コード例 #1
0
  public void testNetworkLinker() {
    int numVerticesBefore = graph.getVertices().size();
    NetworkLinker nl = new NetworkLinker(graph);
    nl.createLinkage();
    int numVerticesAfter = graph.getVertices().size();
    assertEquals(4, numVerticesAfter - numVerticesBefore);
    Collection<Edge> outgoing = graph.getOutgoing(station1);
    assertTrue(outgoing.size() == 1);
    DirectEdge edge = (DirectEdge) outgoing.iterator().next();

    Vertex midpoint = edge.getToVertex();
    assertTrue(Math.abs(midpoint.getCoordinate().y - 40.01) < 0.00000001);

    outgoing = graph.getOutgoing(station2);
    assertTrue(outgoing.size() == 1);
    edge = (DirectEdge) outgoing.iterator().next();

    Vertex station2point = edge.getToVertex();
    assertTrue(Math.abs(station2point.getCoordinate().x - -74.002) < 0.00000001);
  }
コード例 #2
0
  public void testHalfEdges() {
    // the shortest half-edge from the start vertex takes you down, but the shortest total path
    // is up and over

    TraverseOptions options = new TraverseOptions();

    HashSet<Edge> turns = new HashSet<Edge>(graph.getOutgoing(left));
    turns.addAll(graph.getOutgoing(leftBack));

    StreetLocation start =
        StreetLocation.createStreetLocation(
            "start",
            "start",
            cast(turns, StreetEdge.class),
            new LinearLocation(0, 0.4).getCoordinate(left.getGeometry()));

    HashSet<Edge> endTurns = new HashSet<Edge>(graph.getOutgoing(right));
    endTurns.addAll(graph.getOutgoing(rightBack));

    StreetLocation end =
        StreetLocation.createStreetLocation(
            "end",
            "end",
            cast(endTurns, StreetEdge.class),
            new LinearLocation(0, 0.8).getCoordinate(right.getGeometry()));

    assertTrue(start.getX() < end.getX());
    assertTrue(start.getY() < end.getY());

    List<DirectEdge> extra = end.getExtra();

    assertEquals(12, extra.size());

    GregorianCalendar startTime = new GregorianCalendar(2009, 11, 1, 12, 34, 25);

    ShortestPathTree spt1 =
        AStar.getShortestPathTree(graph, brOut, end, TestUtils.toSeconds(startTime), options);

    GraphPath pathBr = spt1.getPath(end, false);
    assertNotNull("There must be a path from br to end", pathBr);

    ShortestPathTree spt2 =
        AStar.getShortestPathTree(graph, trOut, end, TestUtils.toSeconds(startTime), options);

    GraphPath pathTr = spt2.getPath(end, false);
    assertNotNull("There must be a path from tr to end", pathTr);
    assertTrue(
        "path from bottom to end must be longer than path from top to end",
        pathBr.getWeight() > pathTr.getWeight());

    ShortestPathTree spt =
        AStar.getShortestPathTree(graph, start, end, TestUtils.toSeconds(startTime), options);

    GraphPath path = spt.getPath(end, false);
    assertNotNull("There must be a path from start to end", path);

    // the bottom is not part of the shortest path
    for (State s : path.states) {
      assertNotSame(s.getVertex(), graph.getVertex("bottom"));
      assertNotSame(s.getVertex(), graph.getVertex("bottomBack"));
    }

    startTime = new GregorianCalendar(2009, 11, 1, 12, 34, 25);

    options.setArriveBy(true);
    spt = AStar.getShortestPathTree(graph, start, end, TestUtils.toSeconds(startTime), options);

    path = spt.getPath(start, false);
    assertNotNull("There must be a path from start to end (looking back)", path);

    // the bottom edge is not part of the shortest path
    for (State s : path.states) {
      assertNotSame(s.getVertex(), graph.getVertex("bottom"));
      assertNotSame(s.getVertex(), graph.getVertex("bottomBack"));
    }

    /* Now, the right edge is not bikeable.  But the user can walk their bike.  So here are some tests
     * that prove (a) that walking bikes works, but that (b) it is not preferred to riding a tiny bit longer.
     */

    options = new TraverseOptions(new TraverseModeSet(TraverseMode.BICYCLE));
    start =
        StreetLocation.createStreetLocation(
            "start1",
            "start1",
            cast(turns, StreetEdge.class),
            new LinearLocation(0, 0.95).getCoordinate(top.getGeometry()));
    end =
        StreetLocation.createStreetLocation(
            "end1",
            "end1",
            cast(turns, StreetEdge.class),
            new LinearLocation(0, 0.95).getCoordinate(bottom.getGeometry()));
    spt = AStar.getShortestPathTree(graph, start, end, TestUtils.toSeconds(startTime), options);

    path = spt.getPath(start, false);
    assertNotNull("There must be a path from top to bottom along the right", path);

    // the left edge is not part of the shortest path (even though the bike must be walked along the
    // right)
    for (State s : path.states) {
      assertNotSame(s.getVertex(), graph.getVertex("left"));
      assertNotSame(s.getVertex(), graph.getVertex("leftBack"));
    }

    start =
        StreetLocation.createStreetLocation(
            "start2",
            "start2",
            cast(turns, StreetEdge.class),
            new LinearLocation(0, 0.55).getCoordinate(top.getGeometry()));
    end =
        StreetLocation.createStreetLocation(
            "end2",
            "end2",
            cast(turns, StreetEdge.class),
            new LinearLocation(0, 0.55).getCoordinate(bottom.getGeometry()));
    spt = AStar.getShortestPathTree(graph, start, end, TestUtils.toSeconds(startTime), options);

    path = spt.getPath(start, false);
    assertNotNull("There must be a path from top to bottom", path);

    // the right edge is not part of the shortest path, e
    for (State s : path.states) {
      assertNotSame(s.getVertex(), graph.getVertex("right"));
      assertNotSame(s.getVertex(), graph.getVertex("rightBack"));
    }
  }