

// I believe we should check first if length of arrays is equal:

type CompareLength<
  X extends ReadonlyArray<any>,
  Y extends ReadonlyArray<any>
  > = Length<X> extends Length<Y> ? true : false;

/**
 * Let's operate on primitives 
 */
type Keys = string | number | symbol;

type Mapper<T, U> = T extends Keys ? U extends Keys ? Record<T, U> : never : never;

type AllowedKeys<T> = T extends readonly Keys[] ? T : never;

/**
 * Recursive iteration through two arrays
 */
type Zip<T extends ReadonlyArray<Keys>, U extends ReadonlyArray<Keys>, Result extends Record<string, any> = {}> =
  CompareLength<T, U> extends true
  ? T extends []
  ? Result :
  T extends [infer HeadT1]
  ? U extends [infer HeadU1]
  ? Result & Mapper<HeadT1, HeadU1> : never :
  T extends [infer HeadT2, ...infer TailT2]
  ? U extends [infer HeadU2, ...infer TailU2]
  ? Zip<AllowedKeys<TailT2>, AllowedKeys<TailU2>, Result & Mapper<HeadT2, HeadU2>>
  : never
  : never
  : never;

/**
 * Apply Zip only if arrays length is equal, otherwise return never
 */
type Zipper<T extends ReadonlyArray<Keys>, U extends ReadonlyArray<Keys>> =
  CompareLength<T, U> extends true ? Zip<T, U> : never;

type Z = Zipper<["foo", "bar"], [5, "bar"]>;

type Test = Zipper<["foo", "bar"], [5, "bar", 2]>; // never, length is not equal

// Record<"foo", 5> & Record<"bar", "bar">
const zip: Z = {
  foo: 5,
  bar: 'bar'
} // ok

Playground

You can find more information about generic iteration through tuples in my blog

Am I doing this wrong?

I would say that your approach is ok but a little bit unsafe because it does not compile and you are forced to use as operator (type casting):

/**
 * Record<"foo", 5> & Record<"bar", "bar"> 
 * & (() => string) & (() => string) 
 * & (() => Record<"foo", 5> | Record<"bar", "bar"> | undefined) 
 * & ((...items: (Record<"foo", 5> | Record<...>)[]) => number) 
 * & ... 24 more ... & ((searchElement: Record<...> | Record<...>, fromIndex?: number | undefined) => boolean)
 */
type Check = ObjectFromKeyValueArrays<
    ["foo", "bar"],
    [5,     "bar"]
>; 

// Does not compile
const myObj:ObjectFromKeyValueArrays<
    ["foo", "bar"],
    [5,     "bar"]
> = {
  foo:5,
  bar:'bar'
} 

Please keep in mind, if you are using type casting, it is 50% that you did smth wrong.