/// <summary> /// /// </summary> /// <param name="geomGraph"></param> public void Build(GeometryGraph geomGraph) { // compute nodes for intersections between previously noded edges ComputeIntersectionNodes(geomGraph, 0); /* * Copy the labelling for the nodes in the parent Geometry. These override * any labels determined by intersections. */ CopyNodesAndLabels(geomGraph, 0); /* * Build EdgeEnds for all intersections. */ EdgeEndBuilder eeBuilder = new EdgeEndBuilder(); IList <EdgeEnd> eeList = eeBuilder.ComputeEdgeEnds(geomGraph.Edges); InsertEdgeEnds(eeList); }
/// <summary> /// /// </summary> /// <returns></returns> public IntersectionMatrix ComputeIM() { IntersectionMatrix im = new IntersectionMatrix(); // since Geometries are finite and embedded in a 2-D space, the EE element must always be 2 im.Set(Location.Exterior, Location.Exterior, Dimension.Surface); // if the Geometries don't overlap there is nothing to do if (!_arg[0].Geometry.EnvelopeInternal.Intersects(_arg[1].Geometry.EnvelopeInternal)) { ComputeDisjointIM(im); return(im); } _arg[0].ComputeSelfNodes(_li, false); _arg[1].ComputeSelfNodes(_li, false); // compute intersections between edges of the two input geometries SegmentIntersector intersector = _arg[0].ComputeEdgeIntersections(_arg[1], _li, false); ComputeIntersectionNodes(0); ComputeIntersectionNodes(1); /* * Copy the labelling for the nodes in the parent Geometries. These override * any labels determined by intersections between the geometries. */ CopyNodesAndLabels(0); CopyNodesAndLabels(1); // complete the labelling for any nodes which only have a label for a single point LabelIsolatedNodes(); // If a proper intersection was found, we can set a lower bound on the IM. ComputeProperIntersectionIM(intersector, im); /* * Now process improper intersections * (eg where one or other of the geometries has a vertex at the intersection point) * We need to compute the edge graph at all nodes to determine the IM. */ // build EdgeEnds for all intersections EdgeEndBuilder eeBuilder = new EdgeEndBuilder(); IList <EdgeEnd> ee0 = eeBuilder.ComputeEdgeEnds(_arg[0].Edges); InsertEdgeEnds(ee0); IList <EdgeEnd> ee1 = eeBuilder.ComputeEdgeEnds(_arg[1].Edges); InsertEdgeEnds(ee1); LabelNodeEdges(); /* * Compute the labeling for isolated components * <br> * Isolated components are components that do not touch any other components in the graph. * They can be identified by the fact that they will * contain labels containing ONLY a single element, the one for their parent point. * We only need to check components contained in the input graphs, since * isolated components will not have been replaced by new components formed by intersections. */ LabelIsolatedEdges(0, 1); LabelIsolatedEdges(1, 0); // update the IM from all components UpdateIM(im); return(im); }