public override IOperation Apply()
{
ICapacitatedProblemInstance cvrp = ProblemInstanceParameter.ActualValue as ICapacitatedProblemInstance;
ResultCollection results = ResultsParameter.ActualValue;
ItemArray <DoubleValue> qualities = QualityParameter.ActualValue;
ItemArray <DoubleValue> overloads = OverloadParameter.ActualValue;
double sigma = SigmaParameter.Value.Value;
double phi = PhiParameter.Value.Value;
double minPenalty = MinPenaltyFactorParameter.Value.Value;
double maxPenalty = MaxPenaltyFactorParameter.Value.Value;
for (int j = 0; j < qualities.Length; j++)
{
qualities[j].Value -= overloads[j].Value * cvrp.OverloadPenalty.Value;
}
int validCount = 0;
for (int j = 0; j < qualities.Length; j++)
{
if (overloads[j].Value == 0)
{
validCount++;
}
}
double factor = 1.0 - ((double)validCount / (double)qualities.Length);
double min = cvrp.OverloadPenalty.Value / (1 + sigma);
double max = cvrp.OverloadPenalty.Value * (1 + phi);
cvrp.CurrentOverloadPenalty = new DoubleValue(min + (max - min) * factor);
if (cvrp.CurrentOverloadPenalty.Value < minPenalty)
{
cvrp.CurrentOverloadPenalty.Value = minPenalty;
}
if (cvrp.CurrentOverloadPenalty.Value > maxPenalty)
{
cvrp.CurrentOverloadPenalty.Value = maxPenalty;
}
for (int j = 0; j < qualities.Length; j++)
{
qualities[j].Value += overloads[j].Value * cvrp.CurrentOverloadPenalty.Value;
}
if (!results.ContainsKey("Current Overload Penalty"))
{
results.Add(new Result("Current Overload Penalty", new DoubleValue(cvrp.CurrentOverloadPenalty.Value)));
}
else
{
(results["Current Overload Penalty"].Value as DoubleValue).Value = cvrp.CurrentOverloadPenalty.Value;
}
return(base.Apply());
}
protected override double GetTourInsertionCosts(IVRPProblemInstance instance, IVRPEncoding solution, TourInsertionInfo tourInsertionInfo, int index, int customer,
out bool feasible)
{
CVRPInsertionInfo insertionInfo = tourInsertionInfo.GetStopInsertionInfo(index) as CVRPInsertionInfo;
double costs = 0;
feasible = tourInsertionInfo.Penalty < double.Epsilon;
ICapacitatedProblemInstance cvrp = instance as ICapacitatedProblemInstance;
double overloadPenalty = cvrp.OverloadPenalty.Value;
double distance = instance.GetDistance(insertionInfo.Start, insertionInfo.End, solution);
double newDistance =
instance.GetDistance(insertionInfo.Start, customer, solution) +
instance.GetDistance(customer, insertionInfo.End, solution);
costs += instance.DistanceFactor.Value * (newDistance - distance);
double demand = instance.Demand[customer];
if (demand > insertionInfo.SpareCapacity)
{
feasible = false;
if (insertionInfo.SpareCapacity >= 0)
{
costs += (demand - insertionInfo.SpareCapacity) * overloadPenalty;
}
else
{
costs += demand * overloadPenalty;
}
}
return(costs);
}
protected override double GetTourInsertionCosts(IVRPProblemInstance instance, IVRPEncoding solution, TourInsertionInfo tourInsertionInfo, int index, int customer,
out bool feasible)
{
CVRPPDTWInsertionInfo insertionInfo = tourInsertionInfo.GetStopInsertionInfo(index) as CVRPPDTWInsertionInfo;
double costs = 0;
feasible = tourInsertionInfo.Penalty < double.Epsilon;
bool tourFeasible = true;
ICapacitatedProblemInstance cvrp = instance as ICapacitatedProblemInstance;
double overloadPenalty = cvrp.OverloadPenalty.Value;
ITimeWindowedProblemInstance vrptw = instance as ITimeWindowedProblemInstance;
DoubleArray dueTime = vrptw.DueTime;
DoubleArray readyTime = vrptw.ReadyTime;
DoubleArray serviceTimes = vrptw.ServiceTime;
double tardinessPenalty = vrptw.TardinessPenalty.Value;
IPickupAndDeliveryProblemInstance pdp = instance as IPickupAndDeliveryProblemInstance;
IntArray pickupDeliveryLocation = pdp.PickupDeliveryLocation;
double pickupPenalty = pdp.PickupViolationPenalty.Value;
double distance = instance.GetDistance(insertionInfo.Start, insertionInfo.End, solution);
double newDistance =
instance.GetDistance(insertionInfo.Start, customer, solution) +
instance.GetDistance(customer, insertionInfo.End, solution);
costs += instance.DistanceFactor.Value * (newDistance - distance);
double demand = instance.Demand[customer];
if (demand > insertionInfo.ArrivalSpareCapacity)
{
tourFeasible = feasible = false;
if (insertionInfo.ArrivalSpareCapacity >= 0)
{
costs += (demand - insertionInfo.ArrivalSpareCapacity) * overloadPenalty;
}
else
{
costs += demand * overloadPenalty;
}
}
int destination = pickupDeliveryLocation[customer];
bool validPickup = true;
if (demand < 0 && !insertionInfo.Visited.Contains(destination))
{
tourFeasible = feasible = false;
validPickup = false;
costs += pickupPenalty;
}
double time = 0;
double tardiness = 0;
if (index > 0)
{
time = (tourInsertionInfo.GetStopInsertionInfo(index - 1) as CVRPTWInsertionInfo).LeaveTime;
}
else
{
time = insertionInfo.TourStartTime;
}
time += instance.GetDistance(insertionInfo.Start, customer, solution);
if (time > dueTime[customer])
{
tardiness += time - dueTime[customer];
}
if (time < readyTime[customer])
{
time += readyTime[customer] - time;
}
time += serviceTimes[customer];
time += instance.GetDistance(customer, insertionInfo.End, solution);
double additionalTime = time - (tourInsertionInfo.GetStopInsertionInfo(index) as CVRPTWInsertionInfo).ArrivalTime;
for (int i = index; i < tourInsertionInfo.GetStopCount(); i++)
{
CVRPTWInsertionInfo nextStop = tourInsertionInfo.GetStopInsertionInfo(i) as CVRPTWInsertionInfo;
if (demand >= 0)
{
if (nextStop.End == destination)
{
demand = 0;
costs -= pickupPenalty;
if (tourInsertionInfo.Penalty == pickupPenalty && tourFeasible)
{
feasible = true;
}
}
else if (nextStop.SpareCapacity < 0)
{
costs += demand * overloadPenalty;
}
else if (nextStop.SpareCapacity < demand)
{
tourFeasible = feasible = false;
costs += (demand - nextStop.SpareCapacity) * overloadPenalty;
}
}
else if (validPickup)
{
if (nextStop.SpareCapacity < 0)
{
costs += Math.Max(demand, nextStop.SpareCapacity) * overloadPenalty;
}
}
if (additionalTime < 0)
{
//arrive earlier than before
//wait probably
if (nextStop.WaitingTime < 0)
{
double wait = nextStop.WaitingTime - additionalTime;
if (wait > 0)
{
additionalTime += wait;
}
}
else
{
additionalTime = 0;
}
//check due date, decrease tardiness
if (nextStop.SpareTime < 0)
{
costs += Math.Max(nextStop.SpareTime, additionalTime) * tardinessPenalty;
}
}
else
{
//arrive later than before, probably don't have to wait
if (nextStop.WaitingTime > 0)
{
additionalTime -= Math.Min(additionalTime, nextStop.WaitingTime);
}
//check due date
if (nextStop.SpareTime > 0)
{
double spare = nextStop.SpareTime - additionalTime;
if (spare < 0)
{
tardiness += -spare;
}
}
else
{
tardiness += additionalTime;
}
}
}
costs += additionalTime * vrptw.TimeFactor.Value;
if (tardiness > 0)
{
tourFeasible = feasible = false;
}
costs += tardiness * tardinessPenalty;
return(costs);
}
protected override double GetTourInsertionCosts(IVRPProblemInstance instance, IVRPEncoding solution, TourInsertionInfo tourInsertionInfo, int index, int customer,
out bool feasible)
{
CVRPTWInsertionInfo insertionInfo = tourInsertionInfo.GetStopInsertionInfo(index) as CVRPTWInsertionInfo;
double costs = 0;
feasible = tourInsertionInfo.Penalty < double.Epsilon;
ICapacitatedProblemInstance cvrp = instance as ICapacitatedProblemInstance;
double overloadPenalty = cvrp.OverloadPenalty.Value;
ITimeWindowedProblemInstance vrptw = instance as ITimeWindowedProblemInstance;
DoubleArray dueTime = vrptw.DueTime;
DoubleArray readyTime = vrptw.ReadyTime;
DoubleArray serviceTimes = vrptw.ServiceTime;
double tardinessPenalty = vrptw.TardinessPenalty.Value;
IMultiDepotProblemInstance mdp = instance as IMultiDepotProblemInstance;
int depots = mdp.Depots.Value;
double startDistance, endDistance;
costs += instance.GetInsertionDistance(insertionInfo.Start, customer, insertionInfo.End, solution, out startDistance, out endDistance);
double demand = instance.GetDemand(customer);
if (demand > insertionInfo.SpareCapacity)
{
feasible = false;
if (insertionInfo.SpareCapacity >= 0)
{
costs += (demand - insertionInfo.SpareCapacity) * overloadPenalty;
}
else
{
costs += demand * overloadPenalty;
}
}
double time = 0;
double tardiness = 0;
if (index > 0)
{
time = (tourInsertionInfo.GetStopInsertionInfo(index - 1) as CVRPTWInsertionInfo).LeaveTime;
}
else
{
time = insertionInfo.TourStartTime;
}
time += startDistance;
int customerIndex = customer + depots - 1;
if (time > dueTime[customerIndex])
{
tardiness += time - dueTime[customerIndex];
}
if (time < readyTime[customerIndex])
{
time += readyTime[customerIndex] - time;
}
time += serviceTimes[customer - 1];
time += endDistance;
double additionalTime = time - (tourInsertionInfo.GetStopInsertionInfo(index) as CVRPTWInsertionInfo).ArrivalTime;
for (int i = index; i < tourInsertionInfo.GetStopCount(); i++)
{
CVRPTWInsertionInfo nextStop = tourInsertionInfo.GetStopInsertionInfo(i) as CVRPTWInsertionInfo;
if (additionalTime < 0)
{
//arrive earlier than before
//wait probably
if (nextStop.WaitingTime < 0)
{
double wait = nextStop.WaitingTime - additionalTime;
if (wait > 0)
{
additionalTime += wait;
}
}
else
{
additionalTime = 0;
}
//check due date, decrease tardiness
if (nextStop.SpareTime < 0)
{
costs += Math.Max(nextStop.SpareTime, additionalTime) * tardinessPenalty;
}
}
else
{
//arrive later than before, probably don't have to wait
if (nextStop.WaitingTime > 0)
{
additionalTime -= Math.Min(additionalTime, nextStop.WaitingTime);
}
//check due date
if (nextStop.SpareTime > 0)
{
double spare = nextStop.SpareTime - additionalTime;
if (spare < 0)
{
tardiness += -spare;
}
}
else
{
tardiness += additionalTime;
}
}
}
costs += additionalTime * vrptw.TimeFactor.Value;
if (tardiness > 0)
{
feasible = false;
}
costs += tardiness * tardinessPenalty;
return(costs);
}
