/********************************************************************** * $Id: MinimumDiameter.h 1820 2006-09-06 16:54:23Z mloskot $ * * GEOS - Geometry Engine Open Source * http://geos.refractions.net * * 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. * **********************************************************************/ #ifndef GEOS_ALGORITHM_MINIMUMDIAMETER_H #define GEOS_ALGORITHM_MINIMUMDIAMETER_H // Forward declarations namespace geos { namespace geom { class Geometry; class LineSegment; class LineString; class Coordinate; class CoordinateSequence; } } namespace geos { namespace algorithm { // geos::algorithm /** \brief * Computes the minimum diameter of a geom::Geometry * * The minimum diameter is defined to be the * width of the smallest band that * contains the geometry, * where a band is a strip of the plane defined * by two parallel lines. * This can be thought of as the smallest hole that the geometry can be * moved through, with a single rotation. *

* The first step in the algorithm is computing the convex hull of the Geometry. * If the input Geometry is known to be convex, a hint can be supplied to * avoid this computation. * * @see ConvexHull * */ class MinimumDiameter { private: const geom::Geometry* inputGeom; bool isConvex; geom::LineSegment* minBaseSeg; geom::Coordinate* minWidthPt; int minPtIndex; double minWidth; void computeMinimumDiameter(); void computeWidthConvex(const geom::Geometry* geom); /** * Compute the width information for a ring of {@link geom::Coordinate}s. * Leaves the width information in the instance variables. * * @param pts * @return */ void computeConvexRingMinDiameter(const geom::CoordinateSequence *pts); unsigned int findMaxPerpDistance(const geom::CoordinateSequence* pts, geom::LineSegment* seg, unsigned int startIndex); static unsigned int getNextIndex(const geom::CoordinateSequence* pts, unsigned int index); public: ~MinimumDiameter(); /** \brief * Compute a minimum diameter for a giver {@link Geometry}. * * @param geom a Geometry */ MinimumDiameter(const geom::Geometry* newInputGeom); /** \brief * Compute a minimum diameter for a given Geometry, * with a hint if the Geometry is convex * (e.g. a convex Polygon or LinearRing, * or a two-point LineString, or a Point). * * @param geom a Geometry which is convex * @param isConvex true if the input geometry is convex */ MinimumDiameter(const geom::Geometry* newInputGeom, const bool newIsConvex); /** \brief * Gets the length of the minimum diameter of the input Geometry * * @return the length of the minimum diameter */ double getLength(); /** \brief * Gets the {@link geom::Coordinate} forming one end of the minimum diameter * * @return a coordinate forming one end of the minimum diameter */ geom::Coordinate* getWidthCoordinate(); /** \brief * Gets the segment forming the base of the minimum diameter * * @return the segment forming the base of the minimum diameter */ geom::LineString* getSupportingSegment(); /** \brief * Gets a LineString which is a minimum diameter * * @return a LineString which is a minimum diameter */ geom::LineString* getDiameter(); }; } // namespace geos::algorithm } // namespace geos #endif // GEOS_ALGORITHM_MINIMUMDIAMETER_H /********************************************************************** * $Log$ * Revision 1.1 2006/03/09 16:46:48 strk * geos::geom namespace definition, first pass at headers split * **********************************************************************/