gcc/testsuite/g++.dg/torture/pr44972.C - gcc - Git at Google

 /* { dg-do compile } */

 #include<cassert>
 #include<new>
 #include<utility>

 namespace boost {

 template<class T>
 class optional;

 class aligned_storage
 {
 	char data[ 1000 ];
   public:
     void const* address() const { return &data[0]; }
     void      * address()       { return &data[0]; }
 } ;


 template<class T>
 class optional_base
 {
   protected :
     optional_base(){}
     optional_base ( T const& val )
     {
       construct(val);
     }

     template<class U>
     void assign ( optional<U> const& rhs )
     {
       if (!is_initialized())
         if ( rhs.is_initialized() )
           construct(T());
     }

   public :

     bool is_initialized() const { return m_initialized ; }

   protected :

     void construct ( T const& val )
      {
        new (m_storage.address()) T(val) ;
      }

     T const* get_ptr_impl() const
     { return static_cast<T const*>(m_storage.address()); }

   private :

     bool m_initialized ;
     aligned_storage  m_storage ;
 } ;


 template<class T>
 class optional : public optional_base<T>
 {
     typedef optional_base<T> base ;

   public :

     optional() : base() {}
     optional ( T const& val ) : base(val) {}
     optional& operator= ( optional const& rhs )
       {
         this->assign( rhs ) ;
         return *this ;
       }

     T const& get() const ;

     T const* operator->() const { assert(this->is_initialized()) ; return this->get_ptr_impl() ; }

 } ;


 } // namespace boost


 namespace std
 {

   template<typename _Tp, std::size_t _Nm>
     struct array
     {
       typedef _Tp 	    			      value_type;
       typedef const value_type*			      const_iterator;

       value_type _M_instance[_Nm];

     };
 }


 class NT
 {
   double _inf, _sup;
 };


 template < typename T > inline
 std::array<T, 1>
 make_array(const T& b1)
 {
   std::array<T, 1> a = { { b1 } };
   return a;
 }

 class V
 {
   typedef std::array<NT, 1>               Base;
   Base base;

 public:
   V() {}
   V(const NT &x)
     : base(make_array(x)) {}

 };

 using boost::optional ;

 optional< std::pair< NT, NT > >
   linsolve_pointC2() ;

 optional< V > construct_normal_offset_lines_isecC2 ( )
 {
   optional< std::pair<NT,NT> > ip;

   ip = linsolve_pointC2();

   V a(ip->first) ;
   return a;
 }
	/* { dg-do compile } */

	#include<cassert>
	#include<new>
	#include<utility>

	namespace boost {

	template<class T>
	class optional;

	class aligned_storage
	{
	char data[ 1000 ];
	public:
	void const* address() const { return &data[0]; }
	void * address() { return &data[0]; }
	} ;


	template<class T>
	class optional_base
	{
	protected :
	optional_base(){}
	optional_base ( T const& val )
	{
	construct(val);
	}

	template<class U>
	void assign ( optional<U> const& rhs )
	{
	if (!is_initialized())
	if ( rhs.is_initialized() )
	construct(T());
	}

	public :

	bool is_initialized() const { return m_initialized ; }

	protected :

	void construct ( T const& val )
	{
	new (m_storage.address()) T(val) ;
	}

	T const* get_ptr_impl() const
	{ return static_cast<T const*>(m_storage.address()); }

	private :

	bool m_initialized ;
	aligned_storage m_storage ;
	} ;


	template<class T>
	class optional : public optional_base<T>
	{
	typedef optional_base<T> base ;

	public :

	optional() : base() {}
	optional ( T const& val ) : base(val) {}
	optional& operator= ( optional const& rhs )
	{
	this->assign( rhs ) ;
	return *this ;
	}

	T const& get() const ;

	T const* operator->() const { assert(this->is_initialized()) ; return this->get_ptr_impl() ; }

	} ;


	} // namespace boost


	namespace std
	{

	template<typename _Tp, std::size_t _Nm>
	struct array
	{
	typedef _Tp value_type;
	typedef const value_type* const_iterator;

	value_type _M_instance[_Nm];

	};
	}


	class NT
	{
	double _inf, _sup;
	};


	template < typename T > inline
	std::array<T, 1>
	make_array(const T& b1)
	{
	std::array<T, 1> a = { { b1 } };
	return a;
	}

	class V
	{
	typedef std::array<NT, 1> Base;
	Base base;

	public:
	V() {}
	V(const NT &x)
	: base(make_array(x)) {}

	};

	using boost::optional ;

	optional< std::pair< NT, NT > >
	linsolve_pointC2() ;

	optional< V > construct_normal_offset_lines_isecC2 ( )
	{
	optional< std::pair<NT,NT> > ip;

	ip = linsolve_pointC2();

	V a(ip->first) ;
	return a;
	}