#ifndef SPROUT_RANGE_ADAPTOR_SINUSOIDAL_HPP #define SPROUT_RANGE_ADAPTOR_SINUSOIDAL_HPP #include #include #include #include #include #include #include #include #include #include #include namespace sprout { namespace adaptors { // // sinusoidal_range // template class sinusoidal_range : public sprout::range::range_container< sprout::sinusoid_iterator > , public sprout::detail::container_nosy_static_size , public sprout::detail::container_nosy_fixed_size { public: typedef Range range_type; typedef sprout::range::range_container< sprout::sinusoid_iterator > base_type; typedef typename base_type::iterator iterator; typedef typename base_type::value_type value_type; typedef typename base_type::difference_type difference_type; public: sinusoidal_range() = default; sinusoidal_range(sinusoidal_range const&) = default; explicit SPROUT_CONSTEXPR sinusoidal_range( range_type& range, value_type const& frequency = 1, value_type const& amplitude = 1, value_type const& phase = 0 ) : base_type( iterator(0, frequency, amplitude, phase), iterator(sprout::size(range), frequency, amplitude, phase) ) {} SPROUT_CONSTEXPR value_type frequency() const { return base_type::begin().frequency(); } SPROUT_CONSTEXPR value_type amplitude() const { return base_type::begin().amplitude(); } SPROUT_CONSTEXPR value_type phase() const { return base_type::begin().phase(); } }; template class sinusoidal_range : public sprout::range::range_container< sprout::sinusoid_iterator > { public: typedef sprout::range::range_container< sprout::sinusoid_iterator > base_type; typedef typename base_type::iterator iterator; typedef typename base_type::value_type value_type; typedef typename base_type::difference_type difference_type; public: sinusoidal_range() = default; sinusoidal_range(sinusoidal_range const&) = default; explicit SPROUT_CONSTEXPR sinusoidal_range( value_type const& frequency = 1, value_type const& amplitude = 1, value_type const& phase = 0 ) : base_type( iterator(0, frequency, amplitude, phase), iterator(-1, frequency, amplitude, phase) ) {} SPROUT_CONSTEXPR value_type frequency() const { return base_type::begin().frequency(); } SPROUT_CONSTEXPR value_type amplitude() const { return base_type::begin().amplitude(); } SPROUT_CONSTEXPR value_type phase() const { return base_type::begin().phase(); } }; // // sinusoidal_forwarder // class sinusoidal_forwarder { public: template SPROUT_CONSTEXPR sprout::adaptors::sinusoidal_range operator()( Value const& frequency = 1, Value const& amplitude = 1, Value const& phase = 0 ) { return sprout::adaptors::sinusoidal_range(frequency, amplitude, phase); } }; // // sinusoidal // namespace { SPROUT_STATIC_CONSTEXPR sprout::adaptors::sinusoidal_forwarder sinusoidal{}; } // anonymous-namespace // // operator| // template inline SPROUT_CONSTEXPR sprout::adaptors::sinusoidal_range< Value, typename std::remove_reference::type>::type > operator|(Range&& lhs, sprout::adaptors::sinusoidal_range const& rhs) { return sprout::adaptors::sinusoidal_range< Value, typename std::remove_reference::type>::type >( sprout::lvalue_forward(lhs), rhs.frequency(), rhs.amplitude(), rhs.phase() ); } } // namespace adaptors // // container_construct_traits // template struct container_construct_traits > { public: typedef typename sprout::container_construct_traits::copied_type copied_type; public: template static SPROUT_CONSTEXPR copied_type deep_copy(Cont&& cont) { return sprout::range::fixed::copy(sprout::forward(cont), sprout::pit()); } template static SPROUT_CONSTEXPR copied_type make(Args&&... args) { return sprout::make(sprout::forward(args)...); } template static SPROUT_CONSTEXPR copied_type remake( Cont&& cont, typename sprout::container_traits >::difference_type size, Args&&... args ) { return sprout::remake(sprout::forward(cont), size, sprout::forward(args)...); } }; } // namespace sprout #endif // #ifndef SPROUT_RANGE_ADAPTOR_SINUSOIDAL_HPP