static void Main(string[] args)
{
//FloorplanProblem problem = new FloorplanProblem(50);
//FloorplanSolution solution = new FloorplanSolution(problem);
//Swap swap = new Swap(problem.Dimension);
//Shift shift = new Shift(problem.Dimension);
//FullLeafMove leaf = new FullLeafMove(problem.Dimension);
//List<Operator> operations = new List<Operator> { swap, shift, leaf };
TspProblem problem = new TspProblem(100);
TspSolution solution = new TspSolution(problem);
Swap swap = new Swap(problem.Dimension, 1);
Shift shift = new Shift(problem.Dimension, 2);
TwoOpt twoOpt = new TwoOpt(problem.Dimension, 3);
List <Operator> operations = new List <Operator> {
swap, shift, twoOpt
};
MultistartParameters multistartOptions = new MultistartParameters()
{
InstancesNumber = 1,
OutputFrequency = 500,
};
LocalDescentParameters ldParameters = new LocalDescentParameters()
{
DetailedOutput = true,
Seed = 0,
Operators = operations,
IsSteepestDescent = false
};
SimulatedAnnealingParameters saParameters = new SimulatedAnnealingParameters()
{
InitProbability = 0.3,
TemperatureCooling = 0.97,
UseWeightedNeighborhood = true,
DetailedOutput = false,
Seed = 0,
Operators = operations,
};
MultistartParameters ldMultistartParameters = (MultistartParameters)multistartOptions.Clone();
ldMultistartParameters.Parameters = ldParameters;
MultistartParameters saMultistartParameters = (MultistartParameters)multistartOptions.Clone();
saMultistartParameters.Parameters = saParameters;
LocalDescent ld = new LocalDescent(ldParameters);
SimulatedAnnealing sa = new SimulatedAnnealing(saParameters);
ParallelMultistart pld = new ParallelMultistart(ldMultistartParameters);
ParallelMultistart psa = new ParallelMultistart(saMultistartParameters);
List <string> operators = new List <string>();
IPermutation sol = solution;
foreach (IPermutation s in ld.Minimize(solution))
{
Console.WriteLine("{0}, {1:f}s, {2}, {3}, {4}, {5}", s.CostValue, s.TimeInSeconds, s.IterationNumber, s.IsCurrentBest, s.IsFinal, sol.CostValue - s.CostValue);
sol = s;
operators.Add(s.OperatorTag);
}
//var groups = operators.GroupBy(s => s).Select(s => new { Operator = s.Key, Count = s.Count() });
//var dictionary = groups.ToDictionary(g => g.Operator, g => g.Count);
//foreach (var o in groups)
//{
// Console.WriteLine("{0} = {1}", o.Operator, o.Count);
//}
Console.WriteLine("Done");
Console.ReadLine();
}
static void Main(string[] args)
{
//VehicleRoutingProblem vrProblem = new VehicleRoutingProblem(4, 2);
//VehicleRoutingSolution vrSolution = new VehicleRoutingSolution(vrProblem);
//Console.WriteLine(vrSolution.ToString());
//Console.WriteLine(vrSolution.CostValue);
//Console.ReadLine();
//return;
//FloorplanProblem problem = new FloorplanProblem(100);
//FloorplanProblem problem = FloorplanProblem.Load("500.vlsi");
//FloorplanSolution solution = new FloorplanSolution(problem);
//Swap swap = new Swap(problem.Dimension, 10);
//Shift shift = new Shift(problem.Dimension, 1);
//EmptyLeafMove eLeaf = new EmptyLeafMove(problem.Dimension, 5);
//FullLeafMove fLeaf = new FullLeafMove(problem.Dimension, 5);
//FullNodeMove fnode = new FullNodeMove(problem.Dimension, 5);
//List<Operator> operations = new List<Operator> { swap, fLeaf };
//TspProblem problem = new TspProblem(200);
//TspSolution solution = new TspSolution(problem);
VehicleRoutingProblem problem = new VehicleRoutingProblem(225, 10);
VehicleRoutingSolution solution = new VehicleRoutingSolution(problem);
Swap swap = new Swap(problem.Dimension, 1);
Shift shift = new Shift(problem.Dimension, 2);
TwoOpt twoOpt = new TwoOpt(problem.Dimension, 3);
List <Operator> operations = new List <Operator> {
swap, shift, twoOpt
};
MultistartParameters multistartOptions = new MultistartParameters()
{
Name = "P",
InstancesNumber = 5,
RandomizeStart = false,
DetailedOutput = true,
OutputFrequency = 100,
};
LocalDescentParameters ldParameters = new LocalDescentParameters()
{
Name = "LD",
DetailedOutput = true,
Seed = 0,
Operators = operations,
IsSteepestDescent = false
};
SimulatedAnnealingParameters saParameters = new SimulatedAnnealingParameters()
{
Name = "SA",
InitProbability = 0.5,
TemperatureCooling = 0.98,
MinCostDeviation = 0,
UseWeightedNeighborhood = false,
DetailedOutput = false,
Seed = 0,
Operators = operations,
};
MultistartParameters pldParameters = (MultistartParameters)multistartOptions.Clone();
pldParameters.OptimizationAlgorithm = typeof(LocalDescent);
pldParameters.Parameters = ldParameters;
MultistartParameters psaParameters = (MultistartParameters)multistartOptions.Clone();
psaParameters.OptimizationAlgorithm = typeof(SimulatedAnnealing);
psaParameters.Parameters = saParameters;
StackedParameters ssParameters = new StackedParameters()
{
Name = "B",
DetailedOutput = true,
OptimizationAlgorithms = new Type[] { typeof(LocalDescent), typeof(SimulatedAnnealing), typeof(LocalDescent) },
Parameters = new OptimizationParameters[] { ldParameters, saParameters, ldParameters }
};
StackedParameters sspParameters = new StackedParameters()
{
Name = "B",
DetailedOutput = false,
OptimizationAlgorithms = new Type[] { typeof(LocalDescent), typeof(ParallelMultistart), typeof(LocalDescent) },
Parameters = new OptimizationParameters[] { ldParameters, psaParameters, ldParameters }
};
LocalDescent ld = new LocalDescent(ldParameters);
SimulatedAnnealing sa = new SimulatedAnnealing(saParameters);
ParallelMultistart pld = new ParallelMultistart(pldParameters);
ParallelMultistart psa = new ParallelMultistart(psaParameters);
StackedSearch ss = new StackedSearch(ssParameters);
StackedSearch ssp = new StackedSearch(sspParameters);
MultistartParameters pssParameters = (MultistartParameters)multistartOptions.Clone();
pssParameters.DetailedOutput = false;
pssParameters.RandomizeStart = true;
pssParameters.OptimizationAlgorithm = typeof(StackedSearch);
pssParameters.Parameters = ssParameters;
ParallelMultistart pss = new ParallelMultistart(pssParameters);
IOptimizationAlgorithm optimizer = sa;
ISolution bestSolution = solution;
foreach (ISolution s in optimizer.Minimize(solution.Shuffle(0)))
{
//if (s.IsCurrentBest)
Console.WriteLine("\t{0}, {1:f}s, {2}, {3}, {4}, {5}, {6}", s.CostValue, s.TimeInSeconds, s.IterationNumber, s.IsCurrentBest, s.IsFinal, bestSolution.CostValue - s.CostValue, s.InstanceTag);
bestSolution = s;
}
Console.WriteLine(bestSolution.TimeInSeconds + "s");
Console.WriteLine(bestSolution.IterationNumber + " iterations");
//var groups = optimizer.SearchHistory.GroupBy(s => s.OperatorTag).Select(s => new { Operator = s.Key, Count = s.Count() });
//var dictionary = groups.ToDictionary(g => g.Operator, g => g.Count);
//foreach (var o in groups)
//{
// Console.WriteLine("{0} = {1}", o.Operator, o.Count);
//}
//Console.WriteLine("Done");
foreach (var b in DrawSolution(bestSolution, optimizer))
{
b?.Save("solution" + DateTime.Now.Millisecond + ".jpg");
}
Console.ReadLine();
}
