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How do I write a class that implements this TypeScript interface (and keeps the TypeScript compiler happy):

interface MyInterface {
    (): string;
    text2(content: string);

I saw this related answer: How to make a class implement a call signature in Typescript?

But that only works if the interface only has the bare function signature. It doesn't work if you have additional members (such as function text2) to be implemented.

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Short answer is "classes can't match that interface" mentioned in the question you linked stackoverflow.com/a/12770145/390330 –  basarat May 12 '13 at 14:52

2 Answers 2

up vote 3 down vote accepted

A class cannot implement everything that is available in a typescript interface. Two prime examples are callable signatures and index operations e.g. : Implement an indexible interface

The reason is that an interface is primarily designed to describe anything that JavaScript objects can do. Therefore it needs to be really robust. A TypeScript class however is designed to represent specifically the prototype inheritance in a more OO conventional / easy to understand / easy to type way.

You can still create an object that follows that interface:

interface MyInterface {
    (): string;
    text2(content: string);

var MyType = ((): MyInterface=>{
  var x:any = function():string { // Notice the any 
      return "Some string"; // Dummy implementation 
  x.text2 = function(content:string){
      console.log(content); // Dummy implementation 
  return x;
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Thanks BASarat! That works well. –  user1147862 May 13 '13 at 9:59

Here's an elaboration on the accepted answer.

As far as I know, the only way to implement a call-signature is to use a function/method. To implement the remaining members, just define them on this function. This might seem strange to developers coming from C# or Java, but I think it's normal in JavaScript.

In JavaScript, this would be simple because you can just define the function and then add the members. However, TypeScript's type system doesn't allow this because, in this example, Function doesn't define a text2 member.

So to achieve the result you want, you need to bypass the type system while you define the members on the function, and then you can cast the result to the interface type:

//A closure is used here to encapsulate the temporary untyped variable, "result".
var implementation = (() => {
    //"any" type specified to bypass type system for next statement.
    //Defines the implementation of the call signature.
    var result: any = () => "Hello";

    //Defines the implementation of the other member.
    result.text2 = (content: string) => { };

    //Converts the temporary variable to the interface type.
    return <MyInterface>result;
})(); //Invokes the closure to produce the implementation

Note that you don't need to use a closure. You could just declare your temporary variable in the same scope as the resulting interface implementation. Another option is to name the closure function to improve readability.

Here's what I think is a more realistic example:

interface TextRetriever {
    (): string;
    Replace(text: string);

function makeInMemoryTextRetriever(initialText: string) {
    var currentText = initialText;
    var instance: any = () => currentText;
    instance.Replace = (newText: string) => currentText = newText;

    return <TextRetriever>instance;

var inMemoryTextRetriever = makeInMemoryTextRetriever("Hello");
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