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OptaPlanner solves planning problems.
This lightweight, embeddable planning engine implements powerful and scalable algorithms
to optimize business resource scheduling and planning.
This module contains the examples which demonstrate how to use it in a normal Java application.
package org.optaplanner.examples.vehiclerouting.domain.timewindowed;
import org.optaplanner.core.api.domain.entity.PlanningEntity;
import org.optaplanner.core.api.domain.variable.ShadowVariable;
import org.optaplanner.examples.vehiclerouting.domain.Customer;
import org.optaplanner.examples.vehiclerouting.domain.location.Location;
import org.optaplanner.examples.vehiclerouting.domain.timewindowed.solver.ArrivalTimeUpdatingVariableListener;
@PlanningEntity
public class TimeWindowedCustomer extends Customer {
// Times are multiplied by 1000 to avoid floating point arithmetic rounding errors
private long readyTime;
private long dueTime;
private long serviceDuration;
// Shadow variable
private Long arrivalTime;
public TimeWindowedCustomer() {
}
public TimeWindowedCustomer(long id, Location location, int demand, long readyTime, long dueTime, long serviceDuration) {
super(id, location, demand);
this.readyTime = readyTime;
this.dueTime = dueTime;
this.serviceDuration = serviceDuration;
}
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
public long getReadyTime() {
return readyTime;
}
public void setReadyTime(long readyTime) {
this.readyTime = readyTime;
}
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
public long getDueTime() {
return dueTime;
}
public void setDueTime(long dueTime) {
this.dueTime = dueTime;
}
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
public long getServiceDuration() {
return serviceDuration;
}
public void setServiceDuration(long serviceDuration) {
this.serviceDuration = serviceDuration;
}
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
// Arguable, to adhere to API specs (although this works), nextCustomer should also be a source,
// because this shadow must be triggered after nextCustomer (but there is no need to be triggered by nextCustomer)
@ShadowVariable(variableListenerClass = ArrivalTimeUpdatingVariableListener.class, sourceVariableName = "vehicle")
@ShadowVariable(variableListenerClass = ArrivalTimeUpdatingVariableListener.class, sourceVariableName = "previousCustomer")
public Long getArrivalTime() {
return arrivalTime;
}
public void setArrivalTime(Long arrivalTime) {
this.arrivalTime = arrivalTime;
}
// ************************************************************************
// Complex methods
// ************************************************************************
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
public Long getDepartureTime() {
if (arrivalTime == null) {
return null;
}
return Math.max(arrivalTime, readyTime) + serviceDuration;
}
public boolean isArrivalBeforeReadyTime() {
return arrivalTime != null
&& arrivalTime < readyTime;
}
public boolean isArrivalAfterDueTime() {
return arrivalTime != null
&& dueTime < arrivalTime;
}
/**
* @return a positive number, the time multiplied by 1000 to avoid floating point arithmetic rounding errors
*/
public long getTimeWindowGapTo(TimeWindowedCustomer other) {
// dueTime doesn't account for serviceDuration
long latestDepartureTime = dueTime + serviceDuration;
long otherLatestDepartureTime = other.getDueTime() + other.getServiceDuration();
if (latestDepartureTime < other.getReadyTime()) {
return other.getReadyTime() - latestDepartureTime;
}
if (otherLatestDepartureTime < readyTime) {
return readyTime - otherLatestDepartureTime;
}
return 0L;
}
}