# Implementing Quicksort

i am trying to implement quicksort but i am not getting correct results. Here is my code:

``````public static void quickSort(Comparable[] a, int start, int stop) {
if (start < stop) {
int pivot = partition(a, start ,stop);
System.out.print("Pivot: "+a[pivot]+" Array: ");
printArray(a);
quickSort(a,start,pivot-1);
quickSort(a,pivot+1, stop);
}
}

public static int partition(Comparable[] a, int start, int stop) {
Comparable pivot = a[stop];
int i = start;
int j = stop-1;

while (i < j) {
while( (isLess(a[i], pivot)|| isEqual(a[i], pivot)))
i++;
while((isGreater(a[j], pivot)|| isEqual(a[j], pivot)))
j--;
if(i < j)
swap(a, i,j);
}

swap(a,i, stop);

return i;

}
``````

For input: {51,17,82,10,97,6,23,45,6,73}, i am getting result: 6 6 10 17 23 45 51 73 97 82 For input: {12,9,4,99,120,1,3,10}, i am getting an index out of bounds error. Would appreciate some help in where i am going wrong.

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@Julian it does not make sense to swap the same item with itself... If `i==j`, exactly that would happen if the condition in the if was `i<=j`. Same with the while... –  ppeterka Oct 26 '12 at 18:02
Your problem is so small. Learn to debug. It will come in handy in the future. You can inspect your program instruction after instruction and see where it fails. –  Kylo Oct 26 '12 at 18:05
@ppterka You are right - my mistake - posted a snippet with slightly differnt logic for you extracted from the site in the link in my previous comment - You will see an extra i++ and j-- This gives you one more step. –  user425445 Oct 26 '12 at 18:10
(Irk: why do people upvote localized non-question code-reviews?) –  user166390 Oct 26 '12 at 18:12

The problem with `{51,17,82,10,97,6,23,45,6,73}` is — what happens when `stop == start + 1`? Then `i == start == stop - 1 == j`, so you never enter the `while`-loop, so you unconditionally `swap(a, i, stop)` — even if `a[i]` was already less than `a[stop]`.

The problem with `{12,9,4,99,120,1,3,10}` is seemingly that you didn't read the stacktrace. ;-)   Assuming you have a decent Java compiler and JVM, it should have given you the exact line-number and problematic index, so you would have seen that the problem is in this line:

``````            while((isGreater(a[j], pivot)|| isEqual(a[j], pivot)))
``````

once `j` gets to `-1`. (This will happen if `pivot` is the very least value in the range of interest.) You just need to add a check for that:

``````            while(j > start && (isGreater(a[j], pivot)|| isEqual(a[j], pivot)))
``````

(and, for that matter, for the corresponding case of `i`:

``````            while(i < stop && (isLess(a[i], pivot)|| isEqual(a[i], pivot)))
``````

)

. . . and you need to learn how to debug your code. :-)

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thnx alot!! btw i did figure these out after debugging but i wanst sure how to fix it!! –  ueg1990 Oct 26 '12 at 20:47

I recommend you Algorithms: Design and Analysis, very good internet course from Stanford. After this course you will write such codes more easily. It is a bit enhanced version, pivot is chosen as a median of three. Note that you don't have to write your own `printArray()` function. In Java you can do it with `System.out.println(Arrays.toString(numbers))`. Also you can observe how to call `quickSort()` in more elegant way, with only one argument, using method overloading.

``````public class QuickSort
{

public static void main(String[] args)
{
int numbers[] =
{ 51, 17, 82, 10, 97, 6, 23, 45, 6, 73 };
quickSort(numbers);
System.out.println(Arrays.toString(numbers));
}

public static void quickSort(int[] array)
{
quickSort(array, 0, array.length - 1);
}

private static void quickSort(int[] array, int left, int right)
{
if (left >= right)
{
return;
}
int pivot = choosePivot(array, left, right);
pivot = partition(array, pivot, left, right);
quickSort(array, left, pivot - 1);
quickSort(array, pivot + 1, right);
}

private static int partition(int[] array, int pivot, int left, int right)
{
swap(array, pivot, left);
pivot = left;
int i = left + 1;
for (int j = left + 1; j <= right; j++)
{
if (array[j] < array[pivot])
{
swap(array, j, i);
i++;
}
}
swap(array, pivot, i - 1);
return i - 1;
}

private static void swap(int[] array, int j, int i)
{
int temp = array[j];
array[j] = array[i];
array[i] = temp;
}

private static int choosePivot(int[] array, int left, int right)
{
return medianOfThree(array, left, (left + right) / 2, right);
// return right;
}

private static int medianOfThree(int[] array, int aIndex, int bIndex, int cIndex)
{
int a = array[aIndex];
int b = array[bIndex];
int c = array[cIndex];
int largeIndex, smallIndex;
if (a > b)
{
largeIndex = aIndex;
smallIndex = bIndex;
}
else
{
largeIndex = bIndex;
smallIndex = aIndex;
}
if (c > array[largeIndex])
{
return largeIndex;
}
else
{
if (c < array[smallIndex])
{
return smallIndex;
}
else
{
return cIndex;
}
}
}

}
``````
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i had done this overloading for the other sorting algorithms i implemented...i just wanted make this work first!! thnx though :) –  ueg1990 Oct 26 '12 at 20:48
hey adam, I was trying to understand quicksort with median-of-3 partitioning. After finding the median of the first, middle and last element in an array, a common practice is to swap median with the second last element in array(n-1th index). Is there a specific reason that is done? –  ueg1990 Oct 27 '12 at 20:26
@ueg1990 Where have you found that this is a common practice? –  Adam Stelmaszczyk Oct 28 '12 at 0:55
i have seen many examples online where, after finding the median of the 3 elements, the median is then swapped with the second last element. Here are two of the links: java2s.com/Book/Java/Examples/… cs.utexas.edu/~lavender/courses/ee360c/lectures/lecture-22.pdf –  ueg1990 Oct 28 '12 at 14:53