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I'm reading some texts about algorithmic complexity (and I'm planning to take an algorithms course later), but I don't understand the following.

Say I've to search for an item in an unordered list, the number of steps it takes to find it would be proportional to the number of items on that list. Finding it in a list of 10 items could take 10 steps, doing the same for a list of 100000 items could take 100000 steps. So the algorithmic complexity would be linear, denoted by 'O(n)'.

Now, this text[1] tells me if I were to sort the list by some property, say a social security number, the algorithmic complexity of finding an item would be reduced to O(log n), which is a lot faster, off course. Now I can see this happening in case of a b-tree, but how does this apply to a list? Do I misunderstand the text, since English isn't my native language?


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2 Answers 2

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This works for any container that is randomly accessible. In the case of a list you would go to the middle element first. Assuming that's not the target, the ordering tells you if the target will be in the upper sublist or the lower sublist. This essentially turns into a binary search, no different than searching through a b-tree.

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All right, then I understood right, I was a little confused. The text hasn't mentioned b-trees yet, so I was wondering if I understood it right. Cheers. –  Oxymoron May 27 '11 at 16:09

Binary search, check middle if target is higher it must reside in the right side, if less its the middle number and so on. Each time you divide the list in two which leaves you with O(log n)

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