Files
mapo-mono/MachineSim/Simulator.cs
T
2022-03-07 19:17:06 +01:00

243 lines
7.6 KiB
C#

using MathNet.Numerics.Distributions;
using MP.MONO.Core;
using MP.MONO.Core.DTO;
using Newtonsoft.Json;
namespace MachineSim
{
/// <summary>
/// Definizione parametri simulati
/// </summary>
public class Simulator
{
#region Protected Fields
protected string basePath = "";
protected List<SimDisplayDataDTO> currSimMachStat = new List<SimDisplayDataDTO>();
protected List<SimDisplayDataDTO> currSimPar = new List<SimDisplayDataDTO>();
protected string paramFileName = "SimParams.json";
protected Random rand = new Random();
#endregion Protected Fields
#region Public Constructors
public Simulator(string _basePath)
{
basePath = _basePath;
setupConfig();
}
#endregion Public Constructors
#region Private Methods
private void setupConf(string paramFileName, ref List<SimDisplayDataDTO> localObj)
{
string fullPath = Path.Combine(basePath, paramFileName);
if (File.Exists(fullPath))
{
var rawData = File.ReadAllText(fullPath);
if (!string.IsNullOrEmpty(rawData))
{
localObj = JsonConvert.DeserializeObject<List<SimDisplayDataDTO>>(rawData);
}
}
}
private void setupConfig()
{
// setup conf parametri
setupConf("SimParams.json", ref currSimPar);
// setup conf machStat
setupConf("SimMachStat.json", ref currSimMachStat);
}
#endregion Private Methods
#region Public Methods
public List<String> getAlarms()
{
List<string> activeAlarms = new List<string>();
//int alarmCode = rand.Next(0, 255);
int alarmCode = rand.Next(0, 160);
// se >= 128 --> 0 (no alarm)
alarmCode = alarmCode <= 127 ? alarmCode : 0;
for (int i = 0; i < 8; i++)
{
if ((alarmCode & (1 << i)) != 0)
{
activeAlarms.Add($"Alarm {i:000}");
}
}
return activeAlarms;
}
public List<DisplayDataDTO> getParameters()
{
List<DisplayDataDTO> answ = new List<DisplayDataDTO>();
// genero a partire dall'elenco configurato da simulare...
answ = currSimPar.Select(i => new DisplayDataDTO()
{
IsNumeric = i.IsNumeric,
MaxVal = i.MaxVal,
MinVal = i.MinVal,
Order = i.Order,
Title = i.Title,
Type = i.Type,
ValueNum = simNext(i.ValueNum, i.MinVal, i.MaxVal, i.SimMean, i.SimStd),
DisplFormat = i.DisplFormat
//Value = $"{getNext(i.ValueNum, i.MinVal, i.MaxVal, i.SimMean, i.SimStd):N3}",
}).ToList();
foreach (var item in answ)
{
item.Value = $"{item.ValueNum.ToString(item.DisplFormat)}";
}
// !!!FIXME TODO... è fake...
#if false
var currVal = rand.NextDouble();
DisplayDataDTO displ01 = new DisplayDataDTO()
{
Order = 0,
Title = "OEE",
ValueNum = currVal,
IsNumeric = true,
Value = currVal.ToString("P1"),
Type = "OEE-75-90"
};
answ.Add(displ01);
currVal = rand.NextDouble();
DisplayDataDTO displ02 = new DisplayDataDTO()
{
Order = 0,
Title = "Avail",
ValueNum = currVal,
IsNumeric = true,
Value = currVal.ToString("P1"),
Type = "AVAIL-50-80"
};
answ.Add(displ02);
currVal = rand.NextDouble();
DisplayDataDTO displ03 = new DisplayDataDTO()
{
Order = 0,
Title = "Order fulfill",
ValueNum = currVal,
IsNumeric = true,
Value = currVal.ToString("P1"),
Type = "ORDER"
};
answ.Add(displ03);
double minTCiclo = stdCycle * rand.NextDouble();
TimeSpan durTCycle = TimeSpan.FromMinutes(minTCiclo);
DisplayDataDTO displ04 = new DisplayDataDTO()
{
Order = 0,
Title = "Cycle time",
ValueNum = 0,
IsNumeric = false,
Value = $"{durTCycle.Hours:00}:{durTCycle.Minutes:00}:{durTCycle.Seconds:00}",
Type = "TCycle"
};
answ.Add(displ04);
#endif
return answ;
}
public ProductionDTO getProd()
{
int stdCycle = 5;
ProductionDTO currMachDto = new ProductionDTO()
{
Order = "ODL Test",
ItemCode = "ART.0000123",
ProgName = "P000012",
CurrQty = DateTime.Now.Minute + rand.Next(1, 40),
OrderQty = 100,
CycleTimeMin = rand.NextDouble() * stdCycle,
Message = "...simulated data..."
};
return currMachDto;
}
public List<DisplayDataDTO> getProdStats()
{
List<DisplayDataDTO> answ = new List<DisplayDataDTO>();
// genero a partire dall'elenco configurato da simulare...
answ = currSimMachStat.Select(i => new DisplayDataDTO()
{
IsNumeric = i.IsNumeric,
MaxVal = i.MaxVal,
MinVal = i.MinVal,
Order = i.Order,
Title = i.Title,
Type = i.Type,
ValueNum = simNext(i.ValueNum, i.MinVal, i.MaxVal, i.SimMean, i.SimStd),
DisplFormat = i.DisplFormat
//Value = $"{getNext(i.ValueNum, i.MinVal, i.MaxVal, i.SimMean, i.SimStd):N3}",
}).ToList();
foreach (var item in answ)
{
item.Value = $"{item.ValueNum.ToString(item.DisplFormat)}";
}
return answ;
}
/// <summary>
/// Restituisce stato Macchina simulato come DTO
/// </summary>
/// <returns></returns>
public MachineDTO getStatus()
{
int maxRun = 5;
int maxExe = 7;
MachineDTO currMachDto = new MachineDTO()
{
Manufacturer = "Egalware",
Model = "SIM Machine",
Name = "DEMO 01",
SerNumber = "2022-0001",
Mode = $"{(Enums.MachRunMode)rand.Next(0, maxRun)}",
Status = $"{(Enums.MachExeStatus)rand.Next(0, maxExe)}"
};
return currMachDto;
}
/// <summary>
/// Calcola prox valore simulato dati i parametri rand configurati
/// </summary>
/// <param name="CurrVal"></param>
/// <param name="MinVal"></param>
/// <param name="MaxVal"></param>
/// <param name="sMean"></param>
/// <param name="sStd"></param>
/// <returns></returns>
public double simNext(double CurrVal, double MinVal, double MaxVal, double sMean, double sStd)
{
double innov = Normal.Sample(sMean, sStd);
CurrVal += innov;
// verifico estremi...
CurrVal = CurrVal > MaxVal ? MaxVal : CurrVal;
CurrVal = CurrVal < MinVal ? MinVal : CurrVal;
return CurrVal;
}
#endregion Public Methods
}
}