llvm-project/clang/test/CodeGenCXX/rtti-linkage.cpp
Mehdi Amini e0ac46e69d Revert "Remove rdar links; NFC"
This reverts commit d618f1c3b12effd0c2bdb7d02108d3551f389d3d.
This commit wasn't reviewed ahead of time and significant concerns were
raised immediately after it landed. According to our developer policy
this warrants immediate revert of the commit.

https://llvm.org/docs/DeveloperPolicy.html#patch-reversion-policy

Differential Revision: https://reviews.llvm.org/D155509
2023-07-17 18:08:04 -07:00

182 lines
5.7 KiB
C++

// RUN: %clang_cc1 %std_cxx98- %s -I%S -triple=x86_64-apple-darwin10 -emit-llvm -Wno-dynamic-exception-spec -o - | FileCheck %s -check-prefixes=CHECK,CHECK-BOTH
// RUN: %clang_cc1 %std_cxx98- %s -I%S -triple=x86_64-apple-darwin10 -emit-llvm -Wno-dynamic-exception-spec -fvisibility=hidden -o - | FileCheck %s --check-prefixes=CHECK-WITH-HIDDEN,CHECK-BOTH
#include <typeinfo>
// CHECK-BOTH: _ZTSP1C = internal constant
// CHECK-BOTH: _ZTS1C = internal constant
// CHECK-BOTH: _ZTI1C = internal constant
// CHECK-BOTH: _ZTIP1C = internal constant
// CHECK-BOTH: _ZTSPP1C = internal constant
// CHECK-BOTH: _ZTIPP1C = internal constant
// CHECK-BOTH: _ZTSM1Ci = internal constant
// CHECK-BOTH: _ZTIM1Ci = internal constant
// CHECK-BOTH: _ZTSPM1Ci = internal constant
// CHECK-BOTH: _ZTIPM1Ci = internal constant
// CHECK-BOTH: _ZTSM1CS_ = internal constant
// CHECK-BOTH: _ZTIM1CS_ = internal constant
// CHECK-BOTH: _ZTSM1CPS_ = internal constant
// CHECK-BOTH: _ZTIM1CPS_ = internal constant
// CHECK-BOTH: _ZTSM1A1C = internal constant
// CHECK: _ZTS1A = linkonce_odr constant
// CHECK-WITH-HIDDEN: _ZTS1A = linkonce_odr hidden constant
// CHECK: _ZTI1A = linkonce_odr constant
// CHECK-WITH-HIDDEN: _ZTI1A = linkonce_odr hidden constant
// CHECK-BOTH: _ZTIM1A1C = internal constant
// CHECK-BOTH: _ZTSM1AP1C = internal constant
// CHECK-BOTH: _ZTIM1AP1C = internal constant
// 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 constant
// CHECK-WITH-HIDDEN: @_ZTIPK2T4 = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTSZ2t5vE1A = internal constant
// CHECK-WITH-HIDDEN: @_ZTIZ2t5vE1A = internal constant
// CHECK-WITH-HIDDEN: @_ZTSZ2t6vE1A = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTIZ2t6vE1A = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTSPZ2t7vE1A = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTSZ2t7vE1A = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTIZ2t7vE1A = linkonce_odr hidden constant
// CHECK-WITH-HIDDEN: @_ZTIPZ2t7vE1A = linkonce_odr hidden constant
// CHECK: _ZTSN12_GLOBAL__N_11DE = internal constant
// CHECK: _ZTIN12_GLOBAL__N_11DE = internal constant
// CHECK: _ZTSPN12_GLOBAL__N_11DE = internal constant
// CHECK: _ZTIPN12_GLOBAL__N_11DE = internal constant
// CHECK: _ZTSFN12_GLOBAL__N_11DEvE = internal constant
// CHECK: _ZTIFN12_GLOBAL__N_11DEvE = internal constant
// CHECK: _ZTSFvN12_GLOBAL__N_11DEE = internal constant
// CHECK: _ZTIFvN12_GLOBAL__N_11DEE = internal constant
// CHECK: _ZTSPFvvE = linkonce_odr constant
// CHECK: _ZTSFvvE = linkonce_odr constant
// CHECK: _ZTIFvvE = linkonce_odr constant
// CHECK: _ZTIPFvvE = linkonce_odr constant
// CHECK: _ZTSN12_GLOBAL__N_11EE = internal constant
// CHECK: _ZTIN12_GLOBAL__N_11EE = internal constant
// CHECK: _ZTSA10_i = linkonce_odr constant
// CHECK: _ZTIA10_i = linkonce_odr constant
// CHECK: _ZTI1TILj0EE = linkonce_odr constant
// CHECK: _ZTI1TILj1EE = weak_odr constant
// CHECK: _ZTI1TILj2EE = external constant
// CHECK: _ZTSZ2t5vE1A = internal constant
// CHECK: _ZTIZ2t5vE1A = internal constant
// CHECK: _ZTS1B ={{.*}} constant
// CHECK: _ZTI1B ={{.*}} constant
// CHECK: _ZTS1F = linkonce_odr constant
// CHECK: _ZTSZ2t6vE1A = linkonce_odr constant
// CHECK: _ZTIZ2t6vE1A = linkonce_odr constant
// CHECK: _ZTSPZ2t7vE1A = linkonce_odr constant
// CHECK: _ZTSZ2t7vE1A = linkonce_odr constant
// CHECK: _ZTIZ2t7vE1A = linkonce_odr constant
// CHECK: _ZTIPZ2t7vE1A = linkonce_odr constant
// CHECK: _ZTIN12_GLOBAL__N_11DE
// 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);
}
// rdar://16265084
void t5() {
struct A {};
const void *value = &typeid(A);
}
inline void t6() {
struct A {};
const void *value = &typeid(A);
}
void t6_helper() {
t6();
}
inline void t7() {
struct A {};
const void *value = &typeid(A*);
}
void t7_helper() {
t7();
}