I'm trying to balance a set of (Million +) 3D points using a KD-tree and I have two ways of doing it.

**Way 1:**

Use an O(n) algorithm to find the arraysize/2-th largest element along a given axis and store it at the current node

Iterate over all the elements in the vector and for each, compare them to the element I just found and put those smaller in newArray1, and those larger in newArray2

Recurse

**Way 2:**

Use quicksort O(nlogn) to sort all the elements in the array along a given axis, take the element at position arraysize/2 and store it in the current node.

Then put all the elements from index 0 to arraysize/2-1 in newArray1, and those from arraysize/2 to arraysize-1 in newArray2

Recurse

Way 2 seems more "elegant" but way 1 seems faster since the median search and the iterating are both O(n) so I get O(2n) which just reduces to O(n). But then at the same time, even though way 2 is O(nlogn) time to sort, splitting up the array into 2 can be done in constant time, but does it make up for the O(nlogn) time for sorting?

What should I do? Or is there an even better way to do this that I'm not even seeing?