I think that what is intended here is actually a cast to int(*)[12], or equivalently and as you said previously, dereferencing a before casting to the reference type.
I'm lost amidst *s now, but a) cout << (int(&)[12])a does work, i.e. it prints 12 elements, and b) I was thinking like this: When I have int x[12], x decays to a int*. So conversely if I have a int*, I should be able to develop it into a int[].
@Kerrek: Well, by using such a hideously type-unsafe system when there's a perfectly good vector to use, then any problems that result are their own fault
I tried out topcoder today. While I liked the problem I absolutely hated the Java editor they provide. So I ended up coding it in eclipse and the pasting it into the topcoder window. It also annoyed me that you cannot run all unit tests at once and the remote compilation times seem very high.
I ...
It it were applied to an int* that pointed to the first element of a static int[12], then maybe it wouldn't be UB but I don't want to crosscheck whether an int[N] is a standard layout type or C compatible layout or whatever and I don't want to crosscheck the C rules about this sort of things either. But since it's the result from a new expression there's no hope anyway.
well, I believe that, whilst it's one thing to actively encourage the use of poor practice, it would be quite another to restrict things just because they can be used badly
but my point is that any language, whether C++, Python, Lisp or your own, prohibits hundreds of features. That's what distinguishes languages, and cutting features is basically what language design is