Anyone know the time-complexity of ECMAScript5's Object.keys() in common implementations? Is it O(n) for n keys? Is time proportional to the size of the hash table, assuming a hash implementation?

I'm looking for either guarantees by language implementors or some real world benchmarking.

  • 3
    How many keys do you expect to be having, such that the time complexity of enumerating them matters?
    – Gabe
    Oct 10, 2011 at 18:06
  • 2
    I don't think it can be less than O(n) Oct 10, 2011 at 18:06
  • @PabloFernandez, length is less then O(n)
    – Joe
    Oct 10, 2011 at 18:09
  • 4
    @IAbstractDownvoteFactory: While the function Object.keys() may be able to return in O(1), enumerating the results can't be done in less than O(n).
    – Gabe
    Oct 10, 2011 at 18:16
  • 1
    @Gabe, one million. Does that change the answer? Apr 2, 2016 at 17:32

2 Answers 2


It appears to be O(n) in V8 (chrome, node.js) at least:

> var hash = {}
>   ,    c = 0;
> var s = +new Date();Object.keys(hash);console.log(+new Date() - s);
> for(var i=0; i<100000; i++, c++){ hash[c] = 1; }
> var s = +new Date();Object.keys(hash);console.log(+new Date() - s);
> for(var i=0; i<100000; i++, c++){ hash[c] = 1; }
> var s = +new Date();Object.keys(hash);console.log(+new Date() - s);
> for(var i=0; i<100000; i++, c++){ hash[c] = 1; }
> var s = +new Date();Object.keys(hash);console.log(+new Date() - s);
> for(var i=0; i<100000; i++, c++){ hash[c] = 1; }
> var s = +new Date();Object.keys(hash);console.log(+new Date() - s);
  • Those results make sense for a dense hash map. Does performance degrade as keys get more sparse? Oct 10, 2011 at 18:23
  • 1
    @hurrymaplelad - What? All JS hash keys are strings. This code effectively generates {'1':1, '2':1, '3':1, ...} sparse vs dense keys don't make sense for hash implementations, only arrays. And it really doesn't make any sense for an engine to ever implement a hash as an array since numerical indexes are generally rather rare. Though if you want to test that for some reason, just change c++ to c+=Math.random() which will give you totally un-associatable keys.
    – None
    Oct 10, 2011 at 18:25
  • 1
    @cwolves: An Array object is just an object whose properties are expected to be whole numbers. Those aren't terribly rare, and there are certainly JS implementations that use arrays to back Array instances.
    – Gabe
    Oct 10, 2011 at 18:53
  • @cwolves: expanded your test to cover variations in magnitude of key size, and results look consistent. You're correct, sparse vs dense does not apply to your test. I was looking for an example with low load factor, but that's independent of key choice. Are JS Objects generally implemented as hashmaps? If so, is performance O(n+s), where s is the size of the hash table? Oct 10, 2011 at 19:29
  • 4
    JS Objects are not implemented as hashmaps, rather as pairs of arrays (that is C arrays, not JS Array objects) code.google.com/intl/de-DE/chrome/devtools/docs/… Oct 10, 2011 at 19:48

(V8 developer here.)

The answer by Mark Kahn is correct for sufficiently dense integer-keyed/"indexed" properties, where complexity of Object.keys() is indeed O(n).

While the JavaScript spec pretends that all object properties are string-keyed/"named", that's not how modern high-performance engines implement it. Internally there's a huge difference! Indexed properties are stored in an array (as long as they are dense enough), which gives generally much better performance than a {'1': 1, ...} dictionary would.

For objects with thousands of named properties, our implementation indeed uses a hash table (as the question guessed), and that means complexity of Object.keys() is O(n log n). That's because a hash table (of course) stores entries in its own order. Object.keys() must return named properties in the order in which they were created though, which we store as additional metadata, so that means we must sort the keys after retrieving them from the hash table, which is an O(n log n) operation.

Named properties on most objects that occur in practice (up to about a thousand properties) are (usually) stored in creation order in a special kind of internal array, so they can be retrieved in O(n) and don't need to be sorted.

So the summary is really "it depends" :-)

  • Hmm, but the question here is that if I use an Object.keys() will it be an O(n) or something else? I didn't fully understand your answer... In naive terms, if I have a hash map as follows: {a:1,b:2,...} and I use Object.keys() for the same, will the time complexity be O(n) or something else? Also, what if we just want to get the keys and not sort them? Dec 26, 2020 at 8:03
  • There is no way to get an object's keys without sorting them. And as I wrote, whether the complexity of Object.keys() is O(n) or something else depends on the specifics of your object (and, naturally, on the implementation details of the specific version of the specific JavaScript engine you happen to be running on). There are no guarantees.
    – jmrk
    Dec 26, 2020 at 12:26
  • the cutoff for this is 20, which you can verify using code from the other answer and using really small objects, but calling Object.keys many times
    – Dave Ankin
    Dec 26, 2020 at 14:18
  • @DaveAnkin: if it were that simple, I would have said so. It's not that simple. And it changes over time/versions/implementations. It also usually doesn't matter: for most common cases, assuming that Object.keys() has linear complexity is reasonable (even though it won't be true in all cases). Please be aware that "code from the other answer" only illustrates one particular case, not all possible scenarios.
    – jmrk
    Dec 27, 2020 at 14:01
  • 1
    I'm curious if Object.keys(bigObject).length would still be O(n) or is the js optimizer something that can be relied on to ensure this is O(1)
    – josh
    Apr 9, 2021 at 21:57

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