I'm trying to implement a version of Mergesort using Multi Threading. First off, I know there's a billion threads (give or take...) on here, and I've read a few to no avail! I'm trying to show that using threads in parallel speeds the process up. The issue I'm having however is that my code does not display and speed up whatsoever, in fact, rather the opposite.

With one thread, my times is in the 10's of thousands. With two, my time increases to a few hundred thousand, then with 4 threads my time borders on 7 figures. My initial thoughts were to play around with the join() method and ensure that was in the right place, and have done so, but to no success.

Any help would be greatly appreciated, and an example command line argument is something like;

java working 16 4 (For 4 threads).

Apologies for the lack of comments too throughout!

```
import java.util.*;
class working
{
private static int sizeVector;
private static int noThreads;
static void sort(int[] input)
{
mergeSort(input, 0, input.length - 1, noThreads);
}
static void mergeSort(int[] array, int low, int high, int noThreadsUp)
{
//private int noThreadsUp;
if (low < high)
{
int mid = (low+high)/2;
if (noThreadsUp > 1)
{
NewThread td = new NewThread(array, low, mid, noThreadsUp/2);
td.start();
/*try{
td.join();
}catch(Exception e){}*/
mergeSort(array, mid+1, high, noThreadsUp/2);
try{
td.join();//UNSURE WHERE THIS SHOULD BE
}catch(Exception e){}
merge(array, low, mid, high);
}
else
{
mergeSort(array, low, mid, noThreadsUp/2);
mergeSort(array, mid+1, high, noThreadsUp/2);
merge(array, low, mid, high);
}
}
}
static void merge(int[] array, int low, int mid, int high)
{
int[] temp = new int[high - low + 1];
int left = low;
int right = mid+1;
int k = 0;
while (left <= mid && right <= high)
{
if(array[left] < array[right])
{
temp[k] = array[left];
left = left+1;
}
else
{
temp[k] = array[right];
right = right + 1;
}
k = k + 1;
}
if (left <= mid)
{
while(left <= mid)
{
temp[k] = array[left];
left = left + 1;
k = k + 1;
}
}
else if (right <= high)
{
while(right <= high)
{
temp[k] = array[right];
right = right + 1;
k = k + 1;
}
}
for (int m = 0; m < temp.length; m++)
{
array[low+m] = temp[m];
}
}
static int[] readInputArray()
{
int[] a = new int[sizeVector];
for (int i = 0; i < sizeVector; i++)
{
Random generator = new Random();
a[i] = generator.nextInt();
}
return a;
}
static void printArray(int[] array)
{
for(int i = 0; i<array.length; i++)
System.out.println(array[i]);
}
public static void main(String[] args)
{
sizeVector = Integer.parseInt(args[0]);
noThreads = Integer.parseInt(args[1]);
int[] inputArray = readInputArray();
System.out.println("INPUT ARRAY: ");
printArray(inputArray);
long startTime = System.nanoTime();
sort(inputArray);
long endTime = System.nanoTime();
long finalTime = endTime - startTime;
System.out.println("SORTED ARRAY: ");
printArray(inputArray);
System.out.println("Time: " + finalTime);
}
static class NewThread extends Thread
{
private int low;
private int mid;
private int[] array;
private int noThreadsDown;
//private int threads;
public NewThread(int[] array, int low, int mid, int noThreadsDown)
{
this.low = low;//Ensure using the right start
this.mid = mid;//Ensure using the right end
this.array = array;
this.noThreadsDown = noThreadsDown;
//this.threads = threads;
}
public void run()
{
mergeSort(array, low, mid, noThreadsDown/2);
System.out.println(noThreadsDown);
}
}//End NewThread
}
```