If do the next:
int* array = malloc(10 * sizeof(int));
and them I use realloc:
array = realloc(array, 5 * sizeof(int));
On the second line (and only it), can it return
Yes, it can. There are no implementation guarantees on
For example, if a particular implementation uses different pools per object sizes,
Or it may simply decide it's better to move the block
I just used the following program to get size of actually allocated memory with glibc:
and for n <= 6, it allocates 32 bytes, and for 7-10 it is 48.
So, if it shrinked
If it moved the block elsewhere, the whole 48 bytes will be freed, and something could actually be put in there. Of course, that's just a science-fiction story and not a real implementation ;).
The most relevant quote from the C99 standard (184.108.40.206 The
'May' is the key-word here. It doesn't mention any specific circumstances when that can happen, so you can't rely on any of them, even if they sound obvious at a first glance.
By the way, I think you could consider
The other answers have already nailed the question, but assuming you know the
and the return value will always point to an object of size
In any case, since the implementation of
The language (and library) specification makes no such guarantee, just like it does not guarantee that a "trimming"
An implementation might decide to implement
Don't count on it. The standard makes no such provision; it merely states "or a null pointer if the new object could not be allocated".
You'd be hard-pressed to find such an implementation, but according to the standard it would still be compliant.
I suspect there may be a theoretical possibility for failure in the scenario you describe.
Depending on the heap implementation, there may be no such a thing as trimming an existing allocation block. Instead a smaller block is allocated first, then the data is copied from the old one, and then it's freed.
For instance this may be the case with bucket-heap strategy (used by some popular heaps, such as tcmalloc).
But shrinking can fail in some architecture, where
But its better to be in a safer side, to keep