In Java there is no pointer arithmetic. It think this is what you are asking about. For example, imagine that
malloc returns a pointer of type
int* malloc(size_t size)
You would possibly receive the pointer, which is basically a pointer to an
array. Then you would index it like regular arrays.
int* arr = malloc(10 * sizeof(int)); // 10 contiguous int(s).
The problem is that
C doesn't have functions overloading. So, we have to find a way to write a generic
malloc. Otherwise, you would end up with a different
malloc for every type. The solution, is to send the required number of bytes that you need. Then, you can index it however you like. This gives a greater flexibility and one for all solution.
int* i = (int*)malloc(10 * sizeof(int)); // 40 bytes if int = 4 bytes
char* c = (char*)malloc(10 * sizeof(char)); // 10 bytes if char = 1 byte
int thirdElement = i; // third element. 12 bytes away from (*i)
char secondElement = c; // second element. 2 bytes away from (*c)
So, the whole idea is that it doesn't matter how we index the memory we got from
malloc. All what we have to do is to specify the type of the newly created array to index it properly.
void* means that this is a pointer to place in memory that we haven't specified how to index.