pv.FigFormat_One(ColorConf='Night1') #Identify file CodeName, FileName, FileFolder = pv.Analyze_Address(FilesList[0]) #Load fits file data Wave, Int, ExtraData = pv.File2Data(FileFolder, FileName) #---------------------------Complete Mode-------------------------------------------------------------------- pv.RemakeFiles = False pv.Wave = Wave pv.Int = Int pv.Current_Code = CodeName Selections = [] pv.Current_Label = 'N2_6548A' pv.Current_Ion = 'N2' pv.Current_TheoLoc = 6548.05 # pv.Current_LinesLog = '/home/vital/Dropbox/Astrophysics/Data/WHT_Catalogue/Objects/SHOC579/' + CodeName + '_WHT_LinesLog_v3.txt' # pv.Fitting_dict['Wide component'] = True # pv.save_to_file_check = False # pv.Current_Label = 'N2_6548A' # pv.Current_Ion = 'N2' # pv.Current_TheoLoc = 4861.050 # pv.Current_Label = 'H1_4861A' # pv.Current_Ion = 'Halpha_3_2' # pv.Current_TheoLoc = 4862.683 # pv.Current_Label = 'He1_5016A' # pv.Current_Ion = 'He1' # pv.Current_TheoLoc = 5016.0
# Several lines logs depending on the pypeline state: Untreated, Reddening, Nebular continuum, Stellar continuum LogTableName = CodeName + DataLog_Extension pv.LogTableAddress = FileFolder + LogTableName #Generate data log if emision lines log (THIS COULD BE AN ISOLATED METHOD) pv.CleanTableMaker(pv.LogTableAddress, pv.RemakeFiles) #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
#---------------------------Complete Mode-------------------------------------------------------------------- pv.RemakeFiles = False pv.Wave = Wave pv.Int = Int pv.Current_Code = CodeName Selections = [] Line_Label = 'N2_6548A' pv.Current_LinesLog = '/home/vital/Dropbox/Astrophysics/Data/WHT_Catalogue/Objects/51959-092/' + CodeName + '_WHT_LinesLog_v3.txt' Ion = pv.GetDataInTable('Line_Label',"Ion", Line_Label, pv.Current_LinesLog, pv.TableHeaderSize) TheoWavelength = pv.GetDataInTable('Line_Label',"TheoWavelength", Line_Label, pv.Current_LinesLog, pv.TableHeaderSize, dataype='float') pv.Current_Label, pv.Current_Ion, pv.Current_TheoLoc = Line_Label, Ion, TheoWavelength pv.Selections = pv.RangesR(Selections, pv.Current_TheoLoc, pv.Current_LinesLog) pv.PlottingInLineMeasuring() pv.DisplayFigure() pv = Plots_Manager() # #---------------------------Simple Mode-------------------------------------------------------------------- # #Load data into the class # Line_Label = 'O2_3726A' # Line_Label = 'He1_4472A' # #["Line_Label", "Ion", "TheoWavelength", "Blended_Set","Wave1", "Wave2", "Wave3", "Wave4", "Wave5", "Wave6"]