According to this (accepted) proposal, since C++17; as noexcept is part of function type, will the code above print
The type of
f will be deduced to
void(*)() noexcept since the function-to-pointer conversion applied to
asdf will preserve the
noexcept property. A call to a
noexcept function pointer certainly cannot throw an exception, unless one of its subexpressions does.
For the exact wording, see [expr.unary.noexcept]/3 and [expect.spec]/13. Note that the new wording in the latter paragraph from the C++17 draft comes from P0012R1, which is linked in the OP.
The result of the
noexcept operator is
true if the set of potential exceptions of the expression ([except.spec]) is empty, and
e is a function call ([expr.call]):
- If its postfix-expression is a (possibly parenthesized) id-expression ([expr.prim.id]), class member access ([expr.ref]), or pointer-to-member operation ([expr.mptr.oper]) whose cast-expression is an id-expression, S is the set of types in the exception specification of the entity selected by the contained id-expression (after overload resolution, if applicable).
So the set of potential exceptions of
f() is the same as the set of types in the exception specification of
f, which is empty since
f is declared
Let's move on to the second question:
noexcept specifying seems ignored in C++14 or 11. Will this code work as intended in C++17?
Your question seems to be: will
std::function<void() noexcept> refuse to hold a function that can throw exceptions?
I would say that it's unclear. In the present wording of the standard,
std::function<void() noexcept> is not actually defined, just as
std::function<double(float) const> is not defined. This was of course not an issue in C++14, since
noexcept was not considered part of a function's type.
std::function<void() noexcept> simply break in C++17? That's uncertain to me. Let's take a look at the current wording to guess what the behaviour "should" be.
The standard requires the argument to the constructor of
std::function<R(ArgTypes..)> to be "Lvalue-Callable" for argument types
ArgTypes... and return type
R, which means:
A callable type ([func.def])
F is Lvalue-Callable for argument types
ArgTypes and return type
R if the expression
INVOKE(declval<F&>(), declval<ArgTypes>()..., R), considered as an unevaluated operand (Clause [expr]), is well formed ([func.require]).
Perhaps there should be an additional requirement that if the function type is
noexcept(INVOKE(...)) must be true as well. Nonetheless, this wording is not present in the current draft.
In P0012R1, there is a comment that:
It is an open issue how to propagate "noexcept" through
My guess is that they mean that it is not clear how
std::function could be implemented if this additional requirement were imposed. Hopefully, someone else can provide more details.