linkage2.cpp
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// RUN: %clang_cc1 -fsyntax-only -verify -std=gnu++11 %s
// RUN: %clang_cc1 -fsyntax-only -verify -Wno-c++11-extensions -Wno-local-type-template-args %s -std=gnu++98
// RUN: %clang_cc1 -fsyntax-only -verify -Wno-c++11-extensions -Wno-local-type-template-args -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 _Rp>
class __attribute__ ((__visibility__("default"))) shared_future;
template <class _Rp>
class future {
template <class> friend class shared_future;
shared_future<_Rp> share();
};
template <class _Rp> future<_Rp>
get_future();
template <class _Rp>
struct shared_future<_Rp&> {
shared_future(future<_Rp&>&& __f);
};
void f() {
typedef int T;
get_future<int>();
typedef int& U;
shared_future<int&> f1 = get_future<int&>();
}
}
// 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 {
// Anonymous namespace implies internal linkage, so 'static' has no effect.
namespace {
void a(void);
static void a(void) {}
}
}
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;
}
}
}
namespace test17 {
namespace {
struct I {
};
}
template <typename T1, typename T2> void foo() {}
template <typename T, T x> void bar() {} // expected-note {{candidate function}}
inline void *g() {
struct L {
};
// foo<L, I>'s linkage should be the merge of UniqueExternalLinkage (or
// InternalLinkage in c++11) and VisibleNoLinkage. The correct answer is
// NoLinkage in both cases. This means that using foo<L, I> as a template
// argument should fail.
return reinterpret_cast<void*>(bar<typeof(foo<L, I>), foo<L, I> >); // expected-error {{reinterpret_cast cannot resolve overloaded function 'bar' to type 'void *}}
}
void h() {
g();
}
}
namespace test18 {
template <typename T> struct foo {
template <T *P> static void f() {}
static void *g() { return (void *)f<&x>; }
static T x;
};
template <typename T> T foo<T>::x;
inline void *f() {
struct S {
};
return foo<S>::g();
}
void *h() { return f(); }
}
extern "C" void pr16247_foo(int);
static void pr16247_foo(double);
void pr16247_foo(int) {}
void pr16247_foo(double) {}
namespace PR16247 {
extern "C" void pr16247_bar(int);
static void pr16247_bar(double);
void pr16247_bar(int) {}
void pr16247_bar(double) {}
}
namespace PR18964 {
unsigned &*foo; //expected-error{{'foo' declared as a pointer to a reference of type}}
extern struct {} *foo; // don't assert
}
namespace typedef_name_for_linkage {
template<typename T> struct Use {};
struct A { A(); A(const A&); ~A(); };
typedef struct {
A a;
} B;
struct C {
typedef struct {
A a;
} D;
};
typedef struct {
void f() { static int n; struct Inner {};}
} E;
// FIXME: Ideally this would be accepted in all modes. In C++98, we trigger a
// linkage calculation to drive the "internal linkage type as template
// argument" warning.
typedef struct {
void f() { struct Inner {}; Use<Inner> ui; }
} F;
#if __cplusplus < 201103L
// expected-error@-2 {{unsupported: typedef changes linkage of anonymous type, but linkage was already computed}}
// expected-note@-5 {{use a tag name here}}
#endif
}