Hmm, I suspect this is something that would not have worked back in the early days of C. It is clever though.
Taking the steps one at a time:
&a gets a pointer to an object of type int
+1 gets the next such object assuming there is an array of those
* effectively converts that address into type pointer to int
-a subtracts the two int pointers, returning the count of int instances between them.
I'm not sure it is completely legal (in this I mean language-lawyer legal - not will it work in practice), given some of the type operations going on. For example you are only "allowed" to subtract two pointers when they point to elements in the same array.
*(&a+1) was synthesised by accessing another array, albeit a parent array, so is not actually a pointer into the same array as
Also, while you are allowed to synthesise a pointer past the last element of an array, and you can treat any object as an array of 1 element, the operation of dereferencing (
*) is not "allowed" on this synthesised pointer, even though it has no behaviour in this case!
I suspect that in the early days of C (K&R syntax, anyone?), an array decayed into a pointer much more quickly, so the
*(&a+1) might only return the address of the next pointer of type int**. The more rigorous definitions of modern C++ definitely allow the pointer to array type to exist and know the array size, and probably the C standards have followed suit. All C function code only takes pointers as arguments, so the technical visible difference is minimal. But I am only guessing here.
This sort of detailed legality question usually applies to a C interpreter, or a lint type tool, rather than the compiled code. An interpretter might implement a 2D array as an array of pointers to arrays, because there is one less runtime feature to implement, in which case dereferencing the +1 would be fatal, and even if it worked would give the wrong answer.
Another possible weakness may be that the C compiler might align the outer array. Imagine if this was an array of 5 chars (
char arr), when the program performs
&a+1 it is invoking "array of array" behaviour. The compiler might decide that an array of array of 5 chars (
char arr) is actually generated as an array of array of 8 chars (
char arr), so that the outer array aligns nicely. The code we are discussing would now report the array size as 8, not 5. I'm not saying a particular compiler would definitely do this, but it might.