blob: d6a3574f937c587ea881eb20a369c77bd8fead79 [file] [log] [blame]
// RUN: %clang_cc1 -triple x86_64-apple-darwin10 -fsyntax-only -verify -std=gnu++11 -fms-extensions -Wno-microsoft %s
// RUN: %clang_cc1 -triple x86_64-apple-darwin10 -fsyntax-only -verify -std=gnu++14 -fms-extensions -Wno-microsoft %s
// RUN: %clang_cc1 -triple x86_64-apple-darwin10 -fsyntax-only -verify -std=gnu++1z -fms-extensions -Wno-microsoft %s
#define T(b) (b) ? 1 : -1
#define F(b) (b) ? -1 : 1
struct NonPOD { NonPOD(int); };
typedef NonPOD NonPODAr[10];
typedef NonPOD NonPODArNB[];
typedef NonPOD NonPODArMB[10][2];
// PODs
enum Enum { EV };
struct POD { Enum e; int i; float f; NonPOD* p; };
struct Empty {};
typedef Empty EmptyAr[10];
typedef Empty EmptyArNB[];
typedef Empty EmptyArMB[1][2];
typedef int Int;
typedef Int IntAr[10];
typedef Int IntArNB[];
class Statics { static int priv; static NonPOD np; };
union EmptyUnion {};
union IncompleteUnion; // expected-note {{forward declaration of 'IncompleteUnion'}}
union Union { int i; float f; };
struct HasFunc { void f (); };
struct HasOp { void operator *(); };
struct HasConv { operator int(); };
struct HasAssign { void operator =(int); };
struct HasAnonymousUnion {
union {
int i;
float f;
};
};
typedef int Vector __attribute__((vector_size(16)));
typedef int VectorExt __attribute__((ext_vector_type(4)));
using ComplexFloat = _Complex float;
using ComplexInt = _Complex int;
// Not PODs
typedef const void cvoid;
struct Derives : POD {};
typedef Derives DerivesAr[10];
typedef Derives DerivesArNB[];
struct DerivesEmpty : Empty {};
struct HasCons { HasCons(int); };
struct HasDefaultCons { HasDefaultCons() = default; };
struct HasExplicitDefaultCons { explicit HasExplicitDefaultCons() = default; };
struct HasInheritedCons : HasDefaultCons { using HasDefaultCons::HasDefaultCons; };
struct HasNoInheritedCons : HasCons {};
struct HasCopyAssign { HasCopyAssign operator =(const HasCopyAssign&); };
struct HasMoveAssign { HasMoveAssign operator =(const HasMoveAssign&&); };
struct HasNoThrowMoveAssign {
HasNoThrowMoveAssign& operator=(
const HasNoThrowMoveAssign&&) throw(); };
struct HasNoExceptNoThrowMoveAssign {
HasNoExceptNoThrowMoveAssign& operator=(
const HasNoExceptNoThrowMoveAssign&&) noexcept;
};
struct HasThrowMoveAssign {
HasThrowMoveAssign& operator=(const HasThrowMoveAssign&&)
#if __cplusplus <= 201402L
throw(POD);
#else
noexcept(false);
#endif
};
struct HasNoExceptFalseMoveAssign {
HasNoExceptFalseMoveAssign& operator=(
const HasNoExceptFalseMoveAssign&&) noexcept(false); };
struct HasMoveCtor { HasMoveCtor(const HasMoveCtor&&); };
struct HasMemberMoveCtor { HasMoveCtor member; };
struct HasMemberMoveAssign { HasMoveAssign member; };
struct HasStaticMemberMoveCtor { static HasMoveCtor member; };
struct HasStaticMemberMoveAssign { static HasMoveAssign member; };
struct HasMemberThrowMoveAssign { HasThrowMoveAssign member; };
struct HasMemberNoExceptFalseMoveAssign {
HasNoExceptFalseMoveAssign member; };
struct HasMemberNoThrowMoveAssign { HasNoThrowMoveAssign member; };
struct HasMemberNoExceptNoThrowMoveAssign {
HasNoExceptNoThrowMoveAssign member; };
struct HasDefaultTrivialCopyAssign {
HasDefaultTrivialCopyAssign &operator=(
const HasDefaultTrivialCopyAssign&) = default;
};
struct TrivialMoveButNotCopy {
TrivialMoveButNotCopy &operator=(TrivialMoveButNotCopy&&) = default;
TrivialMoveButNotCopy &operator=(const TrivialMoveButNotCopy&);
};
struct NonTrivialDefault {
NonTrivialDefault();
};
struct HasDest { ~HasDest(); };
class HasPriv { int priv; };
class HasProt { protected: int prot; };
struct HasRef { int i; int& ref; HasRef() : i(0), ref(i) {} };
struct HasRefAggregate { int i; int& ref; };
struct HasNonPOD { NonPOD np; };
struct HasVirt { virtual void Virt() {}; };
typedef NonPOD NonPODAr[10];
typedef HasVirt VirtAr[10];
typedef NonPOD NonPODArNB[];
union NonPODUnion { int i; Derives n; };
struct DerivesHasCons : HasCons {};
struct DerivesHasCopyAssign : HasCopyAssign {};
struct DerivesHasMoveAssign : HasMoveAssign {};
struct DerivesHasDest : HasDest {};
struct DerivesHasPriv : HasPriv {};
struct DerivesHasProt : HasProt {};
struct DerivesHasRef : HasRef {};
struct DerivesHasVirt : HasVirt {};
struct DerivesHasMoveCtor : HasMoveCtor {};
struct HasNoThrowCopyAssign {
void operator =(const HasNoThrowCopyAssign&) throw();
};
struct HasMultipleCopyAssign {
void operator =(const HasMultipleCopyAssign&) throw();
void operator =(volatile HasMultipleCopyAssign&);
};
struct HasMultipleNoThrowCopyAssign {
void operator =(const HasMultipleNoThrowCopyAssign&) throw();
void operator =(volatile HasMultipleNoThrowCopyAssign&) throw();
};
struct HasNoThrowConstructor { HasNoThrowConstructor() throw(); };
struct HasNoThrowConstructorWithArgs {
HasNoThrowConstructorWithArgs(HasCons i = HasCons(0)) throw();
};
struct HasMultipleDefaultConstructor1 {
HasMultipleDefaultConstructor1() throw();
HasMultipleDefaultConstructor1(int i = 0);
};
struct HasMultipleDefaultConstructor2 {
HasMultipleDefaultConstructor2(int i = 0);
HasMultipleDefaultConstructor2() throw();
};
struct HasNoThrowCopy { HasNoThrowCopy(const HasNoThrowCopy&) throw(); };
struct HasMultipleCopy {
HasMultipleCopy(const HasMultipleCopy&) throw();
HasMultipleCopy(volatile HasMultipleCopy&);
};
struct HasMultipleNoThrowCopy {
HasMultipleNoThrowCopy(const HasMultipleNoThrowCopy&) throw();
HasMultipleNoThrowCopy(volatile HasMultipleNoThrowCopy&) throw();
};
struct HasVirtDest { virtual ~HasVirtDest(); };
struct DerivedVirtDest : HasVirtDest {};
typedef HasVirtDest VirtDestAr[1];
class AllPrivate {
AllPrivate() throw();
AllPrivate(const AllPrivate&) throw();
AllPrivate &operator=(const AllPrivate &) throw();
~AllPrivate() throw();
};
struct ThreeArgCtor {
ThreeArgCtor(int*, char*, int);
};
struct VariadicCtor {
template<typename...T> VariadicCtor(T...);
};
struct ThrowingDtor {
~ThrowingDtor()
#if __cplusplus <= 201402L
throw(int);
#else
noexcept(false);
#endif
};
struct NoExceptDtor {
~NoExceptDtor() noexcept(true);
};
struct NoThrowDtor {
~NoThrowDtor() throw();
};
struct ACompleteType {};
struct AnIncompleteType; // expected-note 1+ {{forward declaration of 'AnIncompleteType'}}
typedef AnIncompleteType AnIncompleteTypeAr[42];
typedef AnIncompleteType AnIncompleteTypeArNB[];
typedef AnIncompleteType AnIncompleteTypeArMB[1][10];
struct HasInClassInit {
int x = 42;
};
struct HasPrivateBase : private ACompleteType {};
struct HasProtectedBase : protected ACompleteType {};
struct HasVirtBase : virtual ACompleteType {};
void is_pod()
{
{ int arr[T(__is_pod(int))]; }
{ int arr[T(__is_pod(Enum))]; }
{ int arr[T(__is_pod(POD))]; }
{ int arr[T(__is_pod(Int))]; }
{ int arr[T(__is_pod(IntAr))]; }
{ int arr[T(__is_pod(Statics))]; }
{ int arr[T(__is_pod(Empty))]; }
{ int arr[T(__is_pod(EmptyUnion))]; }
{ int arr[T(__is_pod(Union))]; }
{ int arr[T(__is_pod(HasFunc))]; }
{ int arr[T(__is_pod(HasOp))]; }
{ int arr[T(__is_pod(HasConv))]; }
{ int arr[T(__is_pod(HasAssign))]; }
{ int arr[T(__is_pod(IntArNB))]; }
{ int arr[T(__is_pod(HasAnonymousUnion))]; }
{ int arr[T(__is_pod(Vector))]; }
{ int arr[T(__is_pod(VectorExt))]; }
{ int arr[T(__is_pod(Derives))]; }
{ int arr[T(__is_pod(DerivesAr))]; }
{ int arr[T(__is_pod(DerivesArNB))]; }
{ int arr[T(__is_pod(DerivesEmpty))]; }
{ int arr[T(__is_pod(HasPriv))]; }
{ int arr[T(__is_pod(HasProt))]; }
{ int arr[T(__is_pod(DerivesHasPriv))]; }
{ int arr[T(__is_pod(DerivesHasProt))]; }
{ int arr[F(__is_pod(HasCons))]; }
{ int arr[F(__is_pod(HasCopyAssign))]; }
{ int arr[F(__is_pod(HasMoveAssign))]; }
{ int arr[F(__is_pod(HasDest))]; }
{ int arr[F(__is_pod(HasRef))]; }
{ int arr[F(__is_pod(HasVirt))]; }
{ int arr[F(__is_pod(DerivesHasCons))]; }
{ int arr[F(__is_pod(DerivesHasCopyAssign))]; }
{ int arr[F(__is_pod(DerivesHasMoveAssign))]; }
{ int arr[F(__is_pod(DerivesHasDest))]; }
{ int arr[F(__is_pod(DerivesHasRef))]; }
{ int arr[F(__is_pod(DerivesHasVirt))]; }
{ int arr[F(__is_pod(NonPOD))]; }
{ int arr[F(__is_pod(HasNonPOD))]; }
{ int arr[F(__is_pod(NonPODAr))]; }
{ int arr[F(__is_pod(NonPODArNB))]; }
{ int arr[F(__is_pod(void))]; }
{ int arr[F(__is_pod(cvoid))]; }
// { int arr[F(__is_pod(NonPODUnion))]; }
{ int arr[T(__is_pod(ACompleteType))]; }
{ int arr[F(__is_pod(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_pod(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_pod(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
}
typedef Empty EmptyAr[10];
struct Bit0 { int : 0; };
struct Bit0Cons { int : 0; Bit0Cons(); };
struct BitOnly { int x : 3; };
struct DerivesVirt : virtual POD {};
void is_empty()
{
{ int arr[T(__is_empty(Empty))]; }
{ int arr[T(__is_empty(DerivesEmpty))]; }
{ int arr[T(__is_empty(HasCons))]; }
{ int arr[T(__is_empty(HasCopyAssign))]; }
{ int arr[T(__is_empty(HasMoveAssign))]; }
{ int arr[T(__is_empty(HasDest))]; }
{ int arr[T(__is_empty(HasFunc))]; }
{ int arr[T(__is_empty(HasOp))]; }
{ int arr[T(__is_empty(HasConv))]; }
{ int arr[T(__is_empty(HasAssign))]; }
{ int arr[T(__is_empty(Bit0))]; }
{ int arr[T(__is_empty(Bit0Cons))]; }
{ int arr[F(__is_empty(Int))]; }
{ int arr[F(__is_empty(POD))]; }
{ int arr[F(__is_empty(EmptyUnion))]; }
{ int arr[F(__is_empty(IncompleteUnion))]; }
{ int arr[F(__is_empty(EmptyAr))]; }
{ int arr[F(__is_empty(HasRef))]; }
{ int arr[F(__is_empty(HasVirt))]; }
{ int arr[F(__is_empty(BitOnly))]; }
{ int arr[F(__is_empty(void))]; }
{ int arr[F(__is_empty(IntArNB))]; }
{ int arr[F(__is_empty(HasAnonymousUnion))]; }
// { int arr[F(__is_empty(DerivesVirt))]; }
{ int arr[T(__is_empty(ACompleteType))]; }
{ int arr[F(__is_empty(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_empty(AnIncompleteType[]))]; }
{ int arr[F(__is_empty(AnIncompleteType[1]))]; }
}
typedef Derives ClassType;
void is_class()
{
{ int arr[T(__is_class(Derives))]; }
{ int arr[T(__is_class(HasPriv))]; }
{ int arr[T(__is_class(ClassType))]; }
{ int arr[T(__is_class(HasAnonymousUnion))]; }
{ int arr[F(__is_class(int))]; }
{ int arr[F(__is_class(Enum))]; }
{ int arr[F(__is_class(Int))]; }
{ int arr[F(__is_class(IntAr))]; }
{ int arr[F(__is_class(DerivesAr))]; }
{ int arr[F(__is_class(Union))]; }
{ int arr[F(__is_class(cvoid))]; }
{ int arr[F(__is_class(IntArNB))]; }
}
typedef Union UnionAr[10];
typedef Union UnionType;
void is_union()
{
{ int arr[T(__is_union(Union))]; }
{ int arr[T(__is_union(UnionType))]; }
{ int arr[F(__is_union(int))]; }
{ int arr[F(__is_union(Enum))]; }
{ int arr[F(__is_union(Int))]; }
{ int arr[F(__is_union(IntAr))]; }
{ int arr[F(__is_union(UnionAr))]; }
{ int arr[F(__is_union(cvoid))]; }
{ int arr[F(__is_union(IntArNB))]; }
{ int arr[F(__is_union(HasAnonymousUnion))]; }
}
typedef Enum EnumType;
void is_enum()
{
{ int arr[T(__is_enum(Enum))]; }
{ int arr[T(__is_enum(EnumType))]; }
{ int arr[F(__is_enum(int))]; }
{ int arr[F(__is_enum(Union))]; }
{ int arr[F(__is_enum(Int))]; }
{ int arr[F(__is_enum(IntAr))]; }
{ int arr[F(__is_enum(UnionAr))]; }
{ int arr[F(__is_enum(Derives))]; }
{ int arr[F(__is_enum(ClassType))]; }
{ int arr[F(__is_enum(cvoid))]; }
{ int arr[F(__is_enum(IntArNB))]; }
{ int arr[F(__is_enum(HasAnonymousUnion))]; }
}
struct FinalClass final {
};
template<typename T>
struct PotentiallyFinal { };
template<typename T>
struct PotentiallyFinal<T*> final { };
template<>
struct PotentiallyFinal<int> final { };
struct SealedClass sealed {
};
template<typename T>
struct PotentiallySealed { };
template<typename T>
struct PotentiallySealed<T*> sealed { };
template<>
struct PotentiallySealed<int> sealed { };
void is_final()
{
{ int arr[T(__is_final(SealedClass))]; }
{ int arr[T(__is_final(PotentiallySealed<float*>))]; }
{ int arr[T(__is_final(PotentiallySealed<int>))]; }
{ int arr[T(__is_final(FinalClass))]; }
{ int arr[T(__is_final(PotentiallyFinal<float*>))]; }
{ int arr[T(__is_final(PotentiallyFinal<int>))]; }
{ int arr[F(__is_final(int))]; }
{ int arr[F(__is_final(Union))]; }
{ int arr[F(__is_final(Int))]; }
{ int arr[F(__is_final(IntAr))]; }
{ int arr[F(__is_final(UnionAr))]; }
{ int arr[F(__is_final(Derives))]; }
{ int arr[F(__is_final(ClassType))]; }
{ int arr[F(__is_final(cvoid))]; }
{ int arr[F(__is_final(IntArNB))]; }
{ int arr[F(__is_final(HasAnonymousUnion))]; }
{ int arr[F(__is_final(PotentiallyFinal<float>))]; }
{ int arr[F(__is_final(PotentiallySealed<float>))]; }
}
void is_sealed()
{
{ int arr[T(__is_sealed(SealedClass))]; }
{ int arr[T(__is_sealed(PotentiallySealed<float*>))]; }
{ int arr[T(__is_sealed(PotentiallySealed<int>))]; }
{ int arr[T(__is_sealed(FinalClass))]; }
{ int arr[T(__is_sealed(PotentiallyFinal<float*>))]; }
{ int arr[T(__is_sealed(PotentiallyFinal<int>))]; }
{ int arr[F(__is_sealed(int))]; }
{ int arr[F(__is_sealed(Union))]; }
{ int arr[F(__is_sealed(Int))]; }
{ int arr[F(__is_sealed(IntAr))]; }
{ int arr[F(__is_sealed(UnionAr))]; }
{ int arr[F(__is_sealed(Derives))]; }
{ int arr[F(__is_sealed(ClassType))]; }
{ int arr[F(__is_sealed(cvoid))]; }
{ int arr[F(__is_sealed(IntArNB))]; }
{ int arr[F(__is_sealed(HasAnonymousUnion))]; }
{ int arr[F(__is_sealed(PotentiallyFinal<float>))]; }
{ int arr[F(__is_sealed(PotentiallySealed<float>))]; }
}
typedef HasVirt Polymorph;
struct InheritPolymorph : Polymorph {};
void is_polymorphic()
{
{ int arr[T(__is_polymorphic(Polymorph))]; }
{ int arr[T(__is_polymorphic(InheritPolymorph))]; }
{ int arr[F(__is_polymorphic(int))]; }
{ int arr[F(__is_polymorphic(Union))]; }
{ int arr[F(__is_polymorphic(IncompleteUnion))]; }
{ int arr[F(__is_polymorphic(Int))]; }
{ int arr[F(__is_polymorphic(IntAr))]; }
{ int arr[F(__is_polymorphic(UnionAr))]; }
{ int arr[F(__is_polymorphic(Derives))]; }
{ int arr[F(__is_polymorphic(ClassType))]; }
{ int arr[F(__is_polymorphic(Enum))]; }
{ int arr[F(__is_polymorphic(cvoid))]; }
{ int arr[F(__is_polymorphic(IntArNB))]; }
}
void is_integral()
{
int t01[T(__is_integral(bool))];
int t02[T(__is_integral(char))];
int t03[T(__is_integral(signed char))];
int t04[T(__is_integral(unsigned char))];
//int t05[T(__is_integral(char16_t))];
//int t06[T(__is_integral(char32_t))];
int t07[T(__is_integral(wchar_t))];
int t08[T(__is_integral(short))];
int t09[T(__is_integral(unsigned short))];
int t10[T(__is_integral(int))];
int t11[T(__is_integral(unsigned int))];
int t12[T(__is_integral(long))];
int t13[T(__is_integral(unsigned long))];
int t21[F(__is_integral(float))];
int t22[F(__is_integral(double))];
int t23[F(__is_integral(long double))];
int t24[F(__is_integral(Union))];
int t25[F(__is_integral(UnionAr))];
int t26[F(__is_integral(Derives))];
int t27[F(__is_integral(ClassType))];
int t28[F(__is_integral(Enum))];
int t29[F(__is_integral(void))];
int t30[F(__is_integral(cvoid))];
int t31[F(__is_integral(IntArNB))];
}
void is_floating_point()
{
int t01[T(__is_floating_point(float))];
int t02[T(__is_floating_point(double))];
int t03[T(__is_floating_point(long double))];
int t11[F(__is_floating_point(bool))];
int t12[F(__is_floating_point(char))];
int t13[F(__is_floating_point(signed char))];
int t14[F(__is_floating_point(unsigned char))];
//int t15[F(__is_floating_point(char16_t))];
//int t16[F(__is_floating_point(char32_t))];
int t17[F(__is_floating_point(wchar_t))];
int t18[F(__is_floating_point(short))];
int t19[F(__is_floating_point(unsigned short))];
int t20[F(__is_floating_point(int))];
int t21[F(__is_floating_point(unsigned int))];
int t22[F(__is_floating_point(long))];
int t23[F(__is_floating_point(unsigned long))];
int t24[F(__is_floating_point(Union))];
int t25[F(__is_floating_point(UnionAr))];
int t26[F(__is_floating_point(Derives))];
int t27[F(__is_floating_point(ClassType))];
int t28[F(__is_floating_point(Enum))];
int t29[F(__is_floating_point(void))];
int t30[F(__is_floating_point(cvoid))];
int t31[F(__is_floating_point(IntArNB))];
}
template <class T>
struct AggregateTemplate {
T value;
};
template <class T>
struct NonAggregateTemplate {
T value;
NonAggregateTemplate();
};
void is_aggregate()
{
constexpr bool TrueAfterCpp11 = __cplusplus > 201103L;
constexpr bool TrueAfterCpp14 = __cplusplus > 201402L;
__is_aggregate(AnIncompleteType); // expected-error {{incomplete type}}
__is_aggregate(AnIncompleteType[]); // expected-error {{incomplete type}}
__is_aggregate(AnIncompleteType[1]); // expected-error {{incomplete type}}
__is_aggregate(AnIncompleteTypeAr); // expected-error {{incomplete type}}
__is_aggregate(AnIncompleteTypeArNB); // expected-error {{incomplete type}}
__is_aggregate(AnIncompleteTypeArMB); // expected-error {{incomplete type}}
__is_aggregate(IncompleteUnion); // expected-error {{incomplete type}}
static_assert(!__is_aggregate(NonPOD), "");
static_assert(__is_aggregate(NonPODAr), "");
static_assert(__is_aggregate(NonPODArNB), "");
static_assert(__is_aggregate(NonPODArMB), "");
static_assert(!__is_aggregate(Enum), "");
static_assert(__is_aggregate(POD), "");
static_assert(__is_aggregate(Empty), "");
static_assert(__is_aggregate(EmptyAr), "");
static_assert(__is_aggregate(EmptyArNB), "");
static_assert(__is_aggregate(EmptyArMB), "");
static_assert(!__is_aggregate(void), "");
static_assert(!__is_aggregate(const volatile void), "");
static_assert(!__is_aggregate(int), "");
static_assert(__is_aggregate(IntAr), "");
static_assert(__is_aggregate(IntArNB), "");
static_assert(__is_aggregate(EmptyUnion), "");
static_assert(__is_aggregate(Union), "");
static_assert(__is_aggregate(Statics), "");
static_assert(__is_aggregate(HasFunc), "");
static_assert(__is_aggregate(HasOp), "");
static_assert(__is_aggregate(HasAssign), "");
static_assert(__is_aggregate(HasAnonymousUnion), "");
static_assert(__is_aggregate(Derives) == TrueAfterCpp14, "");
static_assert(__is_aggregate(DerivesAr), "");
static_assert(__is_aggregate(DerivesArNB), "");
static_assert(!__is_aggregate(HasCons), "");
static_assert(__is_aggregate(HasDefaultCons), "");
static_assert(!__is_aggregate(HasExplicitDefaultCons), "");
static_assert(!__is_aggregate(HasInheritedCons), "");
static_assert(__is_aggregate(HasNoInheritedCons) == TrueAfterCpp14, "");
static_assert(__is_aggregate(HasCopyAssign), "");
static_assert(!__is_aggregate(NonTrivialDefault), "");
static_assert(__is_aggregate(HasDest), "");
static_assert(!__is_aggregate(HasPriv), "");
static_assert(!__is_aggregate(HasProt), "");
static_assert(__is_aggregate(HasRefAggregate), "");
static_assert(__is_aggregate(HasNonPOD), "");
static_assert(!__is_aggregate(HasVirt), "");
static_assert(__is_aggregate(VirtAr), "");
static_assert(__is_aggregate(HasInClassInit) == TrueAfterCpp11, "");
static_assert(!__is_aggregate(HasPrivateBase), "");
static_assert(!__is_aggregate(HasProtectedBase), "");
static_assert(!__is_aggregate(HasVirtBase), "");
static_assert(__is_aggregate(AggregateTemplate<int>), "");
static_assert(!__is_aggregate(NonAggregateTemplate<int>), "");
static_assert(__is_aggregate(Vector), ""); // Extension supported by GCC and Clang
static_assert(__is_aggregate(VectorExt), "");
static_assert(__is_aggregate(ComplexInt), "");
static_assert(__is_aggregate(ComplexFloat), "");
}
void is_arithmetic()
{
int t01[T(__is_arithmetic(float))];
int t02[T(__is_arithmetic(double))];
int t03[T(__is_arithmetic(long double))];
int t11[T(__is_arithmetic(bool))];
int t12[T(__is_arithmetic(char))];
int t13[T(__is_arithmetic(signed char))];
int t14[T(__is_arithmetic(unsigned char))];
//int t15[T(__is_arithmetic(char16_t))];
//int t16[T(__is_arithmetic(char32_t))];
int t17[T(__is_arithmetic(wchar_t))];
int t18[T(__is_arithmetic(short))];
int t19[T(__is_arithmetic(unsigned short))];
int t20[T(__is_arithmetic(int))];
int t21[T(__is_arithmetic(unsigned int))];
int t22[T(__is_arithmetic(long))];
int t23[T(__is_arithmetic(unsigned long))];
int t24[F(__is_arithmetic(Union))];
int t25[F(__is_arithmetic(UnionAr))];
int t26[F(__is_arithmetic(Derives))];
int t27[F(__is_arithmetic(ClassType))];
int t28[F(__is_arithmetic(Enum))];
int t29[F(__is_arithmetic(void))];
int t30[F(__is_arithmetic(cvoid))];
int t31[F(__is_arithmetic(IntArNB))];
}
void is_complete_type()
{
int t01[T(__is_complete_type(float))];
int t02[T(__is_complete_type(double))];
int t03[T(__is_complete_type(long double))];
int t11[T(__is_complete_type(bool))];
int t12[T(__is_complete_type(char))];
int t13[T(__is_complete_type(signed char))];
int t14[T(__is_complete_type(unsigned char))];
//int t15[T(__is_complete_type(char16_t))];
//int t16[T(__is_complete_type(char32_t))];
int t17[T(__is_complete_type(wchar_t))];
int t18[T(__is_complete_type(short))];
int t19[T(__is_complete_type(unsigned short))];
int t20[T(__is_complete_type(int))];
int t21[T(__is_complete_type(unsigned int))];
int t22[T(__is_complete_type(long))];
int t23[T(__is_complete_type(unsigned long))];
int t24[T(__is_complete_type(ACompleteType))];
int t30[F(__is_complete_type(AnIncompleteType))];
}
void is_void()
{
int t01[T(__is_void(void))];
int t02[T(__is_void(cvoid))];
int t10[F(__is_void(float))];
int t11[F(__is_void(double))];
int t12[F(__is_void(long double))];
int t13[F(__is_void(bool))];
int t14[F(__is_void(char))];
int t15[F(__is_void(signed char))];
int t16[F(__is_void(unsigned char))];
int t17[F(__is_void(wchar_t))];
int t18[F(__is_void(short))];
int t19[F(__is_void(unsigned short))];
int t20[F(__is_void(int))];
int t21[F(__is_void(unsigned int))];
int t22[F(__is_void(long))];
int t23[F(__is_void(unsigned long))];
int t24[F(__is_void(Union))];
int t25[F(__is_void(UnionAr))];
int t26[F(__is_void(Derives))];
int t27[F(__is_void(ClassType))];
int t28[F(__is_void(Enum))];
int t29[F(__is_void(IntArNB))];
int t30[F(__is_void(void*))];
int t31[F(__is_void(cvoid*))];
}
void is_array()
{
int t01[T(__is_array(IntAr))];
int t02[T(__is_array(IntArNB))];
int t03[T(__is_array(UnionAr))];
int t10[F(__is_array(void))];
int t11[F(__is_array(cvoid))];
int t12[F(__is_array(float))];
int t13[F(__is_array(double))];
int t14[F(__is_array(long double))];
int t15[F(__is_array(bool))];
int t16[F(__is_array(char))];
int t17[F(__is_array(signed char))];
int t18[F(__is_array(unsigned char))];
int t19[F(__is_array(wchar_t))];
int t20[F(__is_array(short))];
int t21[F(__is_array(unsigned short))];
int t22[F(__is_array(int))];
int t23[F(__is_array(unsigned int))];
int t24[F(__is_array(long))];
int t25[F(__is_array(unsigned long))];
int t26[F(__is_array(Union))];
int t27[F(__is_array(Derives))];
int t28[F(__is_array(ClassType))];
int t29[F(__is_array(Enum))];
int t30[F(__is_array(void*))];
int t31[F(__is_array(cvoid*))];
}
template <typename T> void tmpl_func(T&) {}
template <typename T> struct type_wrapper {
typedef T type;
typedef T* ptrtype;
typedef T& reftype;
};
void is_function()
{
int t01[T(__is_function(type_wrapper<void(void)>::type))];
int t02[T(__is_function(typeof(tmpl_func<int>)))];
typedef void (*ptr_to_func_type)(void);
int t10[F(__is_function(void))];
int t11[F(__is_function(cvoid))];
int t12[F(__is_function(float))];
int t13[F(__is_function(double))];
int t14[F(__is_function(long double))];
int t15[F(__is_function(bool))];
int t16[F(__is_function(char))];
int t17[F(__is_function(signed char))];
int t18[F(__is_function(unsigned char))];
int t19[F(__is_function(wchar_t))];
int t20[F(__is_function(short))];
int t21[F(__is_function(unsigned short))];
int t22[F(__is_function(int))];
int t23[F(__is_function(unsigned int))];
int t24[F(__is_function(long))];
int t25[F(__is_function(unsigned long))];
int t26[F(__is_function(Union))];
int t27[F(__is_function(Derives))];
int t28[F(__is_function(ClassType))];
int t29[F(__is_function(Enum))];
int t30[F(__is_function(void*))];
int t31[F(__is_function(cvoid*))];
int t32[F(__is_function(void(*)()))];
int t33[F(__is_function(ptr_to_func_type))];
int t34[F(__is_function(type_wrapper<void(void)>::ptrtype))];
int t35[F(__is_function(type_wrapper<void(void)>::reftype))];
}
void is_reference()
{
int t01[T(__is_reference(int&))];
int t02[T(__is_reference(const int&))];
int t03[T(__is_reference(void *&))];
int t10[F(__is_reference(int))];
int t11[F(__is_reference(const int))];
int t12[F(__is_reference(void *))];
}
void is_lvalue_reference()
{
int t01[T(__is_lvalue_reference(int&))];
int t02[T(__is_lvalue_reference(void *&))];
int t03[T(__is_lvalue_reference(const int&))];
int t04[T(__is_lvalue_reference(void * const &))];
int t10[F(__is_lvalue_reference(int))];
int t11[F(__is_lvalue_reference(const int))];
int t12[F(__is_lvalue_reference(void *))];
}
#if __has_feature(cxx_rvalue_references)
void is_rvalue_reference()
{
int t01[T(__is_rvalue_reference(const int&&))];
int t02[T(__is_rvalue_reference(void * const &&))];
int t10[F(__is_rvalue_reference(int&))];
int t11[F(__is_rvalue_reference(void *&))];
int t12[F(__is_rvalue_reference(const int&))];
int t13[F(__is_rvalue_reference(void * const &))];
int t14[F(__is_rvalue_reference(int))];
int t15[F(__is_rvalue_reference(const int))];
int t16[F(__is_rvalue_reference(void *))];
}
#endif
void is_fundamental()
{
int t01[T(__is_fundamental(float))];
int t02[T(__is_fundamental(double))];
int t03[T(__is_fundamental(long double))];
int t11[T(__is_fundamental(bool))];
int t12[T(__is_fundamental(char))];
int t13[T(__is_fundamental(signed char))];
int t14[T(__is_fundamental(unsigned char))];
//int t15[T(__is_fundamental(char16_t))];
//int t16[T(__is_fundamental(char32_t))];
int t17[T(__is_fundamental(wchar_t))];
int t18[T(__is_fundamental(short))];
int t19[T(__is_fundamental(unsigned short))];
int t20[T(__is_fundamental(int))];
int t21[T(__is_fundamental(unsigned int))];
int t22[T(__is_fundamental(long))];
int t23[T(__is_fundamental(unsigned long))];
int t24[T(__is_fundamental(void))];
int t25[T(__is_fundamental(cvoid))];
int t30[F(__is_fundamental(Union))];
int t31[F(__is_fundamental(UnionAr))];
int t32[F(__is_fundamental(Derives))];
int t33[F(__is_fundamental(ClassType))];
int t34[F(__is_fundamental(Enum))];
int t35[F(__is_fundamental(IntArNB))];
}
void is_object()
{
int t01[T(__is_object(int))];
int t02[T(__is_object(int *))];
int t03[T(__is_object(void *))];
int t04[T(__is_object(Union))];
int t05[T(__is_object(UnionAr))];
int t06[T(__is_object(ClassType))];
int t07[T(__is_object(Enum))];
int t10[F(__is_object(type_wrapper<void(void)>::type))];
int t11[F(__is_object(int&))];
int t12[F(__is_object(void))];
}
void is_scalar()
{
int t01[T(__is_scalar(float))];
int t02[T(__is_scalar(double))];
int t03[T(__is_scalar(long double))];
int t04[T(__is_scalar(bool))];
int t05[T(__is_scalar(char))];
int t06[T(__is_scalar(signed char))];
int t07[T(__is_scalar(unsigned char))];
int t08[T(__is_scalar(wchar_t))];
int t09[T(__is_scalar(short))];
int t10[T(__is_scalar(unsigned short))];
int t11[T(__is_scalar(int))];
int t12[T(__is_scalar(unsigned int))];
int t13[T(__is_scalar(long))];
int t14[T(__is_scalar(unsigned long))];
int t15[T(__is_scalar(Enum))];
int t16[T(__is_scalar(void*))];
int t17[T(__is_scalar(cvoid*))];
int t20[F(__is_scalar(void))];
int t21[F(__is_scalar(cvoid))];
int t22[F(__is_scalar(Union))];
int t23[F(__is_scalar(UnionAr))];
int t24[F(__is_scalar(Derives))];
int t25[F(__is_scalar(ClassType))];
int t26[F(__is_scalar(IntArNB))];
}
struct StructWithMembers {
int member;
void method() {}
};
void is_compound()
{
int t01[T(__is_compound(void*))];
int t02[T(__is_compound(cvoid*))];
int t03[T(__is_compound(void (*)()))];
int t04[T(__is_compound(int StructWithMembers::*))];
int t05[T(__is_compound(void (StructWithMembers::*)()))];
int t06[T(__is_compound(int&))];
int t07[T(__is_compound(Union))];
int t08[T(__is_compound(UnionAr))];
int t09[T(__is_compound(Derives))];
int t10[T(__is_compound(ClassType))];
int t11[T(__is_compound(IntArNB))];
int t12[T(__is_compound(Enum))];
int t20[F(__is_compound(float))];
int t21[F(__is_compound(double))];
int t22[F(__is_compound(long double))];
int t23[F(__is_compound(bool))];
int t24[F(__is_compound(char))];
int t25[F(__is_compound(signed char))];
int t26[F(__is_compound(unsigned char))];
int t27[F(__is_compound(wchar_t))];
int t28[F(__is_compound(short))];
int t29[F(__is_compound(unsigned short))];
int t30[F(__is_compound(int))];
int t31[F(__is_compound(unsigned int))];
int t32[F(__is_compound(long))];
int t33[F(__is_compound(unsigned long))];
int t34[F(__is_compound(void))];
int t35[F(__is_compound(cvoid))];
}
void is_pointer()
{
StructWithMembers x;
int t01[T(__is_pointer(void*))];
int t02[T(__is_pointer(cvoid*))];
int t03[T(__is_pointer(cvoid*))];
int t04[T(__is_pointer(char*))];
int t05[T(__is_pointer(int*))];
int t06[T(__is_pointer(int**))];
int t07[T(__is_pointer(ClassType*))];
int t08[T(__is_pointer(Derives*))];
int t09[T(__is_pointer(Enum*))];
int t10[T(__is_pointer(IntArNB*))];
int t11[T(__is_pointer(Union*))];
int t12[T(__is_pointer(UnionAr*))];
int t13[T(__is_pointer(StructWithMembers*))];
int t14[T(__is_pointer(void (*)()))];
int t20[F(__is_pointer(void))];
int t21[F(__is_pointer(cvoid))];
int t22[F(__is_pointer(cvoid))];
int t23[F(__is_pointer(char))];
int t24[F(__is_pointer(int))];
int t25[F(__is_pointer(int))];
int t26[F(__is_pointer(ClassType))];
int t27[F(__is_pointer(Derives))];
int t28[F(__is_pointer(Enum))];
int t29[F(__is_pointer(IntArNB))];
int t30[F(__is_pointer(Union))];
int t31[F(__is_pointer(UnionAr))];
int t32[F(__is_pointer(StructWithMembers))];
int t33[F(__is_pointer(int StructWithMembers::*))];
int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
}
void is_member_object_pointer()
{
StructWithMembers x;
int t01[T(__is_member_object_pointer(int StructWithMembers::*))];
int t10[F(__is_member_object_pointer(void (StructWithMembers::*) ()))];
int t11[F(__is_member_object_pointer(void*))];
int t12[F(__is_member_object_pointer(cvoid*))];
int t13[F(__is_member_object_pointer(cvoid*))];
int t14[F(__is_member_object_pointer(char*))];
int t15[F(__is_member_object_pointer(int*))];
int t16[F(__is_member_object_pointer(int**))];
int t17[F(__is_member_object_pointer(ClassType*))];
int t18[F(__is_member_object_pointer(Derives*))];
int t19[F(__is_member_object_pointer(Enum*))];
int t20[F(__is_member_object_pointer(IntArNB*))];
int t21[F(__is_member_object_pointer(Union*))];
int t22[F(__is_member_object_pointer(UnionAr*))];
int t23[F(__is_member_object_pointer(StructWithMembers*))];
int t24[F(__is_member_object_pointer(void))];
int t25[F(__is_member_object_pointer(cvoid))];
int t26[F(__is_member_object_pointer(cvoid))];
int t27[F(__is_member_object_pointer(char))];
int t28[F(__is_member_object_pointer(int))];
int t29[F(__is_member_object_pointer(int))];
int t30[F(__is_member_object_pointer(ClassType))];
int t31[F(__is_member_object_pointer(Derives))];
int t32[F(__is_member_object_pointer(Enum))];
int t33[F(__is_member_object_pointer(IntArNB))];
int t34[F(__is_member_object_pointer(Union))];
int t35[F(__is_member_object_pointer(UnionAr))];
int t36[F(__is_member_object_pointer(StructWithMembers))];
int t37[F(__is_member_object_pointer(void (*)()))];
}
void is_member_function_pointer()
{
StructWithMembers x;
int t01[T(__is_member_function_pointer(void (StructWithMembers::*) ()))];
int t10[F(__is_member_function_pointer(int StructWithMembers::*))];
int t11[F(__is_member_function_pointer(void*))];
int t12[F(__is_member_function_pointer(cvoid*))];
int t13[F(__is_member_function_pointer(cvoid*))];
int t14[F(__is_member_function_pointer(char*))];
int t15[F(__is_member_function_pointer(int*))];
int t16[F(__is_member_function_pointer(int**))];
int t17[F(__is_member_function_pointer(ClassType*))];
int t18[F(__is_member_function_pointer(Derives*))];
int t19[F(__is_member_function_pointer(Enum*))];
int t20[F(__is_member_function_pointer(IntArNB*))];
int t21[F(__is_member_function_pointer(Union*))];
int t22[F(__is_member_function_pointer(UnionAr*))];
int t23[F(__is_member_function_pointer(StructWithMembers*))];
int t24[F(__is_member_function_pointer(void))];
int t25[F(__is_member_function_pointer(cvoid))];
int t26[F(__is_member_function_pointer(cvoid))];
int t27[F(__is_member_function_pointer(char))];
int t28[F(__is_member_function_pointer(int))];
int t29[F(__is_member_function_pointer(int))];
int t30[F(__is_member_function_pointer(ClassType))];
int t31[F(__is_member_function_pointer(Derives))];
int t32[F(__is_member_function_pointer(Enum))];
int t33[F(__is_member_function_pointer(IntArNB))];
int t34[F(__is_member_function_pointer(Union))];
int t35[F(__is_member_function_pointer(UnionAr))];
int t36[F(__is_member_function_pointer(StructWithMembers))];
int t37[F(__is_member_function_pointer(void (*)()))];
}
void is_member_pointer()
{
StructWithMembers x;
int t01[T(__is_member_pointer(int StructWithMembers::*))];
int t02[T(__is_member_pointer(void (StructWithMembers::*) ()))];
int t10[F(__is_member_pointer(void*))];
int t11[F(__is_member_pointer(cvoid*))];
int t12[F(__is_member_pointer(cvoid*))];
int t13[F(__is_member_pointer(char*))];
int t14[F(__is_member_pointer(int*))];
int t15[F(__is_member_pointer(int**))];
int t16[F(__is_member_pointer(ClassType*))];
int t17[F(__is_member_pointer(Derives*))];
int t18[F(__is_member_pointer(Enum*))];
int t19[F(__is_member_pointer(IntArNB*))];
int t20[F(__is_member_pointer(Union*))];
int t21[F(__is_member_pointer(UnionAr*))];
int t22[F(__is_member_pointer(StructWithMembers*))];
int t23[F(__is_member_pointer(void))];
int t24[F(__is_member_pointer(cvoid))];
int t25[F(__is_member_pointer(cvoid))];
int t26[F(__is_member_pointer(char))];
int t27[F(__is_member_pointer(int))];
int t28[F(__is_member_pointer(int))];
int t29[F(__is_member_pointer(ClassType))];
int t30[F(__is_member_pointer(Derives))];
int t31[F(__is_member_pointer(Enum))];
int t32[F(__is_member_pointer(IntArNB))];
int t33[F(__is_member_pointer(Union))];
int t34[F(__is_member_pointer(UnionAr))];
int t35[F(__is_member_pointer(StructWithMembers))];
int t36[F(__is_member_pointer(void (*)()))];
}
void is_const()
{
int t01[T(__is_const(cvoid))];
int t02[T(__is_const(const char))];
int t03[T(__is_const(const int))];
int t04[T(__is_const(const long))];
int t05[T(__is_const(const short))];
int t06[T(__is_const(const signed char))];
int t07[T(__is_const(const wchar_t))];
int t08[T(__is_const(const bool))];
int t09[T(__is_const(const float))];
int t10[T(__is_const(const double))];
int t11[T(__is_const(const long double))];
int t12[T(__is_const(const unsigned char))];
int t13[T(__is_const(const unsigned int))];
int t14[T(__is_const(const unsigned long long))];
int t15[T(__is_const(const unsigned long))];
int t16[T(__is_const(const unsigned short))];
int t17[T(__is_const(const void))];
int t18[T(__is_const(const ClassType))];
int t19[T(__is_const(const Derives))];
int t20[T(__is_const(const Enum))];
int t21[T(__is_const(const IntArNB))];
int t22[T(__is_const(const Union))];
int t23[T(__is_const(const UnionAr))];
int t30[F(__is_const(char))];
int t31[F(__is_const(int))];
int t32[F(__is_const(long))];
int t33[F(__is_const(short))];
int t34[F(__is_const(signed char))];
int t35[F(__is_const(wchar_t))];
int t36[F(__is_const(bool))];
int t37[F(__is_const(float))];
int t38[F(__is_const(double))];
int t39[F(__is_const(long double))];
int t40[F(__is_const(unsigned char))];
int t41[F(__is_const(unsigned int))];
int t42[F(__is_const(unsigned long long))];
int t43[F(__is_const(unsigned long))];
int t44[F(__is_const(unsigned short))];
int t45[F(__is_const(void))];
int t46[F(__is_const(ClassType))];
int t47[F(__is_const(Derives))];
int t48[F(__is_const(Enum))];
int t49[F(__is_const(IntArNB))];
int t50[F(__is_const(Union))];
int t51[F(__is_const(UnionAr))];
}
void is_volatile()
{
int t02[T(__is_volatile(volatile char))];
int t03[T(__is_volatile(volatile int))];
int t04[T(__is_volatile(volatile long))];
int t05[T(__is_volatile(volatile short))];
int t06[T(__is_volatile(volatile signed char))];
int t07[T(__is_volatile(volatile wchar_t))];
int t08[T(__is_volatile(volatile bool))];
int t09[T(__is_volatile(volatile float))];
int t10[T(__is_volatile(volatile double))];
int t11[T(__is_volatile(volatile long double))];
int t12[T(__is_volatile(volatile unsigned char))];
int t13[T(__is_volatile(volatile unsigned int))];
int t14[T(__is_volatile(volatile unsigned long long))];
int t15[T(__is_volatile(volatile unsigned long))];
int t16[T(__is_volatile(volatile unsigned short))];
int t17[T(__is_volatile(volatile void))];
int t18[T(__is_volatile(volatile ClassType))];
int t19[T(__is_volatile(volatile Derives))];
int t20[T(__is_volatile(volatile Enum))];
int t21[T(__is_volatile(volatile IntArNB))];
int t22[T(__is_volatile(volatile Union))];
int t23[T(__is_volatile(volatile UnionAr))];
int t30[F(__is_volatile(char))];
int t31[F(__is_volatile(int))];
int t32[F(__is_volatile(long))];
int t33[F(__is_volatile(short))];
int t34[F(__is_volatile(signed char))];
int t35[F(__is_volatile(wchar_t))];
int t36[F(__is_volatile(bool))];
int t37[F(__is_volatile(float))];
int t38[F(__is_volatile(double))];
int t39[F(__is_volatile(long double))];
int t40[F(__is_volatile(unsigned char))];
int t41[F(__is_volatile(unsigned int))];
int t42[F(__is_volatile(unsigned long long))];
int t43[F(__is_volatile(unsigned long))];
int t44[F(__is_volatile(unsigned short))];
int t45[F(__is_volatile(void))];
int t46[F(__is_volatile(ClassType))];
int t47[F(__is_volatile(Derives))];
int t48[F(__is_volatile(Enum))];
int t49[F(__is_volatile(IntArNB))];
int t50[F(__is_volatile(Union))];
int t51[F(__is_volatile(UnionAr))];
}
struct TrivialStruct {
int member;
};
struct NonTrivialStruct {
int member;
NonTrivialStruct() {
member = 0;
}
};
struct SuperNonTrivialStruct {
SuperNonTrivialStruct() { }
~SuperNonTrivialStruct() { }
};
struct NonTCStruct {
NonTCStruct(const NonTCStruct&) {}
};
struct AllDefaulted {
AllDefaulted() = default;
AllDefaulted(const AllDefaulted &) = default;
AllDefaulted(AllDefaulted &&) = default;
AllDefaulted &operator=(const AllDefaulted &) = default;
AllDefaulted &operator=(AllDefaulted &&) = default;
~AllDefaulted() = default;
};
struct NoDefaultMoveAssignDueToUDCopyCtor {
NoDefaultMoveAssignDueToUDCopyCtor(const NoDefaultMoveAssignDueToUDCopyCtor&);
};
struct NoDefaultMoveAssignDueToUDCopyAssign {
NoDefaultMoveAssignDueToUDCopyAssign& operator=(
const NoDefaultMoveAssignDueToUDCopyAssign&);
};
struct NoDefaultMoveAssignDueToDtor {
~NoDefaultMoveAssignDueToDtor();
};
struct AllDeleted {
AllDeleted() = delete;
AllDeleted(const AllDeleted &) = delete;
AllDeleted(AllDeleted &&) = delete;
AllDeleted &operator=(const AllDeleted &) = delete;
AllDeleted &operator=(AllDeleted &&) = delete;
~AllDeleted() = delete;
};
struct ExtDefaulted {
ExtDefaulted();
ExtDefaulted(const ExtDefaulted &);
ExtDefaulted(ExtDefaulted &&);
ExtDefaulted &operator=(const ExtDefaulted &);
ExtDefaulted &operator=(ExtDefaulted &&);
~ExtDefaulted();
};
// Despite being defaulted, these functions are not trivial.
ExtDefaulted::ExtDefaulted() = default;
ExtDefaulted::ExtDefaulted(const ExtDefaulted &) = default;
ExtDefaulted::ExtDefaulted(ExtDefaulted &&) = default;
ExtDefaulted &ExtDefaulted::operator=(const ExtDefaulted &) = default;
ExtDefaulted &ExtDefaulted::operator=(ExtDefaulted &&) = default;
ExtDefaulted::~ExtDefaulted() = default;
void is_trivial2()
{
int t01[T(__is_trivial(char))];
int t02[T(__is_trivial(int))];
int t03[T(__is_trivial(long))];
int t04[T(__is_trivial(short))];
int t05[T(__is_trivial(signed char))];
int t06[T(__is_trivial(wchar_t))];
int t07[T(__is_trivial(bool))];
int t08[T(__is_trivial(float))];
int t09[T(__is_trivial(double))];
int t10[T(__is_trivial(long double))];
int t11[T(__is_trivial(unsigned char))];
int t12[T(__is_trivial(unsigned int))];
int t13[T(__is_trivial(unsigned long long))];
int t14[T(__is_trivial(unsigned long))];
int t15[T(__is_trivial(unsigned short))];
int t16[T(__is_trivial(ClassType))];
int t17[T(__is_trivial(Derives))];
int t18[T(__is_trivial(Enum))];
int t19[T(__is_trivial(IntAr))];
int t20[T(__is_trivial(Union))];
int t21[T(__is_trivial(UnionAr))];
int t22[T(__is_trivial(TrivialStruct))];
int t23[T(__is_trivial(AllDefaulted))];
int t24[T(__is_trivial(AllDeleted))];
int t30[F(__is_trivial(void))];
int t31[F(__is_trivial(NonTrivialStruct))];
int t32[F(__is_trivial(SuperNonTrivialStruct))];
int t33[F(__is_trivial(NonTCStruct))];
int t34[F(__is_trivial(ExtDefaulted))];
int t40[T(__is_trivial(ACompleteType))];
int t41[F(__is_trivial(AnIncompleteType))]; // expected-error {{incomplete type}}
int t42[F(__is_trivial(AnIncompleteType[]))]; // expected-error {{incomplete type}}
int t43[F(__is_trivial(AnIncompleteType[1]))]; // expected-error {{incomplete type}}
int t44[F(__is_trivial(void))];
int t45[F(__is_trivial(const volatile void))];
}
void is_trivially_copyable2()
{
int t01[T(__is_trivially_copyable(char))];
int t02[T(__is_trivially_copyable(int))];
int t03[T(__is_trivially_copyable(long))];
int t04[T(__is_trivially_copyable(short))];
int t05[T(__is_trivially_copyable(signed char))];
int t06[T(__is_trivially_copyable(wchar_t))];
int t07[T(__is_trivially_copyable(bool))];
int t08[T(__is_trivially_copyable(float))];
int t09[T(__is_trivially_copyable(double))];
int t10[T(__is_trivially_copyable(long double))];
int t11[T(__is_trivially_copyable(unsigned char))];
int t12[T(__is_trivially_copyable(unsigned int))];
int t13[T(__is_trivially_copyable(unsigned long long))];
int t14[T(__is_trivially_copyable(unsigned long))];
int t15[T(__is_trivially_copyable(unsigned short))];
int t16[T(__is_trivially_copyable(ClassType))];
int t17[T(__is_trivially_copyable(Derives))];
int t18[T(__is_trivially_copyable(Enum))];
int t19[T(__is_trivially_copyable(IntAr))];
int t20[T(__is_trivially_copyable(Union))];
int t21[T(__is_trivially_copyable(UnionAr))];
int t22[T(__is_trivially_copyable(TrivialStruct))];
int t23[T(__is_trivially_copyable(NonTrivialStruct))];
int t24[T(__is_trivially_copyable(AllDefaulted))];
int t25[T(__is_trivially_copyable(AllDeleted))];
int t30[F(__is_trivially_copyable(void))];
int t31[F(__is_trivially_copyable(SuperNonTrivialStruct))];
int t32[F(__is_trivially_copyable(NonTCStruct))];
int t33[F(__is_trivially_copyable(ExtDefaulted))];
int t34[T(__is_trivially_copyable(const int))];
int t35[T(__is_trivially_copyable(volatile int))];
int t40[T(__is_trivially_copyable(ACompleteType))];
int t41[F(__is_trivially_copyable(AnIncompleteType))]; // expected-error {{incomplete type}}
int t42[F(__is_trivially_copyable(AnIncompleteType[]))]; // expected-error {{incomplete type}}
int t43[F(__is_trivially_copyable(AnIncompleteType[1]))]; // expected-error {{incomplete type}}
int t44[F(__is_trivially_copyable(void))];
int t45[F(__is_trivially_copyable(const volatile void))];
}
struct CStruct {
int one;
int two;
};
struct CEmptyStruct {};
struct CppEmptyStruct : CStruct {};
struct CppStructStandard : CEmptyStruct {
int three;
int four;
};
struct CppStructNonStandardByBase : CStruct {
int three;
int four;
};
struct CppStructNonStandardByVirt : CStruct {
virtual void method() {}
};
struct CppStructNonStandardByMemb : CStruct {
CppStructNonStandardByVirt member;
};
struct CppStructNonStandardByProt : CStruct {
int five;
protected:
int six;
};
struct CppStructNonStandardByVirtBase : virtual CStruct {
};
struct CppStructNonStandardBySameBase : CEmptyStruct {
CEmptyStruct member;
};
struct CppStructNonStandardBy2ndVirtBase : CEmptyStruct {
CEmptyStruct member;
};
void is_standard_layout()
{
typedef const int ConstInt;
typedef ConstInt ConstIntAr[4];
typedef CppStructStandard CppStructStandardAr[4];
int t01[T(__is_standard_layout(int))];
int t02[T(__is_standard_layout(ConstInt))];
int t03[T(__is_standard_layout(ConstIntAr))];
int t04[T(__is_standard_layout(CStruct))];
int t05[T(__is_standard_layout(CppStructStandard))];
int t06[T(__is_standard_layout(CppStructStandardAr))];
int t07[T(__is_standard_layout(Vector))];
int t08[T(__is_standard_layout(VectorExt))];
typedef CppStructNonStandardByBase CppStructNonStandardByBaseAr[4];
int t10[F(__is_standard_layout(CppStructNonStandardByVirt))];
int t11[F(__is_standard_layout(CppStructNonStandardByMemb))];
int t12[F(__is_standard_layout(CppStructNonStandardByProt))];
int t13[F(__is_standard_layout(CppStructNonStandardByVirtBase))];
int t14[F(__is_standard_layout(CppStructNonStandardByBase))];
int t15[F(__is_standard_layout(CppStructNonStandardByBaseAr))];
int t16[F(__is_standard_layout(CppStructNonStandardBySameBase))];
int t17[F(__is_standard_layout(CppStructNonStandardBy2ndVirtBase))];
int t40[T(__is_standard_layout(ACompleteType))];
int t41[F(__is_standard_layout(AnIncompleteType))]; // expected-error {{incomplete type}}
int t42[F(__is_standard_layout(AnIncompleteType[]))]; // expected-error {{incomplete type}}
int t43[F(__is_standard_layout(AnIncompleteType[1]))]; // expected-error {{incomplete type}}
int t44[F(__is_standard_layout(void))];
int t45[F(__is_standard_layout(const volatile void))];
}
void is_signed()
{
//int t01[T(__is_signed(char))];
int t02[T(__is_signed(int))];
int t03[T(__is_signed(long))];
int t04[T(__is_signed(short))];
int t05[T(__is_signed(signed char))];
int t06[T(__is_signed(wchar_t))];
int t10[F(__is_signed(bool))];
int t11[F(__is_signed(cvoid))];
int t12[F(__is_signed(float))];
int t13[F(__is_signed(double))];
int t14[F(__is_signed(long double))];
int t15[F(__is_signed(unsigned char))];
int t16[F(__is_signed(unsigned int))];
int t17[F(__is_signed(unsigned long long))];
int t18[F(__is_signed(unsigned long))];
int t19[F(__is_signed(unsigned short))];
int t20[F(__is_signed(void))];
int t21[F(__is_signed(ClassType))];
int t22[F(__is_signed(Derives))];
int t23[F(__is_signed(Enum))];
int t24[F(__is_signed(IntArNB))];
int t25[F(__is_signed(Union))];
int t26[F(__is_signed(UnionAr))];
}
void is_unsigned()
{
int t01[T(__is_unsigned(bool))];
int t02[T(__is_unsigned(unsigned char))];
int t03[T(__is_unsigned(unsigned short))];
int t04[T(__is_unsigned(unsigned int))];
int t05[T(__is_unsigned(unsigned long))];
int t06[T(__is_unsigned(unsigned long long))];
int t07[T(__is_unsigned(Enum))];
int t10[F(__is_unsigned(void))];
int t11[F(__is_unsigned(cvoid))];
int t12[F(__is_unsigned(float))];
int t13[F(__is_unsigned(double))];
int t14[F(__is_unsigned(long double))];
int t16[F(__is_unsigned(char))];
int t17[F(__is_unsigned(signed char))];
int t18[F(__is_unsigned(wchar_t))];
int t19[F(__is_unsigned(short))];
int t20[F(__is_unsigned(int))];
int t21[F(__is_unsigned(long))];
int t22[F(__is_unsigned(Union))];
int t23[F(__is_unsigned(UnionAr))];
int t24[F(__is_unsigned(Derives))];
int t25[F(__is_unsigned(ClassType))];
int t26[F(__is_unsigned(IntArNB))];
}
typedef Int& IntRef;
typedef const IntAr ConstIntAr;
typedef ConstIntAr ConstIntArAr[4];
struct HasCopy {
HasCopy(HasCopy& cp);
};
struct HasMove {
HasMove(HasMove&& cp);
};
struct HasTemplateCons {
HasVirt Annoying;
template <typename T>
HasTemplateCons(const T&);
};
void has_trivial_default_constructor() {
{ int arr[T(__has_trivial_constructor(Int))]; }
{ int arr[T(__has_trivial_constructor(IntAr))]; }
{ int arr[T(__has_trivial_constructor(Union))]; }
{ int arr[T(__has_trivial_constructor(UnionAr))]; }
{ int arr[T(__has_trivial_constructor(POD))]; }
{ int arr[T(__has_trivial_constructor(Derives))]; }
{ int arr[T(__has_trivial_constructor(DerivesAr))]; }
{ int arr[T(__has_trivial_constructor(ConstIntAr))]; }
{ int arr[T(__has_trivial_constructor(ConstIntArAr))]; }
{ int arr[T(__has_trivial_constructor(HasDest))]; }
{ int arr[T(__has_trivial_constructor(HasPriv))]; }
{ int arr[T(__has_trivial_constructor(HasCopyAssign))]; }
{ int arr[T(__has_trivial_constructor(HasMoveAssign))]; }
{ int arr[T(__has_trivial_constructor(const Int))]; }
{ int arr[T(__has_trivial_constructor(AllDefaulted))]; }
{ int arr[T(__has_trivial_constructor(AllDeleted))]; }
{ int arr[T(__has_trivial_constructor(ACompleteType[]))]; }
{ int arr[F(__has_trivial_constructor(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_constructor(HasCons))]; }
{ int arr[F(__has_trivial_constructor(HasRef))]; }
{ int arr[F(__has_trivial_constructor(HasCopy))]; }
{ int arr[F(__has_trivial_constructor(IntRef))]; }
{ int arr[F(__has_trivial_constructor(VirtAr))]; }
{ int arr[F(__has_trivial_constructor(void))]; }
{ int arr[F(__has_trivial_constructor(cvoid))]; }
{ int arr[F(__has_trivial_constructor(HasTemplateCons))]; }
{ int arr[F(__has_trivial_constructor(AllPrivate))]; }
{ int arr[F(__has_trivial_constructor(ExtDefaulted))]; }
}
void has_trivial_move_constructor() {
// n3376 12.8 [class.copy]/12
// A copy/move constructor for class X is trivial if it is not
// user-provided, its declared parameter type is the same as
// if it had been implicitly declared, and if
// - class X has no virtual functions (10.3) and no virtual
// base classes (10.1), and
// - the constructor selected to copy/move each direct base
// class subobject is trivial, and
// - for each non-static data member of X that is of class
// type (or array thereof), the constructor selected
// to copy/move that member is trivial;
// otherwise the copy/move constructor is non-trivial.
{ int arr[T(__has_trivial_move_constructor(POD))]; }
{ int arr[T(__has_trivial_move_constructor(Union))]; }
{ int arr[T(__has_trivial_move_constructor(HasCons))]; }
{ int arr[T(__has_trivial_move_constructor(HasStaticMemberMoveCtor))]; }
{ int arr[T(__has_trivial_move_constructor(AllDeleted))]; }
{ int arr[T(__has_trivial_move_constructor(ACompleteType[]))]; }
{ int arr[F(__has_trivial_move_constructor(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_move_constructor(HasVirt))]; }
{ int arr[F(__has_trivial_move_constructor(DerivesVirt))]; }
{ int arr[F(__has_trivial_move_constructor(HasMoveCtor))]; }
{ int arr[F(__has_trivial_move_constructor(DerivesHasMoveCtor))]; }
{ int arr[F(__has_trivial_move_constructor(HasMemberMoveCtor))]; }
}
void has_trivial_copy_constructor() {
{ int arr[T(__has_trivial_copy(Int))]; }
{ int arr[T(__has_trivial_copy(IntAr))]; }
{ int arr[T(__has_trivial_copy(Union))]; }
{ int arr[T(__has_trivial_copy(UnionAr))]; }
{ int arr[T(__has_trivial_copy(POD))]; }
{ int arr[T(__has_trivial_copy(Derives))]; }
{ int arr[T(__has_trivial_copy(ConstIntAr))]; }
{ int arr[T(__has_trivial_copy(ConstIntArAr))]; }
{ int arr[T(__has_trivial_copy(HasDest))]; }
{ int arr[T(__has_trivial_copy(HasPriv))]; }
{ int arr[T(__has_trivial_copy(HasCons))]; }
{ int arr[T(__has_trivial_copy(HasRef))]; }
{ int arr[T(__has_trivial_copy(HasMove))]; }
{ int arr[T(__has_trivial_copy(IntRef))]; }
{ int arr[T(__has_trivial_copy(HasCopyAssign))]; }
{ int arr[T(__has_trivial_copy(HasMoveAssign))]; }
{ int arr[T(__has_trivial_copy(const Int))]; }
{ int arr[T(__has_trivial_copy(AllDefaulted))]; }
{ int arr[T(__has_trivial_copy(AllDeleted))]; }
{ int arr[T(__has_trivial_copy(DerivesAr))]; }
{ int arr[T(__has_trivial_copy(DerivesHasRef))]; }
{ int arr[T(__has_trivial_copy(ACompleteType[]))]; }
{ int arr[F(__has_trivial_copy(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_copy(HasCopy))]; }
{ int arr[F(__has_trivial_copy(HasTemplateCons))]; }
{ int arr[F(__has_trivial_copy(VirtAr))]; }
{ int arr[F(__has_trivial_copy(void))]; }
{ int arr[F(__has_trivial_copy(cvoid))]; }
{ int arr[F(__has_trivial_copy(AllPrivate))]; }
{ int arr[F(__has_trivial_copy(ExtDefaulted))]; }
}
void has_trivial_copy_assignment() {
{ int arr[T(__has_trivial_assign(Int))]; }
{ int arr[T(__has_trivial_assign(IntAr))]; }
{ int arr[T(__has_trivial_assign(Union))]; }
{ int arr[T(__has_trivial_assign(UnionAr))]; }
{ int arr[T(__has_trivial_assign(POD))]; }
{ int arr[T(__has_trivial_assign(Derives))]; }
{ int arr[T(__has_trivial_assign(HasDest))]; }
{ int arr[T(__has_trivial_assign(HasPriv))]; }
{ int arr[T(__has_trivial_assign(HasCons))]; }
{ int arr[T(__has_trivial_assign(HasRef))]; }
{ int arr[T(__has_trivial_assign(HasCopy))]; }
{ int arr[T(__has_trivial_assign(HasMove))]; }
{ int arr[T(__has_trivial_assign(HasMoveAssign))]; }
{ int arr[T(__has_trivial_assign(AllDefaulted))]; }
{ int arr[T(__has_trivial_assign(AllDeleted))]; }
{ int arr[T(__has_trivial_assign(DerivesAr))]; }
{ int arr[T(__has_trivial_assign(DerivesHasRef))]; }
{ int arr[T(__has_trivial_assign(ACompleteType[]))]; }
{ int arr[F(__has_trivial_assign(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_assign(IntRef))]; }
{ int arr[F(__has_trivial_assign(HasCopyAssign))]; }
{ int arr[F(__has_trivial_assign(const Int))]; }
{ int arr[F(__has_trivial_assign(ConstIntAr))]; }
{ int arr[F(__has_trivial_assign(ConstIntArAr))]; }
{ int arr[F(__has_trivial_assign(VirtAr))]; }
{ int arr[F(__has_trivial_assign(void))]; }
{ int arr[F(__has_trivial_assign(cvoid))]; }
{ int arr[F(__has_trivial_assign(AllPrivate))]; }
{ int arr[F(__has_trivial_assign(ExtDefaulted))]; }
}
void has_trivial_destructor() {
{ int arr[T(__has_trivial_destructor(Int))]; }
{ int arr[T(__has_trivial_destructor(IntAr))]; }
{ int arr[T(__has_trivial_destructor(Union))]; }
{ int arr[T(__has_trivial_destructor(UnionAr))]; }
{ int arr[T(__has_trivial_destructor(POD))]; }
{ int arr[T(__has_trivial_destructor(Derives))]; }
{ int arr[T(__has_trivial_destructor(ConstIntAr))]; }
{ int arr[T(__has_trivial_destructor(ConstIntArAr))]; }
{ int arr[T(__has_trivial_destructor(HasPriv))]; }
{ int arr[T(__has_trivial_destructor(HasCons))]; }
{ int arr[T(__has_trivial_destructor(HasRef))]; }
{ int arr[T(__has_trivial_destructor(HasCopy))]; }
{ int arr[T(__has_trivial_destructor(HasMove))]; }
{ int arr[T(__has_trivial_destructor(IntRef))]; }
{ int arr[T(__has_trivial_destructor(HasCopyAssign))]; }
{ int arr[T(__has_trivial_destructor(HasMoveAssign))]; }
{ int arr[T(__has_trivial_destructor(const Int))]; }
{ int arr[T(__has_trivial_destructor(DerivesAr))]; }
{ int arr[T(__has_trivial_destructor(VirtAr))]; }
{ int arr[T(__has_trivial_destructor(AllDefaulted))]; }
{ int arr[T(__has_trivial_destructor(AllDeleted))]; }
{ int arr[T(__has_trivial_destructor(DerivesHasRef))]; }
{ int arr[T(__has_trivial_destructor(ACompleteType[]))]; }
{ int arr[F(__has_trivial_destructor(HasDest))]; }
{ int arr[F(__has_trivial_destructor(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_destructor(void))]; }
{ int arr[F(__has_trivial_destructor(cvoid))]; }
{ int arr[F(__has_trivial_destructor(AllPrivate))]; }
{ int arr[F(__has_trivial_destructor(ExtDefaulted))]; }
}
struct A { ~A() {} };
template<typename> struct B : A { };
void f() {
{ int arr[F(__has_trivial_destructor(A))]; }
{ int arr[F(__has_trivial_destructor(B<int>))]; }
}
class PR11110 {
template <int> int operator=( int );
int operator=(PR11110);
};
class UsingAssign;
class UsingAssignBase {
protected:
UsingAssign &operator=(const UsingAssign&) throw();
};
class UsingAssign : public UsingAssignBase {
public:
using UsingAssignBase::operator=;
};
void has_nothrow_assign() {
{ int arr[T(__has_nothrow_assign(Int))]; }
{ int arr[T(__has_nothrow_assign(IntAr))]; }
{ int arr[T(__has_nothrow_assign(Union))]; }
{ int arr[T(__has_nothrow_assign(UnionAr))]; }
{ int arr[T(__has_nothrow_assign(POD))]; }
{ int arr[T(__has_nothrow_assign(Derives))]; }
{ int arr[T(__has_nothrow_assign(HasDest))]; }
{ int arr[T(__has_nothrow_assign(HasPriv))]; }
{ int arr[T(__has_nothrow_assign(HasCons))]; }
{ int arr[T(__has_nothrow_assign(HasRef))]; }
{ int arr[T(__has_nothrow_assign(HasCopy))]; }
{ int arr[T(__has_nothrow_assign(HasMove))]; }
{ int arr[T(__has_nothrow_assign(HasMoveAssign))]; }
{ int arr[T(__has_nothrow_assign(HasNoThrowCopyAssign))]; }
{ int arr[T(__has_nothrow_assign(HasMultipleNoThrowCopyAssign))]; }
{ int arr[T(__has_nothrow_assign(HasVirtDest))]; }
{ int arr[T(__has_nothrow_assign(AllPrivate))]; }
{ int arr[T(__has_nothrow_assign(UsingAssign))]; }
{ int arr[T(__has_nothrow_assign(DerivesAr))]; }
{ int arr[T(__has_nothrow_assign(ACompleteType[]))]; }
{ int arr[F(__has_nothrow_assign(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_nothrow_assign(IntRef))]; }
{ int arr[F(__has_nothrow_assign(HasCopyAssign))]; }
{ int arr[F(__has_nothrow_assign(HasMultipleCopyAssign))]; }
{ int arr[F(__has_nothrow_assign(const Int))]; }
{ int arr[F(__has_nothrow_assign(ConstIntAr))]; }
{ int arr[F(__has_nothrow_assign(ConstIntArAr))]; }
{ int arr[F(__has_nothrow_assign(VirtAr))]; }
{ int arr[F(__has_nothrow_assign(void))]; }
{ int arr[F(__has_nothrow_assign(cvoid))]; }
{ int arr[F(__has_nothrow_assign(PR11110))]; }
}
void has_nothrow_move_assign() {
{ int arr[T(__has_nothrow_move_assign(Int))]; }
{ int arr[T(__has_nothrow_move_assign(Enum))]; }
{ int arr[T(__has_nothrow_move_assign(Int*))]; }
{ int arr[T(__has_nothrow_move_assign(Enum POD::*))]; }
{ int arr[T(__has_nothrow_move_assign(POD))]; }
{ int arr[T(__has_nothrow_move_assign(HasPriv))]; }
{ int arr[T(__has_nothrow_move_assign(HasNoThrowMoveAssign))]; }
{ int arr[T(__has_nothrow_move_assign(HasNoExceptNoThrowMoveAssign))]; }
{ int arr[T(__has_nothrow_move_assign(HasMemberNoThrowMoveAssign))]; }
{ int arr[T(__has_nothrow_move_assign(HasMemberNoExceptNoThrowMoveAssign))]; }
{ int arr[T(__has_nothrow_move_assign(AllDeleted))]; }
{ int arr[T(__has_nothrow_move_assign(ACompleteType[]))]; }
{ int arr[F(__has_nothrow_move_assign(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_nothrow_move_assign(HasThrowMoveAssign))]; }
{ int arr[F(__has_nothrow_move_assign(HasNoExceptFalseMoveAssign))]; }
{ int arr[F(__has_nothrow_move_assign(HasMemberThrowMoveAssign))]; }
{ int arr[F(__has_nothrow_move_assign(HasMemberNoExceptFalseMoveAssign))]; }
{ int arr[F(__has_nothrow_move_assign(NoDefaultMoveAssignDueToUDCopyCtor))]; }
{ int arr[F(__has_nothrow_move_assign(NoDefaultMoveAssignDueToUDCopyAssign))]; }
{ int arr[F(__has_nothrow_move_assign(NoDefaultMoveAssignDueToDtor))]; }
{ int arr[T(__is_nothrow_assignable(HasNoThrowMoveAssign, HasNoThrowMoveAssign))]; }
{ int arr[F(__is_nothrow_assignable(HasThrowMoveAssign, HasThrowMoveAssign))]; }
{ int arr[T(__is_assignable(HasNoThrowMoveAssign, HasNoThrowMoveAssign))]; }
{ int arr[T(__is_assignable(HasThrowMoveAssign, HasThrowMoveAssign))]; }
}
void has_trivial_move_assign() {
// n3376 12.8 [class.copy]/25
// A copy/move assignment operator for class X is trivial if it
// is not user-provided, its declared parameter type is the same
// as if it had been implicitly declared, and if:
// - class X has no virtual functions (10.3) and no virtual base
// classes (10.1), and
// - the assignment operator selected to copy/move each direct
// base class subobject is trivial, and
// - for each non-static data member of X that is of class type
// (or array thereof), the assignment operator
// selected to copy/move that member is trivial;
{ int arr[T(__has_trivial_move_assign(Int))]; }
{ int arr[T(__has_trivial_move_assign(HasStaticMemberMoveAssign))]; }
{ int arr[T(__has_trivial_move_assign(AllDeleted))]; }
{ int arr[T(__has_trivial_move_assign(ACompleteType[]))]; }
{ int arr[F(__has_trivial_move_assign(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_trivial_move_assign(HasVirt))]; }
{ int arr[F(__has_trivial_move_assign(DerivesVirt))]; }
{ int arr[F(__has_trivial_move_assign(HasMoveAssign))]; }
{ int arr[F(__has_trivial_move_assign(DerivesHasMoveAssign))]; }
{ int arr[F(__has_trivial_move_assign(HasMemberMoveAssign))]; }
{ int arr[F(__has_nothrow_move_assign(NoDefaultMoveAssignDueToUDCopyCtor))]; }
{ int arr[F(__has_nothrow_move_assign(NoDefaultMoveAssignDueToUDCopyAssign))]; }
}
void has_nothrow_copy() {
{ int arr[T(__has_nothrow_copy(Int))]; }
{ int arr[T(__has_nothrow_copy(IntAr))]; }
{ int arr[T(__has_nothrow_copy(Union))]; }
{ int arr[T(__has_nothrow_copy(UnionAr))]; }
{ int arr[T(__has_nothrow_copy(POD))]; }
{ int arr[T(__has_nothrow_copy(const Int))]; }
{ int arr[T(__has_nothrow_copy(ConstIntAr))]; }
{ int arr[T(__has_nothrow_copy(ConstIntArAr))]; }
{ int arr[T(__has_nothrow_copy(Derives))]; }
{ int arr[T(__has_nothrow_copy(IntRef))]; }
{ int arr[T(__has_nothrow_copy(HasDest))]; }
{ int arr[T(__has_nothrow_copy(HasPriv))]; }
{ int arr[T(__has_nothrow_copy(HasCons))]; }
{ int arr[T(__has_nothrow_copy(HasRef))]; }
{ int arr[T(__has_nothrow_copy(HasMove))]; }
{ int arr[T(__has_nothrow_copy(HasCopyAssign))]; }
{ int arr[T(__has_nothrow_copy(HasMoveAssign))]; }
{ int arr[T(__has_nothrow_copy(HasNoThrowCopy))]; }
{ int arr[T(__has_nothrow_copy(HasMultipleNoThrowCopy))]; }
{ int arr[T(__has_nothrow_copy(HasVirtDest))]; }
{ int arr[T(__has_nothrow_copy(HasTemplateCons))]; }
{ int arr[T(__has_nothrow_copy(AllPrivate))]; }
{ int arr[T(__has_nothrow_copy(DerivesAr))]; }
{ int arr[T(__has_nothrow_copy(ACompleteType[]))]; }
{ int arr[F(__has_nothrow_copy(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_nothrow_copy(HasCopy))]; }
{ int arr[F(__has_nothrow_copy(HasMultipleCopy))]; }
{ int arr[F(__has_nothrow_copy(VirtAr))]; }
{ int arr[F(__has_nothrow_copy(void))]; }
{ int arr[F(__has_nothrow_copy(cvoid))]; }
}
void has_nothrow_constructor() {
{ int arr[T(__has_nothrow_constructor(Int))]; }
{ int arr[T(__has_nothrow_constructor(IntAr))]; }
{ int arr[T(__has_nothrow_constructor(Union))]; }
{ int arr[T(__has_nothrow_constructor(UnionAr))]; }
{ int arr[T(__has_nothrow_constructor(POD))]; }
{ int arr[T(__has_nothrow_constructor(Derives))]; }
{ int arr[T(__has_nothrow_constructor(DerivesAr))]; }
{ int arr[T(__has_nothrow_constructor(ConstIntAr))]; }
{ int arr[T(__has_nothrow_constructor(ConstIntArAr))]; }
{ int arr[T(__has_nothrow_constructor(HasDest))]; }
{ int arr[T(__has_nothrow_constructor(HasPriv))]; }
{ int arr[T(__has_nothrow_constructor(HasCopyAssign))]; }
{ int arr[T(__has_nothrow_constructor(const Int))]; }
{ int arr[T(__has_nothrow_constructor(HasNoThrowConstructor))]; }
{ int arr[T(__has_nothrow_constructor(HasVirtDest))]; }
// { int arr[T(__has_nothrow_constructor(VirtAr))]; } // not implemented
{ int arr[T(__has_nothrow_constructor(AllPrivate))]; }
{ int arr[T(__has_nothrow_constructor(ACompleteType[]))]; }
{ int arr[F(__has_nothrow_constructor(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[F(__has_nothrow_constructor(HasCons))]; }
{ int arr[F(__has_nothrow_constructor(HasRef))]; }
{ int arr[F(__has_nothrow_constructor(HasCopy))]; }
{ int arr[F(__has_nothrow_constructor(HasMove))]; }
{ int arr[F(__has_nothrow_constructor(HasNoThrowConstructorWithArgs))]; }
{ int arr[F(__has_nothrow_constructor(IntRef))]; }
{ int arr[F(__has_nothrow_constructor(void))]; }
{ int arr[F(__has_nothrow_constructor(cvoid))]; }
{ int arr[F(__has_nothrow_constructor(HasTemplateCons))]; }
{ int arr[F(__has_nothrow_constructor(HasMultipleDefaultConstructor1))]; }
{ int arr[F(__has_nothrow_constructor(HasMultipleDefaultConstructor2))]; }
}
void has_virtual_destructor() {
{ int arr[F(__has_virtual_destructor(Int))]; }
{ int arr[F(__has_virtual_destructor(IntAr))]; }
{ int arr[F(__has_virtual_destructor(Union))]; }
{ int arr[F(__has_virtual_destructor(UnionAr))]; }
{ int arr[F(__has_virtual_destructor(POD))]; }
{ int arr[F(__has_virtual_destructor(Derives))]; }
{ int arr[F(__has_virtual_destructor(DerivesAr))]; }
{ int arr[F(__has_virtual_destructor(const Int))]; }
{ int arr[F(__has_virtual_destructor(ConstIntAr))]; }
{ int arr[F(__has_virtual_destructor(ConstIntArAr))]; }
{ int arr[F(__has_virtual_destructor(HasDest))]; }
{ int arr[F(__has_virtual_destructor(HasPriv))]; }
{ int arr[F(__has_virtual_destructor(HasCons))]; }
{ int arr[F(__has_virtual_destructor(HasRef))]; }
{ int arr[F(__has_virtual_destructor(HasCopy))]; }
{ int arr[F(__has_virtual_destructor(HasMove))]; }
{ int arr[F(__has_virtual_destructor(HasCopyAssign))]; }
{ int arr[F(__has_virtual_destructor(HasMoveAssign))]; }
{ int arr[F(__has_virtual_destructor(IntRef))]; }
{ int arr[F(__has_virtual_destructor(VirtAr))]; }
{ int arr[F(__has_virtual_destructor(ACompleteType[]))]; }
{ int arr[F(__has_virtual_destructor(AnIncompleteType[]))]; } // expected-error {{incomplete type}}
{ int arr[T(__has_virtual_destructor(HasVirtDest))]; }
{ int arr[T(__has_virtual_destructor(DerivedVirtDest))]; }
{ int arr[F(__has_virtual_destructor(VirtDestAr))]; }
{ int arr[F(__has_virtual_destructor(void))]; }
{ int arr[F(__has_virtual_destructor(cvoid))]; }
{ int arr[F(__has_virtual_destructor(AllPrivate))]; }
}
class Base {};
class Derived : Base {};
class Derived2a : Derived {};
class Derived2b : Derived {};
class Derived3 : virtual Derived2a, virtual Derived2b {};
template<typename T> struct BaseA { T a; };
template<typename T> struct DerivedB : BaseA<T> { };
template<typename T> struct CrazyDerived : T { };
class class_forward; // expected-note 2 {{forward declaration of 'class_forward'}}
template <typename Base, typename Derived>
void isBaseOfT() {
int t[T(__is_base_of(Base, Derived))];
};
template <typename Base, typename Derived>
void isBaseOfF() {
int t[F(__is_base_of(Base, Derived))];
};
template <class T> class DerivedTemp : Base {};
template <class T> class NonderivedTemp {};
template <class T> class UndefinedTemp; // expected-note {{declared here}}
void is_base_of() {
{ int arr[T(__is_base_of(Base, Derived))]; }
{ int arr[T(__is_base_of(const Base, Derived))]; }
{ int arr[F(__is_base_of(Derived, Base))]; }
{ int arr[F(__is_base_of(Derived, int))]; }
{ int arr[T(__is_base_of(Base, Base))]; }
{ int arr[T(__is_base_of(Base, Derived3))]; }
{ int arr[T(__is_base_of(Derived, Derived3))]; }
{ int arr[T(__is_base_of(Derived2b, Derived3))]; }
{ int arr[T(__is_base_of(Derived2a, Derived3))]; }
{ int arr[T(__is_base_of(BaseA<int>, DerivedB<int>))]; }
{ int arr[F(__is_base_of(DerivedB<int>, BaseA<int>))]; }
{ int arr[T(__is_base_of(Base, CrazyDerived<Base>))]; }
{ int arr[F(__is_base_of(Union, Union))]; }
{ int arr[T(__is_base_of(Empty, Empty))]; }
{ int arr[T(__is_base_of(class_forward, class_forward))]; }
{ int arr[F(__is_base_of(Empty, class_forward))]; } // expected-error {{incomplete type 'class_forward' used in type trait expression}}
{ int arr[F(__is_base_of(Base&, Derived&))]; }
int t18[F(__is_base_of(Base[10], Derived[10]))];
{ int arr[F(__is_base_of(int, int))]; }
{ int arr[F(__is_base_of(long, int))]; }
{ int arr[T(__is_base_of(Base, DerivedTemp<int>))]; }
{ int arr[F(__is_base_of(Base, NonderivedTemp<int>))]; }
{ int arr[F(__is_base_of(Base, UndefinedTemp<int>))]; } // expected-error {{implicit instantiation of undefined template 'UndefinedTemp<int>'}}
isBaseOfT<Base, Derived>();
isBaseOfF<Derived, Base>();
isBaseOfT<Base, CrazyDerived<Base> >();
isBaseOfF<CrazyDerived<Base>, Base>();
isBaseOfT<BaseA<int>, DerivedB<int> >();
isBaseOfF<DerivedB<int>, BaseA<int> >();
}
template<class T, class U>
class TemplateClass {};
template<class T>
using TemplateAlias = TemplateClass<T, int>;
typedef class Base BaseTypedef;
void is_same()
{
int t01[T(__is_same(Base, Base))];
int t02[T(__is_same(Base, BaseTypedef))];
int t03[T(__is_same(TemplateClass<int, int>, TemplateAlias<int>))];
int t10[F(__is_same(Base, const Base))];
int t11[F(__is_same(Base, Base&))];
int t12[F(__is_same(Base, Derived))];
}
struct IntWrapper
{
int value;
IntWrapper(int _value) : value(_value) {}
operator int() const {
return value;
}
};
struct FloatWrapper
{
float value;
FloatWrapper(float _value) : value(_value) {}
FloatWrapper(const IntWrapper& obj)
: value(static_cast<float>(obj.value)) {}
operator float() const {
return value;
}
operator IntWrapper() const {
return IntWrapper(static_cast<int>(value));
}
};
void is_convertible()
{
int t01[T(__is_convertible(IntWrapper, IntWrapper))];
int t02[T(__is_convertible(IntWrapper, const IntWrapper))];
int t03[T(__is_convertible(IntWrapper, int))];
int t04[T(__is_convertible(int, IntWrapper))];
int t05[T(__is_convertible(IntWrapper, FloatWrapper))];
int t06[T(__is_convertible(FloatWrapper, IntWrapper))];
int t07[T(__is_convertible(FloatWrapper, float))];
int t08[T(__is_convertible(float, FloatWrapper))];
}
struct FromInt { FromInt(int); };
struct ToInt { operator int(); };
typedef void Function();
void is_convertible_to();
class PrivateCopy {
PrivateCopy(const PrivateCopy&);
friend void is_convertible_to();
};
template<typename T>
struct X0 {
template<typename U> X0(const X0<U>&);
};
struct Abstract { virtual void f() = 0; };
void is_convertible_to() {
{ int arr[T(__is_convertible_to(Int, Int))]; }
{ int arr[F(__is_convertible_to(Int, IntAr))]; }
{ int arr[F(__is_convertible_to(IntAr, IntAr))]; }
{ int arr[T(__is_convertible_to(void, void))]; }
{ int arr[T(__is_convertible_to(cvoid, void))]; }
{ int arr[T(__is_convertible_to(void, cvoid))]; }
{ int arr[T(__is_convertible_to(cvoid, cvoid))]; }
{ int arr[T(__is_convertible_to(int, FromInt))]; }
{ int arr[T(__is_convertible_to(long, FromInt))]; }
{ int arr[T(__is_convertible_to(double, FromInt))]; }
{ int arr[T(__is_convertible_to(const int, FromInt))]; }
{ int arr[T(__is_convertible_to(const int&, FromInt))]; }
{ int arr[T(__is_convertible_to(ToInt, int))]; }
{ int arr[T(__is_convertible_to(ToInt, const int&))]; }
{ int arr[T(__is_convertible_to(ToInt, long))]; }
{ int arr[F(__is_convertible_to(ToInt, int&))]; }
{ int arr[F(__is_convertible_to(ToInt, FromInt))]; }
{ int arr[T(__is_convertible_to(IntAr&, IntAr&))]; }
{ int arr[T(__is_convertible_to(IntAr&, const IntAr&))]; }
{ int arr[F(__is_convertible_to(const IntAr&, IntAr&))]; }
{ int arr[F(__is_convertible_to(Function, Function))]; }
{ int arr[F(__is_convertible_to(PrivateCopy, PrivateCopy))]; }
{ int arr[T(__is_convertible_to(X0<int>, X0<float>))]; }
{ int arr[F(__is_convertible_to(Abstract, Abstract))]; }
}
namespace is_convertible_to_instantiate {
// Make sure we don't try to instantiate the constructor.
template<int x> class A { A(int) { int a[x]; } };
int x = __is_convertible_to(int, A<-1>);
}
void is_trivial()
{
{ int arr[T(__is_trivial(int))]; }
{ int arr[T(__is_trivial(Enum))]; }
{ int arr[T(__is_trivial(POD))]; }
{ int arr[T(__is_trivial(Int))]; }
{ int arr[T(__is_trivial(IntAr))]; }
{ int arr[T(__is_trivial(IntArNB))]; }
{ int arr[T(__is_trivial(Statics))]; }
{ int arr[T(__is_trivial(Empty))]; }
{ int arr[T(__is_trivial(EmptyUnion))]; }
{ int arr[T(__is_trivial(Union))]; }
{ int arr[T(__is_trivial(Derives))]; }
{ int arr[T(__is_trivial(DerivesAr))]; }
{ int arr[T(__is_trivial(DerivesArNB))]; }
{ int arr[T(__is_trivial(DerivesEmpty))]; }
{ int arr[T(__is_trivial(HasFunc))]; }
{ int arr[T(__is_trivial(HasOp))]; }
{ int arr[T(__is_trivial(HasConv))]; }
{ int arr[T(__is_trivial(HasAssign))]; }
{ int arr[T(__is_trivial(HasAnonymousUnion))]; }
{ int arr[T(__is_trivial(HasPriv))]; }
{ int arr[T(__is_trivial(HasProt))]; }
{ int arr[T(__is_trivial(DerivesHasPriv))]; }
{ int arr[T(__is_trivial(DerivesHasProt))]; }
{ int arr[T(__is_trivial(Vector))]; }
{ int arr[T(__is_trivial(VectorExt))]; }
{ int arr[F(__is_trivial(HasCons))]; }
{ int arr[F(__is_trivial(HasCopyAssign))]; }
{ int arr[F(__is_trivial(HasMoveAssign))]; }
{ int arr[F(__is_trivial(HasDest))]; }
{ int arr[F(__is_trivial(HasRef))]; }
{ int arr[F(__is_trivial(HasNonPOD))]; }
{ int arr[F(__is_trivial(HasVirt))]; }
{ int arr[F(__is_trivial(DerivesHasCons))]; }
{ int arr[F(__is_trivial(DerivesHasCopyAssign))]; }
{ int arr[F(__is_trivial(DerivesHasMoveAssign))]; }
{ int arr[F(__is_trivial(DerivesHasDest))]; }
{ int arr[F(__is_trivial(DerivesHasRef))]; }
{ int arr[F(__is_trivial(DerivesHasVirt))]; }
{ int arr[F(__is_trivial(void))]; }
{ int arr[F(__is_trivial(cvoid))]; }
}
template<typename T> struct TriviallyConstructibleTemplate {};
void trivial_checks()
{
{ int arr[T(__is_trivially_copyable(int))]; }
{ int arr[T(__is_trivially_copyable(Enum))]; }
{ int arr[T(__is_trivially_copyable(POD))]; }
{ int arr[T(__is_trivially_copyable(Int))]; }
{ int arr[T(__is_trivially_copyable(IntAr))]; }
{ int arr[T(__is_trivially_copyable(IntArNB))]; }
{ int arr[T(__is_trivially_copyable(Statics))]; }
{ int arr[T(__is_trivially_copyable(Empty))]; }
{ int arr[T(__is_trivially_copyable(EmptyUnion))]; }
{ int arr[T(__is_trivially_copyable(Union))]; }
{ int arr[T(__is_trivially_copyable(Derives))]; }
{ int arr[T(__is_trivially_copyable(DerivesAr))]; }
{ int arr[T(__is_trivially_copyable(DerivesArNB))]; }
{ int arr[T(__is_trivially_copyable(DerivesEmpty))]; }
{ int arr[T(__is_trivially_copyable(HasFunc))]; }
{ int arr[T(__is_trivially_copyable(HasOp))]; }
{ int arr[T(__is_trivially_copyable(HasConv))]; }
{ int arr[T(__is_trivially_copyable(HasAssign))]; }
{ int arr[T(__is_trivially_copyable(HasAnonymousUnion))]; }
{ int arr[T(__is_trivially_copyable(HasPriv))]; }
{ int arr[T(__is_trivially_copyable(HasProt))]; }
{ int arr[T(__is_trivially_copyable(DerivesHasPriv))]; }
{ int arr[T(__is_trivially_copyable(DerivesHasProt))]; }
{ int arr[T(__is_trivially_copyable(Vector))]; }
{ int arr[T(__is_trivially_copyable(VectorExt))]; }
{ int arr[T(__is_trivially_copyable(HasCons))]; }
{ int arr[T(__is_trivially_copyable(HasRef))]; }
{ int arr[T(__is_trivially_copyable(HasNonPOD))]; }
{ int arr[T(__is_trivially_copyable(DerivesHasCons))]; }
{ int arr[T(__is_trivially_copyable(DerivesHasRef))]; }
{ int arr[T(__is_trivially_copyable(NonTrivialDefault))]; }
{ int arr[T(__is_trivially_copyable(NonTrivialDefault[]))]; }
{ int arr[T(__is_trivially_copyable(NonTrivialDefault[3]))]; }
{ int arr[F(__is_trivially_copyable(HasCopyAssign))]; }
{ int arr[F(__is_trivially_copyable(HasMoveAssign))]; }
{ int arr[F(__is_trivially_copyable(HasDest))]; }
{ int arr[F(__is_trivially_copyable(HasVirt))]; }
{ int arr[F(__is_trivially_copyable(DerivesHasCopyAssign))]; }
{ int arr[F(__is_trivially_copyable(DerivesHasMoveAssign))]; }
{ int arr[F(__is_trivially_copyable(DerivesHasDest))]; }
{ int arr[F(__is_trivially_copyable(DerivesHasVirt))]; }
{ int arr[F(__is_trivially_copyable(void))]; }
{ int arr[F(__is_trivially_copyable(cvoid))]; }
{ int arr[T((__is_trivially_constructible(int)))]; }
{ int arr[T((__is_trivially_constructible(int, int)))]; }
{ int arr[T((__is_trivially_constructible(int, float)))]; }
{ int arr[T((__is_trivially_constructible(int, int&)))]; }
{ int arr[T((__is_trivially_constructible(int, const int&)))]; }
{ int arr[T((__is_trivially_constructible(int, int)))]; }
{ int arr[T((__is_trivially_constructible(HasCopyAssign, HasCopyAssign)))]; }
{ int arr[T((__is_trivially_constructible(HasCopyAssign, const HasCopyAssign&)))]; }
{ int arr[T((__is_trivially_constructible(HasCopyAssign, HasCopyAssign&&)))]; }
{ int arr[T((__is_trivially_constructible(HasCopyAssign)))]; }
{ int arr[T((__is_trivially_constructible(NonTrivialDefault,
const NonTrivialDefault&)))]; }
{ int arr[T((__is_trivially_constructible(NonTrivialDefault,
NonTrivialDefault&&)))]; }
{ int arr[T((__is_trivially_constructible(AllDefaulted)))]; }
{ int arr[T((__is_trivially_constructible(AllDefaulted,
const AllDefaulted &)))]; }
{ int arr[T((__is_trivially_constructible(AllDefaulted,
AllDefaulted &&)))]; }
{ int arr[F((__is_trivially_constructible(int, int*)))]; }
{ int arr[F((__is_trivially_constructible(NonTrivialDefault)))]; }
{ int arr[F((__is_trivially_constructible(ThreeArgCtor, int*, char*, int&)))]; }
{ int arr[F((__is_trivially_constructible(AllDeleted)))]; }
{ int arr[F((__is_trivially_constructible(AllDeleted,
const AllDeleted &)))]; }
{ int arr[F((__is_trivially_constructible(AllDeleted,
AllDeleted &&)))]; }
{ int arr[F((__is_trivially_constructible(ExtDefaulted)))]; }
{ int arr[F((__is_trivially_constructible(ExtDefaulted,
const ExtDefaulted &)))]; }
{ int arr[F((__is_trivially_constructible(ExtDefaulted,
ExtDefaulted &&)))]; }
{ int arr[T((__is_trivially_constructible(TriviallyConstructibleTemplate<int>)))]; }
{ int arr[F((__is_trivially_constructible(class_forward)))]; } // expected-error {{incomplete type 'class_forward' used in type trait expression}}
{ int arr[F((__is_trivially_constructible(class_forward[])))]; }
{ int arr[F((__is_trivially_constructible(void)))]; }
{ int arr[T((__is_trivially_assignable(int&, int)))]; }
{ int arr[T((__is_trivially_assignable(int&, int&)))]; }
{ int arr[T((__is_trivially_assignable(int&, int&&)))]; }
{ int arr[T((__is_trivially_assignable(int&, const int&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD&&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, const POD&)))]; }
{ int arr[T((__is_trivially_assignable(int*&, int*)))]; }
{ int arr[T((__is_trivially_assignable(AllDefaulted,
const AllDefaulted &)))]; }
{ int arr[T((__is_trivially_assignable(AllDefaulted,
AllDefaulted &&)))]; }
{ int arr[F((__is_trivially_assignable(int*&, float*)))]; }
{ int arr[F((__is_trivially_assignable(HasCopyAssign&, HasCopyAssign)))]; }
{ int arr[F((__is_trivially_assignable(HasCopyAssign&, HasCopyAssign&)))]; }
{ int arr[F((__is_trivially_assignable(HasCopyAssign&, const HasCopyAssign&)))]; }
{ int arr[F((__is_trivially_assignable(HasCopyAssign&, HasCopyAssign&&)))]; }
{ int arr[F((__is_trivially_assignable(TrivialMoveButNotCopy&,
TrivialMoveButNotCopy&)))]; }
{ int arr[F((__is_trivially_assignable(TrivialMoveButNotCopy&,
const TrivialMoveButNotCopy&)))]; }
{ int arr[F((__is_trivially_assignable(AllDeleted,
const AllDeleted &)))]; }
{ int arr[F((__is_trivially_assignable(AllDeleted,
AllDeleted &&)))]; }
{ int arr[F((__is_trivially_assignable(ExtDefaulted,
const ExtDefaulted &)))]; }
{ int arr[F((__is_trivially_assignable(ExtDefaulted,
ExtDefaulted &&)))]; }
{ int arr[T((__is_trivially_assignable(HasDefaultTrivialCopyAssign&,
HasDefaultTrivialCopyAssign&)))]; }
{ int arr[T((__is_trivially_assignable(HasDefaultTrivialCopyAssign&,
const HasDefaultTrivialCopyAssign&)))]; }
{ int arr[T((__is_trivially_assignable(TrivialMoveButNotCopy&,
TrivialMoveButNotCopy)))]; }
{ int arr[T((__is_trivially_assignable(TrivialMoveButNotCopy&,
TrivialMoveButNotCopy&&)))]; }
{ int arr[T((__is_trivially_assignable(int&, int)))]; }
{ int arr[T((__is_trivially_assignable(int&, int&)))]; }
{ int arr[T((__is_trivially_assignable(int&, int&&)))]; }
{ int arr[T((__is_trivially_assignable(int&, const int&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, POD&&)))]; }
{ int arr[T((__is_trivially_assignable(POD&, const POD&)))]; }
{ int arr[T((__is_trivially_assignable(int*&, int*)))]; }
{ int arr[T((__is_trivially_assignable(AllDefaulted,
const AllDefaulted &)))]; }
{ int arr[T((__is_trivially_assignable(AllDefaulted,
AllDefaulted &&)))]; }
{ int arr[F((__is_assignable(int *&, float *)))]; }
{ int arr[T((__is_assignable(HasCopyAssign &, HasCopyAssign)))]; }
{ int arr[T((__is_assignable(HasCopyAssign &, HasCopyAssign &)))]; }
{ int arr[T((__is_assignable(HasCopyAssign &, const HasCopyAssign &)))]; }
{ int arr[T((__is_assignable(HasCopyAssign &, HasCopyAssign &&)))]; }
{ int arr[T((__is_assignable(TrivialMoveButNotCopy &,
TrivialMoveButNotCopy &)))]; }
{ int arr[T((__is_assignable(TrivialMoveButNotCopy &,
const TrivialMoveButNotCopy &)))]; }
{ int arr[F((__is_assignable(AllDeleted,
const AllDeleted &)))]; }
{ int arr[F((__is_assignable(AllDeleted,
AllDeleted &&)))]; }
{ int arr[T((__is_assignable(ExtDefaulted,
const ExtDefaulted &)))]; }
{ int arr[T((__is_assignable(ExtDefaulted,
ExtDefaulted &&)))]; }
{ int arr[T((__is_assignable(HasDefaultTrivialCopyAssign &,
HasDefaultTrivialCopyAssign &)))]; }
{ int arr[T((__is_assignable(HasDefaultTrivialCopyAssign &,
const HasDefaultTrivialCopyAssign &)))]; }
{ int arr[T((__is_assignable(TrivialMoveButNotCopy &,
TrivialMoveButNotCopy)))]; }
{ int arr[T((__is_assignable(TrivialMoveButNotCopy &,
TrivialMoveButNotCopy &&)))]; }
{ int arr[T(__is_assignable(ACompleteType, ACompleteType))]; }
{ int arr[F(__is_assignable(AnIncompleteType, AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_assignable(AnIncompleteType[], AnIncompleteType[]))]; }
{ int arr[F(__is_assignable(AnIncompleteType[1], AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_assignable(void, void))]; }
{ int arr[F(__is_assignable(const volatile void, const volatile void))]; }
}
void constructible_checks() {
{ int arr[T(__is_constructible(HasNoThrowConstructorWithArgs))]; }
{ int arr[F(__is_nothrow_constructible(HasNoThrowConstructorWithArgs))]; } // MSVC doesn't look into default args and gets this wrong.
{ int arr[T(__is_constructible(HasNoThrowConstructorWithArgs, HasCons))]; }
{ int arr[T(__is_nothrow_constructible(HasNoThrowConstructorWithArgs, HasCons))]; }
{ int arr[T(__is_constructible(NonTrivialDefault))]; }
{ int arr[F(__is_nothrow_constructible(NonTrivialDefault))]; }
{ int arr[T(__is_constructible(int))]; }
{ int arr[T(__is_nothrow_constructible(int))]; }
{ int arr[F(__is_constructible(NonPOD))]; }
{ int arr[F(__is_nothrow_constructible(NonPOD))]; }
{ int arr[T(__is_constructible(NonPOD, int))]; }
{ int arr[F(__is_nothrow_constructible(NonPOD, int))]; }
// PR19178
{ int arr[F(__is_constructible(Abstract))]; }
{ int arr[F(__is_nothrow_constructible(Abstract))]; }
// PR20228
{ int arr[T(__is_constructible(VariadicCtor,
int, int, int, int, int, int, int, int, int))]; }
// PR25513
{ int arr[F(__is_constructible(int(int)))]; }
{ int arr[T(__is_constructible(ACompleteType))]; }
{ int arr[T(__is_nothrow_constructible(ACompleteType))]; }
{ int arr[F(__is_constructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_nothrow_constructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_constructible(AnIncompleteType[]))]; }
{ int arr[F(__is_nothrow_constructible(AnIncompleteType[]))]; }
{ int arr[F(__is_constructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_nothrow_constructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_constructible(void))]; }
{ int arr[F(__is_nothrow_constructible(void))]; }
{ int arr[F(__is_constructible(const volatile void))]; }
{ int arr[F(__is_nothrow_constructible(const volatile void))]; }
}
// Instantiation of __is_trivially_constructible
template<typename T, typename ...Args>
struct is_trivially_constructible {
static const bool value = __is_trivially_constructible(T, Args...);
};
void is_trivially_constructible_test() {
{ int arr[T((is_trivially_constructible<int>::value))]; }
{ int arr[T((is_trivially_constructible<int, int>::value))]; }
{ int arr[T((is_trivially_constructible<int, float>::value))]; }
{ int arr[T((is_trivially_constructible<int, int&>::value))]; }
{ int arr[T((is_trivially_constructible<int, const int&>::value))]; }
{ int arr[T((is_trivially_constructible<int, int>::value))]; }
{ int arr[T((is_trivially_constructible<HasCopyAssign, HasCopyAssign>::value))]; }
{ int arr[T((is_trivially_constructible<HasCopyAssign, const HasCopyAssign&>::value))]; }
{ int arr[T((is_trivially_constructible<HasCopyAssign, HasCopyAssign&&>::value))]; }
{ int arr[T((is_trivially_constructible<HasCopyAssign>::value))]; }
{ int arr[T((is_trivially_constructible<NonTrivialDefault,
const NonTrivialDefault&>::value))]; }
{ int arr[T((is_trivially_constructible<NonTrivialDefault,
NonTrivialDefault&&>::value))]; }
{ int arr[F((is_trivially_constructible<int, int*>::value))]; }
{ int arr[F((is_trivially_constructible<NonTrivialDefault>::value))]; }
{ int arr[F((is_trivially_constructible<ThreeArgCtor, int*, char*, int&>::value))]; }
{ int arr[F((is_trivially_constructible<Abstract>::value))]; } // PR19178
{ int arr[T(__is_trivially_constructible(ACompleteType))]; }
{ int arr[F(__is_trivially_constructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_trivially_constructible(AnIncompleteType[]))]; }
{ int arr[F(__is_trivially_constructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_trivially_constructible(void))]; }
{ int arr[F(__is_trivially_constructible(const volatile void))]; }
}
void array_rank() {
int t01[T(__array_rank(IntAr) == 1)];
int t02[T(__array_rank(ConstIntArAr) == 2)];
}
void array_extent() {
int t01[T(__array_extent(IntAr, 0) == 10)];
int t02[T(__array_extent(ConstIntArAr, 0) == 4)];
int t03[T(__array_extent(ConstIntArAr, 1) == 10)];
}
void is_destructible_test() {
{ int arr[T(__is_destructible(int))]; }
{ int arr[T(__is_destructible(int[2]))]; }
{ int arr[F(__is_destructible(int[]))]; }
{ int arr[F(__is_destructible(void))]; }
{ int arr[T(__is_destructible(int &))]; }
{ int arr[T(__is_destructible(HasDest))]; }
{ int arr[F(__is_destructible(AllPrivate))]; }
{ int arr[T(__is_destructible(SuperNonTrivialStruct))]; }
{ int arr[T(__is_destructible(AllDefaulted))]; }
{ int arr[F(__is_destructible(AllDeleted))]; }
{ int arr[T(__is_destructible(ThrowingDtor))]; }
{ int arr[T(__is_destructible(NoThrowDtor))]; }
{ int arr[T(__is_destructible(ACompleteType))]; }
{ int arr[F(__is_destructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_destructible(AnIncompleteType[]))]; }
{ int arr[F(__is_destructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_destructible(void))]; }
{ int arr[F(__is_destructible(const volatile void))]; }
}
void is_nothrow_destructible_test() {
{ int arr[T(__is_nothrow_destructible(int))]; }
{ int arr[T(__is_nothrow_destructible(int[2]))]; }
{ int arr[F(__is_nothrow_destructible(int[]))]; }
{ int arr[F(__is_nothrow_destructible(void))]; }
{ int arr[T(__is_nothrow_destructible(int &))]; }
{ int arr[T(__is_nothrow_destructible(HasDest))]; }
{ int arr[F(__is_nothrow_destructible(AllPrivate))]; }
{ int arr[T(__is_nothrow_destructible(SuperNonTrivialStruct))]; }
{ int arr[T(__is_nothrow_destructible(AllDefaulted))]; }
{ int arr[F(__is_nothrow_destructible(AllDeleted))]; }
{ int arr[F(__is_nothrow_destructible(ThrowingDtor))]; }
{ int arr[T(__is_nothrow_destructible(NoExceptDtor))]; }
{ int arr[T(__is_nothrow_destructible(NoThrowDtor))]; }
{ int arr[T(__is_nothrow_destructible(ACompleteType))]; }
{ int arr[F(__is_nothrow_destructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_nothrow_destructible(AnIncompleteType[]))]; }
{ int arr[F(__is_nothrow_destructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_nothrow_destructible(void))]; }
{ int arr[F(__is_nothrow_destructible(const volatile void))]; }
}
void is_trivially_destructible_test() {
{ int arr[T(__is_trivially_destructible(int))]; }
{ int arr[T(__is_trivially_destructible(int[2]))]; }
{ int arr[F(__is_trivially_destructible(int[]))]; }
{ int arr[F(__is_trivially_destructible(void))]; }
{ int arr[T(__is_trivially_destructible(int &))]; }
{ int arr[F(__is_trivially_destructible(HasDest))]; }
{ int arr[F(__is_trivially_destructible(AllPrivate))]; }
{ int arr[F(__is_trivially_destructible(SuperNonTrivialStruct))]; }
{ int arr[T(__is_trivially_destructible(AllDefaulted))]; }
{ int arr[F(__is_trivially_destructible(AllDeleted))]; }
{ int arr[F(__is_trivially_destructible(ThrowingDtor))]; }
{ int arr[F(__is_trivially_destructible(NoThrowDtor))]; }
{ int arr[T(__is_trivially_destructible(ACompleteType))]; }
{ int arr[F(__is_trivially_destructible(AnIncompleteType))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_trivially_destructible(AnIncompleteType[]))]; }
{ int arr[F(__is_trivially_destructible(AnIncompleteType[1]))]; } // expected-error {{incomplete type}}
{ int arr[F(__is_trivially_destructible(void))]; }
{ int arr[F(__is_trivially_destructible(const volatile void))]; }
}
// Instantiation of __has_unique_object_representations
template <typename T>
struct has_unique_object_representations {
static const bool value = __has_unique_object_representations(T);
};
static_assert(!has_unique_object_representations<void>::value, "void is never unique");
static_assert(!has_unique_object_representations<const void>::value, "void is never unique");
static_assert(!has_unique_object_representations<volatile void>::value, "void is never unique");
static_assert(!has_unique_object_representations<const volatile void>::value, "void is never unique");
static_assert(has_unique_object_representations<int>::value, "integrals are");
static_assert(has_unique_object_representations<const int>::value, "integrals are");
static_assert(has_unique_object_representations<volatile int>::value, "integrals are");
static_assert(has_unique_object_representations<const volatile int>::value, "integrals are");
static_assert(has_unique_object_representations<void *>::value, "as are pointers");
static_assert(has_unique_object_representations<const void *>::value, "as are pointers");
static_assert(has_unique_object_representations<volatile void *>::value, "are pointers");
static_assert(has_unique_object_representations<const volatile void *>::value, "as are pointers");
static_assert(has_unique_object_representations<int *>::value, "as are pointers");
static_assert(has_unique_object_representations<const int *>::value, "as are pointers");
static_assert(has_unique_object_representations<volatile int *>::value, "as are pointers");
static_assert(has_unique_object_representations<const volatile int *>::value, "as are pointers");
class C {};
using FP = int (*)(int);
using PMF = int (C::*)(int);
using PMD = int C::*;
static_assert(has_unique_object_representations<FP>::value, "even function pointers");
static_assert(has_unique_object_representations<const FP>::value, "even function pointers");
static_assert(has_unique_object_representations<volatile FP>::value, "even function pointers");
static_assert(has_unique_object_representations<const volatile FP>::value, "even function pointers");
static_assert(has_unique_object_representations<PMF>::value, "and pointer to members");
static_assert(has_unique_object_representations<const PMF>::value, "and pointer to members");
static_assert(has_unique_object_representations<volatile PMF>::value, "and pointer to members");
static_assert(has_unique_object_representations<const volatile PMF>::value, "and pointer to members");
static_assert(has_unique_object_representations<PMD>::value, "and pointer to members");
static_assert(has_unique_object_representations<const PMD>::value, "and pointer to members");
static_assert(has_unique_object_representations<volatile PMD>::value, "and pointer to members");
static_assert(has_unique_object_representations<const volatile PMD>::value, "and pointer to members");
static_assert(has_unique_object_representations<bool>::value, "yes, all integral types");
static_assert(has_unique_object_representations<char>::value, "yes, all integral types");
static_assert(has_unique_object_representations<signed char>::value, "yes, all integral types");
static_assert(has_unique_object_representations<unsigned char>::value, "yes, all integral types");
static_assert(has_unique_object_representations<short>::value, "yes, all integral types");
static_assert(has_unique_object_representations<unsigned short>::value, "yes, all integral types");
static_assert(has_unique_object_representations<int>::value, "yes, all integral types");
static_assert(has_unique_object_representations<unsigned int>::value, "yes, all integral types");
static_assert(has_unique_object_representations<long>::value, "yes, all integral types");
static_assert(has_unique_object_representations<unsigned long>::value, "yes, all integral types");
static_assert(has_unique_object_representations<long long>::value, "yes, all integral types");
static_assert(has_unique_object_representations<unsigned long long>::value, "yes, all integral types");
static_assert(has_unique_object_representations<wchar_t>::value, "yes, all integral types");
static_assert(has_unique_object_representations<char16_t>::value, "yes, all integral types");
static_assert(has_unique_object_representations<char32_t>::value, "yes, all integral types");
static_assert(!has_unique_object_representations<void>::value, "but not void!");
static_assert(!has_unique_object_representations<decltype(nullptr)>::value, "or nullptr_t");
static_assert(!has_unique_object_representations<float>::value, "definitely not Floating Point");
static_assert(!has_unique_object_representations<double>::value, "definitely not Floating Point");
static_assert(!has_unique_object_representations<long double>::value, "definitely not Floating Point");
struct NoPadding {
int a;
int b;
};
static_assert(has_unique_object_representations<NoPadding>::value, "types without padding are");
struct InheritsFromNoPadding : NoPadding {
int c;
int d;
};
static_assert(has_unique_object_representations<InheritsFromNoPadding>::value, "types without padding are");
struct VirtuallyInheritsFromNoPadding : virtual NoPadding {
int c;
int d;
};
static_assert(!has_unique_object_representations<VirtuallyInheritsFromNoPadding>::value, "No virtual inheritence");
struct Padding {
char a;
int b;
};
static_assert(!has_unique_object_representations<Padding>::value, "but not with padding");
struct InheritsFromPadding : Padding {
int c;
int d;
};
static_assert(!has_unique_object_representations<InheritsFromPadding>::value, "or its subclasses");
struct TailPadding {
int a;
char b;
};
static_assert(!has_unique_object_representations<TailPadding>::value, "even at the end");
struct TinyStruct {
char a;
};
static_assert(has_unique_object_representations<TinyStruct>::value, "Should be no padding");
struct InheritsFromTinyStruct : TinyStruct {
int b;
};
static_assert(!has_unique_object_representations<InheritsFromTinyStruct>::value, "Inherit causes padding");
union NoPaddingUnion {
int a;
unsigned int b;
};
static_assert(has_unique_object_representations<NoPaddingUnion>::value, "unions follow the same rules as structs");
union PaddingUnion {
int a;
long long b;
};
static_assert(!has_unique_object_representations<PaddingUnion>::value, "unions follow the same rules as structs");
struct NotTriviallyCopyable {
int x;
NotTriviallyCopyable(const NotTriviallyCopyable &) {}
};
static_assert(!has_unique_object_representations<NotTriviallyCopyable>::value, "must be trivially copyable");
struct HasNonUniqueMember {
float x;
};
static_assert(!has_unique_object_representations<HasNonUniqueMember>::value, "all members must be unique");
enum ExampleEnum { xExample,
yExample };
enum LLEnum : long long { xLongExample,
yLongExample };
static_assert(has_unique_object_representations<ExampleEnum>::value, "Enums are integrals, so unique!");
static_assert(has_unique_object_representations<LLEnum>::value, "Enums are integrals, so unique!");
enum class ExampleEnumClass { xExample,
yExample };
enum class LLEnumClass : long long { xLongExample,
yLongExample };
static_assert(has_unique_object_representations<ExampleEnumClass>::value, "Enums are integrals, so unique!");
static_assert(has_unique_object_representations<LLEnumClass>::value, "Enums are integrals, so unique!");
// because reference types aren't object types
static_assert(!has_unique_object_representations<int &>::value, "No references!");
static_assert(!has_unique_object_representations<const int &>::value, "No references!");
static_assert(!has_unique_object_representations<volatile int &>::value, "No references!");
static_assert(!has_unique_object_representations<const volatile int &>::value, "No references!");
static_assert(!has_unique_object_representations<Empty>::value, "No empty types!");
class Compressed : Empty {
int x;
};
static_assert(has_unique_object_representations<Compressed>::value, "But inheriting from one is ok");
class EmptyInheritor : Compressed {};
static_assert(has_unique_object_representations<EmptyInheritor>::value, "As long as the base has items, empty is ok");
class Dynamic {
virtual void A();
int i;
};
static_assert(!has_unique_object_representations<Dynamic>::value, "Dynamic types are not valid");
class InheritsDynamic : Dynamic {
int j;
};
static_assert(!has_unique_object_representations<InheritsDynamic>::value, "Dynamic types are not valid");
static_assert(has_unique_object_representations<int[42]>::value, "Arrays are fine, as long as their value type is");
static_assert(has_unique_object_representations<int[]>::value, "Arrays are fine, as long as their value type is");
static_assert(has_unique_object_representations<int[][42]>::value, "Arrays are fine, as long as their value type is");
static_assert(!has_unique_object_representations<double[42]>::value, "So no array of doubles!");
static_assert(!has_unique_object_representations<double[]>::value, "So no array of doubles!");
static_assert(!has_unique_object_representations<double[][42]>::value, "So no array of doubles!");
static_assert(!has_unique_object_representations<int(int)>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) volatile>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const volatile>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) volatile &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const volatile &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) volatile &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int) const volatile &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...)>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) volatile>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const volatile>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) volatile &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const volatile &>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) volatile &&>::value, "Functions are not unique");
static_assert(!has_unique_object_representations<int(int, ...) const volatile &&>::value, "Functions are not unique");
static auto lambda = []() {};
static_assert(!has_unique_object_representations<decltype(lambda)>::value, "Lambdas are not unique");