/********************************************************************** * * GEOS - Geometry Engine Open Source * http://geos.osgeo.org * * Copyright (C) 2011 Sandro Santilli * Copyright (C) 2005 2006 Refractions Research Inc. * Copyright (C) 2001-2002 Vivid Solutions Inc. * * This is free software; you can redistribute and/or modify it under * the terms of the GNU Lesser General Public Licence as published * by the Free Software Foundation. * See the COPYING file for more information. * ********************************************************************** * * Last port: geom/Polygon.java r320 (JTS-1.12) * **********************************************************************/ #pragma once #include #include #include #include // for inheritance #include // for proper use of unique_ptr<> #include #include // for Dimension::DimensionType #include // for unique_ptr // Forward declarations namespace geos { namespace geom { // geos::geom class Coordinate; class CoordinateSequenceFilter; class LineString; } } namespace geos { namespace geom { // geos::geom /** * \class Polygon geom.h geos.h * * \brief Represents a linear polygon, which may include holes. * * The shell and holes of the polygon are represented by {@link LinearRing}s. * In a valid polygon, holes may touch the shell or other holes at a single point. * However, no sequence of touching holes may split the polygon into two pieces. * The orientation of the rings in the polygon does not matter. *

* The shell and holes must conform to the assertions specified in the OpenGIS Simple Features * Specification for SQL . * */ class GEOS_DLL Polygon: public Geometry { public: friend class GeometryFactory; /// A vector of const Polygon pointers typedef std::vector ConstVect; ~Polygon() override = default; /** * Creates and returns a full copy of this {@link Polygon} object. * (including all coordinates contained by it). * * @return a clone of this instance */ std::unique_ptr clone() const { return std::unique_ptr(cloneImpl()); } std::unique_ptr getCoordinates() const override; std::size_t getNumPoints() const override; /// Returns surface dimension (2) Dimension::DimensionType getDimension() const override; /// Returns coordinate dimension. uint8_t getCoordinateDimension() const override; bool hasM() const override; bool hasZ() const override; /// Returns 1 (Polygon boundary is a MultiLineString) int getBoundaryDimension() const override; /** \brief * Computes the boundary of this geometry * * @return a lineal geometry (which may be empty) * @see Geometry#getBoundary */ std::unique_ptr getBoundary() const override; bool isEmpty() const override; /// Returns the exterior ring (shell) const LinearRing* getExteriorRing() const; /** * \brief * Take ownership of this Polygon's exterior ring. * After releasing the exterior ring, the Polygon should be * considered in a moved-from state and should not be accessed, * except to release the interior rings (if desired.) * @return exterior ring */ std::unique_ptr releaseExteriorRing(); /// Returns number of interior rings (hole) std::size_t getNumInteriorRing() const; /// Get nth interior ring (hole) const LinearRing* getInteriorRingN(std::size_t n) const; /** * \brief * Take ownership of this Polygon's interior rings. * After releasing the rings, the Polygon should be * considered in a moved-from state and should not be accessed, * except to release the exterior ring (if desired.) * @return vector of rings (may be empty) */ std::vector> releaseInteriorRings(); std::string getGeometryType() const override; GeometryTypeId getGeometryTypeId() const override; bool equalsExact(const Geometry* other, double tolerance = 0) const override; bool equalsIdentical(const Geometry* other) const override; void apply_rw(const CoordinateFilter* filter) override; void apply_ro(CoordinateFilter* filter) const override; void apply_rw(GeometryFilter* filter) override; void apply_ro(GeometryFilter* filter) const override; void apply_rw(CoordinateSequenceFilter& filter) override; void apply_ro(CoordinateSequenceFilter& filter) const override; void apply_rw(GeometryComponentFilter* filter) override; void apply_ro(GeometryComponentFilter* filter) const override; std::unique_ptr convexHull() const override; void normalize() override; /** * \brief * Apply a ring ordering convention to this polygon, with * interior rings having an opposite orientation to the * specified exterior orientation. * * \param exteriorCW should exterior ring be clockwise? */ void orientRings(bool exteriorCW); std::unique_ptr reverse() const { return std::unique_ptr(reverseImpl()); } const CoordinateXY* getCoordinate() const override; double getArea() const override; /// Returns the perimeter of this Polygon double getLength() const override; bool isRectangle() const override; const Envelope* getEnvelopeInternal() const override { return shell->getEnvelopeInternal(); } protected: Polygon(const Polygon& p); int compareToSameClass(const Geometry* p) const override; /** * Constructs a Polygon with the given exterior * and interior boundaries. * * @param newShell the outer boundary of the new Polygon, * or null or an empty * LinearRing if the empty geometry * is to be created. * * @param newHoles the LinearRings defining the inner * boundaries of the new Polygon, or * null or empty LinearRing * if the empty geometry is to be created. * * @param newFactory the GeometryFactory used to create this geometry * * Polygon will take ownership of Shell and Holes LinearRings */ Polygon(std::unique_ptr && newShell, std::vector> && newHoles, const GeometryFactory& newFactory); Polygon(std::unique_ptr && newShell, const GeometryFactory& newFactory); Polygon* cloneImpl() const override { return new Polygon(*this); } Polygon* reverseImpl() const override; std::unique_ptr shell; std::vector> holes; void geometryChangedAction() override {} int getSortIndex() const override { return SORTINDEX_POLYGON; }; private: void normalize(LinearRing* ring, bool clockwise); }; } // namespace geos::geom } // namespace geos