test/SemaCXX/attr-trivial-abi.cpp - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++11

 void __attribute__((trivial_abi)) foo(); // expected-warning {{'trivial_abi' attribute only applies to classes}}

 // Should not crash.
 template <class>
 class __attribute__((trivial_abi)) a { a(a &&); };
 #if defined(_WIN64) && !defined(__MINGW32__)
 // On Windows/MSVC, to be trivial-for-calls, an object must be trivially copyable.
 // (And it is only trivially relocatable, currently, if it is trivial for calls.)
 // In this case, it is suppressed by an explicitly defined move constructor.
 // Similar concerns apply to later tests that have #if defined(_WIN64) && !defined(__MINGW32__)
 static_assert(!__is_trivially_relocatable(a<int>), "");
 #else
 static_assert(__is_trivially_relocatable(a<int>), "");
 #endif

 struct [[clang::trivial_abi]] S0 {
   int a;
 };
 static_assert(__is_trivially_relocatable(S0), "");

 struct __attribute__((trivial_abi)) S1 {
   int a;
 };
 static_assert(__is_trivially_relocatable(S1), "");

 struct __attribute__((trivial_abi)) S3 { // expected-warning {{'trivial_abi' cannot be applied to 'S3'}} expected-note {{is polymorphic}}
   virtual void m();
 };
 static_assert(!__is_trivially_relocatable(S3), "");

 struct S3_2 {
   virtual void m();
 } __attribute__((trivial_abi)); // expected-warning {{'trivial_abi' cannot be applied to 'S3_2'}} expected-note {{is polymorphic}}
 static_assert(!__is_trivially_relocatable(S3_2), "");

 struct __attribute__((trivial_abi)) S3_3 { // expected-warning {{'trivial_abi' cannot be applied to 'S3_3'}} expected-note {{has a field of a non-trivial class type}}
   S3_3(S3_3 &&);
   S3_2 s32;
 };
 #ifdef __ORBIS__
 // The ClangABI4OrPS4 calling convention kind passes classes in registers if the
 // copy constructor is trivial for calls *or deleted*, while other platforms do
 // not accept deleted constructors.
 static_assert(__is_trivially_relocatable(S3_3), "");
 #else
 static_assert(!__is_trivially_relocatable(S3_3), "");
 #endif

 // Diagnose invalid trivial_abi even when the type is templated because it has a non-trivial field.
 template <class T>
 struct __attribute__((trivial_abi)) S3_4 { // expected-warning {{'trivial_abi' cannot be applied to 'S3_4'}} expected-note {{has a field of a non-trivial class type}}
   S3_4(S3_4 &&);
   S3_2 s32;
 };
 static_assert(!__is_trivially_relocatable(S3_4<int>), "");

 struct S4 {
   int a;
 };
 static_assert(__is_trivially_relocatable(S4), "");

 struct __attribute__((trivial_abi)) S5 : public virtual S4 { // expected-warning {{'trivial_abi' cannot be applied to 'S5'}} expected-note {{has a virtual base}}
 };
 static_assert(!__is_trivially_relocatable(S5), "");

 struct __attribute__((trivial_abi)) S9 : public S4 {
 };
 static_assert(__is_trivially_relocatable(S9), "");

 struct __attribute__((trivial_abi(1))) S8 { // expected-error {{'trivial_abi' attribute takes no arguments}}
   int a;
 };

 // Do not warn about deleted ctors  when 'trivial_abi' is used to annotate a template class.
 template <class T>
 struct __attribute__((trivial_abi)) S10 {
   T p;
 };

 S10<int *> p1;
 static_assert(__is_trivially_relocatable(S10<int>), "");
 static_assert(!__is_trivially_relocatable(S10<S3>), "");

 template <class T>
 struct S14 {
   T a;
 };

 template <class T>
 struct __attribute__((trivial_abi)) S15 : S14<T> {
 };

 S15<int> s15;
 static_assert(__is_trivially_relocatable(S15<int>), "");
 static_assert(!__is_trivially_relocatable(S15<S3>), "");

 template <class T>
 struct __attribute__((trivial_abi)) S16 {
   S14<T> a;
 };
 static_assert(__is_trivially_relocatable(S16<int>), "");
 static_assert(!__is_trivially_relocatable(S16<S3>), "");

 S16<int> s16;

 template <class T>
 struct __attribute__((trivial_abi)) S17 {
 };

 S17<int> s17;
 static_assert(__is_trivially_relocatable(S17<int>), "");
 static_assert(__is_trivially_relocatable(S17<S3>), "");

 namespace deletedCopyMoveConstructor {
 struct __attribute__((trivial_abi)) CopyMoveDeleted { // expected-warning {{'trivial_abi' cannot be applied to 'CopyMoveDeleted'}} expected-note {{copy constructors and move constructors are all deleted}}
   CopyMoveDeleted(const CopyMoveDeleted &) = delete;
   CopyMoveDeleted(CopyMoveDeleted &&) = delete;
 };
 #ifdef __ORBIS__
 static_assert(__is_trivially_relocatable(CopyMoveDeleted), "");
 #else
 static_assert(!__is_trivially_relocatable(CopyMoveDeleted), "");
 #endif

 struct __attribute__((trivial_abi)) S18 { // expected-warning {{'trivial_abi' cannot be applied to 'S18'}} expected-note {{copy constructors and move constructors are all deleted}}
   CopyMoveDeleted a;
 };
 #ifdef __ORBIS__
 static_assert(__is_trivially_relocatable(S18), "");
 #else
 static_assert(!__is_trivially_relocatable(S18), "");
 #endif

 struct __attribute__((trivial_abi)) CopyDeleted {
   CopyDeleted(const CopyDeleted &) = delete;
   CopyDeleted(CopyDeleted &&) = default;
 };
 #if defined(_WIN64) && !defined(__MINGW32__)
 static_assert(!__is_trivially_relocatable(CopyDeleted), "");
 #else
 static_assert(__is_trivially_relocatable(CopyDeleted), "");
 #endif

 struct __attribute__((trivial_abi)) MoveDeleted {
   MoveDeleted(const MoveDeleted &) = default;
   MoveDeleted(MoveDeleted &&) = delete;
 };
 static_assert(__is_trivially_relocatable(MoveDeleted), "");

 struct __attribute__((trivial_abi)) S19 { // expected-warning {{'trivial_abi' cannot be applied to 'S19'}} expected-note {{copy constructors and move constructors are all deleted}}
   CopyDeleted a;
   MoveDeleted b;
 };
 #ifdef __ORBIS__
 static_assert(__is_trivially_relocatable(S19), "");
 #else
 static_assert(!__is_trivially_relocatable(S19), "");
 #endif

 // This is fine since the move constructor isn't deleted.
 struct __attribute__((trivial_abi)) S20 {
   int &&a; // a member of rvalue reference type deletes the copy constructor.
 };
 #if defined(_WIN64) && !defined(__MINGW32__)
 static_assert(!__is_trivially_relocatable(S20), "");
 #else
 static_assert(__is_trivially_relocatable(S20), "");
 #endif
 } // namespace deletedCopyMoveConstructor
	// RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++11

	void __attribute__((trivial_abi)) foo(); // expected-warning {{'trivial_abi' attribute only applies to classes}}

	// Should not crash.
	template <class>
	class __attribute__((trivial_abi)) a { a(a &&); };
	#if defined(_WIN64) && !defined(__MINGW32__)
	// On Windows/MSVC, to be trivial-for-calls, an object must be trivially copyable.
	// (And it is only trivially relocatable, currently, if it is trivial for calls.)
	// In this case, it is suppressed by an explicitly defined move constructor.
	// Similar concerns apply to later tests that have #if defined(_WIN64) && !defined(__MINGW32__)
	static_assert(!__is_trivially_relocatable(a<int>), "");
	#else
	static_assert(__is_trivially_relocatable(a<int>), "");
	#endif

	struct [[clang::trivial_abi]] S0 {
	int a;
	};
	static_assert(__is_trivially_relocatable(S0), "");

	struct __attribute__((trivial_abi)) S1 {
	int a;
	};
	static_assert(__is_trivially_relocatable(S1), "");

	struct __attribute__((trivial_abi)) S3 { // expected-warning {{'trivial_abi' cannot be applied to 'S3'}} expected-note {{is polymorphic}}
	virtual void m();
	};
	static_assert(!__is_trivially_relocatable(S3), "");

	struct S3_2 {
	virtual void m();
	} __attribute__((trivial_abi)); // expected-warning {{'trivial_abi' cannot be applied to 'S3_2'}} expected-note {{is polymorphic}}
	static_assert(!__is_trivially_relocatable(S3_2), "");

	struct __attribute__((trivial_abi)) S3_3 { // expected-warning {{'trivial_abi' cannot be applied to 'S3_3'}} expected-note {{has a field of a non-trivial class type}}
	S3_3(S3_3 &&);
	S3_2 s32;
	};
	#ifdef __ORBIS__
	// The ClangABI4OrPS4 calling convention kind passes classes in registers if the
	// copy constructor is trivial for calls or deleted, while other platforms do
	// not accept deleted constructors.
	static_assert(__is_trivially_relocatable(S3_3), "");
	#else
	static_assert(!__is_trivially_relocatable(S3_3), "");
	#endif

	// Diagnose invalid trivial_abi even when the type is templated because it has a non-trivial field.
	template <class T>
	struct __attribute__((trivial_abi)) S3_4 { // expected-warning {{'trivial_abi' cannot be applied to 'S3_4'}} expected-note {{has a field of a non-trivial class type}}
	S3_4(S3_4 &&);
	S3_2 s32;
	};
	static_assert(!__is_trivially_relocatable(S3_4<int>), "");

	struct S4 {
	int a;
	};
	static_assert(__is_trivially_relocatable(S4), "");

	struct __attribute__((trivial_abi)) S5 : public virtual S4 { // expected-warning {{'trivial_abi' cannot be applied to 'S5'}} expected-note {{has a virtual base}}
	};
	static_assert(!__is_trivially_relocatable(S5), "");

	struct __attribute__((trivial_abi)) S9 : public S4 {
	};
	static_assert(__is_trivially_relocatable(S9), "");

	struct __attribute__((trivial_abi(1))) S8 { // expected-error {{'trivial_abi' attribute takes no arguments}}
	int a;
	};

	// Do not warn about deleted ctors when 'trivial_abi' is used to annotate a template class.
	template <class T>
	struct __attribute__((trivial_abi)) S10 {
	T p;
	};

	S10<int *> p1;
	static_assert(__is_trivially_relocatable(S10<int>), "");
	static_assert(!__is_trivially_relocatable(S10<S3>), "");

	template <class T>
	struct S14 {
	T a;
	};

	template <class T>
	struct __attribute__((trivial_abi)) S15 : S14<T> {
	};

	S15<int> s15;
	static_assert(__is_trivially_relocatable(S15<int>), "");
	static_assert(!__is_trivially_relocatable(S15<S3>), "");

	template <class T>
	struct __attribute__((trivial_abi)) S16 {
	S14<T> a;
	};
	static_assert(__is_trivially_relocatable(S16<int>), "");
	static_assert(!__is_trivially_relocatable(S16<S3>), "");

	S16<int> s16;

	template <class T>
	struct __attribute__((trivial_abi)) S17 {
	};

	S17<int> s17;
	static_assert(__is_trivially_relocatable(S17<int>), "");
	static_assert(__is_trivially_relocatable(S17<S3>), "");

	namespace deletedCopyMoveConstructor {
	struct __attribute__((trivial_abi)) CopyMoveDeleted { // expected-warning {{'trivial_abi' cannot be applied to 'CopyMoveDeleted'}} expected-note {{copy constructors and move constructors are all deleted}}
	CopyMoveDeleted(const CopyMoveDeleted &) = delete;
	CopyMoveDeleted(CopyMoveDeleted &&) = delete;
	};
	#ifdef __ORBIS__
	static_assert(__is_trivially_relocatable(CopyMoveDeleted), "");
	#else
	static_assert(!__is_trivially_relocatable(CopyMoveDeleted), "");
	#endif

	struct __attribute__((trivial_abi)) S18 { // expected-warning {{'trivial_abi' cannot be applied to 'S18'}} expected-note {{copy constructors and move constructors are all deleted}}
	CopyMoveDeleted a;
	};
	#ifdef __ORBIS__
	static_assert(__is_trivially_relocatable(S18), "");
	#else
	static_assert(!__is_trivially_relocatable(S18), "");
	#endif

	struct __attribute__((trivial_abi)) CopyDeleted {
	CopyDeleted(const CopyDeleted &) = delete;
	CopyDeleted(CopyDeleted &&) = default;
	};
	#if defined(_WIN64) && !defined(__MINGW32__)
	static_assert(!__is_trivially_relocatable(CopyDeleted), "");
	#else
	static_assert(__is_trivially_relocatable(CopyDeleted), "");
	#endif

	struct __attribute__((trivial_abi)) MoveDeleted {
	MoveDeleted(const MoveDeleted &) = default;
	MoveDeleted(MoveDeleted &&) = delete;
	};
	static_assert(__is_trivially_relocatable(MoveDeleted), "");

	struct __attribute__((trivial_abi)) S19 { // expected-warning {{'trivial_abi' cannot be applied to 'S19'}} expected-note {{copy constructors and move constructors are all deleted}}
	CopyDeleted a;
	MoveDeleted b;
	};
	#ifdef __ORBIS__
	static_assert(__is_trivially_relocatable(S19), "");
	#else
	static_assert(!__is_trivially_relocatable(S19), "");
	#endif

	// This is fine since the move constructor isn't deleted.
	struct __attribute__((trivial_abi)) S20 {
	int &&a; // a member of rvalue reference type deletes the copy constructor.
	};
	#if defined(_WIN64) && !defined(__MINGW32__)
	static_assert(!__is_trivially_relocatable(S20), "");
	#else
	static_assert(__is_trivially_relocatable(S20), "");
	#endif
	} // namespace deletedCopyMoveConstructor