Package org.opentrafficsim.road.gtu.lane.tactical

Class LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory

java.lang.Object

org.opentrafficsim.road.gtu.lane.tactical.LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory

All Implemented Interfaces:

Serializable, LaneBasedTacticalPlannerFactory<LaneBasedGTUFollowingDirectedChangeTacticalPlanner>, ModelComponentFactory

public class LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory
extends Object
implements LaneBasedTacticalPlannerFactory<LaneBasedGTUFollowingDirectedChangeTacticalPlanner>, Serializable

Factory to create LaneBasedGTUFollowingChange0TacticalPlanner.

Copyright (c) 2013-2020 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See OpenTrafficSim License.

Version:

$Revision$, $LastChangedDate$, by $Author$, initial version Aug 2, 2016

Author:

Alexander Verbraeck, Peter Knoppers, Wouter Schakel

See Also:

Serialized Form

Constructor Summary

Constructors

Constructor	Description
LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(CarFollowingModelFactory<? extends GTUFollowingModelOld> carFollowingModelFactory)	Constructor with car-following model factory.
LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(GTUFollowingModelOld carFollowingModel)	Constructor with fixed stateless car-following and lane change model.

Method Summary

Modifier and Type	Method	Description
LaneBasedGTUFollowingDirectedChangeTacticalPlanner	create(LaneBasedGTU gtu)	Creates a new tactical planner for the given GTU.
Parameters	getParameters()	Returns parameters for the given component.
String	toString()

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Methods inherited from interface org.opentrafficsim.road.gtu.lane.tactical.LaneBasedTacticalPlannerFactory

peekDesiredHeadway, peekDesiredSpeed

Constructor Detail

LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory

public LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(CarFollowingModelFactory<? extends GTUFollowingModelOld> carFollowingModelFactory)

Constructor with car-following model factory.

Parameters:

carFollowingModelFactory - CarFollowingModelFactory<? extends GTUFollowingModelOld>; car following model factory

LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory

public LaneBasedGTUFollowingDirectedChangeTacticalPlannerFactory(GTUFollowingModelOld carFollowingModel)

Constructor with fixed stateless car-following and lane change model.

Parameters:

carFollowingModel - GTUFollowingModelOld; car following model

Method Detail

create

public final LaneBasedGTUFollowingDirectedChangeTacticalPlanner create(LaneBasedGTU gtu)
                                                                throws GTUException

Creates a new tactical planner for the given GTU.

Specified by:

create in interface LaneBasedTacticalPlannerFactory<LaneBasedGTUFollowingDirectedChangeTacticalPlanner>

Parameters:

gtu - LaneBasedGTU; GTU

Returns:

tactical planner for the given GTU

Throws:

GTUException - if the gtu is not suitable in any way for the creation of the tactical planner

getParameters

public final Parameters getParameters()

Returns parameters for the given component. These parameters should contain, and possibly overwrite, parameters from sub-components. A parameter factory at the highest level (strategical planner) may overwrite any parameter. This combination allows that for sub-components, default factories can be used, while the parameter factory only overwrites parameters different for specific GTU types. The default implementation returns all default parameter values declared at the class.

Conventional use is:

 Parameters parameters = this.subComponent1Factory.getParameters();
 this.subComponent2Factory.getParameters().setAllIn(parameters);
 parameters.setDefaultParameters(componentClass);
 parameters.setDefaultParameters(staticUtilityClass);
 return parameters;
 

where all parameters used in componentClass are defined or forwarded in componentClass.

 // forwarded
 public static final ParameterTypeAcceleration A = ParameterTypes.A;
 
 // defined
 public static final ParameterTypeDouble FACTOR = new ParameterTypeDouble("factor", "factor on response", 1.0);
 

The same holds for static utilities that are used. Parameters should be defined at the utility class, and parameters of used utilities should be included.

Specified by:

getParameters in interface ModelComponentFactory

Returns:

Parameters; parameters for the given component

toString

public final String toString()

Overrides:

toString in class Object