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I'm working on some fast looping for a project, and I decided to throw together a simple test to see how the performance varied when comparing runnning a more complex inner loop, vs. running several simple inner loops. Here is the jsperf for it:

http://jsperf.com/nested-fors-vs-iterative-fors

I'm surprised at how significant the difference appears to be.

Can anyone either point out why my test is bad (which may well be the case), or explain why the performance difference.

Thanks!

idb

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I got a ReferenceError: _ is not defined. in the page you linked. –  hugomg Jul 13 '11 at 3:55
    
Same as missingno. –  RobG Jul 13 '11 at 3:55

3 Answers 3

up vote 3 down vote accepted

I don't know why you need underscore.js and jQuery for this. I've written a non-library version that compares:

  1. 100 loops of 10 loops of 1 call each (1,000 calls)
  2. 100 loops of 10 calls (1,000 calls)
  3. 200 loops of 5 calls (1.000 calls)
  4. 1,000 loops of 1 call (1,000 calls)

The performance of each is pretty similar.

I think your issue is that the first case is 100 anonymous functions making 10 calls each. The second is 1,000 anonymous functions making one call each. The overhead is likely in creating the anonymous functions (though I have not looked at the related internal parts of the libraries being used).

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+1 for a very nice jsperf test! –  Sean Vieira Jul 13 '11 at 4:57
    
Thanks RobG - I now see the problem with my test! I only used underscore.js because it's a library I use commonly, and I'm familiar with it. I don't imagine that it's iterator could be that heavy, but I'm not too sure. –  idbentley Jul 13 '11 at 13:11

In the first case you call one iterator function 100 times. In the second case, you call 10 iterator functions 100 times. That's 10 times the number of function calls. I'd say that overhead is what's causing the difference.

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+1. The second case as 10 times as many function calls. –  RobG Jul 13 '11 at 4:30

I think there is an apples-to-oranges issue with your tests - in your first one you loop over the array of integers 1 * 100 times for a total of 100 executions of your function (which executes your doSomething function 10 times for a total of 1,000 executions.)

Your second case loops over the array of integers 10 * 100 times for a total of 1,000 executions of 10 anonymous functions each of which calls your doSomething function once. Traversing a 100-item array 10 times will take more time than traversing it once. Creating 10 anonymous functions and calling them 100 times each is definitely more overhead than creating one anonymous function and calling it 100 times. Those two things combined make your tests completely different.

Try this instead:

function doSomething(a) {
  a * 10 + a * 1000000.0 / 50.0;
}
var range = _.range(100),
    total_runs = _.range(10);
_.each(total_runs, function(a) {
    _.each(range, doSomething);
});
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I don't think traversing the array takes much time, it seems to be highly optimised. It's likely the 10 times as many anonymous functions that require extra work and hence takes longer. –  RobG Jul 13 '11 at 4:25
    
@RobG -- possibly. I'd wager it has more to do with the fact that _.each calls the function it is passed each time in the context of an optional context object and does some additional checks on each loop. Nested loops of this kind are never going to win against more tightly optimized (read, more use-case specific) code.(See: documentcloud.github.com/underscore/docs/…) But only a profiler will give us a sure and final answer. :-) –  Sean Vieira Jul 13 '11 at 4:57

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