//--------------------------------------------------------------
// Receive a message
//--------------------------------------------------------------
void CEngineStatus::GetEngineState()
{ state = 0;
CEngineData *data = (CEngineData *)emsg.voidData;
if (0 == data)
{ Send_Message(&emsg);
data = (CEngineData *)emsg.voidData;
if (0 == data) return;
}
//---Update internal state ----------------
char est = data->EngState();
state = (est == mode);
active = (state != 0);
return;
}
//-----------------------------------------------------------------------
// Time Slice
// when all dependents are OK, check the engine RPM
//-----------------------------------------------------------------------
void CGenerator::TimeSlice(float dT,U_INT FrNo)
{ CDependent::TimeSlice(dT, FrNo);
if (!active) return;
//---Get engine RPM --------------------
CEngineData *data = (CEngineData*)emsg.voidData;
if (0 == data)
{ Send_Message(&emsg); // Querry engine
data = (CEngineData*)emsg.voidData;
}
if (0 == data)
{ active = false;
state = 0;
return;
}
//---Check enough RPM ----------------------
bool rpm = ((data->EngRPM() > loRG) && (data->EngRPM() < hiRG));
active &= rpm;
return;
}
//-----------------------------------------------------------------------
// Time Slice
// when all dependents are OK, check the engine RPM
//-----------------------------------------------------------------------
void CAlternator::TimeSlice(float dT,U_INT FrNo)
{ CDependent::TimeSlice(dT, FrNo);
//---Get engine RPM --------------------
CEngineData *data = (CEngineData*)emsg.voidData;
if (0 == data)
{ Send_Message(&emsg); // Querry engine
data = (CEngineData*)emsg.voidData;
}
if (0 == data)
{ active = false;
state = 0;
return;
}
//---Check enough RPM ----------------------
bool rpm = ((data->EngRPM() > loRg) && (data->EngRPM() < hiRg));
active &= rpm;
//---Compute voltage ----------------------
volt = (data->EngRPM() - loRg) * vFac * state;
if (volt > mvlt) volt = mvlt;
return;
}
