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I always assumed caching the length of an array in JavaScript is a good idea (especially in the condition of a for loop) because of the expensiveness of calculating the length of an array.

Example

for (var i = 0; i < arr.length; i++) { }

// vs

for (var i = 0, arrLength = arr.length; i < arrLength; i++) { }

However, I thought perhaps the length property is only updated on creation and alteration of the array. Therefore, reading it shouldn't be too expensive an operation as opposed to reading it stored in a variable (as opposed to other methods in other languages that may need to seek in memory to find the end of something, e.g. strlen() in C).

I have two questions. I am also interested in how this works, so please don't hit me with the premature optimisation stick.

Assume the JavaScript engines in browsers.

  1. Is there any advantage to caching the length property of an array in JavaScript? Is there much more involved in reading a local variable over an object's property?
  2. Is the length property simply altered on creation and on shift() and pop() type methods that don't return a new array and otherwise simply stored as an integer?
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5 Answers 5

up vote 21 down vote accepted

Well, I would have said it was expensive, but then I wrote a little test @ jsperf.com and to my surprise using i<array.length actually was faster in Chrome, and in FF(4) it didn't matter.

My suspicion is that length is stored as an integer (Uint32). From the ECMA-specs (262 ed. 5, page 121):

Every Array object has a length property whose value is always a nonnegative integer less than 232. The value of the length property is numerically greater than the name of every property whose name is an array index; whenever a property of an Array object is created or changed, other properties are adjusted as necessary to maintain this invariant. Specifically, whenever a property is added whose name is an array index, the length property is changed, if necessary, to be one more than the numeric value of that array index; and whenever the length property is changed, every property whose name is an array index whose value is not smaller than the new length is automatically deleted. This constraint applies only to own properties of an Array object and is unaffected by length or array index properties that may be inherited from its prototypes

Phew! I don't know if I ever get used to such language ...

Finally, we always have our good old lagging behind browser. In IE (9, 8, 7) caching the length is really faster. One of many more reasons to not use IE, I say.

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In my Chrome 10.0.648.127 on Linux i686 it didn't matter as well. –  Gabi Purcaru Apr 22 '11 at 7:01
3  
Arrays in scripting languages (Ruby, Perl, ...) usually know two lengths as simple integers: how many slots have been allocated and how many slots are in use (i.e. the length). Anyone that would do it differently in a JavaScript engine probably shouldn't be allowed anywhere near a compiler :) Arrays usually know how long they are without computing it. Except in C of course. –  mu is too short Apr 22 '11 at 7:16
    
Since most modern JS engines actually do some JIT compiling, I expect them to simply identify such a common idiom and replace it with the most efficient variant. So the Java rule becomes true again: write simple, straightforward code. –  Joachim Sauer Apr 22 '11 at 7:20
    
@Joachim Sauer. Suppose that's true. Anyway, why should write simple, straightforward code be claimed as a Java rule? –  KooiInc Apr 22 '11 at 7:22
2  
I'd say that since caching the length does make a difference in IE and IE (at least before IE 9) is the hugely slowest browser, it's an optimization that could be worthwhile. –  Tim Down Apr 22 '11 at 10:46

TL;DR:

From what I can gather, it seems like the length of the array is cached internally (at least in V8)..

(Details? Read on :))

So, this question has dinged around in my head a few times and I've decided to get to the root of the problem (at least, in one implementation).

Digging around V8 source yielded the JSArray class.

// The JSArray describes JavaScript Arrays
//  Such an array can be in one of two modes:
//    - fast, backing storage is a FixedArray and length <= elements.length();
//       Please note: push and pop can be used to grow and shrink the array.
//    - slow, backing storage is a HashTable with numbers as keys.

I'm making an assumption that the type of array elements dictates whether it's fast or slow. I got down to a bit flag being set in set_has_fast_elements (set_bit_field2(bit_field2() | (1 << kHasFastElements))), which is where I figured I'd draw the digging line as I was looking in google code and don't have the source locally.

Now, it seems that any time any operation is done on the array (which is a child class of JSObject, a call is made to NormalizeElements(), which executes the following:

// Compute the effective length.
  int length = IsJSArray() ?
      Smi::cast(JSArray::cast(this)->length())->value() :
      array->length();

So, in answering your questions:

  1. There doesn't seem to be any advantage in Chrome (or other browsers that use V8) to caching the length property of an array (unless you're doing something odd that would force it to be slow (I'm not sure what those conditions are) - having said that, I'll most likely continue to cache length until I get a chance to go through all OS browser implementations ;)
  2. The length property seems to be altered after any operation on the object.

Edit:

On a side note, it seems that an "empty" array is actually allocated to have 4 elements:

// Number of element slots to pre-allocate for an empty array.
static const int kPreallocatedArrayElements = 4;

I'm not sure how many elements the array grows by once the bounds have been exceeded - I didn't dig that deep :)

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Typical implementations will grow the array by a constant multiple of the size of the array - usually by doubling, by tripling, quadrupling, etc. all yield the same amortized O(1) for inserting. –  Matt Ball Apr 24 '11 at 14:49
    
@matt: thanks - would have figured as much, but didn't know for sure as I didn't dig deeper :) –  Demian Brecht Apr 25 '11 at 13:50
4  
That's one long tl;dr, but +1 for digging browser source code. –  Camilo Martin Sep 10 '12 at 3:20

Another set of performance tests. The loop is done over an array of million random numbers with an empty loop.

In Chrome, the loops with cached and non-cached lengths clock pretty much the same times, so I am guessing it's a V8 optimization to cache the length.

In Safari and Firefox, the cached length was consistently about 2x faster than the non-cached version.

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Just a note:

On some browsers (I've noticed it in Safari, IE, and Opera), you can get a speed boost by caching the length inside the for loop declaration:

var j;
for (var i = 0, len = arr.length; i < len; i++) {
  j = arr[i];
}

I edited @KooiInc's jsperf test above to add this case.

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Of interest, I just ran this test on the main four browsers (now included in the chart) and storing length is a pretty noticeable positive in IE and Safari, but it provides no benefit in Chrome and Firefox. Surprisingly, Firefox blew the other browsers away. Unsurprisingly, Safari was by far the slowest in my test. –  pickypg Jun 7 '13 at 20:10

This article investigates automatic caching in V8 and Chrome, by asking IRHydra for the generated code:

How the Grinch stole array.length access by Vyacheslav Egorov

His conclusion was that both in cases where the compiler could and could not automatically cache the value of length, manual caching added overhead rather than improving performance!

However, performance in other browsers may vary. (See other answers.)

But anyway, this kind of micro-optimization is unlikely to achieve any noticeable gain for your users. For their benefit, and for yours, focus instead on code that is clear to read, and using good data structures and algorithms in your code!

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