You are given an array \(A\) of \(N\) integers. A subarray from \(l\) to \(r\) \((l < r)\) is good if \(A[l] != A[r]\).
You have to find the \(maximum\) possible \(sum\) of elements of a good subarray. If there is no such good subarray then print "Not Possible".
Input Format:
- The first line contains an integer \(T\), which denotes the number of test cases.
- The first line of each test case contains \(N\).
- The second line of each test case contains \(N\) space-separated integers, denoting the elements of array \(A\).
Output Format:
For each test case, print the maximum possible sum of elements of good subarray or print "Not Possible" (without double quotes) if there is no such good subarray.
Constraints:
For test case \(1\): The given array is \([2 , 3 , 2 , 4 , 2]\), here maximum possible sum of elements of a good subarray is \(11\), which is from index \((1 , 4)\).
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