public static string ToString(UnitsOfTime value) { if (value == UnitsOfTime.S) { return("s"); } else if (value == UnitsOfTime.Min) { return("min"); } else if (value == UnitsOfTime.H) { return("h"); } else if (value == UnitsOfTime.D) { return("d"); } else if (value == UnitsOfTime.Wk) { return("wk"); } else if (value == UnitsOfTime.Mo) { return("mo"); } else if (value == UnitsOfTime.A) { return("a"); } else { throw new ArgumentException("Unrecognized UnitsOfTime value: " + value.ToString()); } }
public Velocity(Distance distance, UnitsOfTime units, Angle azimuth) : base(distance, units) { if (azimuth == null) { throw new ArgumentNullException(nameof(azimuth)); } Azimuth = new Angle(azimuth); }
public Speed(Distance distance, UnitsOfTime units) { if (distance == null) { throw new ArgumentNullException(nameof(distance)); } Distance = new Distance(distance); Units = units; }
public Speed ConvertTo(UnitsOfTime units) { if (Units == units) { return(this); } // 1. convert current time unit to seconds var seconds = 1.0; switch (Units) { case UnitsOfTime.Minute: seconds = 60; break; case UnitsOfTime.Hour: seconds = 3600; break; case UnitsOfTime.Milisecond: seconds = 0.001; break; case UnitsOfTime.Day: seconds = 86400; break; } // 2. convert distance/time to distance over seconds var rate = Distance.Value / seconds; // 3. convert rate to new value switch (units) { case UnitsOfTime.Minute: rate = rate * 60; break; case UnitsOfTime.Hour: rate = rate * 3600; break; case UnitsOfTime.Milisecond: rate = rate * 0.001; break; case UnitsOfTime.Day: rate = rate * 86400; break; } return(new Speed(new Distance(rate, Distance.Units), units)); }
public static bool TryParse(string value, out UnitsOfTime result) { result = default(UnitsOfTime); if (value == "s") { result = UnitsOfTime.S; } else if (value == "min") { result = UnitsOfTime.Min; } else if (value == "h") { result = UnitsOfTime.H; } else if (value == "d") { result = UnitsOfTime.D; } else if (value == "wk") { result = UnitsOfTime.Wk; } else if (value == "mo") { result = UnitsOfTime.Mo; } else if (value == "a") { result = UnitsOfTime.A; } else { return(false); } return(true); }
internal DateTime CalculateTimeToRun(int interval, UnitsOfTime unitOfTime) { DateTime calculatedDateTime; switch (_unitOfTime) { case UnitsOfTime.Seconds: calculatedDateTime = CalculateTimeToRunInSeconds(interval, DateTime.Now); break; case UnitsOfTime.Minutes: calculatedDateTime = CalculateTimeToRunInMinutes(interval, DateTime.Now); break; case UnitsOfTime.Hours: calculatedDateTime = CalculateTimeToRunInHours(interval, DateTime.Now); break; case UnitsOfTime.Days: calculatedDateTime = CalculateTimeToRunInDays(interval, DateTime.Now); break; case UnitsOfTime.Weeks: calculatedDateTime = CalculateTimeToRunInWeeks(interval, DateTime.Now); break; case UnitsOfTime.Months: calculatedDateTime = CalculateTimeToRunInMonths(interval, DateTime.Now); break; case UnitsOfTime.Years: calculatedDateTime = CalculateTimeToRunInYears(interval, DateTime.Now); break; default: throw new ArgumentException("The supplied unit of time was not valid!"); } return(calculatedDateTime); }
public static bool TryParse(string value, out UnitsOfTime result) { result = default(UnitsOfTime); if( value=="s") result = UnitsOfTime.S; else if( value=="min") result = UnitsOfTime.Min; else if( value=="h") result = UnitsOfTime.H; else if( value=="d") result = UnitsOfTime.D; else if( value=="wk") result = UnitsOfTime.Wk; else if( value=="mo") result = UnitsOfTime.Mo; else if( value=="a") result = UnitsOfTime.A; else return false; return true; }
public static string ToString(UnitsOfTime value) { if( value==UnitsOfTime.S ) return "s"; else if( value==UnitsOfTime.Min ) return "min"; else if( value==UnitsOfTime.H ) return "h"; else if( value==UnitsOfTime.D ) return "d"; else if( value==UnitsOfTime.Wk ) return "wk"; else if( value==UnitsOfTime.Mo ) return "mo"; else if( value==UnitsOfTime.A ) return "a"; else throw new ArgumentException("Unrecognized UnitsOfTime value: " + value.ToString()); }