In TypeScript, I can declare a parameter of a function as a type Function. Is there a "type-safe" way of doing this that I am missing? For example, consider this:

class Foo {
    save(callback: Function) : void {
        //Do the save
        var result : number = 42; //We get a number from the save operation
        //Can I at compile-time ensure the callback accepts a single parameter of type number somehow?

var foo = new Foo();
var callback = (result: string) : void => {

The save callback is not type safe, I am giving it a callback function where the function's parameter is a string but I am passing it a number, and compiles with no errors. Can I make the result parameter in save a type-safe function?

TL;DR version: is there an equivalent of a .NET delegate in TypeScript?



class Foo {
    save(callback: (n: number) => any) : void {
var foo = new Foo();

var strCallback = (result: string) : void => {
var numCallback = (result: number) : void => {

foo.save(strCallback); // not OK
foo.save(numCallback); // OK

If you want, you can define a type to encapsulate this:

type NumberCallback = (n: number) => any;

class Foo {
    // Equivalent
    save(callback: NumberCallback) : void {
  • 5
    (n: number) => any means any function signature? – nikk wong Feb 17 '16 at 22:08
  • 11
    @nikkwong it means the function takes one parameter (a number) but the return type is not restricted at all (could be any value, or even void) – Daniel Earwicker Mar 4 '16 at 21:00
  • 8
    What is the point of n in this syntax? Wouldn't the input and output types alone be sufficient? – Yuhuan Jiang Mar 7 '17 at 6:25
  • So, union types will does works? save(callback: (n: number) => any | string) : void { callback(42); } – iuristona Mar 14 '17 at 18:52
  • 2
    One side effect between using inline functions vs named functions (answer below vs this answer) is the "this" variable is undefined with the named function whereas it is defined within the inline function. No surprise for JavaScript coders but definitely not obvious to other coding backgrounds. – Stevko Nov 30 '17 at 17:40

Here are TypeScript equivalents of some common .NET delegates:

interface Action<T>
    (item: T): void;

interface Func<T,TResult>
    (item: T): TResult;
  • 1
    Probably useful to look at but it would be an anti-pattern to actually use such types. Anyway those look more like Java SAM types than C# delegates. Of course they aren't and they are equivalent to the type alias form which is just more elegant for functions – Aluan Haddad Apr 24 '17 at 20:28
  • 5
    @AluanHaddad could you elaborate on why you would think this an anti- pattern? – Max R McCarty May 11 '17 at 15:58
  • 7
    The reason is TypeScript has a concise function type literal syntax that obviates the need for such interfaces. In C# delegates are nominal, but the Action and Func delegates both obviate most of the need for specific delegate types and, interestingly, give C# a of semblance of structural typing. The downside to these delegates is that their names convey no meaning but the other advantages generally outweigh this. In TypeScript we simply don't need these types. So the anti-pattern would be function map<T, U>(xs: T[], f: Func<T, U>). Prefer function map<T, U>(xs: T[], f: (x: T) => U) – Aluan Haddad May 11 '17 at 17:05
  • 3
    It's a matter of taste, as these are equivalent forms in a language that doesn't have run-time types. Nowadays you can also use type aliases instead of interfaces. – Drew Noakes May 16 '17 at 11:18

I realize this post is old, but there's a more compact approach that is slightly different than what was asked, but may be a very helpful alternative. You can essentially declare the function in-line when calling the method (Foo's save() in this case). It would look something like this:

class Foo {
    save(callback: (n: number) => any) : void {

    multipleCallbacks(firstCallback: (s: string) => void, secondCallback: (b: boolean) => boolean): void {
        firstCallback("hello world")

        let result: boolean = secondCallback(true)
        console.log("Resulting boolean: " + result)

var foo = new Foo()

// Single callback example.
// Just like with @RyanCavanaugh's approach, ensure the parameter(s) and return
// types match the declared types above in the `save()` method definition.
foo.save((newNumber: number) => {
    console.log("Some number: " + newNumber)

    // This is optional, since "any" is the declared return type.
    return newNumber

// Multiple callbacks example.
// Each call is on a separate line for clarity.
// Note that `firstCallback()` has a void return type, while the second is boolean.
    (s: string) => {
         console.log("Some string: " + s)
    (b: boolean) => {
        console.log("Some boolean: " + b)
        let result = b && false

        return result

The multipleCallback() approach is very useful for things like network calls that may succeed or fail. Again assuming a network call example, when multipleCallbacks() is called, behavior for both a success and failure can be defined in one spot, which lends itself to greater clarity for future code readers.

Generally, in my experience, this approach lends itself to being more concise, less clutter, and greater clarity overall.

Good luck all!

type FunctionName = (n: inputType) => any;

class ClassName {
    save(callback: FunctionName) : void {

This surely aligns with the functional programming paradigm.

  • 5
    You should call it inputType rather than returnType, shouldn't you? Where inputType is the type of data which you pass a parameter to the callback function. – ChrisW Nov 29 '18 at 6:23

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