private static object fup( double logPow, string @class, object pKa, object pKa_base, bool denominatorOnly ) { var Pnlw = Pow(10, logPow); var o = ExcelFunctions.Iwp(@class, pKa, pKa_base); if (o is ExcelError) { return(o); } var Iwp = (double)o; var Fwp = _table1["plasma"]["Fw"]; var Fnlp = _table1["plasma"]["Fnl"]; var denominator = ((1 + Iwp) * Fwp + Pnlw * Fnlp); if (denominatorOnly) { return(denominator); } var fup = (1 + Iwp) / denominator; return(fup); }
private static object fut( string tissue, double logPow, string @class, bool containsOxygen, object pKa, object pKa_base, bool denominatorOnly ) { if (string.IsNullOrWhiteSpace(tissue)) { return(ExcelError.ExcelErrorValue); } tissue = tissue.ToLowerInvariant(); if (tissue == "plasma") { return(ExcelError.ExcelErrorValue); } if (!_table1.ContainsKey(tissue)) { return(ExcelError.ExcelErrorValue); } object o; double Pnlw; if (tissue == "adipose") { o = LogPvow(logPow, @class, containsOxygen); if (o is ExcelError) { return(o); } var logPvow = (double)o; Pnlw = Pow(10, logPvow); } else { Pnlw = Pow(10, logPow); } o = ExcelFunctions.Iwt(@class, pKa, pKa_base); if (o is ExcelError) { return(o); } var Iwt = (double)o; var Fwt = _table1[tissue]["Fw"]; var Fnlt = _table1[tissue]["Fnl"]; var denominator = ((1 + Iwt) * Fwt + Pnlw * Fnlt); if (denominatorOnly) { return(denominator); } o = ExcelFunctions.Iwp(@class, pKa, pKa_base); if (o is ExcelError) { return(o); } var Iwp = (double)o; var fut = (1 + Iwp) / denominator; return(fut); }