package art.servers.fleetserver.configuration;
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import art.library.model.devices.vehicle.VehiclePosition;
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import art.library.osm.OSM;
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import art.servers.Shared;
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import com.fasterxml.jackson.annotation.JsonProperty;
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import com.fasterxml.jackson.annotation.JsonRootName;
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import java.util.ArrayList;
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import java.util.List;
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@JsonRootName(value = "Configuration bus action")
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public class ConfigurationBusAction
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{
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@JsonProperty("Controller")
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public String controller = null;
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/**
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* Special demand
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*/
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@JsonProperty("Demand")
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public int demand = -1;
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@JsonProperty("Latitude")
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public double latitude = 0d;
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@JsonProperty("Longitude")
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public double longitude = 0d;
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/**
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* K coefficient for time calculation
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*/
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@JsonProperty("K")
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public double K = 0d;
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/**
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* Minimum time in seconds
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*/
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@JsonProperty("Minimum time")
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public int minimumTime = 0;
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/**
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* Maximum time in seconds
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*/
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@JsonProperty("Maximum time")
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public int maximumTime = 0;
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/**
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* Minimum speed in km/h
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*/
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@JsonProperty("Minimum speed")
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public double minimumSpeed = 0d;
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/**
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* Maximum speed in km/h
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*/
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@JsonProperty("Maximum speed")
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public double maximumSpeed = 0d;
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/**
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* Minimum time between actions in seconds
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*/
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@JsonProperty("Minimum time between actions")
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public int minimumTimeBetweenActions = 0;
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/**
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* Activation area
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*/
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@JsonProperty("Activation area")
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public ConfigurationBusActionArea activationArea = null;
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/**
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* Cancelation area
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*/
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@JsonProperty("Cancelation area")
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public ConfigurationBusActionArea cancelationArea = null;
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/**
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* Schedulers
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*/
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@JsonProperty("Schedulers")
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public List<ConfigurationBusActionScheduler> lscheduler = new ArrayList<ConfigurationBusActionScheduler>();
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public boolean isSelectionPosition(VehiclePosition position)
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{
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try
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{
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if ((position.speed < minimumSpeed) || (position.speed > maximumSpeed)) return(false);
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long lastAction = art.servers.fleetserver.Shared.hlastActionController.get(controller);
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if ((System.currentTimeMillis()-lastAction) < (minimumTimeBetweenActions*1000)) return(false);
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double distance = OSM.mercator.getDistance(position.latitude, position.longitude, activationArea.latitude, activationArea.longitude);
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if (distance > activationArea.radius) return(false);
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// Check angle
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if (activationArea.correctAngle(position) == false) return(false);
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if (existSchedulerActive() == false) return false;
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return(true);
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}
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catch (Exception exception)
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{
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Shared.printstack("ConfigurationBusAction", exception);
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}
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return(false);
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}
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public boolean isCancelPosition(VehiclePosition position)
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{
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try
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{
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if ((position.speed < minimumSpeed) || (position.speed > maximumSpeed)) return(false);
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long lastAction = art.servers.fleetserver.Shared.hlastActionController.get(controller);
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if ((System.currentTimeMillis()-lastAction) < (minimumTimeBetweenActions*1000)) return(false);
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double distance = OSM.mercator.getDistance(position.latitude, position.longitude, cancelationArea.latitude, cancelationArea.longitude);
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if (distance > cancelationArea.radius) return(false);
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// Check angle
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if (cancelationArea.correctAngle(position) == false) return(false);
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if (existSchedulerActive() == false) return false;
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return(true);
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}
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catch (Exception exception)
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{
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Shared.printstack("ConfigurationBusAction", exception);
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}
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return(false);
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}
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private boolean existSchedulerActive()
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{
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try
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{
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for (ConfigurationBusActionScheduler scheduler : lscheduler)
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{
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if (scheduler.active() == true)
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{
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return(true);
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}
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}
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}
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catch (Exception exception)
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{
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Shared.printstack("ConfigurationBusAction", exception);
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}
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return(false);
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}
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}
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