private LaneCrossing GetLaneCrossing(Edge edge)
 {
     return((LaneCrossing)edge2LaneCrossing.Get(edge));
 }
示例#2
0
        public static void Main()
        {
            //instantiates an empty graph
            yWorks.Algorithms.Graph graph = new yWorks.Algorithms.Graph();

            //create a temporary node array for fast lookup
            Node[] tmpNodes = new Node[5];

            //create some nodes in the graph and store references in the array
            for (int i = 0; i < 5; i++)
            {
                tmpNodes[i] = graph.CreateNode();
            }

            //create some edges in the graph
            for (int i = 0; i < 5; i++)
            {
                for (int j = i + 1; j < 5; j++)
                {
                    //create an edge from node at index i to node at index j
                    graph.CreateEdge(tmpNodes[i], tmpNodes[j]);
                }
            }


            //output the nodes of the graph
            Console.WriteLine("The nodes of the graph");
            for (INodeCursor nc = graph.GetNodeCursor(); nc.Ok; nc.Next())
            {
                Node node = nc.Node;
                Console.WriteLine(node);
                Console.WriteLine("in edges #" + node.InDegree);
                for (IEdgeCursor ec = node.GetInEdgeCursor(); ec.Ok; ec.Next())
                {
                    Console.WriteLine(ec.Edge);
                }
                Console.WriteLine("out edges #" + node.OutDegree);
                for (IEdgeCursor ec = node.GetOutEdgeCursor(); ec.Ok; ec.Next())
                {
                    Console.WriteLine(ec.Edge);
                }
            }


            //output the edges of the graph
            Console.WriteLine("\nThe edges of the graph");
            for (IEdgeCursor ec = graph.GetEdgeCursor(); ec.Ok; ec.Next())
            {
                Console.WriteLine(ec.Edge);
            }

            //reverse edges that have consecutive neighbors in graph
            //reversing means switching source and target node
            for (IEdgeCursor ec = graph.GetEdgeCursor(); ec.Ok; ec.Next())
            {
                if (Math.Abs(ec.Edge.Source.Index - ec.Edge.Target.Index) == 1)
                {
                    graph.ReverseEdge(ec.Edge);
                }
            }

            Console.WriteLine("\nthe edges of the graph after some edge reversal");
            for (IEdgeCursor ec = graph.GetEdgeCursor(); ec.Ok; ec.Next())
            {
                Console.WriteLine(ec.Edge);
            }

            ///////////////////////////////////////////////////////////////////////////
            // Node- and EdgeMap handling   ///////////////////////////////////////////
            ///////////////////////////////////////////////////////////////////////////

            //create a nodemap for the graph
            INodeMap nodeMap = graph.CreateNodeMap();

            foreach (var node in graph.Nodes)
            {
                //associate descriptive String to the node via a nodemap
                nodeMap.Set(node, "this is node " + node.Index);
            }

            //create an edgemap for the graph
            IEdgeMap edgeMap = graph.CreateEdgeMap();

            foreach (var edge in graph.Edges)
            {
                //associate descriptive String to the edge via an edgemap
                edgeMap.Set(edge, "this is edge [" +
                            nodeMap.Get(edge.Source) + "," +
                            nodeMap.Get(edge.Target) + "]");
            }

            //output the nodemap values of the nodes
            Console.WriteLine("\nThe node map values of the graph");
            foreach (var node in graph.Nodes)
            {
                Console.WriteLine(nodeMap.Get(node));
            }

            //output the edges of the graph
            Console.WriteLine("\nThe edge map values of the graph");
            foreach (var edge in graph.Edges)
            {
                Console.WriteLine(edgeMap.Get(edge));
            }

            //cleanup unneeded node and edge maps again (free resources)
            graph.DisposeNodeMap(nodeMap);
            graph.DisposeEdgeMap(edgeMap);

            ///////////////////////////////////////////////////////////////////////////
            // removing elements from the graph  //////////////////////////////////////
            ///////////////////////////////////////////////////////////////////////////

            for (INodeCursor nc = graph.GetNodeCursor(); nc.Ok; nc.Next())
            {
                //remove node that has a edge degree > 2
                if (nc.Node.Degree > 2)
                {
                    //removed the node and all of its adjacent edges from the graph
                    graph.RemoveNode(nc.Node);
                }
            }
            Console.WriteLine("\ngraph after some node removal");
            Console.WriteLine(graph);

            Console.WriteLine("\nPress key to end demo.");
            Console.ReadKey();
        }