Esempio n. 1
0
  /** Check if the getSubBuilders properly predicts the output. */
  public static void testSubBuilders() throws Exception {
    Workspace ws = Workspace.getWorkspace(new File("test/ws"));
    Project project = ws.getProject("p4-sub");

    Collection<? extends Builder> bs = project.getSubBuilders();
    assertNotNull(bs);
    assertEquals(3, bs.size());
    Set<String> names = new HashSet<String>();
    for (Builder b : bs) {
      names.add(b.getBsn());
    }
    assertTrue(names.contains("p4-sub.a"));
    assertTrue(names.contains("p4-sub.b"));
    assertTrue(names.contains("p4-sub.c"));

    File[] files = project.build();
    assertTrue(project.check());

    System.err.println(Processor.join(project.getErrors(), "\n"));
    System.err.println(Processor.join(project.getWarnings(), "\n"));
    assertEquals(0, project.getErrors().size());
    assertEquals(0, project.getWarnings().size());
    assertNotNull(files);
    assertEquals(3, files.length);
    for (File file : files) {
      Jar jar = new Jar(file);
      Manifest m = jar.getManifest();
      assertTrue(names.contains(m.getMainAttributes().getValue("Bundle-SymbolicName")));
    }
  }
Esempio n. 2
0
 public void testMethodKey() throws Exception {
   MethodKey factory = (MethodKey) KeyFactory.create(MethodKey.class);
   Set methodSet = new HashSet();
   methodSet.add(factory.newInstance(Number.class, new Class[] {int.class}));
   assertTrue(methodSet.contains(factory.newInstance(Number.class, new Class[] {int.class})));
   assertTrue(!methodSet.contains(factory.newInstance(Number.class, new Class[] {Integer.class})));
 }
  /** Tests Subgraph. */
  public void testSubgraph() {
    UndirectedGraph<String, DefaultEdge> g = init(false);
    UndirectedSubgraph<String, DefaultEdge> sub =
        new UndirectedSubgraph<String, DefaultEdge>(g, null, null);

    assertEquals(g.vertexSet(), sub.vertexSet());
    assertEquals(g.edgeSet(), sub.edgeSet());

    Set<String> vset = new HashSet<String>(g.vertexSet());
    g.removeVertex(v1);
    assertEquals(vset, sub.vertexSet()); // losing track

    g = init(false);
    vset = new HashSet<String>();
    vset.add(v1);
    sub = new UndirectedSubgraph<String, DefaultEdge>(g, vset, null);
    assertEquals(vset, sub.vertexSet());
    assertEquals(0, sub.degreeOf(v1));
    assertEquals(Collections.EMPTY_SET, sub.edgeSet());

    vset.add(v2);
    vset.add(v3);
    sub =
        new UndirectedSubgraph<String, DefaultEdge>(
            g, vset, new HashSet<DefaultEdge>(g.getAllEdges(v1, v2)));
    assertEquals(vset, sub.vertexSet());
    assertEquals(1, sub.edgeSet().size());
  }
 /** descendingkeySet.toArray returns contains all keys */
 public void testDescendingDescendingKeySetToArray() {
   ConcurrentNavigableMap map = dmap5();
   Set s = map.descendingKeySet();
   Object[] ar = s.toArray();
   assertEquals(5, ar.length);
   assertTrue(s.containsAll(Arrays.asList(ar)));
   ar[0] = m10;
   assertFalse(s.containsAll(Arrays.asList(ar)));
 }
 /** keySet returns a Set containing all the keys */
 public void testDescendingKeySet() {
   ConcurrentNavigableMap map = dmap5();
   Set s = map.keySet();
   assertEquals(5, s.size());
   assertTrue(s.contains(m1));
   assertTrue(s.contains(m2));
   assertTrue(s.contains(m3));
   assertTrue(s.contains(m4));
   assertTrue(s.contains(m5));
 }
 /** keySet returns a Set containing all the keys */
 public void testKeySet() {
   ConcurrentNavigableMap map = map5();
   Set s = map.keySet();
   assertEquals(5, s.size());
   assertTrue(s.contains(one));
   assertTrue(s.contains(two));
   assertTrue(s.contains(three));
   assertTrue(s.contains(four));
   assertTrue(s.contains(five));
 }
 /** keySet is ordered */
 public void testDescendingKeySetOrder() {
   ConcurrentNavigableMap map = dmap5();
   Set s = map.keySet();
   Iterator i = s.iterator();
   Integer last = (Integer) i.next();
   assertEquals(last, m1);
   while (i.hasNext()) {
     Integer k = (Integer) i.next();
     assertTrue(last.compareTo(k) > 0);
     last = k;
   }
 }
  /** . */
  public void testStronglyConnected3() {
    DirectedGraph<String, DefaultEdge> g =
        new DefaultDirectedGraph<String, DefaultEdge>(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<String, DefaultEdge> inspector =
        new StrongConnectivityInspector<String, DefaultEdge>(g);

    // convert from List to Set because we need to ignore order
    // during comparison
    Set<Set<String>> actualSets = new HashSet<Set<String>>(inspector.stronglyConnectedSets());

    // construct the expected answer
    Set<Set<String>> expectedSets = new HashSet<Set<String>>();
    Set<String> set = new HashSet<String>();
    set.add(V1);
    set.add(V2);
    set.add(V3);
    expectedSets.add(set);
    set = new HashSet<String>();
    set.add(V4);
    expectedSets.add(set);

    assertEquals(expectedSets, actualSets);

    actualSets.clear();

    List<DirectedSubgraph<String, DefaultEdge>> subgraphs = inspector.stronglyConnectedSubgraphs();

    for (DirectedSubgraph<String, DefaultEdge> sg : subgraphs) {
      actualSets.add(sg.vertexSet());

      StrongConnectivityInspector<String, DefaultEdge> ci =
          new StrongConnectivityInspector<String, DefaultEdge>(sg);
      assertTrue(ci.isStronglyConnected());
    }

    assertEquals(expectedSets, actualSets);
  }
  /** . */
  public void testSubgraphListener() {
    UndirectedGraph<String, DefaultEdge> g = init(true);
    UndirectedSubgraph<String, DefaultEdge> sub =
        new UndirectedSubgraph<String, DefaultEdge>(g, null, null);

    assertEquals(g.vertexSet(), sub.vertexSet());
    assertEquals(g.edgeSet(), sub.edgeSet());

    Set<String> vset = new HashSet<String>(g.vertexSet());
    g.removeVertex(v1);
    vset.remove(v1);
    assertEquals(vset, sub.vertexSet()); // not losing track
    assertEquals(g.edgeSet(), sub.edgeSet());
  }
 /** entrySet contains all pairs */
 public void testDescendingEntrySet() {
   ConcurrentNavigableMap map = dmap5();
   Set s = map.entrySet();
   assertEquals(5, s.size());
   Iterator it = s.iterator();
   while (it.hasNext()) {
     Map.Entry e = (Map.Entry) it.next();
     assertTrue(
         (e.getKey().equals(m1) && e.getValue().equals("A"))
             || (e.getKey().equals(m2) && e.getValue().equals("B"))
             || (e.getKey().equals(m3) && e.getValue().equals("C"))
             || (e.getKey().equals(m4) && e.getValue().equals("D"))
             || (e.getKey().equals(m5) && e.getValue().equals("E")));
   }
 }
 /** entrySet contains all pairs */
 public void testEntrySet() {
   ConcurrentNavigableMap map = map5();
   Set s = map.entrySet();
   assertEquals(5, s.size());
   Iterator it = s.iterator();
   while (it.hasNext()) {
     Map.Entry e = (Map.Entry) it.next();
     assertTrue(
         (e.getKey().equals(one) && e.getValue().equals("A"))
             || (e.getKey().equals(two) && e.getValue().equals("B"))
             || (e.getKey().equals(three) && e.getValue().equals("C"))
             || (e.getKey().equals(four) && e.getValue().equals("D"))
             || (e.getKey().equals(five) && e.getValue().equals("E")));
   }
 }