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if I have an array with cells 0-N that sorted, and cells N+1 until M+N, not sorted. what will be the best time complexity to sort the array?

thanks!


Edit:

thanks !! If I want to do that in-place, it will change the complexity?

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O((m+n) log (m+n)). If you use a standard library function, this bound is exact, and you can't get much better anyways. –  Jan Dvorak Feb 2 '13 at 0:24

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First, sort just the M unsorted elements. This takes time O(M log M) using a comparison-based sort (like quicksort, merge sort, or heap sort).

Then merge the two sorted segments (of lengths N and M) together. This takes time O(M + N).

So the best time complexity, using a comparison-based sorted, is O(M + N + M log M).

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M is the size of the unsorted part –  Jan Dvorak Feb 2 '13 at 0:32
    
Yes, I realized that I misread the problem and fixed my solution. –  rob mayoff Feb 2 '13 at 0:33
    
Note that O(M + M log M)=O(M log M), meaning that you can simplify the complexity expression. –  Jan Dvorak Feb 2 '13 at 0:33
    
thanks !! If I want to do that in-place, it will change the complexity? –  user1951891 Feb 2 '13 at 0:42
    
If you can merge two sorted arrays in linear time and constant additional space, you won't change the complexity. This paper claims to describe such an algorithm, but I've only read the abstract. –  rob mayoff Feb 2 '13 at 3:16

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