Your initial allocation code reads:
char *word = malloc(CAPACITY*sizeof(char));
char **w = (char **) malloc(num_words*sizeof(char));
Both these allocate 10 bytes of memory. Your second one should read:
char **w = (char **) malloc(num_words*sizeof(char *));
char **w = malloc(num_words*sizeof(*w));
These both allocate enough memory for 10 pointers (which might be eight times as much memory as your original code). The second is arguably better style; the first is indubitably the classic style. In C, the cast on
malloc() is not necessary; in C++, it is.
This may not be the whole problem; it is almost certainly a contributory factor.
Also, you aren't checking your memory allocations; that is not advisable. You should always check them.
if (i == num_words-1)
w = (char **)realloc(w, (num_words *=2) * sizeof(char));
is playing with fire on two accounts (plus a repeat of the previously diagnosed problem):
The assignment within the argument list is...not generally reckoned to be a good idea. I wouldn't write code with that in place, and I'd send back code I was asked to review that contained it. It isn't technically wrong; it will work. But it does not make life easier for the maintenance programmers who come after.
You should never reallocate a pointer such as
w and assign the new space to the same pointer. If the memory allocation fails, you'll get back a null pointer, so you've lost the only pointer to the previous data, which is still allocated. That's a memory leak. Also, if the memory allocation fails, you have to undo the assignment within the argument list because the allocated space is still at the original size. I think you'd be better off using:
if (i == num_words - 1)
size_t new_size = (num_words * 2);
char **new_data = realloc(w, new_size * sizeof(*new_data));
if (new_data == 0)
...handle error; w is still valid, and num_words is still correct too...
num_words = new_size;
w = new_data;