def makeClosureErrorTable(): for channel in channels: print "CHANNEL :", channel for variable in variables: print "--->", variable for whichBin in range(0, len(bin_edges[variable]) - 1): fitResults = {} for process in processes: fitResults[process] = [] for fitVariable in fitVariableCombinations: # Read fit results dir = "data/" + fitVariable + "/" + com + "/" if closureTest: dir = "data/closure_test/simple/" + fitVariable + "/" + com + "/" fit_results_ = read_fit_results(dir, variable, "central", channel, "patType1CorrectedPFMet") fitResults[process].append(fit_results_[process][whichBin]) pass pass for process in processes: line = samples_latex[process] + " " for fit in fitResults[process]: line += "& %.0f \pm %.1f " % (fit[0], fit[1]) pass line += " \\\\" print line pass print "\n" pass print "\n" pass pass pass
def makeClosureTestTable(): fitVariable = "absolute_eta_M3_angle_bl" for channel in channels: print "CHANNEL :", channel for variable in variables: print "--->", variable # Read fit results dir = "data/" + fitVariable + "/" + com + "/" if closureTest: dir = "data/closure_test/simple/" + fitVariable + "/" + com + "/" fit_results = read_fit_results(dir, variable, "central", channel, "patType1CorrectedPFMet") # Read initial values initial_values = read_fit_input(dir, variable, "central", channel, "patType1CorrectedPFMet") # for whichBin in range (0,len(bin_edges[variable])-1): for whichBin in range(0, 1): for process in processes: scale = closure_tests["simple"][process] line = "%s " % (samples_latex[process]) line += "& %.0f " % initial_values[process][whichBin][0] line += "& %.0f " % (initial_values[process][whichBin][0] * scale) line += "& %.0f \pm %.0f " % (fit_results[process][whichBin][0], fit_results[process][whichBin][1]) line += "\\\\" print line # print process # print scale # print initial_values[process][whichBin][0] # print initial_values[process][whichBin][0]*scale # print fit_results[process][whichBin][0],'+/-',fit_results[process][whichBin][1] pass pass print "\n" pass pass pass
'M3': {'min':0, 'max':1000, 'rebin':5, 'x-title': 'M3 [GeV]', 'y-title': 'Events/25 GeV'}, 'angle_bl': {'min':0, 'max':3.5, 'rebin':2, 'x-title': 'angle(b,l)', 'y-title': 'Events/(0.2)'}, 'absolute_eta': {'min':0, 'max':2.6, 'rebin':2, 'x-title': '$\left|\eta(e)\\right|$', 'y-title': 'Events/(0.2)'}, } variables = [ 'MET', 'HT', 'ST', 'WPT', 'MT' ] for test in closure_tests: if test != 'qcd_only' : continue; for variable in variables: fit_results_ = read_fit_results( 'data/closure_test/'+test+'/absolute_eta_M3_angle_bl/8TeV/', variable, 'central', 'electron', 'patType1CorrectedPFMet' ) fit_templates_ = read_fit_templates( 'data/closure_test/'+test+'/absolute_eta_M3_angle_bl/8TeV/', variable, 'central', 'electron', 'patType1CorrectedPFMet' ) initial_values_ = read_fit_input( 'data/closure_test/'+test+'/absolute_eta_M3_angle_bl/8TeV/', variable, 'central', 'electron', 'patType1CorrectedPFMet' )