public static PlateConstantsLinearFit FromReflectedLinearFit(object reflObj) { var rv = new PlateConstantsLinearFit(); rv.Const_A = StarMap.GetPropValue <double>(reflObj, "Const_A"); rv.Const_B = StarMap.GetPropValue <double>(reflObj, "Const_B"); rv.Const_C = StarMap.GetPropValue <double>(reflObj, "Const_C"); rv.Const_D = StarMap.GetPropValue <double>(reflObj, "Const_D"); rv.Const_E = StarMap.GetPropValue <double>(reflObj, "Const_E"); rv.Const_F = StarMap.GetPropValue <double>(reflObj, "Const_F"); rv.Const_A1 = StarMap.GetPropValue <double>(reflObj, "Const_A1"); rv.Const_B1 = StarMap.GetPropValue <double>(reflObj, "Const_B1"); rv.Const_C1 = StarMap.GetPropValue <double>(reflObj, "Const_C1"); rv.Const_D1 = StarMap.GetPropValue <double>(reflObj, "Const_D1"); rv.Const_E1 = StarMap.GetPropValue <double>(reflObj, "Const_E1"); rv.Const_F1 = StarMap.GetPropValue <double>(reflObj, "Const_F1"); rv.m_FitInfo = new FitInfo(new List <PlateConstStarPair>()); object fitInfo = StarMap.GetPropValue <object>(reflObj, "m_FitInfo"); rv.m_FitInfo.FittedFocalLength = StarMap.GetPropValue <double>(fitInfo, "FittedFocalLength"); return(rv); }
public static PlateConstantsFit FromReflectedObject(object reflObj) { string constType = reflObj.GetType().ToString(); if (constType.Contains("PlateConstantsLinearFit")) { return(PlateConstantsLinearFit.FromReflectedLinearFit(reflObj)); } else if (constType.Contains("PlateConstantsQadraticFit")) { return(PlateConstantsQadraticFit.FromReflectedQadraticFit(reflObj)); } else { return(null); } }
public static PlateConstantsFit LeastSquareSolve( List <PlateConstStarPair> pairs, double ra0Deg, double de0Deg, FitOrder fitOrder, int minNumberOfStars) { if (fitOrder == FitOrder.Linear) { PlateConstantsLinearFit linearFit = new PlateConstantsLinearFit(pairs); try { if (linearFit.LeastSquareSolve(ra0Deg, de0Deg, minNumberOfStars)) { return(linearFit); } } catch (Exception ex) { Trace.WriteLine("{0} exception during PlateConstantsFit.", ex.GetType().Name); return(null); } } if (fitOrder == FitOrder.Quadratic) { PlateConstantsQadraticFit qadraticFit = new PlateConstantsQadraticFit(pairs); try { if (qadraticFit.LeastSquareSolve(ra0Deg, de0Deg, minNumberOfStars)) { return(qadraticFit); } } catch (Exception ex) { Trace.WriteLine("{0} exception during PlateConstantsFit.", ex.GetType().Name); return(null); } } return(null); }
public static PlateConstantsFit ConstructLinearConstantsFit( double a, double b, double c, double d, double e, double f, double a1, double b1, double c1, double d1, double e1, double f1) { PlateConstantsLinearFit linearFit = new PlateConstantsLinearFit(new List <PlateConstStarPair>()); linearFit.Const_A = a; linearFit.Const_B = b; linearFit.Const_C = c; linearFit.Const_D = d; linearFit.Const_E = e; linearFit.Const_F = f; linearFit.Const_A1 = a1; linearFit.Const_B1 = b1; linearFit.Const_C1 = c1; linearFit.Const_D1 = d1; linearFit.Const_E1 = e1; linearFit.Const_F1 = f1; return(linearFit); }
public static PlateConstantsLinearFit FromReflectedLinearFit(object reflObj) { var rv = new PlateConstantsLinearFit(); rv.Const_A = StarMap.GetPropValue<double>(reflObj, "Const_A"); rv.Const_B = StarMap.GetPropValue<double>(reflObj, "Const_B"); rv.Const_C = StarMap.GetPropValue<double>(reflObj, "Const_C"); rv.Const_D = StarMap.GetPropValue<double>(reflObj, "Const_D"); rv.Const_E = StarMap.GetPropValue<double>(reflObj, "Const_E"); rv.Const_F = StarMap.GetPropValue<double>(reflObj, "Const_F"); rv.Const_A1 = StarMap.GetPropValue<double>(reflObj, "Const_A1"); rv.Const_B1 = StarMap.GetPropValue<double>(reflObj, "Const_B1"); rv.Const_C1 = StarMap.GetPropValue<double>(reflObj, "Const_C1"); rv.Const_D1 = StarMap.GetPropValue<double>(reflObj, "Const_D1"); rv.Const_E1 = StarMap.GetPropValue<double>(reflObj, "Const_E1"); rv.Const_F1 = StarMap.GetPropValue<double>(reflObj, "Const_F1"); rv.m_FitInfo = new FitInfo(new List<PlateConstStarPair>()); object fitInfo = StarMap.GetPropValue<object>(reflObj, "m_FitInfo"); rv.m_FitInfo.FittedFocalLength = StarMap.GetPropValue<double>(fitInfo, "FittedFocalLength"); return rv; }
public static PlateConstantsFit LeastSquareSolve( List<PlateConstStarPair> pairs, double ra0Deg, double de0Deg, FitOrder fitOrder, int minNumberOfStars) { if (fitOrder == FitOrder.Linear) { PlateConstantsLinearFit linearFit = new PlateConstantsLinearFit(pairs); try { if (linearFit.LeastSquareSolve(ra0Deg, de0Deg, minNumberOfStars)) return linearFit; } catch (Exception ex) { Trace.WriteLine("{0} exception during PlateConstantsFit.", ex.GetType().Name); return null; } } if (fitOrder == FitOrder.Quadratic) { PlateConstantsQadraticFit qadraticFit = new PlateConstantsQadraticFit(pairs); try { if (qadraticFit.LeastSquareSolve(ra0Deg, de0Deg, minNumberOfStars)) return qadraticFit; } catch (Exception ex) { Trace.WriteLine("{0} exception during PlateConstantsFit.", ex.GetType().Name); return null; } } return null; }
public static PlateConstantsFit ConstructLinearConstantsFit( double a, double b, double c, double d, double e, double f, double a1, double b1, double c1, double d1, double e1, double f1) { PlateConstantsLinearFit linearFit = new PlateConstantsLinearFit(new List<PlateConstStarPair>()); linearFit.Const_A = a; linearFit.Const_B = b; linearFit.Const_C = c; linearFit.Const_D = d; linearFit.Const_E = e; linearFit.Const_F = f; linearFit.Const_A1 = a1; linearFit.Const_B1 = b1; linearFit.Const_C1 = c1; linearFit.Const_D1 = d1; linearFit.Const_E1 = e1; linearFit.Const_F1 = f1; return linearFit; }