/********************************************************************** * * GEOS - Geometry Engine Open Source * http://geos.osgeo.org * * Copyright (C) 2021 Paul Ramsey * * 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. * **********************************************************************/ #pragma once #include #include #include #include #include #include namespace geos { namespace geom { class Coordinate; class CoordinateSequence; class Envelope; class Geometry; class GeometryFactory; class LineString; class MultiLineString; } } using geos::coverage::Corner; using geos::geom::Coordinate; using geos::geom::CoordinateSequence; using geos::geom::Envelope; using geos::geom::Geometry; using geos::geom::GeometryFactory; using geos::geom::LineString; using geos::geom::MultiLineString; using geos::index::VertexSequencePackedRtree; using geos::index::strtree::TemplateSTRtree; using geos::simplify::LinkedLine; namespace geos { namespace coverage { // geos::coverage /** * Computes a Topology-Preserving Visvalingam-Whyatt simplification * of a set of input lines. * The simplified lines will contain no more intersections than are present * in the original input. * Line and ring endpoints are preserved, except for rings * which are flagged as "free". * * The amount of simplification is determined by a tolerance value, * which is a non-zero quantity. * It is the square root of the area tolerance used * in the Visvalingam-Whyatt algorithm. * This equates roughly to the maximum * distance by which a simplified line can change from the original. * * @author mdavis * */ class GEOS_DLL TPVWSimplifier { public: // Prototype class EdgeIndex; /* private static */ class Edge { public: // Members double areaTolerance; bool isFreeRing; const Envelope* envelope; std::size_t nbPts; LinkedLine linkedLine; VertexSequencePackedRtree vertexIndex; std::size_t minEdgeSize; /** * Creates a new edge. * The endpoints of the edge are preserved during simplification, * unless it is a ring and the isFreeRing flag is set. * * @param p_inputLine the line or ring * @param p_isFreeRing whether a ring endpoint can be removed * @param p_areaTolerance the simplification tolerance */ Edge(const LineString* p_inputLine, bool p_isFreeRing, double p_areaTolerance); const Coordinate& getCoordinate(std::size_t index) const; const Envelope* getEnvelopeInternal() const; std::size_t size() const; std::unique_ptr simplify(EdgeIndex& edgeIndex); void createQueue(Corner::PriorityQueue& pq); void addCorner(std::size_t i, Corner::PriorityQueue& cornerQueue); bool isRemovable(Corner& corner, EdgeIndex& edgeIndex) const; /** * Tests if any vertices in a line intersect the corner triangle. * Uses the vertex spatial index for efficiency. * * @param corner the corner vertices * @param cornerEnv the envelope of the corner * @param edge the hull to test * @return true if there is an intersecting vertex */ bool hasIntersectingVertex(const Corner& corner, const Envelope& cornerEnv, const Edge& edge) const; std::vector query(const Envelope& cornerEnv) const; /** * Removes a corner by removing the apex vertex from the ring. * Two new corners are created with apexes * at the other vertices of the corner * (if they are non-convex and thus removable). * * @param corner the corner to remove * @param cornerQueue the corner queue */ void removeCorner( Corner& corner, Corner::PriorityQueue& cornerQueue); }; // Edge class EdgeIndex { public: TemplateSTRtree index; void add(std::vector& edges); std::vector query(const Envelope& queryEnv); }; // EdgeIndex /** * Simplifies a set of lines, preserving the topology of the lines. * * @param lines the lines to simplify * @param distanceTolerance the simplification tolerance * @return the simplified lines */ static std::unique_ptr simplify( const MultiLineString* lines, double distanceTolerance); /** * Simplifies a set of lines, preserving the topology of the lines between * themselves and a set of linear constraints. * The endpoints of lines are preserved. * The endpoint of rings are preserved as well, unless * the ring is indicated as "free" via a bit flag with the same index. * * @param lines the lines to simplify * @param freeRings flags indicating which ring edges do not have node endpoints * @param constraintLines the linear constraints * @param distanceTolerance the simplification tolerance * @return the simplified lines */ static std::unique_ptr simplify( const MultiLineString* lines, std::vector& freeRings, const MultiLineString* constraintLines, double distanceTolerance); // Constructor TPVWSimplifier(const MultiLineString* lines, double distanceTolerance); private: // Members const MultiLineString* inputLines; std::vector isFreeRing; double areaTolerance; const GeometryFactory* geomFactory; const MultiLineString* constraintLines; // Methods void setFreeRingIndices(std::vector& freeRing); void setConstraints(const MultiLineString* constraints); std::unique_ptr simplify(); std::vector createEdges( const MultiLineString* lines, std::vector& freeRing); }; // TPVWSimplifier } // geos::coverage } // geos