package org.opentrafficsim.demo.ntm; import java.awt.Color; import java.io.File; import java.io.IOException; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; import java.nio.file.StandardCopyOption; import java.rmi.RemoteException; import java.text.ParseException; import java.text.SimpleDateFormat; import java.util.ArrayList; import java.util.Calendar; import java.util.GregorianCalendar; import java.util.HashMap; import java.util.LinkedHashMap; import java.util.Map; import java.util.Set; import javax.naming.NamingException; import org.djunits.unit.DurationUnit; import org.djunits.unit.FrequencyUnit; import org.djunits.unit.LengthUnit; import org.djunits.unit.SpeedUnit; import org.djunits.value.vdouble.scalar.Duration; import org.djunits.value.vdouble.scalar.Frequency; import org.djunits.value.vdouble.scalar.Length; import org.djunits.value.vdouble.scalar.Speed; import org.jgrapht.graph.SimpleDirectedWeightedGraph; import org.locationtech.jts.geom.Coordinate; import org.locationtech.jts.geom.Geometry; import org.locationtech.jts.geom.GeometryFactory; import org.locationtech.jts.geom.LineString; import org.locationtech.jts.geom.Point; import org.opentrafficsim.core.dsol.AbstractOTSModel; import org.opentrafficsim.core.dsol.OTSSimulatorInterface; import org.opentrafficsim.core.network.LinkEdge; import org.opentrafficsim.core.network.NetworkException; import org.opentrafficsim.core.network.OTSNetwork; import org.opentrafficsim.demo.ntm.NTMNode.TrafficBehaviourType; import org.opentrafficsim.demo.ntm.animation.AreaAnimation; import org.opentrafficsim.demo.ntm.animation.NodeAnimation; import org.opentrafficsim.demo.ntm.animation.ShpLinkAnimation; import org.opentrafficsim.demo.ntm.animation.ShpNodeAnimation; import org.opentrafficsim.demo.ntm.shapeobjects.ShapeObject; import org.opentrafficsim.demo.ntm.shapeobjects.ShapeStore; import org.opentrafficsim.demo.ntm.trafficdemand.DepartureTimeProfile; import org.opentrafficsim.demo.ntm.trafficdemand.TripDemand; import org.opentrafficsim.demo.ntm.trafficdemand.TripInfoTimeDynamic; import nl.tudelft.simulation.dsol.simulators.AnimatorInterface; /** *

* Copyright (c) 2013-2017 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
* BSD-style license. See OpenTrafficSim License. *

* $LastChangedDate$, @version $Revision$, by $Author$, * initial version Sep 9, 2014
* @author Alexander Verbraeck * @author Guus Tamminga */ public class NTMModel extends AbstractOTSModel { /** */ private static final long serialVersionUID = 20140815L; /** Detailed areas from the traffic model. */ private Map areas; /** Detailed areas from the traffic model. */ private Map bigAreas; /** Rougher areas from the traffic model. */ private ShapeStore compressedAreas; /** Nodes from shape file. */ private Map nodes; /** Connectors from shape file. */ private Map shpConnectors; /** Connectors from shape file. */ private Map shpBigConnectors; /** Links from shape file. */ private Map shpLinks; /** Subset of links from shape file used as flow links. */ private Map flowLinks; /** Detailed areas from the traffic model. */ private Map areaFlowLinks; /** The centroids. */ private Map centroids; /** The centroids. */ private Map bigCentroids; /** The demand of trips by Origin and Destination. */ private TripDemand tripDemand; /** The compressed demand of trips by Origin and Destination. */ private TripDemand compressedTripDemand; /** The demand of trips by Origin and Destination for simulation. */ TripDemand tripDemandToUse; /** */ private InputNTM inputNTM; /** The simulation settings. */ private NTMSettings settingsNTM; /** Profiles with fractions of total demand. */ private ArrayList departureTimeProfiles; /** Graph containing the original network. */ private SimpleDirectedWeightedGraph> linkGraph; /** Graph containing the simplified network. */ private SimpleDirectedWeightedGraph> areaGraph; /** */ private Map nodeAreaGraphMap = new LinkedHashMap<>(); /** Subset of links from shape file used as flow links. */ private LinkedHashMap debugLinkList; /** TODO: make sure network is used... It's empty now... */ private OTSNetwork network = new OTSNetwork("ntm", true); /** * Constructor to make the graphs with the right type. * @param simulator OTSSimulatorInterface; the simulator */ @SuppressWarnings("unchecked") public NTMModel(final OTSSimulatorInterface simulator) { super(simulator); LinkEdge l = new LinkEdge(null); this.linkGraph = new SimpleDirectedWeightedGraph>((Class>) l.getClass()); this.areaGraph = new SimpleDirectedWeightedGraph>((Class>) l.getClass()); } /** {@inheritDoc} */ @Override public final void constructModel() { try { // create the output base maps // boolean DEBUG = true; // set the time step value at ten seconds; Duration timeStepNTM = new Duration(10, DurationUnit.SECOND); Duration timeStepCellTransmissionModel = new Duration(10, DurationUnit.SECOND); Duration durationOfSimulation = new Duration(10800, DurationUnit.SECOND); SimpleDateFormat sdf = new SimpleDateFormat("yyyy MMM dd HH:mm:ss"); Calendar startTime = new GregorianCalendar(2014, 1, 28, 15, 0, 0); this.shpLinks = new LinkedHashMap<>(); this.shpConnectors = new LinkedHashMap<>(); this.centroids = ShapeFileReader.ReadNodes(this, this.getInputNTM().getInputMap() + this.getInputNTM().getFileCentroids(), "NODENR", this.getInputNTM().isReturnCentroidsCentroid(), this.getInputNTM().isOnlyCentroidsFileCentroid()); this.nodes = ShapeFileReader.ReadNodes(this, this.getInputNTM().getInputMap() + this.getInputNTM().getFileNodes(), "NODENR", this.getInputNTM().isReturnCentroidsNode(), this.getInputNTM().isOnlyCentroidsFileNode()); this.areas = ShapeFileReader.readAreas(this.getInputNTM().getInputMap() + this.getInputNTM().getFileAreas(), this.centroids, this.getInputNTM().getScalingFactorDemand()); ShapeFileReader.readLinks(this, this.getInputNTM().getInputMap() + this.getInputNTM().getFileLinks(), this.shpLinks, this.shpConnectors, this.nodes, this.centroids, this.getInputNTM().getLengthUnitLink(), this.getInputNTM().getLinkCapacityNumberOfHours()); if (this.getInputNTM().getFileFeederLinks() != null) { if (!this.getInputNTM().getFileFeederLinks().isEmpty()) { ShapeFileReader.readLinks(this, this.getInputNTM().getInputMap() + this.getInputNTM().getFileFeederLinks(), this.shpLinks, this.shpConnectors, this.nodes, this.centroids, this.getInputNTM().getLengthUnitLink(), this.getInputNTM().getLinkCapacityNumberOfHours()); } } this.setDepartureTimeProfiles(CsvFileReader.readDepartureTimeProfiles( this.getInputNTM().getInputMap() + this.getInputNTM().getFileProfiles(), ";", "\\s+")); this.getInputNTM().setOutputMap("/output" + this.getInputNTM().getVariantNumber()); this.settingsNTM = new NTMSettings(startTime, durationOfSimulation, " NTM The Hague ", timeStepNTM, timeStepCellTransmissionModel, this.getInputNTM().getReRouteTimeInterval(), this.getInputNTM().getNumberOfRoutes(), this.getInputNTM().getWeightNewRoutes(), this.getInputNTM().getVarianceRoutes(), this.getInputNTM().isReRoute(), this.getInputNTM().getInputMap(), this.getInputNTM().isIncreaseDemandAreaByFactor(), this.getInputNTM().getScalingFactorDemand()); // the Map areas contains a reference to the centroids! // save the selected and created areas to a shape file // WriteToShp.createShape(this.areas); // read TrafficDemand from /src/main/resources // including information on the time period this demand covers! // within "readOmnitransExportDemand" the cordon zones are determined and areas are created around them // - create additional centroids at cordons and add related areas!! // - move links from normal to connectors // - add time settings from the demand matrix // - create demand between centoids and areas this.setTripDemand(CsvFileReader.readOmnitransExportDemand(this, this.getInputNTM().getInputMap() + this.getInputNTM().getFileDemand(), ";", "\\s+|-", this.centroids, this.shpLinks, this.shpConnectors, this.settingsNTM, this.getDepartureTimeProfiles(), this.areas)); Map areasToUse; Map centroidsToUse; Map shpConnectorsToUse; if (this.getInputNTM().COMPRESS_AREAS) { // to compress the areas into bigger units TODO //of compressedDemand???????????????? File file = new File(this.getInputNTM().getInputMap() + this.getInputNTM().getFileAreasBig()); this.compressedAreas = ShapeStore.openGISFile(file); this.bigAreas = new LinkedHashMap(); for (ShapeObject shape : this.compressedAreas.getGeoObjects()) { String areaName = shape.getValues().get(0); double accCritMaxCapStart = java.lang.Double.parseDouble(shape.getValues().get(4)); double accCritMaxCapEnd = java.lang.Double.parseDouble(shape.getValues().get(5)); double accCritJam = java.lang.Double.parseDouble(shape.getValues().get(6)); ArrayList accCritical = new ArrayList(); accCritical.add(accCritMaxCapStart); accCritical.add(accCritMaxCapEnd); accCritical.add(accCritJam); ParametersNTM parametersNTM = new ParametersNTM(accCritical); Point p = shape.getDesignLine().getCentroid(); Coordinate centroid = new Coordinate(p.getX(), p.getY()); Area bigArea = new Area(shape.getDesignLine(), areaName, "name", "gemeente", "gebied", "regio", 0, centroid, TrafficBehaviourType.NTM, new Length(0, LengthUnit.KILOMETER), new Speed(0, SpeedUnit.KM_PER_HOUR), this.getInputNTM().getScalingFactorDemand(), parametersNTM); this.bigAreas.put(bigArea.getCentroidNr(), bigArea); } // create new centroids this.bigCentroids = new LinkedHashMap(); // key from small to big areas, and new connectors and new bigCentroids! LinkedHashMap mapSmallAreaToBigArea = connectCentroidsToBigger(this.compressedAreas, this.centroids, this.bigCentroids, this.shpConnectors, this.areas); this.setShpBigConnectors(createConnectors(mapSmallAreaToBigArea, this.shpConnectors)); this.compressedTripDemand = TripDemand.compressTripDemand(this.tripDemand, this.centroids, mapSmallAreaToBigArea); shpConnectorsToUse = this.getShpBigConnectors(); areasToUse = this.getBigAreas(); centroidsToUse = this.getBigCentroids(); this.tripDemandToUse = this.getCompressedTripDemand(); } else { shpConnectorsToUse = this.getShpConnectors(); areasToUse = this.getAreas(); centroidsToUse = this.getCentroids(); this.tripDemandToUse = this.getTripDemand(); } // set the lower values for flow links: this.flowLinks = createFlowLinks(this.shpLinks, this.getInputNTM().getMaxSpeed(), this.getInputNTM().getMaxCapacity()); // merge link segments between junctions on flow links: // Link.findSequentialLinks(this.flowLinks, this.nodes); // Link.findSequentialLinks(this.shpLinks, this.nodes); // save the selected and newly created areas to a shape file: at this position the connector areas are saved // also!!! // WriteToShp.createShape(this.areas); // compute the roadLength within the areas determineRoadLengthInAreas(this.shpLinks, areasToUse); // build the higher level map and the graph BuildGraph.buildGraph(this, areasToUse, centroidsToUse, shpConnectorsToUse); // this.areaFlowLinks = createFlowLinkBuffers(this.flowLinks); if (this.getInputNTM().COMPRESS_AREAS) { readOrSetParametersNTM(this, areasToUse, centroidsToUse, this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameParametersNTMBig()); readOrSetCapacityRestraints(this, areasToUse, this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameCapacityRestraintBig(), this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameCapacityRestraintFactorBig()); } else { readOrSetParametersNTM(this, areasToUse, centroidsToUse, this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameParametersNTM()); readOrSetCapacityRestraints(this, areasToUse, this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameCapacityRestraint(), this.getInputNTM().getInputMap() + this.getInputNTM().getFileNameCapacityRestraintFactor()); } WriteOutput.writeInputData(this); Routes.createRoutes(this, this.getSettingsNTM().getNumberOfRoutes(), this.getInputNTM().getWeightNewRoutes(), this.getInputNTM().getVarianceRoutes(), true, 1, 999999); // in case we run on an animator and not on a simulator, we create the animation if (getSimulator() instanceof AnimatorInterface) { createDynamicAreaAnimation(this); } // copyInputFiles(this.getInputNTM().getInputMap(), this.getInputNTM().getFileDemand(), // this.getInputNTM().getFileProfiles()); this.simulator.scheduleEventRel(new Duration(0.0, DurationUnit.SECOND), this, this, "ntmFlowTimestep", null); // this.simulator.scheduleEventAbs(new Time(1799.99, DurationUnit.SECOND), this, this, // "drawGraph", null); } catch (Throwable exception) { exception.printStackTrace(); } } /** * @param flowLinks2 * @return */ private Map createFlowLinkBuffers(Map flowLinks) { // Create new Areas where they are lacking /** * @param centroid * @return the additional areas */ Map areasFlowLink = new LinkedHashMap(); for (NTMLink link : flowLinks.values()) { LinkCellTransmission linkCTM = (LinkCellTransmission) link; char character = 'a'; for (FlowCell cell : linkCTM.getCells()) { ArrayList cellPoints = new ArrayList(); cellPoints = WriteOutput.retrieveCellXY(linkCTM, cell, linkCTM.getCells().indexOf(cell), linkCTM.getCells().size()); Coordinate[] coordinates = new Coordinate[3]; coordinates[0] = cellPoints.get(0); coordinates[1] = cellPoints.get(2); coordinates[2] = cellPoints.get(1); LineString linear = new GeometryFactory().createLineString(coordinates); Geometry buffer = linear.buffer(30); Point centroidPoint = buffer.getCentroid(); Coordinate centroid = new Coordinate(centroidPoint.getX(), centroidPoint.getY()); double dhb = 0.0; ParametersNTM parametersNTM = new ParametersNTM(); AreaFlowLink areaFlowLink = new AreaFlowLink(buffer, "test", "test", "test", "test", "test", dhb, centroid, TrafficBehaviourType.NTM, new Length(0, LengthUnit.METER), new Speed(0, SpeedUnit.KM_PER_HOUR), 1.0, parametersNTM, linkCTM, linkCTM.getCells().indexOf(cell)); String Id = link.getId() + character; areasFlowLink.put(Id, areaFlowLink); character++; } } return null; } /** * @param areas Map<String,Area>; * @param shpConnectors2 * @param compressedAreas2 * @param areas2 * @return * @throws NetworkException */ private LinkedHashMap connectCentroidsToBigger(ShapeStore compressedAreas, Map centroids, Map bigCentroids, Map connectors, Map areas) throws NetworkException { LinkedHashMap mapSmallAreaToBigArea = new LinkedHashMap(); // ArrayList centroidsToRemove = new ArrayList(); for (ShapeObject bigArea : compressedAreas.getGeoObjects()) { int NTM = 0; int CORDON = 0; String nr = bigArea.getValues().get(0); Point centroidPoint = bigArea.getDesignLine().getCentroid(); Coordinate centroidCoordinate = new Coordinate(centroidPoint.getX(), centroidPoint.getY()); NTMNode bigCentroid = new NTMNode(this.network, nr, centroidCoordinate, TrafficBehaviourType.NTM); bigCentroids.put(nr, bigCentroid); for (NTMNode centroid : centroids.values()) { Coordinate nodeCoordinate = centroid.getPoint().getCoordinate(); Geometry nodeGeometry = new GeometryFactory().createPoint(nodeCoordinate); if (bigArea.getDesignLine().covers(nodeGeometry)) { mapSmallAreaToBigArea.put(centroid, bigCentroid); if (centroid.getBehaviourType() == TrafficBehaviourType.CORDON) { CORDON++; } else { NTM++; } } } if (CORDON > NTM) { bigCentroid.setBehaviourType(TrafficBehaviourType.CORDON); } } return mapSmallAreaToBigArea; } /** * @param model NTMModel; * @param areasToUse Map<String,Area>; * @param centroidsToUse Map<String,NTMNode>; * @param file String; * @throws ParseException * @throws IOException */ public void readOrSetParametersNTM(NTMModel model, Map areasToUse, Map centroidsToUse, String file) throws IOException, ParseException { LinkedHashMap> parametersNTMByCentroid = CsvFileReader.readParametersNTM(file, ";", ","); if (parametersNTMByCentroid.isEmpty()) { CsvFileWriter.writeParametersNTM(this, file); parametersNTMByCentroid = CsvFileReader.readParametersNTM(file, ";", ","); } for (NTMNode node : centroidsToUse.values()) { ParametersNTM parametersNTM = null; ArrayList parameters = parametersNTMByCentroid.get(node.getId()); if (node.getBehaviourType() == TrafficBehaviourType.NTM) { BoundedNode boundedNode = (BoundedNode) model.nodeAreaGraphMap.get(node.getId()); if (boundedNode == null) { System.out.println("not found " + node.getId()); } else { CellBehaviourNTM cellBehaviourNTM = (CellBehaviourNTM) boundedNode.getCellBehaviour(); if (parameters != null) { double capacity = 0.0; if (parameters.get(parameters.size() - 1) > 0) { capacity = parameters.get(parameters.size() - 1); } else { capacity = cellBehaviourNTM.getParametersNTM().getCapacity().getInUnit(FrequencyUnit.PER_HOUR); } // capacity = 9000; parameters.remove(parameters.size() - 1); parametersNTM = new ParametersNTM(parameters, capacity, areasToUse.get(node.getId()).getRoadLength()); } else { parametersNTM = new ParametersNTM(areasToUse.get(node.getId()).getAverageSpeed(), areasToUse.get(node.getId()).getRoadLength()); } cellBehaviourNTM.setParametersNTM(parametersNTM); } } } } /** * @param model NTMModel; * @param areasToUse Map<String,Area>; * @param file String; * @param fileFactor String; * @throws IOException * @throws ParseException */ public void readOrSetCapacityRestraints(NTMModel model, Map areasToUse, String file, String fileFactor) throws IOException, ParseException { LinkedHashMap> borderCapacityAreasMap = CsvFileReader.readCapResNTM(file, ";", ","); LinkedHashMap> borderCapacityFactorAreasMap = CsvFileReader.readCapResFactorNTM(fileFactor, ";", ","); if (borderCapacityAreasMap.isEmpty()) { CsvFileWriter.writeCapresNTM(this, file, 0.0); borderCapacityAreasMap = CsvFileReader.readCapResNTM(file, ";", ","); } if (borderCapacityFactorAreasMap.isEmpty()) { CsvFileWriter.writeCapresNTM(this, fileFactor, 1.0); borderCapacityFactorAreasMap = CsvFileReader.readCapResFactorNTM(fileFactor, ";", ","); } // set the border capacity for (NTMNode origin : model.getAreaGraph().vertexSet()) { if (origin.getBehaviourType() == TrafficBehaviourType.NTM) { LinkedHashMap borderCapacity = new LinkedHashMap(); BoundedNode node = (BoundedNode) origin; CellBehaviourNTM cellBehaviour = (CellBehaviourNTM) node.getCellBehaviour(); Set> outGoing = this.getAreaGraph().outgoingEdgesOf(node); for (LinkEdge link : outGoing) { double factor = 1.0; NTMNode neighbourNode = (NTMNode) link.getLink().getEndNode(); BoundedNode graphEndNode = (BoundedNode) this.getNodeAreaGraphMap().get(neighbourNode.getId()); if (!borderCapacityAreasMap.isEmpty()) { if (borderCapacityAreasMap.get(origin.getId()) == null) { System.out.println("NT"); } if (!borderCapacityFactorAreasMap.isEmpty()) { if (borderCapacityFactorAreasMap.get(origin.getId()) == null) { System.out.println("No capres factor"); } else { factor = borderCapacityFactorAreasMap.get(origin.getId()).get(graphEndNode.getId()) .doubleValue(); } } double capacity = borderCapacityAreasMap.get(origin.getId()).get(graphEndNode.getId()) .getInUnit(FrequencyUnit.PER_HOUR); capacity *= factor; Frequency cap = new Frequency(capacity, FrequencyUnit.PER_HOUR); borderCapacity.put(graphEndNode, cap); } else { Frequency cap = new Frequency(99999.0, FrequencyUnit.PER_HOUR); borderCapacity.put(graphEndNode, cap); } } cellBehaviour.setBorderCapacity(borderCapacity); } } } /** * @param areas * @param shpConnectors2 * @param compressedAreas2 * @param areas2 * @return * @throws NetworkException */ private Map createConnectors(HashMap mapSmallAreaToBigArea, Map connectors) throws NetworkException { LinkedHashMap mapConnectors = new LinkedHashMap(); for (NTMLink link : connectors.values()) { NTMNode startNode = null; NTMNode endNode = null; NTMLink newConnector = null; if (mapSmallAreaToBigArea.containsKey(link.getStartNode())) { startNode = mapSmallAreaToBigArea.get(link.getStartNode()); } if (mapSmallAreaToBigArea.containsKey(link.getEndNode())) { endNode = mapSmallAreaToBigArea.get(link.getEndNode()); } if (startNode != null) { newConnector = new NTMLink(this.network, this.getSimulator(), link.getDesignLine(), link.getId(), link.getLength(), startNode, (NTMNode) link.getEndNode(), link.getFreeSpeed(), null, link.getCapacity(), link.getBehaviourType(), link.getLinkData()); } else if (endNode != null) { newConnector = new NTMLink(this.network, this.getSimulator(), link.getDesignLine(), link.getId(), link.getLength(), (NTMNode) link.getStartNode(), endNode, link.getFreeSpeed(), null, link.getCapacity(), link.getBehaviourType(), link.getLinkData()); } else { newConnector = new NTMLink(link); } mapConnectors.put(link.getId(), newConnector); } return mapConnectors; } /** * @param shpLinks2 * @param areas2 */ private void determineRoadLengthInAreas(Map shpLinks, Map areas) { Double speedTotal; Map speedTotalByArea = new LinkedHashMap(); for (NTMLink link : shpLinks.values()) { for (Area area : areas.values()) { if (area.getGeometry().intersects(link.getDesignLine().getLineString())) { double covers = 0.5; if (area.getGeometry().contains(link.getDesignLine().getLineString())) { covers = 1; } double length = covers * link.getLength().getInUnit(LengthUnit.KILOMETER) * link.getNumberOfLanes(); Length laneLength = new Length(length, LengthUnit.KILOMETER); area.addRoadLength(laneLength); // in SI (m*m/s) java.lang.Double speedLaneLength = new java.lang.Double(link.getFreeSpeed().getInUnit(SpeedUnit.KM_PER_HOUR) * length); if (speedTotalByArea.get(area) != null) { speedLaneLength += speedTotalByArea.get(area); } speedTotalByArea.put(area, speedLaneLength); } } } for (Area area : areas.values()) { if (speedTotalByArea.get(area) != null && area.getRoadLength() != null) { double averageSpeed = speedTotalByArea.get(area) / area.getRoadLength().getInUnit(LengthUnit.KILOMETER); area.setAverageSpeed(new Speed(averageSpeed, SpeedUnit.KM_PER_HOUR)); } else { System.out.println("FlowLink Area: nodeNumber " + area.getCentroidNr()); area.setRoadLength(new Length(java.lang.Double.POSITIVE_INFINITY, LengthUnit.KILOMETER)); double averageSpeed = 100; area.setAverageSpeed(new Speed(averageSpeed, SpeedUnit.KM_PER_HOUR)); } } } /** * @param areas Map<String,Area>; set areas. */ public void setAreas(Map areas) { this.areas = areas; } /** * @param nodes Map<String,NTMNode>; set nodes. */ public void setNodes(Map nodes) { this.nodes = nodes; } /** * @param shpLinks Map<String,NTMLink>; set shpLinks. */ public void setShpLinks(Map shpLinks) { this.shpLinks = shpLinks; } /** * @param centroids Map<String,NTMNode>; set centroids. */ public void setCentroids(Map centroids) { this.centroids = centroids; } /** * @throws Exception */ @SuppressWarnings("unchecked") protected final void ntmFlowTimestep() throws Exception { NTMsimulation.simulate(this); if (this.getSettingsNTM().getTimeStepDurationNTM().getInUnit(DurationUnit.SECOND) * NTMsimulation.steps % this.getSettingsNTM().getReRouteTimeInterval().getInUnit(DurationUnit.SECOND) == 0) { // in case we run on an animator and not on a simulator, we create the animation if (this.simulator instanceof AnimatorInterface) { if (this.getInputNTM().isPaint()) { createDynamicAreaAnimation(this); } } } try { // start this method again this.simulator.scheduleEventRel(this.settingsNTM.getTimeStepDurationNTM(), this, this, "ntmFlowTimestep", null); } catch (Exception e) { e.printStackTrace(); } } /** * Make the animation for each of the components that we want to see on the screen. */ private void createAnimation() { try { // let's make several layers with the different types of information boolean showLinks = false; boolean showFlowLinks = true; boolean showConnectors = true; boolean showNodes = true; boolean showGraphEdges = true; boolean showAreaNode = true; boolean showArea = false; if (showArea) { for (Area area : this.areas.values()) { new AreaAnimation(area, this.simulator, 5f); } } if (showLinks) { for (LinkEdge shpLink : this.linkGraph.edgeSet()) { new ShpLinkAnimation(shpLink.getLink(), this.simulator, 2.0F, Color.RED); } } if (showConnectors) { for (NTMLink shpConnector : this.shpConnectors.values()) { new ShpLinkAnimation(shpConnector, this.simulator, 5.0F, Color.BLUE); } } if (showFlowLinks) { for (NTMLink flowLink : this.flowLinks.values()) { new ShpLinkAnimation(flowLink, this.simulator, 10.0F, Color.RED); } } if (showNodes) { for (NTMNode Node : this.nodes.values()) { new ShpNodeAnimation(Node, this.simulator); } } // for (LinkEdge linkEdge : this.linkGraph.edgeSet()) // { // new LinkAnimation(linkEdge.getEdge(), this.simulator, 0.5f); // } if (showGraphEdges) { for (LinkEdge linkEdge : this.areaGraph.edgeSet()) { new ShpLinkAnimation(linkEdge.getLink(), this.simulator, 5f, Color.BLACK); } } if (showAreaNode) { for (NTMNode node : this.areaGraph.vertexSet()) { new NodeAnimation(node, this.simulator); } } } catch (NamingException | RemoteException exception) { exception.printStackTrace(); } } /** * Make the animation for each of the components that we want to see on the screen. */ static void createDynamicAreaAnimation(NTMModel model) { try { // let's make several layers with the different types of information boolean showLinks = false; boolean showFlowLinks = true; boolean showConnectors = false; boolean showNodes = false; boolean showEdges = false; boolean showAreaNode = false; boolean showArea = true; if (showArea) { if (model.getInputNTM().COMPRESS_AREAS) { for (Area area : model.bigAreas.values()) { if (area.getTrafficBehaviourType() == TrafficBehaviourType.NTM) { new AreaAnimation(area, model.simulator, 4f); } } } else { for (Area area : model.areas.values()) { if (area.getTrafficBehaviourType() == TrafficBehaviourType.NTM) { new AreaAnimation(area, model.simulator, 4f); } } } /* * for (AreaFlowLink areaFlowLinks : model.areaFlowLinks.values()) { new AreaFlowLinkAnimation(areaFlowLinks, * model.simulator, 4f); } */ } if (showLinks) { for (NTMLink shpLink : model.shpLinks.values()) { new ShpLinkAnimation(shpLink, model.simulator, 6.0F, Color.GRAY); } } if (showConnectors) { for (NTMLink shpConnector : model.shpConnectors.values()) { new ShpLinkAnimation(shpConnector, model.simulator, 5.0F, Color.BLUE); } } if (showFlowLinks) { for (NTMLink flowLink : model.flowLinks.values()) { new ShpLinkAnimation(flowLink, model.simulator, 2.0F, Color.RED); } } if (showNodes) { for (NTMNode Node : model.nodes.values()) { new ShpNodeAnimation(Node, model.simulator); } } // for (LinkEdge linkEdge : model.linkGraph.edgeSet()) // { // new LinkAnimation(linkEdge.getEdge(), model.simulator, 0.5f); // } if (showEdges) { for (LinkEdge linkEdge : model.areaGraph.edgeSet()) { new ShpLinkAnimation(linkEdge.getLink(), model.simulator, 3f, Color.BLACK); } } if (showAreaNode) { for (NTMNode node : model.areaGraph.vertexSet()) { new NodeAnimation(node, model.simulator); } } } catch (NamingException | RemoteException exception) { exception.printStackTrace(); } } /** * @return settingsNTM. */ public final NTMSettings getSettingsNTM() { return this.settingsNTM; } /** * @param settingsNTM NTMSettings; set settingsNTM. */ public final void setSettingsNTM(final NTMSettings settingsNTM) { this.settingsNTM = settingsNTM; } /** * @return tripDemand. */ public final TripDemand getTripDemand() { return this.tripDemand; } /** * @param tripDemand TripDemand; set tripDemand. */ public final void setTripDemand(TripDemand tripDemand) { this.tripDemand = tripDemand; } /** * @return departureTimeProfiles. */ public final ArrayList getDepartureTimeProfiles() { return this.departureTimeProfiles; } /** * @param departureTimeProfiles ArrayList<DepartureTimeProfile>; set departureTimeProfiles. */ public final void setDepartureTimeProfiles(final ArrayList departureTimeProfiles) { this.departureTimeProfiles = departureTimeProfiles; } /** * @return flowLinks. */ public final Map getFlowLinks() { return this.flowLinks; } /** * @param flowLinks Map<String,NTMLink>; set flowLinks. */ public final void setFlowLinks(final Map flowLinks) { this.flowLinks = flowLinks; } /** * @return areaFlowLink. */ public Map getAreaFlowLinks() { return this.areaFlowLinks; } /** * @param areaFlowLink set areaFlowLink. */ public void setAreaFlowLinks(Map areaFlowLinks) { this.areaFlowLinks = areaFlowLinks; } /** * @return areaGraph. */ public final SimpleDirectedWeightedGraph> getAreaGraph() { return this.areaGraph; } /** * @return shpConnectors. */ public final Map getShpConnectors() { return this.shpConnectors; } /** * @param shpConnectors Map<String,NTMLink>; set shpConnectors. */ public final void setShpConnectors(final Map shpConnectors) { this.shpConnectors = shpConnectors; } /** * @return shpBigConnectors. */ public Map getShpBigConnectors() { return this.shpBigConnectors; } /** * @param shpBigConnectors Map<String,NTMLink>; set shpBigConnectors. */ public void setShpBigConnectors(Map shpBigConnectors) { this.shpBigConnectors = shpBigConnectors; } /** * @return areas. */ public final Map getAreas() { return this.areas; } /** * @return bigAreas. */ public Map getBigAreas() { return this.bigAreas; } /** * @param bigAreas Map<String,Area>; set bigAreas. */ public void setBigAreas(Map bigAreas) { this.bigAreas = bigAreas; } /** * @return nodes. */ public final Map getNodes() { return this.nodes; } /** * @return shpLinks. */ public final Map getShpLinks() { return this.shpLinks; } /** * @return centroids. */ public final Map getCentroids() { return this.centroids; } /** * @return linkGraph. */ public final SimpleDirectedWeightedGraph> getLinkGraph() { return this.linkGraph; } /** * Links that show typical highway or mainroad behaviour are specified explicitly as roads. * @param shpLinks Map<String,NTMLink>; the links of this model * @return the flowLinks * @throws NetworkException */ public static Map createFlowLinks(final Map shpLinks, Speed maxSpeed, Frequency maxCapacity) throws NetworkException { Map flowLinks = new LinkedHashMap(); for (NTMLink shpLink : shpLinks.values()) { if (shpLink.getFreeSpeed().doubleValue() >= maxSpeed.doubleValue() && shpLink.getCapacity().doubleValue() > maxCapacity.doubleValue()) { NTMLink flowLink = new NTMLink(shpLink); if (flowLink.getDesignLine() == null) { System.out.println("NTMModel line 694 ... no geometry"); } flowLink.setBehaviourType(TrafficBehaviourType.FLOW); ((NTMNode) flowLink.getStartNode()).setBehaviourType(TrafficBehaviourType.FLOW); ((NTMNode) flowLink.getEndNode()).setBehaviourType(TrafficBehaviourType.FLOW); flowLinks.put(flowLink.getId(), flowLink); } } for (NTMLink flowLink : flowLinks.values()) { if (flowLink.getFreeSpeed().doubleValue() >= maxSpeed.doubleValue() && flowLink.getCapacity().doubleValue() > maxCapacity.doubleValue()) { shpLinks.remove(flowLink.getId()); } } return flowLinks; } public void copyInputFiles(String path, String fileDemand, String fileProfiles) throws IOException { // copy input files to the output map File dir = new File(this.getInputNTM().getOutputMap()); if (!dir.exists()) { boolean result = false; try { dir.mkdir(); result = true; } catch (SecurityException se) { // handle it } if (result) { System.out.println("DIR created"); } } Path from = Paths.get(this.getInputNTM().getInputMap() + "/" + fileProfiles); Path to = Paths.get(this.getInputNTM().getInputMap() + this.getInputNTM().getOutputMap() + "/" + fileProfiles); Files.copy(from, to, StandardCopyOption.REPLACE_EXISTING); from = Paths.get(this.getInputNTM().getInputMap() + fileDemand); to = Paths.get(this.getInputNTM().getInputMap() + this.getInputNTM().getOutputMap() + fileDemand); Files.copy(from, to, StandardCopyOption.REPLACE_EXISTING); } /** * @return compressedAreas. */ public ShapeStore getCompressedAreas() { return this.compressedAreas; } /** * @param compressedAreas ShapeStore; set compressedAreas. */ public void setCompressedAreas(ShapeStore compressedAreas) { this.compressedAreas = compressedAreas; } /** * @return bigCentroids. */ public Map getBigCentroids() { return this.bigCentroids; } /** * @param bigCentroids Map<String,NTMNode>; set bigCentroids. */ public void setBigCentroids(Map bigCentroids) { this.bigCentroids = bigCentroids; } /** * @return compressedTripDemand. */ public TripDemand getCompressedTripDemand() { return this.compressedTripDemand; } /** * @param compressedTripDemand TripDemand<TripInfoTimeDynamic>; set compressedTripDemand. */ public void setCompressedTripDemand(TripDemand compressedTripDemand) { this.compressedTripDemand = compressedTripDemand; } /** * @return debugLinkList. */ public Map getDebugLinkList() { return this.debugLinkList; } /** * @param debugLinkList LinkedHashMap<String,NTMLink>; set debugLinkList. */ public void setDebugLinkList(LinkedHashMap debugLinkList) { this.debugLinkList = debugLinkList; } /** * @return nodeAreaGraphMap. */ public Map getNodeAreaGraphMap() { return this.nodeAreaGraphMap; } /** * @param nodeAreaGraphMap Map<String,NTMNode>; set nodeAreaGraphMap. */ public void setNodeAreaGraphMap(Map nodeAreaGraphMap) { this.nodeAreaGraphMap = nodeAreaGraphMap; } /** * @return inputNTM. */ public InputNTM getInputNTM() { return this.inputNTM; } /** * @param inputNTM InputNTM; set inputNTM. */ public void setInputNTM(InputNTM inputNTM) { this.inputNTM = inputNTM; } /** {@inheritDoc} */ @Override public OTSNetwork getNetwork() { return this.network; } /* * // Create new Areas around highways, that show different behaviour *//** * @param shpLinks the links of this model * @param areas the intial areas * @return the additional areas */ /* * public static Map createCordonFeederAreas(final Map shpLinks, final Map areas) { for (ShpLink shpLink : shpLinks.values()) { if (shpLink.getSpeed() > 70 && shpLink.getCapacity() > * 3400) { Geometry buffer = shpLink.getDesignLine().buffer(10); Point centroid = buffer.getCentroid(); String nr = * shpLink.getNr(); String name = shpLink.getName(); String gemeente = shpLink.getName(); String gebied = shpLink.getName(); * String regio = shpLink.getName(); double dhb = 0.0; AreaNTM area = new AreaNTM(buffer, nr, name, gemeente, gebied, regio, * dhb, centroid); areas.put(nr, area); } } return areas; } */ }