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1   package org.opentrafficsim.road.gtu.generator.headway;
2   
3   import org.djunits.value.vdouble.scalar.Frequency;
4   import org.djunits.value.vdouble.scalar.Time;
5   
6   /**
7    * Interface for arrivals in an {@code ArrivalsHeadwayGenerator}. Arrivals are defined as a piece-wise linear frequency over
8    * time.
9    * <p>
10   * Copyright (c) 2013-2019 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved. <br>
11   * BSD-style license. See <a href="http://opentrafficsim.org/node/13">OpenTrafficSim License</a>.
12   * <p>
13   * @version $Revision$, $LastChangedDate$, by $Author$, initial version 13 dec. 2017 <br>
14   * @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
15   * @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
16   * @author <a href="http://www.transport.citg.tudelft.nl">Wouter Schakel</a>
17   */
18  public interface Arrivals
19  {
20  
21      /**
22       * Returns the demand at given time, which may be the sum of child objects. The input {@code sliceStart} is used to resolve
23       * the value at a time slice boundary in case of a stepwise (discontinuous) demand pattern. If {@code sliceStart = true} and
24       * {@code time} is a slice boundary, the demand value for <i>after</i> the slice boundary should be returned. In that case,
25       * the caller is processing a time slice after {@code time}, hence it's the slice start. If {@code sliceStart = false} the
26       * demand value of before the slice boundary should be returned. For continuous demand patterns, {@code sliceStart} can be
27       * ignored.
28       * @param time Time; simulation time
29       * @param sliceStart boolean; whether the time is at the start of an arbitrary time slice
30       * @return Frequency; returns the total demand for branching nodes, or the demand at a leaf node, at the given time
31       */
32      Frequency getFrequency(Time time, boolean sliceStart);
33  
34      /**
35       * Returns the start time of the next time slice after the given time or {@code null} if no such slice exists. The next time
36       * slice starts as soon as the current slice ends, where each slice has it's own linear (or constant) demand. Thus, any
37       * change of slope in the demand pattern initiates a new slice. If {@code time} is equal to a time slice boundary, the next
38       * value should be returned.
39       * @param time Time; time after which the first slice start time is requested
40       * @return start time of the next time slice after the given time or {@code null} if no such slice exists
41       */
42      Time nextTimeSlice(Time time);
43  
44  }