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I asked a question about Currying and closures were mentioned. What is a closure? How does it relate to currying?

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Now what exactly is the closure??? Some answers say, the closure is the function. Some say it is the stack. Some answers say, it is the "hidden" value. To my understanding, it is the function + enclosed variables. –  Roland Nov 24 '09 at 15:18
Explains what a closure is: stackoverflow.com/questions/4103750/… –  dietbuddha May 17 '11 at 15:51

9 Answers 9

up vote 48 down vote accepted

I'll give an example (in Scheme):

(define (make-counter)
  (let ((count 0))
    (lambda ()
      (set! count (+ count 1))

(define x (make-counter))

(x) returns 1

(x) returns 2


What this function, make-counter, does is it returns a function, which we've called x, that will count up by one each time its called. Since we're not providing any parameters to x it must somehow remember the count. It knows where to find it based on what's called lexical scoping - it must look to the spot where it's defined to find the value. This "hidden" value is what is called a closure.

Here is my currying example again:

(define (add a)
  (lambda (b)
    (+ a b)))

(define add3 (add 3))

(add3 4) returns 7

What you can see is that when you call add with the parameter a (which is 3), that value is contained in the closure of the returned function that we're defining to be add3. That way, when we call add3 it knows where to find the a value to perform the addition.

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IDK, what language (probably F#) you've used in above language. Could please give above example in pseudocode? I'm having hard time to understand this. –  user May 13 '12 at 3:57
@crucifiedsoul It's Scheme. ftp.cs.indiana.edu/pub/scheme-repository/doc/pubs/intro.txt –  Kyle Cronin May 13 '12 at 13:15
@KyleCronin Great example, thanks. Q: Is it more correct to say "the hidden value is called a closure", or is "the function that hides the value is the closure"? Or "the process of hiding the value is the closure"? Thanks! –  Robert Hume Feb 24 '13 at 0:25
@RobertHume Good question. Semantically, the term "closure" is somewhat ambiguous. My personal definition is that the combination of both the hidden value and the enclosing function's use of it constitutes the closure. –  Kyle Cronin Feb 24 '13 at 0:36
@KyleCronin Thanks -- I have a Scheme mid-term on Monday. :) Wanted to have the "closure" concept solid in my head. Thanks for posting this great answer to OP's question! –  Robert Hume Feb 24 '13 at 0:52

Here's a really simple example in JavaScript that illustrates the point:

outer = function() {
  var a = 1;
  var inner = function() {
  return inner;

fnc = outer();

Here I have defined a function within a function. The inner function gains access to all the outer function's local variables, including a. The variable a is in scope for the inner function.

Normally when a function exits, all its local variables are blown away. However, if we return the inner function and assign it to a variable fnc, so that it persists after outer has exited, all of the variables that were in scope when inner was defined also persist. The variable a has been closed over -- it is within a closure.

Note that the variable a is totally private to fnc. This is a way of creating private variables in a functional programming language such as JavaScript.

As you might be able to guess, when I call fnc() it alerts the value of a, which is "1".

In a language without closure, the variable a would have been garbage collected and thrown away when the function outer exited. In JavaScript, the variable a persists because it is still in scope for the returned function fnc. It is within the closure.

Why is it like this?

In a functional language like JavaScript where functions can be assigned to variables and passed around like any other data type, portability matters. We want functions to continue working no matter what the context. Closure give us this ability to close over the context, i.e. all the local variables which were in scope when the function was defined.

Module Pattern

The above code is rather long winded. We can simplify it into what is known in the JavaScript community as a module pattern:

(function() {
  var a = 1;
  var inner = function() {
  window.fnc = inner;


This code is entirely equivalent to the first example.

We declare all our working variables within the closure as local (i.e. private) variables. Then, when we're done, we expose only the variables we want by setting them as attributes of window (making them global).

The braces at the end of the function declaration make it self executing.

The newly exposed code has access to all the local variables which were in scope when it was defined. You'll find exactly this pattern used in most common JavaScript libraries such as JQuery. It's a way of hiding away your API: you build it within a closure, and then deliberately expose only the parts you want to be accessed.

The exposed function fnc will continue have access to all the local variables (a) that were in scope when it was defined.

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I thought this was a pretty good and easy to understand example. –  user12345613 Dec 28 '11 at 15:21
Thanks for the awesome explanation, I've seen many but this is the time I really got it. –  Dimitar Dimitrov Apr 15 '13 at 9:04
Could I have an example of how this works in a library like JQuery as stated in the 2nd to last paragraph? I didn't totally understand that. –  Jubbat Nov 8 '13 at 19:06
Hi Jubbat, yes, open up jquery.js and take a look at the first line. You'll see a function is opened. Now skip to the end, you'll see window.jQuery = window.$ = jQuery. Then the function is closed and self executed. You now have access to the $ function, which in turn has access to the other functions defined in the closure. Does that answer your question? –  superluminary Nov 8 '13 at 21:48
Speaking on behalf of the new Swift community coming from the abandoned land of Objective-C: Thanks. This answer is perfection. –  Adam Waite Jun 3 at 23:46

Kyle's answer is pretty good. I think the only additional clarification is that the closure is basically a snapshot of the stack at the point that the lambda function is created. Then when the function is re-executed the stack is restored to that state before executing the function. Thus as Kyle mentions, that hidden value (count) is available when the lambda function executes.

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It's not just the stack -- it's the enclosing lexical scope(s) that are preserved, regardless of whether they're stored on the stack or the heap (or both). –  Matt Fenwick Nov 6 '12 at 13:16

To help facilitate understanding of closures it might be useful to examine how they might be implemented in a procedural language. This explanation will follow a simplistic implementation of closures in Scheme.

To start, I must introduce the concept of a namespace. When you enter a command into a Scheme interpreter, it must evaluate the various symbols in the expression and obtain their value. Example:

(define x 3)

(define y 4)

(+ x y) returns 7

The define expressions store the value 3 in the spot for x and the value 4 in the spot for y. Then when we call (+ x y), the interpreter looks up the values in the namespace and is able to perform the operation and return 7.

However, in Scheme there are expressions that allow you to temporarily override the value of a symbol. Here's an example:

(define x 3)

(define y 4)

(let ((x 5))
   (+ x y)) returns 9

x returns 3

What the let keyword does is introduces a new namespace with x as the value 5. You will notice that it's still able to see that y is 4, making the sum returned to be 9. You can also see that once the expression has ended x is back to being 3. In this sense, x has been temporarily masked by the local value.

Procedural and object-oriented languages have a similar concept. Whenever you declare a variable in a function that has the same name as a global variable you get the same effect.

How would we implement this? A simple way is with a linked list - the head contains the new value and the tail contains the old namespace. When you need to look up a symbol, you start at the head and work your way down the tail.

Now let's skip to the implementation of first-class functions for the moment. More or less, a function is a set of instructions to execute when the function is called culminating in the return value. When we read in a function, we can store these instructions behind the scenes and run them when the function is called.

(define x 3)

(define (plus-x y)
  (+ x y))

(let ((x 5))
  (plus-x 4)) returns ?

We define x to be 3 and plus-x to be its parameter, y, plus the value of x. Finally we call plus-x in an environment where x has been masked by a new x, this one valued 5. If we merely store the operation, (+ x y), for the function plus-x, since we're in the context of x being 5 the result returned would be 9. This is what's called dynamic scoping.

However, Scheme, Common Lisp, and many other languages have what's called lexical scoping - in addition to storing the operation (+ x y) we also store the namespace at that particular point. That way, when we're looking up the values we can see that x, in this context, is really 3. This is a closure.

(define x 3)

(define (plus-x y)
  (+ x y))

(let ((x 5))
  (plus-x 4)) returns 7

In summary, we can use a linked list to store the state of the namespace at the time of function definition, allowing us to access variables from enclosing scopes, as well as providing us the ability to locally mask a variable without affecting the rest of the program.

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okay, thanks to your answer, I think that I finally have some idea what closure is about. But there is one big question: "we can use a linked list to store the state of the namespace at the time of function definition, allowing us to access variables that otherwise would no longer be in scope." Why do we want to access variables that are out of scope? when we say let x = 5, we want x to be 5 and not 3. What is happening? –  Lazer May 23 '10 at 11:28
@Laser: Sorry, that sentence didn't make much sense, so I updated it. I hope it makes more sense now. Also, don't think of the linked list as an implementation detail (as it's very inefficient) but as a simple way of conceptualize how it could be done. –  Kyle Cronin May 23 '10 at 15:28

A closure is a function that can reference state in another function. For example, in Python, this uses the closure "inner":

def outer (a):
    b = "variable in outer()"
    def inner (c):
        print a, b, c
    return inner

# Now the return value from outer() can be saved for later
func = outer ("test")
func (1) # prints "test variable in outer() 1
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Here's a real world example of why Closures kick ass... This is straight out of my Javascript code. Let me illustrate.

Function.prototype.delay = function(ms /*[, arg...]*/) {
  var fn = this,
      args = Array.prototype.slice.call(arguments, 1);

  return window.setTimeout(function() {
      return fn.apply(fn, args);
  }, ms);

And here's how you would use it:

var startPlayback = function(track) {

Now imagine you want the playback to start delayed, like for example 5 seconds later after this code snippet runs. Well that's easy with delay and it's closure:

startPlayback.delay(5000, someTrack);
// Keep going, do other things

When you call delay with 5000ms, the first snippet runs, and stores the passed in arguments in it's closure. Then 5 seconds later, when the setTimeout callback happens, the closure still maintains those variables, so it can call the original function with the original parameters.
This is a type of currying, or function decoration.

Without closures, you would have to somehow maintain those variables state outside the function, thus littering code outside the function with something that logically belongs inside it. Using closures can greatly improve the quality and readiblity of your code.

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It should be noted that extending language or host objects is generally considered a bad thing as they are part of the global namespace –  Jon Cooke May 29 at 3:10

In a normal situation, variables are bound by scoping rule: Local variables work only within the defined function. Closure is a way of breaking this rule temporarily for convenience.

def n_times(a_thing)
  return lambda{|n| a_thing * n}

in the above code, lambda(|n| a_thing * n} is the closure because a_thing is referred by the lambda (an anonymous function creator).

Now, if you put the resulting anonymous function in a function variable.

foo = n_times(4)

foo will break the normal scoping rule and start using 4 internally.


returns 12.

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Here is another real life example, and using a scripting language popular in games - Lua. I needed to slightly change the way a library function worked to avoid a problem with stdin not being available.

local old_dofile = dofile

function dofile( filename )
  if filename == nil then
    error( 'Can not use default of stdin.' )

  old_dofile( filename )

The value of old_dofile disappears when this block of code finishes it's scope (because it's local), however the value has been enclosed in a closure, so the new redefined dofile function CAN access it, or rather a copy stored along with the function as an 'upvalue'.

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In short, function pointer is just a pointer to a location in the program code base (like program counter). Whereas Closure = Function pointer + Stack frame.


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