public void EccentricityOfEarthOrbitComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.EccentEarthOrbit; decimal actualValue = solarTimes.EccentricityOfEarthOrbit; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SolarDeclinationComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.SunDeclin; decimal actualValue = solarTimes.SolarDeclination; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void HourAngleSunriseComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.HaSunrise; decimal actualValue = solarTimes.HourAngleSunrise; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunGeometricMeanLongitudeComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.GeomMeanLongSun; decimal actualValue = solarTimes.SunGeometricMeanLongitude; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void JulianCenturyComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.JulianCentury; decimal actualValue = solarTimes.JulianCentury; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void MeanEclipticObliquityComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.MeanObliqEcliptic; decimal actualValue = solarTimes.MeanEclipticObliquity; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void ObliquityCorrectionComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["ObliqCorr"]); decimal actualValue = solarTimes.ObliquityCorrection; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void EccentricityOfEarthOrbitComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["EccentEarthOrbit"]); decimal actualValue = solarTimes.EccentricityOfEarthOrbit; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunMeanAnomalyComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["GeomMeanAnomSun"]); decimal actualValue = solarTimes.SunMeanAnomaly; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void JulianCenturyComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["JulianCentury"]); decimal actualValue = solarTimes.JulianCentury; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void HourAngleSunriseComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["HaSunrise"]); decimal actualValue = solarTimes.HourAngleSunrise; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunEquationOfCenterComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.SunEqofCtr; decimal actualValue = solarTimes.SunEquationOfCenter; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunApparentLongitudeComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); decimal expectedValue = Convert.ToDecimal(this.TestContext.DataRow["SunAppLong"]); decimal actualValue = solarTimes.SunApparentLongitude; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunMeanAnomalyComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.GeomMeanAnomSun; decimal actualValue = solarTimes.SunMeanAnomaly; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void ObliquityCorrectionComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); decimal expectedValue = item.ObliqCorr; decimal actualValue = solarTimes.ObliquityCorrection; decimal difference = expectedValue - actualValue; CustomAssert.AreEqual(expectedValue, actualValue, TestDirector.SolarDecimalDelta); }
public void SunlightDurationComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); TimeSpan expectedValue = TimeSpan.FromMinutes(item.SunlightDuration); TimeSpan actualValue = solarTimes.SunlightDuration; TimeSpan difference = expectedValue - actualValue; if (difference > TestDirector.TimeSpanDelta) { Assert.Fail($"The Sunlight Duration (Column AA) calculation does not match Excel. The difference is {difference}"); } }
public void SunsetComparisonTest(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); DateTime expectedValue = item.SunsetTime; DateTime actualValue = solarTimes.Sunset; TimeSpan difference = expectedValue.TimeOfDay.Subtract(actualValue.TimeOfDay); if (difference > TestDirector.TimeSpanDelta) { Assert.Fail($"The Sunset (Column Z) calculation does not match Excel. The difference is {difference}"); } }
public void SunsetComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); DateTime expectedValue = Convert.ToDateTime(this.TestContext.DataRow["SunsetTime"]); DateTime actualValue = solarTimes.Sunset; TimeSpan difference = expectedValue.TimeOfDay.Subtract(actualValue.TimeOfDay); if (difference > TestDirector.TimeSpanDelta) { Assert.Fail(string.Format("The Sunset (Column Z) calculation does not match Excel. The difference is {0}", difference)); } }
public void SunlightDurationComparisonTest() { SolarTimes solarTimes = TestDirector.SolarTimesInstance(this.TestContext.DataRow); TimeSpan expectedValue = TimeSpan.FromMinutes(Convert.ToDouble(this.TestContext.DataRow["SunlightDuration"])); TimeSpan actualValue = solarTimes.SunlightDuration; TimeSpan difference = expectedValue - actualValue; if (difference > TestDirector.TimeSpanDelta) { Assert.Fail(string.Format("The Sunlight Duration (Column AA) calculation does not match Excel. The difference is {0}", difference)); } }
public static IEnumerable <DateValueTestData> LoadDateValueTestData() { IEnumerable <DateValueTestData> returnValue = null; string contents = File.ReadAllText(@"Data/DateValueTestData.csv"); // *** // *** // *** returnValue = (from tbl in TestDirector.ParseCsv(contents) select new DateValueTestData() { Date = DateTime.Parse(tbl["Date"]), DateValue = Convert.ToDecimal(tbl["DateValue"]) }).ToArray(); return(returnValue); }
public static IEnumerable <SolarCalculationsTestData> LoadSolarCalculatorTestData() { IEnumerable <SolarCalculationsTestData> returnValue = null; string contents = File.ReadAllText(@"Data/SolarCalculationsTestData.csv"); // *** // *** // *** returnValue = (from tbl in TestDirector.ParseCsv(contents) select new SolarCalculationsTestData() { Date = DateTime.Parse(tbl["Date"]), Time = DateTime.Parse(tbl["Time"]), TimeZoneOffset = Convert.ToInt32(tbl["TimeZoneOffset"]), Latitude = Convert.ToDecimal(tbl["Latitude"]), Longitude = Convert.ToDecimal(tbl["Longitude"]), JulianDay = Convert.ToDecimal(tbl["JulianDay"]), JulianCentury = Convert.ToDecimal(tbl["JulianCentury"]), GeomMeanLongSun = Convert.ToDecimal(tbl["GeomMeanLongSun"]), GeomMeanAnomSun = Convert.ToDecimal(tbl["GeomMeanAnomSun"]), EccentEarthOrbit = Convert.ToDecimal(tbl["EccentEarthOrbit"]), SunEqofCtr = Convert.ToDecimal(tbl["SunEqofCtr"]), SunTrueLong = Convert.ToDecimal(tbl["SunTrueLong"]), SunAppLong = Convert.ToDecimal(tbl["SunAppLong"]), MeanObliqEcliptic = Convert.ToDecimal(tbl["MeanObliqEcliptic"]), ObliqCorr = Convert.ToDecimal(tbl["ObliqCorr"]), SunDeclin = Convert.ToDecimal(tbl["SunDeclin"]), Vary = Convert.ToDecimal(tbl["vary"]), EqofTime = Convert.ToDecimal(tbl["EqofTime"]), HaSunrise = Convert.ToDecimal(tbl["HaSunrise"]), SolarNoon = DateTime.Parse(tbl["SolarNoon"]), SunriseTime = DateTime.Parse(tbl["SunriseTime"]), SunsetTime = DateTime.Parse(tbl["SunsetTime"]), SunlightDuration = Convert.ToDouble(tbl["SunlightDuration"]), TrueSolarTime = Convert.ToDecimal(tbl["TrueSolarTime"]) }).ToArray(); return(returnValue); }
public void CheckSunriseDate(SolarCalculationsTestData item) { SolarTimes solarTimes = TestDirector.SolarTimesInstance(item); Assert.AreEqual(solarTimes.ForDate.Date, solarTimes.Sunrise.Date); }