gcc/testsuite/g++.dg/warn/Wuninitialized-6.C - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-options "-Wuninitialized -O2" } */

 namespace std {
      typedef __SIZE_TYPE__ size_t;
    }
     extern "C++" {
    inline void* operator new(std::size_t, void* __p) throw() {
   return __p;
   }
    }
     namespace boost{
       __extension__ typedef long long long_long_type;
    }
     namespace mpl_ {
    namespace aux {
  }
    }
     namespace boost {
    namespace mpl {
   using namespace mpl_;
   }
   }
     namespace mpl_ {
    struct integral_c_tag {
   };
    template< int N > struct int_ {
   };
    }
     namespace boost {
    namespace mpl {
  }
   }
     namespace mpl_ {
    template< bool C_ > struct bool_;
    typedef bool_<true> true_;
    typedef bool_<false> false_;
    }
     namespace mpl_ {
    template< bool C_ > struct bool_ {
       static const bool value = C_;
   };
    template< typename T, T N > struct integral_c {
       static const T value = N;
   };
    }
     namespace boost{
    template <class T, T val> struct integral_constant : public mpl::integral_c<T, val> {
   };
    template<> struct integral_constant<bool,false> : public mpl::false_ {
      typedef integral_constant<bool,false> type;
   };
    template< typename T > struct is_lvalue_reference : ::boost::integral_constant<bool,false> {
   };
    template< typename T > struct is_rvalue_reference : ::boost::integral_constant<bool,false> {
   };
    namespace type_traits {
   template <bool b1, bool b2, bool b3 = false, bool b4 = false, bool b5 = false, bool b6 = false, bool b7 = false> struct ice_or;
   template <> struct ice_or<false, false, false, false, false, false, false> {
      static const bool value = false;
  };
   }
    }
     namespace boost {
    namespace detail {
   template <typename T> struct is_reference_impl {
     static const bool value = (::boost::type_traits::ice_or< ::boost::is_lvalue_reference<T>::value, ::boost::is_rvalue_reference<T>::value >::value)                  ;
  };
   }
    template< typename T > struct is_reference : ::boost::integral_constant<bool,::boost::detail::is_reference_impl<T>::value> {
   };
    namespace detail {
   template< typename T > struct alignment_of_impl {
     static const std::size_t value = __alignof__(T);
  };
   }
    template< typename T > struct alignment_of : ::boost::integral_constant<std::size_t,::boost::detail::alignment_of_impl<T>::value> {
   };
    }
     namespace mpl_ {
    struct na {
   };
    }
     namespace boost {
    namespace mpl {
   }
   }
     namespace boost {
    namespace mpl {
   template<       bool C     , typename T1     , typename T2     > struct if_c {
      typedef T1 type;
  };
   template<       typename T1     , typename T2     > struct if_c<false,T1,T2> {
      typedef T2 type;
  };
   template<       typename T1 = na     , typename T2 = na     , typename T3 = na     > struct if_ {
   private:     typedef if_c<           static_cast<bool>(T1::value)         , T2         , T3         > almost_type_;
   public:     typedef typename almost_type_::type type;
  };
   }
   }
     namespace boost{
    template <bool x> struct STATIC_ASSERTION_FAILURE;
    template <> struct STATIC_ASSERTION_FAILURE<true> {
   };
    template<int x> struct static_assert_test{
  };
    namespace detail {
   class alignment_dummy;
   typedef void (*function_ptr)();
   typedef int (alignment_dummy::*member_ptr);
   typedef int (alignment_dummy::*member_function_ptr)();
   template <bool found, std::size_t target, class TestType> struct lower_alignment_helper {
      typedef char type;
      enum { value = true };
  };
   template <std::size_t target, class TestType> struct lower_alignment_helper<false,target,TestType> {
      enum { value = (alignment_of<TestType>::value == target) };
      typedef typename mpl::if_c<value, TestType, char>::type type;
  };
   template <typename T> struct has_one_T {
    T data;
  };
   template <std::size_t target> union lower_alignment {
      enum { found0 = false };
   typename lower_alignment_helper< found0,target,char >::type t0;
  enum { found1 = lower_alignment_helper<found0,target,char >::value };
  typename lower_alignment_helper< found1,target,short >::type t1;
  enum { found2 = lower_alignment_helper<found1,target,short >::value };
  typename lower_alignment_helper< found2,target,int >::type t2;
  enum { found3 = lower_alignment_helper<found2,target,int >::value };
  typename lower_alignment_helper< found3,target,long >::type t3;
  enum { found4 = lower_alignment_helper<found3,target,long >::value };
  typename lower_alignment_helper< found4,target,::boost::long_long_type >::type t4;
  enum { found5 = lower_alignment_helper<found4,target,::boost::long_long_type >::value };
  typename lower_alignment_helper< found5,target,float >::type t5;
  enum { found6 = lower_alignment_helper<found5,target,float >::value };
  typename lower_alignment_helper< found6,target,double >::type t6;
  enum { found7 = lower_alignment_helper<found6,target,double >::value };
  typename lower_alignment_helper< found7,target,long double >::type t7;
  enum { found8 = lower_alignment_helper<found7,target,long double >::value };
  typename lower_alignment_helper< found8,target,void* >::type t8;
  enum { found9 = lower_alignment_helper<found8,target,void* >::value };
  typename lower_alignment_helper< found9,target,function_ptr >::type t9;
  enum { found10 = lower_alignment_helper<found9,target,function_ptr >::value };
  typename lower_alignment_helper< found10,target,member_ptr >::type t10;
  enum { found11 = lower_alignment_helper<found10,target,member_ptr >::value };
  typename lower_alignment_helper< found11,target,member_function_ptr >::type t11;
  enum { found12 = lower_alignment_helper<found11,target,member_function_ptr >::value };
  typename lower_alignment_helper< found12,target,boost::detail::has_one_T< char > >::type t12;
  enum { found13 = lower_alignment_helper<found12,target,boost::detail::has_one_T< char > >::value };
  typename lower_alignment_helper< found13,target,boost::detail::has_one_T< short > >::type t13;
  enum { found14 = lower_alignment_helper<found13,target,boost::detail::has_one_T< short > >::value };
  typename lower_alignment_helper< found14,target,boost::detail::has_one_T< int > >::type t14;
  enum { found15 = lower_alignment_helper<found14,target,boost::detail::has_one_T< int > >::value };
  typename lower_alignment_helper< found15,target,boost::detail::has_one_T< long > >::type t15;
  enum { found16 = lower_alignment_helper<found15,target,boost::detail::has_one_T< long > >::value };
  typename lower_alignment_helper< found16,target,boost::detail::has_one_T< ::boost::long_long_type > >::type t16;
  enum { found17 = lower_alignment_helper<found16,target,boost::detail::has_one_T< ::boost::long_long_type > >::value };
  typename lower_alignment_helper< found17,target,boost::detail::has_one_T< float > >::type t17;
  enum { found18 = lower_alignment_helper<found17,target,boost::detail::has_one_T< float > >::value };
  typename lower_alignment_helper< found18,target,boost::detail::has_one_T< double > >::type t18;
  enum { found19 = lower_alignment_helper<found18,target,boost::detail::has_one_T< double > >::value };
  typename lower_alignment_helper< found19,target,boost::detail::has_one_T< long double > >::type t19;
  enum { found20 = lower_alignment_helper<found19,target,boost::detail::has_one_T< long double > >::value };
  typename lower_alignment_helper< found20,target,boost::detail::has_one_T< void* > >::type t20;
  enum { found21 = lower_alignment_helper<found20,target,boost::detail::has_one_T< void* > >::value };
  typename lower_alignment_helper< found21,target,boost::detail::has_one_T< function_ptr > >::type t21;
  enum { found22 = lower_alignment_helper<found21,target,boost::detail::has_one_T< function_ptr > >::value };
  typename lower_alignment_helper< found22,target,boost::detail::has_one_T< member_ptr > >::type t22;
  enum { found23 = lower_alignment_helper<found22,target,boost::detail::has_one_T< member_ptr > >::value };
  typename lower_alignment_helper< found23,target,boost::detail::has_one_T< member_function_ptr > >::type t23;
  enum { found24 = lower_alignment_helper<found23,target,boost::detail::has_one_T< member_function_ptr > >::value };
  };
   union max_align {
  };
   template<std::size_t TAlign, std::size_t Align> struct is_aligned {
      static const bool value = (TAlign >= Align) & (TAlign % Align == 0)          ;
  };
   template <std::size_t Align> class type_with_alignment_imp {
      typedef ::boost::detail::lower_alignment<Align> t1;
      typedef typename mpl::if_c<           ::boost::detail::is_aligned< ::boost::alignment_of<t1>::value,Align >::value         , t1         , ::boost::detail::max_align         >::type align_t;
      static const std::size_t found = alignment_of<align_t>::value;
      typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((found >= Align) == 0 ? false : true) >)> boost_static_assert_typedef_206;
      typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((found % Align == 0) == 0 ? false : true) >)> boost_static_assert_typedef_207;
   public:     typedef align_t type;
  };
   }
    template <std::size_t Align> class type_with_alignment   : public ::boost::detail::type_with_alignment_imp<Align> {
   };
    }
     namespace boost {
    namespace detail{
   }
    template< typename T > struct remove_reference {
   };
    }
     namespace boost {
    namespace mpl {
   namespace aux {
  template< typename T > struct nested_type_wknd     : T::type { };
  }
  }
    namespace mpl {
   namespace aux {
  template< long C_ > struct not_impl     : bool_<!C_> { };
  }
   template<       typename T = na     > struct not_     : aux::not_impl<           ::boost::mpl::aux::nested_type_wknd<T>::value         > {
  };
   }
    namespace detail {
   template <typename T> struct make_reference_content {
      typedef T type;
  };
   }
    namespace detail {
   struct none_helper{
 };
   }
    typedef int detail::none_helper::*none_t ;
    }
     namespace boost_optional_detail {
      template <class T, class Factory>   inline void construct(Factory const& factory, void* address)   {
     }
    }
     namespace boost {
    class in_place_factory_base ;
    class typed_in_place_factory_base ;
    namespace optional_detail {
   template <class T> class aligned_storage {
      union     __attribute__((may_alias))     dummy_u     {         char data[ sizeof(T) ];         typename type_with_alignment<           ::boost::alignment_of<T>::value >::type aligner_;     }
  dummy_ ;
    public:     void const* address() const { return &dummy_; }
      void * address() { return &dummy_; }
  }
   ;
   template<class T> struct types_when_isnt_ref {
    typedef T const& reference_const_type ;
    typedef T & reference_type ;
    typedef T const* pointer_const_type ;
    typedef T * pointer_type ;
    typedef T const& argument_type ;
  }
   ;
   template<class T> struct types_when_is_ref {
    typedef typename remove_reference<T>::type raw_type ;
    typedef raw_type& reference_const_type ;
    typedef raw_type& argument_type ;
  }
   ;
   struct optional_tag {
 }
   ;
   template<class T> struct optional_base : public optional_tag {
      typedef     typename     ::boost::detail::make_reference_content<T>::type internal_type ;
      typedef aligned_storage<internal_type> storage_type ;
      typedef types_when_isnt_ref<T> types_when_not_ref ;
      typedef types_when_is_ref<T> types_when_ref ;
      typedef optional_base<T> this_type ;
      typedef T value_type ;
      typedef mpl::true_ is_reference_tag ;
      typedef mpl::false_ is_not_reference_tag ;
      typedef typename is_reference<T>::type is_reference_predicate ;
      typedef typename mpl::if_<is_reference_predicate,types_when_ref,types_when_not_ref>::type types ;
      typedef bool (this_type::*unspecified_bool_type)() const;
      typedef typename types::reference_type reference_type ;
      typedef typename types::reference_const_type reference_const_type ;
      typedef typename types::pointer_type pointer_type ;
      typedef typename types::pointer_const_type pointer_const_type ;
      typedef typename types::argument_type argument_type ;
      optional_base() : m_initialized(false) {}
      optional_base ( argument_type val ) : m_initialized(false)     {       construct(val);     }
      optional_base ( bool cond, argument_type val ) : m_initialized(false)     {       if ( cond )         construct(val);     }
      optional_base ( optional_base const& rhs )       :       m_initialized(false)     {       if ( rhs.is_initialized() )         construct(rhs.get_impl());     }
      pointer_const_type get_ptr() const { return m_initialized ? get_ptr_impl() : 0 ; }
      pointer_type get_ptr() { return m_initialized ? get_ptr_impl() : 0 ; }
      bool is_initialized() const { return m_initialized ; }
      void construct ( argument_type val )      {        new (m_storage.address()) internal_type(val) ;        m_initialized = true ;      }
      template<class Expr>     void construct ( Expr const& factory, in_place_factory_base const* )      {        typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((::boost::mpl::not_<is_reference_predicate>::value) == 0 ? false : true) >)> boost_static_assert_typedef_355 ;        boost_optional_detail::construct<value_type>(factory, m_storage.address());        m_initialized = true ;      }
      template<class Expr>     void construct ( Expr const& factory, typed_in_place_factory_base const* )      {        typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((::boost::mpl::not_<is_reference_predicate>::value) == 0 ? false : true) >)> boost_static_assert_typedef_364 ;        factory.apply(m_storage.address()) ;        m_initialized = true ;      }
      void destroy()     {     }
      unspecified_bool_type safe_bool() const { return m_initialized ? &this_type::is_initialized : 0 ; }
      reference_const_type get_impl() const { return dereference(get_object(), is_reference_predicate() ) ; }
      reference_type get_impl() { return dereference(get_object(), is_reference_predicate() ) ; }
      pointer_const_type get_ptr_impl() const { return cast_ptr(get_object(), is_reference_predicate() ) ; }
      pointer_type get_ptr_impl() { return cast_ptr(get_object(), is_reference_predicate() ) ; }
      internal_type const* get_object() const     {         union { void const* ap_pvoid; internal_type const* as_ptype; } caster = { m_storage.address() };         return caster.as_ptype;     }
      internal_type * get_object()     {         union { void* ap_pvoid; internal_type* as_ptype; } caster = { m_storage.address() };         return caster.as_ptype;     }
      reference_const_type dereference( internal_type const* p, is_not_reference_tag ) const { return *p ; }
      pointer_type cast_ptr( internal_type * p, is_reference_tag ) { return &p->get() ; }
      bool m_initialized ;
      storage_type m_storage ;
  }
   ;
   }
    template<class T> class optional : public optional_detail::optional_base<T> {
       typedef optional_detail::optional_base<T> base ;
     public :     typedef optional<T> this_type ;
       typedef typename base::reference_const_type reference_const_type ;
       reference_const_type get() const {
  (static_cast<void> (0)) ;
  return this->get_impl();
  }
       reference_const_type operator *() const {
  return this->get() ;
  }
       bool operator!() const {
  return !this->is_initialized() ;
  }
   }
    ;
    template<class OptionalPointee> inline bool equal_pointees2 ( OptionalPointee const& x, OptionalPointee const& y ) {
     return (!x) != (!y) ? false : ( !x ? true : (*x) == (*y) ) ;
   }
    template<class T> inline bool operator == ( optional<T> const& x, optional<T> const& y ) {
   return equal_pointees2(x,y);
   }
    template<class T> inline bool operator != ( optional<T> const& x, optional<T> const& y ) {
   return !( x == y ) ;
   }
    }
     ::boost::optional< std::size_t > getitem();
     class BAR {
    public:     int FOO();
    private:     ::boost::optional< std::size_t > m_aHoveredItem;
    };
     int BAR::FOO() {
           ::boost::optional< std::size_t > aOldItem(getitem());
           ::boost::optional< std::size_t > aNewItem(m_aHoveredItem);
           if (aOldItem != aNewItem)             return 1;
 	return 0;
    }
	/* { dg-do compile } */
	/* { dg-options "-Wuninitialized -O2" } */

	namespace std {
	typedef __SIZE_TYPE__ size_t;
	}
	extern "C++" {
	inline void* operator new(std::size_t, void* __p) throw() {
	return __p;
	}
	}
	namespace boost{
	__extension__ typedef long long long_long_type;
	}
	namespace mpl_ {
	namespace aux {
	}
	}
	namespace boost {
	namespace mpl {
	using namespace mpl_;
	}
	}
	namespace mpl_ {
	struct integral_c_tag {
	};
	template< int N > struct int_ {
	};
	}
	namespace boost {
	namespace mpl {
	}
	}
	namespace mpl_ {
	template< bool C_ > struct bool_;
	typedef bool_<true> true_;
	typedef bool_<false> false_;
	}
	namespace mpl_ {
	template< bool C_ > struct bool_ {
	static const bool value = C_;
	};
	template< typename T, T N > struct integral_c {
	static const T value = N;
	};
	}
	namespace boost{
	template <class T, T val> struct integral_constant : public mpl::integral_c<T, val> {
	};
	template<> struct integral_constant<bool,false> : public mpl::false_ {
	typedef integral_constant<bool,false> type;
	};
	template< typename T > struct is_lvalue_reference : ::boost::integral_constant<bool,false> {
	};
	template< typename T > struct is_rvalue_reference : ::boost::integral_constant<bool,false> {
	};
	namespace type_traits {
	template <bool b1, bool b2, bool b3 = false, bool b4 = false, bool b5 = false, bool b6 = false, bool b7 = false> struct ice_or;
	template <> struct ice_or<false, false, false, false, false, false, false> {
	static const bool value = false;
	};
	}
	}
	namespace boost {
	namespace detail {
	template <typename T> struct is_reference_impl {
	static const bool value = (::boost::type_traits::ice_or< ::boost::is_lvalue_reference<T>::value, ::boost::is_rvalue_reference<T>::value >::value) ;
	};
	}
	template< typename T > struct is_reference : ::boost::integral_constant<bool,::boost::detail::is_reference_impl<T>::value> {
	};
	namespace detail {
	template< typename T > struct alignment_of_impl {
	static const std::size_t value = __alignof__(T);
	};
	}
	template< typename T > struct alignment_of : ::boost::integral_constant<std::size_t,::boost::detail::alignment_of_impl<T>::value> {
	};
	}
	namespace mpl_ {
	struct na {
	};
	}
	namespace boost {
	namespace mpl {
	}
	}
	namespace boost {
	namespace mpl {
	template< bool C , typename T1 , typename T2 > struct if_c {
	typedef T1 type;
	};
	template< typename T1 , typename T2 > struct if_c<false,T1,T2> {
	typedef T2 type;
	};
	template< typename T1 = na , typename T2 = na , typename T3 = na > struct if_ {
	private: typedef if_c< static_cast<bool>(T1::value) , T2 , T3 > almost_type_;
	public: typedef typename almost_type_::type type;
	};
	}
	}
	namespace boost{
	template <bool x> struct STATIC_ASSERTION_FAILURE;
	template <> struct STATIC_ASSERTION_FAILURE<true> {
	};
	template<int x> struct static_assert_test{
	};
	namespace detail {
	class alignment_dummy;
	typedef void (*function_ptr)();
	typedef int (alignment_dummy::*member_ptr);
	typedef int (alignment_dummy::*member_function_ptr)();
	template <bool found, std::size_t target, class TestType> struct lower_alignment_helper {
	typedef char type;
	enum { value = true };
	};
	template <std::size_t target, class TestType> struct lower_alignment_helper<false,target,TestType> {
	enum { value = (alignment_of<TestType>::value == target) };
	typedef typename mpl::if_c<value, TestType, char>::type type;
	};
	template <typename T> struct has_one_T {
	T data;
	};
	template <std::size_t target> union lower_alignment {
	enum { found0 = false };
	typename lower_alignment_helper< found0,target,char >::type t0;
	enum { found1 = lower_alignment_helper<found0,target,char >::value };
	typename lower_alignment_helper< found1,target,short >::type t1;
	enum { found2 = lower_alignment_helper<found1,target,short >::value };
	typename lower_alignment_helper< found2,target,int >::type t2;
	enum { found3 = lower_alignment_helper<found2,target,int >::value };
	typename lower_alignment_helper< found3,target,long >::type t3;
	enum { found4 = lower_alignment_helper<found3,target,long >::value };
	typename lower_alignment_helper< found4,target,::boost::long_long_type >::type t4;
	enum { found5 = lower_alignment_helper<found4,target,::boost::long_long_type >::value };
	typename lower_alignment_helper< found5,target,float >::type t5;
	enum { found6 = lower_alignment_helper<found5,target,float >::value };
	typename lower_alignment_helper< found6,target,double >::type t6;
	enum { found7 = lower_alignment_helper<found6,target,double >::value };
	typename lower_alignment_helper< found7,target,long double >::type t7;
	enum { found8 = lower_alignment_helper<found7,target,long double >::value };
	typename lower_alignment_helper< found8,target,void* >::type t8;
	enum { found9 = lower_alignment_helper<found8,target,void* >::value };
	typename lower_alignment_helper< found9,target,function_ptr >::type t9;
	enum { found10 = lower_alignment_helper<found9,target,function_ptr >::value };
	typename lower_alignment_helper< found10,target,member_ptr >::type t10;
	enum { found11 = lower_alignment_helper<found10,target,member_ptr >::value };
	typename lower_alignment_helper< found11,target,member_function_ptr >::type t11;
	enum { found12 = lower_alignment_helper<found11,target,member_function_ptr >::value };
	typename lower_alignment_helper< found12,target,boost::detail::has_one_T< char > >::type t12;
	enum { found13 = lower_alignment_helper<found12,target,boost::detail::has_one_T< char > >::value };
	typename lower_alignment_helper< found13,target,boost::detail::has_one_T< short > >::type t13;
	enum { found14 = lower_alignment_helper<found13,target,boost::detail::has_one_T< short > >::value };
	typename lower_alignment_helper< found14,target,boost::detail::has_one_T< int > >::type t14;
	enum { found15 = lower_alignment_helper<found14,target,boost::detail::has_one_T< int > >::value };
	typename lower_alignment_helper< found15,target,boost::detail::has_one_T< long > >::type t15;
	enum { found16 = lower_alignment_helper<found15,target,boost::detail::has_one_T< long > >::value };
	typename lower_alignment_helper< found16,target,boost::detail::has_one_T< ::boost::long_long_type > >::type t16;
	enum { found17 = lower_alignment_helper<found16,target,boost::detail::has_one_T< ::boost::long_long_type > >::value };
	typename lower_alignment_helper< found17,target,boost::detail::has_one_T< float > >::type t17;
	enum { found18 = lower_alignment_helper<found17,target,boost::detail::has_one_T< float > >::value };
	typename lower_alignment_helper< found18,target,boost::detail::has_one_T< double > >::type t18;
	enum { found19 = lower_alignment_helper<found18,target,boost::detail::has_one_T< double > >::value };
	typename lower_alignment_helper< found19,target,boost::detail::has_one_T< long double > >::type t19;
	enum { found20 = lower_alignment_helper<found19,target,boost::detail::has_one_T< long double > >::value };
	typename lower_alignment_helper< found20,target,boost::detail::has_one_T< void* > >::type t20;
	enum { found21 = lower_alignment_helper<found20,target,boost::detail::has_one_T< void* > >::value };
	typename lower_alignment_helper< found21,target,boost::detail::has_one_T< function_ptr > >::type t21;
	enum { found22 = lower_alignment_helper<found21,target,boost::detail::has_one_T< function_ptr > >::value };
	typename lower_alignment_helper< found22,target,boost::detail::has_one_T< member_ptr > >::type t22;
	enum { found23 = lower_alignment_helper<found22,target,boost::detail::has_one_T< member_ptr > >::value };
	typename lower_alignment_helper< found23,target,boost::detail::has_one_T< member_function_ptr > >::type t23;
	enum { found24 = lower_alignment_helper<found23,target,boost::detail::has_one_T< member_function_ptr > >::value };
	};
	union max_align {
	};
	template<std::size_t TAlign, std::size_t Align> struct is_aligned {
	static const bool value = (TAlign >= Align) & (TAlign % Align == 0) ;
	};
	template <std::size_t Align> class type_with_alignment_imp {
	typedef ::boost::detail::lower_alignment<Align> t1;
	typedef typename mpl::if_c< ::boost::detail::is_aligned< ::boost::alignment_of<t1>::value,Align >::value , t1 , ::boost::detail::max_align >::type align_t;
	static const std::size_t found = alignment_of<align_t>::value;
	typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((found >= Align) == 0 ? false : true) >)> boost_static_assert_typedef_206;
	typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((found % Align == 0) == 0 ? false : true) >)> boost_static_assert_typedef_207;
	public: typedef align_t type;
	};
	}
	template <std::size_t Align> class type_with_alignment : public ::boost::detail::type_with_alignment_imp<Align> {
	};
	}
	namespace boost {
	namespace detail{
	}
	template< typename T > struct remove_reference {
	};
	}
	namespace boost {
	namespace mpl {
	namespace aux {
	template< typename T > struct nested_type_wknd : T::type { };
	}
	}
	namespace mpl {
	namespace aux {
	template< long C_ > struct not_impl : bool_<!C_> { };
	}
	template< typename T = na > struct not_ : aux::not_impl< ::boost::mpl::aux::nested_type_wknd<T>::value > {
	};
	}
	namespace detail {
	template <typename T> struct make_reference_content {
	typedef T type;
	};
	}
	namespace detail {
	struct none_helper{
	};
	}
	typedef int detail::none_helper::*none_t ;
	}
	namespace boost_optional_detail {
	template <class T, class Factory> inline void construct(Factory const& factory, void* address) {
	}
	}
	namespace boost {
	class in_place_factory_base ;
	class typed_in_place_factory_base ;
	namespace optional_detail {
	template <class T> class aligned_storage {
	union __attribute__((may_alias)) dummy_u { char data[ sizeof(T) ]; typename type_with_alignment< ::boost::alignment_of<T>::value >::type aligner_; }
	dummy_ ;
	public: void const* address() const { return &dummy_; }
	void * address() { return &dummy_; }
	}
	;
	template<class T> struct types_when_isnt_ref {
	typedef T const& reference_const_type ;
	typedef T & reference_type ;
	typedef T const* pointer_const_type ;
	typedef T * pointer_type ;
	typedef T const& argument_type ;
	}
	;
	template<class T> struct types_when_is_ref {
	typedef typename remove_reference<T>::type raw_type ;
	typedef raw_type& reference_const_type ;
	typedef raw_type& argument_type ;
	}
	;
	struct optional_tag {
	}
	;
	template<class T> struct optional_base : public optional_tag {
	typedef typename ::boost::detail::make_reference_content<T>::type internal_type ;
	typedef aligned_storage<internal_type> storage_type ;
	typedef types_when_isnt_ref<T> types_when_not_ref ;
	typedef types_when_is_ref<T> types_when_ref ;
	typedef optional_base<T> this_type ;
	typedef T value_type ;
	typedef mpl::true_ is_reference_tag ;
	typedef mpl::false_ is_not_reference_tag ;
	typedef typename is_reference<T>::type is_reference_predicate ;
	typedef typename mpl::if_<is_reference_predicate,types_when_ref,types_when_not_ref>::type types ;
	typedef bool (this_type::*unspecified_bool_type)() const;
	typedef typename types::reference_type reference_type ;
	typedef typename types::reference_const_type reference_const_type ;
	typedef typename types::pointer_type pointer_type ;
	typedef typename types::pointer_const_type pointer_const_type ;
	typedef typename types::argument_type argument_type ;
	optional_base() : m_initialized(false) {}
	optional_base ( argument_type val ) : m_initialized(false) { construct(val); }
	optional_base ( bool cond, argument_type val ) : m_initialized(false) { if ( cond ) construct(val); }
	optional_base ( optional_base const& rhs ) : m_initialized(false) { if ( rhs.is_initialized() ) construct(rhs.get_impl()); }
	pointer_const_type get_ptr() const { return m_initialized ? get_ptr_impl() : 0 ; }
	pointer_type get_ptr() { return m_initialized ? get_ptr_impl() : 0 ; }
	bool is_initialized() const { return m_initialized ; }
	void construct ( argument_type val ) { new (m_storage.address()) internal_type(val) ; m_initialized = true ; }
	template<class Expr> void construct ( Expr const& factory, in_place_factory_base const* ) { typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((::boost::mpl::not_<is_reference_predicate>::value) == 0 ? false : true) >)> boost_static_assert_typedef_355 ; boost_optional_detail::construct<value_type>(factory, m_storage.address()); m_initialized = true ; }
	template<class Expr> void construct ( Expr const& factory, typed_in_place_factory_base const* ) { typedef ::boost::static_assert_test< sizeof(::boost::STATIC_ASSERTION_FAILURE< ((::boost::mpl::not_<is_reference_predicate>::value) == 0 ? false : true) >)> boost_static_assert_typedef_364 ; factory.apply(m_storage.address()) ; m_initialized = true ; }
	void destroy() { }
	unspecified_bool_type safe_bool() const { return m_initialized ? &this_type::is_initialized : 0 ; }
	reference_const_type get_impl() const { return dereference(get_object(), is_reference_predicate() ) ; }
	reference_type get_impl() { return dereference(get_object(), is_reference_predicate() ) ; }
	pointer_const_type get_ptr_impl() const { return cast_ptr(get_object(), is_reference_predicate() ) ; }
	pointer_type get_ptr_impl() { return cast_ptr(get_object(), is_reference_predicate() ) ; }
	internal_type const* get_object() const { union { void const* ap_pvoid; internal_type const* as_ptype; } caster = { m_storage.address() }; return caster.as_ptype; }
	internal_type * get_object() { union { void* ap_pvoid; internal_type* as_ptype; } caster = { m_storage.address() }; return caster.as_ptype; }
	reference_const_type dereference( internal_type const* p, is_not_reference_tag ) const { return *p ; }
	pointer_type cast_ptr( internal_type * p, is_reference_tag ) { return &p->get() ; }
	bool m_initialized ;
	storage_type m_storage ;
	}
	;
	}
	template<class T> class optional : public optional_detail::optional_base<T> {
	typedef optional_detail::optional_base<T> base ;
	public : typedef optional<T> this_type ;
	typedef typename base::reference_const_type reference_const_type ;
	reference_const_type get() const {
	(static_cast<void> (0)) ;
	return this->get_impl();
	}
	reference_const_type operator *() const {
	return this->get() ;
	}
	bool operator!() const {
	return !this->is_initialized() ;
	}
	}
	;
	template<class OptionalPointee> inline bool equal_pointees2 ( OptionalPointee const& x, OptionalPointee const& y ) {
	return (!x) != (!y) ? false : ( !x ? true : (x) == (y) ) ;
	}
	template<class T> inline bool operator == ( optional<T> const& x, optional<T> const& y ) {
	return equal_pointees2(x,y);
	}
	template<class T> inline bool operator != ( optional<T> const& x, optional<T> const& y ) {
	return !( x == y ) ;
	}
	}
	::boost::optional< std::size_t > getitem();
	class BAR {
	public: int FOO();
	private: ::boost::optional< std::size_t > m_aHoveredItem;
	};
	int BAR::FOO() {
	::boost::optional< std::size_t > aOldItem(getitem());
	::boost::optional< std::size_t > aNewItem(m_aHoveredItem);
	if (aOldItem != aNewItem) return 1;
	return 0;
	}