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Edit File: point_in_box.hpp

// Boost.Geometry (aka GGL, Generic Geometry Library) // Copyright (c) 2007-2015 Barend Gehrels, Amsterdam, the Netherlands. // Copyright (c) 2008-2015 Bruno Lalande, Paris, France. // Copyright (c) 2009-2015 Mateusz Loskot, London, UK. // This file was modified by Oracle on 2015-2018. // Modifications copyright (c) 2015-2018, Oracle and/or its affiliates. // Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle // Parts of Boost.Geometry are redesigned from Geodan's Geographic Library // (geolib/GGL), copyright (c) 1995-2010 Geodan, Amsterdam, the Netherlands. // 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) #ifndef BOOST_GEOMETRY_STRATEGIES_CARTESIAN_POINT_IN_BOX_HPP #define BOOST_GEOMETRY_STRATEGIES_CARTESIAN_POINT_IN_BOX_HPP #include <boost/geometry/core/access.hpp> #include <boost/geometry/core/coordinate_dimension.hpp> #include <boost/geometry/core/cs.hpp> #include <boost/geometry/strategies/covered_by.hpp> #include <boost/geometry/strategies/within.hpp> #include <boost/geometry/util/normalize_spheroidal_coordinates.hpp> namespace boost { namespace geometry { namespace strategy { namespace within { #ifndef DOXYGEN_NO_DETAIL namespace detail { struct within_coord { template <typename Value1, typename Value2> static inline bool apply(Value1 const& value, Value2 const& min_value, Value2 const& max_value) { return value > min_value && value < max_value; } }; struct covered_by_coord { template <typename Value1, typename Value2> static inline bool apply(Value1 const& value, Value2 const& min_value, Value2 const& max_value) { return value >= min_value && value <= max_value; } }; template <typename Geometry, std::size_t Dimension, typename CSTag> struct within_range : within_coord {}; template <typename Geometry, std::size_t Dimension, typename CSTag> struct covered_by_range : covered_by_coord {}; // NOTE: the result would be the same if instead of structs defined below // the above xxx_range were used with the following arguments: // (min_value + diff_min, min_value, max_value) struct within_longitude_diff { template <typename CalcT> static inline bool apply(CalcT const& diff_min, CalcT const& min_value, CalcT const& max_value) { CalcT const c0 = 0; return diff_min > c0 && (min_value + diff_min < max_value /*|| max_value - diff_min > min_value*/); } }; struct covered_by_longitude_diff { template <typename CalcT> static inline bool apply(CalcT const& diff_min, CalcT const& min_value, CalcT const& max_value) { return min_value + diff_min <= max_value /*|| max_value - diff_min >= min_value*/; } }; template <typename Geometry, typename CoordCheck, typename DiffCheck> struct longitude_range { template <typename Value1, typename Value2> static inline bool apply(Value1 const& value, Value2 const& min_value, Value2 const& max_value) { typedef typename select_most_precise < Value1, Value2 >::type calc_t; typedef typename geometry::detail::cs_angular_units<Geometry>::type units_t; typedef math::detail::constants_on_spheroid<calc_t, units_t> constants; if (CoordCheck::apply(value, min_value, max_value)) { return true; } // min <= max <=> diff >= 0 calc_t const diff_ing = max_value - min_value; // if containing covers the whole globe it contains all if (diff_ing >= constants::period()) { return true; } // calculate positive longitude translation with min_value as origin calc_t const diff_min = math::longitude_distance_unsigned<units_t, calc_t>(min_value, value); return DiffCheck::template apply<calc_t>(diff_min, min_value, max_value); } }; // spherical_equatorial_tag, spherical_polar_tag and geographic_cat are casted to spherical_tag template <typename Geometry> struct within_range<Geometry, 0, spherical_tag> : longitude_range<Geometry, within_coord, within_longitude_diff> {}; template <typename Geometry> struct covered_by_range<Geometry, 0, spherical_tag> : longitude_range<Geometry, covered_by_coord, covered_by_longitude_diff> {}; template < template <typename, std::size_t, typename> class SubStrategy, typename CSTag, // cartesian_tag or spherical_tag std::size_t Dimension, std::size_t DimensionCount > struct relate_point_box_loop { template <typename Point, typename Box> static inline bool apply(Point const& point, Box const& box) { if (! SubStrategy<Point, Dimension, CSTag>::apply(get<Dimension>(point), get<min_corner, Dimension>(box), get<max_corner, Dimension>(box)) ) { return false; } return relate_point_box_loop < SubStrategy, CSTag, Dimension + 1, DimensionCount >::apply(point, box); } }; template < template <typename, std::size_t, typename> class SubStrategy, typename CSTag, std::size_t DimensionCount > struct relate_point_box_loop<SubStrategy, CSTag, DimensionCount, DimensionCount> { template <typename Point, typename Box> static inline bool apply(Point const& , Box const& ) { return true; } }; } // namespace detail #endif // DOXYGEN_NO_DETAIL struct cartesian_point_box { template <typename Point, typename Box> static inline bool apply(Point const& point, Box const& box) { return detail::relate_point_box_loop < detail::within_range, cartesian_tag, 0, dimension<Point>::value >::apply(point, box); } }; struct spherical_point_box { template <typename Point, typename Box> static inline bool apply(Point const& point, Box const& box) { return detail::relate_point_box_loop < detail::within_range, spherical_tag, 0, dimension<Point>::value >::apply(point, box); } }; #ifndef DOXYGEN_NO_STRATEGY_SPECIALIZATIONS namespace services { template <typename Point, typename Box> struct default_strategy < Point, Box, point_tag, box_tag, pointlike_tag, areal_tag, cartesian_tag, cartesian_tag > { typedef within::cartesian_point_box type; }; // spherical_equatorial_tag, spherical_polar_tag and geographic_cat are casted to spherical_tag template <typename Point, typename Box> struct default_strategy < Point, Box, point_tag, box_tag, pointlike_tag, areal_tag, spherical_tag, spherical_tag > { typedef within::spherical_point_box type; }; } // namespace services #endif // DOXYGEN_NO_STRATEGY_SPECIALIZATIONS } // namespace within namespace covered_by { struct cartesian_point_box { template <typename Point, typename Box> static inline bool apply(Point const& point, Box const& box) { return within::detail::relate_point_box_loop < within::detail::covered_by_range, cartesian_tag, 0, dimension<Point>::value >::apply(point, box); } }; struct spherical_point_box { template <typename Point, typename Box> static inline bool apply(Point const& point, Box const& box) { return within::detail::relate_point_box_loop < within::detail::covered_by_range, spherical_tag, 0, dimension<Point>::value >::apply(point, box); } }; #ifndef DOXYGEN_NO_STRATEGY_SPECIALIZATIONS namespace services { template <typename Point, typename Box> struct default_strategy < Point, Box, point_tag, box_tag, pointlike_tag, areal_tag, cartesian_tag, cartesian_tag > { typedef covered_by::cartesian_point_box type; }; // spherical_equatorial_tag, spherical_polar_tag and geographic_cat are casted to spherical_tag template <typename Point, typename Box> struct default_strategy < Point, Box, point_tag, box_tag, pointlike_tag, areal_tag, spherical_tag, spherical_tag > { typedef covered_by::spherical_point_box type; }; } // namespace services #endif // DOXYGEN_NO_STRATEGY_SPECIALIZATIONS } // namespace covered_by }}} // namespace boost::geometry::strategy #endif // BOOST_GEOMETRY_STRATEGIES_CARTESIAN_POINT_IN_BOX_HPP