static_assert( __cplusplus > 2020'99 ); #pragma once #include #include #include #include namespace Alepha::Hydrogen ::detail { namespace comparisons_m::inline exports { struct comparable {}; } namespace comparisons_m { template< typename T > concept LensComparable= HasCapability< T, comparable >; // Spaceship lens support template< typename T > concept MemberSpaceshipLensed= LensComparable< T > and requires( const T &lhs, const T &rhs ) { { lhs.spaceship_lens() <=> rhs.spaceship_lens() } -> SameAs< std::strong_ordering >; }; constexpr decltype( auto ) spaceship_lens( const MemberSpaceshipLensed auto &t ) { return t.spaceship_lens(); } template< typename T > concept SpaceshipLensed= LensComparable< T > and requires( const T &lhs, const T &rhs ) { { spaceship_lens( lhs ) <=> rhs.spaceship_lens( rhs ) } -> SameAs< std::strong_ordering >; }; template< typename T > constexpr decltype( auto ) make_spaceship_lens( T &t ) { if constexpr( SpaceshipLensed< T > ) return spaceship_lens( t ); //else if constexpr( supports_default_lens_v< T > ) return default_lens( t ); else static_assert( Meta::dep_value< false, T > ); } // Value lens support template< typename T > concept MemberValueLensed= LensComparable< T > and requires( const T &val ) { { val.value_lens() } -> Concepts::Comparable; }; constexpr decltype( auto ) value_lens( const MemberValueLensed auto &t ) { return t.value_lens(); } constexpr decltype( auto ) value_lens( const SpaceshipLensed auto &t ) { return spaceship_lens( t ); } template< typename T > concept ValueLensed= LensComparable< T > and requires( const T &val ) { { value_lens( val ) } -> Concepts::Comparable; }; template< typename T > constexpr decltype( auto ) make_value_lens( T &t ) { if constexpr( ValueLensed< T > ) return value_lens( t ); //else if constexpr( supports_default_lens_v< T > ) return default_lens( t ); else static_assert( Meta::dep_value< false, T > ); } // Equality Lens support template< typename T > concept MemberEqualityLensed= LensComparable< T > and requires( const T &val ) { { val.equality_lens() } -> Concepts::EqualityComparable; }; constexpr decltype( auto ) equality_lens( const MemberEqualityLensed auto &t ) { return t.equality_lens(); } constexpr decltype( auto ) equality_lens( const ValueLensed auto &t ) { return value_lens( t ); } template< typename T > concept EqualityLensed= LensComparable< T > and requires( const T &val ) { { equality_lens( val ) } -> Concepts::EqualityComparable; }; template< typename T > constexpr decltype( auto ) make_equality_lens( T &t ) { if constexpr( EqualityLensed< T > ) return equality_lens( t ); //else if constexpr( supports_default_lens_v< T > ) return default_lens( t ); else static_assert( Meta::dep_value< false, T > ); } // Strict weak order lens support template< typename T > concept MemberStrictWeakOrderLensed= LensComparable< T > and requires( const T &val ) { { val.strict_weak_order_lens() } -> Concepts::LessThanComparable; }; constexpr decltype( auto ) strict_weak_order_lens( const MemberStrictWeakOrderLensed auto &t ) { return t.strict_weak_order_lens(); } constexpr decltype( auto ) strict_weak_order_lens( const ValueLensed auto &t ) { return value_lens( t ); } template< typename T > concept StrictWeakOrderLensed= LensComparable< T > and requires( const T &val ) { { strict_weak_order_lens( val ) } -> Concepts::LessThanComparable; }; template< typename T > constexpr decltype( auto ) make_strict_weak_order_lens( T &t ) { if constexpr( StrictWeakOrderLensed< T > ) return strict_weak_order_lens( t ); //else if constexpr( supports_default_lens_v< T > ) return default_lens( t ); else static_assert( Meta::dep_value< false, T > ); } // Operator support: template< LensComparable T > constexpr bool operator == ( const T &lhs, const T &rhs ) { return make_equality_lens( lhs ) == make_equality_lens( rhs ); } template< LensComparable T > constexpr bool operator != ( const T &lhs, const T &rhs ) { return make_equality_lens( lhs ) != make_equality_lens( rhs ); } template< LensComparable T > constexpr bool operator < ( const T &lhs, const T &rhs ) { return make_strict_weak_order_lens( lhs ) < make_strict_weak_order_lens( rhs ); } template< LensComparable T > constexpr bool operator > ( const T &lhs, const T &rhs ) { return make_strict_weak_order_lens( lhs ) > make_strict_weak_order_lens( rhs ); } template< LensComparable T > constexpr bool operator <= ( const T &lhs, const T &rhs ) { return make_strict_weak_order_lens( lhs ) <= make_strict_weak_order_lens( rhs ); } template< LensComparable T > constexpr bool operator >= ( const T &lhs, const T &rhs ) { return make_strict_weak_order_lens( lhs ) >= make_strict_weak_order_lens( rhs ); } template< typename ... Args > struct magma_hook { std::tuple< Args... > view; }; namespace exports { template< typename ... Args > constexpr auto ordering_magma( Args && ... args ) { return magma_hook< Args... >{ std::tie( std::forward< Args >( args )... ) }; } } // TODO: Sort out the linear-trichotomous problem. template< typename comp, std::size_t index= 0, typename ... Args > constexpr bool compOp( const std::tuple< Args... > &lhs, const std::tuple< Args... > &rhs ) { if constexpr( index == sizeof...( Args ) ) return false; else { const auto &l= std::get< index >( lhs ); const auto &r= std::get< index >( rhs ); if( comp{}( l, r ) ) return true; else if( comp{}( r, l ) ) return false; return compOp< comp, index + 1 >( lhs, rhs ); } } template< typename ... Args > constexpr bool operator < ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return compOp< std::less<> >( lhs.view, rhs.view ); } template< typename ... Args > constexpr bool operator > ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return compOp< std::greater<> >( lhs.view, rhs.view ); } template< typename comp, std::size_t index= 0, typename ... Args > constexpr bool comp_eqOp( const std::tuple< Args... > &lhs, const std::tuple< Args... > &rhs ) { if constexpr( index == sizeof...( Args ) ) return true; else { const auto &l= std::get< index >( lhs ); const auto &r= std::get< index >( rhs ); const bool first_pass= comp{}( l, r ); if( first_pass and comp{}( r, l ) ) return comp_eqOp< comp, index + 1 >( lhs, rhs ); return first_pass; } } template< typename ... Args > constexpr bool operator <= ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return comp_eqOp< std::less_equal<> >( lhs.view, rhs.view ); } template< typename ... Args > constexpr bool operator >= ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return comp_eqOp< std::greater_equal<> >( lhs.view, rhs.view ); } template< std::size_t index= 0, typename ... Args > constexpr bool eq( const std::tuple< Args... > &lhs, const std::tuple< Args... > &rhs ) { if constexpr( index == sizeof...( Args ) ) return true; else { const auto &l= std::get< index >( lhs ); const auto &r= std::get< index >( rhs ); return ( l == r ) and eq< index + 1 >( lhs, rhs ); } } template< typename ... Args > constexpr bool operator == ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return eq( lhs.view, rhs.view ); } template< std::size_t index= 0, typename ... Args > constexpr bool ne( const std::tuple< Args... > &lhs, const std::tuple< Args... > &rhs ) { if constexpr( index == sizeof...( Args ) ) return false; else { const auto &l= std::get< index >( lhs ); const auto &r= std::get< index >( rhs ); return l != r and ne< index + 1 >( lhs, rhs ); } } template< typename ... Args > constexpr bool operator != ( const magma_hook< Args... > &lhs, const magma_hook< Args... > &rhs ) { return ne( lhs, rhs ); } } } namespace Alepha::Hydrogen::inline exports::inline comparisons_m { using namespace detail::comparisons_m::exports; }