private double IntervalInMsec(double interval) { if (CurrentCalibration.UnitsAreMsecs) { return(interval); } else { return(EPCalculator.SecToMsec(interval)); } }
public double IntervalInSecs(double interval) { if (CurrentCalibration.UnitsAreSeconds) { return(interval); } else { return(EPCalculator.MsecToSec(interval)); } }
private double RateResult(double interval) { if (interval != 0.0) { if (CurrentCalibration.UnitsAreMsecs) { interval = EPCalculator.MsecToBpm(interval); } else if (CurrentCalibration.UnitsAreSeconds) { interval = EPCalculator.SecToBpm(interval); } } return(interval); }
public string Calculate(double qtInSec, double rrInSec, bool convertToMsec, string units) { string errorResult = "Invalid Result"; if (rrInSec <= 0) { return(errorResult); } QtcFormula[] qtcFormulas; double qtc; switch (formula) { case QtcFormula.qtcBzt: qtcFormulas = new QtcFormula[] { QtcFormula.qtcBzt }; break; case QtcFormula.qtcFrd: qtcFormulas = new QtcFormula[] { QtcFormula.qtcFrd }; break; case QtcFormula.qtcFrm: qtcFormulas = new QtcFormula[] { QtcFormula.qtcFrm }; break; case QtcFormula.qtcHdg: qtcFormulas = new QtcFormula[] { QtcFormula.qtcHdg }; break; case QtcFormula.qtcAll: qtcFormulas = new QtcFormula[] { QtcFormula.qtcBzt, QtcFormula.qtcFrm, QtcFormula.qtcFrd, QtcFormula.qtcHdg }; break; default: return(errorResult); } double meanRR = rrInSec; double qt = qtInSec; if (convertToMsec) { qt *= 1000.0; meanRR *= 1000.0; } string result = string.Format("Mean RR = {0} {2}\nQT = {1} {2}", meanRR.ToString("G4"), qt.ToString("G4"), units); foreach (QtcFormula qtcFormula in qtcFormulas) { qtc = EPCalculator.Calculate(qtcFormula, qtInSec, rrInSec); if (double.IsInfinity(qtc) || double.IsNaN(qtc)) { return(errorResult); } // TODO: is this needed? // qtc = (Math.Round(qtc * 100000.0) / 100000.0); if (convertToMsec) { qtc *= 1000.0; } result += string.Format("\nQTc = {0} {1} ({2} formula)", qtc.ToString("G4"), units, formulaNames[qtcFormula]); } return(result); }