# Quicksort with first element as pivot example

I am currently studying quicksort and would like to know how it works when the first (or last) element is chosen as the pivot point.

Say for example I have the following array:

``````{15, 19, 34, 41, 27, 13, 9, 11, 44}
``````

This is what I think happens:

``````{15, 19, 34, 41, 27, 13, 9, 11, 44}
^
pivot

{15, 19, 34, 41, 27, 13, 9, 11, 44}
^                              ^
compare these two, they are good

{15, 19, 34, 41, 27, 13, 9, 11, 44}
^                          ^
compare these two and swap

{11, 19, 34, 41, 27, 13, 9, 15, 44}
^                       ^
compare these two and swap

{9, 19, 34, 41, 27, 13, 11, 15, 44}
^                  ^
compare these two, they are good

{9, 19, 34, 41, 27, 13, 11, 15, 44}
^              ^
compare these two, they are good

{9, 19, 34, 41, 27, 13, 11, 15, 44}
^          ^
compare these two, they are good

{9, 19, 34, 41, 27, 13, 11, 15, 44}
^      ^
compare these two, they are good

{9, 19, 34, 41, 27, 13, 11, 15, 44}
^  ^
compare these two, they are good

{9, 19, 34, 41, 27, 13, 11, 15, 44}

End of first partition
``````

Is this how it works? If so, would 19 be the new pivot point, or do you divide the array in half to find it (so that it would be 27/13), or does it depend on the implementation of the quicksort? Thanks for your time!

-

Check wikipedia, there is a little example with a bit smaller list of inplace quicksort http://en.wikipedia.org/wiki/Quicksort

With your example the idea is to partition

``````{15, 19, 34, 41, 27, 13, 9, 11, 44}
``````

into

``````{13, 9, 11 -- 15 -- 19, 34, 41, 27, 44}
``````

So first we move pivot to the end

``````Swap 44, and 15
{44, 19, 34, 41, 27, 13, 9, 11, 15}
^                          ^

Than check 44, its larger than pivot, so swap with one one before last...

{11, 19, 34, 41, 27, 13, 9, 44, 15}
^                       ^

than check element at some position as last one was larger than pivot.
9 < 15, so proceed to the next, 19 > 15 => swap

{11, 9, 34, 41, 27, 13, 19, 44, 15}
^            ^

swap again
{11, 9, 13, 41, 27, 34, 19, 44, 15}
^       ^

next
{11, 9, 13, 41, 27, 34, 19, 44, 15}
^   ^

and second last swap

{11, 9, 13, 27, 41, 34, 19, 44, 15}
^

Now as forward and backward indices reached each other,
we swap pivot into right position

{11, 9, 13, 15, 41, 34, 19, 44, 27}
``````

And we got partitioned set. Items less than 15 at the beginning, than pivot = 15, and then greater elements.

EDIT: algorithm described in wikipedia article is a bit different:

``````Legend:
^ = storeindex
# = i

{44, 19, 34, 41, 27, 13, 9, 11, 15}
^#

{44, 19, 34, 41, 27, 13, 9, 11, 15}
^   #

... until ...

{44, 19, 34, 41, 27, 13, 9, 11, 15}
^                   #

{13, 19, 34, 41, 27, 44, 9, 11, 15}
^                   #

{13, 9, 34, 41, 27, 44, 19, 11, 15}
^                   #

{13, 9, 11, 41, 27, 44, 19, 34, 15}
^                   #

{13, 9, 11, 15, 27, 44, 19, 34, 41}
^- pivot
``````
-
after that you would proceed recursively applying quicksort on the {13, 9, 11} and {27, 44, 19, 34, 41} part of the arrays. Try to experiment with eg. a deck of cards how it would work! –  Oleg Grenrus Jul 18 '11 at 22:53
This helped a lot, thank you for clearing up my confusion! –  A D Jul 25 '11 at 18:36
``````the following code uses first element as pivot

public static int[] qs(int[] list, int start, int end) {
if (end - start <= 1) {
return list;
}
int pivot = split(list, start, end);
qs(list, start, pivot);
qs(list, pivot + 1, end);
return list;
}

private static int split(int[] list, int start, int end) {
int pivot = list[start];
int i = start;
for (int j = start + 1; j <= end; j++) {
int current = list[j];
if (current < pivot) {
swap(list, i + 1, j);
i++;
}
}
swap(list, start, i);
return i;
}

private static void swap(int[] list, int i, int j) {
int temp = list[i];
list[i] = list[j];
list[j] = temp;
}
``````
-
``````/* Quick Sort taking first element as pivot element*/
void QuickSort(int* arr,int start,int last)
{
int i=start+1,j=last,temp;
if(i>j)
return;
while(i<=j)
{
if(arr[i]<arr[start])
{enter code here
i++;
}
if(arr[j]>arr[start])
{
j--;
}
if(i<=j)
{
temp=arr[i];
arr[i]=arr[j];
arr[j]=temp;
}
}

temp=arr[start];
arr[start]=arr[j];
arr[j]=temp;

QuickSort(arr,start,j-1);
QuickSort(arr,j+1,last);
}
``````