Files
clang-p2996/cross-project-tests/debuginfo-tests/clang_llvm_roundtrip/simplified_template_names.cpp
David Blaikie a5032b2633 DebugInfo: Don't allow type units to references types in the CU
We could only do this in limited ways (since we emit the TUs first, we
can't use ref_addr (& we can't use that in Split DWARF either) - so we
had to synthesize declarations into the TUs) and they were ambiguous in
some cases (if the CU type had internal linkage, parsing the TU would
require knowing which CU was referencing the TU to know which type the
declaration was for, which seems not-ideal). So to avoid all that, let's
just not reference types defined in the CU from TUs - instead moving the
TU type into the CU (recursively).

This does increase debug info size (by pulling more things out of type
units, into the compile unit) - about 2% of uncompressed dwp file size
for clang -O0 -g -gsplit-dwarf. (5% .debug_info.dwo section size
increase in the .dwp)
2022-03-25 23:49:03 +00:00

354 lines
7.9 KiB
C++

// RUN: %clang %target_itanium_abi_host_triple %s -c -o - -gdwarf-4 -Xclang -gsimple-template-names=mangled -Xclang -debug-forward-template-params -std=c++20 \
// RUN: | llvm-dwarfdump --verify -
// RUN: %clang %target_itanium_abi_host_triple %s -c -o - -gdwarf-4 -Xclang -gsimple-template-names=mangled -Xclang -debug-forward-template-params -std=c++20 -gmlt -fdebug-info-for-profiling \
// RUN: | llvm-dwarfdump --verify -
// RUN: %clang %target_itanium_abi_host_triple %s -c -o - -gdwarf-4 -Xclang -gsimple-template-names=mangled -Xclang -debug-forward-template-params -std=c++20 -fdebug-types-section \
// RUN: | llvm-dwarfdump --verify -
// RUN: %clang %target_itanium_abi_host_triple %s -c -o - -gdwarf-5 -Xclang -gsimple-template-names=mangled -Xclang -debug-forward-template-params -std=c++20 -fdebug-types-section \
// RUN: | llvm-dwarfdump --verify -
#include <cstdint>
template<typename ...Ts>
struct t1 {
};
template<typename ...Ts>
struct t2;
struct udt {
};
namespace ns {
struct udt {
};
namespace inner {
template<typename T> struct ttp { };
struct udt { };
}
template<template<typename> class T>
void ttp_user() { }
enum Enumeration { Enumerator1, Enumerator2, Enumerator3 = 1 };
enum class EnumerationClass { Enumerator1, Enumerator2, Enumerator3 = 1 };
enum { AnonEnum1, AnonEnum2, AnonEnum3 = 1 };
enum EnumerationSmall : unsigned char { kNeg = 0xff };
}
template <typename... Ts>
void f1() {
t1<Ts...> v1;
t2<Ts...> *v2;
}
template<bool b, int i>
void f2() {
}
template<typename T, T ...A>
void f3() {
}
template<typename T, unsigned = 3>
void f4() {
}
template<typename T, bool b = false>
struct t3 { };
extern template class t3<int>;
template class t3<int>;
struct outer_class {
struct inner_class {
};
};
int i = 3;
template<unsigned N>
struct t4 { };
namespace {
struct t5 { };
enum LocalEnum { LocalEnum1 };
}
template<typename ...T1, typename T2 = int>
void f5() { }
template<typename T1, typename ...T2>
void f6() { }
struct t6 {
template<typename T>
void operator<<(int) {
}
template<typename T>
void operator<(int) {
}
template<typename T>
void operator<=(int) {
}
template<typename T = int>
operator t1<float>*() {
return nullptr;
}
template<typename T>
void operator-(int) {
}
template<typename T>
void operator*(int) {
}
template<typename T>
void operator/(int) {
}
template<typename T>
void operator%(int) {
}
template<typename T>
void operator^(int) {
}
template<typename T>
void operator&(int) {
}
template<typename T>
void operator|(int) {
}
template<typename T>
void operator~() {
}
template<typename T>
void operator!() {
}
template<typename T>
void operator=(int) {
}
template<typename T>
void operator>(int) {
}
template<typename T>
void operator,(int) {
}
template<typename T>
void operator()() {
}
template<typename T>
void operator[](int) {
}
template<typename T>
void operator<=>(int) {
}
template<typename T>
void* operator new(std::size_t, T) {
__builtin_unreachable();
}
template<typename T>
void operator delete(void*, T) {
}
template<typename T>
void* operator new[](std::size_t, T) {
__builtin_unreachable();
}
template<typename T>
void operator delete[](void*, T) {
}
template<typename T>
int operator co_await() { __builtin_unreachable(); }
};
void operator"" _suff(unsigned long long) {}
template<template<typename...> class T> void f7() { }
template<template<typename...> class T, typename T2> void f8() { }
template<typename T>
struct t7;
using t7i = t7<int>;
template<typename T>
struct
__attribute__((__preferred_name__(t7i)))
t7 {
};
struct t8 {
void mem();
};
namespace ns {
inline namespace inl {
template<typename T> struct t9 { };
}
}
template<typename T>
void (*f9())() {
return nullptr;
}
struct t10 {
template<typename T = void>
t10() { }
};
template<typename T>
void operator_not_really() {
}
template<typename T, T ...A>
struct t11 {
};
struct t12 {
t11<LocalEnum, LocalEnum1> v1;
};
int main() {
struct { } A;
auto L = []{};
f1<int>();
f1<float>();
f1<bool>();
f1<double>();
f1<long>();
f1<short>();
f1<unsigned>();
f1<unsigned long long>();
f1<long long>();
f1<udt>();
f1<ns::udt>();
f1<ns::udt*>();
f1<ns::inner::udt>();
f1<t1<int>>();
f1<int, float>();
f1<int *>();
f1<int &>();
f1<int &&>();
f1<const int>();
f1<int[3]>();
f1<void>();
f1<outer_class::inner_class>();
f1<unsigned long>();
f2<true, 3>();
f3<ns::Enumeration, ns::Enumerator3, (ns::Enumeration)2>();
f3<ns::EnumerationClass, ns::EnumerationClass::Enumerator3, (ns::EnumerationClass)2>();
f3<ns::EnumerationSmall, ns::kNeg>();
f3<decltype(ns::AnonEnum1), ns::AnonEnum3, (decltype(ns::AnonEnum1))2>();
f3<LocalEnum, LocalEnum1>();
f3<int*, &i>();
f3<int*, nullptr>();
t4<3> v2;
f3<unsigned long, 1>();
f3<unsigned long long, 1>();
f3<long, 1>();
f3<unsigned int, 1>();
f3<short, 1>();
f3<unsigned char, (char)0>();
f3<signed char, (char)0>();
f3<unsigned short, 1, 2>();
f3<char, 0, 1, 6, 7, 13, 14, 31, 32, 33, (char)127, (char)128>();
f3<__int128, ((__int128)9223372036854775807) * 2>();
f4<unsigned int>();
f1<t3<int>>();
f1<t3<t3<int>>>();
f1<decltype(L)>();
t3<decltype(L)> v1;
f1<t3<t3<decltype(L)>>>();
f1<int(float)>();
f1<void(...)>();
f1<void(int, ...)>();
f1<const int &>();
f1<const int *&>();
f1<t5>();
f1<decltype(nullptr)>();
f1<long*, long*>();
f1<long*, udt*>();
f1<void *const>();
f1<const void *const *>();
f1<void()>();
f1<void(*)()>();
f1<decltype(&L)>();
f1<decltype(A)>();
f1<decltype(&A)>();
f5<t1<int>>();
f5<>();
f6<t1<int>>();
f1<>();
f1<const void*, const void*>();
f1<t1<int*>*>();
f1<int *[]>();
t6 v6;
v6.operator<< <int>(1);
v6.operator< <int>(1);
v6.operator<= <int>(1);
v6.operator t1<float>*();
v6.operator- <int>(3);
v6.operator* <int>(3);
v6.operator/ <int>(3);
v6.operator% <int>(3);
v6.operator^ <int>(3);
v6.operator& <int>(3);
v6.operator| <int>(3);
v6.operator~ <int>();
v6.operator! <int>();
v6.operator= <int>(3);
v6.operator> <int>(3);
v6.operator, <int>(3);
v6.operator() <int>();
v6.operator[] <int>(3);
v6.operator<=> <int>(3);
t6::operator new(0, 0);
t6::operator new[](0, 0);
t6::operator delete(nullptr, 0);
t6::operator delete[](nullptr, 0);
v6.operator co_await<int>();
42_suff;
struct t7 { };
f1<t7>();
f1<int(&)[3]>();
f1<int(*)[3]>();
f7<t1>();
f8<t1, int>();
using namespace ns;
ttp_user<inner::ttp>();
f1<int*, decltype(nullptr)*>();
t7i x;
f1<t7i>();
f7<ns::inl::t9>();
f1<_Atomic(int)>();
f1<int, long, volatile char>();
f1<__attribute__((__vector_size__(sizeof(int) * 2))) int>();
f1<int *const volatile>();
f1<const volatile void>();
f1<t1<decltype(L)>>();
t10 v3;
f1<void (::udt::*)() const>();
f1<void (::udt::*)() volatile &>();
f1<void (::udt::*)() const volatile &&>();
f9<int>();
f1<void (*const)()>();
f1<char const (&)[1]>();
f1<void () const &>();
f1<void () volatile &&>();
f1<void () const volatile>();
f1<int *const[1]>();
f1<int *const(&)[1]>();
f1<void (::udt::* const&)()>();
f1<void (*(int))(float)>();
f1<t1<int>[1]>();
f1<void (*)() noexcept>();
f1<void (decltype(A))>();
struct t8 { decltype(A) m; };
f1<void(t8, decltype(A))>();
f1<void(t8)>();
operator_not_really<int>();
t12 v4;
f1<_BitInt(3)>();
f1<const unsigned _BitInt(5)>();
f1<void(t1<>, t1<>)>();
f1<int t1<>::*>();
void fcc() __attribute__((swiftcall));
f1<decltype(fcc)>();
int fnrt() __attribute__((noreturn));
f1<decltype(fnrt)>();
}
void t8::mem() {
struct t7 { };
f1<t7>();
f1<decltype(&t8::mem)>();
}
namespace complex_type_units {
void external_function();
namespace {
struct internal_type;
}
template <void (*)() = external_function> struct t2;
template <typename = t2<>> class t3 {};
template <typename = internal_type, typename = t3<>>
struct t4 {
};
struct t5 {
t4<> v1;
};
void f1() {
t5 v1;
t3<> v2;
}
}