internal void PresentAstrometricFit(LeastSquareFittedAstrometry fit, StarMagnitudeFit magFit)
{
pnlAstrometry.Visible = true;
pnlObject.Visible = false;
pnlMeasurements.Visible = false;
pnlAstrometry.Top = 0;
pnlAstrometry.Left = 0;
pnlAstrometry.Visible = fit != null;
pnlFitSuccessful.Visible = fit != null;
pnlFitFailed.Visible = !pnlFitSuccessful.Visible;
pnlFitInfo.Visible = fit != null;
if (fit != null)
{
lblStdDevRA.Text = string.Format("{0}\"", fit.StdDevRAArcSec.ToString("0.00"));
lblStdDevDE.Text = string.Format("{0}\"", fit.StdDevDEArcSec.ToString("0.00"));
if (magFit != null)
{
if (double.IsNaN(magFit.Sigma))
lblStdDevMag.Text = "NaN";
else
lblStdDevMag.Text = string.Format("{0} mag", magFit.Sigma.ToString("0.00"));
}
else
lblStdDevMag.Text = "N/A";
double onePixX = fit.GetDistanceInArcSec(fit.Image.CenterXImage, fit.Image.CenterYImage, fit.Image.CenterXImage + 1, fit.Image.CenterYImage);
double onePixY = fit.GetDistanceInArcSec(fit.Image.CenterXImage, fit.Image.CenterYImage, fit.Image.CenterXImage, fit.Image.CenterYImage + 1);
lblPixelSizeX.Text = string.Format("{0}\"", onePixX.ToString("0.0"));
lblPixelSizeY.Text = string.Format("{0}\"", onePixY.ToString("0.0"));
}
}
public AstrometricSolutionImpl(LeastSquareFittedAstrometry astrometry, StarMagnitudeFit photometry, AstrometricState state, FieldSolveContext fieldSolveContext)
{
StarCatalog = fieldSolveContext.StarCatalogueFacade.CatalogNETCode;
UtcTime = fieldSolveContext.UtcTime;
FrameNoOfUtcTime = fieldSolveContext.FrameNoOfUtcTime;
AutoLimitMagnitude = (float)fieldSolveContext.AutoLimitMagnitude;
ResolvedFocalLength = (float)fieldSolveContext.FocalLength;
if (astrometry != null)
{
ResolvedCenterRADeg = (float)astrometry.RA0Deg;
ResolvedCenterDEDeg = (float)astrometry.DE0Deg;
StdDevRAArcSec = (float)astrometry.StdDevRAArcSec;
StdDevDEArcSec = (float)astrometry.StdDevDEArcSec;
}
else
{
ResolvedCenterRADeg = float.NaN;
ResolvedCenterDEDeg = float.NaN;
StdDevRAArcSec = float.NaN;
StdDevDEArcSec = float.NaN;
}
if (state.SelectedObject != null)
{
m_UserObject = new TangraUserObjectImpl();
m_UserObject.RADeg = (float)state.SelectedObject.RADeg;
m_UserObject.DEDeg = (float)state.SelectedObject.DEDeg;
m_UserObject.X = (float)state.SelectedObject.X0;
m_UserObject.Y = (float)state.SelectedObject.Y0;
if (state.IdentifiedObjects != null &&
state.IdentifiedObjects.Count == 1)
{
foreach (IIdentifiedObject idObj in state.IdentifiedObjects)
{
if (AngleUtility.Elongation(idObj.RAHours * 15.0, idObj.DEDeg, state.SelectedObject.RADeg, state.SelectedObject.DEDeg) * 3600 < 120)
{
m_UserObject.ResolvedName = idObj.ObjectName;
break;
}
}
}
}
m_MeasurementsImpl = new List<TangraAstrometricMeasurementImpl>();
if (state.Measurements != null)
{
foreach (var mea in state.Measurements)
{
m_MeasurementsImpl.Add(new TangraAstrometricMeasurementImpl()
{
DEDeg = mea.DEDeg,
RADeg = mea.RADeg,
FrameNo = mea.FrameNo,
SolutionUncertaintyRACosDEArcSec = mea.SolutionUncertaintyRACosDEArcSec,
SolutionUncertaintyDEArcSec = mea.SolutionUncertaintyDEArcSec,
FWHMArcSec = mea.FWHMArcSec,
Detection = mea.Detection,
SNR = mea.SNR,
UncorrectedTimeStamp = mea.OCRedTimeStamp ?? mea.CalculatedTimeStamp,
Mag = mea.Mag
});
}
}
m_MatchedStarImpl = new List<TangraMatchedStarImpl>();
if (astrometry != null)
{
foreach (PlateConstStarPair pair in astrometry.FitInfo.AllStarPairs)
{
if (pair.FitInfo.UsedInSolution)
{
var star = new TangraMatchedStarImpl()
{
X = (float)pair.x,
Y = (float)pair.y,
RADeg = (float)pair.RADeg,
DEDeg = (float)pair.DEDeg,
StarNo = pair.StarNo,
ExcludedForHighResidual = pair.FitInfo.ExcludedForHighResidual,
ResidualRAArcSec = (float)pair.FitInfo.ResidualRAArcSec,
ResidualDEArcSec = (float)pair.FitInfo.ResidualDEArcSec,
DetectionCertainty = (float)pair.DetectionCertainty,
PSFAmplitude = (int)pair.Intensity,
IsSaturated = pair.IsSaturated,
Mag = (float)pair.Mag
};
TangraCatalogStarImpl catStar = null;
IStar catalogStar = fieldSolveContext.CatalogueStars.Find(s => s.StarNo == pair.StarNo);
if (catalogStar != null)
{
if (catalogStar is UCAC4Entry)
catStar = new TangraAPASSStar();
else
catStar = new TangraCatalogStarImpl();
catStar.StarNo = catalogStar.StarNo;
catStar.MagR = (float)catalogStar.MagR;
catStar.MagV = (float)catalogStar.MagV;
catStar.MagB = (float)catalogStar.MagB;
catStar.Mag = (float)catalogStar.Mag;
if (catalogStar is UCAC3Entry)
{
UCAC3Entry ucac3Star = (UCAC3Entry)catalogStar;
catStar.MagJ = (float)(ucac3Star.jmag * 0.001);
catStar.MagK = (float)(ucac3Star.kmag * 0.001);
catStar.RAJ2000Deg = (float)ucac3Star.RACat;
catStar.DEJ2000Deg = (float)ucac3Star.DECat;
}
else if (catalogStar is UCAC2Entry)
{
UCAC2Entry ucac2Star = (UCAC2Entry)catalogStar;
catStar.MagJ = (float)(ucac2Star._2m_J * 0.001);
catStar.MagK = (float)(ucac2Star._2m_Ks * 0.001);
catStar.RAJ2000Deg = (float)ucac2Star.RACat;
catStar.DEJ2000Deg = (float)ucac2Star.DECat;
}
else if (catalogStar is NOMADEntry)
{
NOMADEntry nomadStar = (NOMADEntry)catalogStar;
catStar.MagJ = (float)(nomadStar.m_J * 0.001);
catStar.MagK = (float)(nomadStar.m_K * 0.001);
catStar.RAJ2000Deg = (float)nomadStar.RACat;
catStar.DEJ2000Deg = (float)nomadStar.DECat;
}
else if (catalogStar is UCAC4Entry)
{
UCAC4Entry ucac4Star = (UCAC4Entry)catalogStar;
catStar.MagJ = (float)(ucac4Star.MagJ);
catStar.MagK = (float)(ucac4Star.MagK);
catStar.RAJ2000Deg = (float)ucac4Star.RACat;
catStar.DEJ2000Deg = (float)ucac4Star.DECat;
((TangraAPASSStar)catStar).B = (float)ucac4Star.MagB;
((TangraAPASSStar)catStar).V = (float)ucac4Star.MagV;
((TangraAPASSStar)catStar).g = (float)ucac4Star.Mag_g;
((TangraAPASSStar)catStar).r = (float)ucac4Star.Mag_r;
((TangraAPASSStar)catStar).i = (float)ucac4Star.Mag_i;
((TangraAPASSStar)catStar).e_B = ucac4Star.apase_B * 0.001f;
((TangraAPASSStar)catStar).e_V = ucac4Star.apase_V * 0.001f;
((TangraAPASSStar)catStar).e_g = ucac4Star.apase_g * 0.001f;
((TangraAPASSStar)catStar).e_r = ucac4Star.apase_r * 0.001f;
((TangraAPASSStar)catStar).e_i = ucac4Star.apase_i * 0.001f;
}
}
star.CatalogStar = catStar;
if (photometry != null)
{
IStar photometryStar = photometry.StarNumbers.FirstOrDefault(s => s.StarNo == pair.StarNo);
if (photometryStar != null)
{
int idx = photometry.StarNumbers.IndexOf(photometryStar);
star.Intensity = (float)photometry.Intencities[idx];
star.IsSaturated = photometry.SaturatedFlags[idx];
star.MeaSignalMethod = ConvertSignalMethod(photometry.MeaSignalMethod);
star.MeaBackgroundMethod = ConvertBackgroundMethod(photometry.MeaBackgroundMethod);
star.MeaSingleApertureSize = photometry.MeaSingleAperture;
star.MeaBackgroundPixelCount = photometry.MeaBackgroundPixelCount;
star.MeaSaturationLevel = photometry.MeaSaturationLevel;
}
}
m_MatchedStarImpl.Add(star);
}
}
}
}