I am trying to implement the following algorithm using the divide and conquer method in order to get the running time to O(n*logn).

Given a sequence of numbers a_1, a_2,…, a_n and a number k, find i and j such that 1<= j – i <= k while maximizing a_i + a_j.

For example for the sequence 10,2,0,8,1,7,1,0,11 and k = 2, the maximum value is 15 = 8 + 7.

I have implemented some sort of divide and conquer method, but I'm struggling to figure out how to check values that go across each of the divide intervals. Here is what I have so far:

```
int MaxInterval(int array[], int left, int right, int k)
{
int BestSum = 0;
int sumL = 0;
int sum = 0;
int sumR = 0;
int sumMid = 0;
int count = 0;
if( right - left <= 2*k-3 ) //
{
//elaborate straightforward search right way
for(int i = left; i <= right; i++)
{
sum = 0;
count = k;
for(int j = i+1; j <= right; j++ )
{
if(count == 0) break;
sum = array[i] + array [j];
if(sum > BestSum) BestSum = sum;
count--;
}
}
return BestSum;
}
int mid = (right + left)/2;
sumL = MaxInterval(array, left, mid, k);
sumR = MaxInterval(array, mid + 1, right, k);
sumMid = MaxInterval(array, max(left, mid - k + 2), min(right, mid + k - 1), k);
return max(max(sumL, sumR), sumMid);
}
```

I think I am on some-what of the right track, I'm just struggling to figure out how to incorporate check sums of numbers that go across two of the intervals, without using a brute-force method which would yield O(n^2) complexity.

If there are any pointers or tips on how I can continue this, it would be greatly appreciated. Also, I am currently working under the assumption that there is an even number of integers in the array. Thanks guys.