use of org.opentripplanner.routing.vertextype.BikeRentalStationVertex in project OpenTripPlanner by opentripplanner.
the class BikeRentalModule method buildGraph.
@Override
public void buildGraph(Graph graph, HashMap<Class<?>, Object> extra) {
LOG.info("Building bike rental stations from static source...");
BikeRentalStationService service = graph.getService(BikeRentalStationService.class, true);
if (!dataSource.update()) {
LOG.warn("No bike rental found from the data source.");
return;
}
Collection<BikeRentalStation> stations = dataSource.getStations();
for (BikeRentalStation station : stations) {
service.addBikeRentalStation(station);
BikeRentalStationVertex vertex = new BikeRentalStationVertex(graph, station);
new RentABikeOnEdge(vertex, vertex, station.networks);
if (station.allowDropoff)
new RentABikeOffEdge(vertex, vertex, station.networks);
}
LOG.info("Created " + stations.size() + " bike rental stations.");
}
use of org.opentripplanner.routing.vertextype.BikeRentalStationVertex in project OpenTripPlanner by opentripplanner.
the class TestBikeRental method testBasic.
public void testBasic() throws Exception {
// generate a very simple graph
Graph graph = new Graph();
StreetVertex v1 = new IntersectionVertex(graph, "v1", -77.0492, 38.856, "v1");
StreetVertex v2 = new IntersectionVertex(graph, "v2", -77.0492, 38.857, "v2");
StreetVertex v3 = new IntersectionVertex(graph, "v3", -77.0492, 38.858, "v3");
@SuppressWarnings("unused") Edge walk = new StreetEdge(v1, v2, GeometryUtils.makeLineString(-77.0492, 38.856, -77.0492, 38.857), "S. Crystal Dr", 87, StreetTraversalPermission.PEDESTRIAN, false);
@SuppressWarnings("unused") Edge mustBike = new StreetEdge(v2, v3, GeometryUtils.makeLineString(-77.0492, 38.857, -77.0492, 38.858), "S. Crystal Dr", 87, StreetTraversalPermission.BICYCLE, false);
AStar aStar = new AStar();
// it is impossible to get from v1 to v3 by walking
RoutingRequest options = new RoutingRequest(new TraverseModeSet("WALK,TRANSIT"));
options.setRoutingContext(graph, v1, v3);
ShortestPathTree tree = aStar.getShortestPathTree(options);
GraphPath path = tree.getPath(v3, false);
assertNull(path);
// or biking + walking (assuming walking bikes is disallowed)
options = new RoutingRequest(new TraverseModeSet("WALK,BICYCLE,TRANSIT"));
options.freezeTraverseMode();
options.setRoutingContext(graph, v1, v3);
tree = aStar.getShortestPathTree(options);
path = tree.getPath(v3, false);
assertNull(path);
// so we add a bike share
BikeRentalStation station = new BikeRentalStation();
station.id = "id";
station.name = new NonLocalizedString("station");
station.x = -77.049;
station.y = 36.856;
station.bikesAvailable = 5;
station.spacesAvailable = 5;
BikeRentalStationVertex stationVertex = new BikeRentalStationVertex(graph, station);
new StreetBikeRentalLink(stationVertex, v2);
new StreetBikeRentalLink(v2, stationVertex);
Set<String> networks = new HashSet<String>(Arrays.asList("default"));
new RentABikeOnEdge(stationVertex, stationVertex, networks);
new RentABikeOffEdge(stationVertex, stationVertex, networks);
// but we can't get off the bike at v3, so we still fail
options = new RoutingRequest(new TraverseModeSet("WALK,BICYCLE,TRANSIT"));
options.freezeTraverseMode();
options.setRoutingContext(graph, v1, v3);
tree = aStar.getShortestPathTree(options);
path = tree.getPath(v3, false);
// null is returned because the only state at the target is not final
assertNull(path);
BikeRentalStation station2 = new BikeRentalStation();
station2.id = "id2";
station2.name = new NonLocalizedString("station2");
station2.x = -77.049;
station2.y = 36.857;
station2.bikesAvailable = 5;
station2.spacesAvailable = 5;
BikeRentalStationVertex stationVertex2 = new BikeRentalStationVertex(graph, station2);
new StreetBikeRentalLink(stationVertex2, v3);
new StreetBikeRentalLink(v3, stationVertex2);
new RentABikeOnEdge(stationVertex2, stationVertex2, networks);
new RentABikeOffEdge(stationVertex2, stationVertex2, networks);
// now we succeed!
options = new RoutingRequest();
new QualifiedModeSet("BICYCLE_RENT,TRANSIT").applyToRoutingRequest(options);
options.setRoutingContext(graph, v1, v3);
tree = aStar.getShortestPathTree(options);
path = tree.getPath(v3, false);
assertNotNull(path);
}
use of org.opentripplanner.routing.vertextype.BikeRentalStationVertex in project OpenTripPlanner by opentripplanner.
the class TimeBasedBikeRentalFareService method getCost.
@Override
public Fare getCost(GraphPath path) {
int cost = 0;
long start = -1;
for (State state : path.states) {
if (state.getVertex() instanceof BikeRentalStationVertex && state.getBackState().getVertex() instanceof BikeRentalStationVertex) {
if (start == -1) {
start = state.getTimeSeconds();
} else {
int time_on_bike = (int) (state.getTimeSeconds() - start);
int ride_cost = -1;
for (P2<Integer> bracket : pricing_by_second) {
int time = bracket.first;
if (time_on_bike < time) {
ride_cost = bracket.second;
break;
}
}
if (ride_cost == -1) {
log.warn("Bike rental has no associated pricing (too long?) : " + time_on_bike + " seconds");
} else {
cost += ride_cost;
}
start = -1;
}
}
}
Fare fare = new Fare();
fare.addFare(FareType.regular, new WrappedCurrency(currency), cost);
return fare;
}
use of org.opentripplanner.routing.vertextype.BikeRentalStationVertex in project OpenTripPlanner by opentripplanner.
the class GraphPathToTripPlanConverterTest method buildPaths.
/**
* Build three GraphPath objects that can be used for testing for forward, backward and onboard.
* This method doesn't rely on any routing code.
* Leg 0: Walking towards the train station
* Leg 1: First train leg, interlined with leg 2
* Leg 2: Second train leg, interlined with leg 1
* Leg 3: Simple transfer from the train station to the ferry
* Leg 4: Ferry leg
* Leg 5: Walking towards the bike rental station
* Leg 6: Cycling on a rented bike
* Leg 7: Cycling on a rented bike, continued (to demonstrate a {@link LegSwitchingEdge})
* Leg 8: Leaving the bike rental station on foot
* @return An array containing the generated GraphPath objects: forward, then backward, onboard.
*/
private GraphPath[] buildPaths() {
// This set of requested traverse modes implies that bike rental is a possibility.
RoutingRequest options = new RoutingRequest("BICYCLE_RENT,TRANSIT");
String feedId = "FEED";
Graph graph = new Graph();
// Vertices for leg 0
ExitVertex v0 = new ExitVertex(graph, "Vertex 0", 0, 0, 0);
IntersectionVertex v2 = new IntersectionVertex(graph, "Vertex 2", 0, 0);
IntersectionVertex v4 = new IntersectionVertex(graph, "Vertex 4", 1, 1);
// Stops for legs 1, 2 and 4, plus initialization and storage in a list
Stop trainStopDepart = new Stop();
Stop trainStopDwell = new Stop();
Stop trainStopInterline = new Stop();
Stop trainStopArrive = new Stop();
Stop ferryStopDepart = new Stop();
Stop ferryStopArrive = new Stop();
trainStopDepart.setId(new AgencyAndId(feedId, "Depart"));
trainStopDepart.setName("Train stop depart");
trainStopDepart.setLon(1);
trainStopDepart.setLat(1);
trainStopDepart.setCode("Train depart code");
trainStopDepart.setPlatformCode("Train depart platform");
trainStopDepart.setZoneId("Train depart zone");
trainStopDwell.setId(new AgencyAndId(feedId, "Dwell"));
trainStopDwell.setName("Train stop dwell");
trainStopDwell.setLon(45);
trainStopDwell.setLat(23);
trainStopDwell.setCode("Train dwell code");
trainStopDwell.setPlatformCode("Train dwell platform");
trainStopDwell.setZoneId("Train dwell zone");
trainStopInterline.setId(new AgencyAndId(feedId, "Interline"));
trainStopInterline.setName("Train stop interline");
trainStopInterline.setLon(89);
trainStopInterline.setLat(45);
trainStopInterline.setCode("Train interline code");
trainStopInterline.setPlatformCode("Train interline platform");
trainStopInterline.setZoneId("Train interline zone");
trainStopArrive.setId(new AgencyAndId(feedId, "Arrive"));
trainStopArrive.setName("Train stop arrive");
trainStopArrive.setLon(133);
trainStopArrive.setLat(67);
trainStopArrive.setCode("Train arrive code");
trainStopArrive.setPlatformCode("Train arrive platform");
trainStopArrive.setZoneId("Train arrive zone");
ferryStopDepart.setId(new AgencyAndId(feedId, "Depart"));
ferryStopDepart.setName("Ferry stop depart");
ferryStopDepart.setLon(135);
ferryStopDepart.setLat(67);
ferryStopDepart.setCode("Ferry depart code");
ferryStopDepart.setPlatformCode("Ferry depart platform");
ferryStopDepart.setZoneId("Ferry depart zone");
ferryStopArrive.setId(new AgencyAndId(feedId, "Arrive"));
ferryStopArrive.setName("Ferry stop arrive");
ferryStopArrive.setLon(179);
ferryStopArrive.setLat(89);
ferryStopArrive.setCode("Ferry arrive code");
ferryStopArrive.setPlatformCode("Ferry arrive platform");
ferryStopArrive.setZoneId("Ferry arrive zone");
ArrayList<Stop> firstStops = new ArrayList<Stop>();
ArrayList<Stop> secondStops = new ArrayList<Stop>();
ArrayList<Stop> thirdStops = new ArrayList<Stop>();
firstStops.add(trainStopDepart);
firstStops.add(trainStopDwell);
firstStops.add(trainStopInterline);
secondStops.add(trainStopInterline);
secondStops.add(trainStopArrive);
thirdStops.add(ferryStopDepart);
thirdStops.add(ferryStopArrive);
// Agencies for legs 1, 2 and 4, plus initialization
Agency trainAgency = new Agency();
Agency ferryAgency = new Agency();
trainAgency.setId("Train");
trainAgency.setName("John Train");
trainAgency.setUrl("http://www.train.org/");
ferryAgency.setId("Ferry");
ferryAgency.setName("Brian Ferry");
ferryAgency.setUrl("http://www.ferry.org/");
// Routes for legs 1, 2 and 4, plus initialization
Route firstRoute = new Route();
Route secondRoute = new Route();
Route thirdRoute = new Route();
firstRoute.setId(new AgencyAndId(feedId, "A"));
firstRoute.setAgency(trainAgency);
firstRoute.setShortName("A");
firstRoute.setLongName("'A' Train");
firstRoute.setType(2);
firstRoute.setColor("White");
firstRoute.setTextColor("Black");
secondRoute.setId(new AgencyAndId(feedId, "B"));
secondRoute.setAgency(trainAgency);
secondRoute.setShortName("B");
secondRoute.setLongName("Another Train");
secondRoute.setType(2);
secondRoute.setColor("Cyan");
secondRoute.setTextColor("Yellow");
thirdRoute.setId(new AgencyAndId(feedId, "C"));
thirdRoute.setAgency(ferryAgency);
thirdRoute.setShortName("C");
thirdRoute.setLongName("Ferry Cross the Mersey");
thirdRoute.setType(4);
thirdRoute.setColor("Black");
thirdRoute.setTextColor("White");
// Trips for legs 1, 2 and 4, plus initialization
Trip firstTrip = new Trip();
Trip secondTrip = new Trip();
Trip thirdTrip = new Trip();
firstTrip.setId(new AgencyAndId(feedId, "A"));
firstTrip.setTripShortName("A");
firstTrip.setBlockId("Alock");
firstTrip.setRoute(firstRoute);
BikeAccess.setForTrip(firstTrip, BikeAccess.ALLOWED);
firstTrip.setTripHeadsign("Street Fighting Man");
secondTrip.setId(new AgencyAndId(feedId, "B"));
secondTrip.setTripShortName("B");
secondTrip.setBlockId("Block");
secondTrip.setRoute(secondRoute);
BikeAccess.setForTrip(secondTrip, BikeAccess.ALLOWED);
secondTrip.setTripHeadsign("No Expectations");
thirdTrip.setId(new AgencyAndId(feedId, "C"));
thirdTrip.setTripShortName("C");
thirdTrip.setBlockId("Clock");
thirdTrip.setRoute(thirdRoute);
BikeAccess.setForTrip(thirdTrip, BikeAccess.ALLOWED);
thirdTrip.setTripHeadsign("Handsome Molly");
// Scheduled stop times for legs 1, 2 and 4, plus initialization and storage in a list
StopTime trainStopDepartTime = new StopTime();
StopTime trainStopDwellTime = new StopTime();
StopTime trainStopInterlineFirstTime = new StopTime();
StopTime trainStopInterlineSecondTime = new StopTime();
StopTime trainStopArriveTime = new StopTime();
StopTime ferryStopDepartTime = new StopTime();
StopTime ferryStopArriveTime = new StopTime();
trainStopDepartTime.setTrip(firstTrip);
trainStopDepartTime.setStop(trainStopDepart);
trainStopDepartTime.setStopSequence(Integer.MIN_VALUE);
trainStopDepartTime.setDepartureTime(4);
trainStopDepartTime.setPickupType(3);
trainStopDwellTime.setTrip(firstTrip);
trainStopDwellTime.setStop(trainStopDwell);
trainStopDwellTime.setStopSequence(0);
trainStopDwellTime.setArrivalTime(8);
trainStopDwellTime.setDepartureTime(12);
trainStopInterlineFirstTime.setTrip(firstTrip);
trainStopInterlineFirstTime.setStop(trainStopInterline);
trainStopInterlineFirstTime.setStopSequence(Integer.MAX_VALUE);
trainStopInterlineFirstTime.setArrivalTime(16);
trainStopInterlineSecondTime.setTrip(secondTrip);
trainStopInterlineSecondTime.setStop(trainStopInterline);
trainStopInterlineSecondTime.setStopSequence(0);
trainStopInterlineSecondTime.setDepartureTime(20);
trainStopArriveTime.setTrip(secondTrip);
trainStopArriveTime.setStop(trainStopArrive);
trainStopArriveTime.setStopSequence(1);
trainStopArriveTime.setArrivalTime(24);
trainStopArriveTime.setDropOffType(2);
ferryStopDepartTime.setTrip(thirdTrip);
ferryStopDepartTime.setStop(ferryStopDepart);
ferryStopDepartTime.setStopSequence(-1);
ferryStopDepartTime.setDepartureTime(32);
ferryStopDepartTime.setPickupType(2);
ferryStopArriveTime.setTrip(thirdTrip);
ferryStopArriveTime.setStop(ferryStopArrive);
ferryStopArriveTime.setStopSequence(0);
ferryStopArriveTime.setArrivalTime(36);
ferryStopArriveTime.setDropOffType(3);
ArrayList<StopTime> firstStopTimes = new ArrayList<StopTime>();
ArrayList<StopTime> secondStopTimes = new ArrayList<StopTime>();
ArrayList<StopTime> thirdStopTimes = new ArrayList<StopTime>();
firstStopTimes.add(trainStopDepartTime);
firstStopTimes.add(trainStopDwellTime);
firstStopTimes.add(trainStopInterlineFirstTime);
secondStopTimes.add(trainStopInterlineSecondTime);
secondStopTimes.add(trainStopArriveTime);
thirdStopTimes.add(ferryStopDepartTime);
thirdStopTimes.add(ferryStopArriveTime);
// Various patterns that are required to construct a full graph path, plus initialization
StopPattern firstStopPattern = new StopPattern(firstStopTimes);
StopPattern secondStopPattern = new StopPattern(secondStopTimes);
StopPattern thirdStopPattern = new StopPattern(thirdStopTimes);
TripPattern firstTripPattern = new TripPattern(firstRoute, firstStopPattern);
TripPattern secondTripPattern = new TripPattern(secondRoute, secondStopPattern);
TripPattern thirdTripPattern = new TripPattern(thirdRoute, thirdStopPattern);
TripTimes firstTripTimes = new TripTimes(firstTrip, firstStopTimes, new Deduplicator());
TripTimes secondTripTimes = new TripTimes(secondTrip, secondStopTimes, new Deduplicator());
TripTimes thirdTripTimes = new TripTimes(thirdTrip, thirdStopTimes, new Deduplicator());
firstTripPattern.add(firstTripTimes);
secondTripPattern.add(secondTripTimes);
thirdTripPattern.add(thirdTripTimes);
// Vertices for legs 1, 2 and 3
TransitStop v6 = new TransitStop(graph, trainStopDepart);
TransitStopDepart v8 = new TransitStopDepart(graph, trainStopDepart, v6);
// To understand the stop indexes in the vertex constructors, look at firstStopTimes.add() etc. above
PatternDepartVertex v10 = new PatternDepartVertex(graph, firstTripPattern, 0);
PatternArriveVertex v12 = new PatternArriveVertex(graph, firstTripPattern, 1);
PatternDepartVertex v14 = new PatternDepartVertex(graph, firstTripPattern, 1);
PatternArriveVertex v16 = new PatternArriveVertex(graph, firstTripPattern, 2);
PatternDepartVertex v18 = new PatternDepartVertex(graph, secondTripPattern, 0);
PatternArriveVertex v20 = new PatternArriveVertex(graph, secondTripPattern, 1);
TransitStop v24 = new TransitStop(graph, trainStopArrive);
TransitStopArrive v22 = new TransitStopArrive(graph, trainStopArrive, v24);
// Vertices for legs 3 and 4
TransitStop v26 = new TransitStop(graph, ferryStopDepart);
TransitStopDepart v28 = new TransitStopDepart(graph, ferryStopDepart, v26);
PatternDepartVertex v30 = new PatternDepartVertex(graph, thirdTripPattern, 0);
PatternArriveVertex v32 = new PatternArriveVertex(graph, thirdTripPattern, 1);
TransitStop v36 = new TransitStop(graph, ferryStopArrive);
TransitStopArrive v34 = new TransitStopArrive(graph, ferryStopArrive, v36);
// Vertices for leg 5
IntersectionVertex v38 = new IntersectionVertex(graph, "Vertex 38", 179, 89);
IntersectionVertex v40 = new IntersectionVertex(graph, "Vertex 40", 180, 89);
IntersectionVertex v42 = new IntersectionVertex(graph, "Vertex 42", 180, 90);
// Bike rental stations for legs 5, 6 and 7, plus initialization
BikeRentalStation enterPickupStation = new BikeRentalStation();
BikeRentalStation exitPickupStation = new BikeRentalStation();
BikeRentalStation enterDropoffStation = new BikeRentalStation();
BikeRentalStation exitDropoffStation = new BikeRentalStation();
enterPickupStation.id = "Enter pickup";
enterPickupStation.name = new NonLocalizedString("Enter pickup station");
enterPickupStation.x = 180;
enterPickupStation.y = 90;
exitPickupStation.id = "Exit pickup";
exitPickupStation.name = new NonLocalizedString("Exit pickup station");
exitPickupStation.x = 180;
exitPickupStation.y = 90;
enterDropoffStation.id = "Enter dropoff";
enterDropoffStation.name = new NonLocalizedString("Enter dropoff station");
enterDropoffStation.x = 0;
enterDropoffStation.y = 90;
exitDropoffStation.id = "Exit dropoff";
exitDropoffStation.name = new NonLocalizedString("Exit dropoff station");
exitDropoffStation.x = 0;
exitDropoffStation.y = 90;
// Vertices for legs 5 and 6
BikeRentalStationVertex v44 = new BikeRentalStationVertex(graph, enterPickupStation);
BikeRentalStationVertex v46 = new BikeRentalStationVertex(graph, exitPickupStation);
IntersectionVertex v48 = new IntersectionVertex(graph, "Vertex 48", 180, 90);
IntersectionVertex v50 = new IntersectionVertex(graph, "Vertex 50", 90, 90);
// Vertices for leg 7
IntersectionVertex v52 = new IntersectionVertex(graph, "Vertex 52", 90, 90);
IntersectionVertex v54 = new IntersectionVertex(graph, "Vertex 54", 0, 90);
// Vertices for legs 7 and 8
BikeRentalStationVertex v56 = new BikeRentalStationVertex(graph, enterDropoffStation);
BikeRentalStationVertex v58 = new BikeRentalStationVertex(graph, exitDropoffStation);
StreetLocation v60 = new StreetLocation("Vertex 60", new Coordinate(0, 90), "Vertex 60");
// Vertex initialization that can't be done using the constructor
v0.setExitName("Ausfahrt");
v2.freeFlowing = (true);
v4.freeFlowing = (true);
v38.freeFlowing = (true);
v40.freeFlowing = (true);
v42.freeFlowing = (true);
v48.freeFlowing = (true);
v50.freeFlowing = (true);
v52.freeFlowing = (true);
v54.freeFlowing = (true);
// Elevation profiles for the street edges that will be created later
PackedCoordinateSequence elevation3 = new PackedCoordinateSequence.Double(new double[] { 0.0, 0.0, 3.0, 9.9 }, 2);
PackedCoordinateSequence elevation39 = new PackedCoordinateSequence.Double(new double[] { 0.0, 9.9, 2.1, 0.1 }, 2);
PackedCoordinateSequence elevation41 = new PackedCoordinateSequence.Double(new double[] { 0.0, 0.1, 1.9, 2.8 }, 2);
PackedCoordinateSequence elevation49 = new PackedCoordinateSequence.Double(new double[] { 0.0, 2.8, 2.0, 2.6 }, 2);
PackedCoordinateSequence elevation53 = new PackedCoordinateSequence.Double(new double[] { 0.0, 2.6, 1.0, 6.0 }, 2);
// Coordinate sequences and line strings for those same edges
PackedCoordinateSequence coordinates3 = new PackedCoordinateSequence.Double(new double[] { 0, 0, 1, 1 }, 2);
PackedCoordinateSequence coordinates25 = new PackedCoordinateSequence.Double(new double[] { 133, 67, 135, 67 }, 2);
PackedCoordinateSequence coordinates39 = new PackedCoordinateSequence.Double(new double[] { 179, 89, 180, 89 }, 2);
PackedCoordinateSequence coordinates41 = new PackedCoordinateSequence.Double(new double[] { 180, 89, 180, 90 }, 2);
PackedCoordinateSequence coordinates49 = new PackedCoordinateSequence.Double(new double[] { 180, 90, 90, 90 }, 2);
PackedCoordinateSequence coordinates53 = new PackedCoordinateSequence.Double(new double[] { 90, 90, 0, 90 }, 2);
GeometryFactory geometryFactory = new GeometryFactory();
LineString l3 = new LineString(coordinates3, geometryFactory);
LineString l25 = new LineString(coordinates25, geometryFactory);
LineString l39 = new LineString(coordinates39, geometryFactory);
LineString l41 = new LineString(coordinates41, geometryFactory);
LineString l49 = new LineString(coordinates49, geometryFactory);
LineString l53 = new LineString(coordinates53, geometryFactory);
// Edges for leg 0
FreeEdge e1 = new FreeEdge(v0, v2);
StreetWithElevationEdge e3 = new StreetWithElevationEdge(v2, v4, l3, "Edge 3", 3.0, StreetTraversalPermission.ALL, false);
// Edges for legs 1 and 2
StreetTransitLink e5 = new StreetTransitLink(v4, v6, false);
PreBoardEdge e7 = new PreBoardEdge(v6, v8);
TransitBoardAlight e9 = new TransitBoardAlight(v8, v10, 0, TraverseMode.RAIL);
PatternHop e11 = new PatternHop(v10, v12, trainStopDepart, trainStopDwell, 0);
PatternDwell e13 = new PatternDwell(v12, v14, 1, firstTripPattern);
PatternHop e15 = new PatternHop(v14, v16, trainStopDwell, trainStopInterline, 1);
PatternInterlineDwell e17 = new PatternInterlineDwell(v16, v18);
PatternHop e19 = new PatternHop(v18, v20, trainStopInterline, trainStopArrive, 0);
TransitBoardAlight e21 = new TransitBoardAlight(v20, v22, 1, TraverseMode.RAIL);
PreAlightEdge e23 = new PreAlightEdge(v22, v24);
// Edges for legs 3 and 4
SimpleTransfer e25 = new SimpleTransfer(v24, v26, 7, l25);
PreBoardEdge e27 = new PreBoardEdge(v26, v28);
TransitBoardAlight e29 = new TransitBoardAlight(v28, v30, 0, TraverseMode.FERRY);
PatternHop e31 = new PatternHop(v30, v32, ferryStopDepart, ferryStopArrive, 0);
TransitBoardAlight e33 = new TransitBoardAlight(v32, v34, 1, TraverseMode.FERRY);
PreAlightEdge e35 = new PreAlightEdge(v34, v36);
StreetTransitLink e37 = new StreetTransitLink(v36, v38, true);
// Edges for legs 5 and 6, where edges 39 and 41 have the same name to trigger stayOn = true
AreaEdge e39 = new AreaEdge(v38, v40, l39, "Edge 39 / 41", 2.1, StreetTraversalPermission.ALL, false, new AreaEdgeList());
StreetWithElevationEdge e41 = new StreetWithElevationEdge(v40, v42, l41, "Edge 39 / 41", 1.9, StreetTraversalPermission.ALL, false);
StreetBikeRentalLink e43 = new StreetBikeRentalLink(v42, v44);
RentABikeOnEdge e45 = new RentABikeOnEdge(v44, v46, Collections.singleton(""));
StreetBikeRentalLink e47 = new StreetBikeRentalLink(v46, v48);
StreetWithElevationEdge e49 = new StreetWithElevationEdge(v48, v50, l49, "Edge 49", 2.0, StreetTraversalPermission.ALL, false);
// Edges for legs 6, 7 and 8
LegSwitchingEdge e51 = new LegSwitchingEdge(v50, v52);
StreetEdge e53p = new StreetEdge(v52, v54, l53, "Edge 53", 1.0, StreetTraversalPermission.ALL, false);
PartialStreetEdge e53 = new PartialStreetEdge(e53p, v52, v54, l53, "Edge 53", 1.0);
StreetBikeRentalLink e55 = new StreetBikeRentalLink(v54, v56);
RentABikeOffEdge e57 = new RentABikeOffEdge(v56, v58, Collections.singleton(""));
StreetBikeRentalLink e59 = new StreetBikeRentalLink(v58, v60);
// Alert for testing GTFS-RT
AlertPatch alertPatch = new AlertPatch();
alertPatch.setTimePeriods(Collections.singletonList(new TimePeriod(0, Long.MAX_VALUE)));
alertPatch.setAlert(Alert.createSimpleAlerts(alertsExample));
// Edge initialization that can't be done using the constructor
e3.setElevationProfile(elevation3, false);
e17.add(firstTrip, secondTrip);
e39.setElevationProfile(elevation39, false);
e41.setElevationProfile(elevation41, false);
e41.setHasBogusName(true);
e49.setElevationProfile(elevation49, false);
e53.setElevationProfile(elevation53, false);
graph.streetNotesService.addStaticNote(e53p, Alert.createSimpleAlerts(alertsExample), StreetNotesService.ALWAYS_MATCHER);
// Add an extra edge to the graph in order to generate stayOn = true for one walk step.
new StreetEdge(v40, new IntersectionVertex(graph, "Extra vertex", 180, 88), new LineString(new PackedCoordinateSequence.Double(new double[] { 180, 89, 180, 88 }, 2), geometryFactory), "Extra edge", 1.9, StreetTraversalPermission.NONE, true);
// Various bookkeeping operations
graph.serviceCodes.put(firstTrip.getId(), 0);
graph.serviceCodes.put(secondTrip.getId(), 1);
graph.serviceCodes.put(thirdTrip.getId(), 2);
firstTripTimes.serviceCode = graph.serviceCodes.get(firstTrip.getId());
secondTripTimes.serviceCode = graph.serviceCodes.get(secondTrip.getId());
thirdTripTimes.serviceCode = graph.serviceCodes.get(thirdTrip.getId());
CalendarServiceData calendarServiceData = new CalendarServiceDataStub(graph.serviceCodes.keySet());
CalendarServiceImpl calendarServiceImpl = new CalendarServiceImpl(calendarServiceData);
calendarServiceData.putTimeZoneForAgencyId(feedId, timeZone);
calendarServiceData.putTimeZoneForAgencyId(feedId, timeZone);
FareServiceStub fareServiceStub = new FareServiceStub();
ServiceDate serviceDate = new ServiceDate(1970, 1, 1);
// Updates for leg 4, the ferry leg
TripDescriptor.Builder tripDescriptorBuilder = TripDescriptor.newBuilder();
tripDescriptorBuilder.setTripId("C");
StopTimeEvent.Builder ferryStopDepartTimeEventBuilder = StopTimeEvent.newBuilder();
StopTimeEvent.Builder ferryStopArriveTimeEventBuilder = StopTimeEvent.newBuilder();
ferryStopDepartTimeEventBuilder.setTime(40L);
ferryStopArriveTimeEventBuilder.setTime(43L);
StopTimeUpdate.Builder ferryStopDepartUpdateBuilder = StopTimeUpdate.newBuilder();
StopTimeUpdate.Builder ferryStopArriveUpdateBuilder = StopTimeUpdate.newBuilder();
ferryStopDepartUpdateBuilder.setStopSequence(-1);
ferryStopDepartUpdateBuilder.setDeparture(ferryStopDepartTimeEventBuilder);
ferryStopDepartUpdateBuilder.setArrival(ferryStopDepartTimeEventBuilder);
ferryStopDepartUpdateBuilder.setScheduleRelationship(ScheduleRelationship.SCHEDULED);
ferryStopArriveUpdateBuilder.setStopSequence(0);
ferryStopArriveUpdateBuilder.setDeparture(ferryStopArriveTimeEventBuilder);
ferryStopArriveUpdateBuilder.setArrival(ferryStopArriveTimeEventBuilder);
ferryStopArriveUpdateBuilder.setScheduleRelationship(ScheduleRelationship.SCHEDULED);
TripUpdate.Builder tripUpdateBuilder = TripUpdate.newBuilder();
tripUpdateBuilder.setTrip(tripDescriptorBuilder);
tripUpdateBuilder.addStopTimeUpdate(0, ferryStopDepartUpdateBuilder);
tripUpdateBuilder.addStopTimeUpdate(1, ferryStopArriveUpdateBuilder);
TripUpdate tripUpdate = tripUpdateBuilder.build();
// Create dummy TimetableSnapshot
TimetableSnapshot snapshot = new TimetableSnapshot();
// Mock TimetableSnapshotSource to return dummy TimetableSnapshot
TimetableSnapshotSource timetableSnapshotSource = mock(TimetableSnapshotSource.class);
when(timetableSnapshotSource.getTimetableSnapshot()).thenReturn(snapshot);
TripTimes updatedTripTimes = thirdTripPattern.scheduledTimetable.createUpdatedTripTimes(tripUpdate, timeZone, serviceDate);
timetableSnapshotSource.getTimetableSnapshot().update(feedId, thirdTripPattern, updatedTripTimes, serviceDate);
// Further graph initialization
graph.putService(CalendarServiceData.class, calendarServiceData);
graph.putService(FareService.class, fareServiceStub);
graph.addAgency(feedId, trainAgency);
graph.addAgency(feedId, ferryAgency);
graph.timetableSnapshotSource = (timetableSnapshotSource);
graph.addAlertPatch(e29, alertPatch);
// Routing context creation and initialization
ServiceDay serviceDay = new ServiceDay(graph, 0, calendarServiceImpl, feedId);
// Temporary graph objects for onboard depart tests
OnboardDepartVertex onboardDepartVertex = new OnboardDepartVertex("Onboard", 23.0, 12.0);
OnBoardDepartPatternHop onBoardDepartPatternHop = new OnBoardDepartPatternHop(onboardDepartVertex, v12, firstTripPattern.scheduledTimetable.getTripTimes(0), serviceDay, 0, 0.5);
// Traverse the path forward first
RoutingRequest forwardOptions = options.clone();
RoutingContext forwardContext = new RoutingContext(forwardOptions, graph, v0, v60);
forwardContext.serviceDays = new ArrayList<ServiceDay>(1);
forwardContext.serviceDays.add(serviceDay);
forwardOptions.rctx = forwardContext;
forwardOptions.dateTime = 0L;
forwardOptions.bikeRentalPickupTime = 4;
forwardOptions.bikeRentalDropoffTime = 2;
// Forward traversal of all edges
State s0Forward = new State(forwardOptions);
State s2Forward = e1.traverse(s0Forward);
State s4Forward = e3.traverse(s2Forward);
State s6Forward = e5.traverse(s4Forward);
State s8Forward = e7.traverse(s6Forward);
State s10Forward = e9.traverse(s8Forward);
State s12Forward = e11.traverse(s10Forward);
State s14Forward = e13.traverse(s12Forward);
State s16Forward = e15.traverse(s14Forward);
State s18Forward = e17.traverse(s16Forward);
State s20Forward = e19.traverse(s18Forward);
State s22Forward = e21.traverse(s20Forward);
State s24Forward = e23.traverse(s22Forward);
State s26Forward = e25.traverse(s24Forward);
State s28Forward = e27.traverse(s26Forward);
State s30Forward = e29.traverse(s28Forward);
State s32Forward = e31.traverse(s30Forward);
State s34Forward = e33.traverse(s32Forward);
State s36Forward = e35.traverse(s34Forward);
State s38Forward = e37.traverse(s36Forward);
State s40Forward = e39.traverse(s38Forward);
State s42Forward = e41.traverse(s40Forward);
State s44Forward = e43.traverse(s42Forward);
State s46Forward = e45.traverse(s44Forward);
State s48Forward = e47.traverse(s46Forward);
State s50Forward = e49.traverse(s48Forward);
State s52Forward = e51.traverse(s50Forward);
State s54Forward = e53.traverse(s52Forward);
State s56Forward = e55.traverse(s54Forward);
State s58Forward = e57.traverse(s56Forward);
State s60Forward = e59.traverse(s58Forward);
// Also traverse the path backward
RoutingRequest backwardOptions = options.clone();
RoutingContext backwardContext = new RoutingContext(backwardOptions, graph, v60, v0);
backwardContext.serviceDays = new ArrayList<ServiceDay>(1);
backwardContext.serviceDays.add(serviceDay);
backwardOptions.rctx = backwardContext;
backwardOptions.dateTime = 60L;
backwardOptions.bikeRentalPickupTime = 4;
backwardOptions.bikeRentalDropoffTime = 2;
backwardOptions.setArriveBy(true);
// Backward traversal of all edges
State s60Backward = new State(backwardOptions);
State s58Backward = e59.traverse(s60Backward);
State s56Backward = e57.traverse(s58Backward);
State s54Backward = e55.traverse(s56Backward);
State s52Backward = e53.traverse(s54Backward);
State s50Backward = e51.traverse(s52Backward);
State s48Backward = e49.traverse(s50Backward);
State s46Backward = e47.traverse(s48Backward);
State s44Backward = e45.traverse(s46Backward);
State s42Backward = e43.traverse(s44Backward);
State s40Backward = e41.traverse(s42Backward);
State s38Backward = e39.traverse(s40Backward);
State s36Backward = e37.traverse(s38Backward);
State s34Backward = e35.traverse(s36Backward);
State s32Backward = e33.traverse(s34Backward);
State s30Backward = e31.traverse(s32Backward);
State s28Backward = e29.traverse(s30Backward);
State s26Backward = e27.traverse(s28Backward);
State s24Backward = e25.traverse(s26Backward);
State s22Backward = e23.traverse(s24Backward);
State s20Backward = e21.traverse(s22Backward);
State s18Backward = e19.traverse(s20Backward);
State s16Backward = e17.traverse(s18Backward);
State s14Backward = e15.traverse(s16Backward);
State s12Backward = e13.traverse(s14Backward);
State s10Backward = e11.traverse(s12Backward);
State s8Backward = e9.traverse(s10Backward);
State s6Backward = e7.traverse(s8Backward);
State s4Backward = e5.traverse(s6Backward);
State s2Backward = e3.traverse(s4Backward);
State s0Backward = e1.traverse(s2Backward);
// Perform a forward traversal starting onboard
RoutingRequest onboardOptions = options.clone();
RoutingContext onboardContext = new RoutingContext(onboardOptions, graph, onboardDepartVertex, v60);
onboardContext.serviceDays = new ArrayList<ServiceDay>(1);
onboardContext.serviceDays.add(serviceDay);
onboardOptions.rctx = onboardContext;
onboardOptions.dateTime = 6L;
onboardOptions.bikeRentalPickupTime = 4;
onboardOptions.bikeRentalDropoffTime = 2;
// Onboard traversal of all edges
State s10Onboard = new State(onboardOptions);
State s12Onboard = onBoardDepartPatternHop.traverse(s10Onboard);
State s14Onboard = e13.traverse(s12Onboard);
State s16Onboard = e15.traverse(s14Onboard);
State s18Onboard = e17.traverse(s16Onboard);
State s20Onboard = e19.traverse(s18Onboard);
State s22Onboard = e21.traverse(s20Onboard);
State s24Onboard = e23.traverse(s22Onboard);
State s26Onboard = e25.traverse(s24Onboard);
State s28Onboard = e27.traverse(s26Onboard);
State s30Onboard = e29.traverse(s28Onboard);
State s32Onboard = e31.traverse(s30Onboard);
State s34Onboard = e33.traverse(s32Onboard);
State s36Onboard = e35.traverse(s34Onboard);
State s38Onboard = e37.traverse(s36Onboard);
State s40Onboard = e39.traverse(s38Onboard);
State s42Onboard = e41.traverse(s40Onboard);
State s44Onboard = e43.traverse(s42Onboard);
State s46Onboard = e45.traverse(s44Onboard);
State s48Onboard = e47.traverse(s46Onboard);
State s50Onboard = e49.traverse(s48Onboard);
State s52Onboard = e51.traverse(s50Onboard);
State s54Onboard = e53.traverse(s52Onboard);
State s56Onboard = e55.traverse(s54Onboard);
State s58Onboard = e57.traverse(s56Onboard);
State s60Onboard = e59.traverse(s58Onboard);
return new GraphPath[] { new GraphPath(s60Forward, false), new GraphPath(s0Backward, false), new GraphPath(s60Onboard, false) };
}
use of org.opentripplanner.routing.vertextype.BikeRentalStationVertex in project OpenTripPlanner by opentripplanner.
the class RentABikeAbstractEdge method traverseDropoff.
protected State traverseDropoff(State s0) {
RoutingRequest options = s0.getOptions();
/*
* To dropoff a bike, we need to have rented one.
*/
if (!s0.isBikeRenting() || !hasCompatibleNetworks(networks, s0.getBikeRentalNetworks()))
return null;
BikeRentalStationVertex pickup = (BikeRentalStationVertex) tov;
if (options.useBikeRentalAvailabilityInformation && pickup.getSpacesAvailable() == 0) {
return null;
}
StateEditor s1e = s0.edit(this);
s1e.incrementWeight(options.arriveBy ? options.bikeRentalPickupCost : options.bikeRentalDropoffCost);
s1e.incrementTimeInSeconds(options.arriveBy ? options.bikeRentalPickupTime : options.bikeRentalDropoffTime);
s1e.setBikeRenting(false);
s1e.setBackMode(TraverseMode.WALK);
State s1 = s1e.makeState();
return s1;
}
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