public static void MainTest(string[] args) { TextInput input = new TextInput(args[0]); EdgeWeightedDigraph G = new EdgeWeightedDigraph(input); int s = int.Parse(args[1]); // compute shortest paths DijkstraSP sp = new DijkstraSP(G, s); // print shortest path for (int t = 0; t < G.V; t++) { if (sp.HasPathTo(t)) { Console.Write("{0} to {1} ({2:F2}) ", s, t, sp.DistTo(t)); foreach (DirectedEdge e in sp.PathTo(t)) { Console.Write(e + " "); } Console.WriteLine(); } else { Console.Write("{0} to {1} no path\n", s, t); } } }
// find shortest augmenting path and upate private void augment() { // build residual graph EdgeWeightedDigraph G = new EdgeWeightedDigraph(2 * N + 2); int s = 2 * N, t = 2 * N + 1; for (int i = 0; i < N; i++) { if (xy[i] == UNMATCHED) { G.AddEdge(new DirectedEdge(s, i, 0.0)); } } for (int j = 0; j < N; j++) { if (yx[j] == UNMATCHED) { G.AddEdge(new DirectedEdge(N + j, t, py[j])); } } for (int i = 0; i < N; i++) { for (int j = 0; j < N; j++) { if (xy[i] == j) { G.AddEdge(new DirectedEdge(N + j, i, 0.0)); } else { G.AddEdge(new DirectedEdge(i, N + j, reducedCost(i, j))); } } } // compute shortest path from s to every other vertex DijkstraSP spt = new DijkstraSP(G, s); // augment along alternating path foreach (DirectedEdge e in spt.PathTo(t)) { int i = e.From, j = e.To - N; if (i < N) { xy[i] = j; yx[j] = i; } } // update dual variables for (int i = 0; i < N; i++) { px[i] += spt.DistTo(i); } for (int j = 0; j < N; j++) { py[j] += spt.DistTo(N + j); } }