public void Compute()
        {
            Clusters = new List <HashSet <TVertex> >();

            var currentCluster = new HashSet <TVertex>(GetTopologicallyFirstVertices(_unprocessedGraph.Vertices));

            while (currentCluster.Count > 0)
            {
                var nextCluster = new HashSet <TVertex>();

                foreach (var vertex in currentCluster)
                {
                    var neighbours = GetTopologicallyNextVertices(vertex);

                    _unprocessedGraph.RemoveVertex(vertex);

                    nextCluster.Add(GetTopologicallyFirstVertices(neighbours));
                }

                Clusters.Add(currentCluster);
                currentCluster = nextCluster;
            }

            if (!_unprocessedGraph.IsVerticesEmpty)
            {
                throw new NonAcyclicGraphException();
            }
        }
        protected static IEnumerable <T> GetPath(IMutableBidirectionalGraph <T, IEdge <T> > graph)
        {
            var result     = new LinkedList <T>();
            var candidates = new HashSet <T>(graph.Vertices.Where(graph.IsOutEdgesEmpty), new IdentityComparer <T>());

            while (candidates.Count > 0)
            {
                var component = candidates.First();
                candidates.Remove(component);

                result.AddFirst(component);

                var inEdges = graph.InEdges(component).ToList();
                graph.RemoveVertex(component);

                foreach (var inEdge in inEdges)
                {
                    if (graph.IsOutEdgesEmpty(inEdge.Source))
                    {
                        candidates.Add(inEdge.Source);
                    }
                }
            }

            return(result);
        }
Exemplo n.º 3
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        /// <summary>
        /// Hides the vertex <code>v</code>.
        /// </summary>
        /// <param name="v">The vertex to hide.</param>
        public bool HideVertex(TVertex v)
        {
            if (_graph.ContainsVertex(v) && !hiddenVertices.Contains(v))
            {
                HideEdges(EdgesFor(v));

                //hide the vertex
                _graph.RemoveVertex(v);
                hiddenVertices.Add(v);
                OnVertexHidden(v);
                return(true);
            }

            return(false);
        }
Exemplo n.º 4
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        public static void DeleteVerticesAndMergeEdges <TVertex, TEdge>
            (this IMutableBidirectionalGraph <TVertex, TEdge> graph, TVertex vertexToDelete,
            Func <TEdge, TEdge, TEdge> mergeFunc)
            where TEdge : IEdge <TVertex>
        {
            if (graph.IsInEdgesEmpty(vertexToDelete) || graph.IsOutEdgesEmpty(vertexToDelete))
            {
                //simple case
                graph.RemoveVertex(vertexToDelete);
            }
            else
            {
                //need to keep connections
                var newEdges = from e1 in graph.InEdges(vertexToDelete)
                               from e2 in graph.OutEdges(vertexToDelete)
                               select mergeFunc(e1, e2);

                //create edges
                var newEdgesList = newEdges.ToList();

                graph.AddEdgeRange(newEdgesList);
                graph.RemoveVertex(vertexToDelete);
            }
        }
Exemplo n.º 5
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        /// <inheritdoc />
        public bool HideVertex(TVertex vertex)
        {
            if (!_hiddenVertices.Contains(vertex))
            {
                if (_graph.ContainsVertex(vertex))
                {
                    HideEdges(EdgesFor(vertex));

                    // Hide the vertex
                    _graph.RemoveVertex(vertex);
                    _hiddenVertices.Add(vertex);
                    OnVertexHidden(vertex);
                    return(true);
                }

                throw new VertexNotFoundException();
            }

            return(false);
        }
Exemplo n.º 6
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        public static void MergeVertices <TVertex, TEdge>(this IMutableBidirectionalGraph <TVertex, TEdge> graph,
                                                          IEnumerable <TVertex> verticesToMerge,
                                                          TVertex replacement,
                                                          Func <TEdge, TVertex, TEdge> mergeInFunc,
                                                          Func <TVertex, TEdge, TEdge> mergeOutFunc,
                                                          IEqualityComparer <TVertex> comparer = null,
                                                          bool checkExistence = false)
            where TEdge : IEdge <TVertex>
        {
            var verticies   = (checkExistence ? graph.Vertices.Intersect(verticesToMerge, comparer) : verticesToMerge).ToList();
            var allInEdges  = verticies.SelectMany(graph.InEdges);
            var allOutEdges = verticies.SelectMany(graph.OutEdges);
            var newInEdges  = allInEdges.Select(x => mergeInFunc(x, replacement));
            var newOutEdges = allOutEdges.Select(x => mergeOutFunc(replacement, x));

            verticies.ForEach(x => graph.RemoveVertex(x));
            graph.AddVertex(replacement);
            graph.AddEdgeRange(newInEdges);
            graph.AddEdgeRange(newOutEdges);
        }