| // RUN: %clang_cc1 -std=c++11 -verify %s |
| |
| // expected-no-diagnostics |
| |
| template<typename T, bool B> struct trivially_assignable_check { |
| static_assert(B == __has_trivial_assign(T), ""); |
| static_assert(B == __is_trivially_assignable(T&, T), ""); |
| static_assert(B == __is_trivially_assignable(T&, const T &), ""); |
| static_assert(B == __is_trivially_assignable(T&, T &&), ""); |
| static_assert(B == __is_trivially_assignable(T&&, T), ""); |
| static_assert(B == __is_trivially_assignable(T&&, const T &), ""); |
| static_assert(B == __is_trivially_assignable(T&&, T &&), ""); |
| typedef void type; |
| }; |
| template<typename T> using trivially_assignable = |
| typename trivially_assignable_check<T, true>::type; |
| template<typename T> using not_trivially_assignable = |
| typename trivially_assignable_check<T, false>::type; |
| |
| struct Trivial {}; |
| using _ = trivially_assignable<Trivial>; |
| |
| // A copy/move assignment operator for class X is trivial if it is not user-provided, |
| struct UserProvided { |
| UserProvided &operator=(const UserProvided &); |
| }; |
| using _ = not_trivially_assignable<UserProvided>; |
| |
| // its declared parameter type is the same as if it had been implicitly |
| // declared, |
| struct NonConstCopy { |
| NonConstCopy &operator=(NonConstCopy &) = default; |
| }; |
| using _ = not_trivially_assignable<NonConstCopy>; |
| |
| // class X has no virtual functions |
| struct VFn { |
| virtual void f(); |
| }; |
| using _ = not_trivially_assignable<VFn>; |
| |
| // and no virtual base classes |
| struct VBase : virtual Trivial {}; |
| using _ = not_trivially_assignable<VBase>; |
| |
| // and the assignment operator selected to copy/move each [direct subobject] is trivial |
| struct TemplateCtor { |
| template<typename T> TemplateCtor operator=(T &); |
| }; |
| using _ = trivially_assignable<TemplateCtor>; |
| struct TemplateCtorMember { |
| TemplateCtor tc; |
| }; |
| using _ = trivially_assignable<TemplateCtorMember>; |
| struct MutableTemplateCtorMember { |
| mutable TemplateCtor mtc; |
| }; |
| static_assert(!__is_trivially_assignable(MutableTemplateCtorMember, const MutableTemplateCtorMember &), ""); |
| static_assert(__is_trivially_assignable(MutableTemplateCtorMember, MutableTemplateCtorMember &&), ""); |
| |
| // Both trivial and non-trivial special members. |
| struct TNT { |
| TNT &operator=(const TNT &) = default; // trivial |
| TNT &operator=(TNT &); // non-trivial |
| |
| TNT &operator=(TNT &&) = default; // trivial |
| TNT &operator=(const TNT &&); // non-trivial |
| }; |
| |
| static_assert(!__has_trivial_assign(TNT), "lie deliberately for gcc compatibility"); |
| static_assert(__is_trivially_assignable(TNT, TNT), ""); |
| static_assert(!__is_trivially_assignable(TNT, TNT &), ""); |
| static_assert(__is_trivially_assignable(TNT, const TNT &), ""); |
| static_assert(!__is_trivially_assignable(TNT, volatile TNT &), ""); |
| static_assert(__is_trivially_assignable(TNT, TNT &&), ""); |
| static_assert(!__is_trivially_assignable(TNT, const TNT &&), ""); |
| static_assert(!__is_trivially_assignable(TNT, volatile TNT &&), ""); |
| |
| // This has only trivial special members. |
| struct DerivedFromTNT : TNT {}; |
| |
| static_assert(__has_trivial_assign(DerivedFromTNT), ""); |
| static_assert(__is_trivially_assignable(DerivedFromTNT, DerivedFromTNT), ""); |
| static_assert(__is_trivially_assignable(DerivedFromTNT, DerivedFromTNT &), ""); |
| static_assert(__is_trivially_assignable(DerivedFromTNT, const DerivedFromTNT &), ""); |
| static_assert(!__is_trivially_assignable(DerivedFromTNT, volatile DerivedFromTNT &), ""); |
| static_assert(__is_trivially_assignable(DerivedFromTNT, DerivedFromTNT &&), ""); |
| static_assert(__is_trivially_assignable(DerivedFromTNT, const DerivedFromTNT &&), ""); |
| static_assert(!__is_trivially_assignable(DerivedFromTNT, volatile DerivedFromTNT &&), ""); |
| |
| // This has only trivial special members. |
| struct TNTMember { |
| TNT tnt; |
| }; |
| |
| static_assert(__has_trivial_assign(TNTMember), ""); |
| static_assert(__is_trivially_assignable(TNTMember, TNTMember), ""); |
| static_assert(__is_trivially_assignable(TNTMember, TNTMember &), ""); |
| static_assert(__is_trivially_assignable(TNTMember, const TNTMember &), ""); |
| static_assert(!__is_trivially_assignable(TNTMember, volatile TNTMember &), ""); |
| static_assert(__is_trivially_assignable(TNTMember, TNTMember &&), ""); |
| static_assert(__is_trivially_assignable(TNTMember, const TNTMember &&), ""); |
| static_assert(!__is_trivially_assignable(TNTMember, volatile TNTMember &&), ""); |
| |
| struct NCCTNT : NonConstCopy, TNT {}; |
| |
| static_assert(!__has_trivial_assign(NCCTNT), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, NCCTNT), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, NCCTNT &), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, const NCCTNT &), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, volatile NCCTNT &), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, NCCTNT &&), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, const NCCTNT &&), ""); |
| static_assert(!__is_trivially_assignable(NCCTNT, volatile NCCTNT &&), ""); |
| |
| struct MultipleTrivial { |
| // All four of these are trivial. |
| MultipleTrivial &operator=(const MultipleTrivial &) & = default; |
| MultipleTrivial &operator=(const MultipleTrivial &) && = default; |
| MultipleTrivial &operator=(MultipleTrivial &&) & = default; |
| MultipleTrivial &operator=(MultipleTrivial &&) && = default; |
| }; |
| |
| using _ = trivially_assignable<MultipleTrivial>; |
| |
| struct RefQualifier { |
| RefQualifier &operator=(const RefQualifier &) & = default; |
| RefQualifier &operator=(const RefQualifier &) &&; |
| RefQualifier &operator=(RefQualifier &&) &; |
| RefQualifier &operator=(RefQualifier &&) && = default; |
| }; |
| struct DerivedFromRefQualifier : RefQualifier { |
| // Both of these call the trivial copy operation. |
| DerivedFromRefQualifier &operator=(const DerivedFromRefQualifier &) & = default; |
| DerivedFromRefQualifier &operator=(const DerivedFromRefQualifier &) && = default; |
| // Both of these call the non-trivial move operation. |
| DerivedFromRefQualifier &operator=(DerivedFromRefQualifier &&) & = default; |
| DerivedFromRefQualifier &operator=(DerivedFromRefQualifier &&) && = default; |
| }; |
| static_assert(__is_trivially_assignable(DerivedFromRefQualifier&, const DerivedFromRefQualifier&), ""); |
| static_assert(__is_trivially_assignable(DerivedFromRefQualifier&&, const DerivedFromRefQualifier&), ""); |
| static_assert(!__is_trivially_assignable(DerivedFromRefQualifier&, DerivedFromRefQualifier&&), ""); |
| static_assert(!__is_trivially_assignable(DerivedFromRefQualifier&&, DerivedFromRefQualifier&&), ""); |
| |
| struct TemplateAssignNoMove { |
| TemplateAssignNoMove &operator=(const TemplateAssignNoMove &) = default; |
| template<typename T> TemplateAssignNoMove &operator=(T &&); |
| }; |
| static_assert(__is_trivially_assignable(TemplateAssignNoMove, const TemplateAssignNoMove &), ""); |
| static_assert(!__is_trivially_assignable(TemplateAssignNoMove, TemplateAssignNoMove &&), ""); |
| |
| struct UseTemplateAssignNoMove { |
| TemplateAssignNoMove tanm; |
| }; |
| static_assert(__is_trivially_assignable(UseTemplateAssignNoMove, const UseTemplateAssignNoMove &), ""); |
| static_assert(!__is_trivially_assignable(UseTemplateAssignNoMove, UseTemplateAssignNoMove &&), ""); |
| |
| struct TemplateAssignNoMoveSFINAE { |
| TemplateAssignNoMoveSFINAE &operator=(const TemplateAssignNoMoveSFINAE &) = default; |
| template<typename T, typename U = typename T::error> TemplateAssignNoMoveSFINAE &operator=(T &&); |
| }; |
| static_assert(__is_trivially_assignable(TemplateAssignNoMoveSFINAE, const TemplateAssignNoMoveSFINAE &), ""); |
| static_assert(__is_trivially_assignable(TemplateAssignNoMoveSFINAE, TemplateAssignNoMoveSFINAE &&), ""); |
| |
| struct UseTemplateAssignNoMoveSFINAE { |
| TemplateAssignNoMoveSFINAE tanm; |
| }; |
| static_assert(__is_trivially_assignable(UseTemplateAssignNoMoveSFINAE, const UseTemplateAssignNoMoveSFINAE &), ""); |
| static_assert(__is_trivially_assignable(UseTemplateAssignNoMoveSFINAE, UseTemplateAssignNoMoveSFINAE &&), ""); |
| |
| namespace TrivialityDependsOnImplicitDeletion { |
| struct PrivateMove { |
| PrivateMove &operator=(const PrivateMove &) = default; |
| private: |
| PrivateMove &operator=(PrivateMove &&); |
| friend class Access; |
| }; |
| static_assert(__is_trivially_assignable(PrivateMove, const PrivateMove &), ""); |
| static_assert(!__is_trivially_assignable(PrivateMove, PrivateMove &&), ""); |
| |
| struct NoAccess { |
| PrivateMove pm; |
| // NoAccess's move would be deleted, so is suppressed, |
| // so moves of it use PrivateMove's copy ctor, which is trivial. |
| }; |
| static_assert(__is_trivially_assignable(NoAccess, const NoAccess &), ""); |
| static_assert(__is_trivially_assignable(NoAccess, NoAccess &&), ""); |
| struct TopNoAccess : NoAccess {}; |
| static_assert(__is_trivially_assignable(TopNoAccess, const TopNoAccess &), ""); |
| static_assert(__is_trivially_assignable(TopNoAccess, TopNoAccess &&), ""); |
| |
| struct Access { |
| PrivateMove pm; |
| // NoAccess's move would *not* be deleted, so is *not* suppressed, |
| // so moves of it use PrivateMove's move ctor, which is not trivial. |
| }; |
| static_assert(__is_trivially_assignable(Access, const Access &), ""); |
| static_assert(!__is_trivially_assignable(Access, Access &&), ""); |
| struct TopAccess : Access {}; |
| static_assert(__is_trivially_assignable(TopAccess, const TopAccess &), ""); |
| static_assert(!__is_trivially_assignable(TopAccess, TopAccess &&), ""); |
| } |
