// Copyright (C) 2003, 2008 Fernando Luis Cacciola Carballal. // Copyright (C) 2014 - 2018 Andrzej Krzemienski. // // Use, modification, and distribution is subject to 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) // // See http://www.boost.org/libs/optional for documentation. // // You are welcome to contact the author at: // fernando_cacciola@hotmail.com // // Revisions: // 27 Apr 2008 (improved swap) Fernando Cacciola, Niels Dekker, Thorsten Ottosen // 05 May 2014 (Added move semantics) Andrzej Krzemienski // #ifndef BOOST_OPTIONAL_OPTIONAL_FLC_19NOV2002_HPP #define BOOST_OPTIONAL_OPTIONAL_FLC_19NOV2002_HPP #include #include #ifdef BOOST_OPTIONAL_DETAIL_USE_STD_TYPE_TRAITS # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace optional_detail { template struct optional_value_type { }; template struct optional_value_type< ::boost::optional > { typedef T type; }; }} // namespace boost::optional_detail #ifdef BOOST_OPTIONAL_CONFIG_USE_OLD_IMPLEMENTATION_OF_OPTIONAL #include #else namespace boost { namespace optional_ns { // a tag for in-place initialization of contained value struct in_place_init_t { struct init_tag{}; explicit in_place_init_t(init_tag){} }; const in_place_init_t in_place_init ((in_place_init_t::init_tag())); // a tag for conditional in-place initialization of contained value struct in_place_init_if_t { struct init_tag{}; explicit in_place_init_if_t(init_tag){} }; const in_place_init_if_t in_place_init_if ((in_place_init_if_t::init_tag())); } // namespace optional_ns using optional_ns::in_place_init_t; using optional_ns::in_place_init; using optional_ns::in_place_init_if_t; using optional_ns::in_place_init_if; namespace optional_detail { struct optional_tag {} ; template class optional_base : public optional_tag { private : typedef aligned_storage storage_type ; typedef optional_base this_type ; protected : typedef T value_type ; protected: typedef T & reference_type ; typedef T const& reference_const_type ; #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES typedef T && rval_reference_type ; typedef T && reference_type_of_temporary_wrapper ; #endif typedef T * pointer_type ; typedef T const* pointer_const_type ; typedef T const& argument_type ; // Creates an optional uninitialized. // No-throw optional_base() : m_initialized(false) {} // Creates an optional uninitialized. // No-throw optional_base ( none_t ) : m_initialized(false) {} // Creates an optional initialized with 'val'. // Can throw if T::T(T const&) does optional_base ( argument_type val ) : m_initialized(false) { construct(val); } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // move-construct an optional initialized from an rvalue-ref to 'val'. // Can throw if T::T(T&&) does optional_base ( rval_reference_type val ) : m_initialized(false) { construct( boost::move(val) ); } #endif // Creates an optional initialized with 'val' IFF cond is true, otherwise creates an uninitialized optional. // Can throw if T::T(T const&) does optional_base ( bool cond, argument_type val ) : m_initialized(false) { if ( cond ) construct(val); } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Creates an optional initialized with 'move(val)' IFF cond is true, otherwise creates an uninitialized optional. // Can throw if T::T(T &&) does optional_base ( bool cond, rval_reference_type val ) : m_initialized(false) { if ( cond ) construct(boost::move(val)); } #endif // Creates a deep copy of another optional // Can throw if T::T(T const&) does optional_base ( optional_base const& rhs ) : m_initialized(false) { if ( rhs.is_initialized() ) construct(rhs.get_impl()); } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Creates a deep move of another optional // Can throw if T::T(T&&) does optional_base ( optional_base&& rhs ) BOOST_NOEXCEPT_IF(::boost::is_nothrow_move_constructible::value) : m_initialized(false) { if ( rhs.is_initialized() ) construct( boost::move(rhs.get_impl()) ); } #endif #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template explicit optional_base ( Expr&& expr, PtrExpr const* tag ) : m_initialized(false) { construct(boost::forward(expr),tag); } #else // This is used for both converting and in-place constructions. // Derived classes use the 'tag' to select the appropriate // implementation (the correct 'construct()' overload) template explicit optional_base ( Expr const& expr, Expr const* tag ) : m_initialized(false) { construct(expr,tag); } #endif optional_base& operator= ( optional_base const& rhs ) { this->assign(rhs); return *this; } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES optional_base& operator= ( optional_base && rhs ) BOOST_NOEXCEPT_IF(::boost::is_nothrow_move_constructible::value && ::boost::is_nothrow_move_assignable::value) { this->assign(static_cast(rhs)); return *this; } #endif // No-throw (assuming T::~T() doesn't) ~optional_base() { destroy() ; } // Assigns from another optional (deep-copies the rhs value) void assign ( optional_base const& rhs ) { if (is_initialized()) { if ( rhs.is_initialized() ) assign_value(rhs.get_impl()); else destroy(); } else { if ( rhs.is_initialized() ) construct(rhs.get_impl()); } } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Assigns from another optional (deep-moves the rhs value) void assign ( optional_base&& rhs ) { if (is_initialized()) { if ( rhs.is_initialized() ) assign_value( boost::move(rhs.get_impl()) ); else destroy(); } else { if ( rhs.is_initialized() ) construct(boost::move(rhs.get_impl())); } } #endif // Assigns from another _convertible_ optional (deep-copies the rhs value) template void assign ( optional const& rhs ) { if (is_initialized()) { if ( rhs.is_initialized() ) #ifndef BOOST_OPTIONAL_CONFIG_RESTORE_ASSIGNMENT_OF_NONCONVERTIBLE_TYPES assign_value( rhs.get() ); #else assign_value( static_cast(rhs.get()) ); #endif else destroy(); } else { if ( rhs.is_initialized() ) #ifndef BOOST_OPTIONAL_CONFIG_RESTORE_ASSIGNMENT_OF_NONCONVERTIBLE_TYPES construct(rhs.get()); #else construct(static_cast(rhs.get())); #endif } } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // move-assigns from another _convertible_ optional (deep-moves from the rhs value) template void assign ( optional&& rhs ) { typedef BOOST_DEDUCED_TYPENAME optional::rval_reference_type ref_type; if (is_initialized()) { if ( rhs.is_initialized() ) assign_value( static_cast(rhs.get()) ); else destroy(); } else { if ( rhs.is_initialized() ) construct(static_cast(rhs.get())); } } #endif // Assigns from a T (deep-copies the rhs value) void assign ( argument_type val ) { if (is_initialized()) assign_value(val); else construct(val); } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Assigns from a T (deep-moves the rhs value) void assign ( rval_reference_type val ) { if (is_initialized()) assign_value( boost::move(val) ); else construct( boost::move(val) ); } #endif // Assigns from "none", destroying the current value, if any, leaving this UNINITIALIZED // No-throw (assuming T::~T() doesn't) void assign ( none_t ) BOOST_NOEXCEPT { destroy(); } #ifndef BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template void assign_expr ( Expr&& expr, ExprPtr const* tag ) { if (is_initialized()) assign_expr_to_initialized(boost::forward(expr),tag); else construct(boost::forward(expr),tag); } #else template void assign_expr ( Expr const& expr, Expr const* tag ) { if (is_initialized()) assign_expr_to_initialized(expr,tag); else construct(expr,tag); } #endif #endif public : // **DEPPRECATED** Destroys the current value, if any, leaving this UNINITIALIZED // No-throw (assuming T::~T() doesn't) void reset() BOOST_NOEXCEPT { destroy(); } // **DEPPRECATED** Replaces the current value -if any- with 'val' void reset ( argument_type val ) { assign(val); } // Returns a pointer to the value if this is initialized, otherwise, // returns NULL. // No-throw 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 BOOST_NOEXCEPT { return m_initialized ; } protected : void construct ( argument_type val ) { ::new (m_storage.address()) value_type(val) ; m_initialized = true ; } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES void construct ( rval_reference_type val ) { ::new (m_storage.address()) value_type( boost::move(val) ) ; m_initialized = true ; } #endif #if (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) && (!defined BOOST_NO_CXX11_VARIADIC_TEMPLATES) // Constructs in-place // upon exception *this is always uninitialized template void construct ( in_place_init_t, Args&&... args ) { ::new (m_storage.address()) value_type( boost::forward(args)... ) ; m_initialized = true ; } template void emplace_assign ( Args&&... args ) { destroy(); construct(in_place_init, boost::forward(args)...); } template explicit optional_base ( in_place_init_t, Args&&... args ) : m_initialized(false) { construct(in_place_init, boost::forward(args)...); } template explicit optional_base ( in_place_init_if_t, bool cond, Args&&... args ) : m_initialized(false) { if ( cond ) construct(in_place_init, boost::forward(args)...); } #elif (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) template void construct ( in_place_init_t, Arg&& arg ) { ::new (m_storage.address()) value_type( boost::forward(arg) ); m_initialized = true ; } void construct ( in_place_init_t ) { ::new (m_storage.address()) value_type(); m_initialized = true ; } template void emplace_assign ( Arg&& arg ) { destroy(); construct(in_place_init, boost::forward(arg)) ; } void emplace_assign () { destroy(); construct(in_place_init) ; } template explicit optional_base ( in_place_init_t, Arg&& arg ) : m_initialized(false) { construct(in_place_init, boost::forward(arg)); } explicit optional_base ( in_place_init_t ) : m_initialized(false) { construct(in_place_init); } template explicit optional_base ( in_place_init_if_t, bool cond, Arg&& arg ) : m_initialized(false) { if ( cond ) construct(in_place_init, boost::forward(arg)); } explicit optional_base ( in_place_init_if_t, bool cond ) : m_initialized(false) { if ( cond ) construct(in_place_init); } #else template void construct ( in_place_init_t, const Arg& arg ) { ::new (m_storage.address()) value_type( arg ); m_initialized = true ; } template void construct ( in_place_init_t, Arg& arg ) { ::new (m_storage.address()) value_type( arg ); m_initialized = true ; } void construct ( in_place_init_t ) { ::new (m_storage.address()) value_type(); m_initialized = true ; } template void emplace_assign ( const Arg& arg ) { destroy(); construct(in_place_init, arg); } template void emplace_assign ( Arg& arg ) { destroy(); construct(in_place_init, arg); } void emplace_assign () { destroy(); construct(in_place_init); } template explicit optional_base ( in_place_init_t, const Arg& arg ) : m_initialized(false) { construct(in_place_init, arg); } template explicit optional_base ( in_place_init_t, Arg& arg ) : m_initialized(false) { construct(in_place_init, arg); } explicit optional_base ( in_place_init_t ) : m_initialized(false) { construct(in_place_init); } template explicit optional_base ( in_place_init_if_t, bool cond, const Arg& arg ) : m_initialized(false) { if ( cond ) construct(in_place_init, arg); } template explicit optional_base ( in_place_init_if_t, bool cond, Arg& arg ) : m_initialized(false) { if ( cond ) construct(in_place_init, arg); } explicit optional_base ( in_place_init_if_t, bool cond ) : m_initialized(false) { if ( cond ) construct(in_place_init); } #endif #ifndef BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Constructs in-place using the given factory template void construct ( Expr&& factory, in_place_factory_base const* ) { boost_optional_detail::construct(factory, m_storage.address()); m_initialized = true ; } // Constructs in-place using the given typed factory template void construct ( Expr&& factory, typed_in_place_factory_base const* ) { factory.apply(m_storage.address()) ; m_initialized = true ; } template void assign_expr_to_initialized ( Expr&& factory, in_place_factory_base const* tag ) { destroy(); construct(factory,tag); } // Constructs in-place using the given typed factory template void assign_expr_to_initialized ( Expr&& factory, typed_in_place_factory_base const* tag ) { destroy(); construct(factory,tag); } #else // Constructs in-place using the given factory template void construct ( Expr const& factory, in_place_factory_base const* ) { boost_optional_detail::construct(factory, m_storage.address()); m_initialized = true ; } // Constructs in-place using the given typed factory template void construct ( Expr const& factory, typed_in_place_factory_base const* ) { factory.apply(m_storage.address()) ; m_initialized = true ; } template void assign_expr_to_initialized ( Expr const& factory, in_place_factory_base const* tag ) { destroy(); construct(factory,tag); } // Constructs in-place using the given typed factory template void assign_expr_to_initialized ( Expr const& factory, typed_in_place_factory_base const* tag ) { destroy(); construct(factory,tag); } #endif #endif #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Constructs using any expression implicitly convertible to the single argument // of a one-argument T constructor. // Converting constructions of optional from optional uses this function with // 'Expr' being of type 'U' and relying on a converting constructor of T from U. template void construct ( Expr&& expr, void const* ) { new (m_storage.address()) value_type(boost::forward(expr)) ; m_initialized = true ; } // Assigns using a form any expression implicitly convertible to the single argument // of a T's assignment operator. // Converting assignments of optional from optional uses this function with // 'Expr' being of type 'U' and relying on a converting assignment of T from U. template void assign_expr_to_initialized ( Expr&& expr, void const* ) { assign_value( boost::forward(expr) ); } #else // Constructs using any expression implicitly convertible to the single argument // of a one-argument T constructor. // Converting constructions of optional from optional uses this function with // 'Expr' being of type 'U' and relying on a converting constructor of T from U. template void construct ( Expr const& expr, void const* ) { new (m_storage.address()) value_type(expr) ; m_initialized = true ; } // Assigns using a form any expression implicitly convertible to the single argument // of a T's assignment operator. // Converting assignments of optional from optional uses this function with // 'Expr' being of type 'U' and relying on a converting assignment of T from U. template void assign_expr_to_initialized ( Expr const& expr, void const* ) { assign_value(expr); } #endif #ifdef BOOST_OPTIONAL_WEAK_OVERLOAD_RESOLUTION // BCB5.64 (and probably lower versions) workaround. // The in-place factories are supported by means of catch-all constructors // and assignment operators (the functions are parameterized in terms of // an arbitrary 'Expr' type) // This compiler incorrectly resolves the overload set and sinks optional and optional // to the 'Expr'-taking functions even though explicit overloads are present for them. // Thus, the following overload is needed to properly handle the case when the 'lhs' // is another optional. // // For VC<=70 compilers this workaround dosen't work becasue the comnpiler issues and error // instead of choosing the wrong overload // #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Notice that 'Expr' will be optional or optional (but not optional_base<..>) template void construct ( Expr&& expr, optional_tag const* ) { if ( expr.is_initialized() ) { // An exception can be thrown here. // It it happens, THIS will be left uninitialized. new (m_storage.address()) value_type(boost::move(expr.get())) ; m_initialized = true ; } } #else // Notice that 'Expr' will be optional or optional (but not optional_base<..>) template void construct ( Expr const& expr, optional_tag const* ) { if ( expr.is_initialized() ) { // An exception can be thrown here. // It it happens, THIS will be left uninitialized. new (m_storage.address()) value_type(expr.get()) ; m_initialized = true ; } } #endif #endif // defined BOOST_OPTIONAL_WEAK_OVERLOAD_RESOLUTION void assign_value ( argument_type val ) { get_impl() = val; } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES void assign_value ( rval_reference_type val ) { get_impl() = static_cast(val); } #endif void destroy() { if ( m_initialized ) destroy_impl() ; } reference_const_type get_impl() const { return m_storage.ref() ; } reference_type get_impl() { return m_storage.ref() ; } pointer_const_type get_ptr_impl() const { return m_storage.ptr_ref(); } pointer_type get_ptr_impl() { return m_storage.ptr_ref(); } private : #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1900)) void destroy_impl ( ) { m_storage.ptr_ref()->~T() ; m_initialized = false ; } #else void destroy_impl ( ) { m_storage.ref().T::~T() ; m_initialized = false ; } #endif bool m_initialized ; storage_type m_storage ; } ; #include // definition of metafunciton is_optional_val_init_candidate template struct is_optional_related : boost::conditional< boost::is_base_of::type>::value || boost::is_same::type, none_t>::value || boost::is_same::type, in_place_init_t>::value || boost::is_same::type, in_place_init_if_t>::value, boost::true_type, boost::false_type>::type {}; #if !defined(BOOST_OPTIONAL_DETAIL_NO_IS_CONSTRUCTIBLE_TRAIT) template struct is_convertible_to_T_or_factory : boost::conditional< boost::is_base_of::type>::value || boost::is_base_of::type>::value || (boost::is_constructible::value && !boost::is_same::type>::value) , boost::true_type, boost::false_type>::type {}; template struct is_optional_constructible : boost::is_constructible {}; #else template struct is_convertible_to_T_or_factory : boost::true_type {}; template struct is_optional_constructible : boost::true_type {}; #endif // is_convertible condition template struct is_optional_val_init_candidate : boost::conditional< !is_optional_related::value && is_convertible_to_T_or_factory::value , boost::true_type, boost::false_type>::type {}; } // namespace optional_detail namespace optional_config { template struct optional_uses_direct_storage_for : boost::conditional<(boost::is_scalar::value && !boost::is_const::value && !boost::is_volatile::value) , boost::true_type, boost::false_type>::type {}; } // namespace optional_config #ifndef BOOST_OPTIONAL_DETAIL_NO_DIRECT_STORAGE_SPEC # define BOOST_OPTIONAL_BASE_TYPE(T) boost::conditional< optional_config::optional_uses_direct_storage_for::value, \ optional_detail::tc_optional_base, \ optional_detail::optional_base \ >::type #else # define BOOST_OPTIONAL_BASE_TYPE(T) optional_detail::optional_base #endif template class optional : public BOOST_OPTIONAL_BASE_TYPE(T) { typedef typename BOOST_OPTIONAL_BASE_TYPE(T) base ; public : typedef optional this_type ; typedef BOOST_DEDUCED_TYPENAME base::value_type value_type ; typedef BOOST_DEDUCED_TYPENAME base::reference_type reference_type ; typedef BOOST_DEDUCED_TYPENAME base::reference_const_type reference_const_type ; #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES typedef BOOST_DEDUCED_TYPENAME base::rval_reference_type rval_reference_type ; typedef BOOST_DEDUCED_TYPENAME base::reference_type_of_temporary_wrapper reference_type_of_temporary_wrapper ; #endif typedef BOOST_DEDUCED_TYPENAME base::pointer_type pointer_type ; typedef BOOST_DEDUCED_TYPENAME base::pointer_const_type pointer_const_type ; typedef BOOST_DEDUCED_TYPENAME base::argument_type argument_type ; // Creates an optional uninitialized. // No-throw optional() BOOST_NOEXCEPT : base() {} // Creates an optional uninitialized. // No-throw optional( none_t none_ ) BOOST_NOEXCEPT : base(none_) {} // Creates an optional initialized with 'val'. // Can throw if T::T(T const&) does optional ( argument_type val ) : base(val) {} #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Creates an optional initialized with 'move(val)'. // Can throw if T::T(T &&) does optional ( rval_reference_type val ) : base( boost::forward(val) ) {} #endif // Creates an optional initialized with 'val' IFF cond is true, otherwise creates an uninitialized optional. // Can throw if T::T(T const&) does optional ( bool cond, argument_type val ) : base(cond,val) {} #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES /// Creates an optional initialized with 'val' IFF cond is true, otherwise creates an uninitialized optional. // Can throw if T::T(T &&) does optional ( bool cond, rval_reference_type val ) : base( cond, boost::forward(val) ) {} #endif // NOTE: MSVC needs templated versions first // Creates a deep copy of another convertible optional // Requires a valid conversion from U to T. // Can throw if T::T(U const&) does template explicit optional ( optional const& rhs #ifndef BOOST_OPTIONAL_DETAIL_NO_SFINAE_FRIENDLY_CONSTRUCTORS ,BOOST_DEDUCED_TYPENAME boost::enable_if< optional_detail::is_optional_constructible, bool>::type = true #endif ) : base() { if ( rhs.is_initialized() ) this->construct(rhs.get()); } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Creates a deep move of another convertible optional // Requires a valid conversion from U to T. // Can throw if T::T(U&&) does template explicit optional ( optional && rhs #ifndef BOOST_OPTIONAL_DETAIL_NO_SFINAE_FRIENDLY_CONSTRUCTORS ,BOOST_DEDUCED_TYPENAME boost::enable_if< optional_detail::is_optional_constructible, bool>::type = true #endif ) : base() { if ( rhs.is_initialized() ) this->construct( boost::move(rhs.get()) ); } #endif #ifndef BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT // Creates an optional with an expression which can be either // (a) An instance of InPlaceFactory (i.e. in_place(a,b,...,n); // (b) An instance of TypedInPlaceFactory ( i.e. in_place(a,b,...,n); // (c) Any expression implicitly convertible to the single type // of a one-argument T's constructor. // (d*) Weak compilers (BCB) might also resolved Expr as optional and optional // even though explicit overloads are present for these. // Depending on the above some T ctor is called. // Can throw if the resolved T ctor throws. #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template explicit optional ( Expr&& expr, BOOST_DEDUCED_TYPENAME boost::enable_if< optional_detail::is_optional_val_init_candidate, bool>::type = true ) : base(boost::forward(expr),boost::addressof(expr)) {} #else template explicit optional ( Expr const& expr ) : base(expr,boost::addressof(expr)) {} #endif // !defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES #endif // !defined BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT // Creates a deep copy of another optional // Can throw if T::T(T const&) does #ifndef BOOST_OPTIONAL_DETAIL_NO_DEFAULTED_MOVE_FUNCTIONS optional ( optional const& ) = default; #else optional ( optional const& rhs ) : base( static_cast(rhs) ) {} #endif #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Creates a deep move of another optional // Can throw if T::T(T&&) does #ifndef BOOST_OPTIONAL_DETAIL_NO_DEFAULTED_MOVE_FUNCTIONS optional ( optional && rhs ) = default; #else optional ( optional && rhs ) BOOST_NOEXCEPT_IF(::boost::is_nothrow_move_constructible::value) : base( boost::move(rhs) ) {} #endif #endif #if BOOST_WORKAROUND(_MSC_VER, <= 1600) // On old MSVC compilers the implicitly declared dtor is not called ~optional() {} #endif #if !defined(BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT) && !defined(BOOST_OPTIONAL_WEAK_OVERLOAD_RESOLUTION) // Assigns from an expression. See corresponding constructor. // Basic Guarantee: If the resolved T ctor throws, this is left UNINITIALIZED #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template BOOST_DEDUCED_TYPENAME boost::enable_if, optional&>::type operator= ( Expr&& expr ) { this->assign_expr(boost::forward(expr),boost::addressof(expr)); return *this ; } #else template optional& operator= ( Expr const& expr ) { this->assign_expr(expr,boost::addressof(expr)); return *this ; } #endif // !defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES #endif // !defined(BOOST_OPTIONAL_NO_INPLACE_FACTORY_SUPPORT) && !defined(BOOST_OPTIONAL_WEAK_OVERLOAD_RESOLUTION) // Copy-assigns from another convertible optional (converts && deep-copies the rhs value) // Requires a valid conversion from U to T. // Basic Guarantee: If T::T( U const& ) throws, this is left UNINITIALIZED template optional& operator= ( optional const& rhs ) { this->assign(rhs); return *this ; } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Move-assigns from another convertible optional (converts && deep-moves the rhs value) // Requires a valid conversion from U to T. // Basic Guarantee: If T::T( U && ) throws, this is left UNINITIALIZED template optional& operator= ( optional && rhs ) { this->assign(boost::move(rhs)); return *this ; } #endif // Assigns from another optional (deep-copies the rhs value) // Basic Guarantee: If T::T( T const& ) throws, this is left UNINITIALIZED // (NOTE: On BCB, this operator is not actually called and left is left UNMODIFIED in case of a throw) #ifndef BOOST_OPTIONAL_DETAIL_NO_DEFAULTED_MOVE_FUNCTIONS optional& operator= ( optional const& rhs ) = default; #else optional& operator= ( optional const& rhs ) { this->assign( static_cast(rhs) ) ; return *this ; } #endif #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Assigns from another optional (deep-moves the rhs value) #ifndef BOOST_OPTIONAL_DETAIL_NO_DEFAULTED_MOVE_FUNCTIONS optional& operator= ( optional && ) = default; #else optional& operator= ( optional && rhs ) BOOST_NOEXCEPT_IF(::boost::is_nothrow_move_constructible::value && ::boost::is_nothrow_move_assignable::value) { this->assign( static_cast(rhs) ) ; return *this ; } #endif #endif // BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES #ifndef BOOST_NO_CXX11_UNIFIED_INITIALIZATION_SYNTAX // Assigns from a T (deep-moves/copies the rhs value) template BOOST_DEDUCED_TYPENAME boost::enable_if::type>, optional&>::type operator= ( T_&& val ) { this->assign( boost::forward(val) ) ; return *this ; } #else // Assigns from a T (deep-copies the rhs value) // Basic Guarantee: If T::( T const& ) throws, this is left UNINITIALIZED optional& operator= ( argument_type val ) { this->assign( val ) ; return *this ; } #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Assigns from a T (deep-moves the rhs value) optional& operator= ( rval_reference_type val ) { this->assign( boost::move(val) ) ; return *this ; } #endif #endif // BOOST_NO_CXX11_UNIFIED_INITIALIZATION_SYNTAX // Assigns from a "none" // Which destroys the current value, if any, leaving this UNINITIALIZED // No-throw (assuming T::~T() doesn't) optional& operator= ( none_t none_ ) BOOST_NOEXCEPT { this->assign( none_ ) ; return *this ; } #if (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) && (!defined BOOST_NO_CXX11_VARIADIC_TEMPLATES) // Constructs in-place // upon exception *this is always uninitialized template void emplace ( Args&&... args ) { this->emplace_assign( boost::forward(args)... ); } template explicit optional ( in_place_init_t, Args&&... args ) : base( in_place_init, boost::forward(args)... ) {} template explicit optional ( in_place_init_if_t, bool cond, Args&&... args ) : base( in_place_init_if, cond, boost::forward(args)... ) {} #elif (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) template void emplace ( Arg&& arg ) { this->emplace_assign( boost::forward(arg) ); } void emplace () { this->emplace_assign(); } template explicit optional ( in_place_init_t, Args&& args ) : base( in_place_init, boost::forward(args) ) {} explicit optional ( in_place_init_t ) : base( in_place_init ) {} template explicit optional ( in_place_init_if_t, bool cond, Args&& args ) : base( in_place_init_if, cond, boost::forward(args) ) {} explicit optional ( in_place_init_if_t, bool cond ) : base( in_place_init_if, cond ) {} #else template void emplace ( const Arg& arg ) { this->emplace_assign( arg ); } template void emplace ( Arg& arg ) { this->emplace_assign( arg ); } void emplace () { this->emplace_assign(); } template explicit optional ( in_place_init_t, const Arg& arg ) : base( in_place_init, arg ) {} template explicit optional ( in_place_init_t, Arg& arg ) : base( in_place_init, arg ) {} explicit optional ( in_place_init_t ) : base( in_place_init ) {} template explicit optional ( in_place_init_if_t, bool cond, const Arg& arg ) : base( in_place_init_if, cond, arg ) {} template explicit optional ( in_place_init_if_t, bool cond, Arg& arg ) : base( in_place_init_if, cond, arg ) {} explicit optional ( in_place_init_if_t, bool cond ) : base( in_place_init_if, cond ) {} #endif void swap( optional & arg ) BOOST_NOEXCEPT_IF(::boost::is_nothrow_move_constructible::value && ::boost::is_nothrow_move_assignable::value) { // allow for Koenig lookup boost::swap(*this, arg); } // Returns a reference to the value if this is initialized, otherwise, // the behaviour is UNDEFINED // No-throw reference_const_type get() const { BOOST_ASSERT(this->is_initialized()) ; return this->get_impl(); } reference_type get() { BOOST_ASSERT(this->is_initialized()) ; return this->get_impl(); } // Returns a copy of the value if this is initialized, 'v' otherwise reference_const_type get_value_or ( reference_const_type v ) const { return this->is_initialized() ? get() : v ; } reference_type get_value_or ( reference_type v ) { return this->is_initialized() ? get() : v ; } // Returns a pointer to the value if this is initialized, otherwise, // the behaviour is UNDEFINED // No-throw pointer_const_type operator->() const { BOOST_ASSERT(this->is_initialized()) ; return this->get_ptr_impl() ; } pointer_type operator->() { BOOST_ASSERT(this->is_initialized()) ; return this->get_ptr_impl() ; } // Returns a reference to the value if this is initialized, otherwise, // the behaviour is UNDEFINED // No-throw #if (!defined BOOST_NO_CXX11_REF_QUALIFIERS) && (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) reference_const_type operator *() const& { return this->get() ; } reference_type operator *() & { return this->get() ; } reference_type_of_temporary_wrapper operator *() && { return boost::move(this->get()) ; } #else reference_const_type operator *() const { return this->get() ; } reference_type operator *() { return this->get() ; } #endif // !defined BOOST_NO_CXX11_REF_QUALIFIERS #if (!defined BOOST_NO_CXX11_REF_QUALIFIERS) && (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) reference_const_type value() const& { if (this->is_initialized()) return this->get() ; else throw_exception(bad_optional_access()); } reference_type value() & { if (this->is_initialized()) return this->get() ; else throw_exception(bad_optional_access()); } reference_type_of_temporary_wrapper value() && { if (this->is_initialized()) return boost::move(this->get()) ; else throw_exception(bad_optional_access()); } #else reference_const_type value() const { if (this->is_initialized()) return this->get() ; else throw_exception(bad_optional_access()); } reference_type value() { if (this->is_initialized()) return this->get() ; else throw_exception(bad_optional_access()); } #endif #ifndef BOOST_NO_CXX11_REF_QUALIFIERS template value_type value_or ( U&& v ) const& { if (this->is_initialized()) return get(); else return boost::forward(v); } template value_type value_or ( U&& v ) && { if (this->is_initialized()) return boost::move(get()); else return boost::forward(v); } #elif !defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template value_type value_or ( U&& v ) const { if (this->is_initialized()) return get(); else return boost::forward(v); } #else template value_type value_or ( U const& v ) const { if (this->is_initialized()) return get(); else return v; } template value_type value_or ( U& v ) const { if (this->is_initialized()) return get(); else return v; } #endif #if (!defined BOOST_NO_CXX11_REF_QUALIFIERS) && (!defined BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES) template value_type value_or_eval ( F f ) const& { if (this->is_initialized()) return get(); else return f(); } template value_type value_or_eval ( F f ) && { if (this->is_initialized()) return boost::move(get()); else return f(); } template optional::type> map(F f) & { if (this->has_value()) return f(get()); else return none; } template optional::type> map(F f) const& { if (this->has_value()) return f(get()); else return none; } template optional::type> map(F f) && { if (this->has_value()) return f(boost::move(this->get())); else return none; } template optional::type>::type> flat_map(F f) & { if (this->has_value()) return f(get()); else return none; } template optional::type>::type> flat_map(F f) const& { if (this->has_value()) return f(get()); else return none; } template optional::type>::type> flat_map(F f) && { if (this->has_value()) return f(boost::move(get())); else return none; } #else template value_type value_or_eval ( F f ) const { if (this->is_initialized()) return get(); else return f(); } template optional::type> map(F f) { if (this->has_value()) return f(get()); else return none; } template optional::type> map(F f) const { if (this->has_value()) return f(get()); else return none; } template optional::type>::type> flat_map(F f) { if (this->has_value()) return f(get()); else return none; } template optional::type>::type> flat_map(F f) const { if (this->has_value()) return f(get()); else return none; } #endif bool has_value() const BOOST_NOEXCEPT { return this->is_initialized() ; } bool operator!() const BOOST_NOEXCEPT { return !this->is_initialized() ; } BOOST_EXPLICIT_OPERATOR_BOOL_NOEXCEPT() } ; } // namespace boost #endif // BOOST_OPTIONAL_CONFIG_USE_OLD_IMPLEMENTATION_OF_OPTIONAL namespace boost { #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template class optional { BOOST_STATIC_ASSERT_MSG(sizeof(T) == 0, "Optional rvalue references are illegal."); } ; #endif } // namespace boost #ifndef BOOST_OPTIONAL_CONFIG_DONT_SPECIALIZE_OPTIONAL_REFS # include #endif namespace boost { #ifndef BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES template inline optional::type> make_optional ( T && v ) { return optional::type>(boost::forward(v)); } // Returns optional(cond,v) template inline optional::type> make_optional ( bool cond, T && v ) { return optional::type>(cond,boost::forward(v)); } #else // Returns optional(v) template inline optional make_optional ( T const& v ) { return optional(v); } // Returns optional(cond,v) template inline optional make_optional ( bool cond, T const& v ) { return optional(cond,v); } #endif // BOOST_OPTIONAL_DETAIL_NO_RVALUE_REFERENCES // Returns a reference to the value if this is initialized, otherwise, the behaviour is UNDEFINED. // No-throw template inline BOOST_DEDUCED_TYPENAME optional::reference_const_type get ( optional const& opt ) { return opt.get() ; } template inline BOOST_DEDUCED_TYPENAME optional::reference_type get ( optional& opt ) { return opt.get() ; } // Returns a pointer to the value if this is initialized, otherwise, returns NULL. // No-throw template inline BOOST_DEDUCED_TYPENAME optional::pointer_const_type get ( optional const* opt ) { return opt->get_ptr() ; } template inline BOOST_DEDUCED_TYPENAME optional::pointer_type get ( optional* opt ) { return opt->get_ptr() ; } // Returns a reference to the value if this is initialized, otherwise, the behaviour is UNDEFINED. // No-throw template inline BOOST_DEDUCED_TYPENAME optional::reference_const_type get_optional_value_or ( optional const& opt, BOOST_DEDUCED_TYPENAME optional::reference_const_type v ) { return opt.get_value_or(v) ; } template inline BOOST_DEDUCED_TYPENAME optional::reference_type get_optional_value_or ( optional& opt, BOOST_DEDUCED_TYPENAME optional::reference_type v ) { return opt.get_value_or(v) ; } // Returns a pointer to the value if this is initialized, otherwise, returns NULL. // No-throw template inline BOOST_DEDUCED_TYPENAME optional::pointer_const_type get_pointer ( optional const& opt ) { return opt.get_ptr() ; } template inline BOOST_DEDUCED_TYPENAME optional::pointer_type get_pointer ( optional& opt ) { return opt.get_ptr() ; } } // namespace boost namespace boost { // The following declaration prevents a bug where operator safe-bool is used upon streaming optional object if you forget the IO header. template std::basic_ostream& operator<<(std::basic_ostream& os, optional_detail::optional_tag const&) { BOOST_STATIC_ASSERT_MSG(sizeof(CharType) == 0, "If you want to output boost::optional, include header "); return os; } } // namespace boost #include #include #endif // header guard