ODMatrix.java
package org.opentrafficsim.road.gtu.strategical.od;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import org.djunits.unit.FrequencyUnit;
import org.djunits.unit.TimeUnit;
import org.djunits.value.StorageType;
import org.djunits.value.ValueException;
import org.djunits.value.vdouble.scalar.Frequency;
import org.djunits.value.vdouble.scalar.Time;
import org.djunits.value.vdouble.vector.FrequencyVector;
import org.djunits.value.vdouble.vector.TimeVector;
import org.djutils.exceptions.Throw;
import org.opentrafficsim.base.Identifiable;
import org.opentrafficsim.core.network.NetworkException;
import org.opentrafficsim.core.network.Node;
import org.opentrafficsim.core.network.route.Route;
import org.opentrafficsim.road.gtu.generator.headway.DemandPattern;
/**
* The minimal OD matrix has 1 origin, 1 destination and 1 time period. More of each can be used. Further categorization of data
* is possible, i.e. for origin O to destination D, <i>for lane L, for route R and for vehicle class C</i>, the demand at time T
* is D. The further categorization is defined by an array of {@code Class}'s that define the categorization.
* <p>
* Copyright (c) 2013-2019 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/current/license.html">OpenTrafficSim License</a>.
* <p>
* @version $Revision$, $LastChangedDate$, by $Author$, initial version Sep 15, 2016 <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 ODMatrix implements Serializable, Identifiable
{
/** */
private static final long serialVersionUID = 20160921L;
/** Id. */
private final String id;
/** Origin nodes. */
private final List<Node> origins;
/** Destination nodes. */
private final List<Node> destinations;
/** Categorization of demand data. */
private final Categorization categorization;
/** Global time vector. */
private final TimeVector globalTimeVector;
/** Global interpolation of the data. */
private final Interpolation globalInterpolation;
/** Demand data per origin and destination, and possibly further categorization. */
private final Map<Node, Map<Node, Map<Category, DemandPattern>>> demandData = new LinkedHashMap<>();
/** Node comparator. */
private static final Comparator<Node> COMPARATOR = new Comparator<Node>()
{
/** {@inheritDoc} */
@Override
public int compare(final Node o1, final Node o2)
{
return o1.getId().compareTo(o2.getId());
}
};
/**
* Constructs an OD matrix.
* @param id String; id
* @param origins List<? extends Node>; origin nodes
* @param destinations List<? extends Node>; destination nodes
* @param categorization Categorization; categorization of data
* @param globalTimeVector TimeVector; default time
* @param globalInterpolation Interpolation; interpolation of demand data
* @throws NullPointerException if any input is null
*/
public ODMatrix(final String id, final List<? extends Node> origins, final List<? extends Node> destinations,
final Categorization categorization, final TimeVector globalTimeVector, final Interpolation globalInterpolation)
{
Throw.whenNull(id, "Id may not be null.");
Throw.when(origins == null || origins.contains(null), NullPointerException.class, "Origin may not be or contain null.");
Throw.when(destinations == null || destinations.contains(null), NullPointerException.class,
"Destination may not be or contain null.");
Throw.whenNull(categorization, "Categorization may not be null.");
// Throw.whenNull(globalTimeVector, "Global time vector may not be null.");
// Throw.whenNull(globalInterpolation, "Global interpolation may not be null.");
this.id = id;
this.origins = new ArrayList<>(origins);
this.destinations = new ArrayList<>(destinations);
Collections.sort(this.origins, COMPARATOR);
Collections.sort(this.destinations, COMPARATOR);
this.categorization = categorization;
this.globalTimeVector = globalTimeVector;
this.globalInterpolation = globalInterpolation;
// build empty OD
for (Node origin : origins)
{
Map<Node, Map<Category, DemandPattern>> map = new LinkedHashMap<>();
for (Node destination : destinations)
{
map.put(destination, new TreeMap<>(new Comparator<Category>()
{
/** {@inheritDoc} */
@Override
public int compare(final Category o1, final Category o2)
{
for (int i = 0; i < o1.getCategorization().size(); i++)
{
int order = Integer.compare(o1.get(i).hashCode(), o2.get(i).hashCode());
if (order != 0)
{
return order;
}
}
return 0;
}
}));
}
this.demandData.put(origin, map);
}
}
/**
* @return id.
*/
@Override
public final String getId()
{
return this.id;
}
/**
* @return origins.
*/
public final List<Node> getOrigins()
{
return new ArrayList<>(this.origins);
}
/**
* @return destinations.
*/
public final List<Node> getDestinations()
{
return new ArrayList<>(this.destinations);
}
/**
* @return categorization.
*/
public final Categorization getCategorization()
{
return this.categorization;
}
/**
* @return globalTimeVector.
*/
public final TimeVector getGlobalTimeVector()
{
return this.globalTimeVector;
}
/**
* @return globalInterpolation.
*/
public final Interpolation getGlobalInterpolation()
{
return this.globalInterpolation;
}
/**
* Add a demand vector to OD.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param demand FrequencyVector; demand data, length has to be equal to the global time vector
* @param fraction double; fraction of demand for this category
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putDemandVector(final Node origin, final Node destination, final Category category,
final FrequencyVector demand, final double fraction)
{
putDemandVector(origin, destination, category, demand, this.globalTimeVector, this.globalInterpolation, fraction);
}
/**
* Add a demand vector to OD.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param demand FrequencyVector; demand data, length has to be equal to the global time vector
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putDemandVector(final Node origin, final Node destination, final Category category,
final FrequencyVector demand)
{
putDemandVector(origin, destination, category, demand, this.globalTimeVector, this.globalInterpolation);
}
/**
* Add a demand vector to OD. In this method, which all other methods that add or put demand indirectly refer to, many
* consistency and validity checks are performed. These do not include checks on network connectivity, since the network may
* be subject to change during simulation.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param demand FrequencyVector; demand data, length has to be equal to the time vector
* @param timeVector TimeVector; time vector
* @param interpolation Interpolation; interpolation
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putDemandVector(final Node origin, final Node destination, final Category category,
final FrequencyVector demand, final TimeVector timeVector, final Interpolation interpolation)
{
Throw.whenNull(origin, "Origin may not be null.");
Throw.whenNull(destination, "Destination may not be null.");
Throw.whenNull(category, "Category may not be null.");
Throw.whenNull(demand, "Demand data may not be null.");
Throw.whenNull(timeVector, "Time vector may not be null.");
Throw.whenNull(interpolation, "Interpolation may not be null.");
Throw.when(!this.origins.contains(origin), IllegalArgumentException.class, "Origin '%s' is not part of the OD matrix.",
origin);
Throw.when(!this.destinations.contains(destination), IllegalArgumentException.class,
"Destination '%s' is not part of the OD matrix.", destination);
Throw.when(!this.categorization.equals(category.getCategorization()), IllegalArgumentException.class,
"Provided category %s does not belong to the categorization %s.", category, this.categorization);
Throw.when(demand.size() != timeVector.size() || demand.size() < 2, IllegalArgumentException.class,
"Demand data has different length than time vector, or has less than 2 values.");
for (Frequency q : demand)
{
Throw.when(q.lt0(), IllegalArgumentException.class, "Demand contains negative value(s).");
}
Time prevTime;
try
{
prevTime = timeVector.get(0).eq0() ? Time.createSI(-1.0) : Time.ZERO;
}
catch (ValueException exception)
{
// verified to be > 1, so no empty vector
throw new RuntimeException("Unexpected exception while checking time vector.", exception);
}
for (Time time : timeVector)
{
Throw.when(prevTime.ge(time), IllegalArgumentException.class,
"Time vector is not strictly increasing, or contains negative time.");
prevTime = time;
}
if (this.categorization.entails(Route.class))
{
Route route = category.get(Route.class);
try
{
Throw.when(!route.originNode().equals(origin) || !route.destinationNode().equals(destination),
IllegalArgumentException.class,
"Route from %s to %s does not comply with origin %s and destination %s.", route.originNode(),
route.destinationNode(), origin, destination);
}
catch (NetworkException exception)
{
throw new IllegalArgumentException("Route in OD has no nodes.", exception);
}
}
DemandPattern demandPattern = new DemandPattern(demand, timeVector, interpolation);
this.demandData.get(origin).get(destination).put(category, demandPattern);
}
/**
* Add a demand vector to OD, by a fraction of total demand.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param demand FrequencyVector; demand data, length has to be equal to the time vector
* @param timeVector TimeVector; time vector
* @param interpolation Interpolation; interpolation
* @param fraction double; fraction of demand for this category
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putDemandVector(final Node origin, final Node destination, final Category category,
final FrequencyVector demand, final TimeVector timeVector, final Interpolation interpolation, final double fraction)
{
Throw.whenNull(demand, "Demand data may not be null.");
FrequencyVector demandScaled;
if (fraction == 1.0)
{
demandScaled = demand;
}
else
{
double[] in = demand.getValuesInUnit();
double[] scaled = new double[in.length];
for (int i = 0; i < in.length; i++)
{
scaled[i] = in[i] * fraction;
}
try
{
demandScaled = new FrequencyVector(scaled, demand.getUnit(), demand.getStorageType());
}
catch (ValueException exception)
{
// cannot happen, we use an existing vector
throw new RuntimeException("An object was null.", exception);
}
}
putDemandVector(origin, destination, category, demandScaled, timeVector, interpolation);
}
/**
* Add a demand vector to OD, by a fraction per time period of total demand.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param demand FrequencyVector; demand data, length has to be equal to the time vector
* @param timeVector TimeVector; time vector
* @param interpolation Interpolation; interpolation
* @param fraction double[]; fraction of demand for this category
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putDemandVector(final Node origin, final Node destination, final Category category,
final FrequencyVector demand, final TimeVector timeVector, final Interpolation interpolation,
final double[] fraction)
{
Throw.whenNull(demand, "Demand data may not be null.");
Throw.whenNull(fraction, "Fraction data may not be null.");
Throw.whenNull(timeVector, "Time vector may not be null.");
Throw.when(demand.size() != timeVector.size() || timeVector.size() != fraction.length, IllegalArgumentException.class,
"Arrays are of unequal length: demand=%d, timeVector=%d, fraction=%d", demand.size(), timeVector.size(),
fraction.length);
double[] in = demand.getValuesInUnit();
double[] scaled = new double[in.length];
for (int i = 0; i < in.length; i++)
{
scaled[i] = in[i] * fraction[i];
}
FrequencyVector demandScaled;
try
{
demandScaled = new FrequencyVector(scaled, demand.getUnit(), demand.getStorageType());
}
catch (ValueException exception)
{
// cannot happen, we use an existing vector
throw new RuntimeException("An object was null.", exception);
}
putDemandVector(origin, destination, category, demandScaled, timeVector, interpolation);
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return demand data for given origin, destination and categorization, {@code null} if no data is given
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final FrequencyVector getDemandVector(final Node origin, final Node destination, final Category category)
{
DemandPattern demandPattern = getDemandPattern(origin, destination, category);
if (demandPattern == null)
{
return null;
}
return demandPattern.getDemandVector();
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return interpolation for given origin, destination and categorization, {@code null} if no data is given
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final TimeVector getTimeVector(final Node origin, final Node destination, final Category category)
{
DemandPattern demandPattern = getDemandPattern(origin, destination, category);
if (demandPattern == null)
{
return null;
}
return demandPattern.getTimeVector();
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return interpolation for given origin, destination and categorization, {@code null} if no data is given
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final Interpolation getInterpolation(final Node origin, final Node destination, final Category category)
{
DemandPattern demandPattern = getDemandPattern(origin, destination, category);
if (demandPattern == null)
{
return null;
}
return demandPattern.getInterpolation();
}
/**
* Returns the demand at given time. If given time is before the first time slice or after the last time slice, 0 demand is
* returned.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param time Time; time
* @param sliceStart boolean; whether the time is at the start of an arbitrary time slice
* @return demand for given origin, destination and categorization, at given time
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final Frequency getDemand(final Node origin, final Node destination, final Category category, final Time time,
final boolean sliceStart)
{
Throw.whenNull(time, "Time may not be null.");
DemandPattern demandPattern = getDemandPattern(origin, destination, category);
if (demandPattern == null)
{
return new Frequency(0.0, FrequencyUnit.PER_HOUR); // Frequency.ZERO gives "Hz" which is not nice for flow
}
return demandPattern.getFrequency(time, sliceStart);
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return OD entry for given origin, destination and categorization.
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public DemandPattern getDemandPattern(final Node origin, final Node destination, final Category category)
{
Throw.whenNull(origin, "Origin may not be null.");
Throw.whenNull(destination, "Destination may not be null.");
Throw.whenNull(category, "Category may not be null.");
Throw.when(!this.origins.contains(origin), IllegalArgumentException.class, "Origin '%s' is not part of the OD matrix",
origin);
Throw.when(!this.destinations.contains(destination), IllegalArgumentException.class,
"Destination '%s' is not part of the OD matrix.", destination);
Throw.when(!this.categorization.equals(category.getCategorization()), IllegalArgumentException.class,
"Provided category %s does not belong to the categorization %s.", category, this.categorization);
return this.demandData.get(origin).get(destination).get(category);
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return whether there is data for the specified origin, destination and category
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final boolean contains(final Node origin, final Node destination, final Category category)
{
return getDemandPattern(origin, destination, category) != null;
}
/**
* Returns the categories specified for given origin-destination combination.
* @param origin Node; origin
* @param destination Node; destination
* @return categories specified for given origin-destination combination
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws NullPointerException if an input is null
*/
public final Set<Category> getCategories(final Node origin, final Node destination)
{
Throw.whenNull(origin, "Origin may not be null.");
Throw.whenNull(destination, "Destination may not be null.");
Throw.when(!this.origins.contains(origin), IllegalArgumentException.class, "Origin '%s' is not part of the OD matrix",
origin);
Throw.when(!this.destinations.contains(destination), IllegalArgumentException.class,
"Destination '%s' is not part of the OD matrix.", destination);
return new LinkedHashSet<>(this.demandData.get(origin).get(destination).keySet());
}
/******************************************************************************************************/
/****************************************** TRIP METHODS **********************************************/
/******************************************************************************************************/
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param trips int[]; trip data, length has to be equal to the global time vector - 1, each value is the number of trips
* during a period
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putTripsVector(final Node origin, final Node destination, final Category category, final int[] trips)
{
putTripsVector(origin, destination, category, trips, getGlobalTimeVector());
}
/**
* Sets demand data by number of trips. Interpolation over time is stepwise.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param trips int[]; trip data, length has to be equal to the time vector - 1, each value is the number of trips during a
* period
* @param timeVector TimeVector; time vector
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IllegalArgumentException if the demand data has a different length than time data, or is less than 2
* @throws IllegalArgumentException if demand is negative or time not strictly increasing
* @throws IllegalArgumentException if the route (if in the category) is not from the origin to the destination
* @throws NullPointerException if an input is null
*/
public final void putTripsVector(final Node origin, final Node destination, final Category category, final int[] trips,
final TimeVector timeVector)
{
// this is what we need here, other checks in putDemandVector
Throw.whenNull(trips, "Demand data may not be null.");
Throw.whenNull(timeVector, "Time vector may not be null.");
Throw.when(trips.length != timeVector.size() - 1, IllegalArgumentException.class,
"Trip data and time data have wrong lengths. Trip data should be 1 shorter than time data.");
// convert to flow
double[] flow = new double[timeVector.size()];
try
{
for (int i = 0; i < trips.length; i++)
{
flow[i] = trips[i] / (timeVector.get(i + 1).getInUnit(TimeUnit.BASE_HOUR)
- timeVector.get(i).getInUnit(TimeUnit.BASE_HOUR));
}
// last value can remain zero as initialized
putDemandVector(origin, destination, category, new FrequencyVector(flow, FrequencyUnit.PER_HOUR, StorageType.DENSE),
timeVector, Interpolation.STEPWISE);
}
catch (ValueException exception)
{
// should not happen as we check and then loop over the array length
throw new RuntimeException("Could not translate trip vector into demand vector.", exception);
}
}
/**
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @return trip data for given origin, destination and categorization, {@code null} if no data is given
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws NullPointerException if an input is null
*/
public final int[] getTripsVector(final Node origin, final Node destination, final Category category)
{
FrequencyVector demand = getDemandVector(origin, destination, category);
if (demand == null)
{
return null;
}
int[] trips = new int[demand.size() - 1];
TimeVector time = getTimeVector(origin, destination, category);
Interpolation interpolation = getInterpolation(origin, destination, category);
for (int i = 0; i < trips.length; i++)
{
try
{
trips[i] = interpolation.integrate(demand.get(i), time.get(i), demand.get(i + 1), time.get(i + 1));
}
catch (ValueException exception)
{
// should not happen as we loop over the array length
throw new RuntimeException("Could not translate demand vector into trip vector.", exception);
}
}
return trips;
}
/**
* Returns the number of trips in the given time period.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param periodIndex int; index of time period
* @return demand for given origin, destination and categorization, at given time
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IndexOutOfBoundsException if the period is outside of the specified range
* @throws NullPointerException if an input is null
*/
public final int getTrips(final Node origin, final Node destination, final Category category, final int periodIndex)
{
TimeVector time = getTimeVector(origin, destination, category);
if (time == null)
{
return 0;
}
Throw.when(periodIndex < 0 || periodIndex >= time.size() - 1, IndexOutOfBoundsException.class,
"Period index out of range.");
FrequencyVector demand = getDemandVector(origin, destination, category);
Interpolation interpolation = getInterpolation(origin, destination, category);
try
{
return interpolation.integrate(demand.get(periodIndex), time.get(periodIndex), demand.get(periodIndex + 1),
time.get(periodIndex + 1));
}
catch (ValueException exception)
{
// should not happen as the index was checked
throw new RuntimeException("Could not get number of trips.", exception);
}
}
/**
* Adds a number of trips to given origin-destination combination, category and time period. This can only be done for data
* with stepwise interpolation.
* @param origin Node; origin
* @param destination Node; destination
* @param category Category; category
* @param periodIndex int; index of time period
* @param trips int; trips to add (may be negative)
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws IllegalArgumentException if the category does not belong to the categorization
* @throws IndexOutOfBoundsException if the period is outside of the specified range
* @throws UnsupportedOperationException if the interpolation of the data is not stepwise, or demand becomes negtive
* @throws NullPointerException if an input is null
*/
public final void increaseTrips(final Node origin, final Node destination, final Category category, final int periodIndex,
final int trips)
{
Interpolation interpolation = getInterpolation(origin, destination, category);
Throw.when(!interpolation.equals(Interpolation.STEPWISE), UnsupportedOperationException.class,
"Can only increase the number of trips for data with stepwise interpolation.");
TimeVector time = getTimeVector(origin, destination, category);
Throw.when(periodIndex < 0 || periodIndex >= time.size() - 1, IndexOutOfBoundsException.class,
"Period index out of range.");
FrequencyVector demand = getDemandVector(origin, destination, category);
try
{
double additionalDemand = trips / (time.get(periodIndex + 1).getInUnit(TimeUnit.BASE_HOUR)
- time.get(periodIndex).getInUnit(TimeUnit.BASE_HOUR));
double[] dem = demand.getValuesInUnit(FrequencyUnit.PER_HOUR);
Throw.when(dem[periodIndex] < -additionalDemand, UnsupportedOperationException.class,
"Demand may not become negative.");
dem[periodIndex] += additionalDemand;
putDemandVector(origin, destination, category, new FrequencyVector(dem, FrequencyUnit.PER_HOUR, StorageType.DENSE),
time, Interpolation.STEPWISE);
}
catch (ValueException exception)
{
// should not happen as the index was checked
throw new RuntimeException("Unexpected exception while getting number of trips.", exception);
}
}
/**
* Calculates total number of trips over time for given origin.
* @param origin Node; origin
* @return total number of trips over time for given origin
* @throws IllegalArgumentException if origin is not part of the OD matrix
* @throws NullPointerException if origin is null
*/
public final int originTotal(final Node origin)
{
int sum = 0;
for (Node destination : getDestinations())
{
sum += originDestinationTotal(origin, destination);
}
return sum;
}
/**
* Calculates total number of trips over time for given destination.
* @param destination Node; destination
* @return total number of trips over time for given destination
* @throws IllegalArgumentException if destination is not part of the OD matrix
* @throws NullPointerException if destination is null
*/
public final int destinationTotal(final Node destination)
{
int sum = 0;
for (Node origin : getOrigins())
{
sum += originDestinationTotal(origin, destination);
}
return sum;
}
/**
* Calculates total number of trips over time for the complete matrix.
* @return total number of trips over time for the complete matrix
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws NullPointerException if an input is null
*/
public final int matrixTotal()
{
int sum = 0;
for (Node origin : getOrigins())
{
for (Node destination : getDestinations())
{
sum += originDestinationTotal(origin, destination);
}
}
return sum;
}
/**
* Calculates total number of trips over time for given origin-destination combination.
* @param origin Node; origin
* @param destination Node; destination
* @return total number of trips over time for given origin-destination combination
* @throws IllegalArgumentException if origin or destination is not part of the OD matrix
* @throws NullPointerException if an input is null
*/
public final int originDestinationTotal(final Node origin, final Node destination)
{
int sum = 0;
for (Category category : getCategories(origin, destination))
{
TimeVector time = getTimeVector(origin, destination, category);
FrequencyVector demand = getDemandVector(origin, destination, category);
Interpolation interpolation = getInterpolation(origin, destination, category);
for (int i = 0; i < time.size() - 1; i++)
{
try
{
sum += interpolation.integrate(demand.get(i), time.get(i), demand.get(i + 1), time.get(i + 1));
}
catch (ValueException exception)
{
// should not happen as we loop over the array length
throw new RuntimeException("Unexcepted exception while determining total trips over time.", exception);
}
}
}
return sum;
}
/******************************************************************************************************/
/****************************************** OTHER METHODS *********************************************/
/******************************************************************************************************/
/** {@inheritDoc} */
@Override
@SuppressWarnings("checkstyle:designforextension")
public String toString()
{
return "ODMatrix [" + this.id + ", " + this.origins.size() + " origins, " + this.destinations.size() + " destinations, "
+ this.categorization + " ]";
}
/**
* Prints the complete OD matrix with each demand data on a single line.
*/
public final void print()
{
int originLength = 0;
for (Node origin : this.origins)
{
originLength = originLength >= origin.getId().length() ? originLength : origin.getId().length();
}
int destinLength = 0;
for (Node destination : this.destinations)
{
destinLength = destinLength >= destination.getId().length() ? destinLength : destination.getId().length();
}
String format = "%-" + Math.max(originLength, 1) + "s -> %-" + Math.max(destinLength, 1) + "s | ";
for (Node origin : this.origins)
{
Map<Node, Map<Category, DemandPattern>> destinationMap = this.demandData.get(origin);
for (Node destination : this.destinations)
{
Map<Category, DemandPattern> categoryMap = destinationMap.get(destination);
if (categoryMap.isEmpty())
{
System.out.println(String.format(format, origin.getId(), destination.getId()) + "-no data-");
}
else
{
for (Category category : categoryMap.keySet())
{
StringBuilder catStr = new StringBuilder("[");
String sep = "";
for (int i = 0; i < category.getCategorization().size(); i++)
{
catStr.append(sep);
Object obj = category.get(i);
if (obj instanceof Route)
{
catStr.append("Route: " + ((Route) obj).getId());
}
else
{
catStr.append(obj);
}
sep = ", ";
}
catStr.append("]");
// System.out.println("DEBUG format is \"" + format + "\"");
System.out.println(String.format(format, origin.getId(), destination.getId()) + catStr + " | "
+ categoryMap.get(category).getDemandVector());
}
}
}
}
}
/** {@inheritDoc} */
@Override
public final int hashCode()
{
final int prime = 31;
int result = 1;
result = prime * result + ((this.categorization == null) ? 0 : this.categorization.hashCode());
result = prime * result + ((this.demandData == null) ? 0 : this.demandData.hashCode());
result = prime * result + ((this.destinations == null) ? 0 : this.destinations.hashCode());
result = prime * result + ((this.globalInterpolation == null) ? 0 : this.globalInterpolation.hashCode());
result = prime * result + ((this.globalTimeVector == null) ? 0 : this.globalTimeVector.hashCode());
result = prime * result + ((this.id == null) ? 0 : this.id.hashCode());
result = prime * result + ((this.origins == null) ? 0 : this.origins.hashCode());
return result;
}
/** {@inheritDoc} */
@Override
public final boolean equals(final Object obj)
{
if (this == obj)
{
return true;
}
if (obj == null)
{
return false;
}
if (getClass() != obj.getClass())
{
return false;
}
ODMatrix other = (ODMatrix) obj;
if (this.categorization == null)
{
if (other.categorization != null)
{
return false;
}
}
else if (!this.categorization.equals(other.categorization))
{
return false;
}
if (this.demandData == null)
{
if (other.demandData != null)
{
return false;
}
}
else if (!this.demandData.equals(other.demandData))
{
return false;
}
if (this.destinations == null)
{
if (other.destinations != null)
{
return false;
}
}
else if (!this.destinations.equals(other.destinations))
{
return false;
}
if (this.globalInterpolation != other.globalInterpolation)
{
return false;
}
if (this.globalTimeVector == null)
{
if (other.globalTimeVector != null)
{
return false;
}
}
else if (!this.globalTimeVector.equals(other.globalTimeVector))
{
return false;
}
if (this.id == null)
{
if (other.id != null)
{
return false;
}
}
else if (!this.id.equals(other.id))
{
return false;
}
if (this.origins == null)
{
if (other.origins != null)
{
return false;
}
}
else if (!this.origins.equals(other.origins))
{
return false;
}
return true;
}
}