/* ========================================== * JGraphT : a free Java graph-theory library * ========================================== * * Project Info: http://jgrapht.sourceforge.net/ * Project Creator: Barak Naveh (http://sourceforge.net/users/barak_naveh) * * (C) Copyright 2003-2008, by Barak Naveh and Contributors. * * This library is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library; if not, write to the Free Software Foundation, * Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. */ /* ------------------------------ * ConnectivityInspectorTest.java * ------------------------------ * (C) Copyright 2003-2008, by Barak Naveh and Contributors. * * Original Author: Barak Naveh * Contributor(s): John V. Sichi * * $Id: ConnectivityInspectorTest.java 645 2008-09-30 19:44:48Z perfecthash $ * * Changes * ------- * 07-Aug-2003 : Initial revision (BN); * 20-Apr-2005 : Added StrongConnectivityInspector test (JVS); * */ package org.jgrapht.alg; import java.util.*; import junit.framework.*; import org.jgrapht.*; import org.jgrapht.generate.*; import org.jgrapht.graph.*; /** * . * * @author Barak Naveh */ public class ConnectivityInspectorTest extends TestCase { //~ Static fields/initializers --------------------------------------------- private static final String V1 = "v1"; private static final String V2 = "v2"; private static final String V3 = "v3"; private static final String V4 = "v4"; //~ Instance fields -------------------------------------------------------- // DefaultEdge e1; DefaultEdge e2; DefaultEdge e3; DefaultEdge e3_b; DefaultEdge u; //~ Methods ---------------------------------------------------------------- /** * . * * @return a graph */ public Pseudograph create() { Pseudograph g = new Pseudograph(DefaultEdge.class); assertEquals(0, g.vertexSet().size()); g.addVertex(V1); assertEquals(1, g.vertexSet().size()); g.addVertex(V2); assertEquals(2, g.vertexSet().size()); g.addVertex(V3); assertEquals(3, g.vertexSet().size()); g.addVertex(V4); assertEquals(4, g.vertexSet().size()); assertEquals(0, g.edgeSet().size()); e1 = g.addEdge(V1, V2); assertEquals(1, g.edgeSet().size()); e2 = g.addEdge(V2, V3); assertEquals(2, g.edgeSet().size()); e3 = g.addEdge(V3, V1); assertEquals(3, g.edgeSet().size()); e3_b = g.addEdge(V3, V1); assertEquals(4, g.edgeSet().size()); assertNotNull(e3_b); u = g.addEdge(V1, V1); assertEquals(5, g.edgeSet().size()); u = g.addEdge(V1, V1); assertEquals(6, g.edgeSet().size()); return g; } /** * . */ public void testDirectedGraph() { ListenableDirectedGraph g = new ListenableDirectedGraph( DefaultEdge.class); g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addEdge(V1, V2); ConnectivityInspector inspector = new ConnectivityInspector(g); g.addGraphListener(inspector); assertEquals(false, inspector.isGraphConnected()); g.addEdge(V1, V3); assertEquals(true, inspector.isGraphConnected()); } /** * . */ public void testIsGraphConnected() { Pseudograph g = create(); ConnectivityInspector inspector = new ConnectivityInspector(g); assertEquals(false, inspector.isGraphConnected()); g.removeVertex(V4); inspector = new ConnectivityInspector(g); assertEquals(true, inspector.isGraphConnected()); g.removeVertex(V1); assertEquals(1, g.edgeSet().size()); g.removeEdge(e2); g.addEdge(V2, V2); assertEquals(1, g.edgeSet().size()); inspector = new ConnectivityInspector(g); assertEquals(false, inspector.isGraphConnected()); } /** * . */ public void testStronglyConnected1() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addVertex(V4); g.addEdge(V1, V2); g.addEdge(V2, V1); // strongly connected g.addEdge(V3, V4); // only weakly connected StrongConnectivityInspector inspector = new StrongConnectivityInspector(g); // convert from List to Set because we need to ignore order // during comparison Set> actualSets = new HashSet>(inspector.stronglyConnectedSets()); // construct the expected answer Set> expectedSets = new HashSet>(); Set set = new HashSet(); set.add(V1); set.add(V2); expectedSets.add(set); set = new HashSet(); set.add(V3); expectedSets.add(set); set = new HashSet(); set.add(V4); expectedSets.add(set); assertEquals(expectedSets, actualSets); actualSets.clear(); List> subgraphs = inspector.stronglyConnectedSubgraphs(); for (DirectedSubgraph sg : subgraphs) { actualSets.add(sg.vertexSet()); StrongConnectivityInspector ci = new StrongConnectivityInspector(sg); assertTrue(ci.isStronglyConnected()); } assertEquals(expectedSets, actualSets); } /** * . */ public void testStronglyConnected2() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addVertex(V4); g.addEdge(V1, V2); g.addEdge(V2, V1); // strongly connected g.addEdge(V4, V3); // only weakly connected g.addEdge(V3, V2); // only weakly connected StrongConnectivityInspector inspector = new StrongConnectivityInspector(g); // convert from List to Set because we need to ignore order // during comparison Set> actualSets = new HashSet>(inspector.stronglyConnectedSets()); // construct the expected answer Set> expectedSets = new HashSet>(); Set set = new HashSet(); set.add(V1); set.add(V2); expectedSets.add(set); set = new HashSet(); set.add(V3); expectedSets.add(set); set = new HashSet(); set.add(V4); expectedSets.add(set); assertEquals(expectedSets, actualSets); actualSets.clear(); List> subgraphs = inspector.stronglyConnectedSubgraphs(); for (DirectedSubgraph sg : subgraphs) { actualSets.add(sg.vertexSet()); StrongConnectivityInspector ci = new StrongConnectivityInspector(sg); assertTrue(ci.isStronglyConnected()); } assertEquals(expectedSets, actualSets); } /** * . */ public void testStronglyConnected3() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addVertex(V4); g.addEdge(V1, V2); g.addEdge(V2, V3); g.addEdge(V3, V1); // strongly connected g.addEdge(V1, V4); g.addEdge(V2, V4); g.addEdge(V3, V4); // weakly connected StrongConnectivityInspector inspector = new StrongConnectivityInspector(g); // convert from List to Set because we need to ignore order // during comparison Set> actualSets = new HashSet>(inspector.stronglyConnectedSets()); // construct the expected answer Set> expectedSets = new HashSet>(); Set set = new HashSet(); set.add(V1); set.add(V2); set.add(V3); expectedSets.add(set); set = new HashSet(); set.add(V4); expectedSets.add(set); assertEquals(expectedSets, actualSets); actualSets.clear(); List> subgraphs = inspector.stronglyConnectedSubgraphs(); for (DirectedSubgraph sg : subgraphs) { actualSets.add(sg.vertexSet()); StrongConnectivityInspector ci = new StrongConnectivityInspector(sg); assertTrue(ci.isStronglyConnected()); } assertEquals(expectedSets, actualSets); } public void testStronglyConnected4() { DefaultDirectedGraph graph = new DefaultDirectedGraph( new EdgeFactory() { public String createEdge(Integer from, Integer to) { return (from + "->" + to).intern(); } }); new RingGraphGenerator(3).generateGraph( graph, new VertexFactory() { private int i = 0; public Integer createVertex() { return i++; } }, null); StrongConnectivityInspector sc = new StrongConnectivityInspector( graph); Set> expected = new HashSet>(); expected.add(graph.vertexSet()); assertEquals( expected, new HashSet>(sc.stronglyConnectedSets())); } } // End ConnectivityInspectorTest.java