/* ========================================== * 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. */ /* ------------------------------ * CycleDetectorTest.java * ------------------------------ * (C) Copyright 2003-2008, by John V. Sichi and Contributors. * * Original Author: John V. Sichi * Contributor(s): Khanh Vu * * $Id: CycleDetectorTest.java 745 2011-06-07 05:50:57Z perfecthash $ * * Changes * ------- * 16-Sept-2004 : Initial revision (JVS); * */ package org.jgrapht.alg; import java.util.*; import junit.framework.*; import org.jgrapht.*; import org.jgrapht.graph.*; /** * . * * @author John V. Sichi */ public class CycleDetectorTest 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"; private static final String V5 = "v5"; private static final String V6 = "v6"; private static final String V7 = "v7"; //~ Methods ---------------------------------------------------------------- /** * . * * @param g */ public void createGraph(Graph g) { g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addVertex(V4); g.addVertex(V5); g.addVertex(V6); g.addVertex(V7); g.addEdge(V1, V2); g.addEdge(V2, V3); g.addEdge(V3, V4); g.addEdge(V4, V1); g.addEdge(V4, V5); g.addEdge(V5, V6); g.addEdge(V1, V6); // test an edge which leads into a cycle, but where the source // is not itself part of a cycle g.addEdge(V7, V1); } /** * . */ public void testDirectedWithCycle() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); createGraph(g); Set cyclicSet = new HashSet(); cyclicSet.add(V1); cyclicSet.add(V2); cyclicSet.add(V3); cyclicSet.add(V4); Set acyclicSet = new HashSet(); acyclicSet.add(V5); acyclicSet.add(V6); acyclicSet.add(V7); runTest(g, cyclicSet, acyclicSet); } /** * . */ public void testDirectedWithDoubledCycle() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); // build the graph: vertex order is chosen specifically // to exercise old bug-cases in CycleDetector g.addVertex(V2); g.addVertex(V1); g.addVertex(V3); g.addEdge(V1, V2); g.addEdge(V2, V3); g.addEdge(V3, V1); g.addEdge(V2, V1); Set cyclicSet = new HashSet(); cyclicSet.add(V1); cyclicSet.add(V2); cyclicSet.add(V3); Set acyclicSet = new HashSet(); runTest(g, cyclicSet, acyclicSet); } /** * . */ @SuppressWarnings("unchecked") public void testDirectedWithoutCycle() { DirectedGraph g = new DefaultDirectedGraph( DefaultEdge.class); createGraph(g); g.removeVertex(V2); Set cyclicSet = Collections.EMPTY_SET; // hb: I would like // EMPTY_SET to be typed // as well... Set acyclicSet = g.vertexSet(); runTest(g, cyclicSet, acyclicSet); } private void runTest( DirectedGraph g, Set cyclicSet, Set acyclicSet) { CycleDetector detector = new CycleDetector(g); Set emptySet = Collections.EMPTY_SET; assertEquals(!cyclicSet.isEmpty(), detector.detectCycles()); assertEquals(cyclicSet, detector.findCycles()); for (String v : cyclicSet) { assertEquals(true, detector.detectCyclesContainingVertex(v)); assertEquals(cyclicSet, detector.findCyclesContainingVertex(v)); } for (String v : acyclicSet) { assertEquals(false, detector.detectCyclesContainingVertex(v)); assertEquals(emptySet, detector.findCyclesContainingVertex(v)); } } public void testVertexEquals() { DefaultDirectedGraph graph = new DefaultDirectedGraph(DefaultEdge.class); assertEquals(0, graph.edgeSet().size()); String vertexA = "A"; String vertexB = "B"; String vertexC = new StringBuffer("A").toString(); assertNotSame(vertexA, vertexC); graph.addVertex(vertexA); graph.addVertex(vertexB); graph.addEdge(vertexA, vertexB); graph.addEdge(vertexB, vertexC); assertEquals(2, graph.edgeSet().size()); assertEquals(2, graph.vertexSet().size()); CycleDetector cycleDetector = new CycleDetector(graph); Set cycleVertices = cycleDetector.findCycles(); boolean foundCycle = cycleDetector.detectCyclesContainingVertex(vertexA); boolean foundVertex = graph.containsVertex(vertexA); Set subCycle = cycleDetector.findCyclesContainingVertex(vertexA); assertEquals(2, cycleVertices.size()); assertEquals(2, subCycle.size()); // fails with zero items assertTrue(foundCycle); // fails with no cycle found which includes // vertexA assertTrue(foundVertex); } } // End CycleDetectorTest.java