```
public class Bounds
{
int lower;
int upper;
public Bounds(int lower, int upper)
{
this.lower = lower;
this.upper = upper;
}
}
public Bounds BinarySearch(List<int> keys, double target)
{
// lower boundary case returns the smallest key as the lower and upper bounds
if (target < keys[0])
return new Bounds(0, 0);
else if (target < keys[1])
return new Bounds(0, 1);
// upper boundary case returns the largest key as the lower and upper bounds
else if (target > keys[keys.Length - 1])
return new Bounds(keys.Length - 1, keys.Length - 1);
else if (target > keys[keys.Length - 2])
return new Bounds(keys.Length - 2, keys.Length - 1);
else
return BinarySearch(keys, target, 0, keys.Length - 1);
}
// 'keys' is a List storing all of the keys from your SortedList.
public Bounds BinarySearch(List<int> keys, double target, int lower, int upper)
{
int middle = (upper + lower)/2;
// target is equal to one of the keys
if (keys[middle] == target)
return new Bounds(middle - 1, middle + 1);
else if (keys[middle] < target && keys[middle + 1] > target)
return new Bounds(middle, middle + 1);
else if (keys[middle] > target && keys[middle - 1] < target)
return new Bounds(middle - 1, middle);
if (list[middle] < target)
return BinarySearch(list, target, lower, upper/2 - 1);
if (list[middle] > target)
return BinarySearch(list, target, upper/2 + 1, upper);
}
```

This might work..I didn't test it out. If not, hopefully it's close enough that you can use it with minor tweaks. This is a strange problem, so I handled all of the boundary cases so I didn't have to think about what the algorithm would do when the range was down to 2 elements or less.