static void Main(string[] args) { if (args.Length > 0) { // There is input, processing it actionSelection(args[0]); } else { // No input, presenting the tool and then asking for instruction actionSelection("--information"); // Asking for an option string option; do { MyConsole.display("Please, enter a commande : "); option = MyConsole.readInput().Replace(" ", string.Empty); // Processing the option actionSelection(option); }while (!option.Equals("--quit")); MyConsole.readInput(); } }
public static void schedule() { if (excelFile == null || model == null) { MyConsole.displayError("model and/or IO file are not initialized yet\n" + "Please type --readIOFile"); } else { MyConsole.display("Select the scheduling method : --GRAS\n" + " --SPT\n" + " --LPT\n" + " --EDD\n" + " --CR\n" + " --SES\n" + " --SALCK\n" + " Abort(A)"); string methodChoice = MyConsole.readInput().Replace(" ", string.Empty); applySecMethod(model, excelFile, methodChoice); } }
// Reading input variables public void readInputs(ExcelFile excelFile) { // Reading input from the excel file MyConsole.displayMain("Reading input file ...."); excelFile.open(); I = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 1, 2)); K = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 2, 2)); J = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 3, 2)); T = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 4, 2)); dt = excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 5, 2); C = excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 6, 2); numOfIterations = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 7, 2)); S = Convert.ToInt32(excelFile.read(ExcelFile.MAIN_SHEET_INDEX, 8, 2)); MyConsole.display("\nReading job batch sizes 'q'.... \n"); q = new int[K]; for (int compt = 0; compt < K; compt++) { q[compt] = Convert.ToInt32(excelFile.read(ExcelFile.QUANTITY_PER_ORDER_SHEET_INDEX, compt + 1, 1)); } MyConsole.display("\nRelease dates 'a'.... \n"); a = new int[K]; for (int compt = 0; compt < K; compt++) { a[compt] = Convert.ToInt32(excelFile.read(ExcelFile.REFERENCE_RELASE_DATE_SHEET_INDEX, compt + 1, 1)); } MyConsole.display("\nRelease dates 'l'.... \n"); l = new int[K]; for (int compt = 0; compt < K; compt++) { l[compt] = Convert.ToInt32(excelFile.read(ExcelFile.l_SHEET_INDEX, compt + 1, 1)); } MyConsole.display("\nReading absolute due time 'd'.....\n"); d = new int[I]; for (int compt = 0; compt < I; compt++) { d[compt] = Convert.ToInt32(excelFile.read(ExcelFile.REFERENCE_DUE_DATE_SHEET_INDEX, compt + 1, 1)); } Console.WriteLine("\nProcessing times 'p'.....\n"); p = new int[I]; for (int compt = 0; compt < I; compt++) { p[compt] = Convert.ToInt32(excelFile.read(ExcelFile.REFERENCE_PROCESSING_SHEET_INDEX, compt + 1, 1)); } MyConsole.display("\nSetup times 's'....\n"); s = new int[I]; for (int compt = 0; compt < I; compt++) { s[compt] = Convert.ToInt32(excelFile.read(ExcelFile.REFERENCE_SETTING_TIME_SHEET_INDEX, compt + 1, 1)); } MyConsole.display("\nReading references fitness weights 'alpha'\n"); alpha = new float[I][]; for (int compt = 0; compt < I; compt++) { alpha[compt] = new float[3]; } for (int compt = 0; compt < I; compt++) { alpha[compt][0] = (float)excelFile.read(ExcelFile.REFERENCE_PRIORITY_SHEET_INDEX, compt + 1, 1); alpha[compt][1] = (float)excelFile.read(ExcelFile.REFERENCE_PRIORITY_SHEET_INDEX, compt + 1, 2); alpha[compt][2] = (float)excelFile.read(ExcelFile.REFERENCE_PRIORITY_SHEET_INDEX, compt + 1, 3); } MyConsole.display("\nReading task difficulties 'deta'....\n"); deta = new float[I]; for (int compt = 0; compt < I; compt++) { deta[compt] = (float)excelFile.read(ExcelFile.REFERENCE_DIFFICULTY_SHEET_INDEX, compt + 1, 1); } MyConsole.display("\nReading fatigue rate 'lamda'....\n"); lamda = new float[I]; mu = new float[I]; FatigueParametersGenerators fpg = new FatigueParametersGenerators(); for (int compt = 0; compt < I; compt++) { float[] stressFactors = new float[S]; for (int sfi = 0; sfi < S; sfi++) // sfi : Stress Factor Index { stressFactors[sfi] = Convert.ToSingle(excelFile.read(ExcelFile.REFERENCE_STRESS_FACTORS_SHEET_INDEX, sfi + 2, compt + 2)); } lamda[compt] = fpg.genFatigueRate(stressFactors)[FatigueParametersGenerators.IFATIGUE_RATE]; mu[compt] = fpg.genFatigueRate(stressFactors)[FatigueParametersGenerators.IRECOVERY_RATE]; } /*MyConsole.display("\nReading recovery rate 'mu'....\n"); * * for (int compt = 0; compt < I; compt++) * { * mu[compt] = excelFile.read(ExcelFile.REFERENCE_RECOVERY_RATE_SHEET_INDEX, compt + 1, 1); * * }*/ MyConsole.display("\nReading machine states 'v'....\n"); v = new int[T][]; for (int compt = 0; compt < T; compt++) { v[compt] = new int[J]; } ProgressBar progress = new ProgressBar(); { for (int compt = 0; compt < T; compt++) { for (int compt2 = 0; compt2 < J; compt2++) { v[compt][compt2] = Convert.ToInt32(excelFile.read(ExcelFile.MACHINE_LOAD_SHEET_INDEX, compt + 1, compt2 + 1)); } progress.Report((double)compt / T); } progress.Dispose(); } MyConsole.display("\nReading job's references 'z'....\n"); z = new int[K][]; for (int compt = 0; compt < K; compt++) { z[compt] = new int[I]; } for (int compt = 0; compt < K; compt++) { for (int compt2 = 0; compt2 < I; compt2++) { z[compt][compt2] = Convert.ToInt32(excelFile.read(ExcelFile.REFERENCE_PER_ORDER_SHEET_INDEX, compt + 1, compt2 + 1)); } } excelFile.close(); }
public void showInputs() { MyConsole.display("Inputs ................"); MyConsole.display($"Number of references I = {I}"); MyConsole.display($"Number of orders K = {K}"); MyConsole.display($"Number of workstations J = {J}"); MyConsole.display($"Horizon T = {T}"); MyConsole.display($"HEP coefficient C = {C}"); MyConsole.display(" Quantity per order : "); for (int compt = 0; compt < K; compt++) { MyConsole.display($" q({compt}) = {q[compt]} "); } MyConsole.display(" release dates : "); for (int compt = 0; compt < K; compt++) { MyConsole.display($" a({compt}) = {a[compt]} "); } MyConsole.display(" time in queue at rescheduling : "); for (int compt = 0; compt < K; compt++) { MyConsole.display($" l({compt}) = {l[compt]} "); } MyConsole.display(" References' due date : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" d({compt}) = {d[compt]} "); } MyConsole.display(" References' processing times : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" p({compt}) = {p[compt]} "); } MyConsole.display(" References' setting times : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" s({compt}) = {s[compt]} "); } MyConsole.display(" References' priorities : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" alpha({compt},1) = {alpha[compt][0]} "); MyConsole.display($" alpha({compt},2) = {alpha[compt][1]} "); } MyConsole.display(" References' difficulties : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" deta({compt}) = {deta[compt]} "); } MyConsole.display(" References' fatigue rate : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" lamda({compt}) = {lamda[compt]} "); } MyConsole.display(" References' recovery rate : "); for (int compt = 0; compt < I; compt++) { MyConsole.display($" mu({compt}) = {mu[compt]} "); } MyConsole.display(" Machine initial load : "); for (int compt = 0; compt < T; compt++) { MyConsole.display("\n"); for (int compt2 = 0; compt2 < J; compt2++) { MyConsole.display($" v({compt}, {compt2}) = {v[compt][compt2]}\t"); } } MyConsole.display("\n Reference per order : "); for (int compt = 0; compt < K; compt++) { MyConsole.display("\n"); for (int compt2 = 0; compt2 < I; compt2++) { MyConsole.display($" z({compt}, {compt2}) = {z[compt][compt2]}\t"); } } }