public string convertTime(string aTime) { var time = Time.Parse(aTime); var clock = BerlinClock.Classes.BerlinClock.FromTime(time); return(clock.TimeStr); }
public void ThenTheProgrammerShouldGetAParseErrorInThePortion(string parameterName) { try { Time.Parse(_time); } catch (ArgumentException e) { Assert.AreEqual(parameterName, e.ParamName); return; } Assert.Inconclusive(); }
/// <inheritdoc/> public string ConvertTime(string aTime) { if (String.IsNullOrEmpty(aTime)) { throw new ArgumentNullException("aTime"); } Time time = Time.Parse(aTime); IClock <Time> clock = new BerlinClock(); clock.Set(time); return(clock.ToString()); }
public Time TimeTransform(string time) { return(Time.Parse(time)); }
public void Parse_Must_Throw_ArgumentNullException_When_Argument_Is_Null() { Assert.Throws <ArgumentNullException>(() => Time.Parse(null)); }
public void Parse_Must_Throw_ArgumentException_When_Argument_Is_Not_Valid(string time) { Assert.Throws <ArgumentException>(() => Time.Parse(time)); }
public void Parse_Must_Return_Expected(string time, Time expected) { Assert.AreEqual(expected, Time.Parse(time)); }
public string convertTime(string aTime) { return(string.Join(Environment.NewLine, Clock.Zip(GetLampsInRows(Time.Parse(aTime)), (row, lamps) => FormatLampString(row, lamps)))); }
public void ThenTheProgrammerShouldGetAParsedInstanceThatLooksLike(string expectedTimeRepresentation) { Assert.AreEqual(expectedTimeRepresentation, Time.Parse(_time).ToString()); }