// RUN: %clang_cc1 %s -I%S -triple=x86_64-apple-darwin10 -fhidden-weak-vtables -emit-llvm -o - | FileCheck %s // RUN: %clang_cc1 %s -I%S -triple=x86_64-apple-darwin10 -fvisibility hidden -fhidden-weak-vtables -emit-llvm -o - | FileCheck -check-prefix=CHECK-WITH-HIDDEN %s #include <typeinfo> // CHECK-WITH-HIDDEN: _ZTSFN12_GLOBAL__N_11DEvE = internal constant // CHECK-WITH-HIDDEN: @_ZTSPK2T4 = linkonce_odr hidden constant // CHECK-WITH-HIDDEN: @_ZTS2T4 = linkonce_odr hidden constant // CHECK-WITH-HIDDEN: @_ZTI2T4 = linkonce_odr hidden unnamed_addr constant // CHECK-WITH-HIDDEN: @_ZTIPK2T4 = linkonce_odr hidden unnamed_addr constant // CHECK: _ZTSP1C = internal constant // CHECK: _ZTS1C = internal constant // CHECK: _ZTI1C = internal unnamed_addr constant // CHECK: _ZTIP1C = internal unnamed_addr constant // CHECK: _ZTSPP1C = internal constant // CHECK: _ZTIPP1C = internal unnamed_addr constant // CHECK: _ZTSM1Ci = internal constant // CHECK: _ZTIM1Ci = internal unnamed_addr constant // CHECK: _ZTSPM1Ci = internal constant // CHECK: _ZTIPM1Ci = internal unnamed_addr constant // CHECK: _ZTSM1CS_ = internal constant // CHECK: _ZTIM1CS_ = internal unnamed_addr constant // CHECK: _ZTSM1CPS_ = internal constant // CHECK: _ZTIM1CPS_ = internal unnamed_addr constant // CHECK: _ZTSM1A1C = internal constant // CHECK: _ZTS1A = linkonce_odr constant // CHECK: _ZTI1A = linkonce_odr hidden unnamed_addr constant // CHECK: _ZTIM1A1C = internal unnamed_addr constant // CHECK: _ZTSM1AP1C = internal constant // CHECK: _ZTIM1AP1C = internal unnamed_addr constant // CHECK: _ZTSN12_GLOBAL__N_11DE = internal constant // CHECK: _ZTIN12_GLOBAL__N_11DE = internal unnamed_addr constant // CHECK: _ZTSPN12_GLOBAL__N_11DE = internal constant // CHECK: _ZTIPN12_GLOBAL__N_11DE = internal unnamed_addr constant // CHECK: _ZTSFN12_GLOBAL__N_11DEvE = internal constant // CHECK: _ZTIFN12_GLOBAL__N_11DEvE = internal unnamed_addr constant // CHECK: _ZTSFvN12_GLOBAL__N_11DEE = internal constant // CHECK: _ZTIFvN12_GLOBAL__N_11DEE = internal unnamed_addr constant // CHECK: _ZTSPFvvE = linkonce_odr constant // CHECK: _ZTSFvvE = linkonce_odr constant // CHECK: _ZTIFvvE = linkonce_odr hidden unnamed_addr constant // CHECK: _ZTIPFvvE = linkonce_odr hidden unnamed_addr constant // CHECK: _ZTSN12_GLOBAL__N_11EE = internal constant // CHECK: _ZTIN12_GLOBAL__N_11EE = internal unnamed_addr constant // CHECK: _ZTSA10_i = linkonce_odr constant // CHECK: _ZTIA10_i = linkonce_odr hidden unnamed_addr constant // CHECK: _ZTI1TILj0EE = linkonce_odr unnamed_addr constant // CHECK: _ZTI1TILj1EE = weak_odr unnamed_addr constant // CHECK: _ZTI1TILj2EE = external constant // CHECK: _ZTS1B = constant // CHECK: _ZTI1B = unnamed_addr constant // CHECK: _ZTS1F = linkonce_odr constant // CHECK: _ZTIN12_GLOBAL__N_11DE to // A has no key function, so its RTTI data should be linkonce_odr. struct A { }; // B has a key function defined in the translation unit, so the RTTI data should // be emitted in this translation unit and have external linkage. struct B : A { virtual void f(); }; void B::f() { } // C is an incomplete class type, so any direct or indirect pointer types should have // internal linkage, as should the type info for C itself. struct C; void t1() { (void)typeid(C*); (void)typeid(C**); (void)typeid(int C::*); (void)typeid(int C::**); (void)typeid(C C::*); (void)typeid(C *C::*); (void)typeid(C A::*); (void)typeid(C* A::*); } namespace { // D is inside an anonymous namespace, so all type information related to D should have // internal linkage. struct D { }; // E is also inside an anonymous namespace. enum E { }; }; // F has a key function defined in the translation unit, but it is inline so the RTTI // data should be emitted with linkonce_odr linkage. struct F { virtual void f(); }; inline void F::f() { } const D getD(); const std::type_info &t2() { (void)typeid(const D); (void)typeid(D *); (void)typeid(D (*)()); (void)typeid(void (*)(D)); (void)typeid(void (*)(D&)); // The exception specification is not part of the RTTI descriptor, so it should not have // internal linkage. (void)typeid(void (*)() throw (D)); (void)typeid(E); return typeid(getD()); } namespace Arrays { struct A { static const int a[10]; }; const std::type_info &f() { return typeid(A::a); } } template <unsigned N> class T { virtual void anchor() {} }; template class T<1>; template <> class T<2> { virtual void anchor(); }; void t3() { (void) typeid(T<0>); (void) typeid(T<1>); (void) typeid(T<2>); } // rdar://problem/8778973 struct T4 {}; void t4(const T4 *ptr) { const void *value = &typeid(ptr); }