/********************************************************************** * * GEOS - Geometry Engine Open Source * http://geos.osgeo.org * * Copyright (C) 2011 Sandro Santilli * Copyright (C) 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: operation/relate/RelateComputer.java rev. 1.24 (JTS-1.10) * **********************************************************************/ #pragma once #include #include // for RelateComputer composition #include // for RelateComputer composition #include // for RelateComputer composition #include // for RelateComputer composition #include #include #include #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable: 4251) // warning C4251: needs to have dll-interface to be used by clients of class #endif // Forward declarations namespace geos { namespace algorithm { class BoundaryNodeRule; } namespace geom { class Geometry; } namespace geomgraph { class GeometryGraph; class Edge; class EdgeEnd; class Node; namespace index { class SegmentIntersector; } } } namespace geos { namespace operation { // geos::operation namespace relate { // geos::operation::relate /** \brief * Computes the topological relationship between two Geometries. * * RelateComputer does not need to build a complete graph structure to compute * the IntersectionMatrix. The relationship between the geometries can * be computed by simply examining the labelling of edges incident on each node. * * RelateComputer does not currently support arbitrary GeometryCollections. * This is because GeometryCollections can contain overlapping Polygons. * In order to correct compute relate on overlapping Polygons, they * would first need to be noded and merged (if not explicitly, at least * implicitly). * */ class GEOS_DLL RelateComputer { public: RelateComputer(std::vector* newArg); ~RelateComputer() = default; std::unique_ptr computeIM(); private: algorithm::LineIntersector li; algorithm::PointLocator ptLocator; /// the arg(s) of the operation std::vector* arg; geomgraph::NodeMap nodes; /// this intersection matrix will hold the results compute for the relate std::unique_ptr im; std::vector isolatedEdges; /// the intersection point found (if any) geom::Coordinate invalidPoint; void insertEdgeEnds(std::vector>& ee); void computeProperIntersectionIM( geomgraph::index::SegmentIntersector* intersector, geom::IntersectionMatrix* imX); void copyNodesAndLabels(uint8_t argIndex); void computeIntersectionNodes(uint8_t argIndex); void labelIntersectionNodes(uint8_t argIndex); /** * If the Geometries are disjoint, we need to enter their dimension and * boundary dimension in the Ext rows in the IM */ void computeDisjointIM(geom::IntersectionMatrix* imX, const algorithm::BoundaryNodeRule& boundaryNodeRule); void labelNodeEdges(); /** * update the IM with the sum of the IMs for each component */ void updateIM(geom::IntersectionMatrix& imX); /** * Compute the IM entry for the intersection of the boundary * of a geometry with the Exterior. * This is the nominal dimension of the boundary * unless the boundary is empty, in which case it is {@link Dimension#FALSE}. * For linear geometries the Boundary Node Rule determines * whether the boundary is empty. * * @param geom the geometry providing the boundary * @param boundaryNodeRule the Boundary Node Rule to use * @return the IM dimension entry */ static int getBoundaryDim(const geom::Geometry& geom, const algorithm::BoundaryNodeRule& boundaryNodeRule); /** * Processes isolated edges by computing their labelling and adding them * to the isolated edges list. * Isolated edges are guaranteed not to touch the boundary of the target * (since if they * did, they would have caused an intersection to be computed and hence would * not be isolated) */ void labelIsolatedEdges(uint8_t thisIndex, uint8_t targetIndex); /** * Label an isolated edge of a graph with its relationship to the target * geometry. * If the target has dim 2 or 1, the edge can either be in the interior * or the exterior. * If the target has dim 0, the edge must be in the exterior */ void labelIsolatedEdge(geomgraph::Edge* e, uint8_t targetIndex, const geom::Geometry* target); /** * Isolated nodes are nodes whose labels are incomplete * (e.g. the location for one Geometry is null). * This is the case because nodes in one graph which don't intersect * nodes in the other are not completely labelled by the initial process * of adding nodes to the nodeList. * To complete the labelling we need to check for nodes that lie in the * interior of edges, and in the interior of areas. */ void labelIsolatedNodes(); /** * Label an isolated node with its relationship to the target geometry. */ void labelIsolatedNode(geomgraph::Node* n, uint8_t targetIndex); }; } // namespace geos:operation:relate } // namespace geos:operation } // namespace geos #ifdef _MSC_VER #pragma warning(pop) #endif