EVOLUTION-MANAGER

Edit File: implementation.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. // Copyright (c) 2014-2015 Adam Wulkiewicz, Lodz, Poland. // This file was modified by Oracle on 2014, 2015, 2016, 2017, 2018, 2019. // Modifications copyright (c) 2014-2019 Oracle and/or its affiliates. // Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle // Contributed and/or modified by Menelaos Karavelas, 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_ALGORITHMS_DETAIL_EQUALS_IMPLEMENTATION_HPP #define BOOST_GEOMETRY_ALGORITHMS_DETAIL_EQUALS_IMPLEMENTATION_HPP #include <cstddef> #include <vector> #include <boost/range.hpp> #include <boost/type_traits/is_base_of.hpp> #include <boost/geometry/core/access.hpp> #include <boost/geometry/core/tags.hpp> #include <boost/geometry/algorithms/detail/equals/point_point.hpp> // For trivial checks #include <boost/geometry/algorithms/area.hpp> #include <boost/geometry/algorithms/length.hpp> #include <boost/geometry/util/math.hpp> #include <boost/geometry/util/select_coordinate_type.hpp> #include <boost/geometry/util/select_most_precise.hpp> #include <boost/geometry/algorithms/detail/equals/collect_vectors.hpp> #include <boost/geometry/algorithms/detail/equals/interface.hpp> #include <boost/geometry/algorithms/detail/relate/relate_impl.hpp> #include <boost/geometry/algorithms/relate.hpp> #include <boost/geometry/views/detail/indexed_point_view.hpp> namespace boost { namespace geometry { #ifndef DOXYGEN_NO_DETAIL namespace detail { namespace equals { template < std::size_t Dimension, std::size_t DimensionCount > struct point_point { template <typename Point1, typename Point2, typename Strategy> static inline bool apply(Point1 const& point1, Point2 const& point2, Strategy const& ) { return Strategy::apply(point1, point2); } }; template < std::size_t Dimension, std::size_t DimensionCount > struct box_box { template <typename Box1, typename Box2, typename Strategy> static inline bool apply(Box1 const& box1, Box2 const& box2, Strategy const& strategy) { if (!geometry::math::equals(get<min_corner, Dimension>(box1), get<min_corner, Dimension>(box2)) || !geometry::math::equals(get<max_corner, Dimension>(box1), get<max_corner, Dimension>(box2))) { return false; } return box_box<Dimension + 1, DimensionCount>::apply(box1, box2, strategy); } }; template <std::size_t DimensionCount> struct box_box<DimensionCount, DimensionCount> { template <typename Box1, typename Box2, typename Strategy> static inline bool apply(Box1 const& , Box2 const& , Strategy const& ) { return true; } }; struct segment_segment { template <typename Segment1, typename Segment2, typename Strategy> static inline bool apply(Segment1 const& segment1, Segment2 const& segment2, Strategy const& strategy) { typename Strategy::point_in_point_strategy_type const& pt_pt_strategy = strategy.get_point_in_point_strategy(); return equals::equals_point_point( indexed_point_view<Segment1 const, 0>(segment1), indexed_point_view<Segment2 const, 0>(segment2), pt_pt_strategy) ? equals::equals_point_point( indexed_point_view<Segment1 const, 1>(segment1), indexed_point_view<Segment2 const, 1>(segment2), pt_pt_strategy) : ( equals::equals_point_point( indexed_point_view<Segment1 const, 0>(segment1), indexed_point_view<Segment2 const, 1>(segment2), pt_pt_strategy) && equals::equals_point_point( indexed_point_view<Segment1 const, 1>(segment1), indexed_point_view<Segment2 const, 0>(segment2), pt_pt_strategy) ); } }; struct area_check { template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy) { return geometry::math::equals( geometry::area(geometry1, strategy.template get_area_strategy<Geometry1>()), geometry::area(geometry2, strategy.template get_area_strategy<Geometry2>())); } }; struct length_check { template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy) { return geometry::math::equals( geometry::length(geometry1, strategy.template get_distance_strategy<Geometry1>()), geometry::length(geometry2, strategy.template get_distance_strategy<Geometry2>())); } }; template <typename Geometry1, typename Geometry2, typename IntersectionStrategy> struct collected_vector { typedef typename geometry::select_most_precise < typename select_coordinate_type < Geometry1, Geometry2 >::type, double >::type calculation_type; typedef geometry::collected_vector < calculation_type, Geometry1, typename IntersectionStrategy::side_strategy_type > type; }; template <typename TrivialCheck> struct equals_by_collection { template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy) { if (! TrivialCheck::apply(geometry1, geometry2, strategy)) { return false; } typedef typename collected_vector < Geometry1, Geometry2, Strategy >::type collected_vector_type; std::vector<collected_vector_type> c1, c2; geometry::collect_vectors(c1, geometry1); geometry::collect_vectors(c2, geometry2); if (boost::size(c1) != boost::size(c2)) { return false; } std::sort(c1.begin(), c1.end()); std::sort(c2.begin(), c2.end()); // Just check if these vectors are equal. return std::equal(c1.begin(), c1.end(), c2.begin()); } }; template<typename Geometry1, typename Geometry2> struct equals_by_relate : detail::relate::relate_impl < detail::de9im::static_mask_equals_type, Geometry1, Geometry2 > {}; // If collect_vectors which is a SideStrategy-dispatched optimization // is implemented in a way consistent with the Intersection/Side Strategy // then collect_vectors is used, otherwise relate is used. // NOTE: the result could be conceptually different for invalid // geometries in different coordinate systems because collect_vectors // and relate treat invalid geometries differently. template<typename TrivialCheck> struct equals_by_collection_or_relate { template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy) { typedef typename boost::is_base_of < nyi::not_implemented_tag, typename collected_vector < Geometry1, Geometry2, Strategy >::type >::type enable_relate_type; return apply(geometry1, geometry2, strategy, enable_relate_type()); } private: template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy, boost::false_type /*enable_relate*/) { return equals_by_collection<TrivialCheck>::apply(geometry1, geometry2, strategy); } template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& geometry1, Geometry2 const& geometry2, Strategy const& strategy, boost::true_type /*enable_relate*/) { return equals_by_relate<Geometry1, Geometry2>::apply(geometry1, geometry2, strategy); } }; struct equals_always_false { template <typename Geometry1, typename Geometry2, typename Strategy> static inline bool apply(Geometry1 const& , Geometry2 const& , Strategy const& ) { return false; } }; }} // namespace detail::equals #endif // DOXYGEN_NO_DETAIL #ifndef DOXYGEN_NO_DISPATCH namespace dispatch { template <typename P1, typename P2, std::size_t DimensionCount, bool Reverse> struct equals<P1, P2, point_tag, point_tag, pointlike_tag, pointlike_tag, DimensionCount, Reverse> : detail::equals::point_point<0, DimensionCount> {}; template <typename MultiPoint1, typename MultiPoint2, std::size_t DimensionCount, bool Reverse> struct equals<MultiPoint1, MultiPoint2, multi_point_tag, multi_point_tag, pointlike_tag, pointlike_tag, DimensionCount, Reverse> : detail::equals::equals_by_relate<MultiPoint1, MultiPoint2> {}; template <typename MultiPoint, typename Point, std::size_t DimensionCount, bool Reverse> struct equals<Point, MultiPoint, point_tag, multi_point_tag, pointlike_tag, pointlike_tag, DimensionCount, Reverse> : detail::equals::equals_by_relate<Point, MultiPoint> {}; template <typename Box1, typename Box2, std::size_t DimensionCount, bool Reverse> struct equals<Box1, Box2, box_tag, box_tag, areal_tag, areal_tag, DimensionCount, Reverse> : detail::equals::box_box<0, DimensionCount> {}; template <typename Ring1, typename Ring2, bool Reverse> struct equals<Ring1, Ring2, ring_tag, ring_tag, areal_tag, areal_tag, 2, Reverse> : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; template <typename Polygon1, typename Polygon2, bool Reverse> struct equals<Polygon1, Polygon2, polygon_tag, polygon_tag, areal_tag, areal_tag, 2, Reverse> : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; template <typename Polygon, typename Ring, bool Reverse> struct equals<Polygon, Ring, polygon_tag, ring_tag, areal_tag, areal_tag, 2, Reverse> : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; template <typename Ring, typename Box, bool Reverse> struct equals<Ring, Box, ring_tag, box_tag, areal_tag, areal_tag, 2, Reverse> : detail::equals::equals_by_collection<detail::equals::area_check> {}; template <typename Polygon, typename Box, bool Reverse> struct equals<Polygon, Box, polygon_tag, box_tag, areal_tag, areal_tag, 2, Reverse> : detail::equals::equals_by_collection<detail::equals::area_check> {}; template <typename Segment1, typename Segment2, std::size_t DimensionCount, bool Reverse> struct equals<Segment1, Segment2, segment_tag, segment_tag, linear_tag, linear_tag, DimensionCount, Reverse> : detail::equals::segment_segment {}; template <typename LineString1, typename LineString2, bool Reverse> struct equals<LineString1, LineString2, linestring_tag, linestring_tag, linear_tag, linear_tag, 2, Reverse> : detail::equals::equals_by_relate<LineString1, LineString2> {}; template <typename LineString, typename MultiLineString, bool Reverse> struct equals<LineString, MultiLineString, linestring_tag, multi_linestring_tag, linear_tag, linear_tag, 2, Reverse> : detail::equals::equals_by_relate<LineString, MultiLineString> {}; template <typename MultiLineString1, typename MultiLineString2, bool Reverse> struct equals<MultiLineString1, MultiLineString2, multi_linestring_tag, multi_linestring_tag, linear_tag, linear_tag, 2, Reverse> : detail::equals::equals_by_relate<MultiLineString1, MultiLineString2> {}; template <typename LineString, typename Segment, bool Reverse> struct equals<LineString, Segment, linestring_tag, segment_tag, linear_tag, linear_tag, 2, Reverse> : detail::equals::equals_by_relate<LineString, Segment> {}; template <typename MultiLineString, typename Segment, bool Reverse> struct equals<MultiLineString, Segment, multi_linestring_tag, segment_tag, linear_tag, linear_tag, 2, Reverse> : detail::equals::equals_by_relate<MultiLineString, Segment> {}; template <typename MultiPolygon1, typename MultiPolygon2, bool Reverse> struct equals < MultiPolygon1, MultiPolygon2, multi_polygon_tag, multi_polygon_tag, areal_tag, areal_tag, 2, Reverse > : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; template <typename Polygon, typename MultiPolygon, bool Reverse> struct equals < Polygon, MultiPolygon, polygon_tag, multi_polygon_tag, areal_tag, areal_tag, 2, Reverse > : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; template <typename MultiPolygon, typename Ring, bool Reverse> struct equals < MultiPolygon, Ring, multi_polygon_tag, ring_tag, areal_tag, areal_tag, 2, Reverse > : detail::equals::equals_by_collection_or_relate<detail::equals::area_check> {}; // NOTE: degenerated linear geometries, e.g. segment or linestring containing // 2 equal points, are considered to be invalid. Though theoretically // degenerated segments and linestrings could be treated as points and // multi-linestrings as multi-points. // This reasoning could also be applied to boxes. template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, pointlike_tag, linear_tag, DimensionCount, false> : detail::equals::equals_always_false {}; template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, linear_tag, pointlike_tag, DimensionCount, false> : detail::equals::equals_always_false {}; template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, pointlike_tag, areal_tag, DimensionCount, false> : detail::equals::equals_always_false {}; template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, areal_tag, pointlike_tag, DimensionCount, false> : detail::equals::equals_always_false {}; template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, linear_tag, areal_tag, DimensionCount, false> : detail::equals::equals_always_false {}; template <typename Geometry1, typename Geometry2, typename Tag1, typename Tag2, std::size_t DimensionCount> struct equals<Geometry1, Geometry2, Tag1, Tag2, areal_tag, linear_tag, DimensionCount, false> : detail::equals::equals_always_false {}; } // namespace dispatch #endif // DOXYGEN_NO_DISPATCH }} // namespace boost::geometry #endif // BOOST_GEOMETRY_ALGORITHMS_DETAIL_EQUALS_IMPLEMENTATION_HPP