protected void OnSelectScheduler(object sender, EventArgs e) { switch (((ComboBox)sender).ActiveText) { case "SJF": if (sjf != null) { escalonadPlot.AnimateData(sjf, true, "SJF"); } break; case "RR": if (rr != null) { escalonadPlot.AnimateData(rr, true, "Round Robin / Quantum: " + ((int)quantum).ToString()); } break; case "FCFS": if (fcfs != null) { escalonadPlot.AnimateData(fcfs, true, "FCFS"); } break; } }
protected void OnSelectScheduler(object sender, EventArgs e) { escalonadPlot.Pause(); switch (((ComboBox)sender).ActiveText) { case "Benchmark": MediaButtonSensitibe(false); GenereteList(responseTimeFCFS, turnarondTimeFCFS, waitTimeFCFS, out List <double> fcfsTime); GenereteList(responseTimeSJF, turnarondTimeSJF, waitTimeSJF, out List <double> sjfTime); GenereteList(responseTimeRR, turnarondTimeRR, waitTimeRR, out List <double> rrTime); GenereteList("Tempo de Resposta", "Tempo de Vida", "Tempo de Espera", out List <string> text); escalonadPlot.AnimateData(fcfsTime, sjfTime, rrTime, text, "Benchmark"); break; case "SJF": MediaButtonSensitibe(true); if (sjf != null) { escalonadPlot.AnimateData(sjf, true, "SJF", plot.YLabel); } break; case "RR": MediaButtonSensitibe(true); if (rr != null) { escalonadPlot.AnimateData(rr, true, "Round Robin / Quantum: " + ((int)quantumScale.Value).ToString(), plot.YLabel); } break; case "FCFS": MediaButtonSensitibe(true); if (fcfs != null) { escalonadPlot.AnimateData(fcfs, true, "FCFS", plot.YLabel); } break; } }
public ImportView(SchedulersResult result) : base(WindowType.Toplevel) { Build(); fcfs = result.FCFS.ConvertAll((input) => { return(new PlotableProcess(input.Name, input.execTime)); }); sjf = result.SJF.ConvertAll((input) => { return(new PlotableProcess(input.Name, input.execTime)); }); rr = result.RR.ConvertAll((input) => { return(new PlotableProcess(input.Name, input.execTime)); }); quantum = result.Quantum; escalonadPlot = new PlotInterface(vbox1); escalonadPlot.AnimateData(fcfs, true, "FCFS"); }