# Mergesort Implementation.. Counting number of inversions in an array

I'm taking an online class on Algorithms and trying to implement a mergesort implementation of finding the number of inversions in a list of numbers. But, I cant figure what Im doing wrong with my implementation as the number of inversions returned is significantly lower than the number I get while doing a brute force approach. Ive placed my implementation of the mergesort approach below

`````` /**
*
*/

package com.JavaReference;

import java.io.IOException;

public static void main(String args[]){
int count=0;
Integer n[];

int i=0;
try{
n=OpenFile();
int num[] = new int[n.length];

for (i=0;i<n.length;i++){
num[i]=n[i].intValue();
//  System.out.println( "Num"+num[i]);
}
count=countInversions(num);

}
catch(IOException e){
e.printStackTrace();
}

System.out.println(" The number of inversions"+count);

}

public static Integer[] OpenFile()throws IOException{

System.out.println("Number of lines"+nLines);

Integer[] nData=new Integer[nLines];
for (int i=0; i < nLines; i++) {

}
textR.close();

return nData;

}

public static int readLines() throws IOException{

int numLines=0;
//String aLine;

numLines++;
}
return numLines;

}

public static int countInversions(int num[]){

int countLeft,countRight,countMerge;
int mid=num.length/2,k;

if (num.length<=1){

return 0;// Number of inversions will be zero for an array of this size.
}

int left[]=new int[mid];
int right[]=new int [num.length-mid];

for (k=0;k<mid;k++){
left[k]=num[k];
}

for (k=0;k<mid;k++){
right[k]=num[mid+k];
}

countLeft=countInversions(left);
countRight=countInversions(right);

int[] result=new int[num.length];
countMerge=mergeAndCount(left,right,result);
/*
* Assign it back to original array.
*/
for (k=0;k<num.length;k++){
num[k]=result[k];
}

return(countLeft+countRight+countMerge);
}
private static int mergeAndCount(int left[],int right[],int result[]){
int count=0;
int a=0,b=0,i,k=0;
while((a<left.length)&&(b<right.length)){

if(left[a]<right[b]){
result[k]=left[a++];// No inversions in this case.

}
else{// There are inversions.

result[k]=right[b++];
count+=left.length-a;
}
k++;

// When we finish iterating through a.

if(a==left.length){
for (i=b;i<right.length;i++){
result[k++]=right[b];

}

}
else{
for (i=a;i<left.length;i++){

}
}

}

return count;
}
}
``````

I'm a beginner in Java and Algorithms so any insightful suggestions would be great!

-
Isn't this the problem from the Stanford online course. You should tag this as Homework. –  nikhil Mar 19 '12 at 6:08
@nikhil .Im okay with it for as long as it helps! –  KodeSeeker Mar 19 '12 at 6:23
I'm out right now, if no one posts an answer then I'll look into this. –  nikhil Mar 19 '12 at 6:25

I found two bugs:

• In countInversions(), when `num` is split into `left` and `right` you assume `right` has `m` elements. When `num.length` is odd, however, it will be `m + 1` elements. The solution is to use `right.length` instead of `m`.
• In mergeAndCount(), handling of the bit where one subarray is empty and the other one still has some elements is not done correctly.

Side note:
There is absolutely no reason to use `Integer` in your program, except for the `Integer.parseInt()` method (which, by the way, returns an `int`).

Corrected code:

``````/**
*
*/

package com.JavaReference;

import java.io.IOException;

public static void main(String args[]){
int count=0;
Integer n[];

int i=0;
try{
n=OpenFile();
int num[] = new int[n.length];

for (i=0;i<n.length;i++){
num[i]=n[i].intValue();
// System.out.println( "Num"+num[i]);
}
count=countInversions(num);

}
catch(IOException e){
e.printStackTrace();
}

System.out.println(" The number of inversions"+count);

}

public static Integer[] OpenFile()throws IOException{

System.out.println("Number of lines"+nLines);

Integer[] nData=new Integer[nLines];
for (int i=0; i < nLines; i++) {

}
textR.close();

return nData;

}

public static int readLines() throws IOException{

int numLines=0;
//String aLine;

numLines++;
}
return numLines;

}

public static int countInversions(int num[]){

int countLeft,countRight,countMerge;
int mid=num.length/2,k;

if (num.length<=1){

return 0;// Number of inversions will be zero for an array of this size.
}

int left[]=new int[mid];
int right[]=new int [num.length-mid];

for (k=0;k<mid;k++){
left[k]=num[k];
}

// BUG 1: you can't assume right.length == m
for (k=0;k<right.length;k++){
right[k]=num[mid+k];
}

countLeft=countInversions(left);
countRight=countInversions(right);

int[] result=new int[num.length];
countMerge=mergeAndCount(left,right,result);
/*
* Assign it back to original array.
*/
for (k=0;k<num.length;k++){
num[k]=result[k];
}

return(countLeft+countRight+countMerge);
}
private static int mergeAndCount(int left[],int right[],int result[]){
int count=0;
int a=0,b=0,i,k=0;
while((a<left.length)&&(b<right.length)){

if(left[a]<right[b]){
result[k]=left[a++];// No inversions in this case.

}
else{// There are inversions.

result[k]=right[b++];
count+=left.length-a;
}
k++;
}

// BUG 2: Merging of leftovers should be done like this
while (a < left.length)
{
result[k++] = left[a++];
}
while (b < right.length)
{
result[k++] = right[b++];
}

return count;
}
}
``````
-
Thank you for the reply! I was able to understand the first bug you pointed out and still trying to figure out how the merging of leftovers happens, however I get an answer that's different from the one I get through brute force(both are of the same order though).Kinda weird :S –  KodeSeeker Mar 19 '12 at 8:43
@KodeSeeker When the big while loop ends, either `a == left.length` or `b == right.length`. One sublist will be completely 'used up', while the other will still have some unprocessed elements. These leftover elements will not affect `count`, so they are simply appended to `result`. Instead of doing a check to see which array has the leftover elements, I simply add any remaining elements in both arrays. Each time one of the two while loops is going to be redundant because you'll never have leftovers in both sublists at the same time. –  tom Mar 19 '12 at 9:33
@KodeSeeker Regarding the incorrect output: I suspect the input file has duplicates. The current implementation treats equal items as inverted. If you want equal items to be considered sorted, change the line `if(left[a] < right[b]) {` to `if(left[a] <= right[b]) {`. –  tom Mar 19 '12 at 9:34
either ways doesnt the brute force approach give all possible inversions since it is exhaustive ? For instance in this case , while applying brute force I get 1887062008 inversions , whereas while applying the merge and sort approach I get 1898139648 inversions , and no I dont think there are any duplicate questions since , the o/p remained same while using both the < and <= conditions. –  KodeSeeker Mar 19 '12 at 10:15
@KodeSeeker You copy-pasted incorrectly. The two tiny while loops at the end of mergeAndCount() need to be separate, not one inside the other. –  tom Mar 19 '12 at 19:33

I found a rigth solution in Robert Sedgewick book "Algorithms on java language"

-

The way I see it, counting the number of inversions in an array is finding a way to sort the array in an ascending order. Following that thought, here is my solution:

``````int countInversionArray(int[] A) {
if(A.length<=1) return 0;
int solution = 0;

for(int i=1;i<A.length;i++){
int j = i;
while(j+2<A.length && A[j] > A[j+1]){
invert2(j,j+1,A);
solution++;
j++;
}
j=i;
while(j>0 && A[j] < A[j-1]){
invert2(j,j-1,A);
solution++;
j--;
}
}

return solution;
}

private void invert2(int index1, int index2, int[] A){
int temp = A[index1];
A[index1] = A[index2];
A[index2] = temp;
}
``````
-

You can try this In-Place Mergesort implemention on java. But minimum 1 temporary data container is needed (ArrayList in this case). Also counts inversions.

///

Sorter.java

``````public interface Sorter {

public void sort(Object[] data);

public void sort(Object[] data, int startIndex, int len);

}
``````

MergeSorter implementation class (others like QuickSorter, BubbleSorter or InsertionSorter may be implemented on Sorter interface)

MergeSorter.java

``````import java.util.List;
import java.util.ArrayList;

public class MergeSorter implements Sorter {

private List<Comparable> dataList;
int num_inversion;

public MergeSorter() {
dataList = new ArrayList<Comparable> (500);
num_inversion = 0;
}

public void sort(Object[] data) {
sort(data, 0, data.length);
}

public int counting() {
return num_inversion;
}

public void sort(Object[] data, int start, int len) {
if (len <= 1) return;
else {
int midlen = len / 2;

sort(data, start, midlen);
sort(data, midlen + start, len - midlen);
merge(data, start, midlen, midlen + start, len - midlen);
}
}

private void merge(Object[] data, int start1, int len1, int start2, int len2) {
dataList.clear();

int len = len1 + len2;

// X is left array pointer
// Y is right array pointer

int x = start1, y = start2;
int end1 = len1 + start1 - 1;
int end2 = len2 + start2 - 1;

while (x <= end1 && y <= end2) {

Comparable obj1 = (Comparable) data[x];
Comparable obj2 = (Comparable) data[y];

Comparable<?> smallobject = null;
if (obj1.compareTo(obj2) < 0) {
smallobject = obj1;
x++;
}
else {
smallobject = obj2;
y++;
num_inversion += (end1 - x + 1);
}

}

while (x <= end1) {
}
while (y <= end2) {
}

for (int n = start1, i = 0; n <= end2; n++, i++) {
data[n] = dataList.get(i);
}

}
}
``````

For testing, create a driver class and type the main method

``````public static void main(String[] args) {

Object[] data = ...............
Sorter sorter = new MergeSorter();
sorter.sort(data)

for (Object x : data) {
System.out.println(x);
}
System.out.println("Counting invertion: " + ((MergeSorter)sorter).counting());
}
``````
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