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I have Implemented the algorithms for insertion sort, Merge Sort and Quicksort. I want to use find a timing system in JAVA like timing in

I have Implemented the algorithms for insertion sort, Merge Sort and Quicksort. I want to use find a timing system in JAVA like timing in C++ to compare the run time of the algorithms on inputs consisting of only positive integers.
Please be able to input any size such as input sizes of 1000,10,000,50,000,100000,150000,200,000,250,000,300,000.
The input can be generated randomly using the rand() function in C++ but I dont know how in java. Please use a vector structure like in C++ STL to store the integers.
Also I would like to be able to test the algorithms by using a small input (size 20) and print the list to make sure the algorithm sorts the list properly.
Here is the code for the algorithms:
import java.util.Arrays;
public class SortingAlgorithms
{
public static void main(String[] args)
{
int[] numbers ={10,9,8,7,1,2,3,6,5,4};
System.out.println(" UNSORTED: "+ Arrays.toString(numbers));
insertionSort(numbers);
System.out.println("Insertion sort SORTED: "+ Arrays.toString(numbers));
mergeSort(numbers,0, numbers.length -1);
System.out.println(" Merge sort SORTED: "+ Arrays.toString(numbers));
quicksort(numbers,0, numbers.length -1);
System.out.println(" Quick sort SORTED: "+ Arrays.toString(numbers));
}
private static void insertionSort(int[] numbers){
for (int i =1; i < numbers.length; i++){
int j = i;
while (j >0 && numbers[j]< numbers[j -1]){
int temp = numbers[j];
numbers[j]= numbers[j -1];
numbers[j -1]= temp;
j--;
}
}
}
private static void merge(int[] numbers, int i, int j, int k){
int mergedSize = k - i +1;
int[] mergedNumbers = new int[mergedSize];
int mergePos =0;
int leftPos = i;
int rightPos = j +1;
while (leftPos <= j && rightPos <= k){
if (numbers[leftPos]<= numbers[rightPos]){
mergedNumbers[mergePos]= numbers[leftPos];
leftPos++;
}
else {
mergedNumbers[mergePos]= numbers[rightPos];
rightPos++;
}
mergePos++;
}
while (leftPos <= j){
mergedNumbers[mergePos]= numbers[leftPos];
leftPos++;
mergePos++;
}
while (rightPos <= k){
mergedNumbers[mergePos]= numbers[rightPos];
rightPos++;
mergePos++;
}
for (mergePos =0; mergePos < mergedSize; mergePos++){
numbers[i + mergePos]= mergedNumbers[mergePos];
}
}
private static void mergeSort(int[] numbers, int i, int k){
int j =0;
if (i < k){
j =(i + k)/2;
mergeSort(numbers, i, j);
mergeSort(numbers, j +1, k);
merge(numbers, i, j, k);
}
}
private static int partition(int[] numbers, int startIndex, int endIndex){
int midpoint = startIndex +(endIndex - startIndex)/2;
int pivot = numbers[midpoint];
int low = startIndex;
int high = endIndex;
boolean done = false;
while (!done){
while (numbers[low]< pivot){
low = low +1;
}
while (pivot < numbers[high]){
high = high -1;
}
if (low >= high){
done = true;
}
else {
int temp = numbers[low];
numbers[low]= numbers[high];
numbers[high]= temp;
low++;
high--;
}
}
return high;
}
private static void quicksort(int[] numbers, int startIndex, int endIndex){
if (endIndex <= startIndex){
return;
}
int high = partition(numbers, startIndex, endIndex);
quicksort(numbers, startIndex, high);
quicksort(numbers, high +1, endIndex);
}
}

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