Esempio n. 1
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#ePlotter.addHistogram('HppHmm1.0TeV', sigMap['HppHmm1.0TeV'],style={'name':'#Phi^{++}#Phi^{--} (1 TeV)',   'linecolor':sigcolors[8], 'fillcolor':sigcolors[8]})

plots = {
    'dxy': {
        'legendpos': 34,
        'numcol': 3,
        'invert': True
    },
    'dz': {
        'legendpos': 34,
        'numcol': 3,
        'invert': True
    },
    'mvaTrig': {
        'legendpos': 34,
        'numcol': 3,
        'invert': False
    },
}

for plot, kwargs in plots.iteritems():
    sig = {
        'HppHmm500GeVBarrel': '{0}_barrel'.format(plot),
        'HppHmm500GeVEndcap': '{0}_endcap'.format(plot)
    }
    bg = {
        'HppHmm500GeVBarrel': '{0}_barrel_fake'.format(plot),
        'HppHmm500GeVEndcap': '{0}_endcap_fake'.format(plot)
    }
    ePlotter.plotROC(sig, bg, 'roc_{0}'.format(plot), **kwargs)
Esempio n. 2
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    }
    for mass in masses:
        name = 'HppHm{0}GeV'.format(mass)
        sigOrder += [name]
        bgOrder += ['BG']
        hpp3lPlotter.addHistogram(name,sigMap[name],signal=True,style={'linecolor': sigColors[mass]})
        workingPoints['mllMinusMZ'][name] = {'Z Veto 5 GeV': 5, 'Z Veto 5 GeV': 10, 'Z Veto 5 GeV': 50}
        workingPoints['hppMass'][name]    = {'0.2*m_{#Phi}': 0.2*mass, '0.3*m_{#Phi}': 0.3*mass, '0.4*m_{#Phi}': 0.4*mass, '0.5*m_{#Phi}': 0.5*mass, '0.9*m_{#Phi}': 0.9*mass,}
        workingPoints['hppMt'][name]      = {'0.2*m_{#Phi}': 0.2*mass, '0.3*m_{#Phi}': 0.3*mass, '0.4*m_{#Phi}': 0.4*mass, '0.5*m_{#Phi}': 0.5*mass, '0.9*m_{#Phi}': 0.9*mass,}
        workingPoints['st'][name]         = {'0.2*m_{#Phi}': 0.2*mass, '0.4*m_{#Phi}': 0.4*mass, '0.6*m_{#Phi}': 0.6*mass, '0.8*m_{#Phi}': 0.8*mass, '1.0*m_{#Phi}': 1.0*mass,}


    for plot in roc_cust:
        kwargs = deepcopy(plots[plot])
        kwargs.update(roc_cust[plot])
        for higgsChan in ['ee','em','et','mm','mt','tt']:
            plotnames = []
            bgnames = []
            for gen in genRecoMap:
                if len(gen)==4: continue
                for reco in genRecoMap[gen]:
                    if gen[:2]==higgsChan:
                        plotnames += ['default/{0}/gen_{1}/{2}'.format(reco,gen,plot)]
                        bgnames += ['default/{0}/{1}'.format(reco,plot)]
            if plotnames:
                savename = 'signal/{0}/{1}_genMatched_roc'.format(higgsChan,plot)
                wp = workingPoints[plot] if plot in workingPoints else {}
                hpp3lPlotter.plotROC(plotnames,bgnames,savename,sigOrder=sigOrder,bgOrder=bgOrder,workingPoints=wp,**kwargs)
                    
                                                                                                          
Esempio n. 3
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    ROOT.TColor.GetColor('#FFB2B2'),
    ROOT.TColor.GetColor('#FFCCCC'),
]

#ePlotter.addHistogram('HppHmm500GeV',sigMap['HppHmm500GeV'])
ePlotter.addHistogram('HppHmm500GeVBarrel',sigMap['HppHmm500GeV'],style={'name':'#Phi^{++}#Phi^{--} (Barrel)','linecolor':sigcolors[3],'fillcolor':sigcolors[3]})
ePlotter.addHistogram('HppHmm500GeVEndcap',sigMap['HppHmm500GeV'],style={'name':'#Phi^{++}#Phi^{--} (Endcap)','linecolor':sigcolors[6],'fillcolor':sigcolors[6]})

#
#ePlotter.addHistogram('HppHmm200GeV', sigMap['HppHmm200GeV'],style={'name':'#Phi^{++}#Phi^{--} (200 GeV)', 'linecolor':sigcolors[0], 'fillcolor':sigcolors[0]})
#ePlotter.addHistogram('HppHmm300GeV', sigMap['HppHmm300GeV'],style={'name':'#Phi^{++}#Phi^{--} (300 GeV)', 'linecolor':sigcolors[1], 'fillcolor':sigcolors[1]})
#ePlotter.addHistogram('HppHmm400GeV', sigMap['HppHmm400GeV'],style={'name':'#Phi^{++}#Phi^{--} (400 GeV)', 'linecolor':sigcolors[2], 'fillcolor':sigcolors[2]})
#ePlotter.addHistogram('HppHmm500GeV', sigMap['HppHmm500GeV'],style={'name':'#Phi^{++}#Phi^{--} (500 GeV)', 'linecolor':sigcolors[3], 'fillcolor':sigcolors[3]})
#ePlotter.addHistogram('HppHmm600GeV', sigMap['HppHmm600GeV'],style={'name':'#Phi^{++}#Phi^{--} (600 GeV)', 'linecolor':sigcolors[4], 'fillcolor':sigcolors[4]})
#ePlotter.addHistogram('HppHmm700GeV', sigMap['HppHmm700GeV'],style={'name':'#Phi^{++}#Phi^{--} (700 GeV)', 'linecolor':sigcolors[5], 'fillcolor':sigcolors[5]})
#ePlotter.addHistogram('HppHmm800GeV', sigMap['HppHmm800GeV'],style={'name':'#Phi^{++}#Phi^{--} (800 GeV)', 'linecolor':sigcolors[6], 'fillcolor':sigcolors[6]})
#ePlotter.addHistogram('HppHmm900GeV', sigMap['HppHmm900GeV'],style={'name':'#Phi^{++}#Phi^{--} (900 GeV)', 'linecolor':sigcolors[7], 'fillcolor':sigcolors[7]})
#ePlotter.addHistogram('HppHmm1.0TeV', sigMap['HppHmm1.0TeV'],style={'name':'#Phi^{++}#Phi^{--} (1 TeV)',   'linecolor':sigcolors[8], 'fillcolor':sigcolors[8]})

plots = {
    'dxy'     : {'legendpos':34,'numcol':3,'invert':True},
    'dz'      : {'legendpos':34,'numcol':3,'invert':True},
    'mvaTrig' : {'legendpos':34,'numcol':3,'invert':False},
}

for plot,kwargs in plots.iteritems():
    sig = {'HppHmm500GeVBarrel':'{0}_barrel'.format(plot), 'HppHmm500GeVEndcap':'{0}_endcap'.format(plot)}
    bg = {'HppHmm500GeVBarrel':'{0}_barrel_fake'.format(plot), 'HppHmm500GeVEndcap':'{0}_endcap_fake'.format(plot)}
    ePlotter.plotROC(sig, bg, 'roc_{0}'.format(plot), **kwargs)

Esempio n. 4
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        'st'         : {},
    }
    for mass in masses:
        name = 'HppHmm{0}GeV'.format(mass)
        sigOrder += [name]
        bgOrder += ['BG']
        hpp4lPlotter.addHistogram(name,sigMap[name],signal=True,style={'linecolor': sigColors[mass]})
        workingPoints['mllMinusMZ'][name] = {'Z Veto 5 GeV': 5, 'Z Veto 5 GeV': 10, 'Z Veto 5 GeV': 50}
        workingPoints['hppMass'][name]    = {'0.2*m_{#Phi}': 0.2*mass, '0.3*m_{#Phi}': 0.3*mass, '0.4*m_{#Phi}': 0.4*mass, '0.5*m_{#Phi}': 0.5*mass, '0.9*m_{#Phi}': 0.9*mass,}
        workingPoints['hppMt'][name]      = {'0.2*m_{#Phi}': 0.2*mass, '0.3*m_{#Phi}': 0.3*mass, '0.4*m_{#Phi}': 0.4*mass, '0.5*m_{#Phi}': 0.5*mass, '0.9*m_{#Phi}': 0.9*mass,}
        workingPoints['st'][name]         = {'0.2*m_{#Phi}': 0.2*mass, '0.4*m_{#Phi}': 0.4*mass, '0.6*m_{#Phi}': 0.6*mass, '0.8*m_{#Phi}': 0.8*mass, '1.0*m_{#Phi}': 1.0*mass,}


    for plot in roc_cust:
        kwargs = deepcopy(plots[plot])
        kwargs.update(roc_cust[plot])
        for higgsChan in ['ee','em','et','mm','mt','tt']:
            plotnames = []
            bgnames = []
            for gen in genRecoMap:
                for reco in genRecoMap[gen]:
                    if gen[:2]==higgsChan:
                        plotnames += ['default/{0}/gen_{1}/{2}'.format(reco,gen,plot)] 
                        bgnames += ['default/{0}/{1}'.format(reco,plot)] 
                    if gen[2:]==higgsChan and 'hpp' in plot:
                        plotnames += ['default/{0}/gen_{1}/{2}'.format(reco,gen,plot.replace('hpp','hmm'))] 
            if plotnames:
                savename = 'signal/{0}/{1}_genMatched_roc'.format(higgsChan,plot)
                wp = workingPoints[plot] if plot in workingPoints else {}
                hpp4lPlotter.plotROC(plotnames,bgnames,savename,sigOrder=sigOrder,bgOrder=bgOrder,workingPoints=wp,**kwargs)