def fitFocDef(self, dataSxtr = None, ftw = None, ft = None): """ fit FOC_DEF """ rFtFwhm = rMnsFwhm = rFtFlux= rMnsFlux = None # analysis here aRs = AnalyzeRuns(debug = self.debug, basePath = None, args = self.args, rt = self.rt, ev = self.ev, logger = self.logger, xdisplay = self.xdisplay, ftw = ftw, ft = ft) dataRn = DataRun(debug = self.debug, args = self.args, rt = self.rt, logger = self.logger) for dSx in dataSxtr: if dSx!=None and dSx.fwhm>0. and dSx.stdFwhm>0.: dataRn.dataSxtrs.append(dSx) rFtFwhm, rMnsFwhm, rFtFlux, rMnsFlux = aRs.analyzeRun(dataRn = dataRn) arFtFwhm = arMnsFwhm = arFtFlux = arMnsFlux = None if self.rt.cfg['ANALYZE_ASSOC']: fitsFns = [ x.fitsFn for x in dataSxtr] # assoc analysis here aRs = AnalyzeRuns(debug = self.debug, basePath = None, args = self.args, rt = self.rt, ev = self.ev, logger = self.logger, xdisplay = self.xdisplay, ftw = ftw, ft = ft) dataRn = aRs.sextractRun(fitsFns = fitsFns) arFtFwhm, arMnsFwhm, arFtFlux, arMnsFlux = aRs.analyzeRun(dataRn = dataRn) # choose among the available results rFt = aRs.bestResult( rFtFwhm = rFtFwhm, arFtFwhm = arFtFwhm, rFtFlux = rFtFlux, arFtFlux = arFtFlux ) # ToDo: think about that return rFtFwhm, rMnsFwhm, arFtFwhm, arMnsFwhm, rFtFlux, rMnsFlux, arFtFlux, arMnsFlux # ToDo: expand to bestResult calculated means return rFt, rMnsFwhm