static void Main(string[] args)
{
try
{
int pathStart = 0, pathEnd = 0;
EdgeList graph = LoadGraph("D:\\dump\\graph4bee.txt", ref pathStart, ref pathEnd);
Console.WriteLine("Loaded graph:");
Console.WriteLine(graph.ToString());
int totalNumberBees = 30;
int numberWorkers = Convert.ToInt32(totalNumberBees * .85);;
int numberScout = Convert.ToInt32(totalNumberBees * .15);;
int maxNumberVisits = 3;
int maxNumberCycles = 20;
int reportFreq = 2;
Hive hive = new Hive(numberWorkers, numberScout, maxNumberVisits,
graph, pathStart, pathEnd, maxNumberCycles, reportFreq);
hive.Solve();
Console.ReadLine();
}
catch (Exception ex)
{
Console.WriteLine("Fatal: " + ex.Message);
Console.ReadLine();
}
}
static void Main(string[] args)
{
try
{
Console.WriteLine("\nBegin Simulated Bee Colony algorithm demo\n");
Console.WriteLine("Loading cities data for SBC Traveling Salesman Problem analysis");
CitiesData citiesData = new CitiesData(20);
Console.WriteLine(citiesData.ToString());
Console.WriteLine("Number of cities = " + citiesData.cities.Length);
Console.WriteLine("Number of possible paths = " + citiesData.NumberOfPossiblePaths().ToString("#,###"));
Console.WriteLine("Best possible solution (shortest path) length = " + citiesData.ShortestPathLength().ToString("F4"));
int totalNumberBees = 500;
// Ideal numbers are: Active 75% / Inactive 10% / Scout 15%
int numberActive = Convert.ToInt32(totalNumberBees * .75);
int numberInactive = Convert.ToInt32(totalNumberBees * .10);;
int numberScout = Convert.ToInt32(totalNumberBees * .15);;
//int maxNumberVisits = 300;
//int maxNumberCycles = 32450;
int maxNumberVisits = 95;
int maxNumberCycles = 10570;
//int maxNumberVisits = 300; // proportional to # of possible neighbors to given solution
//int maxNumberCycles = 32450;
Hive hive = new Hive(totalNumberBees, numberInactive, numberActive, numberScout, maxNumberVisits, maxNumberCycles, citiesData);
Console.WriteLine("\nInitial random hive");
Console.WriteLine(hive);
bool doProgressBar = true;
hive.Solve(doProgressBar);
Console.WriteLine("\nFinal hive");
Console.WriteLine(hive);
Console.WriteLine("End Simulated Bee Colony demo");
Console.ReadLine();
}
catch (Exception ex)
{
Console.WriteLine("Fatal: " + ex.Message);
Console.ReadLine();
}
} // Main()
static void Main(string[] args)
{
try
{
Console.WriteLine("\nBegin Simulated Bee Colony algorithm demo\n");
Console.WriteLine("Loading cities data for SBC Traveling Salesman Problem analysis");
CitiesData citiesData = new CitiesData(20);
Console.WriteLine(citiesData.ToString());
Console.WriteLine("Number of cities = " + citiesData.cities.Length);
Console.WriteLine("Number of possible paths = " + citiesData.NumberOfPossiblePaths().ToString("#,###"));
Console.WriteLine("Best possible solution (shortest path) length = " + citiesData.ShortestPathLength().ToString("F4"));
int totalNumberBees = 100;
int numberInactive = 20;
int numberActive = 50;
int numberScout = 30;
int maxNumberVisits = 100;
int maxNumberCycles = 3460;
//int maxNumberVisits = 95;
//int maxNumberCycles = 10570;
//int maxNumberVisits = 300; // proportional to # of possible neighbors to given solution
//int maxNumberCycles = 32450;
Hive hive = new Hive(totalNumberBees, numberInactive, numberActive, numberScout, maxNumberVisits, maxNumberCycles, citiesData);
Console.WriteLine("\nInitial random hive");
Console.WriteLine(hive);
bool doProgressBar = true;
hive.Solve(doProgressBar);
Console.WriteLine("\nFinal hive");
Console.WriteLine(hive);
Console.WriteLine("End Simulated Bee Colony demo");
Console.ReadLine();
}
catch (Exception ex)
{
Console.WriteLine("Fatal: " + ex.Message);
Console.ReadLine();
}
}
