To answer everyone's first question: Yes, this is for school. That being said, I feel like I'm pretty close to getting this to work, at least partially. Seems to sort most of the data, but I can't see any pattern to what is not being sorted.

```
#include <stdio.h>
#include <stdlib.h>
void quicksort(int *values, int size);
void printout(int[], int size);
void main(){
printf("starting");
int size=20;
int values[size];
int i;
for (i=0;i<size;i++){
values[i]=(rand()%113);
}
printf("\nBefore Sort:\n");
printout(values,size);
quicksort(values, size);
printf("\nAfter Sort:\n");
printout(values,size);
}
void printout(int values[],int size){
int i;
for (i=0;i<size;i++){
if (i % 20 == 0){
printf("\n");
}
printf("%3i ", values[i]);
}
}
void quicksort(int *values, int size){
if (size < 2){
return;
}
int pivot=values[size];
int left[size];
int right[size];
int center[size];
int i,lc,rc,cc; //counters for left, right and center arrays
lc=rc=cc=0; //initially 0
for (i=0; i<size-1; i++){
if (values[i] < pivot){
left[lc]=values[i];
lc++;
}
else if (values[i] > pivot){
right[rc]=values[i];
rc++;
}
else{
center[cc]=values[i];
cc++;
}
}
quicksort(left, lc);
quicksort(right, rc);
int lc2,rc2,cc2;
lc2=rc2=cc2=0; //note the first variable is lowercase L, not 1
while (lc2+cc2+rc2 < size-1){ // here we recombine our arrays
while (lc2 < lc){
values[lc2+rc2+cc2] = left[lc2];
lc2+=1;
}
while (cc2 < cc){
values[lc2+rc2+cc2] = center[cc2];
cc2+=1;
}
while (rc2 < rc){
values[lc2+rc2+cc2] = right[rc2];
rc2+=1;
}
}
}
```

My output for this is as follows:

**Before Sort:**

`41 48 6 58 72 17 65 91 68 56 55 8 3 103 17 39 57 77 81 12`

**After Sort:**

`6 8 17 41 48 58 72 65 68 56 55 3 17 39 91 57 77 103 81 12`

It's definitely doing something... Anybody have any ideas as to what the heck I'm missing here?