Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm trying to find a way to determine a function objects parameters so that I can determine their respective types.

Params.prototype.getParams = function (fn) {
   var a = fn.length;
   console.log("Args: " + a);

   for (var i = 0; i < a; i++) {
      // This is where I want to print the type
      console.log("Arg[" + i + "] type is: " + typeof(fn.arguments[i]));

Then if I define a few functions (could be any JS functions), such as:

function callback1("one") {}
function callback2("one", 2) {}
function callback3(1, "two", []) {}

If I later invoke each:

var params = new Params();


I would like to figure out each param type for each function instance. I've Google'd it, searched it on SO but can't find anything helpful. If it knows the 'length' I don't see why it wouldn't know the params also?

Update - 2013.02.19 17:41

Yes, I do know there are potential errors in the code above, I stripped it for simplicity of reading.

Here is what I was trying to accomplish:

I was reading this (interesting) article: JavaScript Function Overloading

Coming from Java and being a purist, I wanted to start experiment with method overloading (damn I can't believe how primitive JS is).

I wanted to 'enhance' the example in the article by replacing the 'function count' methodology with one where the parameter types are used instead to 'resolve' which overloaded function should be invoked. It seems this is pretty much only doable by actually knowing the parameter types of 'fn' in my example.

share|improve this question
You mean something like this? stackoverflow.com/questions/13926213/… –  elclanrs Feb 19 '13 at 22:18
Function parameters don't have types. The .length of a function describes how many parameters were defined for that function, but that's it. The types will be determined on invocation of the function. You'll need to do your own type checking in the function if desired. –  the system Feb 19 '13 at 22:18
...and your function definitions are invalid. –  the system Feb 19 '13 at 22:20
@Jeach: You'd probably need to pass to the addMethod an Array of types that map to each defined function parameter. Then upon invocation of the wrapper function, analyse the arguments object and compare the types from the Array. –  the system Feb 19 '13 at 23:05
@thesystem: Yes, passing the types as an array is probably what I'll do and it would resolve my problem... thanks for the suggestion! –  Jeach Feb 20 '13 at 15:59

5 Answers 5

up vote 1 down vote accepted

Function parameters don't have types, if you want something that is kind of like overloading, you need to implement it yourself.

The simplest way to use it is to overload a getter, and setter method like jQuery does for its val() and many other functions. If you don't pass anything, it retrieves the value, if you pass something, it will set a value. I've written something slightly different than what John Resig suggested. This way, you'll have two examples to look at.

The important thing is that you cannot retrieve the types of parameters, only how many parameters were declared in the function definition.

function overload(/*fun1, fun2, fun3... */) {
    var overloadedFuns = arguments;
    return function() {
        var argCount = arguments.length;
        for (var i=0; i < overloadedFuns.length; i++) {
           if (overloadedFuns[i].length === argCount) {
               return overloadedFuns[i].apply(this, arguments);

var obj = {
  _val = 0;
  val: overload(
      // This will get called when called with no arguments
      function() {
          return this._val;
      // This will get called when called with one arguments
          this._val = val;

console.log( obj.val() ); // Outputs 0
obj.val(5); // Sets it to 5
console.log( obj.val() ); // Outputs 5

A similar concept could be introduced adding types. But since you can't infer the types from the function definition, you'd need to add that information yourself

Example: http://jsfiddle.net/UPuwE/1/

 * @param {object[]} fnDefs, Each object should contain a paramList and a fn
 *  {paramMap: ["string"], fn: function() {myString}}
function overload(fnDefs) {

    function matches(arr1, arr2) {
        if (arr1.length !== arr2.length) {
            return false;
        for (var i=0; i < arr1.length; i++) {
            if (arr1[i] !== arr2[i]) {
                return false;
        return true;

    return function() {
        var types = [];
        for (var i =0; i < arguments.length; i++) {
            types.push(typeof arguments[i]);
        for (var i=0; i < fnDefs.length; i++) {
            if (matches(types, fnDefs[i].paramMap)) {
                return fnDefs[i].fn.apply(this, arguments);

var obj = {
    _val: 0,
    val: overload([
            paramMap: ['string'],
            fn: function(str) {
                this._val = str;

            paramMap: ['object'],
            // If an object is passed in, grab the string from its 
            // str property or by calling the toString() method;
            fn: function(obj) {
                this._val = obj.str || obj.toString();
            paramMap: [],
            // Getter
            fn: function(obj) {
                return this._val;

console.log( obj.val() );

obj.val({str: '35'});
console.log( obj.val() );

obj.val( {toString: function(){return '36';} } );
console.log( obj.val() );

I hope this example shows you that there's a lot of overhead at runtime, that's why most libraries don't use it

share|improve this answer
Thanks for the sample code! Both you and '@thesystem' have been helpful and provided alternatives that I'll try at a later time. I'll report my results (successful or not) in an answer to this question. At that time, I'll select your answer as the 'accepted' answer (unless of course someone comes and provides some miraculous solution in the meantime... but I doubt that). Again thanks to both of you! –  Jeach Feb 20 '13 at 16:35

Function parameters do not have types.

function fun(a,b,c) {... }

In JavaScript any variable or function parameter may contain an object or primitive of any type.

The only way to do it is to check at runtime using arguments

function callback3(a,b,c) {
    if (typeof a != 'string') {
      throw new Error('callback3 expects a string for its first argument');

Since it looks like you want to type checking, you could abstract this with something like

function checkParams(args, types) {
    if (args.length != types.length) {
        throw new Error('Invalid number of arguments passed');
    for (var i=0; i < args.length; i ++) {
        if (typeof args[i] != types[i]) {
            throw new Error('Argument number '+ i +' has wrong type'); 

function callback3(a,b,c) {
    checkParams(arguments, ['string', 'number', 'object') );
    // rest of the code
share|improve this answer
May be worth explaining that it can be done done inside a function, that's the only way to determine the type of passed in arguments (not declared parameters) –  Juan Mendes Feb 19 '13 at 22:22
He used "parameters" when he meant "arguments". I don't feel this answer actually answers the question. –  Nicholas Pickering Feb 19 '13 at 22:26
He is able to get the types of the arguments, as he is looking for. –  Nicholas Pickering Feb 19 '13 at 22:26
@NicholasPickering The OP is clearly trying to determine the type of parameters (not actual arguments), that is evidenced by the fact that they are using fn.length. This answer explains it can't be done. I do agree that it would make sense to explain what can be done instead (using arguments from within the function) –  Juan Mendes Feb 19 '13 at 22:32
Your answer is kind of misleading! First you say that parameter don't have types? But if I do 'typeof(arguments[#])' it will give me a type (ie: 'number', 'function', 'array', 'object', 'string', etc), no? Also, people have voted it up, but yet is clearly way off of what I'm looking for... have you actually taken the time to look at the code example? –  Jeach Feb 19 '13 at 23:01

Are you looking for the arguments variable?

function sayHi(name) {console.log(arguments)}

>>> ['hackNightly']

It seems like if you had the arguments, you could just loop over them and use typeOf() or something similar to do type checking.

share|improve this answer
No, I know about the arguments variable. In this case it's different because I would need the arguments variable on the function object, if one was available. –  Jeach Feb 19 '13 at 22:56

The function object no longer stores its arguments, they are available directly inside the function call by using the var arguments.


  //try this instead
  console.log("Arg[" + i + "] type is: " + typeof(arguments[i]));
share|improve this answer
The OP's code is not running inside of the function, arguments is not available. –  Juan Mendes Feb 19 '13 at 22:30
Oh. +1 to @maerics then. –  Nicholas Pickering Feb 19 '13 at 22:32

I had an hour to spare, so I figured I would give it a try at implementing various suggestions I received from both 'Juan Mendes' and 'the system'.

The following is just a working example (not optimized, not benchmarked, not cleaned up), so consider it work in progress. Before I do anything else, I will want to run a few benchmarks to see what kind of 'bloat' it will end up providing.

If anyone sees anything wrong with this, please provide constructive criticism!

function Overload() {
    // Empty for now!

Overload.prototype.link = function (object, method) {   
    console.log("Creating dispatch method '" + method + "()'");

    object.prototype[method] = function () {
        var target = method + "_";

        console.log("Invoked dispatch method '" + method + "()'...");

        for (var i=0; i < arguments.length; i++) {
            target += (typeof arguments[i]).substring(0, 1);

        console.log("Resolved target as '" + target + "'");

        if (typeof object.prototype._overloaded[target] !== "undefined") {
            console.log("Dispatching to overloaded method: '" + target + "'");
            return object.prototype._overloaded[target].apply(object, arguments);
        } else {
            console.log("Method not found: '" + method + "('" + target + "')'");
            //throw "Exception ...";

The following function will be used to overload all our other function on the object:

Overload.prototype.overload = function (object, method, fn, params) {
    var target = method + "_" + params;

    console.log("Overloading method '" + method + "()' to '" + method + "('" + params + "')'");

    if (typeof object === "undefined") {
        console.log("Object doesn't exist!");

    if (typeof object.prototype[method] === "undefined") {
        this.link(object, method);

    if (typeof object.prototype._overloaded === "undefined") {
        console.log("Creating '[obj].prototype._overloaded' property");
        object.prototype._overloaded = {};

    if (typeof object.prototype._overloaded[target] === "undefined") {
        //console.log("Assigning overload function as target '" + method + "('" + params + "')'");
        object.prototype._overloaded[target] = fn;
    } else {
        console.log("Definition for '" + method + "('" + params + "')' already eixsts!");

    return fn;

Now define a few sample functions which essentially 'mock' an overloaded function:

function fn1(one) {
    console.log("Invoked function 1: " + one);

function fn2(one, two) {
    console.log("Invoked function 2: " + one + ", " + two);

function fn3(one, two, three) {
    console.log("Invoked function 3: " + one + ", " + two + ", " + three);

function fn4(one, two, three) {
    console.log("Invoked function 4: " + one + ", " + two);

function fn5(one, two, three) {
    console.log("Invoked function 5: " + one + ", " + two);

Use this to run our tests:

function testMethodOverloading() {
    console.log("Testing method overloading!");

    var ov = new Overload();

    function OBJ() {}


    ov.overload(OBJ, "name", fn1, 's');
    ov.overload(OBJ, "name", fn2, 'sn');
    ov.overload(OBJ, "name", fn3, 'sns');
    ov.overload(OBJ, "name", fn4, 'ss');
    ov.overload(OBJ, "name", fn5, 'nn');


    var obj = new OBJ();

    obj.name("two", 1);
    obj.name("three", 2, "four");
    obj.name("five", "six");
    obj.name(3, 4);

This is the output I get from running the test above:

Overloading method 'name()' to 'name('s')'
Creating dispatch method 'name()'
Creating '[obj].prototype._overloaded' property
Overloading method 'name()' to 'name('sn')'
Overloading method 'name()' to 'name('sns')'
Overloading method 'name()' to 'name('ss')'
Overloading method 'name()' to 'name('nn')'
Invoked dispatch method 'name()'...
Resolved target as 'name_s'
Dispatching to overloaded method: 'name_s'
Invoked function 1: one
Invoked dispatch method 'name()'...
Resolved target as 'name_sn'
Dispatching to overloaded method: 'name_sn'
Invoked function 2: two, 1
Invoked dispatch method 'name()'...
Resolved target as 'name_sns'
Dispatching to overloaded method: 'name_sns'
Invoked function 3: three, 2, four
Invoked dispatch method 'name()'...
Resolved target as 'name_ss'
Dispatching to overloaded method: 'name_ss'
Invoked function 4: five, six
Invoked dispatch method 'name()'...
Resolved target as 'name_nn'
Dispatching to overloaded method: 'name_nn'
Invoked function 5: 3, 4 

So it definitely runs as I expected/wanted it to! But what kind of benchmarks will it get. I'll be doing that next to see if I'm anywhere within the range of the referenced article's benchmarks (after stripping out all the logging, that is). Once I have a general idea, I'll post the results.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.