The new ReturnType in TypeScript 2.8 is a really useful feature that lets you extract the return type of a particular function.

function foo(e: number): number {
    return e;

type fooReturn = ReturnType<typeof foo>; // number

However, I'm having trouble using it in the context of generic functions.

function foo<T>(e: T): T {
    return e;

type fooReturn = ReturnType<typeof foo>; // type fooReturn = {}

type fooReturn = ReturnType<typeof foo<number>>; // syntax error

type fooReturn = ReturnType<(typeof foo)<number>>; // syntax error

Is there a way extract the return type that a generic function would have given particular type parameters?


7 Answers 7


This is my currently working solution for extracting un-exported internal types of imported libraries (like knex):

// foo is an imported function that I have no control over
function foo<T>(e: T): InternalType<T> {
    return e;

class Wrapper<T> {
  // wrapped has no explicit return type so we can infer it
  wrapped(e: T) {
    return foo<T>(e)

type FooInternalType<T> = ReturnType<Wrapper<T>['wrapped']>
type Y = FooInternalType<number>
// Y === InternalType<number>
  • 3
    BTW it works if we replace an interface with a class. Thx for the idea
    – faiwer
    Jan 22, 2021 at 9:27
  • 1
    Oops! Thanks for calling the mistake out.
    – Colin
    Feb 11, 2021 at 1:09
  • 5
    This worked beautifully to type the result of useFormik with the generic parameter intact. Dec 10, 2021 at 23:09
  • 3
    I want to share my code for a generic formik hook return type as @SørenBoisen noted import { FormikConfig, FormikValues, useFormik } from 'formik'; class WrappedFormik<Values extends FormikValues = FormikValues> { formik(config: FormikConfig<Values>) { return useFormik<Values>(config); } } type Formik<V extends FormikValues = FormikValues> = ReturnType<WrappedFormik<V>['formik']>; Mar 14, 2022 at 14:38

This was previously impossible to do in a purely generic fashion, but will be in Typescript 4.7. The pattern is called an "Instantiation Expression". The relevant PR is here. Excerpt from the description:

function makeBox<T>(value: T) {
  return { value };

const makeStringBox = makeBox<string>;  // (value: string) => { value: string }
const stringBox = makeStringBox('abc');  // { value: string }

const ErrorMap = Map<string, Error>;  // new () => Map<string, Error>
const errorMap = new ErrorMap();  // Map<string, Error> ```


A particularly useful pattern is to create generic type aliases for applications of typeof that reference type parameters in type instantiation expressions:

type BoxFunc<T> = typeof makeBox<T>;  // (value: T) => { value: T }
type Box<T> = ReturnType<typeof makeBox<T>>;  // { value: T }
type StringBox = Box<string>;  // { value: string }
  • 2
    I just switched to typescript 4.8 to be able to use this, but it still doesn't appear to work. I'm using react-navigation and am trying to do type Stack<T extends Record<string, object|undefined>> = ReturnType<typeof createStackNavigator<T>>. This yields an error though saying "Unexpected token, expected ','" at the <T> right after createStackNavigator. Doesn't seem to like that syntax.
    – stuckj
    Oct 14, 2022 at 21:05
  • I'm not terribly familiar with react native, but most likely if you're using a tool like expo, its cli is using some other version of typescript. github.com/… Oct 14, 2022 at 22:03
  • According to yarn why at least there's only one version: yarn why v1.22.17 [1/4] 🤔 Why do we have the module "typescript"...? [2/4] 🚚 Initialising dependency graph... [3/4] 🔍 Finding dependency... [4/4] 🚡 Calculating file sizes... => Found "[email protected]" info Has been hoisted to "typescript" info This module exists because it's specified in "devDependencies". info Disk size without dependencies: "68.92MB" info Disk size with unique dependencies: "68.92MB" info Disk size with transitive dependencies: "68.92MB" info Number of shared dependencies: 0 ✨ Done in 1.02s.
    – stuckj
    Oct 17, 2022 at 16:20
  • 2
    Possibly a conflict with the JSX parser, then. See stackoverflow.com/questions/32696475/… Oct 17, 2022 at 20:18
  • Good call. It was a JSX parser conflict. To fix it I made a non-generic function that just called the generic function and found the type of that. E.g., const crapFunction = () => createStackNavigator<SomeParamList>(). Then, set type StackType = ReturnType<typeof crapFunction>. StackType will then be the type you want.
    – stuckj
    Feb 24, 2023 at 20:50

If you want to get some special generic type, You can use a fake function to wrap it.

const wrapperFoo = () => foo<number>()
type Return = ReturnType<typeof wrapperFoo>

More complex demo

function getList<T>(): {
  list: T[],
  add: (v: T) => void,
  remove: (v: T) => void,
  // ...blahblah
const wrapperGetList = () => getList<number>()
type List = ReturnType<typeof wrapperGetList>
// List = {list: number[], add: (v: number) => void, remove: (v: number) => void, ...blahblah}
  • Also you can use this technique in generic function. function foobar<T> { const wrapperGetList = () => getList<T>(); type List = ReturnType<typeof wrapperGetList>; ... }
    – ypresto
    Nov 26, 2020 at 11:33
  • 1
    great solution! encountered same problem with react hook useFormik from formik library i needed to pass typed formik instance as prop to another component. This solution worked: const useWrappedFormikForTypes = (...args: any) => useFormik<MyFormValuesType>(args); export type TypedFormikInstance = ReturnType<typeof useWrappedFormikForTypes> Nov 11, 2021 at 18:03

I found a good and easy way to achieve this if you can change the function definition. In my case, I needed to use the typescript type Parameters with a generic function, precisely I was trying Parameters<typeof foo<T>> and effectively it doesn't work. So the best way to achieve this is changing the function definition by an interface function definition, this also will work with the typescript type ReturnType.

Here an example following the case described by the OP:

function foo<T>(e: T): T {
   return e;

type fooReturn = ReturnType<typeof foo<number>>; // Damn! it throws error

// BUT if you try defining your function as an interface like this:

interface foo<T>{
   (e: T): T

type fooReturn = ReturnType<foo<number>> //it's number, It works!!!
type fooParams = Parameters<foo<string>> //it also works!! it is [string]

//and you can use the interface in this way
const myfoo: foo<number> = (asd: number) => {
    return asd;

  • I think foo should also be directly callable. foo(e) will be error Oct 16, 2021 at 0:45
  • 4
    This completely defeats the purpose. The entire reason for using ReturnType is so that you can derive the return type from a function WITHOUT having to declare an interface that completely duplicates the type. Sure, it works for number, but when foo returns an object, you don't want to have to create an interface for the complex type. Nov 30, 2021 at 6:26

I found a solution. You decide if it fits your needs :)

Declare your function args and return type using a interface

interface Foo<T, V> {
  (t: T, v: V): [T, V]

Implement your function this way using Parameters and ReturnType

function foo<T, V>(...[t, v]: Parameters<Foo<T, V>>): ReturnType<Foo<T, V>> {
  return [t, v]; // [T, V]

Call your function normally, or get return type using ReturnType

foo(1, 'a') // [number, string]
type Test = ReturnType<Foo<number, number>> // [number, number]
const wrapperFoo = (process.env.NODE_ENV === 'typescript_helper' ? foo<number>(1) : undefined)!
type Return = typeof wrapperFoo

TypeScript Playground

Here's another use case where there is some default type which is not exported.

// Not exported
interface Unaccessible1 {
    z: number
    x: string

function foo1<T extends Unaccessible1>(e: T): T {
    return e;

const wrapperFoo1 = (process.env.NODE_ENV === 'typescript_helper' ? foo1.apply(0, 0 as any) : undefined)!
type ReturnFoo1 = typeof wrapperFoo1 // Unaccessible1

interface Unaccessible2 {
    y: number
    c: string

function foo2<T extends Unaccessible2>(e: T, arg2: number, arg3: string, arg4: Function): T {
    return e;

const wrapperFoo2 = (process.env.NODE_ENV === 'typescript_helper' ? foo2.apply(0, 0 as any) : undefined)!
type ReturnFoo2 = typeof wrapperFoo2 // Unaccessible2

TypeScript Playground

  • 1
    This is EXECUTING the function with a hardcoded type and then inferring that type based on the hardcoded value. It doesn't derive anything at all. type Return = number; would yield the same type result. But this would need to fill in dummy values for any parameters of foo and just live with any side effects it may cause. If foo is db.query, and your dummy value is 'DROP TABLE Students;'... Nov 30, 2021 at 6:30
  • @EricHaynes when answering my use case was to extract a default type which wasn't exported by some library. Updated my answer to reflect that. I updated the NODE_ENV to be a value which clearly reflects the reason for this code and will most probably never execute. And for the dummy values in the second example I'm using apply. Mar 21, 2022 at 14:14

TypeScript compiler does not see typeof foo as generic type. I'd say it's a bug in the compiler.

However, TypeScript has callable interfaces which can be generic without any problems, so if you introduce a callable interface compatible with the signature of your function, you can implement your own equivalent of ReturnType like this:

function foo<T>(x: T): T {
  return x;

interface Callable<R> {
  (...args: any[]): R;

type GenericReturnType<R, X> = X extends Callable<R> ? R : never;

type N = GenericReturnType<number, typeof foo>; // number
  • 71
    The example is pretty useless. You need to know the return type to use GenericReturnType to get the return type.
    – Bryan Chen
    Oct 27, 2019 at 9:37
  • This is not a good solution because it assumes the function at hand has just one generic type May 30, 2021 at 10:02
  • 1
    Weird that a comment calling it useless has 64 upvotes and the answer has practically no downvotes. It's a convoluted mess that can only return a type that's passed in. type N = number; would be exactly the same without all the back and forth. Nov 30, 2021 at 6:40

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