In lodash, the _.invert function inverts an object's keys and values:

var object = { 'a': 'x', 'b': 'y', 'c': 'z' };

// => { 'x': 'a', 'y': 'b', 'z': 'c' }

The lodash typings currently declare this to always return a stringstring mapping:

_.invert(object);  // type is _.Dictionary<string>

But sometimes, especially if you're using a const assertion, a more precise type would be appropriate:

const o = {
  a: 'x',
  b: 'y',
} as const;  // type is { readonly a: "x"; readonly b: "y"; }
_.invert(o);  // type is _.Dictionary<string>
              // but would ideally be { readonly x: "a", readonly y: "b" }

Is it possible to get the typings this precise? This declaration gets close:

declare function invert<
  K extends string | number | symbol,
  V extends string | number | symbol,
>(obj: Record<K, V>): {[k in V]: K};

invert(o);  // type is { x: "a" | "b"; y: "a" | "b"; }

The keys are right, but the values are the union of the input keys, i.e. you lose the specificity of the mapping. Is it possible to get this perfect?


You can do it using a more complicated mapped type that preserves the correct value:

const o = {
    a: 'x',
    b: 'y',
} as const;

type AllValues<T extends Record<PropertyKey, PropertyKey>> = {
    [P in keyof T]: { key: P, value: T[P] }
}[keyof T]
type InvertResult<T extends Record<PropertyKey, PropertyKey>> = {
    [P in AllValues<T>['value']]: Extract<AllValues<T>, { value: P }>['key']
declare function invert<
    T extends Record<PropertyKey, PropertyKey>
>(obj: T): InvertResult<T>;

let s = invert(o);  // type is { x: "a"; y: "b"; }

AllValues first creates a union that contains all key, value pairs (so for your example this will be { key: "a"; value: "x"; } | { key: "b"; value: "y"; }). In the mapped type we then map over all value types in the union and for each value we extract the original key using Extract. This will work well as long as there are no duplicate values (if there are duplicate values we will get a union of the keys wehere the value appears)

| improve this answer | |
  • Very clever! A union seems appropriate when there are duplicates since there's no guarantees about ordering. The only thing I don't like about this is that InvertResult always appears in the resulting type (on inspection, it shows up as InvertResult<{a: 'x', b: 'y'}> rather than { x: "a"; y: "b"; }). But the type is correct and behaves nicely in all the cases that I tried and this may be unavoidable. – danvk Jun 2 '19 at 16:20
  • @danvk adding {} & to InvertResult will expand the type in tooltips – Titian Cernicova-Dragomir Jun 2 '19 at 17:17
  • Is there any downside to doing that? – danvk Jun 2 '19 at 18:26
  • @danvk it works well in my experience have not had any issues with it – Titian Cernicova-Dragomir Jun 2 '19 at 20:56
  • 2
    If anyone cares, the most concise way I've found to do this is something like type Invert<M extends Record<keyof M, keyof any>> = { [K in M[keyof M]]: { [P in keyof M]: M[P] extends K ? P : never }[keyof M] }; – jcalz Aug 30 '19 at 15:48

The solution by Titian Cernicova-Dragomir is really cool. Today I found another alternative to swap object keys and values with Conditional Types:

type KeyFromValue<V, T extends Record<PropertyKey, PropertyKey>> = {
  [K in keyof T]: V extends T[K] ? K : never
}[keyof T];

type Invert<T extends Record<PropertyKey, PropertyKey>> = {
  [V in T[keyof T]]: KeyFromValue<V, T>

Test with const o:

const o = {
  a: "x",
  b: "y"
} as const;

// type Invert_o = {x: "a"; y: "b";}
type Invert_o = Invert<typeof o>;

// works
const t: Invert<typeof o> = { x: "a", y: "b" };
// Error: Type '"a1"' is not assignable to type '"a"'.
const t1: Invert<typeof o> = { x: "a1", y: "b" };

Declare the invert function in the same manner like above answer with Return type Invert<T>.


| improve this answer | |
  • 1
    Very Clever! Thanks for sharing @ford04! – Aidin Mar 25 at 0:35
  • To people with problem on non-PropertyKey values on this solution: In case you have non-PropertyKey values, like null, or an object, in the main object (e.g. const o = { a: "x", c: null } where null cannot become a key of an object) all you need is to change Record<PropertyKey, PropertyKey> to Record<Property, any> in both utility function above and it fixes the issue by removing non-PropertyKeys. Note that KeyFromValue will still work great and return the key. (e.g. KeyFromValue<null, typeof o> returns "c") – Aidin Mar 25 at 2:04

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