It is an interesting puzzle I came across , according to which , given an array , we need to find the ninja index in it.
A Ninja index is defined by these rules :
An index K such that all elements with smaller indexes have values lower or equal to A[K] and all elements with greater indexes have values greater or equal to A[K].
For example , consider :
A=4, A=2, A=2, A=3, A=1, A=4, A=7, A=8, A=6, A=9.
In this case,
5 is a ninja index , since A[r]<=A for r = [0,k] and A<=A[r] r = [k,n].
What algorithm shall we follow to find it in O(n) . I already have a brute force O(n^2) solution.
EDIT : There can be more than 1 ninja index , but we need to find the first one preferably. And in case there is no NI , then we shall return -1.