package org.opentrafficsim.road.gtu.lane.perception.mental;
   
   import static org.opentrafficsim.base.parameters.constraint.NumericConstraint.POSITIVE;
   import static org.opentrafficsim.base.parameters.constraint.NumericConstraint.POSITIVEZERO;
   
   import java.util.Set;
   
   import org.opentrafficsim.base.parameters.ParameterException;
   import org.opentrafficsim.base.parameters.ParameterTypeDouble;
  import org.opentrafficsim.base.parameters.Parameters;
  import org.opentrafficsim.core.gtu.GTUException;
  import org.opentrafficsim.core.gtu.Try;
  import org.opentrafficsim.road.gtu.lane.LaneBasedGTU;
  import org.opentrafficsim.road.gtu.lane.perception.LanePerception;
  
  import nl.tudelft.simulation.language.Throw;
  
  /**
   * Task-capability interface in accordance to Fuller (2011). Task demand is the sum of demands described by individual
   * {@code Task}s. These take exogenous information to describe the workload in fundamental relations. Task demand is divided by
   * task capability to arrive at a task saturation. Task saturation is input to {@code BehavioralAdaptation}s which alter
   * parameters describing personal traits, such as desired headway and desired speed. In this way, task demand is kept at an
   * equilibrium as described by Fuller.
   * <p>
   * A {@code BehavioralAdaptation} may also determine what the level of situational awareness is, which includes determining
   * reaction time. Both situational awareness and reaction time parameters can be used in perception to model deteriorated
   * perception due to a task demand imbalance.
   * <p>
   * Fuller, R., Driver control theory: From task difficulty homeostasis to risk allostasis, in Handbook of Traffic Psychology.
   * 2011. p. 13-26
   * <p>
   * Copyright (c) 2013-2018 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/node/13">OpenTrafficSim License</a>.
   * <p>
   * @version $Revision$, $LastChangedDate$, by $Author$, initial version 3 apr. 2018 <br>
   * @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
   * @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
   * @author <a href="http://www.transport.citg.tudelft.nl">Wouter Schakel</a>
   */
  public class Fuller implements Mental
  {
  
      // Parameters
  
      /** Task capability in nominal task capability units, i.e. mean is 1. */
      public static final ParameterTypeDouble TC = new ParameterTypeDouble("TC", "Task capability", 1.0, POSITIVE);
  
      /** Critical task saturation. */
      public static final ParameterTypeDouble TS_CRIT =
              new ParameterTypeDouble("TScrit", "Critical task saturation", 0.8, POSITIVEZERO)
              {
                  /** */
                  private static final long serialVersionUID = 20180403L;
  
                  /** {@inheritDoc} */
                  @Override
                  public void check(final Double value, final Parameters params) throws ParameterException
                  {
                      Double tsMax = params.getParameterOrNull(TS_MAX);
                      Throw.when(tsMax != null && value > tsMax, ParameterException.class,
                              "Value for TS_CRIT should not be larger than TS_MAX.");
                  }
              };
  
      /** Maximum task saturation, pertaining to maximum deterioration. */
      public static final ParameterTypeDouble TS_MAX =
              new ParameterTypeDouble("TSmax", "Maximum task saturation", 2.0, POSITIVEZERO)
              {
                  /** */
                  private static final long serialVersionUID = 20180403L;
  
                  /** {@inheritDoc} */
                  @Override
                  public void check(final Double value, final Parameters params) throws ParameterException
                  {
                      Double tsCrit = params.getParameterOrNull(TS_CRIT);
                      Throw.when(tsCrit != null && value < tsCrit, ParameterException.class,
                              "Value for TS_MAX should not be smaller than TS_CRIT.");
                  }
              };
  
      /** Task saturation. */
      public static final ParameterTypeDouble TS = new ParameterTypeDouble("TS", "Task saturation", 0.0, POSITIVEZERO);
  
      // Properties
  
      /** Tasks causing task demand. */
      private final Set<Task> tasks;
  
      /** Behavioral adaptations depending on task saturation. */
      private final Set<BehavioralAdaptation> behavioralAdapatations;
  
      /**
       * Constructor with custom situational awareness.
       * @param tasks Set&lt;Task&gt;; tasks
       * @param behavioralAdapatations Set&lt;BehavioralAdaptation&gt;; behavioralAdapatations
       */
      public Fuller(final Set<Task> tasks, final Set<BehavioralAdaptation> behavioralAdapatations)
      {
         Throw.whenNull(tasks, "Tasks may not be null.");
         Throw.whenNull(behavioralAdapatations, "Behavioral adaptations may not be null.");
         this.tasks = tasks;
         this.behavioralAdapatations = behavioralAdapatations;
     }
 
     /**
      * Adds a task.
      * @param task Task; task to add
      */
     public void addTask(final Task task)
     {
         this.tasks.add(task);
     }
     
     /**
      * Removes a task.
      * @param task Task; task to remove
      */
     public void removeTask(final Task task)
     {
         this.tasks.remove(task);
     }
     
     /** {@inheritDoc} */
     @Override
     public void apply(final LanePerception perception) throws ParameterException, GTUException
     {
         LaneBasedGTU gtu = Try.assign(() -> perception.getGtu(), "Could not obtain GTU.");
         Parameters parameters = gtu.getParameters();
         double taskDemand = 0.0;
         // a) the fundamental diagrams of task workload are defined in the tasks
         // b) sum task demand
         for (Task task : this.tasks)
         {
             taskDemand += task.demand(perception, gtu, parameters);
         }
         double taskSaturation = taskDemand / parameters.getParameter(TC);
         if (taskSaturation < 0.0)
         {
             System.out.println("oh dear");
         }
         parameters.setParameter(TS, taskSaturation);
         // c) behavioral adaptation
         for (BehavioralAdaptation behavioralAdapatation : this.behavioralAdapatations)
         {
             behavioralAdapatation.adapt(parameters, taskSaturation);
         }
         // d) situational awareness can be implemented by one of the behavioral responses
         // e) perception errors from situational awareness are included in the perception step
         // f) reaction time from situational awareness are included in the perception step
     }
 
     /**
      * Interface for tasks, where each describes a fundamental relation between exogenous inputs causing a mental demand.
      * <p>
      * Copyright (c) 2013-2018 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/node/13">OpenTrafficSim License</a>.
      * <p>
      * @version $Revision$, $LastChangedDate$, by $Author$, initial version 3 apr. 2018 <br>
      * @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
      * @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
      * @author <a href="http://www.transport.citg.tudelft.nl">Wouter Schakel</a>
      */
     @FunctionalInterface
     public interface Task
     {
         /**
          * Returns the demand of this task.
          * @param perception LanePerception; perception
          * @param gtu LaneBasedGTU; gtu
          * @param parameters Parameters; parameters
          * @return double; demand of this task
          * @throws ParameterException if a parameter is missing or out of bounds
          * @throws GTUException exceptions pertaining to the GTU
          */
         double demand(LanePerception perception, LaneBasedGTU gtu, Parameters parameters)
                 throws ParameterException, GTUException;
         
         /**
          * Class for constant demand.
          */
         class Constant implements Task
         {
             /** Task demand. */
             private double taskDemand;
             
             /**
              * Constructor.
              * @param taskDemand double; task demand
              */
             public Constant(final double taskDemand)
             {
                 this.taskDemand = taskDemand;
             }
             
             /** {@inheritDoc} */
             @Override
             public double demand(final LanePerception perception, final LaneBasedGTU gtu, final Parameters parameters)
                     throws ParameterException, GTUException
             {
                 return this.taskDemand;
             }
         }
     }
 
     /**
      * Behavioral adaptation by changing parameter values.
      * <p>
      * Copyright (c) 2013-2018 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/node/13">OpenTrafficSim License</a>.
      * <p>
      * @version $Revision$, $LastChangedDate$, by $Author$, initial version 3 apr. 2018 <br>
      * @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
      * @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
      * @author <a href="http://www.transport.citg.tudelft.nl">Wouter Schakel</a>
      */
     @FunctionalInterface
     public interface BehavioralAdaptation
     {
         /**
          * Adapt to task saturation by changing parameter values.
          * @param parameters Parameters; parameters
          * @param taskSaturation double; task saturation
          * @throws ParameterException if a parameter is missing or out of bounds
          */
         void adapt(Parameters parameters, double taskSaturation) throws ParameterException;
     }
 
 }