I have tried the following code in C for mergesort but it just ends up giving me a segfault. Could somebody find the bug?
int mergesort(int* unsorted, int* sorted, int N) {
if (N==1) {
*unsorted=*sorted;
return 1;
}
else {
int left[MAXLEN];
int right[MAXLEN];
int sleft[MAXLEN];
int sright[MAXLEN];
int k1 = fill(unsorted,left,0,N/2);
int k2 = fill(unsorted,right,N/2,N);
int l1 = mergesort(left,sleft,k1);
int l2 = mergesort(right,sright,k2);
merge(sorted,sleft,sright,l1,l2);
return N;
}
}
void merge(int* sorted,int* left,int* right,int N1,int N2) {
int i1=N1;
int i2=N2;
while ((i1!=0) || (i2!=0)) {
if (i1==0) {
while ((i2--)!=0)
*sorted++=*right++;
}
else if (i2==0) {
while ((i1--)!=0)
*sorted++=*left++;
}
else {
if (*left < * right) {
*sorted++=*left++;
i1--;
}
else {
*sorted++=*right++;
i2--;
}
}
}
}
The fill function has been implemented as follows
int fill(int* from, int* to, int left, int right) {
int i = left;
from += i;
while (i<right) {
*to++=*from++;
i++;
}
return (right-left);
}
Could somebody explain whether it's a bug, or whether I haven't handled memory allocation properly?
mergesort
is a recursive function with a very big stack frame (4 * MAXLEN * sizeof(int)
); possibly you ran out of stack space. To verify this, please compile with stack overflow checking and re-test.N <= 0
, and might want to review the case1 == N
. Ruud has pointed out the amount of memory used by your implementation, let me add that appreciable more additional memory than the size of the input is waste. If you don't want to modify something, let the maintenance coder/compiler know:int mergesort(int const * unsorted, …
. Yourfill()
copies - the name should reflect what's important in your eyes. Document using a tool.