gcc/testsuite/g++.dg/torture/pr45877.C - gcc - Git at Google

 // { dg-do compile }
 // { dg-additional-options "-Wno-return-type" }

 namespace std __attribute__ ((__visibility__ ("default")))
 {
   typedef __SIZE_TYPE__ size_t;
   template<typename _Alloc>     class allocator;
   template<class _CharT>     struct char_traits;
   template<typename _CharT, typename _Traits = char_traits<_CharT>,
       typename _Alloc = allocator<_CharT> >
 	  class basic_string;
   typedef basic_string<char> string;
   template<class _T1, class _T2>     struct pair     { };
   template<typename _Tp>     class allocator    { };
   template<typename _Arg1, typename _Arg2, typename _Result>
       struct binary_function     {
 	  typedef _Arg1 first_argument_type;
 	  typedef _Arg2 second_argument_type;
 	  typedef _Result result_type;
       };
   template<typename _CharT, typename _Traits, typename _Alloc>
   class basic_string {
   public:
       basic_string(const _CharT* __s, const _Alloc& __a = _Alloc());
   };
   class type_info   {
   public:
       const char* name() const;
   };
   extern __inline __attribute__ ((__always_inline__)) __attribute__ ((__gnu_inline__, __artificial__))
   void * memcpy (void *__restrict __dest, __const void *__restrict __src, size_t __len) throw ()
   {
       return __builtin___memcpy_chk (__dest, __src, __len, __builtin_object_size (__dest, 0));
   }
   template <typename _Key, typename _Tp >
   class map {
       typedef _Key key_type;
       typedef _Tp mapped_type;
   public:
       mapped_type&       operator[](const key_type& __k);
   };
 }
 class CodeAlloc { };
 using namespace std;
 typedef void *Stack;
 class basicForEachType;
 typedef const basicForEachType * aType;
 extern map<const string,basicForEachType *> map_type;
 class AnyTypeWithOutCheck { };
 typedef AnyTypeWithOutCheck AnyType;
 template<typename T> AnyTypeWithOutCheck inline SetAny(const T & x)
 {
   AnyTypeWithOutCheck any;
   memcpy(&any,&x,sizeof(x));
 }
 template<typename T> const T& GetAny(const AnyTypeWithOutCheck & x);
 class E_F0;
 class C_F0;
 class Polymorphic;
 typedef E_F0 * Expression;
 class basicAC_F0;
 extern Polymorphic * TheOperators, * TheRightOperators;
 class basicForEachType : public CodeAlloc {
 public:
     virtual C_F0 CastTo(const C_F0 & e) const ;
 };
 class E_F0 :public CodeAlloc    {
 public:
     virtual AnyType operator()(Stack) const =0;
 };
 class E_F0mps : public E_F0 {
 };
 class ArrayOfaType : public CodeAlloc{
 protected:
     aType * t;
 };
 class OneOperator : public ArrayOfaType {
 public:
     OneOperator(aType rr,aType a,aType b);
     virtual E_F0 * code(const basicAC_F0 &) const =0;
 };
 class Polymorphic: public E_F0mps {
 public:
     void Add(const char * op,OneOperator * p0 ,OneOperator * p1=0) const;
 };
 class C_F0 {
 public:
     operator E_F0 * () const;
 };
 class basicAC_F0 {
 public:
     const C_F0 & operator [] (int i) const;
 };
 struct OneBinaryOperatorMI { };
 struct evalE_F2 { };
 template<typename C,class MI=OneBinaryOperatorMI,class MIx=evalE_F2 >
 class OneBinaryOperator : public OneOperator
 {
   typedef typename C::result_type R;
   typedef typename C::first_argument_type A;
   typedef typename C::second_argument_type B;
   aType t0,t1;
   class Op : public E_F0 {
       Expression a,b;
   public:
       AnyType operator()(Stack s) const {
 	  return SetAny<R>(static_cast<R>(C::f( GetAny<A>((*a)(s)),
 						GetAny<B>((*b)(s)))));
       }
       Op(Expression aa,Expression bb) : a(aa),b(bb) { }
   };
 public:
   E_F0 * code(const basicAC_F0 & args) const   {
       return new Op(t0->CastTo(args[0]),t1->CastTo(args[1]));
   }
   OneBinaryOperator()
       : OneOperator(map_type[typeid(R).name()],
 		    map_type[typeid(A).name()],
 		    map_type[typeid(B).name()]), t0(t[0]), t1(t[1]) { }
 };
 struct NothingType { };
 class ShapeOfArray{ };
 template<class R> class KN_: public ShapeOfArray { };
 template <class T> struct affectation: binary_function<T, T, T> { };
 template<class K,class L,class OP> struct set_A_BI
 : public binary_function<KN_<K>,pair<KN_<K>, KN_<L> > *,KN_<K> >
 {
   static KN_<K> f(const KN_<K> & a, pair<KN_<K>, KN_<L> > * const & b);
 };
 template<class K,class L,class OP> struct set_AI_B
 : public binary_function<pair<KN_<K>, KN_<L> > * ,KN_<K>, NothingType >
 {
   static NothingType f( pair<KN_<K>, KN_<L> > * const & b,const KN_<K> & a);
 };
 template<class K,class Z> void ArrayOperator()
 {
   TheOperators->Add("=", new OneBinaryOperator<set_A_BI< K,Z,affectation<K> > >,
 		    new OneBinaryOperator<set_AI_B< K,Z,affectation<K> > >);
 }
 void initArrayOperatorlong() {
     ArrayOperator<long,long>();
 }
	// { dg-do compile }
	// { dg-additional-options "-Wno-return-type" }

	namespace std __attribute__ ((__visibility__ ("default")))
	{
	typedef __SIZE_TYPE__ size_t;
	template<typename _Alloc> class allocator;
	template<class _CharT> struct char_traits;
	template<typename _CharT, typename _Traits = char_traits<_CharT>,
	typename _Alloc = allocator<_CharT> >
	class basic_string;
	typedef basic_string<char> string;
	template<class _T1, class _T2> struct pair { };
	template<typename _Tp> class allocator { };
	template<typename _Arg1, typename _Arg2, typename _Result>
	struct binary_function {
	typedef _Arg1 first_argument_type;
	typedef _Arg2 second_argument_type;
	typedef _Result result_type;
	};
	template<typename _CharT, typename _Traits, typename _Alloc>
	class basic_string {
	public:
	basic_string(const _CharT* __s, const _Alloc& __a = _Alloc());
	};
	class type_info {
	public:
	const char* name() const;
	};
	extern __inline __attribute__ ((__always_inline__)) __attribute__ ((__gnu_inline__, __artificial__))
	void * memcpy (void __restrict __dest, __const void __restrict __src, size_t __len) throw ()
	{
	return __builtin___memcpy_chk (__dest, __src, __len, __builtin_object_size (__dest, 0));
	}
	template <typename _Key, typename _Tp >
	class map {
	typedef _Key key_type;
	typedef _Tp mapped_type;
	public:
	mapped_type& operator[](const key_type& __k);
	};
	}
	class CodeAlloc { };
	using namespace std;
	typedef void *Stack;
	class basicForEachType;
	typedef const basicForEachType * aType;
	extern map<const string,basicForEachType *> map_type;
	class AnyTypeWithOutCheck { };
	typedef AnyTypeWithOutCheck AnyType;
	template<typename T> AnyTypeWithOutCheck inline SetAny(const T & x)
	{
	AnyTypeWithOutCheck any;
	memcpy(&any,&x,sizeof(x));
	}
	template<typename T> const T& GetAny(const AnyTypeWithOutCheck & x);
	class E_F0;
	class C_F0;
	class Polymorphic;
	typedef E_F0 * Expression;
	class basicAC_F0;
	extern Polymorphic * TheOperators, * TheRightOperators;
	class basicForEachType : public CodeAlloc {
	public:
	virtual C_F0 CastTo(const C_F0 & e) const ;
	};
	class E_F0 :public CodeAlloc {
	public:
	virtual AnyType operator()(Stack) const =0;
	};
	class E_F0mps : public E_F0 {
	};
	class ArrayOfaType : public CodeAlloc{
	protected:
	aType * t;
	};
	class OneOperator : public ArrayOfaType {
	public:
	OneOperator(aType rr,aType a,aType b);
	virtual E_F0 * code(const basicAC_F0 &) const =0;
	};
	class Polymorphic: public E_F0mps {
	public:
	void Add(const char * op,OneOperator * p0 ,OneOperator * p1=0) const;
	};
	class C_F0 {
	public:
	operator E_F0 * () const;
	};
	class basicAC_F0 {
	public:
	const C_F0 & operator [] (int i) const;
	};
	struct OneBinaryOperatorMI { };
	struct evalE_F2 { };
	template<typename C,class MI=OneBinaryOperatorMI,class MIx=evalE_F2 >
	class OneBinaryOperator : public OneOperator
	{
	typedef typename C::result_type R;
	typedef typename C::first_argument_type A;
	typedef typename C::second_argument_type B;
	aType t0,t1;
	class Op : public E_F0 {
	Expression a,b;
	public:
	AnyType operator()(Stack s) const {
	return SetAny<R>(static_cast<R>(C::f( GetAny<A>((*a)(s)),
	GetAny<B>((*b)(s)))));
	}
	Op(Expression aa,Expression bb) : a(aa),b(bb) { }
	};
	public:
	E_F0 * code(const basicAC_F0 & args) const {
	return new Op(t0->CastTo(args[0]),t1->CastTo(args[1]));
	}
	OneBinaryOperator()
	: OneOperator(map_type[typeid(R).name()],
	map_type[typeid(A).name()],
	map_type[typeid(B).name()]), t0(t[0]), t1(t[1]) { }
	};
	struct NothingType { };
	class ShapeOfArray{ };
	template<class R> class KN_: public ShapeOfArray { };
	template <class T> struct affectation: binary_function<T, T, T> { };
	template<class K,class L,class OP> struct set_A_BI
	: public binary_function<KN_<K>,pair<KN_<K>, KN_<L> > *,KN_<K> >
	{
	static KN_<K> f(const KN_<K> & a, pair<KN_<K>, KN_<L> > * const & b);
	};
	template<class K,class L,class OP> struct set_AI_B
	: public binary_function<pair<KN_<K>, KN_<L> > * ,KN_<K>, NothingType >
	{
	static NothingType f( pair<KN_<K>, KN_<L> > * const & b,const KN_<K> & a);
	};
	template<class K,class Z> void ArrayOperator()
	{
	TheOperators->Add("=", new OneBinaryOperator<set_A_BI< K,Z,affectation<K> > >,
	new OneBinaryOperator<set_AI_B< K,Z,affectation<K> > >);
	}
	void initArrayOperatorlong() {
	ArrayOperator<long,long>();
	}