public TransitLine createSingleTransitLine(Id<Vehicle> driverId) {
// initialize
TransitLine line =
this.tS.getFactory().createTransitLine(Id.create(driverId, TransitLine.class));
TransitStopFacility startStop = getRandomTransitStop();
TransitStopFacility endStop = getRandomTransitStop();
TransitRoute transitRoute_H =
createRoute(Id.create(driverId + "_H", TransitRoute.class), startStop, endStop);
TransitRoute transitRoute_R =
createRoute(Id.create(driverId + "_R", TransitRoute.class), endStop, startStop);
// register route
line.addRoute(transitRoute_H);
line.addRoute(transitRoute_R);
// add departures
int n = 0;
for (double j = 0.0; j < 24 * 3600; ) {
Departure departure = this.tS.getFactory().createDeparture(Id.create(n, Departure.class), j);
departure.setVehicleId(driverId);
transitRoute_H.addDeparture(departure);
j += transitRoute_H.getStop(endStop).getDepartureOffset() + 5 * 60;
n++;
departure = this.tS.getFactory().createDeparture(Id.create(n, Departure.class), j);
departure.setVehicleId(driverId);
transitRoute_R.addDeparture(departure);
j += transitRoute_R.getStop(startStop).getDepartureOffset() + 5 * 60;
n++;
}
return line;
}
public WaitTimeStuckCalculator(
final Population population,
final TransitSchedule transitSchedule,
final int timeSlot,
final int totalTime) {
this.population = population;
this.timeSlot = timeSlot;
for (TransitLine line : transitSchedule.getTransitLines().values())
for (TransitRoute route : line.getRoutes().values()) {
double[] sortedDepartures = new double[route.getDepartures().size()];
int d = 0;
for (Departure departure : route.getDepartures().values())
sortedDepartures[d++] = departure.getDepartureTime();
Arrays.sort(sortedDepartures);
Map<Id<TransitStopFacility>, WaitTimeData> stopsMap =
new HashMap<Id<TransitStopFacility>, WaitTimeData>(100);
Map<Id<TransitStopFacility>, double[]> stopsScheduledMap =
new HashMap<Id<TransitStopFacility>, double[]>(100);
for (TransitRouteStop stop : route.getStops()) {
stopsMap.put(
stop.getStopFacility().getId(), new WaitTimeDataArray(totalTime / timeSlot + 1));
double[] cacheWaitTimes = new double[totalTime / timeSlot + 1];
for (int i = 0; i < cacheWaitTimes.length; i++) {
double endTime = timeSlot * (i + 1);
if (endTime > 24 * 3600) endTime -= 24 * 3600;
cacheWaitTimes[i] = Time.UNDEFINED_TIME;
SORTED_DEPARTURES:
for (double departure : sortedDepartures) {
double arrivalTime =
departure
+ (stop.getArrivalOffset() != Time.UNDEFINED_TIME
? stop.getArrivalOffset()
: stop.getDepartureOffset());
if (arrivalTime >= endTime) {
cacheWaitTimes[i] = arrivalTime - endTime;
break SORTED_DEPARTURES;
}
}
if (cacheWaitTimes[i] == Time.UNDEFINED_TIME)
cacheWaitTimes[i] =
sortedDepartures[0]
+ 24 * 3600
+ (stop.getArrivalOffset() != Time.UNDEFINED_TIME
? stop.getArrivalOffset()
: stop.getDepartureOffset())
- endTime;
}
stopsScheduledMap.put(stop.getStopFacility().getId(), cacheWaitTimes);
}
Tuple<Id<TransitLine>, Id<TransitRoute>> key =
new Tuple<Id<TransitLine>, Id<TransitRoute>>(line.getId(), route.getId());
waitTimes.put(key, stopsMap);
scheduledWaitTimes.put(key, stopsScheduledMap);
}
}
private final void createVehicleLinkSpeedAttributes() {
for (TransitLine transitLine : scenario.getTransitSchedule().getTransitLines().values()) {
for (TransitRoute transitRoute : transitLine.getRoutes().values()) {
Set<Id> vehIds = new HashSet<Id>();
for (Departure departure : transitRoute.getDepartures().values()) {
vehIds.add(departure.getVehicleId());
}
Iterator<TransitRouteStop> iterator = transitRoute.getStops().iterator();
double departure = iterator.next().getDepartureOffset();
while (iterator.hasNext()) {
TransitRouteStop routeStop = iterator.next();
double arrival = routeStop.getArrivalOffset();
Link link = scenario.getNetwork().getLinks().get(routeStop.getStopFacility().getLinkId());
double speed = link.getLength() / (arrival - departure);
if (speed >= 200.0) {
System.out.println(
"line="
+ transitLine.getId()
+ ";route="
+ transitRoute.getId()
+ "stop="
+ routeStop.getStopFacility().getId()
+ ": lLenth="
+ link.getLength()
+ ";arr="
+ arrival
+ ";dep="
+ departure
+ "");
}
for (Id vehId : vehIds) {
this.vehicleAttributes.putAttribute(vehId.toString(), link.getId().toString(), speed);
}
departure = routeStop.getDepartureOffset();
}
}
}
}
private void writeVehicles(String vehiclesOutFile) {
VehiclesFactory vehFactory = this.veh.getFactory();
VehicleType vehType =
vehFactory.createVehicleType(Id.create("defaultTransitVehicleType", VehicleType.class));
VehicleCapacity capacity = new VehicleCapacityImpl();
capacity.setSeats(Integer.valueOf(8));
capacity.setStandingRoom(Integer.valueOf(0));
vehType.setCapacity(capacity);
this.veh.addVehicleType(vehType);
for (TransitLine line : this.tS.getTransitLines().values()) {
for (TransitRoute route : line.getRoutes().values()) {
for (Departure departure : route.getDepartures().values()) {
Vehicle vehicle = vehFactory.createVehicle(departure.getVehicleId(), vehType);
this.veh.addVehicle(vehicle);
}
}
}
VehicleWriterV1 writer = new VehicleWriterV1(this.veh);
writer.writeFile(vehiclesOutFile);
}
public TransitRouteData(Network network, TransitRoute transitRoute) {
this.transportMode = transitRoute.getTransportMode();
this.firstDeparture = Double.MAX_VALUE;
this.lastDeparture = -Double.MAX_VALUE;
this.vehIds = new TreeSet<String>();
this.numberOfDepartures = 0;
for (Departure departure : transitRoute.getDepartures().values()) {
this.firstDeparture = Math.min(this.firstDeparture, departure.getDepartureTime());
this.lastDeparture = Math.max(this.lastDeparture, departure.getDepartureTime());
this.vehIds.add(departure.getVehicleId().toString());
this.numberOfDepartures++;
}
this.firstStop = transitRoute.getStops().get(0).getStopFacility();
this.lastStop =
transitRoute.getStops().get(transitRoute.getStops().size() - 1).getStopFacility();
if (this.firstStop == this.lastStop) {
// get the stop location of stop with the largest distance between first and last stop
TransitStopFacility currentViaStop = null;
double currentViaDistance = Double.NEGATIVE_INFINITY;
for (TransitRouteStop stop : transitRoute.getStops()) {
double distanceFirstPotentialVia =
CoordUtils.calcDistance(this.firstStop.getCoord(), stop.getStopFacility().getCoord());
double distanceLastProtenialVia =
CoordUtils.calcDistance(this.lastStop.getCoord(), stop.getStopFacility().getCoord());
double newDistance =
Math.sqrt(
Math.pow(distanceFirstPotentialVia, 2) + Math.pow(distanceLastProtenialVia, 2));
if (newDistance > currentViaDistance) {
// this one is farther away - keep it
currentViaStop = stop.getStopFacility();
currentViaDistance = newDistance;
}
}
this.viaStop = currentViaStop;
} else {
// get the stop in the middle of the line
this.viaStop =
transitRoute.getStops().get((int) (transitRoute.getStops().size() / 2)).getStopFacility();
}
// calculate the length of the route
double distance = 0.0;
double freeSpeedTravelTime = 0.0;
for (Id<Link> linkId : transitRoute.getRoute().getLinkIds()) {
Link link = network.getLinks().get(linkId);
distance += link.getLength();
freeSpeedTravelTime += link.getLength() / link.getFreespeed();
}
// add last link but not the first link
Link link = network.getLinks().get(transitRoute.getRoute().getEndLinkId());
distance += link.getLength();
freeSpeedTravelTime += link.getLength() / link.getFreespeed();
this.distance = distance;
this.freeSpeedTravelTime = freeSpeedTravelTime;
this.travelTime =
transitRoute.getStops().get(transitRoute.getStops().size() - 1).getArrivalOffset();
this.avgSpeed = this.distance / this.travelTime;
}
private final void convertSchedules(
OTTDataContainer dataContainer, ObjectAttributes trainTypes, boolean isPerformance) {
TransitScheduleFactory scheduleFactory = scenario.getTransitSchedule().getFactory();
VehiclesFactory vehiclesFactory = ((ScenarioImpl) scenario).getVehicles().getFactory();
VehicleType vehicleType =
vehiclesFactory.createVehicleType(new IdImpl(WagonSimConstants.DEFAULT_VEHICLE_TYPE));
VehicleCapacity vehicleCapacity = vehiclesFactory.createVehicleCapacity();
// we do not use this capacity. Therefore it should infinite, otherwise this capacity may exceed
// before ``our'' capacities are exceeded // dr, oct'13
vehicleCapacity.setSeats(999999);
vehicleCapacity.setStandingRoom(999999);
// we defined the vehicle-enter/leave-time is implicit included in transfer-times which
// are defined in the transitrouterconfig (for handling see
// WagonSimTripRouterFactoryImpl#WagonSimRouterWrapper)
// dr, oct'13
vehicleType.setAccessTime(0);
vehicleType.setEgressTime(0);
vehicleType.setCapacity(vehicleCapacity);
((ScenarioImpl) scenario).getVehicles().addVehicleType(vehicleType);
Date startDate = extractStartDate(dataContainer, isPerformance);
System.out.println("startDate=" + startDate.toString());
for (Locomotive locomotive : dataContainer.locomotives.values()) {
Departure departure = null;
List<TransitRouteStop> transitRouteStops = new ArrayList<TransitRouteStop>();
for (StationData stationData : locomotive.trips.values()) {
TransitStopFacility stopFacility =
scenario.getTransitSchedule().getFacilities().get(stationData.stationId);
if (stopFacility == null) {
throw new RuntimeException(
"locomotive id="
+ locomotive.id
+ ": station id="
+ stationData.stationId
+ " not found. Bailing out.");
}
double arrivalDelay = Double.NaN;
double departureDelay = Double.NaN;
if (departure == null) {
double lineDepartureOffset =
(stationData.departure.getTime() - startDate.getTime()) / 1000.0;
if (!isPerformance) {
lineDepartureOffset -= stationData.delayDeparture;
}
departure = scheduleFactory.createDeparture(locomotive.id, lineDepartureOffset);
arrivalDelay = 0.0;
} else {
arrivalDelay =
(stationData.arrival.getTime() - startDate.getTime()) / 1000.0
- departure.getDepartureTime();
if (!isPerformance) {
arrivalDelay -= stationData.delayArrival;
}
}
departureDelay =
(stationData.departure.getTime() - startDate.getTime()) / 1000.0
- departure.getDepartureTime();
if (!isPerformance) {
departureDelay -= stationData.delayDeparture;
}
if (departureDelay < arrivalDelay) {
throw new RuntimeException(
"locomotive id="
+ locomotive.id
+ ": arrival="
+ stationData.arrival.toString()
+ " does not fit with departure="
+ stationData.departure.toString()
+ ". ("
+ departureDelay
+ "<"
+ arrivalDelay
+ ") Bailing out.");
}
TransitRouteStop stop =
scheduleFactory.createTransitRouteStop(stopFacility, arrivalDelay, departureDelay);
stop.setAwaitDepartureTime(true);
transitRouteStops.add(stop);
}
if (transitRouteStops.size() > 1) {
// check if train type is given
if (trainTypes.getAttribute(locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_SPEED)
== null) {
throw new RuntimeException(
"locomotive id="
+ locomotive.id
+ ": type="
+ locomotive.type
+ " is not defined by the train type table. Bailing out.");
}
TransitLine line = scheduleFactory.createTransitLine(locomotive.id);
scenario.getTransitSchedule().addTransitLine(line);
TransitRoute route =
scheduleFactory.createTransitRoute(
line.getId(), null, transitRouteStops, TransportMode.pt);
line.addRoute(route);
Vehicle vehicle = vehiclesFactory.createVehicle(route.getId(), vehicleType);
((ScenarioImpl) scenario).getVehicles().addVehicle(vehicle);
departure.setVehicleId(vehicle.getId());
route.addDeparture(departure);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(), WagonSimConstants.TRAIN_TYPE, locomotive.type);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_SPEED,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_SPEED));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_WEIGHT,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_WEIGHT));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_LENGTH,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_LENGTH));
// the next day
vehicle = vehiclesFactory.createVehicle(new IdImpl(route.getId() + ".1"), vehicleType);
((ScenarioImpl) scenario).getVehicles().addVehicle(vehicle);
departure =
scheduleFactory.createDeparture(
vehicle.getId(), departure.getDepartureTime() + 24 * 3600);
departure.setVehicleId(vehicle.getId());
route.addDeparture(departure);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(), WagonSimConstants.TRAIN_TYPE, locomotive.type);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_SPEED,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_SPEED));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_WEIGHT,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_WEIGHT));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_LENGTH,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_LENGTH));
// the day after the next day
vehicle = vehiclesFactory.createVehicle(new IdImpl(route.getId() + ".2"), vehicleType);
((ScenarioImpl) scenario).getVehicles().addVehicle(vehicle);
departure =
scheduleFactory.createDeparture(
vehicle.getId(), departure.getDepartureTime() + 24 * 3600);
departure.setVehicleId(vehicle.getId());
route.addDeparture(departure);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(), WagonSimConstants.TRAIN_TYPE, locomotive.type);
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_SPEED,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_SPEED));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_WEIGHT,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_WEIGHT));
this.vehicleAttributes.putAttribute(
vehicle.getId().toString(),
WagonSimConstants.TRAIN_MAX_LENGTH,
(Double)
trainTypes.getAttribute(
locomotive.type.toString(), WagonSimConstants.TRAIN_MAX_LENGTH));
} else if (transitRouteStops.size() == 1) {
System.out.println(
"locomotive id="
+ locomotive.id
+ ": only one station given. Therefore, no transitLine created.");
} else {
System.out.println(
"locomotive id="
+ locomotive.id
+ ": no station is given. Therefore, no transitLine created.");
}
}
}
public void createGraph(final String filename, final TransitRoute route) {
HashMap<Id, Integer> stopIndex = new HashMap<Id, Integer>();
int idx = 0;
for (TransitRouteStop stop : route.getStops()) {
stopIndex.put(stop.getStopFacility().getId(), idx);
idx++;
}
HashSet<Id> vehicles = new HashSet<Id>();
for (Departure dep : route.getDepartures().values()) {
vehicles.add(dep.getVehicleId());
}
XYSeriesCollection dataset = new XYSeriesCollection();
int numSeries = 0;
double earliestTime = Double.POSITIVE_INFINITY;
double latestTime = Double.NEGATIVE_INFINITY;
for (Map.Entry<Id, List<Tuple<Id, Double>>> entry : this.positions.entrySet()) {
if (vehicles.contains(entry.getKey())) {
XYSeries series = new XYSeries("t", false, true);
for (Tuple<Id, Double> pos : entry.getValue()) {
Integer stopIdx = stopIndex.get(pos.getFirst());
if (stopIdx != null) {
double time = pos.getSecond().doubleValue();
series.add(stopIdx.intValue(), time);
if (time < earliestTime) {
earliestTime = time;
}
if (time > latestTime) {
latestTime = time;
}
}
}
dataset.addSeries(series);
numSeries++;
}
}
JFreeChart c =
ChartFactory.createXYLineChart(
"Route-Time Diagram, Route = " + route.getId(),
"stops",
"time",
dataset,
PlotOrientation.VERTICAL,
false, // legend?
false, // tooltips?
false // URLs?
);
c.setBackgroundPaint(new Color(1.0f, 1.0f, 1.0f, 1.0f));
XYPlot p = (XYPlot) c.getPlot();
p.getRangeAxis().setInverted(true);
p.getRangeAxis().setRange(earliestTime, latestTime);
XYItemRenderer renderer = p.getRenderer();
for (int i = 0; i < numSeries; i++) {
renderer.setSeriesPaint(i, Color.black);
}
try {
ChartUtilities.saveChartAsPNG(new File(filename), c, 1024, 768, null, true, 9);
} catch (IOException e) {
e.printStackTrace();
}
}