public static void ReadfromFile(out int NoJob, out int NoMc, out int[] NoOp, out job[] Job)
{
//Reading input data from a file
char[] Dividers = { ',', ' ' };
StreamReader InputSR;
ReadInput.OpenFile(out InputSR);
ReadInput.ReadFile1NoJobMc(InputSR, Dividers, out NoJob, out NoMc);
NoOp = new int[NoJob];
Job = new job[NoJob];
ReadInput.ReadFile2ProcessTimeMachineNo(InputSR, NoJob, ref NoOp, ref Job, Dividers);
//For MaxWeightedTardiness & MaxWeightedEaeliness
ReadInput.ReadFile3ReadyTime(InputSR, ref Job, Dividers);
//For MaxWeightedTardiness & MaxWeightedEaeliness
ReadInput.ReadFile4DueDate(InputSR, ref Job, Dividers, NoJob);
//For MaxWeightedTardiness & MaxWeightedEaeliness
ReadInput.ReadFile5WeightTardy1Line(InputSR, ref Job, Dividers, NoJob);
InputSR.Close();
//Ending for reading input data from a file
}
public static void Main(string[] args)
{
#region Read input from file
int NoJob;
int NoMc;
int[] NoOp;
job[] Job;
ReadInput.ReadfromFile(out NoJob, out NoMc, out NoOp, out Job);
#endregion
#region calculateDimension
int[] NoOpPerMc = new int[NoMc];
machine[] Machine = new machine[NoMc];
ReadInput.MachineInfo(NoJob, NoOp, ref NoOpPerMc, Job);
JSPdata JD = new JSPdata(NoJob, NoMc, NoOp, Job, NoOpPerMc, Machine);
int Dimension = 0;
//To calculate Dimension = Sum of all NoOp
for (int j = 0; j < NoJob; j++)
{
Dimension += NoOp[j];
}
#endregion
About.showAbout();
int noVec = 500;
int noIter = 500;
int noNB = 4;
double FMax = 2;
double FMin = 1.5;
//double F = 2; // amplify
double CRx = 0.5; //max crossover rate
double CRn = 0.1; //min crossover rate
double Wmax = 1; // max weight
double Wmin = 0; // min weight
double cN = 0; // coefficient neighbor
string oFile = "MyDE.xls";
int noRep = 2;
int startReinit = 501; // inidicate reinitial
int ReInitIterval = 501; // indicate reinitial interval
int startLS = 101; // indicate LS
int LSinterval = 101; // indicate LS interval
// starting time and finish time using DateTime datatype
DateTime start, finish;
// elapsed time using TimeSpan datatype
TimeSpan elapsed;
// opening output file
TextWriter tw = new StreamWriter(oFile);
tw.WriteLine("{0} Number of Vector ", noVec);
tw.WriteLine("{0} Number of Iteration ", noIter);
tw.WriteLine("{0} Number of Neighbor ", noNB);
tw.WriteLine("{0} Parameter Fmax ", FMax);
tw.WriteLine("{0} Parameter Fmin ", FMin);
//tw.WriteLine("{0} Parameter F ", F);
tw.WriteLine("{0} Parameter CRmax ", CRx);
tw.WriteLine("{0} Parameter CRmin ", CRn);
tw.WriteLine("{0} Parameter cl ", Wmin);
tw.WriteLine("{0} Parameter cn ", cN);
tw.WriteLine("{0} Output File Name ", oFile);
tw.WriteLine("");
for (int i = 0; i < noRep; i++)
{
Console.WriteLine("Replication {0}", i + 1);
tw.WriteLine("Replication {0}", i + 1);
// get the starting time from CPU clock
start = DateTime.Now;
// main program ...
DE myDE = new newDE(noVec, noIter, noNB, FMax, FMin, CRx, CRn, Wmax, Wmin, cN, JD, Dimension, startReinit, ReInitIterval, startLS, LSinterval);
myDE.Run(tw, true);
myDE.DisplayResult(tw);
Console.WriteLine("Obj = {0}", myDE.Pop.Vector[myDE.Pop.posBest].Objective);
// get the finishing time from CPU clock
finish = DateTime.Now;
elapsed = finish - start;
// display the elapsed time in hh:mm:ss.milli
tw.WriteLine("{0} is the computational time", elapsed.Duration());
Console.WriteLine("{0} is the computational time", elapsed.Duration());
tw.WriteLine("");
}
tw.Close();
}
