def doEGM_SFs(filein, lumi, axis=['pT', 'eta']): print " Opening file: %s (plot lumi: %3.1f)" % (filein, lumi) CMS_lumi.lumi_13TeV = "%+3.1f fb^{-1}" % lumi nameOutBase = filein if not os.path.exists(filein): print 'file %s does not exist' % filein sys.exit(1) fileWithEff = open(filein, 'r') effGraph = efficiencyList() for line in fileWithEff: modifiedLine = line.lstrip(' ').rstrip(' ').rstrip('\n') numbers = modifiedLine.split('\t') if len(numbers) > 0 and isFloat(numbers[0]): etaKey = (float(numbers[0]), float(numbers[1])) ptKey = (float(numbers[2]), min(500, float(numbers[3]))) myeff = efficiency(ptKey, etaKey, float(numbers[4]), float(numbers[5]), float(numbers[6]), float(numbers[7]), float(numbers[8]), float(numbers[9]), float(numbers[10]), float(numbers[11])) # float(numbers[8]),float(numbers[9]),float(numbers[10]), -1 ) effGraph.addEfficiency(myeff) fileWithEff.close() ### massage the numbers a bit effGraph.symmetrizeSystVsEta() effGraph.combineSyst() print " ------------------------------- " customEtaBining = [] customEtaBining.append((0.000, 0.800)) customEtaBining.append((0.800, 1.444)) # customEtaBining.append( (1.444,1.566)) customEtaBining.append((1.566, 2.000)) customEtaBining.append((2.000, 2.500)) pdfout = nameOutBase + '_egammaPlots.pdf' cDummy = rt.TCanvas() cDummy.Print(pdfout + "[") EffiGraph1D( #effGraph.pt_1DGraph_list_customEtaBining(customEtaBining, False, isData=True) , #eff Data #None, effGraph.pt_1DGraph_list_customEtaBining( customEtaBining, False, isData=True), #eff Data ###bing effGraph.pt_1DGraph_list_customEtaBining(customEtaBining, False, isData=False), #bing effGraph.pt_1DGraph_list_customEtaBining(customEtaBining, True, isData=True), #SF pdfout, xAxis=axis[0], yAxis=axis[1]) #EffiGraph1D( effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,False) , # effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,True) , False, pdfout ) # EffiGraph1D( effGraph.eta_1DGraph_list(False), effGraph.eta_1DGraph_list(True), True , pdfout ) listOfSF1D = EffiGraph1D( effGraph.eta_1DGraph_list(typeGR=0), # eff Data effGraph.eta_1DGraph_list(typeGR=-1), # eff MC effGraph.eta_1DGraph_list(typeGR=+1), # SF pdfout, xAxis=axis[1], yAxis=axis[0]) h2EffData = effGraph.ptEtaScaleFactor_2DHisto(-3) h2EffMC = effGraph.ptEtaScaleFactor_2DHisto(-2) h2SF = effGraph.ptEtaScaleFactor_2DHisto(-1) h2Error = effGraph.ptEtaScaleFactor_2DHisto(0) ## only error bars rt.gStyle.SetPalette(1) rt.gStyle.SetPaintTextFormat('1.3f') rt.gStyle.SetOptTitle(1) c2D = rt.TCanvas('canScaleFactor', 'canScaleFactor', 900, 600) c2D.Divide(2, 1) c2D.GetPad(1).SetRightMargin(0.15) c2D.GetPad(1).SetLeftMargin(0.15) c2D.GetPad(1).SetTopMargin(0.10) c2D.GetPad(2).SetRightMargin(0.15) c2D.GetPad(2).SetLeftMargin(0.15) c2D.GetPad(2).SetTopMargin(0.10) c2D.GetPad(1).SetLogy() c2D.GetPad(2).SetLogy() c2D.cd(1) dmin = 1.0 - h2SF.GetMinimum() dmax = h2SF.GetMaximum() - 1.0 dall = max(dmin, dmax) h2SF.SetMinimum(1 - dall) h2SF.SetMaximum(1 + dall) h2SF.DrawCopy("colz TEXT45") c2D.cd(2) h2Error.SetMinimum(0) h2Error.SetMaximum(min(h2Error.GetMaximum(), 0.2)) h2Error.DrawCopy("colz TEXT45") c2D.Print(pdfout) listName = pdfout.split('/') for iext in ["pdf", "C", "png"]: #c2D.SaveAs(pdfout.replace('egammaEffi.txt_egammaPlots',listName[-6].replace('tnp','')+'_SF2D'+'_'+listName[-3]).replace('pdf',iext)) c2D.SaveAs( pdfout.replace( 'egammaEffi.txt_egammaPlots', listName[-3].replace('tnp', '') + '_SF2D' + '_' + listName[-3]).replace('pdf', iext)) #bing rootout = rt.TFile(nameOutBase + '_EGM2D.root', 'recreate') rootout.cd() h2SF.Write('EGamma_SF2D', rt.TObject.kOverwrite) h2EffData.Write('EGamma_EffData2D', rt.TObject.kOverwrite) h2EffMC.Write('EGamma_EffMC2D', rt.TObject.kOverwrite) for igr in range(len(listOfSF1D)): listOfSF1D[igr].Write('grSF1D_%d' % igr, rt.TObject.kOverwrite) errorNames = efficiency.getSystematicNames() for isyst in range(len(errorNames)): h2_isyst = diagnosticErrorPlot(effGraph, isyst, pdfout) h2_isyst.Write(errorNames[isyst], rt.TObject.kOverwrite) cDummy.Print(pdfout + "]") rootout.Close()
from efficiencyUtils import efficiency from efficiencyUtils import efficiencyList effGraph = efficiencyList() for line in fileWithEff: modifiedLine = line.lstrip(' ').rstrip(' ').rstrip('\n') numbers = modifiedLine.split('\t') if len(numbers) > 0 and isFloat(numbers[0]): etaKey = (float(numbers[0]), float(numbers[1])) ptKey = (float(numbers[2]), min(200, float(numbers[3]))) myeff = efficiency(ptKey, etaKey, float(numbers[4]), float(numbers[5]), float(numbers[6]), float(numbers[7]), float(numbers[8]), float(numbers[9]), float(numbers[10]), float(numbers[11])) effGraph.addEfficiency(myeff) fileWithEff.close() ### massage the numbers a bit effGraph.symmetrizeSystVsEta() effGraph.combineSyst() print " ------------------------------- " customEtaBining = [] customEtaBining.append((0.000, 0.800)) customEtaBining.append((0.800, 1.444))
def doEGM_SFs(filein, lumi): print " Opening file: %s (plot lumi: %3.1f)" % ( filein, lumi ) CMS_lumi.lumi_13TeV = "%+3.1f fb^{-1}" % lumi nameOutBase = filein if not os.path.exists( filein ) : print 'file %s does not exist' % filein sys.exit(1) fileWithEff = open(filein, 'r') effGraph = efficiencyList() for line in fileWithEff : modifiedLine = line.lstrip(' ').rstrip(' ').rstrip('\n') numbers = modifiedLine.split('\t') if len(numbers) > 0 and isFloat(numbers[0]): etaKey = ( float(numbers[0]), float(numbers[1]) ) ptKey = ( float(numbers[2]), min(200,float(numbers[3])) ) myeff = efficiency(ptKey,etaKey, float(numbers[4]),float(numbers[5]),float(numbers[6] ),float(numbers[7] ), float(numbers[8]),float(numbers[9]),float(numbers[10]),float(numbers[11]) ) # float(numbers[8]),float(numbers[9]),float(numbers[10]), -1 ) effGraph.addEfficiency(myeff) fileWithEff.close() ### massage the numbers a bit effGraph.symmetrizeSystVsEta() effGraph.combineSyst() print " ------------------------------- " customEtaBining = [] customEtaBining.append( (0.000,0.800)) customEtaBining.append( (0.800,1.444)) customEtaBining.append( (1.444,1.566)) customEtaBining.append( (1.566,2.000)) customEtaBining.append( (2.000,2.500)) pdfout = nameOutBase + '_egammaPlots.pdf' cDummy = rt.TCanvas() cDummy.Print( pdfout + "[" ) EffiGraph1D( effGraph.pt_1DGraph_list(False) , None, effGraph.pt_1DGraph_list(True) , False, pdfout ) #EffiGraph1D( effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,False) , # effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,True) , False, pdfout ) # EffiGraph1D( effGraph.eta_1DGraph_list(False), effGraph.eta_1DGraph_list(True), True , pdfout ) EffiGraph1D( effGraph.eta_1DGraph_list( typeGR = 0 ) , # Data effGraph.eta_1DGraph_list( typeGR = -1 ) , # MC effGraph.eta_1DGraph_list( typeGR = +1 ) , # SF True , pdfout ) #cDummy.Print( pdfout + "]" ) h2EffData = effGraph.ptEtaScaleFactor_2DHisto(-3) h2EffMC = effGraph.ptEtaScaleFactor_2DHisto(-2) h2SF = effGraph.ptEtaScaleFactor_2DHisto(-1) h2Error = effGraph.ptEtaScaleFactor_2DHisto( 0) ## only error bars rt.gStyle.SetPalette(1) rt.gStyle.SetPaintTextFormat('1.3f'); rt.gStyle.SetOptTitle(1) c2D = rt.TCanvas('canScaleFactor','canScaleFactor',900,600) c2D.Divide(2,1) c2D.GetPad(1).SetRightMargin(0.15) c2D.GetPad(1).SetLeftMargin( 0.15) c2D.GetPad(1).SetTopMargin( 0.10) c2D.GetPad(2).SetRightMargin(0.15) c2D.GetPad(2).SetLeftMargin( 0.15) c2D.GetPad(2).SetTopMargin( 0.10) c2D.GetPad(1).SetLogy() c2D.GetPad(2).SetLogy() c2D.cd(1) dmin = 1.0 - h2SF.GetMinimum() dmax = h2SF.GetMaximum() - 1.0 dall = max(dmin,dmax) h2SF.SetMinimum(1-dall) h2SF.SetMaximum(1+dall) h2SF.DrawCopy("colz TEXT45") c2D.cd(2) h2Error.SetMinimum(0) h2Error.SetMaximum(min(h2Error.GetMaximum(),0.2)) h2Error.DrawCopy("colz TEXT45") c2D.Print( pdfout ) rootout = rt.TFile(nameOutBase + '_EGM2D.root','recreate') rootout.cd() h2SF.Write('EGamma_SF2D',rt.TObject.kOverwrite) h2EffData.Write('EGamma_EffData2D',rt.TObject.kOverwrite) h2EffMC .Write('EGamma_EffMC2D' ,rt.TObject.kOverwrite) rootout.Close() for isyst in range(len(efficiency.getSystematicNames())): diagnosticErrorPlot( effGraph, isyst, pdfout ) cDummy.Print( pdfout + "]" )
def doEGM_SFs(filein, lumi): print " Opening file: %s (plot lumi: %3.1f)" % ( filein, lumi ) CMS_lumi.lumi_13TeV = "%+3.1f fb^{-1}" % lumi nameOutBase = filein if not os.path.exists( filein ) : print 'file %s does not exist' % filein sys.exit(1) fileWithEff = open(filein, 'r') effGraph = efficiencyList() for line in fileWithEff : modifiedLine = line.lstrip(' ').rstrip(' ').rstrip('\n') numbers = modifiedLine.split('\t') if len(numbers) > 0 and isFloat(numbers[0]): etaKey = ( float(numbers[0]), float(numbers[1]) ) ptKey = ( float(numbers[2]), min(200,float(numbers[3])) ) myeff = efficiency(ptKey,etaKey, float(numbers[4]),float(numbers[5]),float(numbers[6] ),float(numbers[7] ), float(numbers[8]),float(numbers[9]),float(numbers[10]),float(numbers[11]) ) # float(numbers[8]),float(numbers[9]),float(numbers[10]), -1 ) effGraph.addEfficiency(myeff) fileWithEff.close() ### massage the numbers a bit effGraph.symmetrizeSystVsEta() effGraph.combineSyst() print " ------------------------------- " customEtaBining = [] customEtaBining.append( (0.000,0.800)) customEtaBining.append( (0.800,1.444)) customEtaBining.append( (1.444,1.566)) customEtaBining.append( (1.566,2.000)) customEtaBining.append( (2.000,2.500)) pdfout = nameOutBase + '_egammaPlots.pdf' cDummy = rt.TCanvas() cDummy.Print( pdfout + "[" ) EffiGraph1D( effGraph.pt_1DGraph_list(False) , effGraph.pt_1DGraph_list(True) , False, pdfout ) #EffiGraph1D( effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,False) , # effGraph.pt_1DGraph_list_customEtaBining(customEtaBining,True) , False, pdfout ) EffiGraph1D( effGraph.eta_1DGraph_list(False), effGraph.eta_1DGraph_list(True), True , pdfout ) #cDummy.Print( pdfout + "]" ) h2SF = effGraph.ptEtaScaleFactor_2DHisto(-1) h2Error = effGraph.ptEtaScaleFactor_2DHisto( 0) ## only error bars rt.gStyle.SetPalette(1) rt.gStyle.SetPaintTextFormat('1.3f'); rt.gStyle.SetOptTitle(1) c2D = rt.TCanvas('canScaleFactor','canScaleFactor',900,600) c2D.Divide(2,1) c2D.GetPad(1).SetRightMargin(0.15) c2D.GetPad(1).SetLeftMargin( 0.15) c2D.GetPad(1).SetTopMargin( 0.10) c2D.GetPad(2).SetRightMargin(0.15) c2D.GetPad(2).SetLeftMargin( 0.15) c2D.GetPad(2).SetTopMargin( 0.10) c2D.GetPad(1).SetLogy() c2D.GetPad(2).SetLogy() c2D.cd(1) dmin = 1.0 - h2SF.GetMinimum() dmax = h2SF.GetMaximum() - 1.0 dall = max(dmin,dmax) h2SF.SetMinimum(1-dall) h2SF.SetMaximum(1+dall) h2SF.DrawCopy("colz TEXT45") c2D.cd(2) h2Error.SetMinimum(0) h2Error.SetMaximum(min(h2Error.GetMaximum(),0.2)) h2Error.DrawCopy("colz TEXT45") c2D.Print( pdfout ) rootout = rt.TFile(nameOutBase + '_SF2D.root','recreate') rootout.cd() h2SF.Write('EGamma_SF2D',rt.TObject.kOverwrite) rootout.Close() for isyst in range(len(efficiency.getSystematicNames())): diagnosticErrorPlot( effGraph, isyst, pdfout ) cDummy.Print( pdfout + "]" )