# Quicksort not sorting correctly

Attempting to learn from doing an implementation of Quicksort, I cannot find out why it's not sorting properly.

Using this sequence:

6, 7, 12, 5, 9, 8, 65, 3

It returns this:

3, 5, 7, 8, 9, 65, 12, 6

It seems to sort somewhat, but not all. What have I missed?

Here's my code:

`````` static void Main(string[] args)
{
QuickSort qs = new QuickSort();

int[] arr = new int[] { 6, 7, 12, 5, 9, 8, 65, 3 };

foreach (int l in arr)
{
Console.Write(l + ", ");
}

int left = 0;
int right = arr.Count() - 1;

int[] arrr = qs.DoQuickSort(ref arr, left, right);
Console.WriteLine("Sorted List: ");
foreach (int i in arrr)
{
Console.Write(i + " ");
}

}

public int Partition(int[] array, int left, int right, int PivotIndex)
{
int pivValue = array[PivotIndex];

array = Swap(ref array, PivotIndex, right);

int storeIndex = left;

for (int i = PivotIndex; i < right-1; i++)
{
if (array[i] <= pivValue)
{
array = Swap(ref array, i, storeIndex);
storeIndex = storeIndex + 1;
}
}

array = Swap(ref array, storeIndex, right);

return storeIndex;
}

public int[] Swap(ref int[] arr, int first, int second)
{
int temp = arr[first];
arr[first] = arr[second];
arr[second] = temp;

return arr;
}

public int[] DoQuickSort(ref int[] array, int left, int right)
{
if (right > left)
{
int PivIndex = (left + right) / 2;
int newPivIndex = Partition(array, left, right, PivIndex);
DoQuickSort(ref array, left, newPivIndex - 1);
DoQuickSort(ref array, newPivIndex + 1, right);
}

return array;
}
``````
-
you really need to start posting your complete code. You keep showing us the partition function and the quicksort function and you do not show us the main methods. You've done this numerous times on this subject on this site. –  JonH Jan 19 '10 at 16:45
Looks like you're missing a few lines at the beginning -- did that get snipped off by accident? (edit: oops, nevermind; the braces were just weirdly aligned) –  John Feminella Jan 19 '10 at 16:47
As a matter of coding style and standards, PivotIndex is a parameter of the Partition method and PivIndex is a local variable of the DoQuickSort method. Because of this, convention says both should begin with a lower-case letter, i.e. pivotIndex and pivIndex. Also, you pass your array around by reference (ref int[] array), which is not necessary. Arrays are already object references and you are modifying their constituent elements, not the array reference itself. –  Jesse C. Slicer Jan 19 '10 at 16:57
BTW: You don't have to pass these arrays by reference. Arrays are reference types, so the called function can always manipulate items. Only if you want to replace the entire array (e.g. to resize it) pass by reference is needed. –  nikie Jan 19 '10 at 16:58

In addition to my comment on the question itself, I wanted to point out that the `Swap()` and `DoQuickSort()` methods do not need to return the array (as per my note in the comment which explains that the array is a reference itself). To that end, your code to do the job should look like the following:

``````public int Partition(int[] array, int left, int right, int pivotIndex)
{
int pivValue = array[pivotIndex];

Swap(array, pivotIndex, right);

int storeIndex = left;

for (int i = left; i < right; i++)
{
if (array[i] <= pivValue)
{
Swap(array, i, storeIndex);
storeIndex = storeIndex + 1;
}
}

Swap(array, storeIndex, right);

return storeIndex;
}

public void Swap(int[] arr, int first, int second)
{
int temp = arr[first];
arr[first] = arr[second];
arr[second] = temp;
}

public void DoQuickSort(int[] array, int left, int right)
{
if (right > left)
{
int pivIndex = (left + right) / 2;
int newPivIndex = Partition(array, left, right, pivIndex);
DoQuickSort(array, left, newPivIndex - 1);
DoQuickSort(array, newPivIndex + 1, right);
}
}
``````
-
One last (?) note - I'd guess that Partition() and Swap() do not need to be public as your caller will hopefully only be calling DoQuickSort(). –  Jesse C. Slicer Jan 19 '10 at 17:24

Are you asking to be handed a fish, or to be taught how to fish?

Learning how to debug your own programs, rather than relying upon other people to do it for you, is a skill that will serve you well in the future.

When faced with this problem, the first thing I would do is mark up the code with comments indicating the semantic purpose of each section of code:

``````// Choose a pivot halfway along the portion of the list I am searching.
int PivIndex = (left + right) / 2;
// Partition the array so that everything to the left of the pivot
// index is less than or equal to the pivot, and everything to
// the right of the pivot is greater than or equal to the pivot.
int newPivIndex = Partition(array, left, right, PivIndex);
// Recursively sort each half.
DoQuickSort(ref array, left, newPivIndex - 1);
DoQuickSort(ref array, newPivIndex + 1, right);
``````

OK, now, somewhere in here there is a bug. Where? Start listing facts that you believe to be true, and write an assertion for every fact. Write yourself helper methods, like AllLessThan, which verify assertions for you.

``````// Choose a pivot halfway along the portion of the list I am searching.
int PivIndex = (left + right) / 2;

int pivotValue = array[PivIndex];
// Partition the array so that everything to the left of the pivot
// index is less than or equal to the pivot, and everything to
// the right of the pivot is greater than or equal to the pivot.
int newPivIndex = Partition(array, left, right, PivIndex);
Debug.Assert(array[newPivIndex] == pivotValue);
Debug.Assert(AllLessThanOrEqual(array, left, newPivIndex, pivotValue));
Debug.Assert(AllGreaterThanOrEqual(array, newPivIndex, right, pivotValue));
// Recursively sort each half.
DoQuickSort(ref array, left, newPivIndex - 1);
Debug.Assert(IsSorted(array, left, newPivIndex));
DoQuickSort(ref array, newPivIndex + 1, right);
Debug.Assert(IsSorted(array, left, right));
``````

Now when you run this program again, the moment one of your assertions is violated, you'll get a box that pops up to tell you what the nature of the bug is. Keep doing that, documenting your preconditions and postconditions with assertions until you find the bug.

-
Thank you very much for this tip!! :) –  Tony The Lion Jan 20 '10 at 9:36

In your `Partition` method you have a wrong loop range:

``````for (int i = PivotIndex; i < right-1; i++)
``````

Should become:

``````for (int i = left; i < right; i++)
``````

Checkout the related wikipedia article which says:

``````function partition(array, left, right, pivotIndex)
pivotValue := array[pivotIndex]
swap array[pivotIndex] and array[right] // Move pivot to end
storeIndex := left
for i  from  left to right - 1 // left ≤ i < right
if array[i] ≤ pivotValue
swap array[i] and array[storeIndex]
storeIndex := storeIndex + 1
swap array[storeIndex] and array[right] // Move pivot to its final place
return storeIndex
``````

Notice: `left ≤ i < right`

-
This is related to why most/all of the standard algorithms in C++ use the first index, and one beyond the final index of an array, so that the iteration can be for(i = start; i < end; i++) and thus it never HITS the final element, but you always know where it is. One-offness is something that is tricky to learn, but absolutely essential. –  Kevin Anderson Jan 20 '10 at 19:11