The typescript handbook currently has nothing on arrow functions. Normal functions can be generically typed with this syntax: example:

function identity<T>(arg: T): T {
    return arg;

What is the syntax for arrow functions?


The full example explaining the syntax referenced by Robin... brought it home for me:

Generic functions

Something like the following works fine:

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

However using an arrow generic function will not:

const foo = <T>(x: T) => x; // ERROR : unclosed `T` tag

Workaround: Use extends on the generic parameter to hint the compiler that it's a generic, e.g.:

const foo = <T extends unknown>(x: T) => x;
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    would it be possible to declare some predefined generic type for const foo? i.e. type GenericFun<T, A=T> = (payload: A) => T; then make const foo: GenericFun still generic without providing a T type? – ciekawy Feb 28 '18 at 1:04
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    Your second example is only an error in a .tsx file (TypeScript + JSX). In a .ts file it works fine, as you can see on the TypeScript playground. – danvk Jan 17 '19 at 13:53
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    Newer typescript compilers also support trailing comma const foo = <T,>(x: T) => x; to sidestep the JSX ambiguity. – Thomas May 21 '19 at 16:54
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    @danvk Worth noting this only holds true for those who have forbidden JSX in TS files - if a project is configured to allow JSX in TS files you'll still need the "extends" or the trailing comma – Matt Nov 19 '19 at 21:24
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    So is this the takeaway: "use .ts instead of .tsx extensions"? – Isaac Pak Jun 26 at 20:52

I found the example above confusing. I am using React and JSX so I think it complicated the scenario.

I got clarification from TypeScript Deep Dive, which states for arrow generics:

Workaround: Use extends on the generic parameter to hint the compiler that it's a generic, this came from a simpler example that helped me.

    const identity = < T extends {} >(arg: T): T => { return arg; }
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If you're in a .tsx file you cannot just write <T>, but this works:

const foo = <T, >(x: T) => x;

As opposed to the extends {} hack, this hack at least preserves the intent.

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  • Do they plan to fix this behavior? – Alexander Kim Mar 26 at 7:20
  • I guess there is not much that could be done about this... the JSX and Typescript generic syntaxes just clash here.. – mb21 Mar 29 at 12:53
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    Fantastic - this is by far the best answer: works perfectly and doesn't alter the behaviour at all! – Geoff Davids Apr 26 at 22:02
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    What about default type parameter type? const foo = <T = any,>(x: T) => x doesn't work... – Mikhail Vasin May 31 at 21:40

The language specification says on p.64f

A construct of the form < T > ( ... ) => { ... } could be parsed as an arrow function expression with a type parameter or a type assertion applied to an arrow function with no type parameter. It is resolved as the former[..]


// helper function needed because Backbone-couchdb's sync does not return a jqxhr
let fetched = <
           R extends Backbone.Collection<any> >(c:R) => {
               return new Promise(function (fulfill, reject) {
                   c.fetch({reset: true, success: fulfill, error: reject})
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This works for me

const Generic = <T> (value: T) => {
    return value;
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while the popular answer with extends {} works and is better than extends any, it forces the T to be an object

const foo = <T extends {}>(x: T) => x;

to avoid this and preserve the type-safety, you can use extends unknown instead

const foo = <T extends unknown>(x: T) => x;
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so late, but with ES6 no need extends it still work for me.... :)

let getArray = <T>(items: T[]): T[] => {
    return new Array<T>().concat(items)

let myNumArr = getArray<number>([100, 200, 300]);
let myStrArr = getArray<string>(["Hello", "World"]);
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  • This does not work for me, I have to add a comma like so: <T, >. as described in @Thomas comment under @jbmilgrom' answer – apollo Jun 7 at 21:40
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    You should read the other solutions before posting one. Your solution has already been posted with explanation. It works only inside of a .ts file, not a .tsx file. – Isaac Pak Jun 26 at 20:55

I to use this type of declaration:

const identity: { <T>(arg: T): T } = (arg) => arg;

It allows defining additional props to your function if you ever need to and in some cases, it helps keeping the function body cleaner from the generic definition.

If you don't need the additional props (namespace sort of thing), it can be simplified to:

const identity: <T>(arg: T) => T = (arg) => arg;
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In case you'd like to do it with async:

const request = async <T>(param1: string, param2: number) => {
  const res = await func();
  return res.response() as T;

And a more complex pattern, in case you'd like to wrap your function inside a generic counterpart, such as memoization (Example uses fast-memoize):

const request = memoize(
  async <T>(
    url: string,
    token?: string
  ) => {
    // Perform your code here

See how you define the generic after the memoizing function.

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