I am allocating memory for an array, but I am moving where the pointer points forward a little. Accessing the elements works fine. It started to produce a problem with freeing the allocated memory though. Malloc complains that the pointer being freed was never allocated. The problem can reproduced with this simplified code:
int *pointer = malloc(sizeof(int)) + 1;
free(pointer - 1);
I started experimenting, and found this slight variation of the code to work.
int *pointer = malloc(sizeof(int));
pointer += 1;
free(pointer - 1);
What is the += doing different than just adding 1 to the pointer malloc returns in one line?
malloc(sizeof(int)) + 1
is typed-pointer math against avoid*
(which is utterly non-standard, btw).pointer += 1;
is pointer math against aint*
(which is standard). Both are using typed-pointer math in thefree
expression, the former is not the same address as the malloc result; the latter is. Casting themalloc
result (which you should never do in C), to((int *)malloc(sizeof(int))) + 1;
will garner synonymous results in both examples.malloc()
/calloc()
/strdup()
is undefined behavior, and will usually cause major headaches down the line. While this is an interesting question, the reason your code has issues is because you're intentionally bringing about undefined behavior.pointer[0]
is UB,pointer[-1]
isn't), because of the one-past-the-end special case.void*
is implicitly cast to any data pointer type (and back). You can freely assignvoid*
to anytype*
orconst type *
(though the latter makes little sense as a direct assignment frommalloc
). See here for more info. In C++ the cast is unavoidable, but in most circumstances it isn't an issue as there you're nearly always usingoperator new
anyway.