Resizing in C++ is awkward because of the potential need to call constructors and destructors.
I don't think there's a fundamental reason why in C++ you couldn't have a
resize operator to go with
delete, that did something similar to this:
newbuf = new Type[newsize];
std::copy_n(oldbuf, std::min(oldsize, newsize), newbuf);
oldsize would be retrieved from a secret location, same is it is in
Type would come from the type of the operand.
resize would fail where the Type is not copyable - which is correct, since such objects simply cannot be relocated. Finally, the above code default-constructs the objects before assigning them, which you would not want as the actual behaviour.
There's a possible optimisation where
newsize <= oldsize, to call destructors for the objects "past the end" of the newly-ensmallened array and do nothing else. The standard would have to define whether this optimisation is required (as when you
resize() a vector), permitted but unspecified, permitted but implementation-dependent, or forbidden.
The question you should then ask yourself is, "is it actually useful to provide this, given that
vector also does it, and is designed specifically to provide a resize-able container (of contiguous memory--that requirement omitted in C++98 but fixed in C++03) that's a better fit than arrays with the C++ ways of doing things?"
I think the answer is widely thought to be "no". If you want to do resizeable buffers the C way, use
malloc / free / realloc, which are available in C++. If you want to do resizeable buffers the C++ way, use a vector (or
deque, if you don't actually need contiguous storage). Don't try to mix the two by using
new for raw buffers, unless you're implementing a vector-like container.