That is, would I be better suited to use some kind of tree or skip list data structure if I need to be calling this function a lot for individual array insertions?

  • Test it! That's the best way to answer this question... – Harmen Nov 19 '10 at 18:18
  • What's a good way to test this? – Hamster Nov 19 '10 at 18:19
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    If JavaScript’s arrays are really arrays, it’s O(n). – Gumbo Nov 19 '10 at 18:25
  • In which case, I would be better suited with a different data structure, right? – Hamster Nov 19 '10 at 18:30
  • @Gumbo: IE used a hash algorithm for arrays, if i recall correctly. – jwueller Nov 19 '10 at 18:36
up vote 15 down vote accepted

You might consider whether you want to use an object instead; all JavaScript objects (including Array instances) are (highly-optimized) sets of key/value pairs with an optional prototype An implementation should (note I don't say "does") have a reasonable performance hashing algorithm. (Update: That was in 2010. Here in 2018, objects are highly optimized on all significant JavaScript engines.)

Aside from that, the performance of splice is going to vary a lot between implementations (e.g., vendors). This is one reason why "don't optimize prematurely" is even more appropriate advice for JavaScript applications that will run in multiple vendor implementations (web apps, for instance) than it is even for normal programming. Keep your code well modularized and address performance issues if and when they occur.

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    Problem with a map is I don't think I can iterate over it in sorted order... – Hamster Nov 19 '10 at 18:21
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    @Hamster: You can, but only by finding all the keys, sorting them, and then looping through that list. If you have to do it a lot, then you're probably better off with an Array (which in JavaScript is, after all, just a map with a defined order and a magic length property). – T.J. Crowder Nov 19 '10 at 18:23
  • @T.J.Crowder What if I have to insert an element at a specific index between already existent elements (i.e. keeping them and reordering the indexes) frequently, and there are thousands of elements? I know I can do it with splice, but is an Array with splice a proper data structure for such a task? If not, what other JS data structure might be suitable for this? – tonix Oct 24 '15 at 21:05
  • @tonix: It depends a lot on what you're doing. It may be worth posting a question with details and your splice solution. But if modifications are more speed-sensitive than lookups, you might want a linked list (JavaScript doesn't have a built-in one, but they're not hard to make). Usually lookups dominate, so for an ordered set, an array with splice makes sense. – T.J. Crowder Oct 25 '15 at 5:04
  • Well I have some x coordinates which I wanna store and keep in order from left (lower x value) to right (higher x value). Then I will need to frequently update this list and add some x between the already existent ones. I now I can easily find the index where the new x should be positioned using a binary search on the array, but then when it comes to add the element between I'd like like to do it somehow without re-indexing the array from that point to the end for the x values that come after the new added one... Could you please advise how should I address it? – tonix Oct 25 '15 at 6:54

Here's a good rule of thumb, based on tests done in Chrome, Safari and Firefox: Splicing a single value into the middle of an array is roughly half as fast as pushing/shifting a value to one end of the array. (Note: Only tested on an array of size 10,000.)

http://jsperf.com/splicing-a-single-value

That's pretty fast. So, it's unlikely that you need to go so far as to implement another data structure in order to squeeze more performance out.

Update: As eBusiness points out in the comments below, the test performs an expensive copy operation along with each splice, push, and shift, which means that it understates the difference in performance. Here's a revised test that avoids the array copying, so it should be much more accurate: http://jsperf.com/splicing-a-single-value/19

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    Actually, it's entirely dependent on the length of the array. If you change to a 100,000 element array, then splicing a value into the middle is 95% slower than adding a value on the end, as measured by your jsperf test. That's because inserting in the middle is O(n) in the size of the array, while inserting at the end can be O(1). – Geoff Dec 16 '11 at 8:56
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    -1 That jsperf test is polluted by copying an array, it's mostly measuring the time it takes to create a whole new 10000 item array. – aaaaaaaaaaaa Feb 3 '13 at 8:48
  • @eBusiness Please elaborate on your claim. Where in the tests does the array get copied? – Trevor Burnham Feb 4 '13 at 0:44
  • @TrevorBurnham You run getArr() within the test, in getArr() you run arr.slice(0), which is shorthand for duplicating an array. So your benchmark is doing one full duplication of a 10000 element array and a single operation on an array. – aaaaaaaaaaaa Feb 4 '13 at 16:09
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    @TrevorBurnham And you should really remove the old text, the conclusions drawn from an incorrect benchmark are probably not what readers are after. – aaaaaaaaaaaa Feb 5 '13 at 15:28

Move single value

//	tmp = arr[1][i];
//	arr[1].splice(i, 1);	// splice is slow in FF
//	arr[1].splice(end0_1, 0, tmp);

	tmp = arr[1][i];
	ii = i;
	while (ii<end0_1)
		{
		arr[1][ii] = arr[1][++ii];
cycles++;
		}
	arr[1][end0_1] = tmp;

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