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What "Hidden Features" of JavaScript do you think every programmer should know?

After having seen the excellent quality of the answers to the following questions I thought it was time to ask it for JavaScript.

Even though JavaScript is arguably the most important Client Side language right now (just ask Google) it's surprising how little most web developers appreciate how powerful it really is.


locked by Robert Harvey Oct 5 '11 at 5:47

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closed as not constructive by Robert Harvey Oct 5 '11 at 5:47

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Didn't you mean "Having seen the rep. points and views this other question attracted, I thought I'd ask almost exactly the same question to boost my own"? ;-) – Bobby Jack Sep 14 '08 at 18:22
Sure, pessimist. :) I'd considered making this a community question. Also, after you get a certain number of points it's all diminishing returns. – Allain Lalonde Sep 14 '08 at 18:37
Fair enough - it doesn't look as if you 'need' the rep! I guess I just have a big issue with the C# one - doesn't exactly seem to me like the type of question for which this site was intended. – Bobby Jack Sep 14 '08 at 18:41
Yeah, maybe not, but I found the knowledge in the answers great. I think you'd be hard pressed to expose an average C# programmer to all of it in one place if not for SO. It'd take years of playing with it to come up with the same hard won list. – Allain Lalonde Sep 14 '08 at 18:54
I've been writing JavaScript professionally for 10 years now and I learned a thing or three from this thread. Thanks, Alan! – Andrew Hedges Sep 20 '08 at 7:39

99 Answers 99

Functions are first class citizens in JavaScript:

var passFunAndApply = function (fn,x,y,z) { return fn(x,y,z); };

var sum = function(x,y,z) {
  return x+y+z;

alert( passFunAndApply(sum,3,4,5) ); // 12

Functional programming techniques can be used to write elegant javascript.

Particularly, functions can be passed as parameters, e.g. Array.filter() accepts a callback:

[1, 2, -1].filter(function(element, index, array) { return element > 0 });
// -> [1,2]

You can also declare a "private" function that only exists within the scope of a specific function:

function PrintName() {
    var privateFunction = function() { return "Steve"; };
    return privateFunction();
There are three ways to make functions in javascript: function sum(x, y, z){ return (x+y+z); } and var sum = new Function("x", "y", "z", "return (x+y+z);"); are the other ways. – Marius Sep 14 '08 at 19:35
The concept of functions-as-data definitely wins big points in my book. – Jason Bunting Sep 14 '08 at 21:52
not sure this is a hidden feature... more like a core feature. – Claudiu Jun 24 '10 at 14:33

Private Methods

An object can have private methods.

function Person(firstName, lastName) {
    this.firstName = firstName;
    this.lastName = lastName;

    // A private method only visible from within this constructor
    function calcFullName() {
       return firstName + " " + lastName;    

    // A public method available to everyone
    this.sayHello = function () {

var person1 = new Person("Bob", "Loblaw");

// This fails since the method is not visible from this scope
That's not really a private function - it's more a function variable in a local scope. – Keith Sep 15 '08 at 16:28
True but by all operational definitions I can think of that's a method. It's a block of code with a name that has access to instance state and can only be seen by that instance. What's your definition of a private method? – Allain Lalonde Sep 17 '08 at 22:44
@Zach, exactly! It's easy, after spending years working with class-based OO languages, to forget that they are merely one implementation of OO concepts. Of course, the various libraries that attempt to cram quasi-class-based OO into JS don't help either... – Shog9 Sep 20 '08 at 22:23
Just wondering, does person1 have a Law Blog? ;-) – travis Sep 23 '08 at 16:11
+1 for the arrested development reference – Domenic Feb 28 '10 at 2:19


It's rarely used, and frankly, rarely useful... But, in limited circumstances, it does have its uses.

For instance: object literals are quite handy for quickly setting up properties on a new object. But what if you need to change half of the properties on an existing object?

var user = 
   fname: 'Rocket', 
   mname: 'Aloysus',
   lname: 'Squirrel', 
   city: 'Fresno', 
   state: 'California'

// ...

with (user)
   mname = 'J';
   city = 'Frostbite Falls';
   state = 'Minnesota';

Alan Storm points out that this can be somewhat dangerous: if the object used as context doesn't have one of the properties being assigned to, it will be resolved in the outer scope, possibly creating or overwriting a global variable. This is especially dangerous if you're used to writing code to work with objects where properties with default or empty values are left undefined:

var user = 
   fname: "John",
// mname definition skipped - no middle name
   lname: "Doe"

with (user)
   mname = "Q"; // creates / modifies global variable "mname"

Therefore, it is probably a good idea to avoid the use of the with statement for such assignment.

See also: Are there legitimate uses for JavaScript’s “with” statement?

Conventional wisdom the with statment is to be avoided. If the user object didn't have one of the properties you mentioned, the variable outside the with block's pseudo-scope would be modified. That way lies bugs. More info at – Alan Storm Sep 14 '08 at 7:54
Shog, the objections aren't about misspelled variables, they're about looking at a block of code, and being able to say with certainty what any particular line in that block does. Because Javascript objects are so dynamic, you can't say with certainly what properties/members it has at any moment. – Alan Storm Sep 14 '08 at 16:56
Amen - if I saw the "with" statement in any JS I found, I would eliminate it and question the developer that wrote it to make sure he knew why it was not a Good Thing to use it..."hidden feature?" More like "abhorrent feature." – Jason Bunting Sep 14 '08 at 21:55
consider a more complex chain a.b.c.d "with (a.b.c) { = bar;} is powerful and not inherently error prone. The key is to curtail the root one level up. And misspelling a variable name? You're introducing a bug if you do that wherever you do it, regardless of "with". – annakata Jan 20 '09 at 11:33
Douglas Crockford recently said "with" is one of the worst parts of JavaScript in a .NET Rocks! podcast. – core Mar 14 '09 at 4:09

You can access object properties with [] instead of .

This allows you look up a property matching a variable.

obj = {a:"test"};
var propname = "a";
var b = obj[propname];  // "test"

You can also use this to get/set object properties whose name is not a legal identifier.

obj["class"] = "test";  // class is a reserved word; obj.class would be illegal.
obj["two words"] = "test2"; // using dot operator not possible with the space.

Some people don't know this and end up using eval() like this, which is a really bad idea:

var propname = "a";
var a = eval("obj." + propname);

This is harder to read, harder to find errors in (can't use jslint), slower to execute, and can lead to XSS exploits.

It's interesting to note that dot-referencing is actually syntax sugar for the bracketref., according to the spec anyway, behaves just like foo["bar"]. also note that everything is a string property. even when you do array access, array[4], the 4 is converted to a string (again, at least according to ECMAScript v3 spec) – Claudiu Jun 24 '10 at 14:40

"Extension methods in JavaScript" via the prototype property.

Array.prototype.contains = function(value) {  
    for (var i = 0; i < this.length; i++) {  
        if (this[i] == value) return true;  
    return false;  

This will add a contains method to all Array objects. You can call this method using this syntax

var stringArray = ["foo", "bar", "foobar"];
This is generally considered a bad idea, because other code (not yours) may make assumptions about the Array object. – Chris Noe Sep 22 '08 at 19:45
It's also generally considered a bad idea to make assumptions about the Array object. :( – eyelidlessness Oct 7 '08 at 23:47
@Breton: It's not something specific to the Array class, it's just an example. I use this to extend the new Date().toString(); method, allowing to use a mask string. Any object can be extended, and all it's instances get the new method. – voyager Jun 30 '09 at 16:42
@Mathias: this is not about the DOM. – dolmen Mar 28 '11 at 21:59

Assigning default values to variables

You can use the logical or operator || in an assignment expression to provide a default value:

var a = b || c;

The a variable will get the value of c only if b is falsy (if is null, false, undefined, 0, empty string, or NaN), otherwise a will get the value of b.

This is often useful in functions, when you want to give a default value to an argument in case isn't supplied:

function example(arg1) {
  arg1 || (arg1 = 'default value');

Example IE fallback in event handlers:

function onClick(e) {
    e || (e = window.event);

The following language features have been with us for a long time, all JavaScript implementations support them, but they weren't part of the specification until ECMAScript 5th Edition:

The debugger statement

Described in: § 12.15 The debugger statement

This statement allows you to put breakpoints programmatically in your code just by:

// ...
// ...

If a debugger is present or active, it will cause it to break immediately, right on that line.

Otherwise, if the debugger is not present or active this statement has no observable effect.

Multiline String literals

Described in: § 7.8.4 String Literals

var str = "This is a \
really, really \
long line!";

You have to be careful because the character next to the \ must be a line terminator, if you have a space after the \ for example, the code will look exactly the same, but it will raise a SyntaxError.

Not if it's null, if it's considered false. a = 0 || 42; will give you 42. This is comparable with Python's or, not C#'s ?? operator. If you want the C# behavior, do a = (b === null) ? c : b; – Armin Ronacher Sep 21 '08 at 22:18
sweet! works with firebug. – Rajat Dec 23 '09 at 18:55
Like the term "falsy" :) – Jonas Mar 12 '10 at 22:24
I wish there was proper || for undefined only. I was bitten by this today for 0, since I wanted to create emulation of overloaded method, so that the last argument was optional and a default value would be used instead. – egaga Apr 15 '10 at 3:47
I didn't know about the multiline string literal technique. That's fantastic, thanks. – Charlie Flowers Nov 26 '10 at 2:33

It's surprising how many people don't realize that it's object oriented as well.

I think this is in large part due to Javascript's OO-ness being entirely prototype based rather than the class based OO of the more popular languages. Also, JS is sparse on OO syntactic niceties, which can be a real turn off, especially if you're learning. – Wedge Sep 14 '08 at 7:42

JavaScript does not have block scope (but it has closure so let's call it even?).

var x = 1;
   var x = 2;
alert(x); // outputs 2
That is a good one. It is a really important difference from most C like languages. – Martin Clarke Sep 14 '08 at 19:02
You can always do "var tmp = function() { /* block scope */ }();". The syntax is ugly, but it works. – Joeri Sebrechts Sep 30 '08 at 11:03
Or you can use "let" if it's Firefox only:… – Eugene Yokota Oct 1 '08 at 0:42
or just: (function() { var x = 2; })(); alert(typeof x); //undefined – Pim Jager Jan 27 '09 at 23:17

How about closures in JavaScript (similar to anonymous methods in C# v2.0+). You can create a function that creates a function or "expression".

Example of closures:

//Takes a function that filters numbers and calls the function on 
//it to build up a list of numbers that satisfy the function.
function filter(filterFunction, numbers)
  var filteredNumbers = [];

  for (var index = 0; index < numbers.length; index++)
    if (filterFunction(numbers[index]) == true)
  return filteredNumbers;

//Creates a function (closure) that will remember the value "lowerBound" 
//that gets passed in and keep a copy of it.
function buildGreaterThanFunction(lowerBound)
  return function (numberToCheck) {
    return (numberToCheck > lowerBound) ? true : false;

var numbers = [1, 15, 20, 4, 11, 9, 77, 102, 6];

var greaterThan7 = buildGreaterThanFunction(7);
var greaterThan15 = buildGreaterThanFunction(15);

numbers = filter(greaterThan7, numbers);
alert('Greater Than 7: ' + numbers);

numbers = filter(greaterThan15, numbers);
alert('Greater Than 15: ' + numbers);
i'm unsure, but can return (numberToCheck > lowerBound) ? true : false; simply become return (numberToCheck > lowerBound); just trying to increase my understanding... – davidsleeps Jun 10 '09 at 4:15
I'd say anonymous functions in C# are equivalent of closures, not the other way around :) – vava Aug 23 '09 at 9:23
Closures and anonymous functions are separate, distinct concepts. That functions can be created without being named is having anonymous functions. That a variable in the 'creating' scope is linked with the created function is a closure. In short, a closure is more like a hidden global variable. – slebetman Jan 11 '10 at 13:52
That's true. Only when anonymous methods make use of a variable from the creating scope is it similar to a closure. I've updated the english on the answer. It still leaves something to be desired, but I'm at a lost for the correct english. – Tyler Jan 29 '10 at 18:01
I don't think this is the best or easiest to understand example of what a closure is. Just saying. The point of a closure is that even when a bunch of variables appear to 'go out of scope' they can still remain available to a function that was originally defined within that scope. In the above example, that means the lowerBound variable is still accessible by that inner, anonymous function even when the outer function, buildGreaterThanFunction, terminates. – thomasrutter Mar 18 '10 at 16:08

You can also extend (inherit) classes and override properties/methods using the prototype chain spoon16 alluded to.

In the following example we create a class Pet and define some properties. We also override the .toString() method inherited from Object.

After this we create a Dog class which extends Pet and overrides the .toString() method again changing it's behavior (polymorphism). In addition we add some other properties to the child class.

After this we check the inheritance chain to show off that Dog is still of type Dog, of type Pet, and of type Object.

// Defines a Pet class constructor 
function Pet(name) 
    this.getName = function() { return name; };
    this.setName = function(newName) { name = newName; };

// Adds the Pet.toString() function for all Pet objects
Pet.prototype.toString = function() 
    return 'This pets name is: ' + this.getName();
// end of class Pet

// Define Dog class constructor (Dog : Pet) 
function Dog(name, breed) 
    // think Dog : base(name), name);
    this.getBreed = function() { return breed; };

// this makes Dog.prototype inherit from Pet.prototype
Dog.prototype = new Pet();

// Currently Pet.prototype.constructor
// points to Pet. We want our Dog instances'
// constructor to point to Dog.
Dog.prototype.constructor = Dog;

// Now we override Pet.prototype.toString
Dog.prototype.toString = function() 
    return 'This dogs name is: ' + this.getName() + 
        ', and its breed is: ' + this.getBreed();
// end of class Dog

var parrotty = new Pet('Parrotty the Parrot');
var dog = new Dog('Buddy', 'Great Dane');
// test the new toString()

// Testing instanceof (similar to the `is` operator)
alert('Is dog instance of Dog? ' + (dog instanceof Dog)); //true
alert('Is dog instance of Pet? ' + (dog instanceof Pet)); //true
alert('Is dog instance of Object? ' + (dog instanceof Object)); //true

Both answers to this question were codes modified from a great MSDN article by Ray Djajadinata.


Functions are objects and therefore can have properties.

fn = function(x) {
   // ...
} = 1; = function(y) {
This is a very useful tip. For example, you can set default values as a property of the function. For example: myfunc.delay=100; Then users can change the default value and all function calls will use the new default value. For example: myfunc.delay = 200; myfunc(); – BarelyFitz Jun 1 '09 at 0:23
@instantsetsuna: Why have another separate variable? As usual this boils down to "use it when appropriate/useful" ;-) – VolkerK Dec 10 '10 at 9:04

I could quote most of Douglas Crockford's excellent book JavaScript: The Good Parts.

But I'll take just one for you, always use === and !== instead of == and !=

alert('' == '0'); //false
alert(0 == ''); // true
alert(0 =='0'); // true

== is not transitive. If you use === it would give false for all of these statements as expected.

It's a shame that so many people think Crockford is all-knowing. Granted, the guy is right on the mark with most of his criticisms, but I stop short of giving his stuff a blanket endorsement like so many devs do... – Jason Bunting Sep 14 '08 at 21:58
I second Jason's warning. The book in itself is very interesting, and it does give a lot of good advice, but DC is far too convinced that his way of doing things is the only correct way, everything else is "defective". If you'd like some examples, look at his responses on the JSLint Yahoo Group. – Zilk Oct 28 '08 at 21:21
Use === instead of == is good advice if you are confused by dynamic typing and just want it to be "really" equals. Those of us who understand dynamic typing may continue to use == for situations where we know we want to cast, as in 0 == '' or 0 == '0'. – thomasrutter Apr 1 '09 at 5:15
Well == and === are not about dynamic typing. == does type coersion, which is a different beast. If you know, that you want to cast to string/number/etc, then you shold do that explicitly. – Rene Saarsoo Jun 5 '09 at 18:39
I think the scariest part of == is '\n\t\r ' == 0 => true... :D – Shrikant Sharat Oct 18 '09 at 9:19

Javascript has static variables inside functions:

function someFunction(){
  var Static = arguments.callee;
  Static.someStaticVariable = (Static.someStaticVariable || 0) + 1;
someFunction() //Alerts 1
someFunction() //Alerts 2
someFunction() //Alerts 3

It also has static variables inside Objects:

function Obj(){
  this.Static = arguments.callee;
a = new Obj(); = "a";
b = new Obj();
alert(; //Alerts b
I think you're misrepresenting the ability of functions to have properties in general. What you say is technically true, but as a side effect to the functions being first order objects in the language. – levik Sep 16 '08 at 15:08
Agreed, this is a little misleading. "arguments.callee" is simply a reference to the function that was called. In your second example, a.Static === b.Static === Obj – Josh Sep 22 '08 at 11:36

undefined is undefined. So you can do this:

if (obj.field === undefined) /* ... */
"undefined" is not a reserved word, so this could potentially fail if you have a variable with that name. – levik Sep 16 '08 at 15:11
if you have a variable with that name, you've failed already – jsight Oct 1 '08 at 17:01

As Marius already pointed, you can have public static variables in functions.

I usually use them to create functions that are executed only once, or to cache some complex calculation results.

Here's the example of my old "singleton" approach:

var singleton = function(){ 

  if (typeof arguments.callee.__instance__ == 'undefined') { 

    arguments.callee.__instance__ = new function(){

      //this creates a random private variable.
      //this could be a complicated calculation or DOM traversing that takes long
      //or anything that needs to be "cached"
      var rnd = Math.random();

      //just a "public" function showing the private variable value
      this.smth = function(){ alert('it is an object with a rand num=' + rnd); };



  return arguments.callee.__instance__;


var a = new singleton;
var b = new singleton;


As you may see, in both cases the constructor is run only once.

For example, I used this approach back in 2004 when I had to create a modal dialog box with a gray background that covered the whole page (something like Lightbox). Internet Explorer 5.5 and 6 have the highest stacking context for <select> or <iframe> elements due to their "windowed" nature; so if the page contained select elements, the only way to cover them was to create an iframe and position it "on top" of the page. So the whole script was quite complex and a little bit slow (it used filter: expressions to set opacity for the covering iframe). The "shim" script had only one ".show()" method, which created the shim only once and cached it in the static variable :)


The way JavaScript works with Date() just excites me!

function isLeapYear(year) {
    return (new Date(year, 1, 29, 0, 0).getMonth() != 2);

This is really "hidden feature".

Edit: Removed "?" condition as suggested in comments for politcorrecteness. Was: ... new Date(year, 1, 29, 0, 0).getMonth() != 2 ? true : false ... Please look at comments for details.


All functions are actually instances of the built-in Function type, which has a constructor that takes a string containing the function definition, so you can actually define functions at run-time by e.g., concatenating strings:

//e.g., createAddFunction("a","b") returns function(a,b) { return a+b; }
function createAddFunction(paramName1, paramName2)
 { return new Function( paramName1, paramName2
                       ,"return "+ paramName1 +" + "+ paramName2 +";");

Also, for user-defined functions, Function.toString() returns the function definition as a literal string.

This usually isn't necessary, though. In your example, you could just say: return function(paramName1, paramName2) { return paramName1 + paramName2; } – JW. Sep 15 '08 at 17:43

You don't need to define any parameters for a function. You can just use the function's arguments array-like object.

function sum() {
    var retval = 0;
    for (var i = 0, len = arguments.length; i < len; ++i) {
        retval += arguments[i];
    return retval;

sum(1, 2, 3) // returns 6
Worth noting though that although arguments acts like an array, it's not an actual javascript Array -- it's just an object. So you can't do join(), pop(), push(), slice() and so forth. (You can convert it to a real array if you want: "var argArray =;" ) – Jacob Mattison Jan 26 '09 at 21:37
It's also worth noting that accessing the Arguments object is relatively expensive -- the best examples are in Safari, Firefox, and Chrome nightlies where merely referencing the arguments object makes calling a function much slower -- eg. if(false) arguments; will hurt perf. – olliej Feb 18 '09 at 3:20
In the same vein, arguments has a "callee" property which is the current function itself. This allows to do recursion with anonymous functions, cool! – Vincent Robert Apr 2 '09 at 20:01
@Nathan "f(x,y,z)" looks better than "f([x,y,z])". – Mark Cidade Sep 28 '09 at 12:01
@Vincent Robert: please note that arguments.callee is being deprecated. – ken Dec 29 '10 at 21:50

All objects in Javascript are implemented as hashtables, so their properties can be accessed through the indexer and vice-versa. Also, you can enumerate all the properties using the for/in operator:

var x = {a: 0};
x["a"]; //returns 0

x["b"] = 1;
x.b; //returns 1

for (p in x) document.write(p+";"); //writes "a;b;"
Also, property names are strings, and if the string has a character that prevents it from being used through the dot notation, it can be accessed through the index notation. For example, an object property x['funky prop'] could not be accessed as x.funky prop; x['funky.prop'] cannot be accessed as x.funky.prop; – BarelyFitz Jun 1 '09 at 1:03
Just do not forget to check the property names with "object.hasOwnProperty(propertyName)" before using them from the for-in loop or else you'll experience some unwanted stuff ;) – BYK Jun 21 '09 at 21:59

You can use the in operator to check if a key exists in an object:

var x = 1;
var y = 3;
var list = {0:0, 1:0, 2:0};
x in list; //true
y in list; //false
1 in list; //true
y in {3:0, 4:0, 5:0}; //true

If you find the object literals too ugly you can combine it with the parameterless function tip:

function list()
 { var x = {};
   for(var i=0; i < arguments.length; ++i) x[arguments[i]] = 0;
   return x

 5 in list(1,2,3,4,5) //true
Not so clever, that checks if a key is present, not if a value is. x in list; only works because x[1] != null, not because the value 1 is there. – Armin Ronacher Sep 21 '08 at 22:16
I haven't used the technique ina while so I forgot that I actually used object literals before. Thanks for the correction. – Mark Cidade Sep 22 '08 at 17:03
Also, be careful: the in operator also tests the prototype chain! If someone has put a property called '5' on the Object.prototype, the second example would return true even if you called '5 in list(1, 2, 3, 4)'... You'd better use the hasOwnProperty method: list(1, 2, 3, 4).hasOwnProperty(5) will return false, even if Object.prototype has a property '5'. – Martijn Jun 22 '09 at 8:24
For the very most general solution, one that can test whether an Object has its own property, even if it is named "hasOwnProperty", you have to go all the way out to:, name); – Kris Kowal Sep 12 '09 at 22:52
@Kris, not unless someone overwrites Object.prototype.hasOwnProperty ;) – Nick Jul 27 '10 at 19:51

JavaScript uses a simple object literal:

var x = { intValue: 5, strValue: "foo" };

This constructs a full-fledged object.

JavaScript uses prototype-based object orientation and provides the ability to extend types at runtime:

String.prototype.doubleLength = function() {
    return this.length * 2;


An object delegates all access to attributes that it doesn't contain itself to its "prototype", another object. This can be used to implement inheritance, but is actually more powerful (even if more cumbersome):

/* "Constructor" */
function foo() {
    this.intValue = 5;

/* Create the prototype that includes everything
 * common to all objects created be the foo function.
foo.prototype = {
    method: function() {

var f = new foo();
Weird that no one thought of JSON !? – Allain Lalonde Sep 15 '08 at 21:12

Maybe a little obvious to some...

Install Firebug and use console.log("hello"). So much better than using random alert();'s which I remember doing a lot a few years ago.

Just don't forget to remove the console statements before releasing your code to others who may not have Firebug installed. – Chris Noe Sep 22 '08 at 19:49
function log(msg) { if(console) console.log(msg) else alert(msg) } – Josh Sep 26 '08 at 21:33
Even better, precede log statements with ';;;' and then minify takes care of it for you. (At least, the Perl module I use has that feature, and claims it's commonplace.) – Kev Nov 10 '08 at 13:46
Josh: That won't work as console is not defined. You could check typeof console !== "undefined" or window.console. – Eli Grey Aug 13 '09 at 3:03
Always include: if (typeof('console') == 'undefined') { console = { log: function() { } }; } then you can continue to use console.log, and it just does nothing. – gregmac Sep 2 '09 at 4:37

One of my favorites is constructor type checking:

function getObjectType( obj ) {  

window.onload = function() {  
    alert( getObjectType( "Hello World!" ) );  
    function Cat() {  
        // some code here...  
    alert( getObjectType( new Cat() ) );  

So instead of the tired old [Object object] you often get with the typeof keyword, you can actually get real object types based upon the constructor.

Another one is using variable arguments as a way to "overload" functions. All you are doing is using an expression to detect the number of arguments and returning overloaded output:

function myFunction( message, iteration ) {  
    if ( arguments.length == 2 ) {  
        for ( i = 0; i < iteration; i++ ) {  
            alert( message );  
    } else {  
        alert( message );  

window.onload = function() {  
    myFunction( "Hello World!", 3 );  

Finally, I would say assignment operator shorthand. I learned this from the source of the jQuery framework... the old way:

var a, b, c, d;
b = a;
c = b;
d = c;

The new (shorthand) way:

var a, b, c, d;
d = c = b = a;

Good fun :)


This one is super hidden, and only occasionally useful ;-)

You can use the prototype chain to create an object that delegates to another object without changing the original object.

var o1 = { foo: 1, bar: 'abc' };
function f() {}
f.prototype = o1;
o2 = new f();
assert( === 1 );
assert( === 'abc' ); = 2;
o2.baz = true;
assert( === 2 );
// o1 is unchanged by assignment to o2
assert( === 1 );
assert( o2.baz );

This only covers 'simple' values on o1. If you modify an array or another object, then the prototype no longer 'protects' the original object. Beware anytime you have an {} or [] in a Class definition/prototype.


Timestamps in JavaScript:

// Usual Way
var d = new Date();
timestamp = d.getTime();

// Shorter Way
timestamp = (new Date()).getTime();

// Shortest Way
timestamp = +new Date();
The shortest way is clever but hard to understand, as one might think you wanted to write += but mistakenly wrote =+ – Rene Saarsoo Mar 9 '09 at 10:12
Of course, with proper formatting / spacing, such ambiguity is avoided. Why is it so freaking hard to use proper spacing? Do NOT write "timestamp=+new Date();", of course that's confusing. Instead, write "timestamp = +new Date();". – ken Jan 14 '10 at 19:13

Function.toString() (implicit):

function x() {
    alert("Hello World");
eval ("x = " + (x + "").replace(
    'Hello World',

Private variables with a Public Interface

It uses a neat little trick with a self-calling function definition. Everything inside the object which is returned is available in the public interface, while everything else is private.

var test = function () {
    //private members
    var x = 1;
    var y = function () {
        return x * 2;
    //public interface
    return {
        setx : function (newx) {
            x = newx;
        gety : function () {
            return y();

assert(undefined == test.x);
assert(undefined == test.y);
assert(2 == test.gety());
assert(10 == test.gety());
this is called the module pattern, as was dubbed that by Eric Miraglia at I do think the name is misleading, should be called the Singleton Pattern or something like that. I might also add that public methods can also call other public methods by using 'this' object. I use this pattern all the time in my code to keep things organized and clean. – mikeycgto Aug 23 '09 at 21:53

Methods (or functions) can be called on object that are not of the type they were designed to work with. This is great to call native (fast) methods on custom objects.

var listNodes = document.getElementsByTagName('a');
listNodes.sort(function(a, b){ ... });

This code crashes because listNodes is not an Array

Array.prototype.sort.apply(listNodes, [function(a, b){ ... }]);

This code works because listNodes defines enough array-like properties (length, [] operator) to be used by sort().


Numbers are also objects. So you can do cool stuff like:

// convert to base 2
(5).toString(2) // returns "101"

// provide built in iteration
Number.prototype.times = function(funct){
  if(typeof funct === 'function') {
    for(var i = 0;i < Math.floor(this);i++) {
  return this;

  string += i+" ";
// string now equals "0 1 2 3 4 "

var x = 1000;

  document.body.innerHTML += '<p>paragraph #'+i+'</p>';
// adds 1000 parapraphs to the document
That implementation of times is not efficient: Math.floor is called every time instead of just once. – dolmen Mar 29 '11 at 7:55

You can do almost anything between parentheses if you separate statements with commas:

var z = ( x = "can you do crazy things with parenthesis", ( y = x.split(" "), [ y[1], y[0] ].concat( y.slice(2) ) ).join(" ") )

alert(x + "\n" + y + "\n" + z)


can you do crazy things with parenthesis
you can do crazy things with parenthesis
You can, but I'm pretty sure every sane JavaScript guy would want you drawn and quartered. – Allain Lalonde Sep 22 '08 at 13:01
Interesting possibilities for a code obfuscator. – Chris Noe Sep 22 '08 at 19:57
If you want it really obscure in an obfuscator, use Chinese or other unicode characters: function 喂(我) {alert(我)}; – some Nov 19 '08 at 18:47

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