third_party/boost/optional/doc/27_ref_optional_synopsis.qbk - platform/external/sdv/vsomeip - Git at Google

 [/
     Boost.Optional

     Copyright (c) 2003-2007 Fernando Luis Cacciola Carballal

     Distributed under the Boost Software License, Version 1.0.
     (See accompanying file LICENSE_1_0.txt or copy at
     http://www.boost.org/LICENSE_1_0.txt)
 ]


 [#ref_header_optional_optional_hpp] [section:header_optional_optional Synopsis]

     ```// In Header: <`[@boost:/boost/optional/optional.hpp boost/optional/optional.hpp]'''<phrase role="comment">&gt;</phrase>'''``

     namespace boost {

     class in_place_init_t { /* see below */ } ; ``[link reference_in_place_init __GO_TO__]``
     const in_place_init_t in_place_init ( /* see below */ ) ;

     class in_place_init_if_t { /*see below*/ } ; ``[link reference_in_place_init_if __GO_TO__]``
     const in_place_init_if_t in_place_init_if ( /*see below*/ ) ;

     template <class T>
     class optional ; ``[link reference_operator_template __GO_TO__]``

     template <class T>
     class optional<T&> ; ``[link reference_operator_template_spec __GO_TO__]``

     template<class T> inline bool operator == ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_equal_optional_optional __GO_TO__]``

     template<class T> inline bool operator != ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_not_equal_optional_optional __GO_TO__]``

     template<class T> inline bool operator <  ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_less_optional_optional __GO_TO__]``

     template<class T> inline bool operator >  ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_greater_optional_optional __GO_TO__]``

     template<class T> inline bool operator <= ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_less_or_equal_optional_optional __GO_TO__]``

     template<class T> inline bool operator >= ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_greater_or_equal_optional_optional __GO_TO__]``

     template<class T> inline bool operator == ( optional<T> const& x, none_t ) noexcept ; ``[link reference_operator_compare_equal_optional_none __GO_TO__]``

     template<class T> inline bool operator != ( optional<T> const& x, none_t ) noexcept ; ``[link reference_operator_compare_not_equal_optional_none __GO_TO__]``

     template<class T> inline optional<T> make_optional ( T const& v ) ; ``[link reference_make_optional_value __GO_TO__]``

     template<class T> inline optional<std::decay_t<T>> make_optional ( T && v ) ; ``[link reference_make_optional_rvalue __GO_TO__]``

     template<class T> inline optional<T> make_optional ( bool condition, T const& v ) ; ``[link reference_make_optional_bool_value __GO_TO__]``

     template<class T> inline optional<std::decay_t<T>> make_optional ( bool condition, T && v ) ; ``[link reference_make_optional_bool_rvalue __GO_TO__]``

     template<class T> inline auto get_optional_value_or ( optional<T> const& opt, typename optional<T>::reference_const_type def ) -> typename optional<T>::reference_const_type; ``[link reference_free_get_value_or __GO_TO__]``

     template<class T> inline auto get_optional_value_or ( optional<T> const& opt, typename optional<T>::reference_type def ) -> typename optional<T>::reference_type ; ``[link reference_free_get_value_or __GO_TO__]``

     template<class T> inline T const& get ( optional<T> const& opt ) ; ``[link reference_optional_get __GO_TO__]``

     template<class T> inline T& get ( optional<T> & opt ) ; ``[link reference_optional_get __GO_TO__]``

     template<class T> inline T const* get ( optional<T> const* opt ) ; ``[link reference_optional_get __GO_TO__]``

     template<class T> inline T* get ( optional<T>* opt ) ; ``[link reference_optional_get __GO_TO__]``

     template<class T> inline auto get_pointer ( optional<T> const& opt ) -> ``['see below]``; ``[link reference_free_get_pointer __GO_TO__]``

     template<class T> inline auto get_pointer ( optional<T> & opt ) -> ``['see below]``; ``[link reference_free_get_pointer __GO_TO__]``

     template<class T> inline void swap( optional<T>& x, optional<T>& y ) ; ``[link reference_swap_optional_optional __GO_TO__]``

     template<class T> inline void swap( optional<T&>& x, optional<T&>& y ) ; ``[link reference_swap_optional_reference __GO_TO__]``

     } // namespace boost


 [endsect]


 [section:header_optional_in_place_init Initialization tags]

 [#reference_in_place_init]
 [#reference_in_place_init_if]

     namespace boost {

     class in_place_init_t { /* see below */ } ;
     const in_place_init_t in_place_init ( /* see below */ ) ;

     class in_place_init_if_t { /*see below*/ } ;
     const in_place_init_if_t in_place_init_if ( /*see below*/ ) ;

     }

 Classes `in_place_init_t` and `in_place_init_if_t` are empty clsses. Their purpose is to control overload resolution in the initialization of optional objects.
 They are empty, trivially copyable classes with disabled default constructor.

 [endsect]

 [section:header_optional_optional_values Optional Values]

 [#reference_operator_template]

     template <class T>
     class optional
     {
     public :

         typedef T         value_type ;
         typedef T &       reference_type ;
         typedef T const&  reference_const_type ;
         typedef T &&      rval_reference_type ;
         typedef T *       pointer_type ;
         typedef T const*  pointer_const_type ;

         optional () noexcept ; ``[link reference_optional_constructor __GO_TO__]``

         optional ( none_t ) noexcept ; ``[link reference_optional_constructor_none_t __GO_TO__]``

         optional ( T const& v ) ; ``[link reference_optional_constructor_value __GO_TO__]``

         optional ( T&& v ) ; ``[link reference_optional_constructor_move_value __GO_TO__]``

         optional ( bool condition, T const& v ) ; ``[link reference_optional_constructor_bool_value __GO_TO__]``

         optional ( optional const& rhs ) ; ``[link reference_optional_constructor_optional __GO_TO__]``

         optional ( optional&& rhs ) noexcept(``['see below]``) ; ``[link reference_optional_move_constructor_optional __GO_TO__]``

         template<class U> explicit optional ( optional<U> const& rhs ) ; ``[link reference_optional_constructor_other_optional __GO_TO__]``

         template<class U> explicit optional ( optional<U>&& rhs ) ; ``[link reference_optional_move_constructor_other_optional __GO_TO__]``

         template<class... Args> explicit optional ( in_place_init_t, Args&&... args ) ; ``[link reference_optional_in_place_init __GO_TO__]``

         template<class... Args> explicit optional ( in_place_init_if_t, bool condition, Args&&... args ) ; ``[link reference_optional_in_place_init_if __GO_TO__]``

         template<class InPlaceFactory> explicit optional ( InPlaceFactory const& f ) ; ``[link reference_optional_constructor_factory __GO_TO__]``

         template<class TypedInPlaceFactory> explicit optional ( TypedInPlaceFactory const& f ) ; ``[link reference_optional_constructor_factory __GO_TO__]``

         optional& operator = ( none_t ) noexcept ; ``[link reference_optional_operator_equal_none_t __GO_TO__]``

         optional& operator = ( T const& v ) ; ``[link reference_optional_operator_equal_value __GO_TO__]``

         optional& operator = ( T&& v ) ; ``[link reference_optional_operator_move_equal_value __GO_TO__]``

         optional& operator = ( optional const& rhs ) ; ``[link reference_optional_operator_equal_optional __GO_TO__]``

         optional& operator = ( optional&& rhs ) noexcept(``['see below]``) ; ``[link reference_optional_operator_move_equal_optional __GO_TO__]``

         template<class U> optional& operator = ( optional<U> const& rhs ) ; ``[link reference_optional_operator_equal_other_optional __GO_TO__]``

         template<class U> optional& operator = ( optional<U>&& rhs ) ; ``[link reference_optional_operator_move_equal_other_optional __GO_TO__]``

         template<class... Args> void emplace ( Args&&... args ) ; ``[link reference_optional_emplace __GO_TO__]``

         template<class InPlaceFactory> optional& operator = ( InPlaceFactory const& f ) ; ``[link reference_optional_operator_equal_factory __GO_TO__]``

         template<class TypedInPlaceFactory> optional& operator = ( TypedInPlaceFactory const& f ) ; ``[link reference_optional_operator_equal_factory __GO_TO__]``

         T const& get() const ; ``[link reference_optional_get __GO_TO__]``
         T&       get() ; ``[link reference_optional_get __GO_TO__]``

         T const* operator ->() const ; ``[link reference_optional_operator_arrow __GO_TO__]``
         T*       operator ->() ; ``[link reference_optional_operator_arrow __GO_TO__]``

         T const& operator *() const& ; ``[link reference_optional_operator_asterisk __GO_TO__]``
         T&       operator *() & ; ``[link reference_optional_operator_asterisk __GO_TO__]``
         T&&      operator *() && ; ``[link reference_optional_operator_asterisk_move __GO_TO__]``

         T const& value() const& ; ``[link reference_optional_value __GO_TO__]``
         T&       value() & ; ``[link reference_optional_value __GO_TO__]``
         T&&      value() && ; ``[link reference_optional_value_move __GO_TO__]``

         template<class U> T value_or( U && v ) const& ; ``[link reference_optional_value_or __GO_TO__]``
         template<class U> T value_or( U && v ) && ; ``[link reference_optional_value_or_move __GO_TO__]``

         template<class F> T value_or_eval( F f ) const& ; ``[link reference_optional_value_or_call __GO_TO__]``
         template<class F> T value_or_eval( F f ) && ; ``[link reference_optional_value_or_call_move __GO_TO__]``

         template<class F> auto map( F f ) const& -> ``['see below]``; ``[link reference_optional_map __GO_TO__]``
         template<class F> auto map( F f ) & -> ``['see below]``; ``[link reference_optional_map __GO_TO__]``
         template<class F> auto map( F f ) && -> ``['see below]``; ``[link reference_optional_map_move __GO_TO__]``

         template<class F> auto flat_map( F f ) const& -> ``['see below]``; ``[link reference_optional_flat_map __GO_TO__]``
         template<class F> auto flat_map( F f ) & -> ``['see below]``; ``[link reference_optional_flat_map __GO_TO__]``
         template<class F> auto flat_map( F f ) && -> ``['see below]``; ``[link reference_optional_flat_map_move __GO_TO__]``

         T const* get_ptr() const ; ``[link reference_optional_get_ptr __GO_TO__]``
         T*       get_ptr() ; ``[link reference_optional_get_ptr __GO_TO__]``

         bool has_value() const noexcept ; ``[link reference_optional_operator_bool __GO_TO__]``

         explicit operator bool() const noexcept ; ``[link reference_optional_operator_bool __GO_TO__]``

         bool operator!() const noexcept ; ``[link reference_optional_operator_not __GO_TO__]``

         void reset() noexcept ; ``[link reference_optional_reset __GO_TO__]``

         // deprecated methods

         // (deprecated)
         void reset ( T const& ) ; ``[link reference_optional_reset_value __GO_TO__]``

         // (deprecated)
         bool is_initialized() const ; ``[link reference_optional_is_initialized __GO_TO__]``

         // (deprecated)
         T const& get_value_or( T const& default ) const ; ``[link reference_optional_get_value_or_value __GO_TO__]``
     };


 [endsect]


 [section:header_optional_optional_refs Optional References]

 [#reference_operator_template_spec]
     template <class T>
     class optional<T&> // specilization for lvalue references
     {
     public :

         typedef T& value_type;
         typedef T& reference_type;
         typedef T& reference_const_type; // no const propagation
         typedef T& rval_reference_type;
         typedef T* pointer_type;
         typedef T* pointer_const_type;   // no const propagation

         optional () noexcept ; ``[link reference_optional_ref_default_ctor __GO_TO__]``

         optional ( none_t ) noexcept ; ``[link reference_optional_ref_default_ctor __GO_TO__]``

         template<class R> optional(R&& r) noexcept ;  ``[link reference_optional_ref_value_ctor __GO_TO__]``

         template <class R> optional(bool cond, R&& r) noexcept ; ``[link reference_optional_ref_cond_value_ctor __GO_TO__]``

         optional ( optional const& rhs ) noexcept ; ``[link reference_optional_ref_copy_ctor __GO_TO__]``

         template<class U> explicit optional ( optional<U&> const& rhs ) noexcept ; ``[link reference_optional_ref_ctor_from_opt_U __GO_TO__]``

         optional& operator = ( none_t ) noexcept ; ``[link reference_optional_ref_assign_none_t __GO_TO__]``

         optional& operator = ( optional const& rhs ) noexcept; ``[link reference_optional_ref_copy_assign __GO_TO__]``

         template<class U> optional& operator = ( optional<U&> const& rhs ) noexcept ; ``[link reference_optional_ref_assign_optional_U __GO_TO__]``

         template<class R> optional& operator = (R&& r) noexcept ; ``[link reference_optional_ref_assign_R __GO_TO__]``

         template<class R> void emplace ( R&& r ) noexcept ; ``[link reference_optional_ref_emplace_R __GO_TO__]``

         T& get() const ; ``[link reference_optional_ref_get __GO_TO__]``
         T& operator *() const ; ``[link reference_optional_ref_get __GO_TO__]``

         T* operator ->() const ; ``[link reference_optional_ref_arrow __GO_TO__]``

         T& value() const& ; ``[link reference_optional_ref_value __GO_TO__]``

         template<class R> T& value_or( R && r ) const noexcept ; ``[link reference_optional_ref_value_or __GO_TO__]``

         template<class F> T& value_or_eval( F f ) const ; ``[link reference_optional_ref_value_or_eval __GO_TO__]``

         template<class F> auto map( F f ) const -> ``['see below]``; ``[link reference_optional_ref_map __GO_TO__]``

         template<class F> auto flat_map( F f ) const -> ``['see below]``; ``[link reference_optional_ref_flat_map __GO_TO__]``

         T* get_ptr() const noexcept ; ``[link reference_optional_ref_get_ptr __GO_TO__]``

         bool has_value() const noexcept ; ``[link reference_optional_ref_operator_bool __GO_TO__]``

         explicit operator bool() const noexcept ; ``[link reference_optional_ref_operator_bool __GO_TO__]``

         bool operator!() const noexcept ; ``[link reference_optional_ref_operator_not __GO_TO__]``

         void reset() noexcept ; ``[link reference_optional_ref_reset __GO_TO__]``

         // deprecated methods

         // (deprecated)
         template<class R> void reset ( R && r ) noexcept ; ``[link reference_optional_ref_reset_value __GO_TO__]``

         // (deprecated)
         bool is_initialized() const noexcept ; ``[link reference_optional_ref_is_initialized __GO_TO__]``

         // (deprecated)
         template<class R> T& get_value_or( R && r ) constnoexcept; ``[link reference_optional_ref_get_value_or_value __GO_TO__]``

     private:
         T* ref; // exposition only
     };
 [endsect]
	[/
	Boost.Optional

	Copyright (c) 2003-2007 Fernando Luis Cacciola Carballal

	Distributed under the Boost Software License, Version 1.0.
	(See accompanying file LICENSE_1_0.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt)
	]


	[#ref_header_optional_optional_hpp] [section:header_optional_optional Synopsis]

	```// In Header: <`[@boost:/boost/optional/optional.hpp boost/optional/optional.hpp]'''<phrase role="comment">></phrase>'''``

	namespace boost {

	class in_place_init_t { /* see below */ } ; ``[link reference_in_place_init __GO_TO__]``
	const in_place_init_t in_place_init ( /* see below */ ) ;

	class in_place_init_if_t { /see below/ } ; ``[link reference_in_place_init_if __GO_TO__]``
	const in_place_init_if_t in_place_init_if ( /see below/ ) ;

	template <class T>
	class optional ; ``[link reference_operator_template __GO_TO__]``

	template <class T>
	class optional<T&> ; ``[link reference_operator_template_spec __GO_TO__]``

	template<class T> inline bool operator == ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_equal_optional_optional __GO_TO__]``

	template<class T> inline bool operator != ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_not_equal_optional_optional __GO_TO__]``

	template<class T> inline bool operator < ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_less_optional_optional __GO_TO__]``

	template<class T> inline bool operator > ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_greater_optional_optional __GO_TO__]``

	template<class T> inline bool operator <= ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_less_or_equal_optional_optional __GO_TO__]``

	template<class T> inline bool operator >= ( optional<T> const& x, optional<T> const& y ) ; ``[link reference_operator_compare_greater_or_equal_optional_optional __GO_TO__]``

	template<class T> inline bool operator == ( optional<T> const& x, none_t ) noexcept ; ``[link reference_operator_compare_equal_optional_none __GO_TO__]``

	template<class T> inline bool operator != ( optional<T> const& x, none_t ) noexcept ; ``[link reference_operator_compare_not_equal_optional_none __GO_TO__]``

	template<class T> inline optional<T> make_optional ( T const& v ) ; ``[link reference_make_optional_value __GO_TO__]``

	template<class T> inline optional<std::decay_t<T>> make_optional ( T && v ) ; ``[link reference_make_optional_rvalue __GO_TO__]``

	template<class T> inline optional<T> make_optional ( bool condition, T const& v ) ; ``[link reference_make_optional_bool_value __GO_TO__]``

	template<class T> inline optional<std::decay_t<T>> make_optional ( bool condition, T && v ) ; ``[link reference_make_optional_bool_rvalue __GO_TO__]``

	template<class T> inline auto get_optional_value_or ( optional<T> const& opt, typename optional<T>::reference_const_type def ) -> typename optional<T>::reference_const_type; ``[link reference_free_get_value_or __GO_TO__]``

	template<class T> inline auto get_optional_value_or ( optional<T> const& opt, typename optional<T>::reference_type def ) -> typename optional<T>::reference_type ; ``[link reference_free_get_value_or __GO_TO__]``

	template<class T> inline T const& get ( optional<T> const& opt ) ; ``[link reference_optional_get __GO_TO__]``

	template<class T> inline T& get ( optional<T> & opt ) ; ``[link reference_optional_get __GO_TO__]``

	template<class T> inline T const* get ( optional<T> const* opt ) ; ``[link reference_optional_get __GO_TO__]``

	template<class T> inline T* get ( optional<T>* opt ) ; ``[link reference_optional_get __GO_TO__]``

	template<class T> inline auto get_pointer ( optional<T> const& opt ) -> ``['see below]``; ``[link reference_free_get_pointer __GO_TO__]``

	template<class T> inline auto get_pointer ( optional<T> & opt ) -> ``['see below]``; ``[link reference_free_get_pointer __GO_TO__]``

	template<class T> inline void swap( optional<T>& x, optional<T>& y ) ; ``[link reference_swap_optional_optional __GO_TO__]``

	template<class T> inline void swap( optional<T&>& x, optional<T&>& y ) ; ``[link reference_swap_optional_reference __GO_TO__]``

	} // namespace boost


	[endsect]


	[section:header_optional_in_place_init Initialization tags]

	[#reference_in_place_init]
	[#reference_in_place_init_if]

	namespace boost {

	class in_place_init_t { /* see below */ } ;
	const in_place_init_t in_place_init ( /* see below */ ) ;

	class in_place_init_if_t { /see below/ } ;
	const in_place_init_if_t in_place_init_if ( /see below/ ) ;

	}

	Classes `in_place_init_t` and `in_place_init_if_t` are empty clsses. Their purpose is to control overload resolution in the initialization of optional objects.
	They are empty, trivially copyable classes with disabled default constructor.

	[endsect]

	[section:header_optional_optional_values Optional Values]

	[#reference_operator_template]

	template <class T>
	class optional
	{
	public :

	typedef T value_type ;
	typedef T & reference_type ;
	typedef T const& reference_const_type ;
	typedef T && rval_reference_type ;
	typedef T * pointer_type ;
	typedef T const* pointer_const_type ;

	optional () noexcept ; ``[link reference_optional_constructor __GO_TO__]``

	optional ( none_t ) noexcept ; ``[link reference_optional_constructor_none_t __GO_TO__]``

	optional ( T const& v ) ; ``[link reference_optional_constructor_value __GO_TO__]``

	optional ( T&& v ) ; ``[link reference_optional_constructor_move_value __GO_TO__]``

	optional ( bool condition, T const& v ) ; ``[link reference_optional_constructor_bool_value __GO_TO__]``

	optional ( optional const& rhs ) ; ``[link reference_optional_constructor_optional __GO_TO__]``

	optional ( optional&& rhs ) noexcept(``['see below]``) ; ``[link reference_optional_move_constructor_optional __GO_TO__]``

	template<class U> explicit optional ( optional<U> const& rhs ) ; ``[link reference_optional_constructor_other_optional __GO_TO__]``

	template<class U> explicit optional ( optional<U>&& rhs ) ; ``[link reference_optional_move_constructor_other_optional __GO_TO__]``

	template<class... Args> explicit optional ( in_place_init_t, Args&&... args ) ; ``[link reference_optional_in_place_init __GO_TO__]``

	template<class... Args> explicit optional ( in_place_init_if_t, bool condition, Args&&... args ) ; ``[link reference_optional_in_place_init_if __GO_TO__]``

	template<class InPlaceFactory> explicit optional ( InPlaceFactory const& f ) ; ``[link reference_optional_constructor_factory __GO_TO__]``

	template<class TypedInPlaceFactory> explicit optional ( TypedInPlaceFactory const& f ) ; ``[link reference_optional_constructor_factory __GO_TO__]``

	optional& operator = ( none_t ) noexcept ; ``[link reference_optional_operator_equal_none_t __GO_TO__]``

	optional& operator = ( T const& v ) ; ``[link reference_optional_operator_equal_value __GO_TO__]``

	optional& operator = ( T&& v ) ; ``[link reference_optional_operator_move_equal_value __GO_TO__]``

	optional& operator = ( optional const& rhs ) ; ``[link reference_optional_operator_equal_optional __GO_TO__]``

	optional& operator = ( optional&& rhs ) noexcept(``['see below]``) ; ``[link reference_optional_operator_move_equal_optional __GO_TO__]``

	template<class U> optional& operator = ( optional<U> const& rhs ) ; ``[link reference_optional_operator_equal_other_optional __GO_TO__]``

	template<class U> optional& operator = ( optional<U>&& rhs ) ; ``[link reference_optional_operator_move_equal_other_optional __GO_TO__]``

	template<class... Args> void emplace ( Args&&... args ) ; ``[link reference_optional_emplace __GO_TO__]``

	template<class InPlaceFactory> optional& operator = ( InPlaceFactory const& f ) ; ``[link reference_optional_operator_equal_factory __GO_TO__]``

	template<class TypedInPlaceFactory> optional& operator = ( TypedInPlaceFactory const& f ) ; ``[link reference_optional_operator_equal_factory __GO_TO__]``

	T const& get() const ; ``[link reference_optional_get __GO_TO__]``
	T& get() ; ``[link reference_optional_get __GO_TO__]``

	T const* operator ->() const ; ``[link reference_optional_operator_arrow __GO_TO__]``
	T* operator ->() ; ``[link reference_optional_operator_arrow __GO_TO__]``

	T const& operator *() const& ; ``[link reference_optional_operator_asterisk __GO_TO__]``
	T& operator *() & ; ``[link reference_optional_operator_asterisk __GO_TO__]``
	T&& operator *() && ; ``[link reference_optional_operator_asterisk_move __GO_TO__]``

	T const& value() const& ; ``[link reference_optional_value __GO_TO__]``
	T& value() & ; ``[link reference_optional_value __GO_TO__]``
	T&& value() && ; ``[link reference_optional_value_move __GO_TO__]``

	template<class U> T value_or( U && v ) const& ; ``[link reference_optional_value_or __GO_TO__]``
	template<class U> T value_or( U && v ) && ; ``[link reference_optional_value_or_move __GO_TO__]``

	template<class F> T value_or_eval( F f ) const& ; ``[link reference_optional_value_or_call __GO_TO__]``
	template<class F> T value_or_eval( F f ) && ; ``[link reference_optional_value_or_call_move __GO_TO__]``

	template<class F> auto map( F f ) const& -> ``['see below]``; ``[link reference_optional_map __GO_TO__]``
	template<class F> auto map( F f ) & -> ``['see below]``; ``[link reference_optional_map __GO_TO__]``
	template<class F> auto map( F f ) && -> ``['see below]``; ``[link reference_optional_map_move __GO_TO__]``

	template<class F> auto flat_map( F f ) const& -> ``['see below]``; ``[link reference_optional_flat_map __GO_TO__]``
	template<class F> auto flat_map( F f ) & -> ``['see below]``; ``[link reference_optional_flat_map __GO_TO__]``
	template<class F> auto flat_map( F f ) && -> ``['see below]``; ``[link reference_optional_flat_map_move __GO_TO__]``

	T const* get_ptr() const ; ``[link reference_optional_get_ptr __GO_TO__]``
	T* get_ptr() ; ``[link reference_optional_get_ptr __GO_TO__]``

	bool has_value() const noexcept ; ``[link reference_optional_operator_bool __GO_TO__]``

	explicit operator bool() const noexcept ; ``[link reference_optional_operator_bool __GO_TO__]``

	bool operator!() const noexcept ; ``[link reference_optional_operator_not __GO_TO__]``

	void reset() noexcept ; ``[link reference_optional_reset __GO_TO__]``

	// deprecated methods

	// (deprecated)
	void reset ( T const& ) ; ``[link reference_optional_reset_value __GO_TO__]``

	// (deprecated)
	bool is_initialized() const ; ``[link reference_optional_is_initialized __GO_TO__]``

	// (deprecated)
	T const& get_value_or( T const& default ) const ; ``[link reference_optional_get_value_or_value __GO_TO__]``
	};


	[endsect]


	[section:header_optional_optional_refs Optional References]

	[#reference_operator_template_spec]
	template <class T>
	class optional<T&> // specilization for lvalue references
	{
	public :

	typedef T& value_type;
	typedef T& reference_type;
	typedef T& reference_const_type; // no const propagation
	typedef T& rval_reference_type;
	typedef T* pointer_type;
	typedef T* pointer_const_type; // no const propagation

	optional () noexcept ; ``[link reference_optional_ref_default_ctor __GO_TO__]``

	optional ( none_t ) noexcept ; ``[link reference_optional_ref_default_ctor __GO_TO__]``

	template<class R> optional(R&& r) noexcept ; ``[link reference_optional_ref_value_ctor __GO_TO__]``

	template <class R> optional(bool cond, R&& r) noexcept ; ``[link reference_optional_ref_cond_value_ctor __GO_TO__]``

	optional ( optional const& rhs ) noexcept ; ``[link reference_optional_ref_copy_ctor __GO_TO__]``

	template<class U> explicit optional ( optional<U&> const& rhs ) noexcept ; ``[link reference_optional_ref_ctor_from_opt_U __GO_TO__]``

	optional& operator = ( none_t ) noexcept ; ``[link reference_optional_ref_assign_none_t __GO_TO__]``

	optional& operator = ( optional const& rhs ) noexcept; ``[link reference_optional_ref_copy_assign __GO_TO__]``

	template<class U> optional& operator = ( optional<U&> const& rhs ) noexcept ; ``[link reference_optional_ref_assign_optional_U __GO_TO__]``

	template<class R> optional& operator = (R&& r) noexcept ; ``[link reference_optional_ref_assign_R __GO_TO__]``

	template<class R> void emplace ( R&& r ) noexcept ; ``[link reference_optional_ref_emplace_R __GO_TO__]``

	T& get() const ; ``[link reference_optional_ref_get __GO_TO__]``
	T& operator *() const ; ``[link reference_optional_ref_get __GO_TO__]``

	T* operator ->() const ; ``[link reference_optional_ref_arrow __GO_TO__]``

	T& value() const& ; ``[link reference_optional_ref_value __GO_TO__]``

	template<class R> T& value_or( R && r ) const noexcept ; ``[link reference_optional_ref_value_or __GO_TO__]``

	template<class F> T& value_or_eval( F f ) const ; ``[link reference_optional_ref_value_or_eval __GO_TO__]``

	template<class F> auto map( F f ) const -> ``['see below]``; ``[link reference_optional_ref_map __GO_TO__]``

	template<class F> auto flat_map( F f ) const -> ``['see below]``; ``[link reference_optional_ref_flat_map __GO_TO__]``

	T* get_ptr() const noexcept ; ``[link reference_optional_ref_get_ptr __GO_TO__]``

	bool has_value() const noexcept ; ``[link reference_optional_ref_operator_bool __GO_TO__]``

	explicit operator bool() const noexcept ; ``[link reference_optional_ref_operator_bool __GO_TO__]``

	bool operator!() const noexcept ; ``[link reference_optional_ref_operator_not __GO_TO__]``

	void reset() noexcept ; ``[link reference_optional_ref_reset __GO_TO__]``

	// deprecated methods

	// (deprecated)
	template<class R> void reset ( R && r ) noexcept ; ``[link reference_optional_ref_reset_value __GO_TO__]``

	// (deprecated)
	bool is_initialized() const noexcept ; ``[link reference_optional_ref_is_initialized __GO_TO__]``

	// (deprecated)
	template<class R> T& get_value_or( R && r ) constnoexcept; ``[link reference_optional_ref_get_value_or_value __GO_TO__]``

	private:
	T* ref; // exposition only
	};
	[endsect]