AbstractGTUGeneratorOld.java
package org.opentrafficsim.road.gtu.generator;
import java.io.Serializable;
import java.rmi.RemoteException;
import java.util.ArrayList;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import javax.media.j3d.BoundingBox;
import javax.media.j3d.Bounds;
import javax.vecmath.Point3d;
import org.djunits.unit.DurationUnit;
import org.djunits.unit.LengthUnit;
import org.djunits.unit.SpeedUnit;
import org.djunits.value.vdouble.scalar.Acceleration;
import org.djunits.value.vdouble.scalar.Duration;
import org.djunits.value.vdouble.scalar.Length;
import org.djunits.value.vdouble.scalar.Speed;
import org.djunits.value.vdouble.scalar.Time;
import org.djutils.event.EventProducer;
import org.opentrafficsim.core.distributions.Generator;
import org.opentrafficsim.core.dsol.OTSSimulatorInterface;
import org.opentrafficsim.core.geometry.OTSGeometryException;
import org.opentrafficsim.core.gtu.GTUDirectionality;
import org.opentrafficsim.core.gtu.GTUException;
import org.opentrafficsim.core.gtu.GTUType;
import org.opentrafficsim.core.gtu.RelativePosition;
import org.opentrafficsim.core.network.Network;
import org.opentrafficsim.core.network.NetworkException;
import org.opentrafficsim.core.network.route.Route;
import org.opentrafficsim.core.units.distributions.ContinuousDistDoubleScalar;
import org.opentrafficsim.road.gtu.lane.LaneBasedGTU;
import org.opentrafficsim.road.gtu.lane.LaneBasedIndividualGTU;
import org.opentrafficsim.road.gtu.lane.LaneBasedIndividualGTU.LaneBasedIndividualCarBuilder;
import org.opentrafficsim.road.gtu.lane.perception.headway.Headway;
import org.opentrafficsim.road.gtu.lane.perception.headway.HeadwayDistance;
import org.opentrafficsim.road.gtu.lane.perception.headway.HeadwayGTUSimple;
import org.opentrafficsim.road.gtu.lane.tactical.following.GTUFollowingModelOld;
import org.opentrafficsim.road.gtu.lane.tactical.following.IDMPlusOld;
import org.opentrafficsim.road.gtu.strategical.LaneBasedStrategicalPlanner;
import org.opentrafficsim.road.gtu.strategical.LaneBasedStrategicalPlannerFactory;
import org.opentrafficsim.road.network.OTSRoadNetwork;
import org.opentrafficsim.road.network.lane.DirectedLanePosition;
import org.opentrafficsim.road.network.lane.Lane;
import nl.tudelft.simulation.dsol.SimRuntimeException;
import nl.tudelft.simulation.dsol.simulators.DEVSSimulatorInterface;
import nl.tudelft.simulation.language.d3.DirectedPoint;
/**
* Common code for LaneBasedGTU generators that may have to postpone putting a GTU on the road due to congestion growing into
* the generator. <br>
* Generally, these generators will discover that there is not enough room AFTER having decided what kind (particular length) of
* GTU will be constructed next. When this happens, the generator must remember the properties of the GTU, but postpone actual
* generation until there is enough room.
* <p>
* Copyright (c) 2013-2020 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved. <br>
* BSD-style license. See <a href="http://opentrafficsim.org/docs/license.html">OpenTrafficSim License</a>.
* <p>
* @version $Revision: 1401 $, $LastChangedDate: 2015-09-14 01:33:02 +0200 (Mon, 14 Sep 2015) $, by $Author: averbraeck $,
* initial version Feb 2, 2015 <br>
* @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
* @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
*/
public abstract class AbstractGTUGeneratorOld extends EventProducer implements Serializable, GtuGeneratorQueue
{
/** */
private static final long serialVersionUID = 20150202L;
/** The generator name. Will be used for generated GTUs as Name:# where # is the id of the GTU when ID is a String. */
private final String name;
/** The type of GTU to generate. */
private final GTUType gtuType;
/** The GTU class to instantiate. */
private final Class<?> gtuClass;
/** Distribution of the initial speed of the GTU. */
private final ContinuousDistDoubleScalar.Rel<Speed, SpeedUnit> initialSpeedDist;
/** Distribution of the interarrival time. */
private final ContinuousDistDoubleScalar.Rel<Duration, DurationUnit> interarrivelTimeDist;
/** Generated number of GTUs. */
private long generatedGTUs = 0;
/** Maximum number of GTUs to generate. */
private final long maxGTUs;
/** Start time of generation (delayed start). */
private final Time startTime;
/** End time of generation. */
private final Time endTime;
/** Lane to generate the GTU on -- at the end for now. */
private final Lane lane;
/** Position on the lane, relative to the design line of the link. */
private final Length position;
/** The direction in which the GTU has to be generated; DIR_PLUS or DIR_MINUS. */
private final GTUDirectionality direction;
/** The lane-based strategical planner factory to use. */
private final LaneBasedStrategicalPlannerFactory<? extends LaneBasedStrategicalPlanner> strategicalPlannerFactory;
/** Route generator. */
private final Generator<Route> routeGenerator;
/** The network. */
private final OTSRoadNetwork network;
/** Car builder list. */
private List<LaneBasedIndividualCarBuilder> carBuilderList = new ArrayList<>();
/** Number of generated GTUs. */
@SuppressWarnings("checkstyle:visibilitymodifier")
protected long numberGTUs = 0;
/** Bounds for animation. */
private final Bounds bounds;
/**
* @param name String; the name of the generator
* @param simulator DEVSSimulatorInterface.TimeDoubleUnit; the simulator to schedule the start of the generation
* @param gtuType GTUType; the type of GTU to generate
* @param gtuClass Class<?>; the GTU class to instantiate
* @param initialSpeedDist ContinuousDistDoubleScalar.Rel<Speed,SpeedUnit>; distribution of the initial speed of the
* GTU
* @param interarrivelTimeDist ContinuousDistDoubleScalar.Rel<Duration,DurationUnit>; distribution of the interarrival
* time
* @param maxGTUs long; maximum number of GTUs to generate
* @param startTime Time; start time of generation (delayed start)
* @param endTime Time; end time of generation
* @param lane Lane; the lane to generate the GTU on
* @param position Length; position on the lane, relative to the design line of the link
* @param direction GTUDirectionality; the direction on the lane in which the GTU has to be generated (DIR_PLUS, or
* DIR_MINUS)
* @param strategicalPlannerFactory LaneBasedStrategicalPlannerFactory<? extends LaneBasedStrategicalPlanner>; the
* lane-based strategical planner factory to use
* @param routeGenerator Generator<Route>; route generator
* @param network OTSRoadNetwork; the network to register the generated GTUs into
* @throws SimRuntimeException when simulation scheduling fails
*/
@SuppressWarnings("checkstyle:parameternumber")
public AbstractGTUGeneratorOld(final String name, final DEVSSimulatorInterface.TimeDoubleUnit simulator,
final GTUType gtuType, final Class<?> gtuClass,
final ContinuousDistDoubleScalar.Rel<Speed, SpeedUnit> initialSpeedDist,
final ContinuousDistDoubleScalar.Rel<Duration, DurationUnit> interarrivelTimeDist, final long maxGTUs,
final Time startTime, final Time endTime, final Lane lane, final Length position, final GTUDirectionality direction,
final LaneBasedStrategicalPlannerFactory<? extends LaneBasedStrategicalPlanner> strategicalPlannerFactory,
final Generator<Route> routeGenerator, final OTSRoadNetwork network) throws SimRuntimeException
{
this.name = name;
this.gtuType = gtuType;
this.gtuClass = gtuClass;
this.initialSpeedDist = initialSpeedDist;
this.interarrivelTimeDist = interarrivelTimeDist;
this.maxGTUs = maxGTUs;
this.startTime = startTime;
this.endTime = endTime;
this.lane = lane;
this.position = position;
this.direction = direction;
this.strategicalPlannerFactory = strategicalPlannerFactory;
this.routeGenerator = routeGenerator;
this.network = network;
DirectedPoint p;
try
{
p = this.getLocation();
this.bounds = new BoundingBox(new Point3d(p.x - 1, p.y - 1, 0.0), new Point3d(p.x + 1, p.y + 1, 0.0));
}
catch (RemoteException exception)
{
throw new RuntimeException("Bounds for generator cannot be determined.");
}
simulator.scheduleEventAbs(startTime, this, this, "generate", null);
// notify the potential animation of the existence of a GTUGenerator
fireTimedEvent(Network.GENERATOR_ADD_EVENT, name, simulator.getSimulatorTime());
fireTimedEvent(Network.ANIMATION_GENERATOR_ADD_EVENT, this, simulator.getSimulatorTime());
}
/**
* Generate a GTU.
* @throws Exception when something in the generation fails.
*/
protected final void generate() throws Exception
{
// check if we are after the end time
if (getSimulator().getSimulatorTime().gt(this.endTime))
{
return;
}
// check if we have generated sufficient GTUs
if (this.generatedGTUs >= this.maxGTUs)
{
return;
}
// create a unique id
this.numberGTUs++;
String id = this.name + ":" + this.numberGTUs;
// create the GTU
if (LaneBasedIndividualGTU.class.isAssignableFrom(getGtuClass()))
{
LaneBasedIndividualCarBuilder carBuilder = new LaneBasedIndividualCarBuilder();
carBuilder.setId(id);
carBuilder.setGtuType(getGtuType());
Length carLength = getLengthDist().draw();
carBuilder.setLength(carLength);
carBuilder.setFront(carLength.times(0.75));
carBuilder.setWidth(getWidthDist().draw());
carBuilder.setMaximumSpeed(getMaximumSpeedDist().draw());
carBuilder.setInitialSpeed(getInitialSpeedDist().draw());
carBuilder.setSimulator(getSimulator());
Set<DirectedLanePosition> initialLongitudinalPositions = new LinkedHashSet<>(1);
initialLongitudinalPositions.add(new DirectedLanePosition(this.lane, this.position, this.direction));
carBuilder.setInitialLongitudinalPositions(initialLongitudinalPositions);
carBuilder.setNetwork(this.network);
carBuilder.setMaximumAcceleration(Acceleration.instantiateSI(3.0));
carBuilder.setMaximumDeceleration(Acceleration.instantiateSI(-8.0));
this.generatedGTUs++;
if (enoughSpace(carBuilder))
{
carBuilder.build(this.strategicalPlannerFactory, this.routeGenerator.draw(), null, null);
}
else
{
// put the car in the queue and take it from there -- if the headway is enough, build the car.
this.carBuilderList.add(carBuilder);
// System.out.println("GTUGenerator - backlog = " + this.carBuilderList.size());
if (this.carBuilderList.size() == 1)
{
// first entry in list - start the watch thread
getSimulator().scheduleEventRel(new Duration(0.1, DurationUnit.SECOND), this, this, "checkCarBuilderList",
null);
}
}
}
else
{
throw new GTUException("GTU class " + getGtuClass().getName() + ": cannot instantiate, no builder.");
}
// reschedule next arrival
Time nextTime = getSimulator().getSimulatorTime().plus(this.interarrivelTimeDist.draw());
if (nextTime.le(this.endTime))
{
getSimulator().scheduleEventAbs(nextTime, this, this, "generate", null);
}
}
/**
* Check if the car to be built is not overlapping with another GTU on the same lane, and if it has enough headway to be
* generated safely.
* @param carBuilder LaneBasedIndividualCarBuilder; the car to be generated
* @return true if car can be safely built, false otherwise.
* @throws NetworkException when the speed limit of the lane is not known
* @throws GTUException if GTU does not have a position on the lane where it is registered
*/
protected final boolean enoughSpace(final LaneBasedIndividualCarBuilder carBuilder) throws NetworkException, GTUException
{
DirectedLanePosition directedLanePosition = carBuilder.getInitialLongitudinalPositions().iterator().next();
Lane generatorLane = directedLanePosition.getLane();
double genPosSI = directedLanePosition.getPosition().getSI();
// GTUDirectionality direction = directedLanePosition.getGtuDirection();
// XXX different from this.direction?
double lengthSI = generatorLane.getLength().getSI();
double frontNew = (genPosSI + carBuilder.getLength().getSI()) / lengthSI;
double rearNew = genPosSI / lengthSI;
// test for overlap with other GTUs
for (LaneBasedGTU gtu : generatorLane.getGtuList())
{
double frontGTU = gtu.fractionalPosition(generatorLane, gtu.getFront());
double rearGTU = gtu.fractionalPosition(generatorLane, gtu.getRear());
if ((frontNew >= rearGTU && frontNew <= frontGTU) || (rearNew >= rearGTU && rearNew <= frontGTU)
|| (frontGTU >= rearNew && frontGTU <= frontNew) || (rearGTU >= rearNew && rearGTU <= frontNew))
{
// System.out.println(getSimulator().getSimulatorTime() + ", generator overlap with GTU " + gtu);
return false;
}
}
// test for sufficient headway
GTUFollowingModelOld followingModel = new IDMPlusOld();
// carBuilder.getStrategicalPlanner().getBehavioralCharacteristics().getGTUFollowingModel();
Headway headway = headway(new Length(250.0, LengthUnit.METER), generatorLane);
Length minimumHeadway = new Length(0.0, LengthUnit.METER);
if (headway.getObjectType().isGtu())
{
minimumHeadway = followingModel.minimumHeadway(carBuilder.getInitialSpeed(), headway.getSpeed(),
new Length(1.0, LengthUnit.CENTIMETER), new Length(250.0, LengthUnit.METER),
generatorLane.getSpeedLimit(carBuilder.getGtuType()), carBuilder.getMaximumSpeed());
// WS: changed mininumHeadway to headway.getDistance()
double acc = followingModel.computeAcceleration(carBuilder.getInitialSpeed(), carBuilder.getMaximumSpeed(),
headway.getSpeed(), headway.getDistance(), carBuilder.getMaximumSpeed()).getSI();
if (acc < 0)
{
// System.err.println(getSimulator().getSimulatorTime() + ", generator headway for GTU " + headway.getId()
// + ", distance " + headway.getDistance().si + " m, max " + minimumHeadway + ", has to brake with a="
// + acc + " m/s^2");
return false;
}
}
// System.out.println(getSimulator().getSimulatorTime() + ", generator headway for GTU " + headwayGTU.getOtherGTU()
// + ", distance " + headwayGTU.getDistance().si + " m, max " + minimumHeadway);
return headway.getDistance().ge(minimumHeadway);
}
/**
* Calculate the minimum headway, possibly on subsequent lanes, in DIR_PLUS direction.
* @param theLane Lane; the lane where we are looking right now
* @param lanePositionSI double; from which position on this lane do we start measuring? This is the current position of the
* GTU when we measure in the lane where the original GTU is positioned, and 0.0 for each subsequent lane
* @param cumDistanceSI double; the distance we have already covered searching on previous lanes
* @param maxDistanceSI the maximum distance to look for in SI units; stays the same in subsequent calls
* @param when Time; the current or future time for which to calculate the headway
* @return the headway in SI units when we have found the GTU, or a null GTU with a distance of Double.MAX_VALUE meters when
* no other GTU could not be found within maxDistanceSI meters
* @throws GTUException when there is a problem with the geometry of the network
*/
private Headway headwayRecursiveForwardSI(final Lane theLane, final double lanePositionSI, final double cumDistanceSI,
final double maxDistanceSI, final Time when) throws GTUException
{
// TODO: THIS METHOD IS ALSO IN PERCEPTION -- DON'T DUPLICATE; ALSO, THIS VERSION IS WRONG.
LaneBasedGTU otherGTU = theLane.getGtuAhead(new Length(lanePositionSI, LengthUnit.METER), GTUDirectionality.DIR_PLUS,
RelativePosition.REAR, when);
if (otherGTU != null)
{
double distanceM = cumDistanceSI + otherGTU.position(theLane, otherGTU.getRear(), when).getSI() - lanePositionSI;
if (distanceM > 0 && distanceM <= maxDistanceSI)
{
return new HeadwayGTUSimple(otherGTU.getId(), otherGTU.getGTUType(), new Length(distanceM, LengthUnit.SI),
otherGTU.getLength(), otherGTU.getWidth(), otherGTU.getSpeed(), otherGTU.getAcceleration(), null);
}
return new HeadwayDistance(Double.MAX_VALUE);
}
// Continue search on successor lanes.
if (cumDistanceSI + theLane.getLength().getSI() - lanePositionSI < maxDistanceSI)
{
// is there a successor link?
if (theLane.nextLanes(this.gtuType).size() > 0)
{
Headway foundMaxGTUDistanceSI = new HeadwayDistance(Double.MAX_VALUE);
for (Lane nextLane : theLane.nextLanes(this.gtuType).keySet())
{
// TODO Only follow links on the Route if there is a "real" Route
// if (routeNavigator.getRoute() == null || routeNavigator.getRoute().size() == 0 /* XXXXX STUB dummy route
// */
// || routeNavigator.getRoute().containsLink((Link) theLane.getParentLink()))
{
double traveledDistanceSI = cumDistanceSI + theLane.getLength().getSI() - lanePositionSI;
Headway closest = headwayRecursiveForwardSI(nextLane, 0.0, traveledDistanceSI, maxDistanceSI, when);
if (closest.getDistance().si < maxDistanceSI
&& closest.getDistance().si < foundMaxGTUDistanceSI.getDistance().si)
{
foundMaxGTUDistanceSI = closest;
}
}
}
return foundMaxGTUDistanceSI;
}
}
// No other GTU was not on one of the current lanes or their successors.
return new HeadwayDistance(Double.MAX_VALUE);
}
/**
* Calculate the minimum headway, possibly on subsequent lanes, in DIR_MINUS direction.
* @param theLane Lane; the lane where we are looking right now
* @param lanePositionSI double; from which position on this lane do we start measuring? This is the current position of the
* GTU when we measure in the lane where the original GTU is positioned, and 0.0 for each subsequent lane
* @param cumDistanceSI double; the distance we have already covered searching on previous lanes
* @param maxDistanceSI the maximum distance to look for in SI units; stays the same in subsequent calls
* @param when Time; the current or future time for which to calculate the headway
* @return the headway in SI units when we have found the GTU, or a null GTU with a distance of Double.MAX_VALUE meters when
* no other GTU could not be found within maxDistanceSI meters
* @throws GTUException when there is a problem with the geometry of the network
*/
private Headway headwayRecursiveBackwardSI(final Lane theLane, final double lanePositionSI, final double cumDistanceSI,
final double maxDistanceSI, final Time when) throws GTUException
{
// TODO: THIS METHOD IS ALSO IN PERCEPTION -- DON'T DUPLICATE; ALSO, THIS VERSION IS WRONG.
LaneBasedGTU otherGTU = theLane.getGtuBehind(new Length(lanePositionSI, LengthUnit.METER), GTUDirectionality.DIR_PLUS,
RelativePosition.FRONT, when);
if (otherGTU != null)
{
double distanceM = cumDistanceSI + otherGTU.position(theLane, otherGTU.getFront(), when).getSI() - lanePositionSI;
if (distanceM > 0 && distanceM <= maxDistanceSI)
{
return new HeadwayGTUSimple(otherGTU.getId(), otherGTU.getGTUType(), new Length(distanceM, LengthUnit.SI),
otherGTU.getLength(), otherGTU.getWidth(), otherGTU.getSpeed(), otherGTU.getAcceleration(), null);
}
return new HeadwayDistance(Double.MAX_VALUE);
}
// Continue search on all predecessor lanes.
if (cumDistanceSI + theLane.getLength().getSI() - lanePositionSI < maxDistanceSI)
{
// is there a predecessor link?
if (theLane.prevLanes(this.gtuType).size() > 0)
{
Headway foundMaxGTUDistanceSI = new HeadwayDistance(Double.MAX_VALUE);
for (Lane prevLane : theLane.prevLanes(this.gtuType).keySet())
{
// TODO Only follow links on the Route if there is a "real" Route
// if (routeNavigator.getRoute() == null || routeNavigator.getRoute().size() == 0 /* XXXXX STUB dummy route
// */
// || routeNavigator.getRoute().containsLink((Link) theLane.getParentLink()))
{
double traveledDistanceSI = cumDistanceSI + theLane.getLength().getSI() - lanePositionSI;
Headway closest = headwayRecursiveBackwardSI(prevLane, 0.0, traveledDistanceSI, maxDistanceSI, when);
if (closest.getDistance().si < maxDistanceSI
&& closest.getDistance().si < foundMaxGTUDistanceSI.getDistance().si)
{
foundMaxGTUDistanceSI = closest;
}
}
}
return foundMaxGTUDistanceSI;
}
}
// No other GTU was not on one of the current lanes or their successors.
return new HeadwayDistance(Double.MAX_VALUE);
}
/**
* Find the first GTU starting on the specified lane following the specified route.
* @param maxDistanceSI double; the maximum distance to look for in SI units
* @param generatorLane Lane; the lane on which the the search for a leader starts
* @return the nearest GTU and the net headway to this GTU in SI units when we have found the GTU, or a null GTU with a
* distance of Double.MAX_VALUE meters when no other GTU could not be found within maxDistanceSI meters
* @throws GTUException when there is a problem with the geometry of the network
*/
private Headway headwayGTUSIForward(final double maxDistanceSI, final Lane generatorLane) throws GTUException
{
Time when = getSimulator().getSimulatorTime();
Headway foundMaxGTUDistanceSI = new HeadwayDistance(Double.MAX_VALUE);
// search for the closest GTU on all current lanes we are registered on.
Headway closest;
if (this.direction.equals(GTUDirectionality.DIR_PLUS))
{
closest = headwayRecursiveForwardSI(this.lane, 0.0, 0.0, maxDistanceSI, when);
}
else
{
closest = headwayRecursiveBackwardSI(this.lane, generatorLane.getLength().getSI(), 0.0, maxDistanceSI, when);
}
if (closest.getDistance().si < maxDistanceSI && closest.getDistance().si < foundMaxGTUDistanceSI.getDistance().si)
{
foundMaxGTUDistanceSI = closest;
}
return foundMaxGTUDistanceSI;
}
/**
* Check the available headway for GTU that is about to be constructed.
* @param maxDistance Length; the maximum distance to look for a leader
* @param generatorLane Lane; the lane on which the GTU is generated
* @return HeadwayGTU; the available headway and the GTU at that headway
* @throws GTUException on network inconsistency
*/
public final Headway headway(final Length maxDistance, final Lane generatorLane) throws GTUException
{
return headwayGTUSIForward(maxDistance.getSI(), generatorLane);
}
/**
* Check if car can be generated.
* @throws Exception on any problem
*/
protected final void checkCarBuilderList() throws Exception
{
if (!this.carBuilderList.isEmpty())
{
LaneBasedIndividualCarBuilder carBuilder = this.carBuilderList.get(0);
if (enoughSpace(carBuilder))
{
this.carBuilderList.remove(0);
carBuilder.build(this.strategicalPlannerFactory, this.routeGenerator.draw(), null, null);
}
}
// only reschedule if list not empty
if (!this.carBuilderList.isEmpty())
{
getSimulator().scheduleEventRel(new Duration(0.1, DurationUnit.SECOND), this, this, "checkCarBuilderList", null);
}
}
/** @return simulator. */
public abstract OTSSimulatorInterface getSimulator();
/** @return lengthDist. */
public abstract ContinuousDistDoubleScalar.Rel<Length, LengthUnit> getLengthDist();
/** @return widthDist. */
public abstract ContinuousDistDoubleScalar.Rel<Length, LengthUnit> getWidthDist();
/** @return maximumSpeedDist. */
public abstract ContinuousDistDoubleScalar.Rel<Speed, SpeedUnit> getMaximumSpeedDist();
/**
* @return name.
*/
public final String getName()
{
return this.name;
}
/**
* @return gtuType.
*/
public final GTUType getGtuType()
{
return this.gtuType;
}
/**
* @return gtuClass.
*/
public final Class<?> getGtuClass()
{
return this.gtuClass;
}
/**
* @return initialSpeedDist.
*/
public final ContinuousDistDoubleScalar.Rel<Speed, SpeedUnit> getInitialSpeedDist()
{
return this.initialSpeedDist;
}
/**
* @return interarrivelTimeDist.
*/
public final ContinuousDistDoubleScalar.Rel<Duration, DurationUnit> getInterarrivelTimeDist()
{
return this.interarrivelTimeDist;
}
/**
* @return maxGTUs.
*/
public final long getMaxGTUs()
{
return this.maxGTUs;
}
/**
* @return startTime.
*/
public final Time getStartTime()
{
return this.startTime;
}
/**
* @return endTime.
*/
public final Time getEndTime()
{
return this.endTime;
}
/**
* @return strategicalPlanner
*/
public final LaneBasedStrategicalPlannerFactory<? extends LaneBasedStrategicalPlanner> getStrategicalPlannerFactory()
{
return this.strategicalPlannerFactory;
}
/** {@inheritDoc} */
@Override
public DirectedPoint getLocation() throws RemoteException
{
try
{
return this.lane.getCenterLine().getLocation(this.position);
}
catch (OTSGeometryException exception)
{
return this.lane.getLocation();
}
}
/** {@inheritDoc} */
@Override
public Bounds getBounds() throws RemoteException
{
return this.bounds;
}
/** {@inheritDoc} */
@Override
public Map<DirectedPoint, Integer> getQueueLengths()
{
Map<DirectedPoint, Integer> map = new LinkedHashMap<>();
try
{
map.put(getLocation(), this.carBuilderList.size());
}
catch (RemoteException exception)
{
throw new RuntimeException("Locartion for generator queue cannot be determined.");
}
return map;
}
}