Accessing static class member functions or variables, can be done in two ways: through an object (obj.member_fun()
or obj.member_var
) or through the class (Class::member_fun()
or Class::member_var
). However, in constexpr
functions, Clang gives an error on the object access and requires to use class access:
struct S
{
constexpr static auto s_v = 42;
constexpr static auto v() { return s_v; }
};
#define TEST 1
constexpr auto foo(S const& s [[maybe_unused]])
{
#if TEST
constexpr auto v = s.v(); // ERROR for clang, OK for gcc
#else
constexpr auto v = S::v(); // OK for clang and gcc
#endif
return v;
}
constexpr auto bar(S const& s [[maybe_unused]])
{
#if TEST
constexpr auto v = s.s_v; // ERROR for clang, OK for gcc
#else
constexpr auto v = S::s_v; // OK for clang and gcc
#endif
return v;
}
int main() {}
Live Example compiled with -std=c++1z
and #define TEST 1
for Clang 5.0 SVN, with error message:
Start
prog.cc:12:24: error: constexpr variable 'v' must be initialized by a constant expression
constexpr auto v = s.v(); // ERROR for clang, OK for gcc
^~~~~
prog.cc:22:24: error: constexpr variable 'v' must be initialized by a constant expression
constexpr auto v = s.s_v; // ERROR for clang, OK for gcc
^~~~~
2 errors generated.
1
Finish
Question: is this is a Clang bug, or is gcc too liberal in accepting both syntax forms for static member access in a constexpr
function?
See Question&Answers more detail:
os 与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…