Exemplo n.º 1
0
        public IEnumerable <IEnumerable <SEdge <CurveVertex> > > SearchDanglingPaths()
        {
            // Search all none loop vertices
            var noneLoopVertices = SearchNoneLoopVertices();
            var danglingEdges    = new List <SEdge <CurveVertex> >();

            foreach (var vertex in noneLoopVertices)
            {
                IEnumerable <SEdge <CurveVertex> > edges = null;
                if (_graph.TryGetOutEdges(vertex, out edges))
                {
                    danglingEdges.AddRange(edges);
                }
            }

            // Create a small graph.
            var tempGraph = danglingEdges.ToAdjacencyGraph <CurveVertex, SEdge <CurveVertex> >();
            // Deep first search the graph and get all its paths.
            var observer = new VertexPredecessorPathRecorderObserver <CurveVertex, SEdge <CurveVertex> >();
            var dfs      = new DepthFirstSearchAlgorithm <CurveVertex, SEdge <CurveVertex> >((IVertexListGraph <CurveVertex, SEdge <CurveVertex> >)tempGraph);

            using (observer.Attach(dfs))
            {
                dfs.Compute();
            }

            return(observer.AllPaths());
        }
Exemplo n.º 2
0
        public static IList <IEnumerable <TaggedEdge <string, string> > > GetPaths(AdjacencyGraph <string, TaggedEdge <string, string> > g)
        {
            var dfs      = new DepthFirstSearchAlgorithm <string, TaggedEdge <string, string> >(g);
            var recorder = new VertexPredecessorPathRecorderObserver <string, TaggedEdge <string, string> >();

            List <IEnumerable <TaggedEdge <string, string> > > results = new List <IEnumerable <TaggedEdge <string, string> > >();

            using (recorder.Attach(dfs))
            {
                dfs.Compute();
                var paths = recorder.AllPaths();
                foreach (var p in paths)
                {
                    results.Add(p);
                }
            }
            return(results);
        }
        public void AllPaths()
        {
            {
                var recorder = new VertexPredecessorPathRecorderObserver <int, Edge <int> >();

                var graph = new AdjacencyGraph <int, Edge <int> >();

                var dfs = new DepthFirstSearchAlgorithm <int, Edge <int> >(graph);
                using (recorder.Attach(dfs))
                {
                    dfs.Compute();

                    CollectionAssert.IsEmpty(recorder.AllPaths());
                }
            }

            {
                var recorder = new VertexPredecessorPathRecorderObserver <int, Edge <int> >();

                var graph = new AdjacencyGraph <int, Edge <int> >();
                graph.AddVertexRange(new[] { 1, 2 });

                var dfs = new DepthFirstSearchAlgorithm <int, Edge <int> >(graph);
                using (recorder.Attach(dfs))
                {
                    dfs.Compute();

                    CollectionAssert.IsEmpty(recorder.AllPaths());
                }
            }

            {
                var recorder = new VertexPredecessorPathRecorderObserver <int, Edge <int> >();

                // Graph without cycle
                var edge12 = new Edge <int>(1, 2);
                var edge13 = new Edge <int>(1, 3);
                var edge14 = new Edge <int>(1, 4);
                var edge24 = new Edge <int>(2, 4);
                var edge31 = new Edge <int>(3, 1);
                var edge33 = new Edge <int>(3, 3);
                var edge34 = new Edge <int>(3, 4);
                var graph  = new AdjacencyGraph <int, Edge <int> >();
                graph.AddVerticesAndEdgeRange(new[]
                {
                    edge12, edge13, edge14, edge24, edge31, edge33, edge34
                });

                var dfs = new DepthFirstSearchAlgorithm <int, Edge <int> >(graph);
                using (recorder.Attach(dfs))
                {
                    dfs.Compute();

                    CollectionAssert.AreEquivalent(
                        new IEnumerable <Edge <int> >[]
                    {
                        new[] { edge13 },
                        new[] { edge12, edge24 }
                    },
                        recorder.AllPaths());
                }
            }

            {
                var recorder = new VertexPredecessorPathRecorderObserver <int, Edge <int> >();

                // Graph with cycle
                var edge12 = new Edge <int>(1, 2);
                var edge13 = new Edge <int>(1, 3);
                var edge14 = new Edge <int>(1, 4);
                var edge24 = new Edge <int>(2, 4);
                var edge31 = new Edge <int>(3, 1);
                var edge33 = new Edge <int>(3, 3);
                var edge34 = new Edge <int>(3, 4);
                var edge41 = new Edge <int>(4, 1);
                var graph  = new AdjacencyGraph <int, Edge <int> >();
                graph.AddVerticesAndEdgeRange(new[]
                {
                    edge12, edge13, edge14, edge24, edge31, edge33, edge34, edge41
                });

                var dfs = new DepthFirstSearchAlgorithm <int, Edge <int> >(graph);
                using (recorder.Attach(dfs))
                {
                    dfs.Compute();

                    CollectionAssert.AreEquivalent(
                        new IEnumerable <Edge <int> >[]
                    {
                        new[] { edge13 },
                        new[] { edge12, edge24 }
                    },
                        recorder.AllPaths());
                }
            }
        }