Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Question: There seem to be many benefits to Closures, but what are the negatives (memory leakage? obfuscation problems? bandwidth increasage?)? Additionally, is my understanding of Closures correct? Finally, once closures are created, can they be destroyed?

I've been reading a little bit about Javascript Closures. I hope someone a little more knowledgeable will guide my assertions, correcting me where wrong.

Benefits of Closures:

  1. Encapsulate the variables to a local scope, by using an internal function. The anonymity of the function is insignificant.

What I've found helpful is to do some basic testing, regarding local/global scope:

<script type="text/javascript">

   var global_text  = "";
   var global_count = 0;
   var global_num1  = 10;
   var global_num2  = 20;
   var global_num3  = 30;

   function outerFunc() {

      var local_count = local_count || 0;

      alert("global_num1: " + global_num1);    // global_num1: undefined
      var global_num1  = global_num1 || 0;
      alert("global_num1: " + global_num1);    // global_num1: 0

      alert("global_num2: " + global_num2);    // global_num2: 20
      global_num2  = global_num2 || 0;         // (notice) no definition with 'var'
      alert("global_num2: " + global_num2);    // global_num2: 20
      global_num2  = 0;

      alert("local_count: " + local_count);    // local_count: 0

      function output() {

         alert("local_count:  " + local_count  + "\n" +
               "global_count: " + global_count + "\n" +
               "global_text:  " + global_text



      return output;  

   var myFunc = outerFunc();

      /* Outputs:
       * local_count:  1
       * global_count: 1
       * global_text: 

   global_text = "global";
      /* Outputs:
       * local_count:  2
       * global_count: 1
       * global_text:  global

   var local_count = 100;
      /* Outputs:
       * local_count:  3
       * global_count: 1
       * global_text:  global

   alert("global_num1: " + global_num1);      // global_num1: 10
   alert("global_num2: " + global_num2);      // global_num2: 0
   alert("global_num3: " + global_num3);      // global_num3: 33


Interesting things I took out of it:

  1. The alerts in outerFunc are only called once, which is when the outerFunc call is assigned to myFunc (myFunc = outerFunc()). This assignment seems to keep the outerFunc open, in what I would like to call a persistent state.

  2. Everytime myFunc is called, the return is executed. In this case, the return is the internal function.

  3. Something really interesting is the localization that occurs when defining local variables. Notice the difference in the first alert between global_num1 and global_num2, even before the variable is trying to be created, global_num1 is considered undefined because the 'var' was used to signify a local variable to that function. -- This has been talked about before, in the order of operation for the Javascript engine, it's just nice to see this put to work.

  4. Globals can still be used, but local variables will override them. Notice before the third myFunc call, a global variable called local_count is created, but it as no effect on the internal function, which has a variable that goes by the same name. Conversely, each function call has the ability to modify global variables, as noticed by global_var3.

Post Thoughts: Even though the code is straightforward, it is cluttered by alerts for you guys, so you can plug and play.

I know there are other examples of closures, many of which use anonymous functions in combination with looping structures, but I think this is good for a 101-starter course to see the effects.

The one thing I'm concerned with is the negative impact closures will have on memory. Because it keeps the function environment open, it is also keeping those variables stored in memory, which may/may not have performance implications, especially regarding DOM traversals and garbage collection. I'm also not sure what kind of role this will play in terms of memory leakage and I'm not sure if the closure can be removed from memory by a simple "delete myFunc;."

Hope this helps someone,


share|improve this question
I'm popping some popcorn for this one. – Pointy Jun 17 '10 at 3:10
up vote 6 down vote accepted

You may get a raft of good answers. One certain negative is the Internet Explorer circular reference memory leak. Basically, "circular" references to DOM objects are not recognized as collectible by JScript. It's easy to create what IE considers a circular reference using closures. Several examples are provided in the second link.

In IE6, the only way to reclaim the memory is to terminate the whole process. In IE7 they improved it so that when you navigate away from the page in question (or close it), the memory is reclaimed. In IE8, DOM objects are better understood by JScript and are collected as you'd expect they should be.

The suggested workaround for IE6 (besides terminating the process!) is not to use closures.

share|improve this answer
There weren't many answers, so you get the vote. I'm not too worried about IE6 though. According to (w3schools.com/browsers/browsers_stats.asp), it's still used by 7%, but I figure that will die down dramatically in the coming months. The government is a huge contributor to older versions of IE, once they use the new version, a lot of the private contractors will probably stop supporting/using it as well. I think in the past couple months a lot of govt agencies have switched to a newer, more secure browser, especially after that Adobe/IE6 threat. – vol7ron Jun 28 '10 at 23:21
I'm a bit surprised at the lack of answers too. I take your point on IE6; but sadly, I still see about 25% IE6 among the visitors to the corporate-focused web applications I work on. Some of these huge businesses are so conservative that they're still milking the "sunk cost" from their Windows XP investment, and IE6 along with it. And they're weighing down, to various degrees, the progressive efforts of web-based vendors who nonetheless still want their business. I really hope it dies down in coming months, but I wouldn't be shocked if there are big businesses still running IE6 in 2015. – Ken Redler Jun 29 '10 at 2:57

Closures bring a lot of benefits...but also a number of gotchas. The same thing that makes them powerful also makes them quite capable of making a mess if you're not careful.

Besides the issue with circular references (which isn't really as much of a problem anymore, since IE6 is hardly used at all outside of China), there's at least one other huge potential negative: They can complicate scope. When used well, they improve modularity and compatibility by allowing functions to share data without exposing it...but when used badly, it can become difficult if not impossible to trace exactly where a variable is set or changed.

JavaScript without closures has two* scopes for variables: function-level, and global. There is no block-level scope*, and no object-level scope. Without closures, you know a variable is either declared in the current function, or in the global object.

With closures, you no longer have that assurance. Each nested function introduces another level of scope, and any closures created within that function see (mostly) the same variables as the containing function does.

Using closures properly requires that you (a) be aware of how closures and var affect scope, and (b) keep track of which scope your variables are in. Otherwise, variables can be accidentally shared (or pseudo-variables lost!), and all sorts of wackiness can ensue.

Consider this example:

function ScopeIssues(count) {
    var funcs = [];
    for (var i = 0; i < count; ++i) {
        funcs[i] = function() { console.log(i); }
    return funcs;

Short, straightforward...and almost certainly broken. Watch:

x = ScopeIssues(100);

x[0]();   // outputs 100
x[1]();   // does too
x[2]();   // same here
x[3]();   // guess

Every function in the array outputs count. What's going on here? You're seeing the effects of combining closures with a misunderstanding of closed-over variables and scope.

When the closures are created, they're not using the value of i at the time they were created to determine what to output. They're using the variable i, which is shared with the outer function and is still changing. When they output it, they're outputting the value as of the time it is called. That will be equal to count, the value that caused the loop to stop.

In order to fix this, you'll need another closure.

function Corrected(count) {
    var funcs = [];
    for (var i = 0; i < count; ++i) {
        (function(which) {
            funcs[i] = function() { console.log(which); };

x = Corrected(100);

x[0]();  // outputs 0
x[1]();  // outputs 1
x[2]();  // outputs 2
x[3]();  // outputs 3

Another example:

value = 'global variable';

function A() {
    var value = 'local variable';
    this.value = 'instance variable';
    (function() { console.log(this.value); })();

a = new A();  // outputs 'global variable'

this and arguments are different; unlike nearly everything else, they are not shared across closure boundaries. Every function call redefines them -- and unless you call the function like

  • obj.func(...),
  • func.call(obj, ...),
  • func.apply(obj, [...]), or
  • var obj_func = func.bind(obj); obj_func(...)

to specify a this, then you'll get the default value for this: the global object.^

The most common idiom to get around the this issue is to declare a variable and set its value to this. The most common names i've seen are that and self.

function A() {
    var self = this;
    this.value = 'some value';
    (function() { console.log(self.value); })();

But that makes self a real variable, with all the potential oddness that entails. Fortunately, it's rare to want to change the value of self without redefining the variable...but within a nested function, redefining self of course redefines it for all the functions nested within it as well. And you can't do something like

function X() {
    var self = this;
    var Y = function() {
        var outer = self;
        var self = this;

because of hoisting. JavaScript effectively moves all the variable declarations to the top of the function. That makes the above code equivalent to

function X() {
    var self, Y;
    self = this;
    Y = function() {
        var outer, self;
        outer = self;
        self = this;

self is already a local variable before outer = self runs, so outer gets the local value -- which at this point, is undefined. You've just lost your reference to the outer self.

* Some browsers -- which is to say at present, at least modern versions of Firefox -- support a let statement that declares a block-local variable the way var does for function-level ones. But that's not a standard feature yet, and it appears that IE and Chrome do not support it.

^ Newer interpreters support a so-called "strict mode": an opt-in feature that aims to make certain iffy code patterns either fail entirely or cause less damage. In strict mode, this defaults to undefined rather than the global object. But it's still some whole other value than you usually intended to mess with.

share|improve this answer
Very nice, but I think you have a small typo in the last bit. "outer is already a local variable..." I think the outer should be self? – Alexis King Jul 28 '13 at 4:00
@JakeKing: Oops... fixed. Thanks :) – cHao Jul 28 '13 at 6:43
upvote for the clear example of hoisting causing unexpected behavior. – Dan Percival Feb 27 '14 at 22:45

Closures may cause memory leaks, however Mozilla has made attempts to optimize their garbage collection engine to prevent this.

I'm unsure how Chrome handles closures. I think they're on par with Mozilla, but I don't want to say for sure. IE8 is definitely improved over the earlier versions of IE - it's almost a whole new browser, there are still some nuances.

You should also benchmark the code to see if there's any improvement in speed.

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.