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Most use cases of the reduce() method can be easily rewritten with a for loop. And testing on JSPerf shows that reduce() is usually 60%-75% slower, depending on the operations performed inside each iteration.

Is there any real reason to use reduce() then, other than being able to write code in a 'functional style'? If you can have a 60% performance gain by writing just a little bit more code, why would you ever use reduce()?

EDIT: In fact, other functional methods like forEach() and map() all show similar performance, being at least 60% slower than simple for loops.

Here's a link to the JSPerf test (with function calls): forloop vs forEach

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1 Answer 1

  • You might want scoping. For example you might want to make callback functions or have references to javascript objects. For more information, see why javascript is not blocked scoped.
  • Your code does not always need to run at full machine speed. You may not even be optimizing code in the bottleneck.
  • Additionally you do not provide your "testing on JSPerf" so we can critique it. For example if you already have a reduction function (or map or forEach function), then I bet the performance would be on-par. Even if not, the testing methodology may be flawed, especially given that many browsers may optimize differently or have different function-call overhead.

sidenote: this is a valid performance comparison between syntax, but an invalid performance comparison in when syntax is not the question at hand:

myArray.map(function(x){return x+1})

// ...versus...

for(var i=0; i<myArray.length; i++) {
    myArray[i] = myArray[i]+1;
}

This would be a valid performance comparison:

myArray.forEach(function(x){return x+1})

// ...versus...

var plusOne = function(x){return x+1};
for(var i=0; i<myArray.length; i++) {
    plusOne(myArray[i]);
}

// (may need a side-effect if the compiler is smart enough to optimize this)

(Also in reply to your edit: .forEach() and .map() provide much more clarity, and avoid the need for explicit loop int i=0; i<array.length; i++ arguments.)

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I disagree with you about what constitutes a valid performance comparison. The first is the valid comparison, because surely (for your example) the question is "Which method is fastest at adding one to every element of the array?", not "Which method is fastest but any method not using a function call is disqualified from entry". I would agree that if you assume you want a function anyway for scoping/closure purposes then you might as well use .reduce() or .forEach() or whatever. –  nnnnnn Mar 9 '12 at 6:57
    
The question is exactly about the syntax, so it is a valid performance comparison. Perhaps I should rephrase the question in a scenario where you want to squeeze every possible bit of performance. In that case I can't find a good reason to not use a plain for loop. Can you provide a concrete example in which scoping is absolutely needed? –  Evan You Mar 14 '12 at 1:17
    
@EvanYou: [1,2,3].forEach(function(x){setTimeout(function(){alert(x)},1000)}) (alerts 1,2,3) versus for(var i=0;i<4;i++){setTimeout(function(){alert(i)},1000)} (alerts 4,4,4) –  ninjagecko Mar 14 '12 at 2:13
    
@ninjagecko Thanks, that makes sense. However we can also provide scope by creating a function to be called within each for loop, like the second test case in your original answer. I did a similar one on JSPerf and it turns out that forEach is still 60% slower: test here –  Evan You Mar 14 '12 at 4:59
    
Actually the performance difference is smaller when the number of elements in the array increases (at least in Chrome), however it is still significant. –  Evan You Mar 14 '12 at 5:07

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