EVOLUTION-MANAGER

Edit File: distance_segment_box.hpp

// Boost.Geometry (aka GGL, Generic Geometry Library) // Copyright (c) 2018-2019 Oracle and/or its affiliates. // Contributed and/or modified by Vissarion Fisikopoulos, on behalf of Oracle // Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle // 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_GEOGRAPHIC_DISTANCE_SEGMENT_BOX_HPP #define BOOST_GEOMETRY_STRATEGIES_GEOGRAPHIC_DISTANCE_SEGMENT_BOX_HPP #include <boost/geometry/srs/spheroid.hpp> #include <boost/geometry/algorithms/detail/distance/segment_to_box.hpp> #include <boost/geometry/strategies/distance.hpp> #include <boost/geometry/strategies/geographic/azimuth.hpp> #include <boost/geometry/strategies/geographic/distance_cross_track.hpp> #include <boost/geometry/strategies/geographic/parameters.hpp> #include <boost/geometry/strategies/geographic/side.hpp> #include <boost/geometry/strategies/normalize.hpp> #include <boost/geometry/strategies/spherical/disjoint_box_box.hpp> #include <boost/geometry/strategies/spherical/distance_segment_box.hpp> #include <boost/geometry/strategies/spherical/point_in_point.hpp> #include <boost/geometry/util/promote_floating_point.hpp> #include <boost/geometry/util/select_calculation_type.hpp> namespace boost { namespace geometry { namespace strategy { namespace distance { template < typename FormulaPolicy = strategy::andoyer, typename Spheroid = srs::spheroid<double>, typename CalculationType = void > struct geographic_segment_box { template <typename PointOfSegment, typename PointOfBox> struct return_type : promote_floating_point < typename select_calculation_type < PointOfSegment, PointOfBox, CalculationType >::type > {}; typedef geographic_tag cs_tag; // point-point strategy getters struct distance_pp_strategy { typedef geographic<FormulaPolicy, Spheroid, CalculationType> type; }; inline typename distance_pp_strategy::type get_distance_pp_strategy() const { typedef typename distance_pp_strategy::type distance_type; return distance_type(m_spheroid); } // point-segment strategy getters struct distance_ps_strategy { typedef geographic_cross_track < FormulaPolicy, Spheroid, CalculationType > type; }; inline typename distance_ps_strategy::type get_distance_ps_strategy() const { typedef typename distance_ps_strategy::type distance_type; return distance_type(m_spheroid); } struct distance_pb_strategy { typedef geographic_cross_track_point_box < FormulaPolicy, Spheroid, CalculationType > type; }; inline typename distance_pb_strategy::type get_distance_pb_strategy() const { return typename distance_pb_strategy::type(m_spheroid); } typedef side::geographic < FormulaPolicy, Spheroid, CalculationType > side_strategy_type; inline side_strategy_type get_side_strategy() const { return side_strategy_type(m_spheroid); } typedef within::spherical_point_point equals_point_point_strategy_type; static inline equals_point_point_strategy_type get_equals_point_point_strategy() { return equals_point_point_strategy_type(); } //constructor explicit geographic_segment_box(Spheroid const& spheroid = Spheroid()) : m_spheroid(spheroid) {} // methods template <typename LessEqual, typename ReturnType, typename SegmentPoint, typename BoxPoint> inline ReturnType segment_below_of_box(SegmentPoint const& p0, SegmentPoint const& p1, BoxPoint const& top_left, BoxPoint const& top_right, BoxPoint const& bottom_left, BoxPoint const& bottom_right) const { typedef typename azimuth::geographic < FormulaPolicy, Spheroid, CalculationType > azimuth_strategy_type; azimuth_strategy_type az_strategy(m_spheroid); typedef typename envelope::geographic_segment < FormulaPolicy, Spheroid, CalculationType > envelope_segment_strategy_type; envelope_segment_strategy_type es_strategy(m_spheroid); return generic_segment_box::segment_below_of_box < LessEqual, ReturnType >(p0,p1,top_left,top_right,bottom_left,bottom_right, geographic_segment_box<FormulaPolicy, Spheroid, CalculationType>(), az_strategy, es_strategy, normalize::spherical_point(), covered_by::spherical_point_box(), disjoint::spherical_box_box()); } template <typename SPoint, typename BPoint> static void mirror(SPoint& p0, SPoint& p1, BPoint& bottom_left, BPoint& bottom_right, BPoint& top_left, BPoint& top_right) { generic_segment_box::mirror(p0, p1, bottom_left, bottom_right, top_left, top_right); } private : Spheroid m_spheroid; }; #ifndef DOXYGEN_NO_STRATEGY_SPECIALIZATIONS namespace services { //tags template <typename FormulaPolicy> struct tag<geographic_segment_box<FormulaPolicy> > { typedef strategy_tag_distance_segment_box type; }; template < typename FormulaPolicy, typename Spheroid > struct tag<geographic_segment_box<FormulaPolicy, Spheroid> > { typedef strategy_tag_distance_segment_box type; }; template < typename FormulaPolicy, typename Spheroid, typename CalculationType > struct tag<geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> > { typedef strategy_tag_distance_segment_box type; }; // return types template <typename FormulaPolicy, typename PS, typename PB> struct return_type<geographic_segment_box<FormulaPolicy>, PS, PB> : geographic_segment_box<FormulaPolicy>::template return_type<PS, PB> {}; template < typename FormulaPolicy, typename Spheroid, typename PS, typename PB > struct return_type<geographic_segment_box<FormulaPolicy, Spheroid>, PS, PB> : geographic_segment_box<FormulaPolicy, Spheroid>::template return_type<PS, PB> {}; template < typename FormulaPolicy, typename Spheroid, typename CalculationType, typename PS, typename PB > struct return_type<geographic_segment_box<FormulaPolicy, Spheroid, CalculationType>, PS, PB> : geographic_segment_box<FormulaPolicy, Spheroid, CalculationType>::template return_type<PS, PB> {}; //comparable types template < typename FormulaPolicy, typename Spheroid, typename CalculationType > struct comparable_type<geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> > { typedef geographic_segment_box < FormulaPolicy, Spheroid, CalculationType > type; }; template < typename FormulaPolicy, typename Spheroid, typename CalculationType > struct get_comparable<geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> > { typedef typename comparable_type < geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> >::type comparable_type; public : static inline comparable_type apply(geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> const& ) { return comparable_type(); } }; // result from distance template < typename FormulaPolicy, typename PS, typename PB > struct result_from_distance<geographic_segment_box<FormulaPolicy>, PS, PB> { private : typedef typename geographic_segment_box < FormulaPolicy >::template return_type<PS, PB>::type return_type; public : template <typename T> static inline return_type apply(geographic_segment_box<FormulaPolicy> const& , T const& distance) { return distance; } }; template < typename FormulaPolicy, typename Spheroid, typename CalculationType, typename PS, typename PB > struct result_from_distance<geographic_segment_box<FormulaPolicy, Spheroid, CalculationType>, PS, PB> { private : typedef typename geographic_segment_box < FormulaPolicy, Spheroid, CalculationType >::template return_type<PS, PB>::type return_type; public : template <typename T> static inline return_type apply(geographic_segment_box<FormulaPolicy, Spheroid, CalculationType> const& , T const& distance) { return distance; } }; // default strategies template <typename Segment, typename Box> struct default_strategy < segment_tag, box_tag, Segment, Box, geographic_tag, geographic_tag > { typedef geographic_segment_box<> type; }; template <typename Box, typename Segment> struct default_strategy < box_tag, segment_tag, Box, Segment, geographic_tag, geographic_tag > { typedef typename default_strategy < segment_tag, box_tag, Segment, Box, geographic_tag, geographic_tag >::type type; }; } #endif }} // namespace strategy::distance }} // namespace boost::geometry #endif // BOOST_GEOMETRY_STRATEGIES_GEOGRAPHIC_DISTANCE_SEGMENT_BOX_HPP