public void DmsToDD_SE_Test()
{
var wcm = new WellingtonCoordinateModel();
var dd = new DDCoordinate(
wcm.ShortDegreesLattitude(), wcm.DdmMinsLat, wcm.DmsSecondsLat,
wcm.ShortDegreesLongitude(), wcm.DdmMinsLon, wcm.DmsSecondsLon
);
string expectedResult = WellingtonCoordinateModel.StrDD();
int expectedLength = expectedResult.Length;
string actualResult = dd.ToString();
int actualLength = actualResult.Length;
decimal latDiff = Math.Abs(dd.GetLattitudeDD() - wcm.DegreesLat);
decimal lonDiff = Math.Abs(dd.GetLongitudeDD() - wcm.DegreesLon);
var dict = new Dictionary <string, decimal>
{
{ "latDiff", latDiff },
{ "lonDiff", lonDiff }
};
DisplayOutput(expectedResult, actualResult, dict);
Assert.AreEqual(expectedLength, actualLength);
Assert.IsTrue(latDiff >= 0 && latDiff <= DegreeAccuracyThreshold);
Assert.IsTrue(lonDiff >= 0 && lonDiff <= DegreeAccuracyThreshold);
}
public void DdToDDM_SE_Test()
{
var wcm = new WellingtonCoordinateModel();
var ddm = new DDMCoordinate(
wcm.DegreesLat, wcm.DegreesLon
);
string expectedResult = WellingtonCoordinateModel.StrDDM();
int expectedLength = expectedResult.Length;
string actualResult = ddm.ToString();
int actualLength = actualResult.Length;
decimal latDiff = Math.Abs(ddm.GetShortDegreesLat() - Math.Truncate(wcm.DegreesLat));
decimal lonDiff = Math.Abs(ddm.GetShortDegreesLon() - Math.Truncate(wcm.DegreesLon));
decimal latMinsDiff = Math.Abs(ddm.GetMinsLat() - wcm.DdmMinsLat);
decimal lonMinsDiff = Math.Abs(ddm.GetMinsLon() - wcm.DdmMinsLon);
var dict = new Dictionary <string, decimal>
{
{ "latDiff", latDiff },
{ "lonDiff", lonDiff },
{ "latMinsDiff", latMinsDiff },
{ "lonMinsDiff", lonMinsDiff }
};
DisplayOutput(expectedResult, actualResult, dict);
Assert.AreEqual(expectedLength, actualLength);
Assert.IsTrue(latDiff >= 0 && latDiff <= DegreeAccuracyThreshold);
Assert.IsTrue(latMinsDiff >= 0 && latMinsDiff <= LatMinsAccuracyThreshold);
Assert.IsTrue(lonDiff >= 0 && lonDiff <= DegreeAccuracyThreshold);
Assert.IsTrue(lonMinsDiff >= 0 && lonMinsDiff <= LonMinsAccuracyThreshold);
}
public void ConvertGridsquareToDDMTestSW()
{
var cc = new GridDdmExpert();
string gridsquare = WellingtonCoordinateModel.StrGridsquare();
var expectedResult = new DDMCoordinate(WellingtonCoordinateModel.StrAttainableDDM());
DDMCoordinate actualResult = cc.ConvertGridsquareToDDM(gridsquare);
decimal latDiff = Math.Abs(expectedResult.GetShortDegreesLat() - actualResult.GetShortDegreesLat());
decimal lonDiff = Math.Abs(expectedResult.GetShortDegreesLon() - actualResult.GetShortDegreesLon());
decimal latMinsDiff = Math.Abs(expectedResult.GetMinsLat() - actualResult.GetMinsLat());
decimal lonMinsDiff = Math.Abs(expectedResult.GetMinsLon() - actualResult.GetMinsLon());
var dict = new Dictionary <string, decimal>
{
{ "latDiff", latDiff },
{ "lonDiff", lonDiff },
{ "latMinsDiff", latMinsDiff },
{ "lonMinsDiff", lonMinsDiff }
};
DisplayOutput(expectedResult.ToString(), actualResult.ToString(), dict);
Assert.IsTrue(latDiff >= 0 && latDiff <= DegreeAccuracyThreshold);
Assert.IsTrue(latMinsDiff >= 0 && latMinsDiff <= LatMinsAccuracyThreshold);
Assert.IsTrue(lonDiff >= 0 && lonDiff <= DegreeAccuracyThreshold);
Assert.IsTrue(lonMinsDiff >= 0 && lonMinsDiff <= LonMinsAccuracyThreshold);
}
public void ExtractPolarityNSTest()
{
int expectedPositiveResult = 1;
int expectedNegativeResult = -1;
int expectedZeroResult = 0;
short actualPositiveResult = ConversionHelper.ExtractPolarityNS(SanClementeCoordinatesModel.StrDDM());
short actualNegativeResult = ConversionHelper.ExtractPolarityNS(WellingtonCoordinateModel.StrDDM());
short actualZeroResult = ConversionHelper.ExtractPolarityNS(string.Empty);
Assert.AreEqual(expectedPositiveResult, actualPositiveResult);
Assert.AreEqual(expectedNegativeResult, actualNegativeResult);
Assert.AreEqual(expectedZeroResult, actualZeroResult);
}
public void ConvertDDMtoGridsquareTest_SE()
{
var wcm = new WellingtonCoordinateModel();
decimal degreesLat = Math.Truncate(wcm.DegreesLat);
decimal degreesLon = Math.Truncate(wcm.DegreesLon);
decimal minutesLat = wcm.DdmMinsLat;
decimal minutesLon = wcm.DdmMinsLon;
var ddm = new DDMCoordinate(degreesLat, minutesLat, degreesLon, minutesLon);
var cc = new GridDdmExpert();
string expectedResult = WellingtonCoordinateModel.StrGridsquare();
string actualResult = cc.ConvertDDMtoGridsquare(ddm);
Assert.AreEqual(expectedResult, actualResult);
}
public void GetShortMinutesLongitudeTest()
{
var wcm = new WellingtonCoordinateModel();
var dms = new DMSCoordinate(wcm.DegreesLat, wcm.DegreesLon);
decimal shortMinutesLon = dms.GetShortMinutesLongitude();
decimal minutesLonDiff = Math.Abs(Math.Truncate(wcm.DdmMinsLon) - shortMinutesLon);
var dict = new Dictionary <string, decimal>
{
{ "minutesLonDiff", minutesLonDiff }
};
DisplayOutput("17", shortMinutesLon.ToString(), dict);
Assert.IsTrue(minutesLonDiff <= 0.1m);
}
public void CTOR_DDtoDMS_SE_Test()
{
var wcm = new WellingtonCoordinateModel();
decimal ddLat = wcm.DegreesLat;
decimal ddLon = wcm.DegreesLon;
var dms = new DMSCoordinate(ddLat, ddLon);
string expectedResult = LynnwoodCoordinatesModel.StrDMS();
string actualResult = dms.ToString();
decimal latDiff = Math.Abs(dms.GetShortDegreesLat() - Math.Truncate(wcm.DegreesLat));
decimal lonDiff = Math.Abs(dms.GetShortDegreesLon() - Math.Truncate(wcm.DegreesLon));
decimal latMinsDiff = Math.Abs(dms.GetShortMinutesLattitude() - Math.Truncate(wcm.DdmMinsLat));
decimal lonMinsDiff = Math.Abs(dms.GetShortMinutesLongitude() - Math.Truncate(wcm.DdmMinsLon));
decimal latSecsDiff = Math.Abs(dms.GetSecondsLattitude() - wcm.DmsSecondsLat);
decimal lonSecsDiff = Math.Abs(dms.GetSecondsLongitude() - wcm.DmsSecondsLon);
var dict = new Dictionary <string, decimal>
{
{ "latDiff", latDiff },
{ "lonDiff", lonDiff },
{ "latMinsDiff", latMinsDiff },
{ "lonMinsDiff", lonMinsDiff },
{ "latSecsDiff", latSecsDiff },
{ "lonSecsDiff", lonSecsDiff }
};
DisplayOutput(expectedResult, actualResult, dict);
Assert.IsTrue(latDiff >= 0 && latDiff <= 0.0001m);
Assert.IsTrue(latMinsDiff >= 0 && latMinsDiff <= 0.1m);
Assert.IsTrue(latSecsDiff >= 0 && latSecsDiff <= 1.0m);
Assert.IsTrue(lonDiff >= 0 && lonDiff <= 0.0001m);
Assert.IsTrue(lonMinsDiff >= 0 && lonMinsDiff <= 0.1m);
Assert.IsTrue(lonSecsDiff >= 0 && lonSecsDiff <= 1.0m);
}
