p is a location in your character array (string) and
src is the start of it,
i = p - src;
i to the index at which
For example, consider the following memory layout:
          <-- Indexes
123 124 125 126 127 128 129 130 131 132 <-- Addresses
| H | i | , | | w | o | r | l | d | \0 |
In this case,
p - src will give you
127 - 123 or
4, which is the index of the
This is called pointer arithmetic is covered in
Additive operators in the ISO standard (
When two pointers are subtracted, both shall point to elements of the same array object, or one past the last element of the array object; the result is the difference of the subscripts of the two array elements.
It provides a scaled way of working out differences within the same array or with one pointing just beyond the end of the array (all else is undefined).
By that I mean doing pointer arithmetic with (for example) four-byte integers, will give you a difference of one between the addresses of
arr, not four as some may think.
buffer + i construct is simply another way of saying
&(buffer[i]), the address of the
ith element of the array
buffer. I actually prefer the latter method since it seems more explicit in what I'm trying to represent.
For what it's worth, that's not actually a very good string replacement code. It has numerous problems:
- if no replacements are made, you have a 4K memory leak with
- in any case, you should always check to ensure
malloc hasn't failed.
- you have a possibility of buffer overflow the way the new string is allocated, you should really allocate based on the lengths of
- you could create the new string with a single
sprintf ("%*.*s%s%s", i, i, src, replace, &(src[i + strlen (search)])); or a
strcpy and two
strcat operations. Mixing the two seems incongruous to me.