# Javascript's Array Reverse

How exactly does Javascript's `array.reverse()` work? Does it go through and swap every element of the array? If so, does it take O(n) to swap an array of size n?

I guess the reason I am asking is because I was wondering if `array.reverse()` was the same as:

``````for(var i = 0; i < a.length / 2; i++) {
var holder = a[i];
a[i] = a[a.length - 1 - i];
a[a.length - 1 - i] = holder;
}
``````

NOTE: Sorry if the Javascript code I posted is incorrect, it's pretty late right now.

EDIT: Fixed `a.length` to `a.length / 2`.

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It's incorrect because by traversing the array in full, you'll swap all the elements twice and return to the original array. Use `a.length / 2` (integer division of a.length and 2) –  xanatos Oct 27 '11 at 7:19

## 3 Answers

For the full details of how it works, read the relevant section of the spec. Here's the algorithm:

1. Let O be the result of calling ToObject passing the this value as the argument.

1. Let lenVal be the result of calling the [[Get]] internal method of O with argument "length".
2. Let len be ToUint32(lenVal).
3. Let middle be floor(len/2).
4. Letlower be 0.
5. Repeat, while lower ≠ middle

1. Let upper be len−lower −1.
2. Let upperP be ToString(upper).
3. Let lowerP be ToString(lower).
4. Let lowerValue be the result of calling the [[Get]] internal method of O with argument lowerP.
5. Let upperValue be the result of calling the [[Get]] internal method of O with argument upperP .
6. Let lowerExists be the result of calling the [[HasProperty]] internal method of O with argument lowerP.
7. Let upperExists be the result of calling the [[HasProperty]] internal method of O with argument upperP.
8. If lowerExists is true and upperExists is true, then

9. Call the [[Put]] internal method of O with arguments lowerP, upperValue, and true .

10. Call the [[Put]] internal method of O with arguments upperP, lowerValue, and true .
11. Else if lowerExists is false and upperExists is true, then
12. Call the [[Put]] internal method of O with arguments lowerP, upperValue, and true .
13. Call the [[Delete]] internal method of O, with arguments upperP and true.
14. Else if lowerExists is true and upperExists is false, then
15. Call the [[Delete]] internal method of O, with arguments lowerP and true .
16. Call the [[Put]] internal method of O with arguments upperP, lowerValue, and true .
17. Else, both lowerExists and upperExists are false
18. No action is required.
19. Increase lower by 1.
6. Return O .
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The actual algorithm is almost similar to what you specified. Just change your `for` loop to iterate only upto `a.length/2` and it would be similar to what `Array.reverse` would do. I am skipping the inner details here for the sake of simplicity. So it would be

``````for(var i = 0; i < a.length/2; i++) {
var holder = a[i];
a[i] = a[a.length - 1 - i];
a[a.length - 1 - i] = holder;
}
``````
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``````var a = new Array();
var reverse = function() {
var reversedArray = new Array();

var i = 0;
var j = this.length - 1;
while(i < this.length)
reversedArray[j--] = this[i++];
reversedArray.__proto__.reverse = this.reverse;
this = reversedArray;
}
a.__proto__.reverse = reverse;
``````

This is a basic implementation for Array.reverse() and, as you can see, it is O(n) complexity. Note that this code does not run correctly in at least v8/Chrome, but there is nothing in the JavaScript language specification that prevents this code from being valid. This, this code not execution properly can be considered a bug in the JavaScript engine.

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It looks like your code would reverse the array twice. Once when i < j and again when j < i. You need to set i<j as your stop condition. –  Tom Leys Jul 3 at 8:19