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here is the of quick sort algorithm from the MITOcw(Introduction To Algorithms ) lecture

QUICKSORT(A,p,q)
if(p < q)
then r = PARTITION(A,p,q)
     QUICKSORT(A,p,r-1)
     QUICKSORT(A,r+1,q)

PARTITION(A,p,q)
x = A[p]
i=p
for j = p+1 to q
    if A[j] <= x
       then i = i+1
            swap A[i] with A[j]
swap A[p] with A[i]
return i

and here its C++ implementation on an integer array

#include <iostream>

using namespace std;

void quickSort(int *,int,int);

int partition(int *, int,int);

int main()
{
    int A[10]={6,10,13,5,8,3,2,25,4,11};
    int p=0,q=10;

    cout<<"======Original======="<<endl;
    for(int f=0; f<10; f++)
        cout<<A[f]<<endl;

    quickSort(A,p,q);

    cout<<"======Sorted======="<<endl;
    for(int f=0; f<10; f++)
        cout<<A[f]<<endl;
}


void quickSort(int *A, int p,int q)
{
    int r;
    if(p<q)
    {
        r=partition(A, p,q);
        quickSort(A,p,(r-1)); //I think the problem is here this first quickSort call
                              // is reducing the value of r and hence value of q becomes
                              // less than p recursively. How can I separate both calls
                              // one for left and one for right sub array of the pivot. 
        quickSort(A,(r+1),q);
    }
}


int partition(int *A, int p,int q)
{
    int x= A[p];
    int i=p;
    int temp;
    int j;

    for(j=p+1; j<q; j++)
    {
        if(A[j]<=x)
        {
            i=i+1;
            temp= A[j];
            A[j]=A[i];
            A[i]=temp;
        }

    }

    temp= A[p];
    A[p]=A[i];
    A[i]=temp;

    return i;
}

code doesn't yield sorted array although the first two runs of quickSort function gives desired output. that is it place the first pivot element to its correct position

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2 Answers 2

up vote 2 down vote accepted

Your consideration is wrong. The value of r does not change, since it is given as value to the Quicksort function(not a reference). You handle the ranges with p,q such that p is the first index in the range and q the first index not in the range.

Thus, your calls were wrong:

r=partition(A, p,q);
quickSort(A,p,r); //range is from A[p] to A[r-1] 
quickSort(A,(r+1),q); //range is from A[r+1] to A[q-1]

Here is the complete example. I used std::swap to change elements and ans std::vector instead of an array.

#include <iostream>
#include <vector>

using namespace std;

void quickSort(vector<int>&,int,int);

int partition(vector<int>&, int,int);

int main()
{
    vector<int> A = {6,10,13,5,8,3,2,25,4,11};
    int p=0;
    int q=10;

    cout<<"======Original======="<<endl;
    for(auto e: A)
        cout<< e <<" ";
    cout<< endl;    

    quickSort(A,p,q);

    cout<<"======Sorted======="<<endl;
    for(auto e: A)
        cout<< e <<" ";
    cout<< endl;   
}


void quickSort(vector<int>& A, int p,int q)
{
    int r;
    if(p<q)
    {
        r=partition(A, p,q);
        quickSort(A,p,r);  
        quickSort(A,r+1,q);
    }
}


int partition(vector<int>& A, int p,int q)
{
    int x= A[p];
    int i=p;
    int j;

    for(j=p+1; j<q; j++)
    {
        if(A[j]<=x)
        {
            i=i+1;
            swap(A[i],A[j]);
        }

    }

    swap(A[i],A[p]);
    return i;
}

Live example: ideone

share|improve this answer
    
Hi, I am trying to understand this algorithm, What is the pivot? If I change the value of p or q, the algorithm doesn't sort all the array. –  D1X Feb 16 at 1:33
    
@D1X A[p] is the pivot element. Since p is the left bound of the part of the array that needs to be sorted, the pivot element is always the first element. Only the part of the array between index p and q gets sorted. –  tgmath Feb 16 at 9:06
    
So if I wanted to pick another pívot how could I do it? –  D1X Feb 16 at 10:21
    
Rewrite the method int partition(...). E.g. select the second(or last) element and swap it with the first at the beginning of the current procedure. –  tgmath Feb 16 at 15:44
    
why is q=10 ? while p is still = 0. –  Abhinav Gauniyal Apr 15 at 3:05

A much easier and clean implementation, also gives you number of minimum SWAPS in for QuickSort:

            int quickSort(int[], int, int);

            int partition(int[], int, int, int&);

            int main()
            {
                int array[] = {4, 2, 5};
                int size = sizeof(array)/sizeof(array[0]);

                /*
                 first and last indices are passed
                 idea is to move lower elements to the left of the list/pivot
                 */

                int swaps = quickSort(array, 0, size-1);

                cout << "Minimum Swaps are: " << swaps << endl;

                for(int i = 0; i < size; i++)
                {
                    cout << array[i] << " ";
                }
            }

            int quickSort(int array[], int start, int end)
            {
                int swaps = 0;
                if(start < end)
                {
                    int pIndex = partition(array, start, end, swaps);
                    //after each call one number(the PIVOT) will be at its final position
                    swaps += quickSort(array, start, pIndex-1);
                    swaps += quickSort(array, pIndex+1, end);
                }
                return swaps;
            }

            void swap(int &a, int &b)
            {
                int temp = a;
                a = b;
                b = temp;
            }

            int partition(int array[], int start, int end, int& swaps)
            {
                int pivot = array[end];
                int pIndex = start;

                for(int i = start; i < end; i++)
                {
                    if(array[i] <= pivot)
                    {

                        if(pIndex != i)
                        {
                            swap(array[i], array[pIndex]);
                            swaps++;
                        }
                        pIndex++;
                    }
                }
                if(pIndex != end)
                {
                    swap(array[pIndex], array[end]);
                    swaps++;
                }
                return pIndex;
            }
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