The following document contains the results of PMD's CPD 5.3.5.
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 413 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 434 |
private Speed speedLimit = new Speed(100, KM_PER_HOUR);
/**
* @return List<Lane*gt;; the set of lanes for the specified index
*/
public List<Lane> getPath()
{
return new ArrayList<>(this.path);
}
/** {@inheritDoc} */
@Override
public final void constructModel(final SimulatorInterface<Time, Duration, OTSSimTimeDouble> theSimulator)
throws SimRuntimeException, RemoteException
{
this.simulator = (OTSDEVSSimulatorInterface) theSimulator;
try
{
OTSNode from = new OTSNode(this.network, "From", new OTSPoint3D(getMinimumDistance().getSI(), 0, 0));
OTSNode to = new OTSNode(this.network, "To", new OTSPoint3D(getMaximumDistance().getSI(), 0, 0));
OTSNode end = new OTSNode(this.network, "End", new OTSPoint3D(getMaximumDistance().getSI() + 50.0, 0, 0));
Set<GTUType> compatibility = new HashSet<>();
compatibility.add(this.gtuType);
LaneType laneType = new LaneType("CarLane", compatibility);
this.lane = LaneFactory.makeLane(this.network, "Lane", from, to, null, laneType, this.speedLimit, this.simulator,
LongitudinalDirectionality.DIR_PLUS);
this.path.add(this.lane);
CrossSectionLink endLink =
LaneFactory.makeLink(this.network, "endLink", to, end, null, LongitudinalDirectionality.DIR_PLUS, simulator);
// No overtaking, single lane
Lane sinkLane = new Lane(endLink, "sinkLane", this.lane.getLateralCenterPosition(1.0),
this.lane.getLateralCenterPosition(1.0), this.lane.getWidth(1.0), this.lane.getWidth(1.0), laneType,
LongitudinalDirectionality.DIR_PLUS, this.speedLimit, new OvertakingConditions.None());
new SinkSensor(sinkLane, new Length(10.0, METER), this.simulator);
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof SelectionProperty)
{
SelectionProperty sp = (SelectionProperty) ap;
if ("CarFollowingModel".equals(sp.getKey()))
{
carFollowingModelName = sp.getValue();
}
}
else if (ap instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) ap;
String modelName = ap.getKey();
if (modelName.equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
}
else if (ap instanceof CompoundProperty)
{
CompoundProperty cp = (CompoundProperty) ap;
if (ap.getKey().equals("OutputGraphs"))
{
continue; // Output settings are handled elsewhere
}
if (ap.getKey().contains("IDM"))
{
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 313 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 302 |
for (Property<?> p : this.fundamentalDiagramProperties)
{
if (p instanceof SelectionProperty)
{
SelectionProperty sp = (SelectionProperty) p;
if ("CarFollowingModel".equals(sp.getKey()))
{
String modelName = sp.getValue();
if (modelName.equals("IDM"))
{
this.carFollowingModelCars = new IDMOld(new Acceleration(1, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
this.carFollowingModelTrucks = new IDMOld(new Acceleration(0.5, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
}
else if (modelName.equals("IDM+"))
{
this.carFollowingModelCars = new IDMPlusOld(new Acceleration(1, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
this.carFollowingModelTrucks = new IDMPlusOld(new Acceleration(0.5, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
}
else
{
throw new Error("Car following model " + modelName + " not implemented");
}
}
else
{
throw new Error("Unhandled SelectionProperty " + p.getKey());
}
}
else if (p instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) p;
String modelName = p.getKey();
if (modelName.equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
else
{
throw new Error("Unhandled ProbabilityDistributionProperty " + p.getKey());
}
}
else
{
throw new Error("Unhandled property: " + p);
}
}
// 1500 [veh / hour] == 2.4s headway
this.headway = new Duration(3600.0 / 1500.0, SECOND);
try
{
// Schedule creation of the first car (this will re-schedule itself one headway later, etc.).
this.simulator.scheduleEventAbs(new Time(0.0, SECOND), this, this, "generateCar", null);
// Create a block at t = 5 minutes
this.simulator.scheduleEventAbs(new Time(300, SECOND), this, this, "createBlock", null);
// Remove the block at t = 7 minutes
this.simulator.scheduleEventAbs(new Time(420, SECOND), this, this, "removeBlock", null);
// Schedule regular updates of the graph
for (int t = 1; t <= 1800; t++)
{
this.simulator.scheduleEventAbs(new Time(t - 0.001, SECOND), this, this, "drawGraphs", null); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 318 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 326 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 307 |
if ("CarFollowingModel".equals(sp.getKey()))
{
String modelName = sp.getValue();
if (modelName.equals("IDM"))
{
this.carFollowingModelCars = new IDMOld(new Acceleration(1, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
this.carFollowingModelTrucks = new IDMOld(new Acceleration(0.5, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
}
else if (modelName.equals("IDM+"))
{
this.carFollowingModelCars = new IDMPlusOld(new Acceleration(1, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
this.carFollowingModelTrucks = new IDMPlusOld(new Acceleration(0.5, METER_PER_SECOND_2),
new Acceleration(1.5, METER_PER_SECOND_2), new Length(2, METER), new Duration(1, SECOND),
1d);
}
else
{
throw new Error("Car following model " + modelName + " not implemented");
}
}
else
{
throw new Error("Unhandled SelectionProperty " + p.getKey());
}
}
else if (p instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) p;
String modelName = p.getKey();
if (modelName.equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
else
{
throw new Error("Unhandled ProbabilityDistributionProperty " + p.getKey());
}
}
else
{
throw new Error("Unhandled property: " + p);
}
}
// 1500 [veh / hour] == 2.4s headway
this.headway = new Duration(3600.0 / 1500.0, SECOND);
try
{
// Schedule creation of the first car (this will re-schedule itself one headway later, etc.).
this.simulator.scheduleEventAbs(new Time(0.0, SECOND), this, this, "generateCar", null);
// Create a block at t = 5 minutes
this.simulator.scheduleEventAbs(new Time(300, SECOND), this, this, "createBlock", null); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 192 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 189 |
this.model = new SequentialModel(this.savedUserModifiedProperties, colorer);
return this.model;
}
/**
* @return an info pane to be added to the tabbed pane.
*/
protected final JComponent makeInfoPane()
{
// Make the info tab
String helpSource = "/" + StraightModel.class.getPackage().getName().replace('.', '/') + "/IDMPlus.html";
URL page = StraightModel.class.getResource(helpSource);
if (page != null)
{
try
{
HTMLPanel htmlPanel = new HTMLPanel(page);
return new JScrollPane(htmlPanel);
}
catch (IOException exception)
{
exception.printStackTrace();
}
}
return new JPanel();
}
/** {@inheritDoc} */
@Override
protected final void addTabs(final SimpleSimulatorInterface simulator) throws OTSSimulationException, PropertyException
{
// Make the tab with the plots
Property<?> output = new CompoundProperty("", "", "", this.properties, false, 0).findByKey("OutputGraphs");
if (null == output)
{
throw new Error("Cannot find output properties");
}
ArrayList<BooleanProperty> graphs = new ArrayList<>();
if (output instanceof CompoundProperty)
{
CompoundProperty outputProperties = (CompoundProperty) output;
for (Property<?> ap : outputProperties.getValue())
{
if (ap instanceof BooleanProperty)
{
BooleanProperty bp = (BooleanProperty) ap;
if (bp.getValue())
{
graphs.add(bp);
}
}
}
}
else
{
throw new Error("output properties should be compound");
}
int graphCount = graphs.size();
int columns = (int) Math.ceil(Math.sqrt(graphCount));
int rows = 0 == columns ? 0 : (int) Math.ceil(graphCount * 1.0 / columns);
TablePanel charts = new TablePanel(columns, rows);
for (int i = 0; i < graphCount; i++)
{
String graphName = graphs.get(i).getKey();
Container container = null;
LaneBasedGTUSampler graph;
if (graphName.contains("Trajectories")) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 141 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 158 |
Straight straight = new Straight();
List<Property<?>> localProperties = straight.getProperties();
try
{
localProperties.add(new ProbabilityDistributionProperty("TrafficComposition", "Traffic composition",
"<html>Mix of passenger cars and trucks</html>", new String[] { "passenger car", "truck" },
new Double[] { 0.8, 0.2 }, false, 10));
}
catch (PropertyException exception)
{
exception.printStackTrace();
}
localProperties.add(new SelectionProperty("CarFollowingModel", "Car following model",
"<html>The car following model determines "
+ "the acceleration that a vehicle will make taking into account "
+ "nearby vehicles, infrastructural restrictions (e.g. speed limit, "
+ "curvature of the road) capabilities of the vehicle and personality "
+ "of the driver.</html>",
new String[] { "IDM", "IDM+" }, 1, false, 1));
localProperties.add(IDMPropertySet.makeIDMPropertySet("IDMCar", "Car",
new Acceleration(1.0, METER_PER_SECOND_2), new Acceleration(1.5, METER_PER_SECOND_2),
new Length(2.0, METER), new Duration(1.0, SECOND), 2));
localProperties.add(IDMPropertySet.makeIDMPropertySet("IDMTruck", "Truck",
new Acceleration(0.5, METER_PER_SECOND_2), new Acceleration(1.25, METER_PER_SECOND_2),
new Length(2.0, METER), new Duration(1.0, SECOND), 3));
straight.buildAnimator(new Time(0.0, SECOND), new Duration(0.0, SECOND), new Duration(3600.0, SECOND),
localProperties, null, true);
straight.panel.getTabbedPane().addTab("info", straight.makeInfoPane());
}
catch (SimRuntimeException | NamingException | OTSSimulationException | PropertyException exception)
{
exception.printStackTrace();
}
}
});
}
/** {@inheritDoc} */
@Override
protected final void addAnimationToggles()
{
AnimationToggles.setTextAnimationTogglesStandard(this);
}
/** {@inheritDoc} */
@Override
protected final OTSModelInterface makeModel(final GTUColorer colorer)
{
this.model = new StraightModel(this.savedUserModifiedProperties, colorer); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 203 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 216 |
URL page = StraightModel.class.getResource(helpSource);
if (page != null)
{
try
{
HTMLPanel htmlPanel = new HTMLPanel(page);
return new JScrollPane(htmlPanel);
}
catch (IOException exception)
{
exception.printStackTrace();
}
}
return new JPanel();
}
/** {@inheritDoc} */
@Override
protected final void addTabs(final SimpleSimulatorInterface simulator) throws OTSSimulationException, PropertyException
{
// Make the tab with the plots
Property<?> output = new CompoundProperty("", "", "", this.properties, false, 0).findByKey("OutputGraphs");
if (null == output)
{
throw new Error("Cannot find output properties");
}
ArrayList<BooleanProperty> graphs = new ArrayList<>();
if (output instanceof CompoundProperty)
{
CompoundProperty outputProperties = (CompoundProperty) output;
for (Property<?> ap : outputProperties.getValue())
{
if (ap instanceof BooleanProperty)
{
BooleanProperty bp = (BooleanProperty) ap;
if (bp.getValue())
{
graphs.add(bp);
}
}
}
}
else
{
throw new Error("output properties should be compound");
}
int graphCount = graphs.size();
int columns = (int) Math.ceil(Math.sqrt(graphCount));
int rows = 0 == columns ? 0 : (int) Math.ceil(graphCount * 1.0 / columns);
TablePanel charts = new TablePanel(columns, rows);
for (int i = 0; i < graphCount; i++)
{
String graphName = graphs.get(i).getKey();
Container container = null;
LaneBasedGTUSampler graph;
if (graphName.contains("Trajectories"))
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 200 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 216 |
URL page = StraightModel.class.getResource(helpSource);
if (page != null)
{
try
{
HTMLPanel htmlPanel = new HTMLPanel(page);
return new JScrollPane(htmlPanel);
}
catch (IOException exception)
{
exception.printStackTrace();
}
}
return new JPanel();
}
/** {@inheritDoc} */
@Override
protected final void addTabs(final SimpleSimulatorInterface simulator) throws OTSSimulationException, PropertyException
{
// Make the tab with the plots
Property<?> output = new CompoundProperty("", "", "", this.properties, false, 0).findByKey("OutputGraphs");
if (null == output)
{
throw new Error("Cannot find output properties");
}
ArrayList<BooleanProperty> graphs = new ArrayList<>();
if (output instanceof CompoundProperty)
{
CompoundProperty outputProperties = (CompoundProperty) output;
for (Property<?> ap : outputProperties.getValue())
{
if (ap instanceof BooleanProperty)
{
BooleanProperty bp = (BooleanProperty) ap;
if (bp.getValue())
{
graphs.add(bp);
}
}
}
}
else
{
throw new Error("output properties should be compound");
}
int graphCount = graphs.size();
int columns = (int) Math.ceil(Math.sqrt(graphCount));
int rows = 0 == columns ? 0 : (int) Math.ceil(graphCount * 1.0 / columns);
TablePanel charts = new TablePanel(columns, rows);
for (int i = 0; i < graphCount; i++)
{
String graphName = graphs.get(i).getKey();
Container container = null;
LaneBasedGTUSampler graph;
if (graphName.contains("TrajectoryPlot")) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 514 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 536 |
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
/*
* System.out.println("Created " + carFollowingModelName + " for " + p.getKey());
* System.out.println("a: " + a); System.out.println("b: " + b); System.out.println("s0: " + s0);
* System.out.println("tSafe: " + tSafe);
*/
}
}
}
// 1500 [veh / hour] == 2.4s headway
this.headway = new Duration(3600.0 / 1500.0, SECOND);
// Schedule creation of the first car (it will re-schedule itself one headway later, etc.).
this.simulator.scheduleEventAbs(new Time(0.0, SECOND), this, this, "generateCar", null);
// Create a block at t = 5 minutes
this.simulator.scheduleEventAbs(new Time(300, SECOND), this, this, "createBlock", null);
// Remove the block at t = 7 minutes
this.simulator.scheduleEventAbs(new Time(420, SECOND), this, this, "removeBlock", null);
// Schedule regular updates of the graphs
for (int t = 1; t <= 1800; t++)
{
this.simulator.scheduleEventAbs(new Time(t - 0.001, SECOND), this, this, "drawGraphs", null);
}
}
catch (SimRuntimeException | NamingException | NetworkException | OTSGeometryException | PropertyException exception)
{
exception.printStackTrace();
}
}
/**
* Notify the contour plots that the underlying data has changed.
*/
protected final void drawGraphs()
{
for (LaneBasedGTUSampler plot : this.plots)
{
plot.reGraph();
}
}
/**
* Set up the block.
*/
protected final void createBlock()
{
Length initialPosition = new Length(4000, METER);
Set<DirectedLanePosition> initialPositions = new LinkedHashSet<>(1);
try
{
initialPositions.add(new DirectedLanePosition(this.lane, initialPosition, GTUDirectionality.DIR_PLUS));
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
this.block = new LaneBasedIndividualGTU("999999", this.gtuType, new Length(4, METER), new Length(1.8, METER), | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 463 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 392 |
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{
this.carFollowingModelTrucks = gtuFollowingModel;
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
}
}
}
// Get lane change model
cfmp = propertyContainer.findByKey("LaneChanging");
if (null == cfmp)
{
throw new Error("Cannot find \"Lane changing\" property");
}
if (cfmp instanceof SelectionProperty)
{
String laneChangeModelName = ((SelectionProperty) cfmp).getValue();
if ("Egoistic".equals(laneChangeModelName))
{
this.laneChangeModel = new Egoistic();
}
else if ("Altruistic".equals(laneChangeModelName))
{
this.laneChangeModel = new Altruistic();
}
else
{
throw new Error("Lane changing " + laneChangeModelName + " not implemented");
}
}
else
{
throw new Error("\"Lane changing\" property has wrong type");
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 290 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 281 |
OTSNode from = new OTSNode(this.network, "From", new OTSPoint3D(getMinimumDistance().getSI(), 0, 0));
OTSNode to = new OTSNode(this.network, "To", new OTSPoint3D(getMaximumDistance().getSI(), 0, 0));
OTSNode end = new OTSNode(this.network, "End", new OTSPoint3D(getMaximumDistance().getSI() + 50.0, 0, 0));
Set<GTUType> compatibility = new HashSet<>();
compatibility.add(this.gtuType);
LaneType laneType = new LaneType("CarLane", compatibility);
this.lane = LaneFactory.makeLane(this.network, "Lane", from, to, null, laneType, this.speedLimit,
this.simulator, LongitudinalDirectionality.DIR_PLUS);
CrossSectionLink endLink = LaneFactory.makeLink(this.network, "endLink", to, end, null,
LongitudinalDirectionality.DIR_PLUS, simulator);
// No overtaking, single lane
Lane sinkLane = new Lane(endLink, "sinkLane", this.lane.getLateralCenterPosition(1.0),
this.lane.getLateralCenterPosition(1.0), this.lane.getWidth(1.0), this.lane.getWidth(1.0), laneType,
LongitudinalDirectionality.DIR_PLUS, this.speedLimit, new OvertakingConditions.None());
new SinkSensor(sinkLane, new Length(10.0, METER), this.simulator);
}
catch (NamingException | NetworkException | OTSGeometryException exception) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\lanechange\LaneChangeGraph.java | 488 |
| org\opentrafficsim\demo\lanechange\SuitabilityGraph.java | 340 |
public final int addSeries(final String seriesName)
{
this.xValues.add(new ArrayList<Double>());
this.yValues.add(new ArrayList<Double>());
this.seriesKeys.add(seriesName);
return this.xValues.size() - 1;
}
/**
* Add an XY pair to the data.
* @param seriesKey int; key to the data series
* @param x double; x value of the pair
* @param y double; y value of the pair
*/
public final void addXYPair(final int seriesKey, final double x, final double y)
{
this.xValues.get(seriesKey).add(x);
this.yValues.get(seriesKey).add(y);
}
/** {@inheritDoc} */
@Override
public final int getSeriesCount()
{
return this.seriesKeys.size();
}
/** {@inheritDoc} */
@Override
public final Comparable<?> getSeriesKey(final int series)
{
return this.seriesKeys.get(series);
}
/** {@inheritDoc} */
@Override
public final int indexOf(@SuppressWarnings("rawtypes") final Comparable seriesKey)
{
return this.seriesKeys.indexOf(seriesKey);
}
/** {@inheritDoc} */
@Override
public final void addChangeListener(final DatasetChangeListener listener)
{
this.listenerList.add(DatasetChangeListener.class, listener);
}
/** {@inheritDoc} */
@Override
public final void removeChangeListener(final DatasetChangeListener listener)
{
this.listenerList.remove(DatasetChangeListener.class, listener);
}
/** {@inheritDoc} */
@Override
public final DatasetGroup getGroup()
{
return this.datasetGroup;
}
/** {@inheritDoc} */
@Override
public final void setGroup(final DatasetGroup group)
{
this.datasetGroup = group;
}
/** {@inheritDoc} */
@Override
public final DomainOrder getDomainOrder() | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\trafficcontrol\TrafCODDemo.java | 216 |
| org\opentrafficsim\demo\trafficcontrol\TrafCODDemo2.java | 230 |
return TrafCODDemo.this.trafCOD.getSimulator();
}
/** {@inheritDoc} */
@Override
public final OTSNetwork getNetwork()
{
return this.network;
}
/** {@inheritDoc} */
@Override
public void notify(final EventInterface event) throws RemoteException
{
EventType type = event.getType();
Object[] payload = (Object[]) event.getContent();
if (TrafficController.TRAFFICCONTROL_CONTROLLER_EVALUATING.equals(type))
{
// System.out.println("Evalution starts at " + getSimulator().getSimulatorTime().getTime());
return;
}
else if (TrafficController.TRAFFICCONTROL_CONFLICT_GROUP_CHANGED.equals(type))
{
System.out.println("Conflict group changed from " + ((String) payload[1]) + " to " + ((String) payload[2]));
}
else if (TrafficController.TRAFFICCONTROL_TRACED_VARIABLE_UPDATED.equals(type))
{
System.out.println(String.format("Variable changed %s <- %d %s", payload[1], payload[4], payload[5]));
}
else if (TrafficController.TRAFFICCONTROL_CONTROLLER_WARNING.equals(type))
{
System.out.println("Warning " + payload[1]);
}
else
{
System.out.print("TrafCODDemo received event of type " + event.getType() + ", payload [");
String separator = "";
for (Object o : payload)
{
System.out.print(separator + o);
separator = ",";
}
System.out.println("]");
}
}
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\conflict\TJunctionDemo.java | 127 |
| org\opentrafficsim\demo\conflict\TurboRoundaboutDemo.java | 135 |
}
catch (Exception exception)
{
exception.printStackTrace();
}
}
/**
* Changes color of traffic light.
* @param trafficLight traffic light
* @throws SimRuntimeException scheduling error
*/
private void changePhase(final SimpleTrafficLight trafficLight) throws SimRuntimeException
{
switch (trafficLight.getTrafficLightColor())
{
case RED:
{
trafficLight.setTrafficLightColor(TrafficLightColor.GREEN);
this.simulator.scheduleEventRel(new Duration(30.0, TimeUnit.SECOND), this, this, "changePhase",
new Object[] { trafficLight });
break;
}
case YELLOW:
{
trafficLight.setTrafficLightColor(TrafficLightColor.RED);
this.simulator.scheduleEventRel(new Duration(56.0, TimeUnit.SECOND), this, this, "changePhase",
new Object[] { trafficLight });
break;
}
case GREEN:
{
trafficLight.setTrafficLightColor(TrafficLightColor.YELLOW);
this.simulator.scheduleEventRel(new Duration(4.0, TimeUnit.SECOND), this, this, "changePhase",
new Object[] { trafficLight });
break;
}
default:
{
//
}
}
}
/** {@inheritDoc} */
@Override
public SimulatorInterface<Time, Duration, OTSSimTimeDouble> getSimulator() throws RemoteException
{
return this.simulator;
}
/** {@inheritDoc} */
@Override
public OTSNetwork getNetwork()
{
return this.network;
}
}
/**
* Main program.
* @param args String[]; the command line arguments (not used)
* @throws SimRuntimeException should never happen
*/
public static void main(final String[] args) throws SimRuntimeException
{
SwingUtilities.invokeLater(new Runnable()
{
@Override
public void run()
{
try
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 514 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 476 |
if (ap.getKey().equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
}
else if (ap instanceof CompoundProperty)
{
CompoundProperty cp = (CompoundProperty) ap;
if (ap.getKey().equals("OutputGraphs"))
{
continue; // Output settings are handled elsewhere
}
if (ap.getKey().contains("IDM"))
{
// System.out.println("Car following model name appears to be " + ap.getKey());
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{
this.carFollowingModelTrucks = gtuFollowingModel;
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
}
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 532 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 507 |
if ("MOBIL/IDM".equals(tacticalPlannerName))
{
this.strategicalPlannerGeneratorCars = new LaneBasedStrategicalRoutePlannerFactory(
new LaneBasedCFLCTacticalPlannerFactory(this.carFollowingModelCars, this.laneChangeModel));
this.strategicalPlannerGeneratorTrucks =
new LaneBasedStrategicalRoutePlannerFactory(new LaneBasedCFLCTacticalPlannerFactory(
this.carFollowingModelTrucks, this.laneChangeModel));
}
else if ("DIRECTED/IDM".equals(tacticalPlannerName))
{
this.strategicalPlannerGeneratorCars = new LaneBasedStrategicalRoutePlannerFactory(
new LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(this.carFollowingModelCars));
this.strategicalPlannerGeneratorTrucks = new LaneBasedStrategicalRoutePlannerFactory(
new LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(
this.carFollowingModelTrucks));
}
else if ("LMRS".equals(tacticalPlannerName))
{
// provide default parameters with the car-following model
BehavioralCharacteristics defaultBehavioralCFCharacteristics = new BehavioralCharacteristics();
defaultBehavioralCFCharacteristics.setDefaultParameters(AbstractIDM.class);
this.strategicalPlannerGeneratorCars = new LaneBasedStrategicalRoutePlannerFactory(
new LMRSFactory(new IDMPlusFactory(), defaultBehavioralCFCharacteristics));
this.strategicalPlannerGeneratorTrucks = new LaneBasedStrategicalRoutePlannerFactory(
new LMRSFactory(new IDMPlusFactory(), defaultBehavioralCFCharacteristics));
}
else if ("Toledo".equals(tacticalPlannerName))
{
this.strategicalPlannerGeneratorCars =
new LaneBasedStrategicalRoutePlannerFactory(new ToledoFactory());
this.strategicalPlannerGeneratorTrucks =
new LaneBasedStrategicalRoutePlannerFactory(new ToledoFactory());
}
else
{
throw new Error("Don't know how to create a " + tacticalPlannerName + " tactical planner");
}
}
}
else if (ap instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) ap; | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 401 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 409 |
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS));
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
// LaneBasedBehavioralCharacteristics drivingCharacteristics =
// new LaneBasedBehavioralCharacteristics(this.carFollowingModelCars, this.laneChangeModel);
this.block = new LaneBasedIndividualGTU("999999", this.gtuType, new Length(4, METER), new Length(1.8, METER),
new Speed(0.0, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(this.carFollowingModelCars, this.block), this.block);
this.block.initWithAnimation(strategicalPlanner, initialPositions, new Speed(0.0, KM_PER_HOUR),
DefaultCarAnimation.class, this.gtuColorer);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
}
/**
* Remove the block.
*/
protected final void removeBlock()
{
this.block.destroy();
this.block = null;
}
/**
* Generate cars at a fixed rate (implemented by re-scheduling this method).
*/
protected final void generateCar()
{
boolean generateTruck = this.randomGenerator.nextDouble() > this.carProbability;
Length initialPosition = new Length(0, METER);
Speed initialSpeed = new Speed(100, KM_PER_HOUR);
Set<DirectedLanePosition> initialPositions = new LinkedHashSet<>(1);
try
{
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS)); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 603 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 419 |
initialPositions.add(new DirectedLanePosition(this.lane, initialPosition, GTUDirectionality.DIR_PLUS));
Length vehicleLength = new Length(generateTruck ? 15 : 4, METER);
GTUFollowingModelOld gtuFollowingModel = generateTruck ? this.carFollowingModelTrucks : this.carFollowingModelCars;
if (null == gtuFollowingModel)
{
throw new Error("gtuFollowingModel is null");
}
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
LaneBasedIndividualGTU gtu = new LaneBasedIndividualGTU("" + (++this.carsCreated), this.gtuType, vehicleLength,
new Length(1.8, METER), new Speed(200, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(gtuFollowingModel, gtu), gtu);
gtu.initWithAnimation(strategicalPlanner, initialPositions, initialSpeed, DefaultCarAnimation.class,
this.gtuColorer);
this.simulator.scheduleEventRel(this.headway, this, this, "generateCar", null);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
}
/** {@inheritDoc} */
@Override
public final SimulatorInterface<Time, Duration, OTSSimTimeDouble> getSimulator() throws RemoteException
{
return this.simulator;
}
/** {@inheritDoc} */
@Override
public OTSNetwork getNetwork()
{
return this.network;
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 514 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 499 |
if (ap.getKey().equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
}
else if (ap instanceof CompoundProperty)
{
CompoundProperty cp = (CompoundProperty) ap;
if (ap.getKey().equals("OutputGraphs"))
{
continue; // Output settings are handled elsewhere
}
if (ap.getKey().contains("IDM"))
{
// System.out.println("Car following model name appears to be " + ap.getKey());
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 107 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 104 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 121 |
public SequentialLanes() throws PropertyException
{
List<Property<?>> outputProperties = new ArrayList<>();
outputProperties.add(new BooleanProperty("DensityPlot", "Density", "Density contour plot", true, false, 0));
outputProperties.add(new BooleanProperty("FlowPlot", "Flow", "Flow contour plot", true, false, 1));
outputProperties.add(new BooleanProperty("SpeedPlot", "Speed", "Speed contour plot", true, false, 2));
outputProperties
.add(new BooleanProperty("AccelerationPlot", "Acceleration", "Acceleration contour plot", true, false, 3));
outputProperties.add(
new BooleanProperty("TrajectoryPlot", "Trajectories", "Trajectory (time/distance) diagram", true, false, 4));
this.properties.add(new CompoundProperty("OutputGraphs", "Output graphs", "Select the graphical output",
outputProperties, true, 1000));
}
/** {@inheritDoc} */
@Override
public final void stopTimersThreads()
{
super.stopTimersThreads();
this.model = null;
}
/**
* Main program.
* @param args String[]; the command line arguments (not used)
* @throws SimRuntimeException when simulation cannot be created with given parameters
*/
public static void main(final String[] args) throws SimRuntimeException
{
SwingUtilities.invokeLater(new Runnable()
{
@SuppressWarnings("synthetic-access")
@Override
public void run()
{
try
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularLane.java | 140 |
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 168 |
List<Property<?>> propertyList = circularLane.getProperties();
try
{
propertyList.add(new ProbabilityDistributionProperty("TrafficComposition", "Traffic composition",
"<html>Mix of passenger cars and trucks</html>", new String[] { "passenger car", "truck" },
new Double[] { 0.8, 0.2 }, false, 10));
}
catch (PropertyException exception)
{
exception.printStackTrace();
}
propertyList.add(new SelectionProperty("CarFollowingModel", "Car following model",
"<html>The car following model determines "
+ "the acceleration that a vehicle will make taking into account "
+ "nearby vehicles, infrastructural restrictions (e.g. speed limit, "
+ "curvature of the road) capabilities of the vehicle and personality "
+ "of the driver.</html>", new String[] { "IDM", "IDM+" }, 1, false, 1));
propertyList.add(IDMPropertySet.makeIDMPropertySet("IDMCar", "Car", new Acceleration(1.0,
METER_PER_SECOND_2), new Acceleration(1.5, METER_PER_SECOND_2), new Length(2.0, METER),
new Duration(1.0, SECOND), 2));
propertyList.add(IDMPropertySet.makeIDMPropertySet("IDMTruck", "Truck", new Acceleration(0.5,
METER_PER_SECOND_2), new Acceleration(1.25, METER_PER_SECOND_2), new Length(2.0, METER),
new Duration(1.0, SECOND), 3)); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CrossingTrafficLights.java | 144 |
| org\opentrafficsim\demo\carFollowing\OpenStreetMap.java | 105 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 145 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 142 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 159 |
List<Property<?>> localProperties = crossingTrafficLights.getProperties();
try
{
localProperties.add(new ProbabilityDistributionProperty("TrafficComposition", "Traffic composition",
"<html>Mix of passenger cars and trucks</html>", new String[] { "passenger car", "truck" },
new Double[] { 0.8, 0.2 }, false, 10));
}
catch (PropertyException exception)
{
exception.printStackTrace();
}
localProperties.add(new SelectionProperty("CarFollowingModel", "Car following model",
"<html>The car following model determines "
+ "the acceleration that a vehicle will make taking into account "
+ "nearby vehicles, infrastructural restrictions (e.g. speed limit, "
+ "curvature of the road) capabilities of the vehicle and personality "
+ "of the driver.</html>", new String[] { "IDM", "IDM+" }, 1, false, 1));
localProperties.add(IDMPropertySet.makeIDMPropertySet("IDMCar", "Car", new Acceleration(1.0,
METER_PER_SECOND_2), new Acceleration(1.5, METER_PER_SECOND_2), new Length(2.0, METER),
new Duration(1.0, SECOND), 2));
localProperties.add(IDMPropertySet.makeIDMPropertySet("IDMTruck", "Truck", new Acceleration(0.5,
METER_PER_SECOND_2), new Acceleration(1.25, METER_PER_SECOND_2), new Length(2.0, METER),
new Duration(1.0, SECOND), 3)); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 439 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 445 |
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS));
Length vehicleLength = new Length(generateTruck ? 15 : 4, METER);
GTUFollowingModelOld gtuFollowingModel =
generateTruck ? this.carFollowingModelTrucks : this.carFollowingModelCars;
if (null == gtuFollowingModel)
{
throw new Error("gtuFollowingModel is null");
}
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
// LaneBasedBehavioralCharacteristics drivingCharacteristics =
// new LaneBasedBehavioralCharacteristics(gtuFollowingModel, this.laneChangeModel);
LaneBasedIndividualGTU gtu = new LaneBasedIndividualGTU("" + (++this.carsCreated), this.gtuType, vehicleLength,
new Length(1.8, METER), new Speed(200, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(gtuFollowingModel, gtu), gtu);
gtu.initWithAnimation(strategicalPlanner, initialPositions, initialSpeed, DefaultCarAnimation.class,
this.gtuColorer);
this.simulator.scheduleEventRel(this.headway, this, this, "generateCar", null);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
}
/**
*
*/
protected final void drawGraphs()
{
// Notify the Fundamental Diagram plots that the underlying data has changed
for (FundamentalDiagram fd : this.fundamentalDiagrams) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 421 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 442 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 271 |
}
/** {@inheritDoc} */
@Override
public final void constructModel(final SimulatorInterface<Time, Duration, OTSSimTimeDouble> theSimulator)
throws SimRuntimeException, RemoteException
{
this.simulator = (OTSDEVSSimulatorInterface) theSimulator;
try
{
OTSNode from = new OTSNode(this.network, "From", new OTSPoint3D(getMinimumDistance().getSI(), 0, 0));
OTSNode to = new OTSNode(this.network, "To", new OTSPoint3D(getMaximumDistance().getSI(), 0, 0));
OTSNode end = new OTSNode(this.network, "End", new OTSPoint3D(getMaximumDistance().getSI() + 50.0, 0, 0));
Set<GTUType> compatibility = new HashSet<>();
compatibility.add(this.gtuType);
LaneType laneType = new LaneType("CarLane", compatibility);
this.lane = LaneFactory.makeLane(this.network, "Lane", from, to, null, laneType, this.speedLimit, this.simulator,
LongitudinalDirectionality.DIR_PLUS); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularLane.java | 105 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 109 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 106 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 123 |
List<Property<?>> outputProperties = new ArrayList<>();
outputProperties.add(new BooleanProperty("DensityPlot", "Density", "Density contour plot", true, false, 0));
outputProperties.add(new BooleanProperty("FlowPlot", "Flow", "Flow contour plot", true, false, 1));
outputProperties.add(new BooleanProperty("SpeedPlot", "Speed", "Speed contour plot", true, false, 2));
outputProperties.add(new BooleanProperty("AccelerationPlot", "Acceleration", "Acceleration contour plot", true, false,
3));
outputProperties.add(new BooleanProperty("TrajectoryPlot", "Trajectories", "Trajectory (time/distance) diagram", true,
false, 4));
this.properties.add(new CompoundProperty("OutputGraphs", "Output graphs", "Select the graphical output",
outputProperties, true, 1000));
}
/** {@inheritDoc} */
@Override
public final void stopTimersThreads()
{
super.stopTimersThreads();
this.model = null;
}
/**
* Main program.
* @param args String[]; the command line arguments (not used)
* @throws SimRuntimeException should never happen
*/
public static void main(final String[] args) throws SimRuntimeException
{
SwingUtilities.invokeLater(new Runnable()
{
@Override | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 439 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 445 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 628 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 603 |
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS));
Length vehicleLength = new Length(generateTruck ? 15 : 4, METER);
GTUFollowingModelOld gtuFollowingModel =
generateTruck ? this.carFollowingModelTrucks : this.carFollowingModelCars;
if (null == gtuFollowingModel)
{
throw new Error("gtuFollowingModel is null");
}
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
// LaneBasedBehavioralCharacteristics drivingCharacteristics =
// new LaneBasedBehavioralCharacteristics(gtuFollowingModel, this.laneChangeModel);
LaneBasedIndividualGTU gtu = new LaneBasedIndividualGTU("" + (++this.carsCreated), this.gtuType, vehicleLength,
new Length(1.8, METER), new Speed(200, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(gtuFollowingModel, gtu), gtu);
gtu.initWithAnimation(strategicalPlanner, initialPositions, initialSpeed, DefaultCarAnimation.class,
this.gtuColorer);
this.simulator.scheduleEventRel(this.headway, this, this, "generateCar", null);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 526 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 488 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 389 |
if (ap.getKey().contains("IDM"))
{
// System.out.println("Car following model name appears to be " + ap.getKey());
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{
this.carFollowingModelTrucks = gtuFollowingModel;
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
}
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 439 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 445 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 628 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 419 |
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS));
Length vehicleLength = new Length(generateTruck ? 15 : 4, METER);
GTUFollowingModelOld gtuFollowingModel =
generateTruck ? this.carFollowingModelTrucks : this.carFollowingModelCars;
if (null == gtuFollowingModel)
{
throw new Error("gtuFollowingModel is null");
}
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
// LaneBasedBehavioralCharacteristics drivingCharacteristics =
// new LaneBasedBehavioralCharacteristics(gtuFollowingModel, this.laneChangeModel);
LaneBasedIndividualGTU gtu = new LaneBasedIndividualGTU("" + (++this.carsCreated), this.gtuType, vehicleLength,
new Length(1.8, METER), new Speed(200, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(gtuFollowingModel, gtu), gtu);
gtu.initWithAnimation(strategicalPlanner, initialPositions, initialSpeed, DefaultCarAnimation.class,
this.gtuColorer);
this.simulator.scheduleEventRel(this.headway, this, this, "generateCar", null);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 237 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 229 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 227 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 243 |
ArrayList<BooleanProperty> graphs = new ArrayList<BooleanProperty>();
if (output instanceof CompoundProperty)
{
CompoundProperty outputProperties = (CompoundProperty) output;
for (Property<?> ap : outputProperties.getValue())
{
if (ap instanceof BooleanProperty)
{
BooleanProperty bp = (BooleanProperty) ap;
if (bp.getValue())
{
graphs.add(bp);
}
}
}
}
else
{
throw new Error("output properties should be compound");
}
int graphCount = graphs.size();
int columns = (int) Math.ceil(Math.sqrt(graphCount));
int rows = 0 == columns ? 0 : (int) Math.ceil(graphCount * 1.0 / columns);
TablePanel charts = new TablePanel(columns, rows);
for (int i = 0; i < graphCount; i++)
{
String graphName = graphs.get(i).getKey();
Container container = null;
LaneBasedGTUSampler graph; | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 463 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 529 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 490 |
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{
this.carFollowingModelTrucks = gtuFollowingModel;
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
}
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\lanechange\LaneChangeGraph.java | 559 |
| org\opentrafficsim\demo\lanechange\SuitabilityGraph.java | 411 |
public final DomainOrder getDomainOrder()
{
return DomainOrder.ASCENDING;
}
/** {@inheritDoc} */
@Override
public final int getItemCount(final int series)
{
return this.xValues.get(series).size();
}
/** {@inheritDoc} */
@Override
public final Number getX(final int series, final int item)
{
return this.xValues.get(series).get(item);
}
/** {@inheritDoc} */
@Override
public final double getXValue(final int series, final int item)
{
return this.xValues.get(series).get(item);
}
/** {@inheritDoc} */
@Override
public final Number getY(final int series, final int item)
{
return this.yValues.get(series).get(item);
}
/** {@inheritDoc} */
@Override
public final double getYValue(final int series, final int item)
{
return this.yValues.get(series).get(item);
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 486 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 447 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 470 |
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof SelectionProperty)
{
SelectionProperty sp = (SelectionProperty) ap;
if ("CarFollowingModel".equals(sp.getKey()))
{
carFollowingModelName = sp.getValue();
}
}
else if (ap instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) ap; | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 511 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 389 |
if (ap.getKey().contains("IDM"))
{
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 85 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 85 |
public FundamentalDiagrams()
{
try
{
this.properties.add(new SelectionProperty("CarFollowingModel", "Car following model",
"<html>The car following model determines "
+ "the acceleration that a vehicle will make taking into account nearby vehicles, "
+ "infrastructural restrictions (e.g. speed limit, curvature of the road) "
+ "capabilities of the vehicle and personality of the driver.</html>",
new String[] { "IDM", "IDM+" }, 1, false, 500));
this.properties.add(new ProbabilityDistributionProperty("TrafficComposition", "Traffic composition",
"<html>Mix of passenger cars and trucks</html>", new String[] { "passenger car", "truck" },
new Double[] { 0.8, 0.2 }, false, 10));
}
catch (PropertyException exception)
{
exception.printStackTrace();
}
}
/** {@inheritDoc} */
@Override
public final void stopTimersThreads()
{
super.stopTimersThreads();
this.model = null;
}
/**
* Main program.
* @param args String[]; the command line arguments (not used)
* @throws SimRuntimeException on ???
*/
public static void main(final String[] args) throws SimRuntimeException
{
// Create the simulation and wrap its panel in a JFrame. It does not get much easier/shorter than this...
SwingUtilities.invokeLater(new Runnable()
{
@Override
public void run()
{
try
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 290 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 431 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 452 |
OTSNode from = new OTSNode(this.network, "From", new OTSPoint3D(getMinimumDistance().getSI(), 0, 0));
OTSNode to = new OTSNode(this.network, "To", new OTSPoint3D(getMaximumDistance().getSI(), 0, 0));
OTSNode end = new OTSNode(this.network, "End", new OTSPoint3D(getMaximumDistance().getSI() + 50.0, 0, 0));
Set<GTUType> compatibility = new HashSet<>();
compatibility.add(this.gtuType);
LaneType laneType = new LaneType("CarLane", compatibility);
this.lane = LaneFactory.makeLane(this.network, "Lane", from, to, null, laneType, this.speedLimit,
this.simulator, LongitudinalDirectionality.DIR_PLUS); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularLane.java | 435 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 517 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 479 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 502 |
}
}
else if (ap instanceof CompoundProperty)
{
CompoundProperty cp = (CompoundProperty) ap;
if (ap.getKey().equals("OutputGraphs"))
{
continue; // Output settings are handled elsewhere
}
if (ap.getKey().contains("IDM"))
{
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new SimRuntimeException("Unknown gtu following model: " + carFollowingModelName); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 463 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 513 |
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 466 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 532 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 493 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 395 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 579 |
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{
this.carFollowingModelTrucks = gtuFollowingModel;
}
else
{
throw new Error("Cannot determine gtu type for " + ap.getKey());
}
}
}
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 401 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 389 |
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS));
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
// LaneBasedBehavioralCharacteristics drivingCharacteristics =
// new LaneBasedBehavioralCharacteristics(this.carFollowingModelCars, this.laneChangeModel);
this.block = new LaneBasedIndividualGTU("999999", this.gtuType, new Length(4, METER), new Length(1.8, METER),
new Speed(0.0, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(this.carFollowingModelCars, this.block), this.block);
this.block.initWithAnimation(strategicalPlanner, initialPositions, new Speed(0.0, KM_PER_HOUR),
DefaultCarAnimation.class, this.gtuColorer);
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularLane.java | 395 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 460 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 483 |
throw new SimRuntimeException("\"Car following model\" property has wrong type");
}
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
// System.out.println("Handling property " + ap.getKey());
if (ap instanceof SelectionProperty)
{
SelectionProperty sp = (SelectionProperty) ap;
if ("CarFollowingModel".equals(sp.getKey()))
{
carFollowingModelName = sp.getValue();
}
}
else if (ap instanceof ProbabilityDistributionProperty)
{
ProbabilityDistributionProperty pdp = (ProbabilityDistributionProperty) ap;
String modelName = ap.getKey();
if (modelName.equals("TrafficComposition"))
{
this.carProbability = pdp.getValue()[0];
}
}
else if (ap instanceof IntegerProperty) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 388 |
| org\opentrafficsim\demo\PropertiesParser.java | 85 |
cp = (CompoundProperty) ap;
if (ap.getKey().contains("IDM"))
{
// System.out.println("Car following model name appears to be " + ap.getKey());
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 410 |
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 416 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 574 |
this.block.initWithAnimation(strategicalPlanner, initialPositions, new Speed(0.0, KM_PER_HOUR),
DefaultCarAnimation.class, this.gtuColorer);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
}
/**
* Remove the block.
*/
protected final void removeBlock()
{
this.block.destroy();
this.block = null;
}
/**
* Generate cars at a fixed rate (implemented by re-scheduling this method).
*/
protected final void generateCar()
{
boolean generateTruck = this.randomGenerator.nextDouble() > this.carProbability;
Length initialPosition = new Length(0, METER);
Speed initialSpeed = new Speed(100, KM_PER_HOUR);
Set<DirectedLanePosition> initialPositions = new LinkedHashSet<>(1);
try
{
initialPositions.add(new DirectedLanePosition(this.getLane(), initialPosition, GTUDirectionality.DIR_PLUS)); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 437 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 367 |
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
// Get car-following model parameter
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof CompoundProperty)
{ | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagramsLane.java | 409 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 389 |
initialPositions.add(new DirectedLanePosition(this.lanes.get(this.lanes.size() - 1), initialPosition,
GTUDirectionality.DIR_PLUS));
BehavioralCharacteristics behavioralCharacteristics = DefaultsFactory.getDefaultBehavioralCharacteristics();
this.block = new LaneBasedIndividualGTU("999999", this.gtuType, new Length(4, METER), new Length(1.8, METER),
new Speed(0.0, KM_PER_HOUR), this.simulator, this.network);
LaneBasedStrategicalPlanner strategicalPlanner = new LaneBasedStrategicalRoutePlanner(behavioralCharacteristics,
new LaneBasedGTUFollowingTacticalPlanner(this.carFollowingModelCars, this.block), this.block);
this.block.initWithAnimation(strategicalPlanner, initialPositions, new Speed(0.0, KM_PER_HOUR),
DefaultCarAnimation.class, this.gtuColorer);
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 433 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 484 |
try
{
// Get car-following model name
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
// Get car-following model parameter
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof CompoundProperty) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 287 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 303 |
cp = new AccelerationContourPlot("Acceleration Graph", this.model.getPath());
cp.setTitle("Acceleration Contour Graph");
}
else
{
throw new Error("Unhandled type of contourplot: " + graphName);
}
graph = cp;
container = cp.getContentPane();
}
// Add the container to the matrix
charts.setCell(container, i % columns, i / columns);
this.model.getPlots().add(graph);
}
addTab(getTabCount(), "statistics", charts);
}
/** {@inheritDoc} */
@Override
public final String shortName()
{
return "Straight lane";
}
/** {@inheritDoc} */
@Override
public final String description()
{
return "<html><h1>Simulation of a straight one-lane road with opening bridge</H1>"
+ "Simulation of a single lane road of 5 km length. Vehicles are generated at a constant rate of "
+ "1500 veh/hour. At time 300s a blockade is inserted at position 4km; this blockade is removed at "
+ "time 420s. This blockade simulates a bridge opening.<br>"
+ "The blockade causes a traffic jam that slowly dissolves after the blockade is removed.<br>"
+ "Selected trajectory and contour plots are generated during the simulation.</html>";
}
}
/**
* Simulate a single lane road of 5 km length. Vehicles are generated at a constant rate of 1500 veh/hour. At time 300s a
* blockade is inserted at position 4 km; this blockade is removed at time 500s. The used car following algorithm is IDM+
* <a href="http://opentrafficsim.org/downloads/MOTUS%20reference.pdf"><i>Integrated Lane Change Model with Relaxation and
* Synchronization</i>, by Wouter J. Schakel, Victor L. Knoop and Bart van Arem, 2012</a>. <br>
* Output is a set of block charts:
* <ul>
* <li>Traffic density</li>
* <li>Speed</li>
* <li>Flow</li>
* <li>Acceleration</li>
* </ul>
* All these graphs display simulation time along the horizontal axis and distance along the road along the vertical axis.
* <p>
* Copyright (c) 2013-2016 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>
* $LastChangedDate: 2017-01-16 02:02:12 +0100 (Mon, 16 Jan 2017) $, @version $Revision: 3285 $, by $Author: averbraeck $,
* initial version ug 1, 2014 <br>
* @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
*/
class StraightModel implements OTSModelInterface, UNITS | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularLane.java | 444 |
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 526 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 488 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 511 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 389 |
| org\opentrafficsim\demo\PropertiesParser.java | 86 |
if (ap.getKey().contains("IDM"))
{
Acceleration a = IDMPropertySet.getA(cp);
Acceleration b = IDMPropertySet.getB(cp);
Length s0 = IDMPropertySet.getS0(cp);
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new SimRuntimeException("Unknown gtu following model: " + carFollowingModelName); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 446 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 469 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 365 |
new SinkSensor(sinkLane, new Length(10.0, METER), this.simulator);
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof SelectionProperty) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\CircularRoad.java | 437 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 447 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 470 |
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
// Get car-following model parameter
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof CompoundProperty) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\SequentialLanes.java | 486 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 367 |
String carFollowingModelName = null;
CompoundProperty propertyContainer = new CompoundProperty("", "", "", this.properties, false, 0);
Property<?> cfmp = propertyContainer.findByKey("CarFollowingModel");
if (null == cfmp)
{
throw new Error("Cannot find \"Car following model\" property");
}
if (cfmp instanceof SelectionProperty)
{
carFollowingModelName = ((SelectionProperty) cfmp).getValue();
}
else
{
throw new Error("\"Car following model\" property has wrong type");
}
for (Property<?> ap : new CompoundProperty("", "", "", this.properties, false, 0))
{
if (ap instanceof SelectionProperty) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\Straight.java | 617 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 660 |
this.simulator.scheduleEventRel(this.headway, this, this, "generateCar", null);
}
catch (SimRuntimeException | NamingException | NetworkException | GTUException | OTSGeometryException exception)
{
exception.printStackTrace();
}
}
/** {@inheritDoc} */
@Override
public final SimulatorInterface<Time, Duration, OTSSimTimeDouble> getSimulator() throws RemoteException
{
return this.simulator;
}
/** {@inheritDoc} */
@Override
public OTSNetwork getNetwork()
{
return this.network;
}
/**
* @return contourPlots
*/
public final List<LaneBasedGTUSampler> getPlots()
{
return this.plots;
}
/**
* @return minimumDistance
*/
public final Length getMinimumDistance()
{
return this.minimumDistance;
}
/**
* @return maximumDistance
*/
public final Length getMaximumDistance()
{
return this.maximumDistance;
}
/**
* @return lane.
*/
public Lane getLane()
{
return this.lane;
} | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 374 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 531 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 553 |
this.simulator.scheduleEventAbs(new Time(0.0, SECOND), this, this, "generateCar", null);
// Create a block at t = 5 minutes
this.simulator.scheduleEventAbs(new Time(300, SECOND), this, this, "createBlock", null);
// Remove the block at t = 7 minutes
this.simulator.scheduleEventAbs(new Time(420, SECOND), this, this, "removeBlock", null);
// Schedule regular updates of the graph
for (int t = 1; t <= 1800; t++)
{
this.simulator.scheduleEventAbs(new Time(t - 0.001, SECOND), this, this, "drawGraphs", null);
}
}
catch (SimRuntimeException exception) | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\FundamentalDiagrams.java | 297 |
| org\opentrafficsim\demo\carFollowing\Straight.java | 439 |
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 461 |
| org\opentrafficsim\demo\carFollowing\Trajectories.java | 288 |
this.simulator, LongitudinalDirectionality.DIR_PLUS);
CrossSectionLink endLink = LaneFactory.makeLink(this.network, "endLink", to, end, null,
LongitudinalDirectionality.DIR_PLUS, simulator);
// No overtaking, single lane
Lane sinkLane = new Lane(endLink, "sinkLane", this.lane.getLateralCenterPosition(1.0),
this.lane.getLateralCenterPosition(1.0), this.lane.getWidth(1.0), this.lane.getWidth(1.0), laneType,
LongitudinalDirectionality.DIR_PLUS, this.speedLimit, new OvertakingConditions.None());
new SinkSensor(sinkLane, new Length(10.0, METER), this.simulator); | |
| File | Line |
|---|---|
| org\opentrafficsim\demo\carFollowing\StraightPerception.java | 516 |
| org\opentrafficsim\demo\carFollowing\XMLNetworks.java | 579 |
Duration tSafe = IDMPropertySet.getTSafe(cp);
GTUFollowingModelOld gtuFollowingModel = null;
if (carFollowingModelName.equals("IDM"))
{
gtuFollowingModel = new IDMOld(a, b, s0, tSafe, 1.0);
}
else if (carFollowingModelName.equals("IDM+"))
{
gtuFollowingModel = new IDMPlusOld(a, b, s0, tSafe, 1.0);
}
else
{
throw new Error("Unknown gtu following model: " + carFollowingModelName);
}
if (ap.getKey().contains("Car"))
{
this.carFollowingModelCars = gtuFollowingModel;
}
else if (ap.getKey().contains("Truck"))
{ | |