Type theoretically speaking, void
is what is called in other languages unit
or top
. Its logical equivalent is True. Any value can be legitimately cast to void
(every type is a subtype of void
). Think about it as "universe" set; there are no operations in common to all the values in the world, so there are no valid operations on a value of type void
. Put it another way, telling you that something belongs to the universe set gives you no information whatsoever - you know it already. So the following is sound:
(void)5;
(void)foo(17); // whatever foo(17) does
But the assignment below is not:
void raise();
void f(int y) {
int x = y!=0 ? 100/y : raise(); // raise() returns void, so what should x be?
cout << x << endl;
}
[[noreturn]]
, on the other hand, is called sometimes empty
, Nothing
, Bottom
or Bot
and is the logical equivalent of False. It has no values at all, and an expression of this type can be cast to (i.e is subtype of) any type. This is the empty set. Note that if someone tells you "the value of the expression foo() belongs to the empty set" it is highly informative - it tells you that this expression will never complete its normal execution; it will abort, throw or hang. It is the exact opposite of void
.
So the following does not make sense (pseudo-C++, since noreturn
is not a first-class C++ type)
void foo();
(noreturn)5; // obviously a lie; the expression 5 does "return"
(noreturn)foo(); // foo() returns void, and therefore returns
But the assignment below is perfectly legitimate, since throw
is understood by the compiler to not return:
void f(int y) {
int x = y!=0 ? 100/y : throw exception();
cout << x << endl;
}
In a perfect world, you could use noreturn
as the return value for the function raise()
above:
noreturn raise() { throw exception(); }
...
int x = y!=0 ? 100/y : raise();
Sadly C++ does not allow it, probably for practical reasons. Instead it gives you the ability to use [[ noreturn ]]
attribute which helps guiding compiler optimizations and warnings.