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I was messing around with the benchmark site jfprefs and created my own benchmark at

The benchmarks are variations of Javascript for loops, using prefix and postfix incrementors and the Crockford jslint style of not using an in place incrementor.

for (var index = 0, len = data.length; index < len; ++index) {
  data[index] = data[index] * 2;

for (var index = 0, len = data.length; index < len; index++) {
  data[index] = data[index] * 2;

for (var index = 0, len = data.length; index < len; index += 1) {
  data[index] = data[index] * 2;

After getting the numbers from a couple of runs of the benchmark, I noticed that Firefox is doing about 15 operations per second on average and Chrome is doing around 300.

benchmark results

I thought JaegerMonkey and v8 were fairly comparable in terms of speed? Are my benchmarks flawed somehow, is Firefox doing some kind of throttling here or is the gap really that large between the performance of the Javascript interpreters?

UPDATE: Thanks to jfriend00, I've concluded the difference in performance is not entirely due to the loop iteration, as seen in this version of the test case. As you can see Firefox is slower, but not as much of a gap as we see in the initial test case.

So why is the statement,

data[index] = data[index] * 2;

So much slower on Firefox?

share|improve this question
Why would you put a math operation and an array operation inside the for loop? How do you know whether the speed difference is the for loop or the operation inside the loop? –  jfriend00 Sep 8 '12 at 4:23
either way, it is still a huge difference –  Vic Sep 8 '12 at 4:24
jfriend00, you have to put something in the for loop, I imagine the interpreter would possibly optimize out a for loop with nothing in it. –  James McMahon Sep 8 '12 at 4:25
@Vic - yeah, but the question is about the for loop and this benchmark isn't accurately comparing for loops. –  jfriend00 Sep 8 '12 at 4:26
Unrelated to the actual question, the JavaScript engine in Firefox is SpiderMonkey (aka TraceMonkey or JägerMonkey), not Rhino. Rhino is a separate Mozilla project written in Java, and the performance is definitely not comparable to V8 or SpiderMonkey (but is improving). –  Matthew Crumley Sep 9 '12 at 0:03

2 Answers 2

up vote 4 down vote accepted

Arrays are tricky in JavaScript. The way you create them, how you fill them (and with what values) can all affect their performance.

There are two basic implementations that engines use. The simplest, most obvious one is a contiguous block of memory (just like a C array, with some metadata, like the length). It's the fastest way, and ideally the implementation you want in most cases.

The problem is, arrays in JavaScript can grow very large just by assigning to an arbitrary index, leaving "holes". For example, if you have a small array:

var array = [1,2,3];

and you assign a value to a large index:

array[1000000] = 4;

you'll end up with an array like this:

[1, 2, 3, undefined, undefined, undefined, ..., undefined, 4]

To save memory, most runtimes will convert array into a "sparse" array. Basically, a hash table, just like regular JS objects. Once that happens, reading or writing to an index goes from simple pointer arithmetic to a much more complicated algorithm, possibly with dynamic memory allocation.

Of course, different runtimes use different heuristics to decide when to convert from one implementation to another, so in some cases, optimizing for Chrome, for example, can hurt performance in Firefox.

In your case, my best guess is that filling the array backwards is causing Firefox to use a sparse array, making it slower.

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I hate to give you such a simple answer, but pretty simply: instruction branching:

From what I get from the benchmark, there's something under the hood in these engines that is giving the instruction prediction features of the processor hell.

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There are no conditional statements in the loops, this has nothing to do with branch prediction. –  verdesmarald Sep 8 '12 at 16:22
-1 branch prediction is olny relevant to compiled and optimized code (e.g. C++) possibly you might see some impacts in a Java JiT compiled environment, but it is totally irrelevant to javascript. LoL –  TerryE Sep 8 '12 at 16:54
Oh, okay, so... browsers aren't compiled? What about their engines? I suppose neither of them are written in C++ either. –  alvonellos Sep 8 '12 at 17:07
Branch prediction is an optimization that the CPU core takes at a microcode level to try to keep its opcode cache full. Basically when it predicts wrong then it loses a few clock cycles when it has to dump work in progress. So in a tight compiled loop this does make a difference. Javascript is interpreted and uses dynamically typed variables. Each js instruction requires ~1,000s of CPU instructions to execute. BP impacts the JS RTS, but not the interpreted JS. Using sarcasm doesn't change this. –  TerryE Sep 9 '12 at 9:50
@TerryE Some minor corrections to that are that. 1. ECMAScript is a language and it doesn't define whether it's being interpreted or compiled, that's done by the engine. 2. Modern engines (V8 and SpiderMonkey) are both Just-In-Time Compilers, they both compile JS to opcodes in a memory region and then execute that memory region. That doesn't change that a single assignment requires more opcodes than an assignment in C, but it's not 1000s of CPU instructions. –  Aidiakapi Apr 5 '13 at 19:33

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