// Boost.Geometry (aka GGL, Generic Geometry Library) // Copyright (c) 2015-2020, Oracle and/or its affiliates. // Contributed and/or modified by Menelaos Karavelas, on behalf of Oracle // Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle // Licensed under the Boost Software License version 1.0. // http://www.boost.org/users/license.html #ifndef BOOST_GEOMETRY_STRATEGIES_NORMALIZE_HPP #define BOOST_GEOMETRY_STRATEGIES_NORMALIZE_HPP #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace geometry { namespace strategy { namespace normalize { #ifndef DOXYGEN_NO_DETAIL namespace detail { struct do_nothing { template static inline void apply(GeometryIn const&, GeometryOut&) { } }; template struct assign_loop { template static inline void apply(CoordinateType const& longitude, CoordinateType const& latitude, PointIn const& point_in, PointOut& point_out) { geometry::set(point_out, boost::numeric_cast < typename coordinate_type::type >(geometry::get(point_in))); assign_loop < Dimension + 1, DimensionCount >::apply(longitude, latitude, point_in, point_out); } }; template struct assign_loop { template static inline void apply(CoordinateType const&, CoordinateType const&, PointIn const&, PointOut&) { } }; template struct assign_loop<0, DimensionCount> { template static inline void apply(CoordinateType const& longitude, CoordinateType const& latitude, PointIn const& point_in, PointOut& point_out) { geometry::set<0>(point_out, boost::numeric_cast < typename coordinate_type::type >(longitude)); assign_loop < 1, DimensionCount >::apply(longitude, latitude, point_in, point_out); } }; template struct assign_loop<1, DimensionCount> { template static inline void apply(CoordinateType const& longitude, CoordinateType const& latitude, PointIn const& point_in, PointOut& point_out) { geometry::set<1>(point_out, boost::numeric_cast < typename coordinate_type::type >(latitude)); assign_loop < 2, DimensionCount >::apply(longitude, latitude, point_in, point_out); } }; template struct normalize_point { static inline void apply(PointIn const& point_in, PointOut& point_out) { typedef typename coordinate_type::type in_coordinate_type; in_coordinate_type longitude = geometry::get<0>(point_in); in_coordinate_type latitude = geometry::get<1>(point_in); math::normalize_spheroidal_coordinates < typename geometry::detail::cs_angular_units::type, IsEquatorial, in_coordinate_type >(longitude, latitude); assign_loop < 0, dimension::value >::apply(longitude, latitude, point_in, point_out); } }; template class normalize_box { template static inline void apply_to_coordinates(CoordinateInType& lon_min, CoordinateInType& lat_min, CoordinateInType& lon_max, CoordinateInType& lat_max, BoxIn const& box_in, BoxOut& box_out) { geometry::detail::indexed_point_view p_min_out(box_out); assign_loop < 0, dimension::value >::apply(lon_min, lat_min, geometry::detail::indexed_point_view < BoxIn const, min_corner >(box_in), p_min_out); geometry::detail::indexed_point_view p_max_out(box_out); assign_loop < 0, dimension::value >::apply(lon_max, lat_max, geometry::detail::indexed_point_view < BoxIn const, max_corner >(box_in), p_max_out); } public: static inline void apply(BoxIn const& box_in, BoxOut& box_out) { typedef typename coordinate_type::type in_coordinate_type; in_coordinate_type lon_min = geometry::get(box_in); in_coordinate_type lat_min = geometry::get(box_in); in_coordinate_type lon_max = geometry::get(box_in); in_coordinate_type lat_max = geometry::get(box_in); math::normalize_spheroidal_box_coordinates < typename geometry::detail::cs_angular_units::type, IsEquatorial, in_coordinate_type >(lon_min, lat_min, lon_max, lat_max); apply_to_coordinates < typename geometry::detail::cs_angular_units::type, typename geometry::detail::cs_angular_units::type >(lon_min, lat_min, lon_max, lat_max, box_in, box_out); } }; } // namespace detail #endif // DOXYGEN_NO_DETAIL struct cartesian_point : detail::do_nothing {}; struct cartesian_box : detail::do_nothing {}; struct spherical_point { template static inline void apply(PointIn const& point_in, PointOut& point_out) { detail::normalize_point < PointIn, PointOut, (! std::is_same < typename cs_tag::type, spherical_polar_tag >::value) >::apply(point_in, point_out); } }; struct spherical_box { template static inline void apply(BoxIn const& box_in, BoxOut& box_out) { detail::normalize_box < BoxIn, BoxOut, (! std::is_same < typename cs_tag::type, spherical_polar_tag >::value) >::apply(box_in, box_out); } }; }} // namespace strategy::normalize }} // namespace boost::geometry #endif // BOOST_GEOMETRY_STRATEGIES_NORMALIZE_HPP