Section 6.3 of the TypeScript language spec talks about function overloading and gives concrete examples on how to implement this. However if I try something like this:

export class LayerFactory { 

    constructor (public styleFactory: Symbology.StyleFactory) { }

    createFeatureLayer (userContext : Model.UserContext, mapWrapperObj : MapWrapperBase) : any {           
         throw "not implemented";

    createFeatureLayer(layerName : string, style : any) : any {
        throw "not implemented";


I get a compiler error indicating duplicate identifier even though function parameters are of different types. Even if I add an additional parameter to the second createFeatureLayer function, I still get a compiler error. Ideas, please.


This may be because, when both functions are compiled to JavaScript, their signature is totally identical. As JavaScript doesn't have types, we end up creating two functions taking same number of arguments. So, TypeScript restricts us from creating such functions.

TypeScript supports overloading based on number of parameters, but the steps to be followed are a bit different if we compare to OO languages. In answer to another SO question, someone explained it with a nice example: Method overloading?.

Basically, what we are doing is, we are creating just one function and a number of declarations so that TypeScript doesn't give compile errors. When this code is compiled to JavaScript, the concrete function alone will be visible. As a JavaScript function can be called by passing multiple arguments, it just works.

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    The language could be amended to support this. In theory, one could generate function implementations that are named apart and called by compiled TypeScript (e.g. createFeatureLayer_1 and createFeatureLayer_2) and createFeatureLayer could then determine which one to call based upon the contents of arguments for interoperation with vanilla JavaScript. – Thomas S. Trias May 19 '14 at 18:27
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    You word it as if overloading in TypeScript is only possible based on the number of parameters, while overloading based on type is also possible as shown in Steve Fenton's answer. – Matthijs Wessels Sep 18 '14 at 10:40
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    This is kind of lame; TypeScript should really be generating the "meta function" that chooses the uniquely named implementation appropriately based on what it was passed. How it is now there is a rift where you could pass the compiler but your implementation of the type sniffing could be incorrect. – Ezekiel Victor Feb 26 '16 at 0:37
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    @EzekielVictor TypeScript would do it if there was a reliable way of checking types at run time. – thorn̈ Mar 14 '16 at 23:04
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    That's even more complicated, it's doable with JavaScript's types, but TS-specific notions like interfaces, types, enums, generics, etc, are lost at runtime. That's also why you can't do someObject instanceof ISomeInterfaceDefinedInTypeScript. – Morgan Touverey Quilling Feb 17 '17 at 13:06

When you overload in TypeScript, you only have one implementation with multiple signatures.

class Foo {
    myMethod(a: string);
    myMethod(a: number);
    myMethod(a: number, b: string);
    myMethod(a: any, b?: string) {

Only the three overloads are recognized by TypeScript as possible signatures for a method call, not the actual implementation.

In your case, I would personally use two methods with different names as there isn't enough commonality in the parameters, which makes it likely the method body will need to have lots of "ifs" to decide what to do.

TypeScript 1.4

As of TypeScript 1.4, you can typically remove the need for an overload using a union type. The above example can be better expressed using:

myMethod(a: string | number, b?: string) {

The type of a is "either string or number".

  • Great answer. I'd just like to highlight that, this might not be helpful when one is trying to overload for reasons such as: I would like to have an instance, where using the same constructor, I can pass an object defining all expected properties and in the one instance, pass individual params: class Foo { constructor(obj) { } constructor (a: number, b: string, c: boolean) {} } – Hlawuleka MAS Jan 5 '18 at 11:51
  • In general, I'd rather use a factory method to create me an object each way - there's no need to branch if you call Foo.fromObject(obj) and Foo.fromJson(str) and so on. – Fenton Jan 5 '18 at 15:08
  • But that postulates that one will always pass their parameters as either an object or a single string, what if I want to have them passed separately, as highlighted from my previous comment? Foo.methos(1, 2, 3) Foo.method(1) Foo.method(Obj) I also noticed you have different methods in the Foo Class, fromObject and fromJson? – Hlawuleka MAS Jan 6 '18 at 12:13
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    If you follow that difference back to the source, you'll usually find there is no need for it. For example, you have to type myNum or myObj anyway, so why not have separate methods and make everything clear / avoid unnecessary branching logic. – Fenton Jan 7 '18 at 15:29
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    Note that using a union type can be problematic if you want to have different return types based on the parameters. That can be solved with generics if the return type always matches one of the parameter types, but for other cases overloads are the best solution. – John Montgomery Aug 7 '18 at 17:37

You can declare an overloaded function by declaring the function as having a type which has multiple invocation signatures:

interface IFoo
    bar: {
        (s: string): number;
        (n: number): string;

Then the following:

var foo1: IFoo = ...;

var n: number = foo1.bar('baz');     // OK
var s: string = foo1.bar(123);       // OK
var a: number[] = foo1.bar([1,2,3]); // ERROR

The actual definition of the function must be singular and perform the appropriate dispatching internally on its arguments.

For example, using a class (which could implement IFoo, but doesn't have to):

class Foo
    public bar(s: string): number;
    public bar(n: number): string;
    public bar(arg: any): any 
        if (typeof(arg) === 'number')
            return arg.toString();
        if (typeof(arg) === 'string')
            return arg.length;

What's interesting here is that the any form is hidden by the more specifically typed overrides.

var foo2: new Foo();

var n: number = foo2.bar('baz');     // OK
var s: string = foo2.bar(123);       // OK
var a: number[] = foo2.bar([1,2,3]); // ERROR

As a heads up to others, I've oberserved that at least as manifested by TypeScript compiled by WebPack for Angular 2, you quietly get overWRITTEN instead of overLOADED methods.

myComponent {
  method(): { console.info("no args"); },
  method(arg): { console.info("with arg"); }



seems to execute the method with arguments, silently ignoring the no-arg version, with output:

with arg
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    You can't declare separate bodies for your overloads, only different signatures. – adharris Oct 6 '16 at 17:45
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    I'm not sure which version of the TypeScript compiler you're using, but the current version emits a Duplicate function implementation warning for code like this. – Royston Shufflebotham Jan 24 '17 at 17:03

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