264

I've got the following class in TypeScript:

class CallbackTest
{
    public myCallback;

    public doWork(): void
    {
        //doing some work...
        this.myCallback(); //calling callback
    }
}

I am using the class like this:

var test = new CallbackTest();
test.myCallback = () => alert("done");
test.doWork();

The code works, so it displays a messagebox as expected.

My question is: Is there any type I can provide for my class field myCallback? Right now, the public field myCallback is of type any as shown above. How can I define the method signature of the callback? Or can I just set the type to some kind of callback-type? Or can I do nether of these? Do I have to use any (implicit/explicit)?

I tried something like this, but it did not work (compile-time error):

public myCallback: ();
// or:
public myCallback: function;

I couldn't find any explanation to this online, so I hope you can help me.

11 Answers 11

Reset to default
310

I just found something in the TypeScript language specification, it's fairly easy. I was pretty close.

the syntax is the following:

public myCallback: (name: type) => returntype;

In my example, it would be

class CallbackTest
{
    public myCallback: () => void;

    public doWork(): void
    {
        //doing some work...
        this.myCallback(); //calling callback
    }
}

As a type alias:

type MyCallback = (name: type) => returntype;
4
187

To go one step further, you could declare a type pointer to a function signature like:

interface myCallbackType { (myArgument: string): void }

and use it like this:

public myCallback : myCallbackType;
4
  • 10
    This is (IMO) a much better solution than the accepted answer, because it lets you define a type and then, say, pass a parameter of that type (the callback) which you can then use any way you want, including calling it. The accepted answer uses a member variable and you have to set the member variable to your function, then call a method - ugly and prone to errors, because setting the variable first is part of the contract of calling the method.
    – David
    Apr 17, 2015 at 13:05
  • It also lets you easily set the callback as nullable, e.g. let callback: myCallbackType|null = null;
    – Doches
    Oct 21, 2016 at 13:25
  • 3
    Note that TSLint would complain "TSLint: Interface has only a call signature — use type MyHandler = (myArgument: string) => void instead. (callable-types)"; see TSV's answer
    – Arjan
    Aug 1, 2017 at 9:40
  • 1
    The earlier draft of this answer actually solved the problem that led me to this question. I had been trying to define a permissive enough function signature within an interface that could accept any number of parameters without producing a compiler error. The answer in my case was to use ...args: any[]. Example: export interface MyInterface { /** A callback function. / callback: (...args: any[]) => any, /* Parameters for the callback function. */ callbackParams: any[] }
    – Ken Lyon
    Sep 19, 2017 at 17:53
73

You can declare a new type:

declare type MyHandler = (myArgument: string) => void;

var handler: MyHandler;

Update.

The declare keyword is not necessary. It should be used in the .d.ts files or in similar cases.

10
  • Where do I find the documentation for this?
    – E. Sundin
    Oct 12, 2016 at 16:47
  • @E.Sundin - Section "Type Aliases" of the typescriptlang.org/docs/handbook/advanced-types.html
    – TSV
    Oct 13, 2016 at 4:20
  • 1
    While true and nice to know, the same page (nowadays) also states "Because an ideal property of software is being open to extension, you should always use an interface over a type alias if possible."
    – Arjan
    Oct 17, 2016 at 13:03
  • @Arjan - I'm totally agree with this for objects. Could you please specify - how do you want to extend a function?
    – TSV
    Oct 18, 2016 at 6:41
  • Note that the type declaration is optional: var handler: (myArgument: string) => void is syntactically valid (if a bit messy).
    – Hutch
    May 26, 2017 at 20:32
45

Here is an example - accepting no parameters and returning nothing. 

class CallbackTest
{
    public myCallback: {(): void;};

    public doWork(): void
    {
        //doing some work...
        this.myCallback(); //calling callback
    }
}

var test = new CallbackTest();
test.myCallback = () => alert("done");
test.doWork();

If you want to accept a parameter, you can add that too:

public myCallback: {(msg: string): void;};

And if you want to return a value, you can add that also:

public myCallback: {(msg: string): number;};
4
  • Functionally they are identical - they define the same thing and give you type checking on the function signature. You can use whichever you prefer. The spec says they are exactly equivalent.
    – Fenton
    Oct 30, 2012 at 10:59
  • 6
    @nikeee: The question is rather what's different with your answer? Steve posted his answer before yours.
    – jgauffin
    Jun 23, 2014 at 18:37
  • @jgauffin Indeed, the result is the same. IMO the solution I posted is more natural when talking about callbacks, since Steve's version allows whole interface definitions. It depends on your preference.
    – nikeee
    Jun 23, 2014 at 21:45
  • @Fenton could you provide a link to that documentation please?
    – jcairney
    Dec 27, 2017 at 16:37
25

If you want a generic function you can use the following. Although it doesn't seem to be documented anywhere.

class CallbackTest {
  myCallback: Function;
}
0
8

You can use the following:

  1. Type Alias (using type keyword, aliasing a function literal)
  2. Interface
  3. Function Literal

Here is an example of how to use them:

type myCallbackType = (arg1: string, arg2: boolean) => number;

interface myCallbackInterface { (arg1: string, arg2: boolean): number };

class CallbackTest
{
    // ...

    public myCallback2: myCallbackType;
    public myCallback3: myCallbackInterface;
    public myCallback1: (arg1: string, arg2: boolean) => number;

    // ...

}
7

I'm a little late, but, since some time ago in TypeScript you can define the type of callback with 

type MyCallback = (KeyboardEvent) => void;

Example of use:

this.addEvent(document, "keydown", (e) => {
    if (e.keyCode === 1) {
      e.preventDefault();
    }
});

addEvent(element, eventName, callback: MyCallback) {
    element.addEventListener(eventName, callback, false);
}
1
  • That's indeed what the docs recommend, but if you do that, you can't pass a function that actually returns something. Typescript will complain. This makes using arrow function oneliners less convenient. Thoughts?
    – w00t
    Mar 3 at 17:46
3

Here is a simple example of how I define interfaces that include a callback.

// interface containing the callback

interface AmazingInput {
    name: string
    callback: (string) => void  //defining the callback
}

// method being called

public saySomethingAmazing(data:AmazingInput) {
   setTimeout (() => {
     data.callback(data.name + ' this is Amazing!');
   }, 1000)

}

// create a parameter, based on the interface

let input:AmazingInput = {
    name: 'Joe Soap'
    callback: (message) => {
        console.log ('amazing message is:' + message);
    }
}

// call the method, pass in the parameter

saySomethingAmazing(input);
1
  • 2
    In TypeScript you cannot define the type of a function parameter without its name. You cannot do (string) => void. It would have to be something like (param: string) => void or (_:string) => void. The syntax you used is valid in other languages like Dart though.
    – Javi Marzán
    Jun 24, 2021 at 9:43
2

I came across the same error when trying to add the callback to an event listener. Strangely, setting the callback type to EventListener solved it. It looks more elegant than defining a whole function signature as a type, but I'm not sure if this is the correct way to do this.

class driving {
    // the answer from this post - this works
    // private callback: () => void; 

    // this also works!
    private callback:EventListener;

    constructor(){
        this.callback = () => this.startJump();
        window.addEventListener("keydown", this.callback);
    }

    startJump():void {
        console.log("jump!");
        window.removeEventListener("keydown", this.callback);
    }
}
1
  • like it. But where is the other class in action?
    – Yaro
    Mar 14, 2018 at 0:41
0

This question has answers where everyone have defined types or interfaces. I have defined function with typescript without defining a type.

You can define a function with callback type parameter like below. You can define multiple return values in the type here itself and return multiple data in completion separating with comma and use the same from where you are calling the function.

functionWithCallback = (completion: (returnData: any, someMoreData: any) => void) => {
    completion(["A", "B"], 5);
}

And you can call it like below.

functionWithCallback((returnData: any, someMoreData: any) => {
    //you can use all the data returned from the function here
}

Hope this helps some people.

-2

This is an example of optional callback function for angular component and service

    maincomponent(){
        const param = "xyz";
       this.service.mainServie(param, (response)=>{
        if(response){console.log("true");}
        else{console.log("false");}
      })
    }

//Service Component
    mainService(param: string, callback?){
      if(string === "xyz"){
        //call restApi 
        callback(true);
      }
    else{
        callback(false);
      }
    }
1
  • Your example focuses on 99.99% JavaScript, not TypeScript. There is not type attached to your callback argument besides declaring it as possibly undefined (by suffixing ?: callback?). So your callback's type is any | undefined.
    – Paul-Sebastian Manole
    Jun 25, 2021 at 17:49

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