Why do these two versions of quicksort give drastic differences in number of comparisons made?

I have two different implementations of quicksort below. I have verified that oth of these versions of quicksort work in the sense that they will sort any array I give it correctly. If you notice (at least it appears to me), Version #2 is exactly the same as Version #1 when the array size `n` is greater than 8. Therefore, I would expect that when I give both of these functions an array of the same size that is greater than 8, they should make around the same number of component wise comparisons on average, but they do not.

For `n > 8`, both functions use `sort3()` and `partition()` functions. I have listed those below as well to show you how I count the number of component wise comparisons.

I know that `W(n)`, the theoretical worst case number of comparisons for these implementations of quicksort is (n(n+2)/4)+8. Therefore, for an array size `n = 500`, `W(n) = 62758`. For a test run on an array of size `n = 500`, Version #1 makes about 5000 comparisons on average which is reasonable. However, Version #2 is making 80000 comparisons on average. Obviously this can't be right - Version #2 is making more comparisons than the theoretical `W(n)` and it is exactly (at least appears to me) the same algorithm as Version #1.

Do you see an error that I am making in Version #2?

Version #1:

``````void Quicksort_M3(int S[], int low, int hi)
{
if(low < hi)
{
if((low+1) == hi)
{
comparisons++;
if(S[low] > S[hi])
swap(S[low],S[hi]);
}
else
{
Sort3(S,low,hi);
if((low+2)<hi)
{
swap(S[low+1],S[(low+hi)/2]);
int q = partition(S, low+1, hi-1);
Quicksort_M3(S, low, q-1);
Quicksort_M3(S, q+1, hi);
}
}
}
}
``````

Version #2:

``````void Quicksort_Insert_M3(int S[], int n, int low, int hi)
{
if((hi-low)<=8)
Insertionsort(S,n);
else
{
if(low < hi)
{
if((low+1) == hi)
{
comparisons++;
if(S[low] > S[hi])
swap(S[low],S[hi]);
}
else
{
Sort3(S,low,hi);
if((low+2)<hi)
{
swap(S[low+1],S[(low+hi)/2]);
int q = partition(S, low+1, hi-1);
Quicksort_Insert_M3(S, n, low, q-1);
Quicksort_Insert_M3(S, n, q+1, hi);
}
}
}
}
}
``````

Partition:

``````int partition(int *S,int l, int u)
{
int x = S[l];
int j = l;
for(int i=l+1; i<=u; i++)
{
comparisons++;
if(S[i] < x)
{
j++;
swap(S[i],S[j]);
}

}
int p = j;
swap(S[l],S[p]);
return p;
}
``````

Sort3:

``````int Sort3(int list[], int p, int r)
{
int median = (p + r) / 2;
comparisons++;
if(list[p] <= list[median])
{
comparisons++;
if(list[median]>list[r])
{
comparisons++;
if(list[p]<list[r])
{
int temp = list[p];
list[p] = list[r];
list[r] = list[median];
list[median] = temp;
}
else
{
exchange(list,median,r);
}
}
else
;

}
else
{
comparisons++;
if(list[p] > list[r])
{
comparisons++;
if(list[median] < list[r])
{
int temp = list[p];
list[p] = list[median];
list[median] = list[r];
list[r] = temp;
}
else
{
exchange(list,p,r);
}
}
else
{
exchange(list,p,median);
}

}

return list[r];
}
``````
-
Have you tried in codereview or codegolf? – iammilind Nov 21 '12 at 8:07
Are you calling `InsertionSort` on the whole array?? I imagine you want to only sort the subarray - something like `InsertionSort(S, low, hi)`. Otherwise you may be calling a full insertion sort within every partition of size <= 8... – Darren Engwirda Nov 21 '12 at 8:10
@Zack: No. That's not right at all. Quicksort recursively partitions the array into subarrays. So however large the initial array is, you will end up dealing with small subarrays within the recursive calls. – Darren Engwirda Nov 21 '12 at 8:23
@Zack No, you need to pass both the upper and lower boundary – Sebastian Nov 21 '12 at 8:28
@Zack: Suppose you need to sort elements 55 to 60, what good is it to know that there are 5 elements to sort, if you don't know which of these? You need to adjust the signature and implementation of insertionsort to be able to deal with non-zero based lower boundaries. – Sebastian Nov 21 '12 at 8:33

My code never (at least shouldn't) call `InsertionSort` when I pass an array of size `n > 8`. For example, for an array of size `n = 500`, the call to Version #2 would be: `Quicksort_Insert_M3(S,500,0,499)`. So, for that call, `low = 0` and `hi = 499`, so `hi-low > 8` and `InsertionSort` isn't called. Right? – Zack Nov 21 '12 at 8:19