public void SimulateProcesses()
{
if (Processes.Count <= 0)
{
return;
}
// order processes by arrival time
Processes = Processes.OrderBy(a => a.ArrivalTime).ToList();
var currentTime = 0;
while (Processes.Count > 0)
{
if (Processes[0].ArrivalTime > currentTime)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += Processes[0].ArrivalTime - currentTime;
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
continue;
}
Processes[0].StartTime = Math.Max(currentTime, Processes[0].ArrivalTime);
Processes[0].IsWorking = true;
currentTime = Processes[0].StartTime;
currentTime += Processes[0].BurstTime;
Processes[0].FinishTime = currentTime;
Processes[0].RemainingTime = 0;
Processes[0].IsWorking = false;
Processes[0].WaitTime = Processes[0].StartTime - Processes[0].ArrivalTime;
Processes[0].TurnAroundTime = Processes[0].FinishTime - Processes[0].ArrivalTime;
TerminatedProcesses.Add(Processes[0]);
Processes.Remove(Processes[0]);
}
CalculatedSuccessfully = true;
}
public void SimulateProcesses()
{
if (Processes.Count <= 0)
{
return;
}
//Processes = Processes.OrderBy(a => a.ArrivalTime).ToList();
var currentTime = 0;
while (Processes.Count > 0)
{
var ArrivedProcesses = Processes.Where(a => a.ArrivalTime <= currentTime).ToList();
if (ArrivedProcesses.Count == 0)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += (Processes.FirstOrDefault().ArrivalTime - currentTime);
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
continue;
}
// Order Arrived processes by priority
ArrivedProcesses = Ascending ? ArrivedProcesses.OrderBy(a => a.Priority).ToList() :
ArrivedProcesses.OrderByDescending(a => a.Priority).ToList();
var p = ArrivedProcesses.FirstOrDefault();
p.StartTime = currentTime;
currentTime += p.BurstTime;
p.FinishTime = currentTime;
p.RemainingTime = 0;
p.WaitTime = p.StartTime - p.ArrivalTime;
p.TurnAroundTime = p.FinishTime - p.ArrivalTime;
Processes.Remove(p);
TerminatedProcesses.Add(p);
}
}
void SimulateNonPreemptive()
{
List <OSASProcess> ArrivedProcess = new List <OSASProcess>();
Processes = Processes.OrderBy(a => a.ArrivalTime).ToList();
var currentTime = 0;
while (Processes.Count > 0)
{
ArrivedProcess = Processes.Where(a => a.ArrivalTime <= currentTime).ToList();
if (ArrivedProcess.Count == 0)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += (Processes.FirstOrDefault().ArrivalTime - currentTime);
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
continue;
}
ArrivedProcess = ArrivedProcess.OrderBy(a => a.BurstTime).ToList();
var p = ArrivedProcess.FirstOrDefault();
p.StartTime = currentTime;
currentTime += p.BurstTime;
p.FinishTime = currentTime;
p.RemainingTime = 0;
p.WaitTime = p.StartTime - p.ArrivalTime;
p.TurnAroundTime = p.FinishTime - p.ArrivalTime;
Processes.Remove(Processes.FirstOrDefault(a => a.Id.Equals(p.Id)));
TerminatedProcesses.Add(p);
}
CalculatedSuccessfully = true;
}
public void SimulateProcesses()
{
if (Processes.Count <= 0)
{
return;
}
// If Time unit smaller than or equal 0
if (TimeUnit <= 0)
{
// Use FSFC(First Come First Served) Algorithm
var Fcfs = new CPU_FCFS_Algorithm(Processes);
Fcfs.SimulateProcesses();
TerminatedProcesses = Fcfs.TerminatedProcesses;
// and return here
return;
}
var currentTime = 0;
point:
var PQueue = Processes.Where(a => a.ArrivalTime <= currentTime).OrderBy(a => a.ArrivalTime).ToList();
if (PQueue.Count == 0)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += (Processes.OrderBy(a => a.ArrivalTime).FirstOrDefault().ArrivalTime - currentTime);
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
goto point;
}
while (PQueue.Count > 0)
{
var p = PQueue.FirstOrDefault();
if (p.RemainingTime > TimeUnit)
{
PQueue.Remove(p);
p.StartTime = currentTime;
p.RemainingTime -= TimeUnit;
currentTime += TimeUnit;
var pro = new OSASProcess(p)
{
FinishTime = currentTime,
WaitTime = p.StartTime - LastFinishOrArrival(TerminatedProcesses, p)
};
TerminatedProcesses.Add(pro);
Processes.Remove(p);
PQueue.AddRange(Processes.Where(a => a.ArrivalTime <= currentTime &&
!PQueue.Exists(b => b.Id.Equals(a.Id)) &&
a.Id != p.Id).OrderBy(a => a.ArrivalTime));
PQueue.Add(p);
}
else
{
PQueue.Remove(p);
p.StartTime = currentTime;
currentTime += p.RemainingTime;
p.RemainingTime = 0;
p.WaitTime = p.StartTime - LastFinishOrArrival(TerminatedProcesses, p);
p.FinishTime = currentTime;
p.TurnAroundTime = p.FinishTime - p.ArrivalTime;
TerminatedProcesses.Add(p);
Processes.Remove(p);
PQueue.AddRange(Processes.Where(a => a.ArrivalTime <= currentTime &&
!PQueue.Exists(b => b.Id.Equals(a.Id)))
.OrderBy(a => a.ArrivalTime));
}
if (PQueue.Count == 0 && Processes.Count > 0)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += (Processes.OrderBy(a => a.ArrivalTime).FirstOrDefault().ArrivalTime - currentTime);
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
PQueue.AddRange(Processes.Where(a => a.ArrivalTime <= currentTime &&
!PQueue.Exists(b => b.Id.Equals(a.Id)))
.OrderBy(a => a.ArrivalTime));
}
}
Processes.Clear();
CalculatedSuccessfully = true;
}
void SimulatePreemptive()
{
List <OSASProcess> ArrivedProcess = new List <OSASProcess>();
Processes = Processes.OrderBy(a => a.ArrivalTime).ToList();
var currentTime = 0;
while (Processes.Count > 0)
{
point:
ArrivedProcess = Processes.Where(a => a.ArrivalTime <= currentTime).ToList();
if (ArrivedProcess.Count == 0)
{
var process = new OSASProcess();
process.Id = -1;
process.StartTime = currentTime;
process.BurstTime += (Processes.FirstOrDefault().ArrivalTime - currentTime);
process.FinishTime = process.StartTime + process.BurstTime;
process.RemainingTime = 0;
currentTime = process.FinishTime;
TerminatedProcesses.Add(process);
continue;
}
ArrivedProcess = ArrivedProcess.OrderBy(a => a.RemainingTime).ToList();
foreach (var p in ArrivedProcess)
{
p.StartTime = currentTime;
while (p.RemainingTime > 0)
{
currentTime++;
p.RemainingTime--;
var minTime = MinimumTime(Processes, p, currentTime);
if (minTime.HasValue)
{
if (p.RemainingTime > minTime.Value)
{
var process = new OSASProcess(p)
{
FinishTime = currentTime,
WaitTime = p.StartTime - LastFinishOrArrival(TerminatedProcesses, p)
};
TerminatedProcesses.Add(process);
goto point;
}
}
}
p.FinishTime = currentTime;
p.WaitTime = p.StartTime - LastFinishOrArrival(TerminatedProcesses, p);
p.TurnAroundTime = p.FinishTime - p.ArrivalTime;
TerminatedProcesses.Add(p);
if (p.RemainingTime <= 0)
{
Processes.Remove(p);
break;
}
}
}
CalculatedSuccessfully = true;
}
