private void test1PersonStartingOnLane(boolean reduceCap) {
fixture.create1PersonFromLink1Population();
if (reduceCap) {
fixture.sc.getConfig().qsim().setStartTime(3500.0);
fixture.sc.getConfig().qsim().setEndTime(7200.0);
LaneDefinitions20 lanes = fixture.sc.getLanes();
Lane lane1 =
lanes.getLanesToLinkAssignments().get(fixture.id1).getLanes().get(fixture.laneId1);
lane1.setCapacityVehiclesPerHour(1800.0);
Lane lane1ol =
lanes
.getLanesToLinkAssignments()
.get(fixture.id1)
.getLanes()
.get(fixture.link1FirstLaneId);
lane1ol.setCapacityVehiclesPerHour(1800.0);
}
EventsManager events = EventsUtils.createEventsManager();
MixedLanesEventsHandler handler = new MixedLanesEventsHandler(this.fixture);
events.addHandler(handler);
QSim qsim = QSimUtils.createDefaultQSim(this.fixture.sc, events);
qsim.run();
Assert.assertNotNull(handler.lastAgentDepartureEvent);
Assert.assertEquals(3600.0, handler.lastAgentDepartureEvent.getTime(), testUtils.EPSILON);
Assert.assertNull(handler.lastLink1EnterEvent);
Assert.assertNull(handler.lastLane1olEnterEvent);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT, handler.lastLane1olLeaveEvent.getTime(), testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT, handler.lastLane1EnterEvent.getTime(), testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1,
handler.lastLane1LeaveEvent.getTime(),
testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink2EnterEvent);
Assert.assertEquals(
this.fixture.pid1, handler.vehId2DriverId.get(handler.lastLink2EnterEvent.getVehicleId()));
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1,
handler.lastLink2EnterEvent.getTime(),
testUtils.EPSILON);
Assert.assertNull(handler.lastLink3EnterEvent);
}
/**
* Tests travel times in the same scenario as above but without lanes. Note, that they are
* different in this example!
*
* @author thunig
*/
@Test
public void testLink2PersonsDriving() {
log.info("starting testLink2PersonsDriving()");
fixture.sc.getConfig().qsim().setUseLanes(false);
fixture.create2PersonPopulation();
EventsManager events = EventsUtils.createEventsManager();
MixedLanesEventsHandler handler = new MixedLanesEventsHandler(fixture);
events.addHandler(handler);
QSim qsim = (QSim) QSimUtils.createDefaultQSim(fixture.sc, events);
qsim.run();
Assert.assertNotNull(handler.lastAgentDepartureEvent);
Assert.assertEquals(3600.0, handler.lastAgentDepartureEvent.getTime(), testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink1EnterEvent);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT, handler.lastLink1EnterEvent.getTime(), testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink2EnterEvent);
Assert.assertEquals(
fixture.pid1, handler.vehId2DriverId.get(handler.lastLink2EnterEvent.getVehicleId()));
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + linkTTWithoutLanes,
handler.lastLink2EnterEvent.getTime(),
testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink3EnterEvent);
Assert.assertEquals(
fixture.pid2, handler.vehId2DriverId.get(handler.lastLink3EnterEvent.getVehicleId()));
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + linkTTWithoutLanes,
handler.lastLink3EnterEvent.getTime(),
testUtils.EPSILON);
}
private void testMixedLane2PersonsDriving(boolean reduceCap) {
fixture.create2PersonPopulation();
// if no capacity is reduced the delay of both agents should be zero
double delayOfAgent1 = 0;
double delayOfAgent2 = 0;
if (reduceCap) {
// reduce capacity on lane 1
LaneDefinitions20 lanes = fixture.sc.getLanes();
Lane lane1 =
lanes.getLanesToLinkAssignments().get(fixture.id1).getLanes().get(fixture.laneId1);
lane1.setCapacityVehiclesPerHour(1800.0);
// the delay of the second agent on lane 1 should be two seconds if
// capacity is reduced to 1800 veh/h
delayOfAgent2 = 2;
}
EventsManager events = EventsUtils.createEventsManager();
MixedLanesEventsHandler handler = new MixedLanesEventsHandler(this.fixture);
events.addHandler(handler);
QSim qsim = (QSim) QSimUtils.createDefaultQSim(this.fixture.sc, events);
qsim.run();
Assert.assertNotNull(handler.lastAgentDepartureEvent);
Assert.assertEquals(3600.0, handler.lastAgentDepartureEvent.getTime(), testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink1EnterEvent);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT, handler.lastLink1EnterEvent.getTime(), testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT, handler.lastLane1olEnterEvent.getTime(), testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1ol,
handler.lastLane1olLeaveEvent.getTime(),
testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1ol,
handler.lastLane1EnterEvent.getTime(),
testUtils.EPSILON);
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1ol + laneTTlane1 + delayOfAgent2,
handler.lastLane1LeaveEvent.getTime(),
testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink2EnterEvent);
Assert.assertEquals(
this.fixture.pid1, handler.vehId2DriverId.get(handler.lastLink2EnterEvent.getVehicleId()));
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1ol + laneTTlane1 + delayOfAgent2,
handler.lastLink2EnterEvent.getTime(),
testUtils.EPSILON);
Assert.assertNotNull(handler.lastLink3EnterEvent);
Assert.assertEquals(
this.fixture.pid2, handler.vehId2DriverId.get(handler.lastLink3EnterEvent.getVehicleId()));
Assert.assertEquals(
3600.0 + firstLinkOrLaneTT + laneTTlane1ol + laneTTlane1 + delayOfAgent1,
handler.lastLink3EnterEvent.getTime(),
testUtils.EPSILON);
}