Why was the arguments.callee.caller property deprecated in JavaScript?

It was added and then deprecated in JavaScript, but it was omitted altogether by ECMAScript. Some browser (Mozilla, IE) have always supported it and don't have any plans on the map to remove support. Others (Safari, Opera) have adopted support for it, but support on older browsers is unreliable.

Is there a good reason to put this valuable functionality in limbo?

(Or alternately, is there a better way to grab a handle on the calling function?)

  • 2
    It's supported by other browsers because any feature that gets a modicum of widespread use will become a compatibility bug for other browser. If a site uses a feature that only exists in one browser, the site is broken in all others, and typically users think that it's the browser that is broken.
    – olliej
    Oct 25, 2008 at 2:04
  • 4
    (Almost all browsers have done this at one time or another, eg. this feature (and JS itself) comes from Netscape, XHR originated in IE, Canvas in Safari, etc. Some of these are useful and are picked up by the other browsers over time (js, canvas, xhr are all examples), some (.callee) are not.
    – olliej
    Oct 25, 2008 at 2:08
  • @olliej Your comment about supporting it because it is used and not because it is a standard (or even despite it being deprecated in the standard) is very true! This is why I started mostly ignoring the standards whenever I feel they are not helping me. We as developers can shape the direction of standards by using what works and not what the spec says we should do. This is how we got <b> and <i> back (yes, those were deprecated at one point). Apr 17, 2017 at 20:22

4 Answers 4


Early versions of JavaScript did not allow named function expressions, and because of that we could not make a recursive function expression:

 // This snippet will work:
 function factorial(n) {
     return (!(n>1))? 1 : factorial(n-1)*n;

 // But this snippet will not:
 [1,2,3,4,5].map(function(n) {
     return (!(n>1))? 1 : /* what goes here? */ (n-1)*n;

To get around this, arguments.callee was added so we could do:

 [1,2,3,4,5].map(function(n) {
     return (!(n>1))? 1 : arguments.callee(n-1)*n;

However this was actually a really bad solution as this (in conjunction with other arguments, callee, and caller issues) make inlining and tail recursion impossible in the general case (you can achieve it in select cases through tracing etc, but even the best code is sub optimal due to checks that would not otherwise be necessary). The other major issue is that the recursive call will get a different this value, for example:

var global = this;
var sillyFunction = function (recursed) {
    if (!recursed)
        return arguments.callee(true);
    if (this !== global)
        alert("This is: " + this);
        alert("This is the global");

Anyhow, EcmaScript 3 resolved these issues by allowing named function expressions, e.g.:

 [1,2,3,4,5].map(function factorial(n) {
     return (!(n>1))? 1 : factorial(n-1)*n;

This has numerous benefits:

  • The function can be called like any other from inside your code.

  • It does not pollute the namespace.

  • The value of this does not change.

  • It's more performant (accessing the arguments object is expensive).


Just realised that in addition to everything else the question was about arguments.callee.caller, or more specifically Function.caller.

At any point in time you can find the deepest caller of any function on the stack, and as I said above, looking at the call stack has one single major effect: It makes a large number of optimizations impossible, or much much more difficult.

Eg. if we can't guarantee that a function f will not call an unknown function, then it is not possible to inline f. Basically it means that any call site that may have been trivially inlinable accumulates a large number of guards, take:

 function f(a, b, c, d, e) { return a ? b * c : d * e; }

If the js interpreter cannot guarantee that all the provided arguments are numbers at the point that the call is made, it needs to either insert checks for all the arguments before the inlined code, or it cannot inline the function.

Now in this particular case a smart interpreter should be able to rearrange the checks to be more optimal and not check any values that would not be used. However in many cases that's just not possible and therefore it becomes impossible to inline.

  • 12
    Are you saying it is depricated just because it's hard to optimize? That's kinda silly. Aug 17, 2010 at 23:57
  • 11
    No, i listed a number of reasons, in addition to it making it hard to optimise (although in general history has shown that things that are hard to optimise also have semantics that people have difficulty following)
    – olliej
    Aug 27, 2010 at 9:23
  • 19
    The this argument is a bit spurious, its value can be set by the call if it's important. Usually it's not used (at least, I've never had an issue with it in recursive functions). Calling the function by name has the same issues with this so I think it's irrelevant in regard to whether callee is good or bad. Also, callee and caller are only "deprecated" in strict mode (ECMAscript ed 5, Dec 2009), but I guess that wasn't known in 2008 when olliej posted.
    – RobG
    May 27, 2011 at 3:24
  • 9
    )I still don't see the logic. In any language with first-class functions, there's clear value in being able to define a function body that can refer to itself without having to know i
    – Mark Reed
    Oct 20, 2011 at 19:41
  • 8
    RobG pointed this out, but I don't think it was all that clear: recursing using a named function will only preserve the value of this if this is the global scope. In all other cases, the value of this will change after the first recursive call, so I think the parts of your answer alluding to the preservation of this are not really valid.
    – JLRishe
    Jan 22, 2014 at 13:31

arguments.callee.caller is not deprecated, though it does make use of the Function.caller property. (arguments.callee will just give you a reference to the current function)

  • Function.caller, though non-standard according to ECMA3, is implemented across all current major browsers.
  • arguments.caller is deprecated in favour of Function.caller, and isn't implemented in some current major browsers (e.g. Firefox 3).

So the situation is less than ideal, but if you want to access the calling function in Javascript across all major browsers, you can use the Function.caller property, either accessed directly on a named function reference, or from within an anonymous function via the arguments.callee property.

  • 5
    This is the best explanation of what is and isn't deprecated, very useful. For a good example of what Function.caller can't do (get the stack trace of recursive functions), see developer.mozilla.org/en/JavaScript/Reference/Global_Objects/… Nov 9, 2011 at 19:18
  • 2
    Though, arguments.callee is forbidden in strict mode. It made me sad too, but it's better to no longer use it. Apr 14, 2015 at 23:25
  • 1
    The arguments.callee hyperlink you have to MDN says that it is removed in strict mode. Is that not the same as deprecated?
    – styfle
    Apr 11, 2017 at 20:19
  • 1
    Note that arguments.callee.caller is deprecated in ES5 strict mode: "Another feature that was deprecated was arguments.callee.caller, or more specifically Function.caller." (Source)
    – thdoan
    May 16, 2018 at 10:42
  • 1
    Function.caller is also deprecated now
    – Ooker
    Jul 28, 2023 at 7:33

It is better to use named functions than arguments.callee:

 function foo () {
     ... foo() ...

is better than

 function () {
     ... arguments.callee() ...

The named function will have access to its caller through the caller property:

 function foo () {

which is better than

 function foo () {

The deprecation is due to current ECMAScript design principles.

  • 2
    Can you describe why using the named function is better. Is there never a need to use callee in an anonymous function? Sep 19, 2008 at 18:49
  • 28
    If you are using callee in an anonymous function, then you have a function that should not be anonymous.
    – Prestaul
    Sep 19, 2008 at 19:42
  • 3
    sometimes the easiest way to debug is with .caller(). In such cases named functions won't help - you are trying to work out which function is doing the calling.
    – SamGoody
    Dec 13, 2010 at 11:02
  • 6
    Define better. For example, IE6-8 have named function quirks while arguments.callee works.
    – cmc
    Jan 21, 2012 at 2:27
  • 1
    Aside from the IE6-8 quirks, it also makes code tightly coupled. If the names to objects and/or functions is hardcoded, then as ardsasd and rsk82 mention there are major refactoring dangers, which only increase as the code base size increases. Unit tests are a line of defense, and I use them, but they're still not an answer that really satiates me personally regarding this hardcoding issue. May 1, 2013 at 18:43

It still works in js strict mode / type="module" by using new Function. but detected malware by kapersky anti virus

<script type="module">
let fn = new Function(`e`,`
   new Function('console.log(arguments.callee.caller)')()

  • 1
    new Function and eval() is basically a new context. Non-module, non-strict.
    – Evert
    May 15, 2023 at 16:08

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