Sorting Algorithms with time complexity Log(n) [closed]

Question

Is there any sorting algorithm with an average time complexity log(n)??

example [8,2,7,5,0,1] sort given array with time complexity log(n)

Answer 1

No; this is, in fact, impossible for an arbitrary list! We can prove this fairly simply: the absolute minimum thing we must do for a sort is look at each element in the list at least once. After all, an element may belong anywhere in the sorted list; if we don't even look at an element, it's impossible for us to sort the array. This means that any sorting algorithm has a lower bound of n, and since n > log(n), a log(n) sort is impossible.

Although n is the lower bound, most sorts (like merge sort, quick sort) are n*log(n) time. In fact, while we can sort purely numerical lists in n time in some cases with radix sort, we actually have no way to, say, sort arbitrary objects like strings in less than n*log(n).

That said, there may be times when the list is not arbitrary; ex. we have a list that is entirely sorted except for one element, and we need to put that element in the list. In that case, methods like binary search tree can let you insert in log(n), but this is only possible because we are operating on a single element. Building up a tree (ie. performing n inserts) is n*log(n) time.