The call to
malloc will either succeed in returning a logically contiguous block of memory from your program's HEAP memory space equal to the size requested or it will fail with a NULL pointer. "Logically contiguous" means that with a
malloc of this type:
int *ip; /* Nothing yet allocated (other than the size of a pointer... */
int ar; /* 100 ints on the STACK */
ip = (int *)malloc(sizeof ar); /* if that succeeds, 100 ints on the HEAP */
will allocate space for 100 ints on your OS on the HEAP and return either NULL or the pointer. Separately, the array
ar is allocated on the STACK. Each array will be laid out with all the ints logically next to each other, at least as far your program knows. If they were not next to each other, you would not be able to address these blocks as arrays with the
array[offset] notation or with pointer arithmetic.
You can then access either STACK or HEAP blocks of memory with an array access or pointer access interchangeably like this:
ip=22; /* the second element of ip is '22' */
*(ar+33)=3333; /* the 33 element of ar is '3333' */
i=*(ip+2); /* assign using pointers */
j=ar; /* assign using array offsets */
If the memory block returned by
malloc were not logically contiguous to your program, you would not be able to access the block with pointer arithmetic or array subscripting.
Behind the scenes, your OS may move other blocks of memory that are moveable, use virtual memory, swap other items to virtual memory, etc, in order to increase the HEAP allocated to your program. Malloc can either be a very fast or very expensive call -- depending what else is going on on that system and the HEAP space allocated to your program.
HEAP memory (that part accessed with dynamic system calls in C) is potentially subject to fragmentation. Say you allocated the number of 20 byte blocks where memory becomes scarce. Now image that you free every other block of those blocks. You will have highly fragmented memory since blocks allocated with
malloc cannot be moved if it effects the pointer that the program uses to access the block. (It can be moved transparently, but don't count on that being efficient.)
If you are making many calls for HEAP memory, consider changing your logic to use
realloc to grow and shrink the memory as needed. A big 'gotcha' with realloc is the pointer to your existing data may change, so only use 1 pointer to it. Realloc allows the OS to move the data as needed to have a better fit with what is available on the HEAP. You will (mostly) avoid the potential for memory fragmentation that way.
For quick blocks of 20 bytes, consider using the STACK. That is what it is for. Look at this SO post to see characteristics of STACK vs HEAP.
Read the C Guide of calloc, malloc, realloc, free for more info.