I was refreshing my understanding of value-initialisation versus default-initialisation, and came across this:
struct C {
int x;
int y;
C () { }
};
int main () {
C c = C ();
}
Apparently this is UB because
In the case of C(), there is a constructor that is capable of initializing the x and y members, so no initialization takes place. Attempting to copy C() to c therefore results in undefined behavior.
I think I understand why, but I'm not certain. Can someone please elaborate?
Does that mean this is also UB?
int x; x = x;
Incidentally, with regards to value initialisation, is the following guaranteed to be zero?
int x = int ();
Your first example has undefined behavior because the default, compiler
generated copy constructor will do a memberwise copy, ints may have
trapping values, and reading a trapping value to copy it may cause the
program to crash.
In practice, I can't imagine this ever actually crashing; the compiler will almost certainly optimize the copy out, and even if it didn't, it would likely use some special bitwise copy which would copy without checking for trapping values. (In C++, you are guaranteed to be able to copy bytes.)
For the second case, again, undefined behavior. Although in this case, you have assignment rather than copy construction, and the compiler is less likely to optimize it away. (There is no assignment in your first example, only copy construction.)
For the third, yes. An initializer with an empty parenthese (and no user defined default initializer to override it) first performs zero initialization (exactly as occurs for variables with static lifetime).