Since cases 1-3 all have one peak (value surrounded on both sides by values lower than itself or the edge of the array), and case 4 has two peaks both on the ends of the array, this problem can be solved rather simply in
O(log n) time for all cases:
First, apply the 1D peak finding algorithm to find a peak in the array.
If the peak occurs in the middle of the array (not the first or last position), then this is case #3, and the peak is also the maximum.
If the peak is either the first or last element of the array, then this is one of cases 1, 2, or 4, and the array max is max(first, last).
Python-esque pseudo code:
if (list[mid-1] > list[mid]:
else if (list[mid+1] > list[mid]:
peak = find-peak(list)
if peak==0 or peak==len(list)-1:
return max(list, list[-1])