Suppose there is a unsorted array A, and it contains an element x (x is the pointer of the element), and every element has a satellite variable k. So, we can get the following time complexity (for worst cases):

If we want to Search for a particular K, then it costs O(n).

if we want to Insert an element, then it costs O(1), because A just adds the element to the end.

What if we know x, then Delete it from the array A?

We have to Search for x.k first and get the index of x, then Delete x via its index in A, right?

So for Delete, it costs O(n) too, right?


up vote 23 down vote accepted

Finding the element with a given value is linear.

Since the array isn't sorted anyway, you can do the deletion itself in constant time. First swap the element you want to delete to the end of the array, then reduce the array size by one element.

  • 2
    That's pretty cool. You couldn't implement a general purpose delete like that though because even though the array is not sorted, it still might have some particular order to it that needs to be preserved. – dan-gph Feb 20 '12 at 9:47
  • @Dangph: That would still be sorted -- just not in ascending (or descending) order. – Jerry Coffin Feb 20 '12 at 9:56
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    @Jerry: I think authors normally distinguish between "ordered" and "sorted". A "sorted" array is specifically one in which the order depends on the values of the objects in it. An array that is ordered by insert-time is not normally described as "sorted" even when it is important that the insert-time order is preserved. – Steve Jessop Feb 20 '12 at 10:22
  • That said, the questioner calls the array "unsorted" without further comment, so I think it's fair to assume that the order is unimportant until proved otherwise. – Steve Jessop Feb 20 '12 at 10:31
  • @JerryCoffin is this how it is normally implemented? that is, to swap element in unsorted arr to end and reduce? – steviejay Nov 8 '16 at 19:11

Yes, that's right. Also, if it's an array, deleting alone will take O(n) time because after you delete the element, you'll need to shift all the elements to the right of that element one place to the left. So, even if you know x (for example, you will only delete the first element), it will take O(n) time.

Yes. It takes O(n) time to find the element you want to delete. Then in order to delete it, you must shift all elements to the right of it one space to the left. This is also O(n) so the total complexity is linear.

Also, if you're talking about statically allocated arrays, insert takes O(n) as well. You have to resize the array in order to accommodate the extra element. There are ways to amortize this running time to O(1) though.

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    Actually, you don't have to shift anything since the array is unsorted, you can just fill the gap by using the last element. – Aurélien Ribon Sep 22 '13 at 9:56

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