# Recursive MergeSort and counting comparisons

I have written a program that contains 4 sorting methods, selection sort, insertion sort, merge sort, and recursive merge sort. The insertion and selection sort methods run fine and return to me a sorted list and the right amount of comparisons. My merge sort method returns me a sorted list, but my comparisons = 1. My recursive merge sort doesnt even sort the list and also says comparisons = 1. Can anybody help me find my errors? Here is all my code.

``````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 int mergeSort() {           // called by main()
int count = 0;
long[] workSpace = new long[nElems]; // provides workspace
recMergeSort(workSpace, 0, nElems-1);
count++;
return count;
}

public int recMergeSort(long[] workSpace, int lowerBound,
int upperBound) {

int count = 0;

if(lowerBound == upperBound)            // if range is 1,
return 1;

// find midpoint
int mid = (lowerBound+upperBound) / 2;

recMergeSort(workSpace, lowerBound, mid);   // sort low half

recMergeSort(workSpace, mid+1, upperBound);  // sort high half

merge(workSpace, lowerBound, mid+1, upperBound); // merge them
count++;
return count;

}  // end else
// end recMergeSort()

private int merge(long[] workSpace, int lowPtr,
int highPtr, int upperBound)
{
int j = 0;                             // workspace index

int lowerBound = lowPtr;

int mid = highPtr-1;

int n = upperBound-lowerBound+1;       // # of items

int count = 0;

while(lowPtr <= mid && highPtr <= upperBound)

if( a[lowPtr] < a[highPtr] ) {
workSpace[j++] = a[lowPtr++];
count++;
}

else {
workSpace[j++] = a[highPtr++];
count++;
}

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

count++;

while(highPtr <= upperBound)
workSpace[j++] = a[highPtr++];

count++;

for(j=0; j<n; j++)

a[lowerBound+j] = workSpace[j];

return count;
}  // end merge()
}
``````

The methods are being called from here...

``````import java.util.*;

public class SortComparison {

public static void main(String[] args) {

int count, maxSize = 20;      // 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++) {
arr.insert(Math.abs(generator.nextInt())%maxSize);
}

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

arr.Clone(carr);
count = carr.insertionSort();          // insertion-sort a clone of arr
System.out.println("Insert sort: " + carr + " comparions=" + count);

arr.Clone(carr);
count = carr.selectionSort();          // selection-sort a clone of arr
System.out.println("Select sort: " + carr + " comparions=" + count);

arr.Clone(carr);
count = carr.mergeSort();
System.out.println("Merge sort: " + carr + " comparions=" + count);

arr.Clone(carr);
count = carr.recMergeSort(null, maxSize, maxSize);
System.out.println("RecMerge sort: " + carr + " comparions=" + count);

}  // end main()

}  // end class SortComparison
``````

and when the program is run this is the output i receive...

```Before sort: 3 2 4 7 17 11 3 0 14 6 8 7 12 15 0 0 9 4 7 16
Insert sort: 0 0 0 2 3 3 4 4 6 7 7 7 8 9 11 12 14 15 16 17  comparions=94
Select sort: 0 0 0 2 3 3 4 4 6 7 7 7 8 9 11 12 14 15 16 17  comparions=190
Merge sort: 0 0 0 2 3 3 4 4 6 7 7 7 8 9 11 12 14 15 16 17  comparions=1
RecMerge sort: 3 2 4 7 17 11 3 0 14 6 8 7 12 15 0 0 9 4 7 16  comparions=1
```

Can anybody help me fix this!?

I dont know why my recursive merge sort method wont sort the list. And why the comparisons = 1 for the last two.

-
Could we clean up this question? It's sort of hard to tell what you're asking... – Joseph Weissman Oct 1 '10 at 19:32

Since it's a homework, I'll only show how to fix `mergeSort()`:

``````public int mergeSort() {
int count = 0;
long[] workSpace = new long[nElems];
count += recMergeSort(workSpace, 0, nElems-1); // Add the comparisons executed there
return count;
}
``````

You need to fix `recMergeSort()` in a similar fashion.

I guess that you think of `count` as of a global variable. But it's not. In all your sorting methods `count` is a local variable, which is not visible outside the scope of the method. Therefore, if you modify the `count` variable inside `recMergeSort()` it will not be automatically affect the (other) `count` variable inside `mergeSort()`. A natural way to "send" the count from (called) `recMergeSort()` to (calling) `mergeSort()` is through `return count`, as you correctly did. Unfortunately, you did not use the result which `recMergeSort()` returned.

One last thing, since maybe I wasn't clear enough: even if you recursively call `recMergeSort()` from `recMergeSort()`, still the `count` variable in the caller is different from the `count` variable in the callee. So even if you do recursive calls, still the called method needs to pass the result through `return` and the calling method needs to pick it up.

-

The following is your `mergeSort()` method:

``````public int mergeSort() {           // called by main()
int count = 0;
long[] workSpace = new long[nElems]; // provides workspace
recMergeSort(workSpace, 0, nElems-1);
count++;
return count;
}
``````

This method returns 1 because you create a variable called `count`, increment it once and only once after calling `recMergeSort`, and then return it. `recMergeSort` contains another local variable called `count`, but this local variable is completely separate to that in `mergeSort`. The `count++` lines in `recMergeSort` have no effect on `count` within `mergeSort`.

Your `merge` and `recMergeSort` methods both return the number of comparisons made, but you don't do anything with the returned values. To count the total number of comparisons, get rid of the `count++` line in the above, and replace the line

``````recMergeSort(workSpace, 0, nElems-1);
``````

with

``````count += recMergeSort(workSpace, 0, nElems-1);
``````

You will also need to make similar changes to the various method calls in `recMergeSort`.

Why is the last line of your output above not sorting the list? Well, you are making the following method call:

``````count = carr.recMergeSort(null, maxSize, maxSize);
``````

Your `recMergeSort` method begins as follows:

``````public int recMergeSort(long[] workSpace, int lowerBound,
int upperBound) {

int count = 0;

if(lowerBound == upperBound)            // if range is 1,
return 1;

// rest of method omitted
}
``````

You are clearly calling `recMergeSort` with the `lowerBound` and `upperBound` parameters the same. As a result, the method is returning `1`, because you explicitly asked it to.

-
Thanks Pourquoi Litytestdata, but what parameters can i use instead of maxSize and maxSize to give me the lowest and highest entries in the array? – Alex Oct 1 '10 at 22:31
The following works: `count = carr.recMergeSort(new long[maxSize], 0, maxSize - 1);`. – Luke Woodward Oct 2 '10 at 12:26

In the future, just post the relevant code. We don't necessarily need to see all the methods that work.

It is possible to make a recursive sort algorithm using only one method (and personally, I think it would be easier if you did). You're very much on the right track, at any rate. But look at mergeSort() - you declare count = 0, do your recursion, add 1 to count, and then return it. The problem you're having is that you only increment count once, when you should be giving it the value returned by recMergeSort(). See my in-line comments for solutions.

``````public int mergeSort() {           // called by main()
int count = 0;

long[] workSpace = new long[nElems]; // provides workspace
/*
recMergeSort() returns an integer, but you do not assign it to anything.
*/
recMergeSort(workSpace, 0, nElems-1);
count++;
count = recMergeSort(workspace, 0, nElms-1);
return count;
*/
return count;
}

public int recMergeSort(long[] workSpace, int lowerBound, int upperBound) { int count = 0;
if(lowerBound == upperBound) // if range is 1, return 1;
// find midpoint int mid = (lowerBound+upperBound) / 2;
recMergeSort(workSpace, lowerBound, mid); // sort low half
recMergeSort(workSpace, mid+1, upperBound); // sort high half
merge(workSpace, lowerBound, mid+1, upperBound); // merge them count++; return count; } // end else // end recMergeSort()
private int merge(long[] workSpace, int lowPtr, int highPtr, int upperBound) { int j = 0; // workspace index
int lowerBound = lowPtr;
int mid = highPtr-1;
int n = upperBound-lowerBound+1; // # of items
int count = 0;
while(lowPtr <= mid && highPtr <= upperBound)
if( a[lowPtr] < a[highPtr] ) {
workSpace[j++] = a[lowPtr++];
count++;
} else {
workSpace[j++] = a[highPtr++];
count++; }
while(lowPtr <= mid)
workSpace[j++] = a[lowPtr++];
count++;
while(highPtr <= upperBound)
workSpace[j++] = a[highPtr++];
count++;
for(j=0; j

//AAAAAH! What happened to your For loop???

a[lowerBound+j] = workSpace[j]; return count; } // end merge()

}
``````
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