// RUN: %clang -S -emit-llvm -target x86_64-unknown_unknown -g %s -o - -std=c++20 | FileCheck %s
// CHECK: @tci = dso_local global %"struct.TC<unsigned int, 2, &glb, &foo::e, &foo::f, &foo::g, 1, 2, 3>::nested" zeroinitializer, align 1, !dbg [[TCI:![0-9]+]]
// CHECK: @tcn = dso_local global %struct.TC zeroinitializer, align 1, !dbg [[TCN:![0-9]+]]
// CHECK: @nn = dso_local global %struct.NN zeroinitializer, align 1, !dbg [[NN:![0-9]+]]
// CHECK: !DICompileUnit(
struct foo {
char pad[8]; // make the member pointer to 'e' a bit more interesting (nonzero)
int e;
void f();
static void g();
};
typedef int foo::*foo_mem;
template<typename T, T, const int *x, foo_mem a, void (foo::*b)(), void (*f)(), int ...Is>
struct TC {
struct nested {
};
};
int glb;
void func();
// CHECK: [[TCI]] = !DIGlobalVariableExpression(var: [[TCIV:.*]], expr: !DIExpression())
// CHECK: [[TCIV]] = distinct !DIGlobalVariable(name: "tci",
// CHECK-SAME: type: ![[TCNESTED:[0-9]+]]
// CHECK: ![[TCNESTED]] ={{.*}}!DICompositeType(tag: DW_TAG_structure_type, name: "nested",
// CHECK-SAME: scope: ![[TC:[0-9]+]],
// CHECK: ![[TC]] = distinct !DICompositeType(tag: DW_TAG_structure_type, name: "TC<unsigned int, 2U, &glb, &foo::e, &foo::f, &foo::g, 1, 2, 3>"
// CHECK-SAME: templateParams: [[TCARGS:![0-9]*]]
TC
// CHECK: [[EMPTY:![0-9]*]] = !{}
// CHECK: [[TCARGS]] = !{[[TCARG1:![0-9]*]], [[TCARG2:![0-9]*]], [[TCARG3:![0-9]*]], [[TCARG4:![0-9]*]], [[TCARG5:![0-9]*]], [[TCARG6:![0-9]*]], [[TCARG7:![0-9]*]]}
// CHECK: [[TCARG1]] = !DITemplateTypeParameter(name: "T", type: [[UINT:![0-9]*]])
// CHECK: [[UINT:![0-9]*]] = !DIBasicType(name: "unsigned int"
< unsigned,
// CHECK: [[TCARG2]] = !DITemplateValueParameter(type: [[UINT]], value: i32 2)
2,
// CHECK: [[TCARG3]] = !DITemplateValueParameter(name: "x", type: [[CINTPTR:![0-9]*]], value: ptr @glb)
// CHECK: [[CINTPTR]] = !DIDerivedType(tag: DW_TAG_pointer_type, {{.*}}baseType: [[CINT:![0-9]+]]
// CHECK: [[CINT]] = !DIDerivedType(tag: DW_TAG_const_type, {{.*}}baseType: [[INT:![0-9]+]]
// CHECK: [[INT]] = !DIBasicType(name: "int"
&glb,
// CHECK: [[TCARG4]] = !DITemplateValueParameter(name: "a", type: [[MEMINTPTR:![0-9]*]], value: i64 8)
// CHECK: [[MEMINTPTR]] = !DIDerivedType(tag: DW_TAG_ptr_to_member_type, {{.*}}baseType: [[INT]], {{.*}}extraData: ![[FOO:[0-9]+]])
//
// We could just emit a declaration of 'foo' here, rather than the entire
// definition (same goes for any time we emit a member (function or data)
// pointer type)
// CHECK: [[FOO]] = distinct !DICompositeType(tag: DW_TAG_structure_type, name: "foo", {{.*}}identifier: "_ZTS3foo")
// CHECK: !DISubprogram(name: "f", linkageName: "_ZN3foo1fEv", {{.*}}type: [[FTYPE:![0-9]*]]
//
// Currently Clang emits the pointer-to-member-function value, but LLVM doesn't
// use it (GCC doesn't emit a value for pointers to member functions either - so
// it's not clear what, if any, format would be acceptable to GDB)
//
// CHECK: [[FTYPE:![0-9]*]] = !DISubroutineType(types: [[FARGS:![0-9]*]])
// CHECK: [[FARGS]] = !{null, [[FARG1:![0-9]*]]}
// CHECK: [[FARG1]] = !DIDerivedType(tag: DW_TAG_pointer_type,
// CHECK-SAME: baseType: ![[FOO]]
// CHECK-NOT: line:
// CHECK-SAME: size: 64
// CHECK-NOT: offset: 0
// CHECK-SAME: DIFlagArtificial
// CHECK: [[FUNTYPE:![0-9]*]] = !DISubroutineType(types: [[FUNARGS:![0-9]*]])
// CHECK: [[FUNARGS]] = !{null}
&foo::e,
// CHECK: [[TCARG5]] = !DITemplateValueParameter(name: "b", type: [[MEMFUNPTR:![0-9]*]], value: { i64, i64 } { i64 ptrtoint (ptr @_ZN3foo1fEv to i64), i64 0 })
// CHECK: [[MEMFUNPTR]] = !DIDerivedType(tag: DW_TAG_ptr_to_member_type, {{.*}}baseType: [[FTYPE]], {{.*}}extraData: ![[FOO]])
&foo::f,
// CHECK: [[TCARG6]] = !DITemplateValueParameter(name: "f", type: [[FUNPTR:![0-9]*]], value: ptr @_ZN3foo1gEv)
// CHECK: [[FUNPTR]] = !DIDerivedType(tag: DW_TAG_pointer_type, baseType: [[FUNTYPE]]
&foo::g,
// CHECK: [[TCARG7]] = !DITemplateValueParameter(tag: DW_TAG_GNU_template_parameter_pack, name: "Is", value: [[TCARG7_VALS:![0-9]*]])
// CHECK: [[TCARG7_VALS]] = !{[[TCARG7_1:![0-9]*]], [[TCARG7_2:![0-9]*]], [[TCARG7_3:![0-9]*]]}
// CHECK: [[TCARG7_1]] = !DITemplateValueParameter(type: [[INT]], value: i32 1)
1,
// CHECK: [[TCARG7_2]] = !DITemplateValueParameter(type: [[INT]], value: i32 2)
2,
// CHECK: [[TCARG7_3]] = !DITemplateValueParameter(type: [[INT]], value: i32 3)
3>::nested tci;
// CHECK: [[TCN]] = !DIGlobalVariableExpression(var: [[TCNV:.*]], expr: !DIExpression())
// CHECK: [[TCNV]] = distinct !DIGlobalVariable(name: "tcn"
// CHECK-SAME: type: ![[TCNT:[0-9]+]]
TC
// CHECK: ![[TCNT]] ={{.*}}!DICompositeType(tag: DW_TAG_structure_type, name: "TC<int, -3, nullptr, nullptr, nullptr, nullptr>"
// CHECK-SAME: templateParams: [[TCNARGS:![0-9]*]]
// CHECK: [[TCNARGS]] = !{[[TCNARG1:![0-9]*]], [[TCNARG2:![0-9]*]], [[TCNARG3:![0-9]*]], [[TCNARG4:![0-9]*]], [[TCNARG5:![0-9]*]], [[TCNARG6:![0-9]*]], [[TCNARG7:![0-9]*]]}
// CHECK: [[TCNARG1]] = !DITemplateTypeParameter(name: "T", type: [[INT]])
<int,
// CHECK: [[TCNARG2]] = !DITemplateValueParameter(type: [[INT]], value: i32 -3)
-3,
// CHECK: [[TCNARG3]] = !DITemplateValueParameter(name: "x", type: [[CINTPTR]], value: i8 0)
nullptr,
// The interesting null pointer: -1 for member data pointers (since they are
// just an offset in an object, they can be zero and non-null for the first
// member)
// CHECK: [[TCNARG4]] = !DITemplateValueParameter(name: "a", type: [[MEMINTPTR]], value: i64 -1)
nullptr,
//
// In some future iteration we could possibly emit the value of a null member
// function pointer as '{ i64, i64 } zeroinitializer' as it may be handled
// naturally from the LLVM CodeGen side once we decide how to handle non-null
// member function pointers. For now, it's simpler just to emit the 'i8 0'.
//
// CHECK: [[TCNARG5]] = !DITemplateValueParameter(name: "b", type: [[MEMFUNPTR]], value: i8 0)
nullptr,
// CHECK: [[TCNARG6]] = !DITemplateValueParameter(name: "f", type: [[FUNPTR]], value: i8 0)
nullptr
// CHECK: [[TCNARG7]] = !DITemplateValueParameter(tag: DW_TAG_GNU_template_parameter_pack, name: "Is", value: [[EMPTY]])
> tcn;
template<typename>
struct tmpl_impl {
};
template <template <typename> class tmpl, int &lvr>
struct NN {
};
// CHECK: [[NN]] = !DIGlobalVariableExpression(var: [[NNV:.*]], expr: !DIExpression())
// CHECK: [[NNV]] = distinct !DIGlobalVariable(name: "nn"
// CHECK-SAME: type: ![[NNT:[0-9]+]]
// CHECK: ![[NNT]] ={{.*}}!DICompositeType(tag: DW_TAG_structure_type, name: "NN<tmpl_impl, glb>",
// CHECK-SAME: templateParams: [[NNARGS:![0-9]*]]
// CHECK-SAME: identifier:
// CHECK: [[NNARGS]] = !{[[NNARG1:![0-9]*]], [[NNARG2:![0-9]*]]}
// CHECK: [[NNARG1]] = !DITemplateValueParameter(tag: DW_TAG_GNU_template_template_param, name: "tmpl", value: !"tmpl_impl")
// CHECK: [[NNARG2]] = !DITemplateValueParameter(name: "lvr", type: [[INTLVR:![0-9]*]], value: ptr @glb)
// CHECK: [[INTLVR]] = !DIDerivedType(tag: DW_TAG_reference_type, baseType: [[INT]]
NN<tmpl_impl, glb> nn;
// CHECK: ![[PADDINGATEND:[0-9]+]] = distinct !DICompositeType(tag: DW_TAG_structure_type, name: "PaddingAtEnd",
struct PaddingAtEnd {
int i;
char c;
};
PaddingAtEnd PaddedObj = {};
// CHECK: !DICompositeType(tag: DW_TAG_structure_type, name: "PaddingAtEndTemplate<&PaddedObj>"
// CHECK-SAME: templateParams: [[PTOARGS:![0-9]*]]
// CHECK: [[PTOARGS]] = !{[[PTOARG1:![0-9]*]]}
// CHECK: [[PTOARG1]] = !DITemplateValueParameter(type: [[CONST_PADDINGATEND_PTR:![0-9]*]], value: ptr @PaddedObj)
// CHECK: [[CONST_PADDINGATEND_PTR]] = !DIDerivedType(tag: DW_TAG_pointer_type, baseType: ![[PADDINGATEND]], size: 64)
template <PaddingAtEnd *>
struct PaddingAtEndTemplate {
};
PaddingAtEndTemplate<&PaddedObj> PaddedTemplateObj;
struct ClassTemplateArg {
int a;
float f;
};
template<ClassTemplateArg A> struct ClassTemplateArgTemplate {
static constexpr const ClassTemplateArg &Arg = A;
};
// CHECK: !DICompositeType(tag: DW_TAG_structure_type, name: "ClassTemplateArgTemplate<ClassTemplateArg{1, 2.000000e+00}>", {{.*}}, templateParams: ![[CLASS_TEMP_ARGS:[0-9]*]],
// CHECK: ![[CLASS_TEMP_ARG_CONST_REF_TYPE:[0-9]*]] = !DIDerivedType(tag: DW_TAG_reference_type, baseType: ![[CLASS_TEMP_ARG_CONST_TYPE:[0-9]*]],
// CHECK: ![[CLASS_TEMP_ARG_CONST_TYPE]] = !DIDerivedType(tag: DW_TAG_const_type, baseType: ![[CLASS_TEMP_ARG_TYPE:[0-9]*]])
// CHECK: ![[CLASS_TEMP_ARG_TYPE]] = distinct !DICompositeType(tag: DW_TAG_structure_type, name: "ClassTemplateArg",
// CHECK: ![[CLASS_TEMP_ARGS]] = !{![[CLASS_TEMP_ARG:[0-9]*]]}
// CHECK: ![[CLASS_TEMP_ARG]] = !DITemplateValueParameter(name: "A", type: ![[CLASS_TEMP_ARG_TYPE]], value: %{{[^ *]+}} { i32 1, float 2.000000e+00 })
ClassTemplateArgTemplate<ClassTemplateArg{1, 2.0f}> ClassTemplateArgObj;
template<const ClassTemplateArg&> struct ClassTemplateArgRefTemplate {};
ClassTemplateArgRefTemplate<ClassTemplateArgObj.Arg> ClassTemplateArgRefObj;
// CHECK: !DICompositeType(tag: DW_TAG_structure_type, name: "ClassTemplateArgRefTemplate<<template param ClassTemplateArg{1, 2.000000e+00}> >", {{.*}}, templateParams: ![[CLASS_TEMP_REF_ARGS:[0-9]*]],
// CHECK: ![[CLASS_TEMP_REF_ARGS]] = !{![[CLASS_TEMP_REF_ARG:[0-9]*]]}
// CHECK: ![[CLASS_TEMP_REF_ARG]] = !DITemplateValueParameter(type: ![[CLASS_TEMP_ARG_CONST_REF_TYPE]], value: ptr @_ZTAXtl16ClassTemplateArgLi1ELf40000000EEE)
inline namespace inl {
struct t1 { };
}
template<typename T> struct ClassTemplateInlineNamespaceArg {
};
ClassTemplateInlineNamespaceArg<inl::t1> ClassTemplateInlineNamespaceArgObj;
// CHECK: !DICompositeType(tag: DW_TAG_structure_type, name: "ClassTemplateInlineNamespaceArg<inl::t1>",
namespace IndirectDefaultArgument {
template<typename T1, typename T2 = int>
struct t1 { };
template<typename T>
void f1() {
}
template void f1<t1<int>>();
// CHECK: !DISubprogram(name: "f1<IndirectDefaultArgument::t1<int, int> >",
} // namespace IndirectDefaultArgument
namespace EmptyTrailingPack {
template<typename T>
struct t1 { };
template<typename T, typename ...Ts>
void f1() {
}
template void f1<t1<int>>();
// CHECK: !DISubprogram(name: "f1<EmptyTrailingPack::t1<int> >",
} // namespace EmptyTrailingPack
namespace EmptyInnerPack {
template<typename ...Ts, typename T = int>
void f1() {
}
template void f1<>();
// CHECK: !DISubprogram(name: "f1<int>",
} // namespace EmptyInnerPack
namespace RawFuncQual {
struct t1; // use this to ensure the type parameter doesn't shift due to other test cases in this file
template<typename T1, typename T2, typename T3, typename T4>
void f1() { }
template void f1<t1 () volatile, t1 () const volatile, t1 () &, t1 () &&>();
// CHECK: !DISubprogram(name: "f1<RawFuncQual::t1 () volatile, RawFuncQual::t1 () const volatile, RawFuncQual::t1 () &, RawFuncQual::t1 () &&>",
// CHECK-SAME: templateParams: ![[RAW_FUNC_QUAL_ARGS:[0-9]*]]
// CHECK: ![[RAW_FUNC_QUAL_ARGS]] = !{![[RAW_FUNC_QUAL_T1:[0-9]*]], ![[RAW_FUNC_QUAL_T2:[0-9]*]], ![[RAW_FUNC_QUAL_T3:[0-9]*]], ![[RAW_FUNC_QUAL_T4:[0-9]*]]}
// CHECK: ![[RAW_FUNC_QUAL_T1]] = !DITemplateTypeParameter(name: "T1", type: ![[RAW_FUNC_QUAL_VOL:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_VOL]] = !DIDerivedType(tag: DW_TAG_volatile_type, baseType: ![[RAW_FUNC_QUAL_TYPE:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_TYPE]] = !DISubroutineType(types: ![[RAW_FUNC_QUAL_LIST:[0-9]*]]
// CHECK: ![[RAW_FUNC_QUAL_LIST]] = !{![[RAW_FUNC_QUAL_STRUCT:[0-9]*]]}
// CHECK: ![[RAW_FUNC_QUAL_STRUCT]] = !DICompositeType(tag: DW_TAG_structure_type, name: "t1"
// CHECK: ![[RAW_FUNC_QUAL_T2]] = !DITemplateTypeParameter(name: "T2", type: ![[RAW_FUNC_QUAL_CNST:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_CNST]] = !DIDerivedType(tag: DW_TAG_const_type, baseType: ![[RAW_FUNC_QUAL_TYPE:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_T3]] = !DITemplateTypeParameter(name: "T3", type: ![[RAW_FUNC_QUAL_REF:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_REF]] = !DISubroutineType(flags: DIFlagLValueReference, types: ![[RAW_FUNC_QUAL_LIST]])
// CHECK: ![[RAW_FUNC_QUAL_T4]] = !DITemplateTypeParameter(name: "T4", type: ![[RAW_FUNC_QUAL_REF_REF:[0-9]*]])
// CHECK: ![[RAW_FUNC_QUAL_REF_REF]] = !DISubroutineType(flags: DIFlagRValueReference, types: ![[RAW_FUNC_QUAL_LIST]])
} // namespace RawFuncQual
namespace Nullptr_t {
template <typename T>
void f1() {}
template void f1<decltype(nullptr)>();
// CHECK: !DISubprogram(name: "f1<std::nullptr_t>",
} // namespace Nullptr_t
namespace TemplateTemplateParamInlineNamespace {
inline namespace inl {
template<typename>
struct t1 { };
} // namespace inl
template<template<typename> class> void f1() { }
template void f1<t1>();
// CHECK: !DISubprogram(name: "f1<TemplateTemplateParamInlineNamespace::inl::t1>",
// CHECK-SAME: templateParams: ![[TEMP_TEMP_INL_ARGS:[0-9]*]]
// CHECK: ![[TEMP_TEMP_INL_ARGS]] = !{![[TEMP_TEMP_INL_ARGS_T:[0-9]*]]}
// CHECK: ![[TEMP_TEMP_INL_ARGS_T]] = !DITemplateValueParameter(tag: DW_TAG_GNU_template_template_param, value: !"TemplateTemplateParamInlineNamespace::inl::t1")
} // namespace TemplateTemplateParamInlineNamespace
namespace NoPreferredNames {
template <typename T> struct t1;
using t1i = t1<int>;
template <typename T>
struct __attribute__((__preferred_name__(t1i))) t1 {};
template <typename T>
void f1() {}
template void f1<t1<int>>();
// CHECK: !DISubprogram(name: "f1<NoPreferredNames::t1<int> >",
} // namespace NoPreferredNames