/** Make sure that stops are properly linked into the graph */ @Test public void testStopLinking() throws Exception { AddTripPattern atp = getAddTripPattern(RouteSelector.BROAD_HIGH); atp.timetables.add(getTimetable(true)); // get a graph Graph g = buildGraphNoTransit(); link(g); g.index(new DefaultStreetVertexIndexFactory()); // materialize the trip pattern atp.materialize(g); // there should be five stops because one point is not a stop assertEquals(5, atp.temporaryStops.length); // they should all be linked into the graph for (int i = 0; i < atp.temporaryStops.length; i++) { assertNotNull(atp.temporaryStops[i].sample); assertNotNull(atp.temporaryStops[i].sample.v0); assertNotNull(atp.temporaryStops[i].sample.v1); } // no services running: not needed for trips added on the fly. TimeWindow window = new TimeWindow(7 * 3600, 9 * 3600, new BitSet(), DayOfWeek.WEDNESDAY); Scenario scenario = new Scenario(0); scenario.modifications = Lists.newArrayList(atp); ProfileRequest req = new ProfileRequest(); req.scenario = scenario; req.boardingAssumption = RaptorWorkerTimetable.BoardingAssumption.WORST_CASE; RaptorWorkerData data = new RaptorWorkerData(g, window, req); assertEquals(5, data.nStops); // make sure we can find the stops AStar aStar = new AStar(); RoutingRequest rr = new RoutingRequest(TraverseMode.WALK); rr.from = new GenericLocation(39.963417, -82.980799); rr.batch = true; rr.setRoutingContext(g); rr.batch = true; ShortestPathTree spt = aStar.getShortestPathTree(rr); TIntIntMap stops = data.findStopsNear(spt, g); // we should have found stops assertFalse(stops.isEmpty()); // ensure that the times made it into the data // This assumes worst-case departure, and the first worst departure is 10:30 after the service // starts running (dwell + headway) assertEquals( 4 * 3600 + 600 + 30, data.timetablesForPattern.get(0).getFrequencyDeparture(0, 0, 39 * 360, -1, null)); }
/** Test the full routing */ @Test public void integrationTest() throws Exception { Graph g = buildGraphNoTransit(); addTransit(g); link(g); ProfileRequest pr1 = new ProfileRequest(); pr1.date = new LocalDate(2015, 6, 10); pr1.fromTime = 7 * 3600; pr1.toTime = 9 * 3600; pr1.fromLat = pr1.toLat = 39.9621; pr1.fromLon = pr1.toLon = -83.0007; RepeatedRaptorProfileRouter rrpr1 = new RepeatedRaptorProfileRouter(g, pr1); rrpr1.route(); ProfileRequest pr2 = new ProfileRequest(); pr2.date = new LocalDate(2015, 6, 10); pr2.fromTime = 7 * 3600; pr2.toTime = 9 * 3600; pr2.fromLat = pr2.toLat = 39.9621; pr2.fromLon = pr2.toLon = -83.0007; AddTripPattern atp = getAddTripPattern(RouteSelector.BROAD_HIGH); atp.timetables.add(getTimetable(true)); pr2.scenario = new Scenario(0); pr2.scenario.modifications = Arrays.asList(atp); RepeatedRaptorProfileRouter rrpr2 = new RepeatedRaptorProfileRouter(g, pr2); rrpr2.route(); boolean foundDecrease = false; // make sure that travel time did not increase for (TObjectIntIterator<Vertex> vit = rrpr1.timeSurfaceRangeSet.min.times.iterator(); vit.hasNext(); ) { vit.advance(); int time2 = rrpr2.timeSurfaceRangeSet.min.getTime(vit.key()); assertTrue(time2 <= vit.value()); if (time2 < vit.value()) foundDecrease = true; } assertTrue("found decreases in travel time due to adding route", foundDecrease); }
/** Make sure that transfers work */ @Test public void testTransfers() throws Exception { AddTripPattern atp = getAddTripPattern(RouteSelector.BROAD_HIGH); atp.timetables.add(getTimetable(false)); AddTripPattern atp2 = getAddTripPattern(RouteSelector.BEXLEY_CMH); atp2.timetables.add(getTimetable(true)); // get a graph Graph g = buildGraphNoTransit(); addTransit(g); link(g); g.index(new DefaultStreetVertexIndexFactory()); // materialize the trip pattern atp.materialize(g); atp2.materialize(g); TimeWindow window = new TimeWindow( 7 * 3600, 9 * 3600, g.index.servicesRunning(new LocalDate(2015, 6, 10)), DayOfWeek.WEDNESDAY); Scenario scenario = new Scenario(0); scenario.modifications = Lists.newArrayList(atp, atp2); ProfileRequest req = new ProfileRequest(); req.scenario = scenario; req.boardingAssumption = RaptorWorkerTimetable.BoardingAssumption.WORST_CASE; RaptorWorkerData data = new RaptorWorkerData(g, window, req); // make sure that we have transfers a) between the new lines b) from the new lines // to the existing lines c) from the existing lines to the new lines // stop IDs in the data will be 0 and 1 for existing stops, 2 - 6 for Broad/High and 7 - 11 for // Bexley/CMH int[] txFromExisting = data.transfersForStop.get(0); if (txFromExisting.length == 0) txFromExisting = data.transfersForStop.get(1); // make sure there's a transfer to stop 4 (Broad/High) // the AddTripPattern instructions are processed in order // also recall that each transfer has two ints in the array as it's a jagged array of // dest_pattern, distance assertTrue(txFromExisting.length > 0); boolean foundTx = false; for (int i = 0; i < txFromExisting.length; i += 2) { if (txFromExisting[i] == 4) { foundTx = true; break; } } assertTrue("transfer from existing to new", foundTx); // Check that there are transfers from the new route to the existing route // This is the stop at Broad and High int[] txToExisting = data.transfersForStop.get(4); assertTrue(txToExisting.length > 0); foundTx = false; for (int i = 0; i < txToExisting.length; i += 2) { if (txToExisting[i] == 0 || txToExisting[i] == 1) { // stop from existing route foundTx = true; break; } } assertTrue("transfer from new to existing", foundTx); // Check that there are transfers between the new routes int[] txBetweenNew = data.transfersForStop.get(7); assertTrue(txBetweenNew.length > 0); foundTx = false; for (int i = 0; i < txBetweenNew.length; i += 2) { if (txBetweenNew[i] == 2) { foundTx = true; break; } } assertTrue(foundTx); }