Files
clang-p2996/clang/test/SemaTemplate/instantiate-member-pointers.cpp
Douglas Gregor 0e4de76610 A DeclRefExpr that refers to a member function or a static data member
of the current instantiation is value-dependent. The C++ standard
fails to enumerate this case and, therefore, we missed it. Chandler
did all of the hard work of reducing the last remaining
Boost.PtrContainer failure (which had to do with static initialization
in the Serialization library) down to this simple little test.

While I'm at it, clean up the dependence rules for template arguments
that are declarations, and implement the dependence rules for template
argument packs.

llvm-svn: 103464
2010-05-11 08:41:30 +00:00

68 lines
1.5 KiB
C++

// RUN: %clang_cc1 -fsyntax-only -verify %s
struct Y {
int x;
};
template<typename T>
struct X1 {
int f(T* ptr, int T::*pm) { // expected-error{{member pointer}}
return ptr->*pm;
}
};
template struct X1<Y>;
template struct X1<int>; // expected-note{{instantiation}}
template<typename T, typename Class>
struct X2 {
T f(Class &obj, T Class::*pm) { // expected-error{{to a reference}} \
// expected-error{{member pointer to void}}
return obj.*pm;
}
};
template struct X2<int, Y>;
template struct X2<int&, Y>; // expected-note{{instantiation}}
template struct X2<const void, Y>; // expected-note{{instantiation}}
template<typename T, typename Class, T Class::*Ptr>
struct X3 {
X3<T, Class, Ptr> &operator=(const T& value) {
return *this;
}
};
X3<int, Y, &Y::x> x3;
typedef int Y::*IntMember;
template<IntMember Member>
struct X4 {
X3<int, Y, Member> member;
int &getMember(Y& y) { return y.*Member; }
};
int &get_X4(X4<&Y::x> x4, Y& y) {
return x4.getMember(y);
}
template<IntMember Member>
void accept_X4(X4<Member>);
void test_accept_X4(X4<&Y::x> x4) {
accept_X4(x4);
}
namespace ValueDepMemberPointer {
template <void (*)()> struct instantiate_function {};
template <typename T> struct S {
static void instantiate();
typedef instantiate_function<&S::instantiate> x; // expected-note{{instantiation}}
};
template <typename T> void S<T>::instantiate() {
int a[(int)sizeof(T)-42]; // expected-error{{array size is negative}}
}
S<int> s;
}