// to do:
// ova funkcija nepovratno menja vrednost mappedDig, mappedAn...
/// <summary>
/// Check if it is possible to map new variable, calculates RelativeAddress for
/// new variable, based on previously mapped variables.
/// </summary>
/// <param name="variable"></param>
/// <param name="relativeAddress"></param>
/// <returns></returns>
public bool TryMap(ProcessVariable variable, out ushort relativeAddress)
{
bool retVal = false;
relativeAddress = ushort.MaxValue;
switch (variable.Type)
{
case VariableTypes.DIGITAL:
Digital digital = variable as Digital;
int desiredDigIn = (ushort)(Math.Floor((Math.Log(digital.ValidStates.Count, 2))));
int desiredDigOut = (ushort)(Math.Floor((Math.Log(digital.ValidCommands.Count, 2))));
// to do: test
// mozda ovde treba < a ne <=
if (MappedDig + desiredDigIn <= NoDigIn &&
MappedDig + desiredDigOut <= NoDigOut)
//if (digitalInAddresses.Count + desiredDigIn <= DigInCount &&
//digitalOutAddresses.Count + desiredDigOut <= DigOutCount)
{
relativeAddress = (ushort)MappedDig;
MappedDig++;
retVal = true;
}
break;
case VariableTypes.ANALOG:
Analog analog = variable as Analog;
int desiredAnIn = analog.NumOfRegisters;
int desiredAnOut = analog.NumOfRegisters;
// mozda ovde treba < a ne <=
if (MappedAnalog + desiredAnIn <= NoAnaIn &&
MappedAnalog + desiredAnOut <= NoAnaOut)
//if (analogInAddresses.Count + desiredAnIn <= AnaInCount &&
//analogOutAddresses.Count + desiredAnOut <= AnaOutCount)
{
relativeAddress = (ushort)MappedAnalog;
MappedAnalog++;
retVal = true;
}
break;
}
return(retVal);
}
/// <summary>
/// Mapping to Commanding address in memory of concrete RTU. It is based
/// on ProcessVariable RelativeAddress property (offset in array of Process
/// variables of same type)
/// </summary>
/// <param name="variable"></param>
/// <param name="isSuccessfull"></param>
/// <returns></returns>
private int MapToCommandAddress(ProcessVariable variable)
{
int retAddr = -1;
switch (variable.Type)
{
case VariableTypes.DIGITAL:
Digital digital = variable as Digital;
// 1st variable of type Digital, starts on 1st address of DigitalOutputs memory (outputs are for commanding)
if (digital.RelativeAddress == 0)
{
digOutLock.EnterWriteLock();
try
{
digitalOutAddresses.Insert(digital.RelativeAddress, DigOutStartAddr);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
digOutLock.ExitWriteLock();
}
}
digOutLock.EnterReadLock();
var currentCommAddress = digitalOutAddresses[digital.RelativeAddress];
digOutLock.ExitReadLock();
// this is address that we need currently
retAddr = currentCommAddress;
// if we already reached the end of memory for this type of Process Variable
// in this Process Controller, than we do not have to calculate nextAddress
if (FreeSpaceForDigitals != false)
{
var quantity = (ushort)(Math.Floor((Math.Log(digital.ValidCommands.Count, 2))));
var nextAddress = currentCommAddress + quantity;
// error, out of range. impossible to insert next variable of same type
if (nextAddress >= DigOutStartAddr + DigInCount)
{
FreeSpaceForDigitals = false;
break;
}
digOutLock.EnterWriteLock();
try
{
digitalOutAddresses.Insert(digital.RelativeAddress + 1, nextAddress);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
digOutLock.ExitWriteLock();
}
}
break;
case VariableTypes.ANALOG:
Analog analog = variable as Analog;
// 1st variable of type Analog, starts on 1st address of AnalogOutputs memory (outputs are for commanding)
if (analog.RelativeAddress == 0)
{
anaOutLock.EnterWriteLock();
try
{
analogOutAddresses.Insert(analog.RelativeAddress, AnaOutStartAddr);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
anaOutLock.ExitWriteLock();
}
}
anaOutLock.EnterReadLock();
currentCommAddress = analogOutAddresses[analog.RelativeAddress];
anaOutLock.ExitReadLock();
// this is address that we need currently
retAddr = currentCommAddress;
// if we already reached the end of memory for this type of Process Variable
// in this Process Controller, than we do not have to calculate nextAddress
if (FreeSpaceForAnalogs != false)
{
var nextAddress = currentCommAddress + analog.NumOfRegisters;
// error, out of range. impossible to insert next variable of same type
if (nextAddress >= AnaOutStartAddr + AnaInCount)
{
FreeSpaceForAnalogs = false;
break;
}
anaOutLock.EnterWriteLock();
try
{
analogOutAddresses.Insert(analog.RelativeAddress + 1, nextAddress);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
anaOutLock.ExitWriteLock();
}
}
break;
default:
break;
}
return(retAddr);
}
/// <summary>
/// Mapping to Acquisition address in memory of concrete RTU. It is based
/// on ProcessVariable RelativeAddress property (offset in array of Process
/// variables of same type)
/// </summary>
/// <param name="variable"></param>
/// <param name="isSuccessfull"></param>
/// <returns></returns>
private int MapToAcqAddress(ProcessVariable variable)
{
int retAddr = -1;
switch (variable.Type)
{
case VariableTypes.DIGITAL:
Digital digital = variable as Digital;
// 1st variable of type Digital, starts on 1st address of DigitalInputs memory (inputs are for acquistion)
if (digital.RelativeAddress == 0)
{
digInLock.EnterWriteLock();
try
{
digitalInAddresses.Insert(digital.RelativeAddress, DigInStartAddr);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
digInLock.ExitWriteLock();
}
}
digInLock.EnterReadLock();
var currentAcqAddress = digitalInAddresses[digital.RelativeAddress];
digInLock.ExitReadLock();
// this is address that we need currently
retAddr = currentAcqAddress;
// if we already reached the end of memory for this type of Process Variable
// in this Process Controller, than we do not have to calculate nextAddress
if (FreeSpaceForDigitals != false)
{
// calculating address of next variable of same type,
// by adding number of registers (quantity) with starting address of current variable
var quantity = (ushort)(Math.Floor((Math.Log(digital.ValidStates.Count, 2))));
var nextAddress = currentAcqAddress + quantity;
// error, out of range. impossible to insert next variable of same type
if (nextAddress >= DigInStartAddr + DigInCount)
{
FreeSpaceForDigitals = false;
break;
}
digInLock.EnterWriteLock();
try
{
digitalInAddresses.Insert(digital.RelativeAddress + 1, nextAddress);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
digInLock.ExitWriteLock();
}
}
break;
case VariableTypes.ANALOG:
Analog analog = variable as Analog;
// 1st variable of type Analog, starts on 1st address of AnalogInputs memory (inputs are for acquistion)
if (analog.RelativeAddress == 0)
{
anaInLock.EnterWriteLock();
try
{
analogInAddresses.Insert(analog.RelativeAddress, AnaInStartAddr);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
anaInLock.ExitWriteLock();
}
}
anaInLock.EnterReadLock();
// CURRENT ADDRESS ALREADY DEFINED IN THIS SCOPE? O.o
currentAcqAddress = analogInAddresses[analog.RelativeAddress];
anaInLock.ExitReadLock();
// this is address that we need currently
retAddr = currentAcqAddress;
// if we already reached the end of memory for this type of Process Variable
// in this Process Controller, than we do not have to calculate nextAddress
if (FreeSpaceForAnalogs != false)
{
// calculating address of next variable of same type, by adding length of variable
// length - num of registers (2,3,4..)
var nextAddress = currentAcqAddress + analog.NumOfRegisters;
// error, out of range. impossible to insert next variable of same type
if (nextAddress >= AnaInStartAddr + AnaInCount)
{
FreeSpaceForAnalogs = false;
break;
}
anaInLock.EnterWriteLock();
try
{
analogInAddresses.Insert(analog.RelativeAddress + 1, nextAddress);
}
catch (ArgumentOutOfRangeException e)
{
Console.WriteLine(e.StackTrace);
Console.WriteLine(e.Message);
}
finally
{
anaInLock.ExitWriteLock();
}
}
break;
default:
break;
}
return(retAddr);
}