195 lines
4.3 KiB
C++
195 lines
4.3 KiB
C++
// RUN: %clang_cc1 -fsyntax-only %s -verify
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// C++'0x [namespace.memdef] p3:
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// Every name first declared in a namespace is a member of that namespace. If
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// a friend declaration in a non-local class first declares a class or
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// function the friend class or function is a member of the innermost
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// enclosing namespace.
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namespace N {
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struct S0 {
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friend struct F0;
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friend void f0(int);
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struct F0 member_func();
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};
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struct F0 { };
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F0 f0() { return S0().member_func(); }
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}
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N::F0 f0_var = N::f0();
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// Ensure we can handle attaching friend declarations to an enclosing namespace
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// with multiple contexts.
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namespace N { struct S1 { struct IS1; }; }
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namespace N {
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struct S1::IS1 {
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friend struct F1;
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friend void f1(int);
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struct F1 member_func();
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};
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struct F1 { };
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F1 f1() { return S1::IS1().member_func(); }
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}
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N::F1 f1_var = N::f1();
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// The name of the friend is not found by unqualified lookup (3.4.1) or by
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// qualified lookup (3.4.3) until a matching declaration is provided in that
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// namespace scope (either before or after the class definition granting
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// friendship). If a friend function is called, its name may be found by the
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// name lookup that considers functions from namespaces and classes
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// associated with the types of the function arguments (3.4.2). If the name
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// in a friend declaration is neither qualified nor a template-id and the
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// declaration is a function or an elaborated-type-specifier, the lookup to
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// determine whether the entity has been previously declared shall not
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// consider any scopes outside the innermost enclosing namespace.
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template<typename T> struct X0 { };
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struct X1 { };
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struct Y {
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template<typename T> union X0;
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template<typename T> friend union X0;
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union X1;
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friend union X1;
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};
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namespace N {
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namespace M {
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template<typename T> class X;
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}
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}
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namespace N3 {
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class Y {
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template<typename T> friend class N::M::X;
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};
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}
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// FIXME: Woefully inadequate for testing
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// Friends declared as template-ids aren't subject to the restriction
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// on innermost namespaces.
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// rdar://problem/8552377
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namespace test5 {
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template <class T> void f(T);
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namespace ns {
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class A {
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friend void f<int>(int);
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static void foo(); // expected-note 2 {{declared private here}}
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};
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// Note that this happens without instantiation.
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template <class T> void f(T) {
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A::foo(); // expected-error {{'foo' is a private member of 'test5::ns::A'}}
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}
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}
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template <class T> void f(T) {
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ns::A::foo(); // expected-error {{'foo' is a private member of 'test5::ns::A'}}
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}
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template void f<int>(int);
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template void f<long>(long); //expected-note {{instantiation}}
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}
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// rdar://13393749
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namespace test6 {
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class A;
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namespace ns {
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class B {
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static void foo(); // expected-note {{implicitly declared private here}}
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friend union A;
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};
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union A {
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void test() {
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B::foo();
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}
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};
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}
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class A {
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void test() {
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ns::B::foo(); // expected-error {{'foo' is a private member of 'test6::ns::B'}}
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}
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};
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}
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// We seem to be following a correct interpretation with these, but
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// the standard could probably be a bit clearer.
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namespace test7a {
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namespace ns {
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class A;
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}
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using namespace ns;
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class B {
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static void foo();
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friend class A;
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};
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class ns::A {
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void test() {
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B::foo();
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}
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};
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}
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namespace test7b {
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namespace ns {
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class A;
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}
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using ns::A;
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class B {
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static void foo();
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friend class A;
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};
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class ns::A {
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void test() {
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B::foo();
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}
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};
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}
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namespace test7c {
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namespace ns1 {
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class A;
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}
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namespace ns2 {
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// ns1::A appears as if declared in test7c according to [namespace.udir]p2.
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// I think that means we aren't supposed to find it.
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using namespace ns1;
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class B {
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static void foo(); // expected-note {{implicitly declared private here}}
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friend class A;
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};
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}
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class ns1::A {
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void test() {
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ns2::B::foo(); // expected-error {{'foo' is a private member of 'test7c::ns2::B'}}
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}
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};
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}
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namespace test7d {
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namespace ns1 {
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class A;
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}
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namespace ns2 {
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// Honor the lexical context of a using-declaration, though.
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using ns1::A;
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class B {
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static void foo();
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friend class A;
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};
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}
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class ns1::A {
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void test() {
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ns2::B::foo();
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}
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};
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}
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