p4.cpp
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// RUN: %clang_cc1 -fsyntax-only -verify %s
// RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 %s
// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
namespace A {
class A {
friend void func(A);
friend A operator+(A,A);
};
}
namespace B {
class B {
static void func(B);
};
B operator+(B,B);
}
namespace D {
class D {};
}
namespace C {
class C {}; // expected-note {{candidate constructor (the implicit copy constructor) not viable: no known conversion from 'B::B' to 'const C::C &' for 1st argument}}
#if __cplusplus >= 201103L // C++11 or later
// expected-note@-2 {{candidate constructor (the implicit move constructor) not viable: no known conversion from 'B::B' to 'C::C &&' for 1st argument}}
#endif
void func(C); // expected-note {{'C::func' declared here}} \
// expected-note {{passing argument to parameter here}}
C operator+(C,C);
D::D operator+(D::D,D::D);
}
namespace D {
using namespace C;
}
namespace Test {
void test() {
func(A::A());
// FIXME: namespace-aware typo correction causes an extra, misleading
// message in this case; some form of backtracking, diagnostic message
// delaying, or argument checking before emitting diagnostics is needed to
// avoid accepting and printing out a typo correction that proves to be
// incorrect once argument-dependent lookup resolution has occurred.
func(B::B()); // expected-error {{use of undeclared identifier 'func'; did you mean 'C::func'?}} \
// expected-error {{no viable conversion from 'B::B' to 'C::C'}}
func(C::C());
A::A() + A::A();
B::B() + B::B();
C::C() + C::C();
D::D() + D::D(); // expected-error {{invalid operands to binary expression ('D::D' and 'D::D')}}
}
}
// PR6716
namespace test1 {
template <class T> class A {
template <class U> friend void foo(A &, U); // expected-note {{not viable: 1st argument ('const A<int>') would lose const qualifier}}
public:
A();
};
void test() {
const A<int> a;
foo(a, 10); // expected-error {{no matching function for call to 'foo'}}
}
}
// Check the rules described in p4:
// When considering an associated namespace, the lookup is the same as the lookup
// performed when the associated namespace is used as a qualifier (6.4.3.2) except that:
// - Any using-directives in the associated namespace are ignored.
namespace test_using_directives {
namespace M { struct S; }
namespace N {
void f(M::S); // expected-note {{declared here}}
}
namespace M {
using namespace N;
struct S {};
}
void test() {
M::S s;
f(s); // expected-error {{use of undeclared}}
M::f(s); // ok
}
}
// - Any namespace-scope friend functions or friend function templates declared in
// associated classes are visible within their respective namespaces even if
// they are not visible during an ordinary lookup
// (Note: For the friend declaration to be visible, the corresponding class must be
// included in the set of associated classes. Merely including the namespace in
// the set of associated namespaces is not enough.)
namespace test_friend1 {
namespace N {
struct S;
struct T {
friend void f(S); // #1
};
struct S { S(); S(T); };
}
void test() {
N::S s;
N::T t;
f(s); // expected-error {{use of undeclared}}
f(t); // ok, #1
}
}
// credit: Arthur O’Dwyer
namespace test_friend2 {
struct A {
struct B {
struct C {};
};
friend void foo(...); // #1
};
struct D {
friend void foo(...); // #2
};
template<class> struct E {
struct F {};
};
template<class> struct G {};
template<class> struct H {};
template<class> struct I {};
struct J { friend void foo(...) {} }; // #3
void test() {
A::B::C c;
foo(c); // #1 is not visible since A is not an associated class
// expected-error@-1 {{use of undeclared}}
E<D>::F f;
foo(f); // #2 is not visible since D is not an associated class
// expected-error@-1 {{use of undeclared}}
G<H<I<J> > > j;
foo(j); // ok, #3.
}
}
// - All names except those of (possibly overloaded) functions and
// function templates are ignored.
namespace test_other_names {
namespace N {
struct S {};
struct Callable { void operator()(S); };
static struct Callable Callable;
}
void test() {
N::S s;
Callable(s); // expected-error {{use of undeclared}}
}
}