static void Main(string[] args)
{
Console.WriteLine("Utility: Hello world!");
PowerPrice_Server server = new PowerPrice_Server();
server.Open();
Thread.Sleep(Constants.WAITING_TIME);
double price = 0;
double hourOfTheDay;
double USDToRSDRatio = 101.94;
double highPrice = 7.117 / USDToRSDRatio;
double lowPrice = 2.372 / USDToRSDRatio;
while (true)
{
hourOfTheDay = ConnectHelper.ConnectUniversalClock().GetTimeInHours();
price = (hourOfTheDay >= 1.0 && hourOfTheDay < 7.0) ? lowPrice : highPrice;
Console.WriteLine($"Price of kwh ($/kwh): {Math.Round(price, 5)} time[{hourOfTheDay}]");
Thread.Sleep(500);
}
}
private static void Driving(ElectricVehicleCharger evc, double drivingHours)
{
double drivingMinutes = drivingHours * Constants.MINUTES_IN_HOUR;
int iterationStart = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int dayStart = ConnectHelper.ConnectUniversalClock().GetDay();
do
{
int currentMoment = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int currentDay = ConnectHelper.ConnectUniversalClock().GetDay();
if (currentDay > dayStart || currentMoment - iterationStart >= 1)
{
iterationStart = currentMoment;
dayStart = currentDay;
}
else
{
continue;
}
ElectricVehicleCharger evcFromDb = DBManager.S_Instance.GetSingleElectricVehicleCharger(evc.BatteryID);
double capacityChange = evcFromDb.CurrentCapacity * Constants.MINUTES_IN_HOUR - 1;
evcFromDb.CurrentCapacity = Math.Round(capacityChange / Constants.MINUTES_IN_HOUR, 2);
DBManager.S_Instance.UpdateElecticVehicleCharger(evcFromDb);
drivingMinutes--;
}while (drivingMinutes > 0);
}
public static void BatteryBehavior()
{
Double hourOfTheDay;
int iterationStart = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int dayStart = ConnectHelper.ConnectUniversalClock().GetDay();
while (true)
{
int currentMoment = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int currentDay = ConnectHelper.ConnectUniversalClock().GetDay();
if (currentDay > dayStart || currentMoment - iterationStart >= 1)
{
iterationStart = currentMoment;
dayStart = currentDay;
}
else
{
continue;
}
Dictionary <string, Battery> batteries = DBManager.S_Instance.GetAllBatteries();
hourOfTheDay = ConnectHelper.ConnectUniversalClock().GetTimeInHours();
if (hourOfTheDay >= 3 && hourOfTheDay <= 6)
{
batteries = ChargeBatteries(batteries);
}
else if (hourOfTheDay >= 14 && hourOfTheDay <= 17)
{
batteries = DischargeBatteries(batteries);
}
else
{
foreach (Battery b in batteries.Values)
{
if (b is ElectricVehicleCharger evc)
{
if (evc.Mode == EMode.CONSUMING && evc.OnCharger)
{
evc.Consuming();
continue;
}
}
b.Mode = EMode.NONE;
}
}
foreach (Battery b in batteries.Values)
{
DBManager.S_Instance.UpdateBattery(b);
}
//Thread.Sleep(Constants.MILISECONDS_IN_MINUTE);
}
}
public static void CollectingMeasurements()
{
int iterationStart = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int dayStart = ConnectHelper.ConnectUniversalClock().GetDay();
while (true)
{
int currentMoment = ConnectHelper.ConnectUniversalClock().GetTimeInMinutes();
int currentDay = ConnectHelper.ConnectUniversalClock().GetDay();
if (currentDay > dayStart || currentMoment - iterationStart >= 1)
{
iterationStart = currentMoment;
dayStart = currentDay;
}
else
{
continue;
}
IPowerPrice powerPriceProxy = ConnectHelper.ConnectUtility();
IUniversalClockService universalClockProxy = ConnectHelper.ConnectUniversalClock();
Measurement currentMeasurement = new Measurement
{
BatteryConsumption = 0,
BatteryProduction = 0,
ConsumersConsumption = 0,
SolarPanelProduction = 0,
};
Dictionary <string, Battery> batteries = DBManager.S_Instance.GetAllBatteries();
Dictionary <string, ElectricVehicleCharger> evcs = DBManager.S_Instance.GetAllElectricVehicleChargers();
Dictionary <string, SolarPanel> sps = DBManager.S_Instance.GetAllSolarPanels();
Dictionary <string, Consumer> consumers = DBManager.S_Instance.GetAllConsumers();
Measurement currentConsumptionMeasurement = CalculateCurrentConsumption(batteries, evcs, consumers);
currentMeasurement.BatteryConsumption = currentConsumptionMeasurement.BatteryConsumption;
currentMeasurement.ConsumersConsumption = currentConsumptionMeasurement.ConsumersConsumption;
Measurement currentProductionMeasurement = CalculateCurrentProduction(batteries, evcs, sps);
currentMeasurement.SolarPanelProduction = currentProductionMeasurement.SolarPanelProduction;
currentMeasurement.BatteryProduction = currentMeasurement.BatteryProduction;
currentMeasurement.PowerPrice = powerPriceProxy.GetPowerPrice(universalClockProxy.GetTimeInHours());
currentMeasurement.Day = universalClockProxy.GetDay();
currentMeasurement.HourOfTheDay = universalClockProxy.GetTimeInHours();
DBManager.S_Instance.AddMeasurement(currentMeasurement);
//Thread.Sleep(Constants.MILISECONDS_IN_MINUTE);
}
}
private void BackgroundWorker_DoWork(object sender, DoWorkEventArgs e)
{
while (true)
{
IUniversalClockService universalClockProxy = ConnectHelper.ConnectUniversalClock();
TotalMinutes = universalClockProxy.GetTimeInMinutes();
TimeSpan ts = TimeSpan.FromMinutes(TotalMinutes);
IPowerPrice utilityProxy = ConnectHelper.ConnectUtility();
Dispatcher.BeginInvoke(DispatcherPriority.Render, new Action(() =>
{
CurrentTimeProperty = String.Format($"{ts.Hours} : {ts.Minutes}");
CurrentPriceProperty = String.Format($"Power price: {utilityProxy.GetPowerPrice(universalClockProxy.GetTimeInHours())} [$/kWh]");
Int32 day = universalClockProxy.GetDay();
if (day - 1 != 0)
{
String newDayString = $"{day - 1}. dan od startovanja aplikacije";
if (!ListOfDays.Contains(newDayString))
{
ListOfDays.Add(newDayString);
}
}
else
{
String newDayString = $"Dan u kojem je startovana aplikacija";
if (!ListOfDays.Contains(newDayString))
{
ListOfDays.Add(newDayString);
}
}
}));
Thread.Sleep(Constants.MILISECONDS_IN_SECOND);
}
}
public void StartTask()
{
Task.Run(() =>
{
CurrentPower = CalculatePower(ConnectHelper.ConnectWeatherForecast(), ConnectHelper.ConnectUniversalClock().GetTimeInHours());
DBManager.S_Instance.UpdateSolarPanel(this);
});
}
static void Automatic(WeatherForecast_Server server)
{
//probaj sa currentSunlight
server.Open();
Thread.Sleep(Constants.WAITING_TIME);
int sunlightPercentage = 0;
Random random = new Random();
while (true)
{
double hourOfTheDay = ConnectHelper.ConnectUniversalClock().GetTimeInHours();
if (hourOfTheDay >= 0 && hourOfTheDay < 5.5)
{
sunlightPercentage = 0;
}
else if (hourOfTheDay >= 5.5 && hourOfTheDay < 7.0)
{
sunlightPercentage = 25 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 7.0 && hourOfTheDay < 10.0)
{
sunlightPercentage = 50 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 10.0 && hourOfTheDay < 12.0)
{
sunlightPercentage = 75 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 12.0 && hourOfTheDay < 15.0)
{
sunlightPercentage = 100 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 15.0 && hourOfTheDay < 17.0)
{
sunlightPercentage = 75 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 17.0 && hourOfTheDay < 20.0)
{
sunlightPercentage = 50 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 20.0 && hourOfTheDay < 22.0)
{
sunlightPercentage = 25 * random.Next(8, 10) / 10;
}
else if (hourOfTheDay >= 22.0 && hourOfTheDay <= 23.0)
{
sunlightPercentage = 0;
}
// TODO
// da li je ova dodela ok
WeatherForecast_Server.CurrentSunlight = sunlightPercentage;
//
Console.WriteLine($"Sunlight(%): {sunlightPercentage} time[{hourOfTheDay}]");
Thread.Sleep(Constants.MILISECONDS_IN_SECOND);
}
}