#Defining lines log
        pv.Current_LinesLog             = FileFolder + LogTableName
        
#       Start to loop through recorded line
        for m in range(1, len(TextLines)):
            try:

                Line = TextLines[m].split()
                pv.Current_Label, pv.Current_Ion, pv.Current_TheoLoc        = Line[0], Line[1], float(Line[2]),
                pv.Wave1, pv.Wave2, pv.Wave3, pv.Wave4, pv.Wave5, pv.Wave6  = float(Line[4]), float(Line[5]), float(Line[6]), float(Line[7]), float(Line[8]), float(Line[9])
                pv.Selections                                               = [pv.Wave1, pv.Wave2, pv.Wave3, pv.Wave4, pv.Wave5, pv.Wave6]
                Ind_min                                                     = np_searchsorted(Wave, pv.Wave1)
                Ind_max                                                     = np_searchsorted(Wave, pv.Wave6)
                SubWave                                                     = Wave[Ind_min - 1 : Ind_max + 1]             
                SubInt                                                      = Int[Ind_min - 1 : Ind_max + 1]
                pv.ind1, pv.ind2, pv.ind3, pv.ind4, pv.ind5, pv.ind6        = np_searchsorted(SubWave, pv.Wave1), np_searchsorted(SubWave, pv.Wave2), np_searchsorted(SubWave, pv.Wave3), np_searchsorted(SubWave, pv.Wave4), np_searchsorted(SubWave, pv.Wave5), np_searchsorted(SubWave, pv.Wave6)
     
                print '---Emission', pv.Current_Label
                
                #Clear the dictionaries with the line data
                pv.Fitting_dict   = pv.Fitting_dict.fromkeys(pv.Fitting_dict)
                pv.Parameter_dict = pv.Parameter_dict.fromkeys(pv.Parameter_dict)
                
                #Calculation and plotting of continuum properties     
                pv.LocalMedian, pv.ContinuumFlux, pv.SigmaContinuum, pv.Continuum_Gradient, pv.Continuum_n, WPoint1, Wpoint2, FPoint1, FPoint2 = pv.ContinuumRegions(SubInt, SubWave)
                
                #Check if emission or absorption line as well as line mixture
                pv.Check_GaussianMixture(SubWave)   
            
                #Convert emission lines to gaussian equivalents
                GaussianWave, GaussianInt = pv.Measure_LineIntensity(SubWave, SubInt, Methodology = 'kmpfit_GaussHermite_MCMC')