I have the following Quicksort that always chooses the first element of the subsequence as its pivot:

```
void qqsort(int array[], int start, int end) {
int i = start; // index of left-to-right scan
int k = end; // index of right-to-left scan
if (end - start >= 1) { // check that there are at least two elements to sort
int pivot = array[start]; // set the pivot as the first element in the partition
while (k > i) { // while the scan indices from left and right have not met,
while (array[i] <= pivot && i <= end && k > i) // from the left, look for the first element greater than the pivot
i++;
while (array[k] > pivot && k >= start && k >= i) // from the right, look for the first element not greater than the pivot
k--;
if (k > i) // if the left seekindex is still smaller than the right index, swap the corresponding elements
swap(array, i, k);
}
swap(array, start, k); // after the indices have crossed, swap the last element in the left partition with the pivot
qqsort(array, start, k - 1); // quicksort the left partition
qqsort(array, k + 1, end); // quicksort the right partition
} else { // if there is only one element in the partition, do not do any sorting
return;
}
}
```

Now as you can see, this algorithm always takes the first element to be the pivot: `int pivot = array[start];`

I want to modify this algorithm to make it always use the last element instead of the first element of the subsequence, because I want to analyze the physical running times of both implementations.

I tried changing the line `int pivot = array[start];`

to `int pivot = array[end];`

but the algorithm then outputted an unsorted sequence:

```
//Changes: int pivot = array[end];
unsorted: {5 4 3 2 1}
*sorted*: {1 2 5 4 3}
```

To test another pivot, I also tried using the center element of the subsequence but the algorithm still failed:

```
//Changes: int pivot = array[(start + end) / 2];
unsorted: {5 3 4 2 1}
*sorted*: {3 2 4 1 5}
```

Can someone please help me understand this algorithm correctly and tell me what changes do I need to make to successfully have this implementation always choose the last element of the subsequence as the pivot ?