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I understand the issues with global scope and javascript variables and their general undesirability; and that you find them everywhere. The following (in a browser) is equivalent:

var foo = 3; // foo === 3, === 3
bazz = 10; // bazz === 10, window.bazz === 10

Declaring a variable with the var keyword in the global scope is the same as declaring it without a var anywhere in the code: your variable is assigned to the root (window) object.

One technique I see a lot (e.g. setting up google analytics) is this:

var _gaq = _gaq || [];

... and I follow the reasoning that if _gaq has been declared use that, if not create it as an array. It allows careless coding not to overwrite any values already assigned to the global variable _gaq.

What I don't understand is why this throws an error:

_gaq = _gaq || [];

They look equivalent to me: _gaq should take the value of _gaq or be initialised as an array. But it throws a reference error - my question is: why are they different?

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They're not exactly equivalent, they differ in behavior when you try to delete them. –  Bergi Mar 13 '13 at 14:59
The best explanation of 'undeclared assignments' and why they're different to global assignments (foo=0!=var foo=0 in the global scope) I can find is on this blog which has helped me understand the intrinsic difference. –  Party Ark Mar 13 '13 at 16:04

4 Answers 4

up vote 6 down vote accepted

You can never read variables which have not been declared, and that's what you are trying with the expression _gaq || [] in the last case.

In this case

 _gaq = _gaq || [];

_qaq has not been declared before and when the right hand side (_gaq || []) is evaluated, it throws the error.

Here is step by step explanation of what is going on in this case:

The assignment operator is described in section 11.13.1 of the specification:

The production AssignmentExpression : LeftHandSideExpression = AssignmentExpression is evaluated as follows:

1. Let lref be the result of evaluating LeftHandSideExpression.
2. Let rref be the result of evaluating AssignmentExpression.

LeftHandSideExpression is _gaq, the AssignmentExpression is _gqa || [].

So first _qaq is evaluated, which results in an unresolvable reference, since the variable _gaq is not declared. This evaluation does not throw an error.

Then _gqa || [] is evaluated. This is a LogicalORExpression and is described in section 11.11 as LogicalORExpression || LogicalANDExpression. In this case, LogicalORExpression, the left hand side, is _gaq and LogicalANDExpression, the right hand side, is [].
The expression is evaluated as follows:

1. Let lref be the result of evaluating LogicalORExpression.
2. Let lval be GetValue(lref).

We already know that lref will be an unsolvable reference because _gaq was not declared. So lets have a look what GetValue is doing (defined in section 8.7.1, V is the value passed to GetValue):

1. If Type(V) is not Reference, return V.
2. Let base be the result of calling GetBase(V).
3. If IsUnresolvableReference(V), throw a ReferenceError exception.

As you can see, a ReferenceError error is thrown in the third step of this procedure, which in turn gets executed by evaluating the right hand side of the assignment, and this is where the error is thrown.

So, why does this not happen with var _gaq = _gaq || []; ?

This line:

var _gaq = _gaq || [];

is actually

var _gaq;
_gaq = _gaq || [];

because of something called hoisting [MDN]. That means when _gaq is evaluated, it will not result in an unresolvable reference, but a reference with value undefined.

(If the variable _gaq is already declared (and potentially has a value), then var _gaq won't have any effect.)

If you want to create _gaq globally from inside a function, do it explicitly by referring to window:

window._gaq = window._gaq || [];
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That looks right! "You can never read variables which have not been declared" , I'm not I agree with this statement. window.x for example reads fine and returns the primitive value type undefined if the variable x has not been declared in window (assuming we did not define window.x ) –  Benjamin Gruenbaum Mar 13 '13 at 15:08
@Benjamin: But in this case, window.x is a property of the window object, not a variable. And although global variables are properties of the global object, it's not that you access the window object, when you reference a global variable "implicitly", the properties of window are just put into the functions scope chain. –  Felix Kling Mar 13 '13 at 15:08
Thank you that makes it much clearer. However, it suggests the question: what 'magic' is occurring when one simply writes 'foo = 10'? If the javascript engine infers or creates an implicit 'var foo;' statement, then why doesn't it do so for my example? –  Party Ark Mar 13 '13 at 15:12
That's interesting, I'm not sure I understand the distinction. Would you mind explaining why x throws a ReferenceError while this.x throws undefined while they usually mean the same thing? –  Benjamin Gruenbaum Mar 13 '13 at 15:13
@PartyArk: foo = 10; does not create an implicit var foo, it will create a property foo on the window element. As bfavaretto already mentioned, the problem is not on the left hand side of = but on the right hand side. –  Felix Kling Mar 13 '13 at 15:15

If the _gaq to the right of = was not previous declared with var, it will throw a reference error. You're trying to reference a variable that does not exist. The "magic" just works for assigning to non-existing variables.

It's just like saying x = y + 1; the problem is not the non-existing x, but the non-existing y.

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Thanks. So I understand that the engine tries to work out the value of the variable and errors because it's not been declared. That makes sense. Where I had it wrong is that just leaving off the 'var' for globals is not a shorthand/optional way of declaring them, even though that's the way it mostly looks. –  Party Ark Mar 13 '13 at 15:30
@Part: No, omitting the var is ok as shorthand. The problem is not writing to an undeclared variable, it's reading one. Just as in the example in this answer x = y + 1. x would become global if y was declared but since it isn't it will throw an error that y is not declared. The right hand side is evaluate first, so in the case of x = x || 42; you are trying to read x before it is created. –  Felix Kling Mar 13 '13 at 15:42
See above, but I think it's really important to understand that the hoisting only occurs when you write var even in the global scope, and hence var x=x||0 works but x=x||0 doesn't. You might say 'well obviously' but unless you're 'short circuiting' in this fashion it does appear that a global var is just cruft. Hence my initial confusion. Thanks for the replies. –  Party Ark Mar 13 '13 at 16:36
@PartyArk I'm glad you understand it now. By the time I added the answer, I didn't realize that hoisting was confusing you. And the article you linked in the other comment above is excellent indeed, I was about to point you to the same link. –  bfavaretto Mar 13 '13 at 18:21

This will throw an error because the variable is not found in the context-chain of the current execution context. Accessing a variable that cannot be resolved will result in an error.

_gaq = _gaq || [];

This, on the other hand, will try to resolve _gac trying to look for it as a member of the window object, wich turns out to be the global context 'holder' object. The difference in this case is that it will not throw an error, but the the window._gaq will return undefined, because the property is not found in the window object.

_gaq = window._gaq || [];

So, since the global context object is the window (when speaking about browsers), if _gaq is defined, this two statements will have the same effect. The difference will be noticed when _gaq is not defined, and accessing to it using the window object can have the advantage of not getting an error.

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There underlying concept here is hoisting and it is often tricky in practice. Variables are defined at the top of a function's scope while the assignment still occurs where it is defined.

With this var _gaq = _gaq the variable is actually defined before the actual line of code for the assignment is executed. This means that when the assignment occurs the variable is already on the window scope. Without the var in front of _gaq no hoisting occurs and thus _gaq does not yet exists when the assignment runs causing the reference error.

If you want to see this in action you can check when the _gaq variable is added to the window object with the following:

function printIsPropOnWindow(propToCheck)
    for (prop in window)
        if (prop == propToCheck)
            console.warn('YES, prop ' + prop + ' was on the window object');
    console.warn('NO, prop ' + propToCheck + ' was NOT on the window object');

try {
    var _gaq = function() {
        return a;
} catch (ex) {
_gaq = "1";

If you try this once as is and once with the var before _gaq removed you will see very different results because one has the _gaq hoisted and the other does not.

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Thank you. I think my fundamental misunderstanding is that writing foo = true is exactly the same as writing var foo = true, and that in the first case the 'var' was implicit. To be fair, I think this is a fairly common misconception, because for most purposes they are the same. As Bergi points out though, the first becomes a property of the window... and so does the second. Except it's not really: deleting it will fail. In some subtle way they are different. –  Party Ark Mar 13 '13 at 15:44
@Party: The difference between var foo = ... and foo = ... in global scope has nothing to do with your problem though. Only the fact that variable declarations are hoisted. –  Felix Kling Mar 13 '13 at 15:49
@Party Ark: Felix Kling is right. The hoisting changes when foo is added to the window object. And your problem is that you are trying to assign that variable before it is added to the window scope so the line fails with error. If you have the var it is hoisted->which means it is added to the window object at the very beginning of whatever scope you are in. –  purgatory101 Mar 13 '13 at 16:11
@Felix thanks, but it is at the root of the misunderstanding. It has always looked to me that the 'var' in a global scope declaration is unneccessary; that the two statements are entirely identical and that the 'var' is implicit - I thought that if a variable is unassigned its declaration is automatically added to the global scope and so the two statements would be treated by the engine in entirely the same fashion. This is wrong!! I now know. It is understanding the nature of undeclared assignments that makes it easy to see why the assignment is failing. –  Party Ark Mar 13 '13 at 16:16
@Party: Ah I see now. Nevertheless I spent some time to go through the steps that happen when the assignment takes place, maybe it still helps. –  Felix Kling Mar 13 '13 at 16:29

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