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Arrays in JavaScript are very easy to modify by adding and removing items. It somewhat masks the fact that most languages arrays are fixed-size, and require complex operations to resize. It seems that JavaScript makes it easy to write poorly performing array code. This leads to the question:

What performance (in terms of big O time complexity) can I expect from JavaScript implementations in regards to array performance?

I assume that all reasonable JavaScript implementations have at most the following big O's.

  • Access - O(1)
  • Appending - O(n)
  • Prepending - O(n)
  • Insertion - O(n)
  • Deletion - O(n)
  • Swapping - O(1)

JavaScript lets you pre-fill an array to a certain size, using new Array(length) syntax. (Bonus question: Is creating an array in this manner O(1) or O(n)) This is more like a conventional array, and if used as a pre-sized array, can allow O(1) appending. If circular buffer logic is added, you can achieve O(1) prepending. If a dynamically expanding array is used, O(log n) will be the average case for both of those.

Can I expect better performance for some things than my assumptions here? I don't expect anything is outlined in any specifications, but in practice, it could be that all major implementations use optimized arrays behind the scenes. Are there dynamically expanding arrays or some other performance-boosting algorithms at work?

P.S.

The reason I'm wondering this is that I'm researching some sorting algorithms, most of which seem to assume appending and deleting are O(1) operations when describing their overall big O.

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    The Array constructor with a size is pretty much useless in modern JavaScript implementations. It does almost nothing at all in that single parameter form. (It sets .length but that's about it.) Arrays are really not much different from plain Object instances. – Pointy Jul 17 '12 at 0:02
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    Setting the length property and pre-allocating space are two completely different things. – Pointy Jul 17 '12 at 0:04
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    @Pointy: Am I expecting too much when I expect setting array[5] on a new Array(10) is O(1)? – Kendall Frey Jul 17 '12 at 0:06
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    While the ECMAScript does not define how an Array object is implemented (it only defines some semantic rules), it is very possible that different implementations will optimize for expected cases (e.g. have a "real array" backing for arrays less than some n in size). I am not that savvy on implementations, but would be really surprised if this was not done somewhere ... – user166390 Jul 17 '12 at 0:19
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    @KendallFrey "Best answer" is likely to write some jsperf test-cases for different n / access patterns and see what comes of it ;-) – user166390 Jul 17 '12 at 0:21
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NOTE: While this answer was correct in 2012, engines use very different internal representations for both objects and arrays today. This answer may or may not be true.

In contrast to most languages, which implement arrays with, well, arrays, in Javascript Arrays are objects, and values are stored in a hashtable, just like regular object values. As such:

  • Access - O(1)
  • Appending - Amortized O(1) (sometimes resizing the hashtable is required; usually only insertion is required)
  • Prepending - O(n) via unshift, since it requires reassigning all the indexes
  • Insertion - Amortized O(1) if the value does not exist. O(n) if you want to shift existing values (Eg, using splice).
  • Deletion - Amortized O(1) to remove a value, O(n) if you want to reassign indices via splice.
  • Swapping - O(1)

In general, setting or unsetting any key in a dict is amortized O(1), and the same goes for arrays, regardless of what the index is. Any operation that requires renumbering existing values is O(n) simply because you have to update all the affected values.

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    Shouldn't prepend be O(n)? Since all the indices need to be shifted. Same for insertion and deletion (at arbitrary index, and shift/collapse the elements). – nhahtdh Jul 18 '12 at 6:05
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    Also, is length set on the Array mutation, or is the get on it going to get the length and possibly memoize it? – alex Jul 18 '12 at 6:41
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    Worth mentioning this answer is no longer correct. Modern engines do not store Arrays (or objects with indexed integer keys) as hashtables (but like well... arrays like in C) unless they're sparse. To get you started here is a 'classical' benchmark illustrating this – Benjamin Gruenbaum Oct 29 '13 at 19:13
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    Is this defined by the standard or is this just a common implementation in JS engines? What's about V8? – Albert Mar 24 '14 at 16:10
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    @BenjaminGruenbaum it would be nice if you could develop a bit on how they are stored. Or give some sources. – Ced Jun 15 '17 at 1:23
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guarantee

There is no specified time complexity guarantee for any array operation. How arrays perform depends on the underlying datastructure the engine chooses. Engines might also have different representations, and switch between them depending on certain heuristics. The initial array size might or might not be such an heuristic.

reality

For example, V8 uses (as of today) both hashtables and array lists to represent arrays. It also has various different representations for objects, so arrays and objects cannot be compared. Therefore array access is always better as O(n), and might even be as fast as a C++ array access. Appending is O(1), unless you reach the size of the datastructure and it has to be scaled (wich is O(n)). Prepending is worse. Deletion can be even more worse if you do something like delete array[index] (don't!), as that might force the engine to change it's representation.

advice

Use arrays for numeric datastructures. That's what they are meant for. That's what engines will optimize them for. Avoid sparse arrays (or if you have to, expect worse performance). Avoid arrays with mixed datatypes (as that makes internal representations more complex).

If you really want to optimize for a certain engine (and version), check it's sourcecode for the absolute answer.

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  • Wait for a second, we can have arrays with mixed datatypes? Javascript is so cool! – Anurag Jun 4 at 8:54
  • @Anurag exactly, but in 99% of cases you wouldn't need this feature – Desiigner Jul 4 at 8:21

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