// RUN: %clang_cc1 -fsyntax-only -verify %s // RUN: %clang_cc1 -fsyntax-only -verify -fmodules %s namespace test1 { int x; // expected-note {{previous definition is here}} static int y; void f() {} // expected-note {{previous definition is here}} extern "C" { extern int x; // expected-error {{declaration of 'x' has a different language linkage}} extern int y; // OK, has internal linkage, so no language linkage. void f(); // expected-error {{declaration of 'f' has a different language linkage}} } } // This is OK. Both test2_f don't have language linkage since they have // internal linkage. extern "C" { static void test2_f() { } static void test2_f(int x) { } } namespace test3 { extern "C" { namespace { extern int x2; void f2(); } } namespace { int x2; void f2() {} } } namespace test4 { void dummy() { void Bar(); class A { friend void Bar(); }; } } namespace test5 { static void g(); void f() { void g(); } } // pr14898 namespace test6 { template class __attribute__ ((__visibility__("default"))) shared_future; template class future { template friend class shared_future; shared_future<_Rp> share(); }; template future<_Rp> get_future(); template struct shared_future<_Rp&> { shared_future(future<_Rp&>&& __f); // expected-warning {{rvalue references are a C++11 extension}} }; void f() { typedef int T; get_future(); typedef int& U; shared_future f1 = get_future(); } } // This is OK. The variables have internal linkage and therefore no language // linkage. extern "C" { static int test7_x; } extern "C++" { extern int test7_x; } extern "C++" { static int test7_y; } extern "C" { extern int test7_y; } extern "C" { typedef int test7_F(); static test7_F test7_f; } extern "C++" { extern test7_F test7_f; } // FIXME: This should be invalid. The function has no language linkage, but // the function type has, so this is redeclaring the function with a different // type. extern "C++" { static void test8_f(); } extern "C" { extern void test8_f(); } extern "C" { static void test8_g(); } extern "C++" { extern void test8_g(); } extern "C" { void __attribute__((overloadable)) test9_f(int c); // expected-note {{previous declaration is here}} } extern "C++" { void __attribute__((overloadable)) test9_f(int c); // expected-error {{declaration of 'test9_f' has a different language linkage}} } extern "C" { void __attribute__((overloadable)) test10_f(int); void __attribute__((overloadable)) test10_f(double); } extern "C" { void test11_f() { void __attribute__((overloadable)) test11_g(int); void __attribute__((overloadable)) test11_g(double); } } namespace test12 { const int n = 0; extern const int n; void f() { extern const int n; } } namespace test13 { static void a(void); extern void a(); static void a(void) {} } namespace test14 { namespace { void a(void); // expected-note {{previous declaration is here}} static void a(void) {} // expected-error {{static declaration of 'a' follows non-static declaration}} } } namespace test15 { const int a = 5; // expected-note {{previous definition is here}} static const int a; // expected-error {{redefinition of 'a'}} } namespace test16 { extern "C" { class Foo { int x; friend int bar(Foo *y); }; int bar(Foo *y) { return y->x; } } }