gcc/testsuite/g++.dg/cpp0x/std-layout1.C - gcc - Git at Google

 // { dg-do compile { target c++11 } }
 // { dg-additional-options "-Wno-deprecated-declarations" { target c++2a } }

 // [basic.types]/10:
 // Scalar types, standard-layout class types (Clause 9), arrays of such
 // types and cv-qualified versions of these types (3.9.3) are collectively
 // called standard-layout types.

 // [class]/7:
 // A standard-layout class is a class that:
 // * has no non-static data members of type non-standard-layout class (or
 // array of such types) or reference,
 // * has no virtual functions (10.3) and no virtual base classes (10.1),
 // * has the same access control (Clause 11) for all non-static data members,
 // * has no non-standard-layout base classes,
 // * either has no non-static data members in the most-derived class and at
 // most one base class with non-static data members, or has no base classes
 // with non-static data members, and
 // * has no base classes of the same type as the first non-static data member.

 #include <type_traits>

 #define TRY(expr) static_assert (expr, #expr)
 #define YES(type) TRY(std::is_standard_layout<type>::value); \
   TRY(std::is_standard_layout<type[]>::value); \
   TRY(std::is_standard_layout<const volatile type>::value)
 #define NO(type) TRY(!std::is_standard_layout<type>::value); \
   TRY(!std::is_standard_layout<type[]>::value); \
   TRY(!std::is_standard_layout<const volatile type>::value)
 #define NONPOD(type) TRY(!std::is_pod<type>::value); \
   TRY(!std::is_pod<type[]>::value); \
   TRY(!std::is_pod<const volatile type>::value)

 struct A;

 YES(int);
 YES(__complex int);
 YES(void *);
 YES(int A::*);
 typedef int (A::*pmf)();
 YES(pmf);

 struct A { ~A(); };
 YES(A);
 NONPOD(A);
 struct F: public A { int i; };
 YES(F);
 NONPOD(F);
 struct G: public A { A a; };
 NO(G);
 struct M { A a; };
 YES(M);

 class B
 {
   int i;
   __complex int c;
   void *p;
   double ar[4];
   int A::* pm;
   int (A::*pmf)();
 };
 YES(B);
 struct D: public B { };
 YES(D);
 struct E: public B { int q; };
 NO(E);
 struct D2: public B { };
 YES(D2);
 struct I: public D, public D2 { };
 NO(I);

 struct C
 {
   int i;
 private:
   int j;
 };
 NO(C);
 struct H: public C { };
 NO(H);
 struct N { C c; };
 NO(N);

 struct J { virtual void f(); };
 struct J2: J { };
 NO(J);
 NO(J2);
 struct K { };
 struct L: virtual K {};
 YES(K);
 NO(L);
	// { dg-do compile { target c++11 } }
	// { dg-additional-options "-Wno-deprecated-declarations" { target c++2a } }

	// [basic.types]/10:
	// Scalar types, standard-layout class types (Clause 9), arrays of such
	// types and cv-qualified versions of these types (3.9.3) are collectively
	// called standard-layout types.

	// [class]/7:
	// A standard-layout class is a class that:
	// * has no non-static data members of type non-standard-layout class (or
	// array of such types) or reference,
	// * has no virtual functions (10.3) and no virtual base classes (10.1),
	// * has the same access control (Clause 11) for all non-static data members,
	// * has no non-standard-layout base classes,
	// * either has no non-static data members in the most-derived class and at
	// most one base class with non-static data members, or has no base classes
	// with non-static data members, and
	// * has no base classes of the same type as the first non-static data member.

	#include <type_traits>

	#define TRY(expr) static_assert (expr, #expr)
	#define YES(type) TRY(std::is_standard_layout<type>::value); \
	TRY(std::is_standard_layout<type[]>::value); \
	TRY(std::is_standard_layout<const volatile type>::value)
	#define NO(type) TRY(!std::is_standard_layout<type>::value); \
	TRY(!std::is_standard_layout<type[]>::value); \
	TRY(!std::is_standard_layout<const volatile type>::value)
	#define NONPOD(type) TRY(!std::is_pod<type>::value); \
	TRY(!std::is_pod<type[]>::value); \
	TRY(!std::is_pod<const volatile type>::value)

	struct A;

	YES(int);
	YES(__complex int);
	YES(void *);
	YES(int A::*);
	typedef int (A::*pmf)();
	YES(pmf);

	struct A { ~A(); };
	YES(A);
	NONPOD(A);
	struct F: public A { int i; };
	YES(F);
	NONPOD(F);
	struct G: public A { A a; };
	NO(G);
	struct M { A a; };
	YES(M);

	class B
	{
	int i;
	__complex int c;
	void *p;
	double ar[4];
	int A::* pm;
	int (A::*pmf)();
	};
	YES(B);
	struct D: public B { };
	YES(D);
	struct E: public B { int q; };
	NO(E);
	struct D2: public B { };
	YES(D2);
	struct I: public D, public D2 { };
	NO(I);

	struct C
	{
	int i;
	private:
	int j;
	};
	NO(C);
	struct H: public C { };
	NO(H);
	struct N { C c; };
	NO(N);

	struct J { virtual void f(); };
	struct J2: J { };
	NO(J);
	NO(J2);
	struct K { };
	struct L: virtual K {};
	YES(K);
	NO(L);