why the time complexity of best case of top-down merge sort is in
Because at each iteration you split the array into two sublists, and recursively invoke the algorithm. At best case you split it exactly to half, and thus you reduce the problem (of each recursive call) to half of the original problem. You need log_2(n) iterations, and each iteration takes exactly
O(n) (each iteration is on all sublists, total size is still
n), so at total
However, with a simple preprocessing to check if the list is already sorted - it can be reduced to
Since checking if a list is sorted is itself
O(n) - it cannot be done in
O(1). Note that the "best case" is the "best case" for general
n, and not a specific size.
how about the time complexity of bottom-up merge sort in worst case,
best case and average case.
The same approach can give you O(n) best case to bottom up (simple pre processing). The worst case and best case of bottom up merge sort is
O(nlogn) - since in this approach the list is always divided to 2 equally length (up to difference 1) lists.