// // Copyright (c) 2014-2018 Martin Moene // // https://github.com/martinmoene/optional-lite // // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #pragma once #ifndef NONSTD_OPTIONAL_LITE_HPP #define NONSTD_OPTIONAL_LITE_HPP #define optional_lite_VERSION "3.0.0" // Compiler detection (C++20 is speculative): // Note: MSVC supports C++14 since it supports C++17. #ifdef _MSVC_LANG # define optional_MSVC_LANG _MSVC_LANG #else # define optional_MSVC_LANG 0 #endif #define optional_CPP11 (__cplusplus == 201103L ) #define optional_CPP11_OR_GREATER (__cplusplus >= 201103L || optional_MSVC_LANG >= 201103L ) #define optional_CPP14_OR_GREATER (__cplusplus >= 201402L || optional_MSVC_LANG >= 201703L ) #define optional_CPP17_OR_GREATER (__cplusplus >= 201703L || optional_MSVC_LANG >= 201703L ) #define optional_CPP20_OR_GREATER (__cplusplus >= 202000L || optional_MSVC_LANG >= 202000L ) // use C++17 std::optional if available: #if defined( __has_include ) # define optional_HAS_INCLUDE( arg ) __has_include( arg ) #else # define optional_HAS_INCLUDE( arg ) 0 #endif #define optional_HAVE_STD_OPTIONAL ( optional_CPP17_OR_GREATER && optional_HAS_INCLUDE( ) ) #if optional_HAVE_STD_OPTIONAL #include namespace nonstd { using std::optional; using std::bad_optional_access; using std::hash; using std::nullopt; using std::nullopt_t; using std::in_place; using std::in_place_type; using std::in_place_index; using std::in_place_t; using std::in_place_type_t; using std::in_place_index_t; using std::operator==; using std::operator!=; using std::operator<; using std::operator<=; using std::operator>; using std::operator>=; using std::make_optional; using std::swap; } #else // C++17 std::optional #include #include #include // optional-lite alignment configuration: #ifndef optional_CONFIG_MAX_ALIGN_HACK # define optional_CONFIG_MAX_ALIGN_HACK 0 #endif #ifndef optional_CONFIG_ALIGN_AS // no default, used in #if defined() #endif #ifndef optional_CONFIG_ALIGN_AS_FALLBACK # define optional_CONFIG_ALIGN_AS_FALLBACK double #endif // Compiler warning suppression: #ifdef __clang__ # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wundef" #elif defined __GNUC__ # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wundef" #endif // half-open range [lo..hi): #define optional_BETWEEN( v, lo, hi ) ( lo <= v && v < hi ) #if defined(_MSC_VER) && !defined(__clang__) # define optional_COMPILER_MSVC_VERSION (_MSC_VER / 10 - 10 * ( 5 + (_MSC_VER < 1900)) ) #else # define optional_COMPILER_MSVC_VERSION 0 #endif #define optional_COMPILER_VERSION( major, minor, patch ) ( 10 * (10 * major + minor ) + patch ) #if defined __GNUC__ # define optional_COMPILER_GNUC_VERSION optional_COMPILER_VERSION(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__) #else # define optional_COMPILER_GNUC_VERSION 0 #endif #if defined __clang__ # define optional_COMPILER_CLANG_VERSION optional_COMPILER_VERSION(__clang_major__, __clang_minor__, __clang_patchlevel__) #else # define optional_COMPILER_CLANG_VERSION 0 #endif #if optional_BETWEEN(optional_COMPILER_MSVC_VERSION, 70, 140 ) # pragma warning( push ) # pragma warning( disable: 4345 ) // initialization behavior changed #endif #if optional_BETWEEN(optional_COMPILER_MSVC_VERSION, 70, 150 ) # pragma warning( push ) # pragma warning( disable: 4814 ) // in C++14 'constexpr' will not imply 'const' #endif // Presence of language and library features: #define optional_HAVE(FEATURE) ( optional_HAVE_##FEATURE ) // Presence of C++11 language features: #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 100 # define optional_HAVE_AUTO 1 # define optional_HAVE_NULLPTR 1 # define optional_HAVE_STATIC_ASSERT 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 120 # define optional_HAVE_DEFAULT_FUNCTION_TEMPLATE_ARG 1 # define optional_HAVE_INITIALIZER_LIST 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 140 # define optional_HAVE_ALIAS_TEMPLATE 1 # define optional_HAVE_CONSTEXPR_11 1 # define optional_HAVE_ENUM_CLASS 1 # define optional_HAVE_EXPLICIT_CONVERSION 1 # define optional_HAVE_IS_DEFAULT 1 # define optional_HAVE_IS_DELETE 1 # define optional_HAVE_NOEXCEPT 1 # define optional_HAVE_REF_QUALIFIER 1 #endif // Presence of C++14 language features: #if optional_CPP14_OR_GREATER # define optional_HAVE_CONSTEXPR_14 1 #endif // Presence of C++17 language features: #if optional_CPP17_OR_GREATER # define optional_HAVE_ENUM_CLASS_CONSTRUCTION_FROM_UNDERLYING_TYPE 1 #endif // Presence of C++ library features: #if optional_COMPILER_GNUC_VERSION # define optional_HAVE_TR1_TYPE_TRAITS 1 # define optional_HAVE_TR1_ADD_POINTER 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 90 # define optional_HAVE_TYPE_TRAITS 1 # define optional_HAVE_STD_ADD_POINTER 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 110 # define optional_HAVE_ARRAY 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 120 # define optional_HAVE_CONDITIONAL 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 140 || (optional_COMPILER_MSVC_VERSION >= 90 && _HAS_CPP0X) # define optional_HAVE_CONTAINER_DATA_METHOD 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 120 # define optional_HAVE_REMOVE_CV 1 #endif #if optional_CPP11_OR_GREATER || optional_COMPILER_MSVC_VERSION >= 140 # define optional_HAVE_SIZED_TYPES 1 #endif // For the rest, consider VC14 as C++11 for optional-lite: #if optional_COMPILER_MSVC_VERSION >= 140 # undef optional_CPP11_OR_GREATER # define optional_CPP11_OR_GREATER 1 #endif // C++ feature usage: #if optional_HAVE( CONSTEXPR_11 ) # define optional_constexpr constexpr #else # define optional_constexpr /*constexpr*/ #endif #if optional_HAVE( CONSTEXPR_14 ) # define optional_constexpr14 constexpr #else # define optional_constexpr14 /*constexpr*/ #endif #if optional_HAVE( NOEXCEPT ) # define optional_noexcept noexcept #else # define optional_noexcept /*noexcept*/ #endif #if optional_HAVE( NULLPTR ) # define optional_nullptr nullptr #else # define optional_nullptr NULL #endif #if optional_HAVE( REF_QUALIFIER ) # define optional_ref_qual & # define optional_refref_qual && #else # define optional_ref_qual /*&*/ # define optional_refref_qual /*&&*/ #endif // additional includes: #if optional_CPP11_OR_GREATER # include #endif #if optional_HAVE( INITIALIZER_LIST ) # include #endif #if optional_HAVE( TYPE_TRAITS ) # include #elif optional_HAVE( TR1_TYPE_TRAITS ) # include #endif // type traits needed: namespace nonstd { namespace optional_lite { namespace detail { #if optional_HAVE( CONDITIONAL ) using std::conditional; #else template< bool B, typename T, typename F > struct conditional { typedef T type; }; template< typename T, typename F > struct conditional { typedef F type; }; #endif // optional_HAVE_CONDITIONAL }}} // // in_place: code duplicated in any-lite, optional-lite, variant-lite: // #ifndef nonstd_lite_HAVE_IN_PLACE_TYPES namespace nonstd { namespace detail { template< class T > struct in_place_type_tag {}; template< std::size_t I > struct in_place_index_tag {}; } // namespace detail struct in_place_t {}; template< class T > inline in_place_t in_place( detail::in_place_type_tag = detail::in_place_type_tag() ) { return in_place_t(); } template< std::size_t I > inline in_place_t in_place( detail::in_place_index_tag = detail::in_place_index_tag() ) { return in_place_t(); } template< class T > inline in_place_t in_place_type( detail::in_place_type_tag = detail::in_place_type_tag() ) { return in_place_t(); } template< std::size_t I > inline in_place_t in_place_index( detail::in_place_index_tag = detail::in_place_index_tag() ) { return in_place_t(); } // mimic templated typedef: #define nonstd_lite_in_place_type_t( T) nonstd::in_place_t(&)( nonstd::detail::in_place_type_tag ) #define nonstd_lite_in_place_index_t(T) nonstd::in_place_t(&)( nonstd::detail::in_place_index_tag ) #define nonstd_lite_HAVE_IN_PLACE_TYPES 1 } // namespace nonstd #endif // nonstd_lite_HAVE_IN_PLACE_TYPES // // optional: // namespace nonstd { namespace optional_lite { /// class optional template< typename T > class optional; namespace detail { // C++11 emulation: struct nulltype{}; template< typename Head, typename Tail > struct typelist { typedef Head head; typedef Tail tail; }; #if optional_CONFIG_MAX_ALIGN_HACK // Max align, use most restricted type for alignment: #define optional_UNIQUE( name ) optional_UNIQUE2( name, __LINE__ ) #define optional_UNIQUE2( name, line ) optional_UNIQUE3( name, line ) #define optional_UNIQUE3( name, line ) name ## line #define optional_ALIGN_TYPE( type ) \ type optional_UNIQUE( _t ); struct_t< type > optional_UNIQUE( _st ) template< typename T > struct struct_t { T _; }; union max_align_t { optional_ALIGN_TYPE( char ); optional_ALIGN_TYPE( short int ); optional_ALIGN_TYPE( int ); optional_ALIGN_TYPE( long int ); optional_ALIGN_TYPE( float ); optional_ALIGN_TYPE( double ); optional_ALIGN_TYPE( long double ); optional_ALIGN_TYPE( char * ); optional_ALIGN_TYPE( short int * ); optional_ALIGN_TYPE( int * ); optional_ALIGN_TYPE( long int * ); optional_ALIGN_TYPE( float * ); optional_ALIGN_TYPE( double * ); optional_ALIGN_TYPE( long double * ); optional_ALIGN_TYPE( void * ); #ifdef HAVE_LONG_LONG optional_ALIGN_TYPE( long long ); #endif struct Unknown; Unknown ( * optional_UNIQUE(_) )( Unknown ); Unknown * Unknown::* optional_UNIQUE(_); Unknown ( Unknown::* optional_UNIQUE(_) )( Unknown ); struct_t< Unknown ( * )( Unknown) > optional_UNIQUE(_); struct_t< Unknown * Unknown::* > optional_UNIQUE(_); struct_t< Unknown ( Unknown::* )(Unknown) > optional_UNIQUE(_); }; #undef optional_UNIQUE #undef optional_UNIQUE2 #undef optional_UNIQUE3 #undef optional_ALIGN_TYPE #elif defined( optional_CONFIG_ALIGN_AS ) // optional_CONFIG_MAX_ALIGN_HACK // Use user-specified type for alignment: #define optional_ALIGN_AS( unused ) \ optional_CONFIG_ALIGN_AS #else // optional_CONFIG_MAX_ALIGN_HACK // Determine POD type to use for alignment: #define optional_ALIGN_AS( to_align ) \ typename type_of_size< alignment_types, alignment_of< to_align >::value >::type template struct alignment_of; template struct alignment_of_hack { char c; T t; alignment_of_hack(); }; template struct alignment_logic { enum { value = A < S ? A : S }; }; template< typename T > struct alignment_of { enum { value = alignment_logic< sizeof( alignment_of_hack ) - sizeof(T), sizeof(T) >::value, }; }; template< typename List, size_t N > struct type_of_size { typedef typename conditional< N == sizeof( typename List::head ), typename List::head, typename type_of_size::type >::type type; }; template< size_t N > struct type_of_size< nulltype, N > { typedef optional_CONFIG_ALIGN_AS_FALLBACK type; }; template< typename T> struct struct_t { T _; }; #define optional_ALIGN_TYPE( type ) \ typelist< type , typelist< struct_t< type > struct Unknown; typedef optional_ALIGN_TYPE( char ), optional_ALIGN_TYPE( short ), optional_ALIGN_TYPE( int ), optional_ALIGN_TYPE( long ), optional_ALIGN_TYPE( float ), optional_ALIGN_TYPE( double ), optional_ALIGN_TYPE( long double ), optional_ALIGN_TYPE( char *), optional_ALIGN_TYPE( short * ), optional_ALIGN_TYPE( int * ), optional_ALIGN_TYPE( long * ), optional_ALIGN_TYPE( float * ), optional_ALIGN_TYPE( double * ), optional_ALIGN_TYPE( long double * ), optional_ALIGN_TYPE( Unknown ( * )( Unknown ) ), optional_ALIGN_TYPE( Unknown * Unknown::* ), optional_ALIGN_TYPE( Unknown ( Unknown::* )( Unknown ) ), nulltype > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > alignment_types; #undef optional_ALIGN_TYPE #endif // optional_CONFIG_MAX_ALIGN_HACK /// C++03 constructed union to hold value. template< typename T > union storage_t { private: friend class optional; typedef T value_type; storage_t() {} storage_t( value_type const & v ) { construct_value( v ); } void construct_value( value_type const & v ) { ::new( value_ptr() ) value_type( v ); } #if optional_CPP11_OR_GREATER storage_t( value_type && v ) { construct_value( std::move( v ) ); } void construct_value( value_type && v ) { ::new( value_ptr() ) value_type( std::move( v ) ); } template< class... Args > void emplace( Args&&... args ) { ::new( value_ptr() ) value_type( std::forward(args)... ); } template< class U, class... Args > void emplace( std::initializer_list il, Args&&... args ) { ::new( value_ptr() ) value_type( il, std::forward(args)... ); } #endif void destruct_value() { value_ptr()->~T(); } value_type const * value_ptr() const { return as(); } value_type * value_ptr() { return as(); } value_type const & value() const optional_ref_qual { return * value_ptr(); } value_type & value() optional_ref_qual { return * value_ptr(); } #if optional_CPP11_OR_GREATER value_type const && value() const optional_refref_qual { return * value_ptr(); } value_type && value() optional_refref_qual { return * value_ptr(); } #endif #if optional_CPP11_OR_GREATER using aligned_storage_t = typename std::aligned_storage< sizeof(value_type), alignof(value_type) >::type; aligned_storage_t data; #elif optional_CONFIG_MAX_ALIGN_HACK typedef struct { unsigned char data[ sizeof(value_type) ]; } aligned_storage_t; max_align_t hack; aligned_storage_t data; #else typedef optional_ALIGN_AS(value_type) align_as_type; typedef struct { align_as_type data[ 1 + ( sizeof(value_type) - 1 ) / sizeof(align_as_type) ]; } aligned_storage_t; aligned_storage_t data; # undef optional_ALIGN_AS #endif // optional_CONFIG_MAX_ALIGN_HACK void * ptr() optional_noexcept { return &data; } void const * ptr() const optional_noexcept { return &data; } template U * as() { return reinterpret_cast( ptr() ); } template U const * as() const { return reinterpret_cast( ptr() ); } }; } // namespace detail /// disengaged state tag struct nullopt_t { struct init{}; optional_constexpr nullopt_t( init ) {} }; #if optional_HAVE( CONSTEXPR_11 ) constexpr nullopt_t nullopt{ nullopt_t::init{} }; #else // extra parenthesis to prevent the most vexing parse: const nullopt_t nullopt(( nullopt_t::init() )); #endif /// optional access error class bad_optional_access : public std::logic_error { public: explicit bad_optional_access() : logic_error( "bad optional access" ) {} }; /// optional template< typename T> class optional { private: typedef void (optional::*safe_bool)() const; public: typedef T value_type; optional_constexpr optional() optional_noexcept : has_value_( false ) , contained() {} optional_constexpr optional( nullopt_t ) optional_noexcept : has_value_( false ) , contained() {} optional( optional const & rhs ) : has_value_( rhs.has_value() ) { if ( rhs.has_value() ) contained.construct_value( rhs.contained.value() ); } #if optional_CPP11_OR_GREATER optional_constexpr14 optional( optional && rhs ) noexcept( std::is_nothrow_move_constructible::value ) : has_value_( rhs.has_value() ) { if ( rhs.has_value() ) contained.construct_value( std::move( rhs.contained.value() ) ); } #endif optional_constexpr optional( value_type const & value ) : has_value_( true ) , contained( value ) {} #if optional_CPP11_OR_GREATER optional_constexpr optional( value_type && value ) : has_value_( true ) , contained( std::move( value ) ) {} template< class... Args > optional_constexpr explicit optional( nonstd_lite_in_place_type_t(T), Args&&... args ) : has_value_( true ) , contained( T( std::forward(args)...) ) {} template< class U, class... Args > optional_constexpr explicit optional( nonstd_lite_in_place_type_t(T), std::initializer_list il, Args&&... args ) : has_value_( true ) , contained( T( il, std::forward(args)...) ) {} #endif // optional_CPP11_OR_GREATER ~optional() { if ( has_value() ) contained.destruct_value(); } // assignment optional & operator=( nullopt_t ) optional_noexcept { reset(); return *this; } optional & operator=( optional const & rhs ) #if optional_CPP11_OR_GREATER noexcept( std::is_nothrow_move_assignable::value && std::is_nothrow_move_constructible::value ) #endif { if ( has_value() == true && rhs.has_value() == false ) reset(); else if ( has_value() == false && rhs.has_value() == true ) initialize( *rhs ); else if ( has_value() == true && rhs.has_value() == true ) contained.value() = *rhs; return *this; } #if optional_CPP11_OR_GREATER optional & operator=( optional && rhs ) noexcept { if ( has_value() == true && rhs.has_value() == false ) reset(); else if ( has_value() == false && rhs.has_value() == true ) initialize( std::move( *rhs ) ); else if ( has_value() == true && rhs.has_value() == true ) contained.value() = std::move( *rhs ); return *this; } template< class U, typename = typename std::enable_if< std::is_same< typename std::decay::type, T>::value >::type > optional & operator=( U && v ) { if ( has_value() ) contained.value() = std::forward( v ); else initialize( T( std::forward( v ) ) ); return *this; } template< class... Args > void emplace( Args&&... args ) { *this = nullopt; contained.emplace( std::forward(args)... ); has_value_ = true; } template< class U, class... Args > void emplace( std::initializer_list il, Args&&... args ) { *this = nullopt; contained.emplace( il, std::forward(args)... ); has_value_ = true; } #endif // optional_CPP11_OR_GREATER // swap void swap( optional & rhs ) #if optional_CPP11_OR_GREATER noexcept( std::is_nothrow_move_constructible::value && noexcept( std::swap( std::declval(), std::declval() ) ) ) #endif { using std::swap; if ( has_value() == true && rhs.has_value() == true ) { swap( **this, *rhs ); } else if ( has_value() == false && rhs.has_value() == true ) { initialize( *rhs ); rhs.reset(); } else if ( has_value() == true && rhs.has_value() == false ) { rhs.initialize( **this ); reset(); } } // observers optional_constexpr value_type const * operator ->() const { return assert( has_value() ), contained.value_ptr(); } optional_constexpr14 value_type * operator ->() { return assert( has_value() ), contained.value_ptr(); } optional_constexpr value_type const & operator *() const optional_ref_qual { return assert( has_value() ), contained.value(); } optional_constexpr14 value_type & operator *() optional_ref_qual { return assert( has_value() ), contained.value(); } #if optional_CPP11_OR_GREATER optional_constexpr value_type const && operator *() const optional_refref_qual { return assert( has_value() ), std::move( contained.value() ); } optional_constexpr14 value_type && operator *() optional_refref_qual { return assert( has_value() ), std::move( contained.value() ); } #endif #if optional_CPP11_OR_GREATER optional_constexpr explicit operator bool() const optional_noexcept { return has_value(); } #else optional_constexpr operator safe_bool() const optional_noexcept { return has_value() ? &optional::this_type_does_not_support_comparisons : 0; } #endif optional_constexpr bool has_value() const optional_noexcept { return has_value_; } optional_constexpr14 value_type const & value() const optional_ref_qual { if ( ! has_value() ) throw bad_optional_access(); return contained.value(); } optional_constexpr14 value_type & value() optional_ref_qual { if ( ! has_value() ) throw bad_optional_access(); return contained.value(); } #if optional_HAVE( REF_QUALIFIER ) optional_constexpr14 value_type const && value() const optional_refref_qual { if ( ! has_value() ) throw bad_optional_access(); return std::move( contained.value() ); } optional_constexpr14 value_type && value() optional_refref_qual { if ( ! has_value() ) throw bad_optional_access(); return std::move( contained.value() ); } #endif #if optional_CPP11_OR_GREATER template< class U > optional_constexpr value_type value_or( U && v ) const optional_ref_qual { return has_value() ? contained.value() : static_cast(std::forward( v ) ); } template< class U > optional_constexpr value_type value_or( U && v ) const optional_refref_qual { return has_value() ? std::move( contained.value() ) : static_cast(std::forward( v ) ); } #else template< class U > optional_constexpr value_type value_or( U const & v ) const { return has_value() ? contained.value() : static_cast( v ); } #endif // optional_CPP11_OR_GREATER // modifiers void reset() optional_noexcept { if ( has_value() ) contained.destruct_value(); has_value_ = false; } private: void this_type_does_not_support_comparisons() const {} template< typename V > void initialize( V const & value ) { assert( ! has_value() ); contained.construct_value( value ); has_value_ = true; } #if optional_CPP11_OR_GREATER template< typename V > void initialize( V && value ) { assert( ! has_value() ); contained.construct_value( std::move( value ) ); has_value_ = true; } #endif private: bool has_value_; detail::storage_t< value_type > contained; }; // Relational operators template< typename T, typename U > inline optional_constexpr bool operator==( optional const & x, optional const & y ) { return bool(x) != bool(y) ? false : !bool( x ) ? true : *x == *y; } template< typename T, typename U > inline optional_constexpr bool operator!=( optional const & x, optional const & y ) { return !(x == y); } template< typename T, typename U > inline optional_constexpr bool operator<( optional const & x, optional const & y ) { return (!y) ? false : (!x) ? true : *x < *y; } template< typename T, typename U > inline optional_constexpr bool operator>( optional const & x, optional const & y ) { return (y < x); } template< typename T, typename U > inline optional_constexpr bool operator<=( optional const & x, optional const & y ) { return !(y < x); } template< typename T, typename U > inline optional_constexpr bool operator>=( optional const & x, optional const & y ) { return !(x < y); } // Comparison with nullopt template< typename T > inline optional_constexpr bool operator==( optional const & x, nullopt_t ) optional_noexcept { return (!x); } template< typename T > inline optional_constexpr bool operator==( nullopt_t, optional const & x ) optional_noexcept { return (!x); } template< typename T > inline optional_constexpr bool operator!=( optional const & x, nullopt_t ) optional_noexcept { return bool(x); } template< typename T > inline optional_constexpr bool operator!=( nullopt_t, optional const & x ) optional_noexcept { return bool(x); } template< typename T > inline optional_constexpr bool operator<( optional const &, nullopt_t ) optional_noexcept { return false; } template< typename T > inline optional_constexpr bool operator<( nullopt_t, optional const & x ) optional_noexcept { return bool(x); } template< typename T > inline optional_constexpr bool operator<=( optional const & x, nullopt_t ) optional_noexcept { return (!x); } template< typename T > inline optional_constexpr bool operator<=( nullopt_t, optional const & ) optional_noexcept { return true; } template< typename T > inline optional_constexpr bool operator>( optional const & x, nullopt_t ) optional_noexcept { return bool(x); } template< typename T > inline optional_constexpr bool operator>( nullopt_t, optional const & ) optional_noexcept { return false; } template< typename T > inline optional_constexpr bool operator>=( optional const &, nullopt_t ) optional_noexcept { return true; } template< typename T > inline optional_constexpr bool operator>=( nullopt_t, optional const & x ) optional_noexcept { return (!x); } // Comparison with T template< typename T, typename U > inline optional_constexpr bool operator==( optional const & x, U const & v ) { return bool(x) ? *x == v : false; } template< typename T, typename U > inline optional_constexpr bool operator==( U const & v, optional const & x ) { return bool(x) ? v == *x : false; } template< typename T, typename U > inline optional_constexpr bool operator!=( optional const & x, U const & v ) { return bool(x) ? *x != v : true; } template< typename T, typename U > inline optional_constexpr bool operator!=( U const & v, optional const & x ) { return bool(x) ? v != *x : true; } template< typename T, typename U > inline optional_constexpr bool operator<( optional const & x, U const & v ) { return bool(x) ? *x < v : true; } template< typename T, typename U > inline optional_constexpr bool operator<( U const & v, optional const & x ) { return bool(x) ? v < *x : false; } template< typename T, typename U > inline optional_constexpr bool operator<=( optional const & x, U const & v ) { return bool(x) ? *x <= v : true; } template< typename T, typename U > inline optional_constexpr bool operator<=( U const & v, optional const & x ) { return bool(x) ? v <= *x : false; } template< typename T, typename U > inline optional_constexpr bool operator>( optional const & x, U const & v ) { return bool(x) ? *x > v : false; } template< typename T, typename U > inline optional_constexpr bool operator>( U const & v, optional const & x ) { return bool(x) ? v > *x : true; } template< typename T, typename U > inline optional_constexpr bool operator>=( optional const & x, U const & v ) { return bool(x) ? *x >= v : false; } template< typename T, typename U > inline optional_constexpr bool operator>=( U const & v, optional const & x ) { return bool(x) ? v >= *x : true; } // Specialized algorithms template< typename T > void swap( optional & x, optional & y ) #if optional_CPP11_OR_GREATER noexcept( noexcept( x.swap(y) ) ) #endif { x.swap( y ); } #if optional_CPP11_OR_GREATER template< class T > optional_constexpr optional< typename std::decay::type > make_optional( T && v ) { return optional< typename std::decay::type >( std::forward( v ) ); } template< class T, class...Args > optional_constexpr optional make_optional( Args&&... args ) { return optional( in_place, std::forward(args)...); } template< class T, class U, class... Args > optional_constexpr optional make_optional( std::initializer_list il, Args&&... args ) { return optional( in_place, il, std::forward(args)...); } #else template< typename T > optional make_optional( T const & v ) { return optional( v ); } #endif // optional_CPP11_OR_GREATER } // namespace optional using namespace optional_lite; } // namespace nonstd #if optional_CPP11_OR_GREATER // specialize the std::hash algorithm: namespace std { template< class T > struct hash< nonstd::optional > { public: std::size_t operator()( nonstd::optional const & v ) const optional_noexcept { return bool( v ) ? hash()( *v ) : 0; } }; } //namespace std #endif // optional_CPP11_OR_GREATER #ifdef __clang__ # pragma clang diagnostic pop #elif defined __GNUC__ # pragma GCC diagnostic pop #endif #endif // have C++17 std::optional #endif // NONSTD_OPTIONAL_LITE_HPP