I want to reverse an array (or any other data structure) but because this operation is going to be done on the array for n times , im looking for the best solution possible, I have the sorted array , which is gotten in O(nlgn) time , i start looking for first element in the sorted array , inside the unsorted array ( which is equal to finding the smallest key in the unsorted array ) then I reverse the array from the beginning to the index of that value , then i do the same for the rest , find the second smallest value's index , and reverse the array again , from the second index to the end of the array and so on :
for example , consider this array :
*2 6 (*1*) 5 4 *3 // array is reversed from its 0th index to the 3rd index (0 based) 1 *5* 4 3 6 (*2*) // array is reversed from its 1st index (0 based ) to the 5th index 1 2 *6* *3* 4 5 // and ... 1 2 3 *6* *4* 5 1 2 3 4 *6* *5* 1 2 3 4 5 6
well i have to sort the array in order to have the values im looking for in the unsorted array , it'll take o(nlgn) time , and doing the algorithm above , will take o(n^2) ,any idea to make it more quick , to be done in o(nlgn) time ? so the question is reversing a sub array of the array in the least time Order , cause it's done for many times in large sized arrays. ( I can get the indices i and j ( which are the first and last index of the sub array ) in O (n) time cause i have the sorted array and i'll just look up the numbers in the unsorted array ) so im looking for the best time order for reversing an array from it's ith index to it's jth index .
thanks in advance