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Recently, I was given a question to find Minimum comparisons needed to search an element from n given elements, provided they are sorted, and with more than half(n/2) occurrences.

For eg. given sorted array as: 1,1,2,2,2,2,2,7,11. Size of this array is: 9. We need to find the minimum comparisons required to find 2(since it has more than n/2 occurrences(5).

What would be the best algorithm to do so and what would be the worst case Complexity?

Options provided were:

i) O(1)

ii) O(n)

iii) O(log(n))

iv) O(nlog(n))

share|improve this question
Well binary search worst case would be O(log(n)) which is generally what is done in this case – crush Aug 22 '13 at 12:21
@crush I think the situation makes it a lot easier to test for it... – ppeterka Aug 22 '13 at 12:23
I guess it wasn't clear to me that what would be the worst case Complexity was referring only to finding the 2, and not any number in the array. If it's only for the 2, then it is O(1). – crush Aug 22 '13 at 12:24
@crush, I just gave an example to illustrate, it meant for a General case – softvar Aug 22 '13 at 12:34
@VarunMalhotra By 2 I meant whatever number is repeated more than n/2 occurrences if applied to a General case. It's O(1) for that scenario. For any other number in the array it is basically O(log(n)) – crush Aug 22 '13 at 12:37
up vote 10 down vote accepted

provided they are sorted

In this case you have to check only one middle element, if fact that

with more than half(n/2) occurrences

is guaranteed

share|improve this answer
Yep again, nice==good... – ppeterka Aug 22 '13 at 12:27
how ? what if we have 2,2,2,1,4,5,2,2,1 – softvar Aug 22 '13 at 12:36
@VarunMalhotra That wouldn't be a sorted array...that's why MBo highlighted that section of the question. Without a sorted array, you can't use the binary search algorithm anyways. – crush Aug 22 '13 at 12:37
Oops, i forgot about that. So it means we just need to compare the number to be searched with the middle element of that array? – softvar Aug 22 '13 at 12:41
@VarunMalhotra Binary search algorithm starts searching at the n/2 position of the array. Therefore, if the search term occurs more than n/2 times in the array, then it is guaranteed mathematically to be the first term that the search checks. That is why it is O(1) when searching for 2 in your example. It would be O(log(n)) if searching for 1, 7, or 11. – crush Aug 22 '13 at 12:53

There can be two possible interpretations of the question. I'll explain both.

Firstly, if the question assumes that there is definitely a number which occurs n/2 or more times, then MBo's answer suffices.

However, if there is a chance that there is no element with n/2 occurrences, then the complexity is O(log(n)). We cannot merely check for the n/2th element. For example, in array 2, 4, 6, 6, 6, 8, 10, the middle element is 6, but it does not occur n/2 or more times. The algorithm for this case goes as follows:

  • Select the middle element (say x).
  • Find the index of x in the left sub-array using binary search (say lIndex).
  • Find the index of x in the right sub-array using binary search (say rIndex).
  • If rIndex - lIndex >= n/2, then the number occurs n/2 or more times. Otherwise, no such number is present.

Since we use binary search to find the number in left and right sub-arrays, the complexity of the above algorithm is O(log(n)).

share|improve this answer
Nice Explanation! – softvar Oct 25 '13 at 13:45

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