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I have made a mergesort that is being juxtaposed with two already created selection and insertion sorts which both count the comparisons so that when executed the program illustrates which methods are faster.

  1. I can't figure out how to get a count implemented into my mergeset
  2. I really don't know if it's even working correctly or if I'm just displaying a previously already sorted array, that was sorted by selection or insertion above it. I think this because I wasn't able to call the method how the selection and insertion were. (You'll see below)

I'll post full code so far so you can see selection and insertion, how they were used.

public class ArraySort {
   private long[] a;                 // ref to array a
   private int nElems;               // number of data items

   public ArraySort(int max)          // constructor
      a = new long[max];                 // create the array
      nElems = 0;                        // no items yet

   public void Clone(ArraySort c)      // c is another array
      c.nElems = this.nElems;                                 // Copy nElems
      System.arraycopy(this.a, 0, c.a, 0, this.nElems);       // Copy elements

   public void insert(long value)    // put element into array
      a[nElems++] = value;             // insert value

   public String toString()             // displays array contents
      String res="";
      for(int j=0; j<nElems; j++)       // for each element,
         res = res + a[j] + " ";        // append it to res
      return res;

   private int insertOrder(int n, long temp) { // insert temp into a[0..(n-1)]
                                                  // and keep a[0..n] sorted.
       int count = 0;
       while (n>0) {
           count++;                       // count next comparison
           if (a[n-1] > temp)   {         // until one is smaller,
              a[n] = a[n-1];              // shift item to right
              --n;                        // go left one position
           } else break;
       a[n] = temp;                      // insert marked item
       return count;

   public int insertionSort() {
       int count = 0;
       for (int n=1; n<nElems; n++)  
              count += insertOrder(n, a[n]);   // insert a[n] into a[0..(n-1)]
       return count;
   } // end insertionSort()

   private void swap(int one, int two) {
      long temp = a[one];
      a[one] = a[two];
      a[two] = temp;

   public int selectionSort() {
      int out, in, max, count=0;

      for(out=nElems-1; out > 0; out--) {  // outer loop
         max = out;                        // max is maximum item's index
         for(in=0; in<out; in++) {          // inner loop
            if(a[in] > a[max] )            // if max is smaller,
                max = in;                  // we have a new max
            count++;                       // count one comparison
         swap(out, max);                   // swap them
      }  // end for(out)
      return count;
   }  // end selectionSort()

   public void mergeSort() {
       long[] ws = new long[nElems];
       recMergeSort(ws, 0, nElems-1);

   public void recMergeSort(long[] ws, int lower, int upper) {
       if (lower == upper)
       else {
           int mid = (lower + upper) / 2;    //find midpoint
           recMergeSort(ws, lower, mid);    //sort lower
           recMergeSort(ws, mid+1, upper);    //sort upper
           merge(ws, lower, mid+1, upper);    //merge


   public void merge(long[] ws, int lowPtr, int highPtr, int upper) {
       int j = 0;
       int lower = lowPtr;
       int mid = highPtr-1;
       int n = upper-lower+1;        //# of items

       while(lowPtr <= mid && highPtr <= upper)
             if( a[lowPtr] < a[highPtr] )
                ws[j++] = (int) a[lowPtr++];
                ws[j++] = (int) a[highPtr++];

          while(lowPtr <= mid)
             ws[j++] = (int) a[lowPtr++];

          while(highPtr <= upper)
             ws[j++] = (int) a[highPtr++];

          for(j=0; j<n; j++)
             a[lower+j] = ws[j];


   public void display() {
       for(int j=0; j<nElems; j++) {
           System.out.print(a[j] + " "); }


import java.util.*;

public class SortComparison {

   public static void main(String[] args) {

      int count, maxSize = 100;      // array size
      ArraySort arr, carr;           // reference to array
      arr = new ArraySort(maxSize);  // create the arrays
      carr = new ArraySort(maxSize);

      // insert some random numbers
          Random generator = new Random();
      for (int i = 0; i < 20; i++) {

      System.out.println("Before sort: " + arr);    // display items

      count = carr.insertionSort();          // insertion-sort a clone of arr
      System.out.println("\nInsert sort: \n" + carr + " ### Comparisons: " + count);                  

      count = carr.selectionSort();          // selection-sort a clone of arr
      System.out.println("\nSelect sort: \n" + carr + " ### Comparisons: " + count); 

      System.out.println("\nMerge sort: ");



You can see how things should be called, with the count returning, by selection and insertion..

share|improve this question
Am I right in assuming you're in your 4th week of a Data Structures and Algorithms class? – Bad Request Oct 1 '10 at 22:49
Math.abs(generator.nextInt())%maxSize should be written as generator.nextInt(maxSize) – user102008 Dec 14 '10 at 9:37
up vote 0 down vote accepted

There are several ways you could return the count in addition to the sorted array. You could store either the count or the array as class variables. You could create an object which encapsulates both the count and the array. You could even tack the count onto the front of the array, if you promise to remember that the first element is the count, not a part of the sort (this is probably a bad idea).

You might want to check that your sort works correctly by copying the array again before you worry about counting the number of comparisons.

share|improve this answer
What's the equation for the comparisons within merge sort? Does it matter if it's recursive or not? I feel like it isn't always a defined number, because there is a best case and a worst case. – John Redyns Oct 1 '10 at 23:52
Ummm, I actually was wrong about that. The number of comparisons needed does vary with the order of the input. Its only the number of swaps in mergesort that is constant. I've edited my answer to reflect this. Sorry! – Zoe Oct 3 '10 at 16:44
If you understand asymptotic analysis (big O notation), you will notice that the order of comparisons is the same for worst and best case, as the best case is simply the worst case multiplied by a constant. It is this constant that varies with the initial order of the array. This is true whether the algorithm is phrased recursively or flattened. – Zoe Oct 3 '10 at 16:54

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