Exemple #1
0
 /// <summary>
 /// Check that there is no ring which self-intersects (except of course at its endpoints).
 /// This is required by OGC topology rules (but not by other models
 /// such as ESRI SDE, which allow inverted shells and exverted holes).
 /// </summary>
 /// <param name="graph"></param>
 private void CheckNoSelfIntersectingRings(GeometryGraph graph)
 {
     for (IEnumerator i = graph.GetEdgeEnumerator(); i.MoveNext();)
     {
         Edge e = (Edge)i.Current;
         CheckNoSelfIntersectingRing(e.EdgeIntersectionList);
         if (validErr != null)
         {
             return;
         }
     }
 }
Exemple #2
0
 /// <summary>
 /// For all edges, check if there are any intersections which are NOT at an endpoint.
 /// The Geometry is not simple if there are intersections not at endpoints.
 /// </summary>
 /// <param name="graph"></param>
 private bool HasNonEndpointIntersection(GeometryGraph graph)
 {
     for (IEnumerator i = graph.GetEdgeEnumerator(); i.MoveNext();)
     {
         Edge e = (Edge)i.Current;
         int  maxSegmentIndex = e.MaximumSegmentIndex;
         for (IEnumerator eiIt = e.EdgeIntersectionList.GetEnumerator(); eiIt.MoveNext();)
         {
             EdgeIntersection ei = (EdgeIntersection)eiIt.Current;
             if (!ei.IsEndPoint(maxSegmentIndex))
             {
                 return(true);
             }
         }
     }
     return(false);
 }
Exemple #3
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        /// <summary>
        ///
        /// </summary>
        /// <param name="geomGraph"></param>
        public virtual 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          eeList    = eeBuilder.ComputeEdgeEnds(geomGraph.GetEdgeEnumerator());

            InsertEdgeEnds(eeList);
        }
Exemple #4
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 /// <summary>
 /// Insert nodes for all intersections on the edges of a Geometry.
 /// Label the created nodes the same as the edge label if they do not already have a label.
 /// This allows nodes created by either self-intersections or
 /// mutual intersections to be labelled.
 /// Endpoint nodes will already be labelled from when they were inserted.
 /// Precondition: edge intersections have been computed.
 /// </summary>
 /// <param name="geomGraph"></param>
 /// <param name="argIndex"></param>
 public virtual void ComputeIntersectionNodes(GeometryGraph geomGraph, int argIndex)
 {
     for (IEnumerator edgeIt = geomGraph.GetEdgeEnumerator(); edgeIt.MoveNext();)
     {
         Edge      e    = (Edge)edgeIt.Current;
         Locations eLoc = e.Label.GetLocation(argIndex);
         for (IEnumerator eiIt = e.EdgeIntersectionList.GetEnumerator(); eiIt.MoveNext();)
         {
             EdgeIntersection ei = (EdgeIntersection)eiIt.Current;
             RelateNode       n  = (RelateNode)nodes.AddNode(ei.Coordinate);
             if (eLoc == Locations.Boundary)
             {
                 n.SetLabelBoundary(argIndex);
             }
             else if (n.Label.IsNull(argIndex))
             {
                 n.SetLabel(argIndex, Locations.Interior);
             }
         }
     }
 }
Exemple #5
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        /// <summary>
        /// Test that no edge intersection is the
        /// endpoint of a closed line.  To check this we compute the
        /// degree of each endpoint. The degree of endpoints of closed lines
        /// must be exactly 2.
        /// </summary>
        /// <param name="graph"></param>
        private bool HasClosedEndpointIntersection(GeometryGraph graph)
        {
            IDictionary endPoints = new SortedList();

            for (IEnumerator i = graph.GetEdgeEnumerator(); i.MoveNext();)
            {
                Edge        e        = (Edge)i.Current;
                bool        isClosed = e.IsClosed;
                ICoordinate p0       = e.GetCoordinate(0);
                AddEndpoint(endPoints, p0, isClosed);
                ICoordinate p1 = e.GetCoordinate(e.NumPoints - 1);
                AddEndpoint(endPoints, p1, isClosed);
            }
            for (IEnumerator i = endPoints.Values.GetEnumerator(); i.MoveNext();)
            {
                EndpointInfo eiInfo = (EndpointInfo)i.Current;
                if (eiInfo.IsClosed && eiInfo.Degree != 2)
                {
                    return(true);
                }
            }
            return(false);
        }