//Finds the vehicle that takes the least time during Rainy weather
public Tuple <string, double> calculate_rainy_time()
{
double _least_time, _minimum_time;
string _vehicle;
double rainy_craters = Convert.ToDouble(_craters + (_craters * 0.2));
IVehicle car = factory.get_vehicle_time("Car");
IVehicle tuktuk = factory.get_vehicle_time("Tuktuk");
double car_time = car.Calculate_vehicletime(rainy_craters, _distance, _speed);
double tuktuk_time = tuktuk.Calculate_vehicletime(rainy_craters, _distance, _speed);
if (!(car_time == tuktuk_time))
{
_minimum_time = Math.Min(car_time, tuktuk_time);
if (_minimum_time == car_time)
{
_least_time = car_time;
_vehicle = "CAR";
}
else
{
_least_time = tuktuk_time;
_vehicle = "TUKTUK";
}
return(new Tuple <string, double>(_vehicle, _least_time));
}
_least_time = tuktuk_time;
_vehicle = "TUKTUK";
return(new Tuple <string, double>(_vehicle, _least_time));
}
//Finds the vehicle that takes the least time during Windy weather
public Tuple <string, double> calculate_windy_time()
{
double _least_time, _minimum_time;
string _vehicle;
IVehicle car = factory.get_vehicle_time("Car");
IVehicle bike = factory.get_vehicle_time("Bike");
double car_time = car.Calculate_vehicletime(_craters, _distance, _speed);
double bike_time = bike.Calculate_vehicletime(_craters, _distance, _speed);
if (!(car_time == bike_time))
{
_minimum_time = Math.Min(car_time, bike_time);
if (_minimum_time == car_time)
{
_least_time = car_time;
_vehicle = "CAR";
}
else
{
_least_time = bike_time;
_vehicle = "BIKE";
}
return(new Tuple <string, double>(_vehicle, _least_time));
}
_least_time = bike_time;
_vehicle = "BIKE";
return(new Tuple <string, double>(_vehicle, _least_time));
}
//Finds the vehicle that takes the least time during Sunny weather
public Tuple <string, double> calculate_sunnny_time()
{
double _least_time, _minimum_time;
string _vehicle;
double sunny_craters = Convert.ToDouble(_craters - (_craters * 0.1));
IVehicle car = factory.get_vehicle_time("Car");
IVehicle bike = factory.get_vehicle_time("Bike");
IVehicle tuktuk = factory.get_vehicle_time("Tuktuk");
double car_time = car.Calculate_vehicletime(sunny_craters, _distance, _speed);
double bike_time = bike.Calculate_vehicletime(sunny_craters, _distance, _speed);
double tuktuk_time = tuktuk.Calculate_vehicletime(sunny_craters, _distance, _speed);
if ((car_time == bike_time) & (bike_time == tuktuk_time))
{
_least_time = bike_time;
_vehicle = "BIKE";
}
else if ((car_time == bike_time) & (tuktuk_time > bike_time))
{
_least_time = bike_time;
_vehicle = "BIKE";
}
else if ((tuktuk_time == bike_time) & (car_time > tuktuk_time))
{
_least_time = bike_time;
_vehicle = "BIKE";
}
else if ((car_time == tuktuk_time) & (bike_time > tuktuk_time))
{
_least_time = tuktuk_time;
_vehicle = "TUKTUK";
}
else
{
_minimum_time = Math.Min(car_time, Math.Min(bike_time, tuktuk_time));
if (_minimum_time == car_time)
{
_least_time = car_time;
_vehicle = "CAR";
}
else if (_minimum_time == bike_time)
{
_least_time = bike_time;
_vehicle = "BIKE";
}
else
{
_least_time = tuktuk_time;
_vehicle = "TUKTUK";
}
}
return(new Tuple <string, double>(_vehicle, _least_time));
}
