realloc(array, 0) is not equivalent to
The standard (C99, §220.127.116.11 ¶1) says:
realloc function deallocates the old object pointed to by
ptr and returns a pointer to a new object that has the size specified by
and gives no "special case" for a
size==0; so, you are getting a pointer to an object of size zero - but which potentially is still an object, and still has to be freed.
Interestingly, I think the
realloc may simply fail in such a circumstance, returning
NULL; in this case, in your code the memory is leaked, since, when
realloc fails, it does not free the original memory block you passed to it (which is the reason why you never do
array = realloc(array, size) but you always use an intermediate variable to check for
NULL in order to avoid memory leaks).
Actually, the standard does specify the
size==0 implementation-defined behavior for all the memory allocation functions, not just for
malloc as I remembered; so, the behavior is implementation defined, as desribed below:
realloc is "conceptually equivalent" to to
free on the other pointer, and
malloc-ing a 0-byte chunk of memory returns either
NULL either a unique pointer, not to be used for storing anything (you asked for 0 bytes), but still to be
freeed. So, no, don't use
realloc like that, it may work on some implementations (namely, Linux) but it's certainly not guaranteed.
Also, it's not clear how you deduced that
free doesn't work. I can think of two ways you may have been convinced of this:
- the value of
array and of the data it points to is unchanged;
- the allocated memory in the task manager/
top/whatever doesn't decrease.
For the first case, that's normal; when you free a pointer, it doesn't magically get wiped - your pointer still points to where it pointed, but that memory is no longer yours - it's now back to the C runtime, which will probably re-give it away in a future
malloc. That's why that thing is called a "dangling pointer", and many people after a
free set it to
NULL to avoid writing again in a space of memory that has already been released.
As for the second, it's common policy for allocators not to give back memory to the operating system immediately (unless we are talking about really big chunks); the idea is that probably the application will need such memory again soon, and keeping that memory for the current process can avoid continuous system calls to take/give memory from the OS. Since system utilities for monitoring the memory used normally can only see what the OS has given to the process, it's normal that they don't show any memory usage decrease.
By the way, remember that, if you
char ** array contains pointers to stuff allocated with
malloc, you have to
free them first, otherwise you're leaking memory.
C strings are null-terminated, i.e. the last character of the string is always a
\0 to mark the string ends, while
strlen gives you the length of the string excluding the null terminator. So, if you don't add that
+1 you are allocating one
char less than the memory needed to actually store your string.
By doesn't work I mean that it did crash (the problem might have been somewhere else ofc) but when I changed it to realloc(X, 0) it did work, in the sense of deleting used dynamic used memory
As the manpage says,
Crashes in malloc(), calloc(), realloc(), or free() are almost always related to heap corruption, such as overflowing an allocated chunk or freeing the same pointer twice.
You probably have some other bug in your code, but without seeing it it's impossible to tell what/where it goes wrong.