@Before public void setUp() throws Exception { regione = new Regione("regione", TipoTerreno.DESERTO); animale = new Animale(regione); mossa = new MossaAggiungiAnimale(animale, regione); statoGioco = new StatoGioco(2); SimpleGraph<ElementoMappa, DefaultEdge> grafoMappa = new SimpleGraph<ElementoMappa, DefaultEdge>(DefaultEdge.class); grafoMappa.addVertex(regione); Mappa mappa = Mappa.creaMappa(grafoMappa); statoGioco.setMappa(mappa); view = new ViewTest(statoGioco); }
private SimpleGraph<Integer, DefaultEdge> buildGraphForTestDisconnected(int size) { SimpleGraph<Integer, DefaultEdge> graph = new SimpleGraph<>(DefaultEdge.class); VertexFactory<Integer> vertexFactory = new IntegerVertexFactory(); CompleteGraphGenerator<Integer, DefaultEdge> completeGraphGenerator = new CompleteGraphGenerator<>(size); // two complete graphs SimpleGraph<Integer, DefaultEdge> east = new SimpleGraph<>(DefaultEdge.class); completeGraphGenerator.generateGraph(east, vertexFactory, null); SimpleGraph<Integer, DefaultEdge> west = new SimpleGraph<>(DefaultEdge.class); completeGraphGenerator.generateGraph(west, vertexFactory, null); Graphs.addGraph(graph, east); Graphs.addGraph(graph, west); // connected by single edge graph.addEdge(size - 1, size); return graph; }
/** * Testing a graph where the validator denies the request to go on an edge which cutting it makes * the graph disconnected */ public void testDisconnected() { int cliqueSize = 5; // generate graph of two cliques connected by single edge SimpleGraph<Integer, DefaultEdge> graph = buildGraphForTestDisconnected(cliqueSize); for (int i = 0; i < graph.vertexSet().size(); i++) { KShortestPaths<Integer, DefaultEdge> ksp = new KShortestPaths<Integer, DefaultEdge>( graph, i, 100, Integer.MAX_VALUE, new PathValidator<Integer, DefaultEdge>() { @Override public boolean isValidPath( AbstractPathElement<Integer, DefaultEdge> prevPathElement, DefaultEdge edge) { // accept all requests but the one to pass through the edge connecting // the two cliques. DefaultEdge connectingEdge = graph.getEdge(cliqueSize - 1, cliqueSize); return connectingEdge != edge; } }); for (int j = 0; j < graph.vertexSet().size(); j++) { if (j == i) { continue; } List<GraphPath<Integer, DefaultEdge>> paths = ksp.getPaths(j); if ((i < cliqueSize && j < cliqueSize) || (i >= cliqueSize && j >= cliqueSize)) { // within the clique - path should exist assertNotNull(paths); assertTrue(paths.size() > 0); } else { // else - should not assertNull(paths); } } } }
/** SEM Tests the edge- and vertex-comparator */ @Test public void testSemanticCheck() { /* * a---<3>---b * | | * g1 = <4> <1> g2 = A---<6>---b---<5>---B * | | * A---<2>---B */ SimpleGraph<String, Integer> g1 = new SimpleGraph<>(Integer.class), g2 = new SimpleGraph<>(Integer.class); g1.addVertex("a"); g1.addVertex("b"); g1.addVertex("A"); g1.addVertex("B"); g1.addEdge("a", "b", 3); g1.addEdge("b", "B", 1); g1.addEdge("B", "A", 2); g1.addEdge("A", "a", 4); g2.addVertex("A"); g2.addVertex("b"); g2.addVertex("B"); g2.addEdge("A", "b", 6); g2.addEdge("b", "B", 5); /* SEM-1 * test vertex and edge comparator */ VF2SubgraphIsomorphismInspector<String, Integer> vf2 = new VF2SubgraphIsomorphismInspector<>(g1, g2, new VertexComp(), new EdgeComp()); Iterator<GraphMapping<String, Integer>> iter = vf2.getMappings(); assertEquals("[A=A B=b a=~~ b=B]", iter.next().toString()); assertEquals(false, iter.hasNext()); /* SEM-2 * test vertex comparator */ VF2SubgraphIsomorphismInspector<String, Integer> vf3 = new VF2SubgraphIsomorphismInspector<>( g1, g2, new VertexComp(), new AlwaysEqualComparator<>()); Iterator<GraphMapping<String, Integer>> iter2 = vf3.getMappings(); Set<String> mappings = new HashSet<>(Arrays.asList("[A=A B=b a=~~ b=B]", "[A=~~ B=B a=A b=b]")); assertEquals(true, mappings.remove(iter2.next().toString())); assertEquals(true, mappings.remove(iter2.next().toString())); assertEquals(false, iter2.hasNext()); /* SEM-3 * test edge comparator */ VF2SubgraphIsomorphismInspector<String, Integer> vf4 = new VF2SubgraphIsomorphismInspector<>( g1, g2, new AlwaysEqualComparator<>(), new EdgeComp()); Iterator<GraphMapping<String, Integer>> iter3 = vf4.getMappings(); Set<String> mappings2 = new HashSet<>(Arrays.asList("[A=A B=b a=~~ b=B]", "[A=A B=~~ a=b b=B]")); assertEquals(true, mappings2.remove(iter3.next().toString())); assertEquals(true, mappings2.remove(iter3.next().toString())); assertEquals(false, iter3.hasNext()); }
@Test public void testExhaustive() { /* DET-1: * * 0 3 * | /| 0 2 * g1 = | 2 | g2 = |/ * |/ | 1 * 1 4 */ SimpleGraph<Integer, DefaultEdge> g1 = new SimpleGraph<>(DefaultEdge.class), g2 = new SimpleGraph<>(DefaultEdge.class); g1.addVertex(0); g1.addVertex(1); g1.addVertex(2); g1.addVertex(3); g1.addVertex(4); g2.addVertex(0); g2.addVertex(1); g2.addVertex(2); g1.addEdge(0, 1); g1.addEdge(1, 2); g1.addEdge(2, 3); g1.addEdge(3, 4); g2.addEdge(0, 1); g2.addEdge(1, 2); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vf2 = new VF2SubgraphIsomorphismInspector<>(g1, g2); assertEquals(true, SubgraphIsomorphismTestUtils.containsAllMatchings(vf2, g1, g2)); /* DET-2: * * g3 = ... g4 = ... * */ DirectedGraph<Integer, DefaultEdge> g3 = new DefaultDirectedGraph<>(DefaultEdge.class), g4 = new DefaultDirectedGraph<>(DefaultEdge.class); g3.addVertex(0); g3.addVertex(1); g3.addVertex(2); g3.addVertex(3); g3.addVertex(4); g3.addVertex(5); g4.addVertex(0); g4.addVertex(1); g4.addVertex(2); g4.addVertex(3); g3.addEdge(0, 1); g3.addEdge(0, 5); g3.addEdge(1, 4); g3.addEdge(2, 1); g3.addEdge(2, 4); g3.addEdge(3, 1); g3.addEdge(4, 0); g3.addEdge(5, 2); g3.addEdge(5, 4); g4.addEdge(0, 3); g4.addEdge(1, 2); g4.addEdge(1, 3); g4.addEdge(2, 3); g4.addEdge(2, 0); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vf3 = new VF2SubgraphIsomorphismInspector<>(g3, g4); assertEquals(true, SubgraphIsomorphismTestUtils.containsAllMatchings(vf3, g3, g4)); /* DET-3: * * 1----0 0---2 * | | / * g5 = | g6 = | / * | |/ * 2----3 1 */ SimpleGraph<Integer, DefaultEdge> g5 = new SimpleGraph<>(DefaultEdge.class), g6 = new SimpleGraph<>(DefaultEdge.class); g5.addVertex(0); g5.addVertex(1); g5.addVertex(2); g5.addVertex(3); g6.addVertex(0); g6.addVertex(1); g6.addVertex(2); g5.addEdge(0, 1); g5.addEdge(1, 2); g5.addEdge(2, 3); g6.addEdge(0, 1); g6.addEdge(1, 2); g6.addEdge(2, 0); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vf4 = new VF2SubgraphIsomorphismInspector<>(g5, g6); assertEquals(true, SubgraphIsomorphismTestUtils.containsAllMatchings(vf4, g5, g6)); }
/** * Tests graph types: In case of invalid graph types or invalid combination of graph arguments * UnsupportedOperationException or InvalidArgumentException is expected */ @Test public void testGraphTypes() { DirectedGraph<Integer, DefaultEdge> dg1 = new DefaultDirectedGraph<>(DefaultEdge.class); dg1.addVertex(1); dg1.addVertex(2); dg1.addEdge(1, 2); SimpleGraph<Integer, DefaultEdge> sg1 = new SimpleGraph<>(DefaultEdge.class); sg1.addVertex(1); sg1.addVertex(2); sg1.addEdge(1, 2); Multigraph<Integer, DefaultEdge> mg1 = new Multigraph<>(DefaultEdge.class); mg1.addVertex(1); mg1.addVertex(2); mg1.addEdge(1, 2); Pseudograph<Integer, DefaultEdge> pg1 = new Pseudograph<>(DefaultEdge.class); pg1.addVertex(1); pg1.addVertex(2); pg1.addEdge(1, 2); /* GT-0 test graph=null */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt0 = new VF2SubgraphIsomorphismInspector<>(null, sg1); Assert.fail("Expected UnsupportedOperationException"); } catch (NullPointerException ex) { } /* GT-1: multigraphs */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt1 = new VF2SubgraphIsomorphismInspector<>(mg1, mg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-2: pseudographs */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt2 = new VF2SubgraphIsomorphismInspector<>(pg1, pg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-3: simple graphs */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt3 = new VF2SubgraphIsomorphismInspector<>(sg1, sg1); assertEquals(true, gt3.getMappings().hasNext()); /* GT-4: directed graphs */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt4 = new VF2SubgraphIsomorphismInspector<>(dg1, dg1); assertEquals("[1=1 2=2]", gt4.getMappings().next().toString()); /* GT-5: simple graph + multigraph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt5 = new VF2SubgraphIsomorphismInspector<>(sg1, mg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-6: simple graph + pseudograph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt6 = new VF2SubgraphIsomorphismInspector<>(sg1, pg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-7: directed graph + multigraph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt7 = new VF2SubgraphIsomorphismInspector<>(dg1, mg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-8: directed graph + pseudograph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt8 = new VF2SubgraphIsomorphismInspector<>(dg1, pg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-9: pseudograph + multigraph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt9 = new VF2SubgraphIsomorphismInspector<>(pg1, mg1); Assert.fail("Expected UnsupportedOperationException"); } catch (UnsupportedOperationException ex) { } /* GT-10: simple graph + directed graph */ try { @SuppressWarnings("unused") VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> gt10 = new VF2SubgraphIsomorphismInspector<>(sg1, dg1); Assert.fail("Expected IllegalArgumentException"); } catch (IllegalArgumentException ex) { } }
/** Tests edge cases on simple graphs */ @Test public void testEdgeCasesSimpleGraph() { /* ECS-1: graph and subgraph empty */ SimpleGraph<Integer, DefaultEdge> sg0v = new SimpleGraph<>(DefaultEdge.class), sg0v2 = new SimpleGraph<>(DefaultEdge.class); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs1 = new VF2SubgraphIsomorphismInspector<>(sg0v, sg0v2); assertEquals("[]", vfs1.getMappings().next().toString()); /* ECS-2: graph non-empty, subgraph empty */ SimpleGraph<Integer, DefaultEdge> sg4v3e = new SimpleGraph<>(DefaultEdge.class); sg4v3e.addVertex(1); sg4v3e.addVertex(2); sg4v3e.addVertex(3); sg4v3e.addVertex(4); sg4v3e.addEdge(1, 2); sg4v3e.addEdge(3, 2); sg4v3e.addEdge(3, 4); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs2 = new VF2SubgraphIsomorphismInspector<>(sg4v3e, sg0v); assertEquals("[1=~~ 2=~~ 3=~~ 4=~~]", vfs2.getMappings().next().toString()); /* ECS-3: graph empty, subgraph non-empty */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs3 = new VF2SubgraphIsomorphismInspector<>(sg0v, sg4v3e); assertEquals(false, vfs3.isomorphismExists()); /* ECS-4: graph non-empty, subgraph single vertex */ SimpleGraph<Integer, DefaultEdge> sg1v = new SimpleGraph<>(DefaultEdge.class); sg1v.addVertex(5); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs4 = new VF2SubgraphIsomorphismInspector<>(sg4v3e, sg1v); Iterator<GraphMapping<Integer, DefaultEdge>> iter = vfs4.getMappings(); Set<String> mappings = new HashSet<>( Arrays.asList( "[1=5 2=~~ 3=~~ 4=~~]", "[1=~~ 2=5 3=~~ 4=~~]", "[1=~~ 2=~~ 3=5 4=~~]", "[1=~~ 2=~~ 3=~~ 4=5]")); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(false, iter.hasNext()); /* ECS-5: graph empty, subgraph single vertex */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs5 = new VF2SubgraphIsomorphismInspector<>(sg0v, sg1v); assertEquals(false, vfs5.isomorphismExists()); /* ECS-6: subgraph with vertices, but no edges */ SimpleGraph<Integer, DefaultEdge> sg3v0e = new SimpleGraph<>(DefaultEdge.class); sg3v0e.addVertex(5); sg3v0e.addVertex(6); sg3v0e.addVertex(7); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs6 = new VF2SubgraphIsomorphismInspector<>(sg4v3e, sg3v0e); assertEquals(false, vfs6.isomorphismExists()); /* ECS-7: graph and subgraph with vertices, but no edges */ SimpleGraph<Integer, DefaultEdge> sg2v0e = new SimpleGraph<>(DefaultEdge.class); sg2v0e.addVertex(1); sg2v0e.addVertex(2); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs7 = new VF2SubgraphIsomorphismInspector<>(sg3v0e, sg2v0e); Iterator<GraphMapping<Integer, DefaultEdge>> iter7 = vfs7.getMappings(); Set<String> mappings7 = new HashSet<>( Arrays.asList( "[5=1 6=2 7=~~]", "[5=1 6=~~ 7=2]", "[5=2 6=1 7=~~]", "[5=~~ 6=1 7=2]", "[5=2 6=~~ 7=1]", "[5=~~ 6=2 7=1]")); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(true, mappings7.remove(iter7.next().toString())); assertEquals(false, iter7.hasNext()); /* ECS-8: graph no edges, subgraph contains single edge */ SimpleGraph<Integer, DefaultEdge> sg2v1e = new SimpleGraph<>(DefaultEdge.class); sg2v1e.addVertex(5); sg2v1e.addVertex(6); sg2v1e.addEdge(5, 6); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs8 = new VF2SubgraphIsomorphismInspector<>(sg3v0e, sg2v1e); assertEquals(false, vfs8.isomorphismExists()); /* ECS-9: complete graphs of different size, * graph smaller than subgraph */ SimpleGraph<Integer, DefaultEdge> sg5k = new SimpleGraph<>(DefaultEdge.class); sg5k.addVertex(0); sg5k.addVertex(1); sg5k.addVertex(2); sg5k.addVertex(3); sg5k.addVertex(4); sg5k.addEdge(0, 1); sg5k.addEdge(0, 2); sg5k.addEdge(0, 3); sg5k.addEdge(0, 4); sg5k.addEdge(1, 2); sg5k.addEdge(1, 3); sg5k.addEdge(1, 4); sg5k.addEdge(2, 3); sg5k.addEdge(2, 4); sg5k.addEdge(3, 4); SimpleGraph<Integer, DefaultEdge> sg4k = new SimpleGraph<>(DefaultEdge.class); sg4k.addVertex(0); sg4k.addVertex(1); sg4k.addVertex(2); sg4k.addVertex(3); sg4k.addEdge(0, 1); sg4k.addEdge(0, 2); sg4k.addEdge(0, 3); sg4k.addEdge(1, 2); sg4k.addEdge(1, 3); sg4k.addEdge(2, 3); SimpleGraph<Integer, DefaultEdge> sg3k = new SimpleGraph<>(DefaultEdge.class); sg3k.addVertex(0); sg3k.addVertex(1); sg3k.addVertex(2); sg3k.addEdge(0, 1); sg3k.addEdge(0, 2); sg3k.addEdge(1, 2); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs9 = new VF2SubgraphIsomorphismInspector<>(sg4k, sg5k); assertEquals(false, vfs9.isomorphismExists()); /* ECS-10: complete graphs of different size, * graph bigger than subgraph */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs10 = new VF2SubgraphIsomorphismInspector<>(sg4k, sg3k); Iterator<GraphMapping<Integer, DefaultEdge>> iter10 = vfs10.getMappings(); Set<String> mappings10 = new HashSet<>( Arrays.asList( "[0=0 1=1 2=2 3=~~]", "[0=0 1=1 2=~~ 3=2]", "[0=0 1=~~ 2=1 3=2]", "[0=~~ 1=0 2=1 3=2]", "[0=1 1=0 2=2 3=~~]", "[0=1 1=0 2=~~ 3=2]", "[0=1 1=~~ 2=0 3=2]", "[0=~~ 1=1 2=0 3=2]", "[0=2 1=1 2=0 3=~~]", "[0=2 1=1 2=~~ 3=0]", "[0=2 1=~~ 2=1 3=0]", "[0=~~ 1=2 2=1 3=0]", "[0=0 1=2 2=1 3=~~]", "[0=0 1=2 2=~~ 3=1]", "[0=0 1=~~ 2=2 3=1]", "[0=~~ 1=0 2=2 3=1]", "[0=1 1=2 2=0 3=~~]", "[0=1 1=2 2=~~ 3=0]", "[0=1 1=~~ 2=2 3=0]", "[0=~~ 1=1 2=2 3=0]", "[0=2 1=0 2=1 3=~~]", "[0=2 1=0 2=~~ 3=1]", "[0=2 1=~~ 2=0 3=1]", "[0=~~ 1=2 2=0 3=1]")); for (int i = 0; i < 24; i++) assertEquals(true, mappings10.remove(iter10.next().toString())); assertEquals(false, iter10.hasNext()); /* ECS-11: isomorphic graphs */ VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs11 = new VF2SubgraphIsomorphismInspector<>(sg4v3e, sg4v3e); Iterator<GraphMapping<Integer, DefaultEdge>> iter11 = vfs11.getMappings(); Set<String> mappings11 = new HashSet<>(Arrays.asList("[1=1 2=2 3=3 4=4]", "[1=4 2=3 3=2 4=1]")); assertEquals(true, mappings11.remove(iter11.next().toString())); assertEquals(true, mappings11.remove(iter11.next().toString())); assertEquals(false, iter11.hasNext()); /* ECS-12: not connected graphs of different size */ SimpleGraph<Integer, DefaultEdge> sg6v4enc = new SimpleGraph<>(DefaultEdge.class); sg6v4enc.addVertex(0); sg6v4enc.addVertex(1); sg6v4enc.addVertex(2); sg6v4enc.addVertex(3); sg6v4enc.addVertex(4); sg6v4enc.addVertex(5); sg6v4enc.addEdge(1, 2); sg6v4enc.addEdge(2, 3); sg6v4enc.addEdge(3, 1); sg6v4enc.addEdge(4, 5); SimpleGraph<Integer, DefaultEdge> sg5v4enc = new SimpleGraph<>(DefaultEdge.class); sg5v4enc.addVertex(6); sg5v4enc.addVertex(7); sg5v4enc.addVertex(8); sg5v4enc.addVertex(9); sg5v4enc.addVertex(10); sg5v4enc.addEdge(7, 6); sg5v4enc.addEdge(9, 8); sg5v4enc.addEdge(10, 9); sg5v4enc.addEdge(8, 10); VF2SubgraphIsomorphismInspector<Integer, DefaultEdge> vfs12 = new VF2SubgraphIsomorphismInspector<>(sg6v4enc, sg5v4enc); Iterator<GraphMapping<Integer, DefaultEdge>> iter12 = vfs12.getMappings(); Set<String> mappings12 = new HashSet<>( Arrays.asList( "[0=~~ 1=8 2=10 3=9 4=7 5=6]", "[0=~~ 1=9 2=8 3=10 4=7 5=6]", "[0=~~ 1=10 2=9 3=8 4=7 5=6]", "[0=~~ 1=8 2=10 3=9 4=6 5=7]", "[0=~~ 1=9 2=8 3=10 4=6 5=7]", "[0=~~ 1=10 2=9 3=8 4=6 5=7]", "[0=~~ 1=10 2=8 3=9 4=7 5=6]", "[0=~~ 1=8 2=9 3=10 4=7 5=6]", "[0=~~ 1=9 2=10 3=8 4=7 5=6]", "[0=~~ 1=10 2=8 3=9 4=6 5=7]", "[0=~~ 1=8 2=9 3=10 4=6 5=7]", "[0=~~ 1=9 2=10 3=8 4=6 5=7]")); for (int i = 0; i < 12; i++) assertEquals(true, mappings12.remove(iter12.next().toString())); assertEquals(false, iter12.hasNext()); }
@Test public void testAutomorphism() { /* * v1-----v2 * \ / * \ / * v3 */ SimpleGraph<String, DefaultEdge> g1 = new SimpleGraph<String, DefaultEdge>(DefaultEdge.class); String v1 = "v1", v2 = "v2", v3 = "v3"; g1.addVertex(v1); g1.addVertex(v2); g1.addVertex(v3); g1.addEdge(v1, v2); g1.addEdge(v2, v3); g1.addEdge(v3, v1); VF2GraphIsomorphismInspector<String, DefaultEdge> vf2 = new VF2GraphIsomorphismInspector<String, DefaultEdge>(g1, g1); Iterator<GraphMapping<String, DefaultEdge>> iter = vf2.getMappings(); Set<String> mappings = new HashSet<String>( Arrays.asList( "[v1=v1 v2=v2 v3=v3]", "[v1=v1 v2=v3 v3=v2]", "[v1=v2 v2=v1 v3=v3]", "[v1=v2 v2=v3 v3=v1]", "[v1=v3 v2=v1 v3=v2]", "[v1=v3 v2=v2 v3=v1]")); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(true, mappings.remove(iter.next().toString())); assertEquals(false, iter.hasNext()); /* * 1 ---> 2 <--- 3 */ DefaultDirectedGraph<Integer, DefaultEdge> g2 = new DefaultDirectedGraph<Integer, DefaultEdge>(DefaultEdge.class); g2.addVertex(1); g2.addVertex(2); g2.addVertex(3); g2.addEdge(1, 2); g2.addEdge(3, 2); VF2GraphIsomorphismInspector<Integer, DefaultEdge> vf3 = new VF2GraphIsomorphismInspector<Integer, DefaultEdge>(g2, g2); Iterator<GraphMapping<Integer, DefaultEdge>> iter2 = vf3.getMappings(); Set<String> mappings2 = new HashSet<String>(Arrays.asList("[1=1 2=2 3=3]", "[1=3 2=2 3=1]")); assertEquals(true, mappings2.remove(iter2.next().toString())); assertEquals(true, mappings2.remove(iter2.next().toString())); assertEquals(false, iter2.hasNext()); }