I have a method that I wrote below.

public static long nlgn(double[] nums)  {

        long start = System.nanoTime();

        if(nums.length > 1)     {
            int elementsInA1 = nums.length/2;
            int elementsInA2 = nums.length - elementsInA1;
            double[] arr1 = new double[elementsInA1];
            double[] arr2 = new double[elementsInA2];

            for(int i = 0; i < elementsInA1; i++)
            arr1[i] = nums[i];

            for(int i = elementsInA1; i < elementsInA1 + elementsInA2; i++)
            arr2[i - elementsInA1] = nums[i];


            int i = 0, j = 0, k = 0;

            while(arr1.length != j && arr2.length != k) {
                if(arr1[j] <= arr2[k]) {
                    nums[i] = arr1[j];
                } else {
                    nums[i] = arr2[k];

            while(arr1.length != j) {
                nums[i] = arr1[j];
            while(arr2.length != k) {
                nums[i] = arr2[k];

        double max = nums[nums.length - 1];
        double min = nums[0];

        double[] farthestPair = {max, min};

        long end = System.nanoTime();

        return (end - start);

This is basically a merge sort operation that, once sorted, will find the smallest and largest numbers. I believe this method is operating in O(n lgn) time. However, when I run the function with an input size that doubles upon each run (1000, 2000, 4000, etc.), I get the following results when I time it in nano time.

First pass: (0.12) seconds
Second pass: (0.98) seconds
Third pass: (0.91) seconds
Fourth pass: (0.90) seconds
Fifth pass: (1.33) seconds

My question is, given these results, do these results suggest that this method is running in O(n lgn) time?

  • True, ok I think my wording was a bit off. That is correct that I cannot prove it unless by logic. I changed the wording of my question a bit. Basically, I know if it takes roughly double the running time for double the input, that suggests the method runs in linear time. With the results that I have, do they suggest that my method is running in O(n lgn) time?
    – User
    Nov 15, 2015 at 4:15
  • 2
    As I said before, a runtime of 0.12 seconds is far too short to conclude anything about. Increase your benchmark size/repeats.
    – orlp
    Nov 15, 2015 at 4:17
  • Possible duplicate of What is the big-O complexity of this algorithm?
    – code_dredd
    Nov 15, 2015 at 5:51

1 Answer 1


If you have the source code of the algorithm, you should analyze it instead of doing runtime benchmarks.

In the case of recursive functions, take a look to the master theorem.

In your function you do 2 recursive calls with size n / 2, so a = 2, b = 2 and f(n) = 2n, because in your two first for loops you iterate along all the array (n) and with the three final while loops you iterate again all the array size (n), so 2n.

If you apply the master theorem it gives you as result Θ(n ln(n)), so O(n ln(n)) is correct too.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.