def theConfig(Nj, mH, isElectron = False, initFile = [], includeSignal = True):
    pars = Wjj2DFitterPars()

    pars.MCDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/ReducedTrees/'
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/Moriond2013/RD_includingDiboson/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/HCP2012METfix/ReducedTrees/"

    #pars.DataDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/HWWTrees/'
    pars.DataDirectory = pars.MCDirectory

    pars.isElectron = isElectron
    pars.initialParametersFile = initFile

    pars.backgrounds = ['diboson', 'top', 'WpJ']
    pars.includeSignal = includeSignal
    pars.signals = ['ggH', 'qqH']
    pars.yieldConstraints = { 'diboson' : 0.034, 'top' : 0.07 }
    #pars.yieldConstraints = {}
    pars.constrainShapes = ['WpJ']

    pars.Njets = Nj
    pars.mHiggs = mH

    modePars = mu2Pars
    if isElectron:
        flavorString = 'el'
        if Nj == 3:
            modePars = el3Pars
        else:
            modePars = el2Pars
    else:
        flavorString = 'mu'
        if Nj == 3:
            modePars = mu3Pars
        else:
            modePars = mu2Pars

    pars.cuts = \
        '(W_pt>200.)&&(GroomedJet_CA8_pt[0]>200)&&(ggdboostedWevt==1)' +\
        '&&(event_metMVA_met>50.)&&(GroomedJet_CA8_deltaphi_METca8jet>2.0)' +\
        '&&(GroomedJet_CA8_mass_pr[0]>40)&&(numPFCorJetBTags==0)' +\
        '&&(GroomedJet_CA8_tau2tau1[0]<0.53)'
    #btag veto
    pars.btagVeto = False
    # for i in range(0, 6):
    #     pars.cuts += '&&((abs(JetPFCor_Eta[%i])>2.4)||' % i + \
    #         '(JetPFCor_Pt[%i]<30.)||' % i + \
    #         '(JetPFCor_bDiscriminatorCSV[%i]<0.679))' % i

    # veto boosted topology
    # if mH >= 600:
    #     pars.cuts += '&&(W_pt<200.)'

    # veto vbf
    pars.cuts += '&&(vbf_event==0)'

    # you need a files entry and a models entry for each of the fit 
    # compoents in backgrounds and signals
    # the files should a list with entries like (filename, Ngen, xsec)
    pars.dibosonFiles = [
        (pars.MCDirectory + 'RD_%s_WW_CMSSW532.root' % (flavorString),
         9450414, 57.1097),
        (pars.MCDirectory + 'RD_%s_WZ_CMSSW532.root' % (flavorString),
         10000267, 32.3161),
        ]
    pars.dibosonModels = [ modePars[mH][5]['diboson'][0] ]
 
    pars.WpJFiles = [
        (pars.MCDirectory + 'RD_%s_WJets_madgraph_CMSSW532.root' % (flavorString),
         8955318, 1.3*228.9),
        ]
    pars.WpJModels = [ modePars[mH][5]['WpJ'][0] ]

    pars.topFiles = [
        (pars.MCDirectory + 'RD_%s_TTbar_CMSSW532.root' % (flavorString),
         6893735, 225.197),
        (pars.MCDirectory + 'RD_%s_STopS_Tbar_CMSSW532.root' % (flavorString),
         139974, 1.75776),
        (pars.MCDirectory + 'RD_%s_STopS_T_CMSSW532.root' % (flavorString),
         259960, 3.89394),
        (pars.MCDirectory + 'RD_%s_STopT_Tbar_CMSSW532.root' % (flavorString),
         1935066, 30.0042),
        (pars.MCDirectory + 'RD_%s_STopT_T_CMSSW532.root' % (flavorString),
         3758221, 55.531),
        (pars.MCDirectory + 'RD_%s_STopTW_Tbar_CMSSW532.root' % (flavorString),
         493458, 11.1773),
        (pars.MCDirectory + 'RD_%s_STopTW_T_CMSSW532.root' % (flavorString),
         497657, 11.1773),
        ]
    pars.topModels = [ modePars[mH][5]['top'][0] ]

    ngen = HWWSignalShapes.NgenHiggs(mH, 'ggH')
    pars.ggHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "ggH",
                                                               isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.ggHModels = [ modePars[mH][5]['ggH'][0] ]
    if pars.mHiggs >= 400:
        pars.ggHInterference = True


    ngen = HWWSignalShapes.NgenHiggs(mH, 'qqH')
    pars.qqHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "qqH",
                                                               isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.qqHModels = [ modePars[mH][5]['qqH'][0] ]

    pars.dibosonPlotting = {'color' : kAzure+8, 'title' : 'WW+WZ'}
    pars.WpJPlotting = { 'color' : kRed, 'title' : 'V+jets'}
    pars.topPlotting = {'color' : kGreen+2, 'title' : 'top'}
    pars.ggHPlotting = {'color' : kBlue, 'title' : "H(%i) #rightarrow WW" % mH}
    pars.qqHPlotting = {'color' : kBlue, 'title' : "H(%i) #rightarrow WW" % mH,
                        'visible' : True}

    pars.var = ['GroomedJet_CA8_mass_pr[0]', 'boostedW_lvj_m']
    pars.varRanges = {'GroomedJet_CA8_mass_pr[0]': (20, 40., 140., []),
                      'boostedW_lvj_m': (modePars[mH][4], modePars[mH][2], 
                                         modePars[mH][3], [])
                      }
    pars.varTitles = {'GroomedJet_CA8_mass_pr[0]': 'm_{j}',
                      'boostedW_lvj_m' : 'm_{l#nuj}'
                      }
    pars.varNames = {'GroomedJet_CA8_mass_pr[0]': 'GroomedJet_CA8_mass_pr',
                      'boostedW_lvj_m' : 'boostedW_lvj_m'
                      }
    pars.exclude = {'GroomedJet_CA8_mass_pr[0]' : (70., 100.)}
    pars.blind = True

    pars.binData = False
    # pars.binData = True

    return customizeElectrons(pars) if isElectron else \
        customizeMuons(pars)
Esempio n. 2
0
def theConfig(Nj, mH, isElectron=False, initFile=[], includeSignal=True):
    pars = Wjj2DFitterPars()

    pars.MCDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/ReducedTrees/'
    pars.QCDDirectory = "/uscms_data/d3/ilyao/QCD8TeV/Moriond13/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/Moriond2013/RD_includingDiboson/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/HCP2012METfix/ReducedTrees/"

    pars.DataDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/HWWTrees/'
    pars.isElectron = isElectron
    pars.initialParametersFile = initFile

    pars.backgrounds = ['diboson', 'WpJ', 'top']
    pars.includeSignal = includeSignal
    pars.signals = ['ggH', 'qqH']
    pars.yieldConstraints = {'diboson': 0.034, 'top': 0.07}
    #pars.yieldConstraints = {}
    pars.constrainShapes = ['WpJ']
    if mH > 200:
        pars.constrainShapes = ['WpJ']

    pars.Njets = Nj
    pars.mHiggs = mH

    modePars = mu2Pars
    if isElectron:
        flavorString = 'el'
        if Nj == 3:
            modePars = el3Pars
        else:
            modePars = el2Pars
    else:
        flavorString = 'mu'
        if Nj == 3:
            modePars = mu3Pars
        else:
            modePars = mu2Pars

    pars.cuts = '(ggdevt==%i)&&(fit_status==0)&&(W_mt>30)' % Nj
    pars.cuts = '(fit_status==0)&&(W_mt>30)'
    pars.cuts += '&&(%s>%.3f)' % (modePars[mH][0], modePars[mH][1])

    #btag veto
    pars.btagVeto = False
    for i in range(0, 6):
        pars.cuts += '&&((abs(JetPFCor_Eta[%i])>2.4)||' % i + \
            '(JetPFCor_Pt[%i]<30.)||' % i + \
            '(JetPFCor_bDiscriminatorCSV[%i]<0.244))' % i

    # veto boosted topology
    # if mH >= 600:
    #     pars.cuts += '&&(W_pt<200.)'

    # veto vbf
    pars.cuts += '&&(vbf_event==0)'

    # you need a files entry and a models entry for each of the fit
    # compoents in backgrounds and signals
    # the files should a list with entries like (filename, Ngen, xsec)
    pars.dibosonFiles = [
        (pars.MCDirectory + 'RD_%s_WW_CMSSW532.root' % (flavorString), 9450414,
         57.1097),
        (pars.MCDirectory + 'RD_%s_WZ_CMSSW532.root' % (flavorString),
         10000267, 32.3161),
    ]
    pars.dibosonModels = [modePars[mH][5]['diboson'][0]]

    wpj_kfactor = 1.16
    pars.WpJFiles = [
        # (pars.MCDirectory + 'RD_%s_WpJ_CMSSW532.root' % (flavorString),
        #  18353019+50768992, 36257.2),
        (pars.MCDirectory + 'RD_%s_ZpJ_CMSSW532.root' % (flavorString),
         30209426, 3503.71),
        # (pars.MCDirectory + 'RD_%s_W1Jets_CMSSW532.root' % (flavorString),
        #  19871598, 5400.0*wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W2Jets_CMSSW532.root' % (flavorString),
         33004921, 1750.0 * wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W3Jets_CMSSW532.root' % (flavorString),
         15059503, 519.0 * wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W4Jets_CMSSW532.root' % (flavorString),
         12842803, 214.0 * wpj_kfactor),
    ]
    pars.WpJModels = [modePars[mH][5]['WpJ'][0]]

    pars.topFiles = [
        (pars.MCDirectory + 'RD_%s_TTbar_CMSSW532.root' % (flavorString),
         6893735, 225.197),
        (pars.MCDirectory + 'RD_%s_STopS_Tbar_CMSSW532.root' % (flavorString),
         139974, 1.75776),
        (pars.MCDirectory + 'RD_%s_STopS_T_CMSSW532.root' % (flavorString),
         259960, 3.89394),
        (pars.MCDirectory + 'RD_%s_STopT_Tbar_CMSSW532.root' % (flavorString),
         1935066, 30.0042),
        (pars.MCDirectory + 'RD_%s_STopT_T_CMSSW532.root' % (flavorString),
         3758221, 55.531),
        (pars.MCDirectory + 'RD_%s_STopTW_Tbar_CMSSW532.root' % (flavorString),
         493458, 11.1773),
        (pars.MCDirectory + 'RD_%s_STopTW_T_CMSSW532.root' % (flavorString),
         497657, 11.1773),
    ]
    pars.topModels = [modePars[mH][5]['top'][0]]

    pars.QCDFracOfData = 0.05
    pars.QCDFiles = [
        (pars.QCDDirectory + 'RDQCD_WenuJets_Isog0p3NoElMVA_19p2invfb.root', 1,
         1),  #The events come from the data sideband
    ]
    pars.QCDModels = [27]

    ngen = HWWSignalShapes.NgenHiggs(mH, 'ggH')
    pars.ggHFiles = [
        (pars.MCDirectory +
         HWWSignalShapes.makeSignalFilename(mH, "ggH", isElectron), ngen[0],
         ngen[1] * ngen[2])
    ]
    pars.ggHModels = [modePars[mH][5]['ggH'][0]]
    if pars.mHiggs >= 400:
        pars.ggHInterference = True

    ngen = HWWSignalShapes.NgenHiggs(mH, 'qqH')
    pars.qqHFiles = [
        (pars.MCDirectory +
         HWWSignalShapes.makeSignalFilename(mH, "qqH", isElectron), ngen[0],
         ngen[1] * ngen[2])
    ]
    pars.qqHModels = [modePars[mH][5]['qqH'][0]]

    pars.dibosonPlotting = {'color': kAzure + 8, 'title': 'WW+WZ'}
    pars.WpJPlotting = {'color': kRed, 'title': 'V+jets'}
    pars.topPlotting = {'color': kGreen + 2, 'title': 'top'}
    pars.ggHPlotting = {'color': kBlue, 'title': "H(%i) #rightarrow WW" % mH}
    pars.qqHPlotting = {
        'color': kBlue,
        'title': "H(%i) #rightarrow WW" % mH,
        'visible': True
    }
    pars.QCDPlotting = {'color': kGray, 'title': 'multijet'}

    pars.var = ['Mass2j_PFCor', 'fit_mlvjj']
    pars.varRanges = {
        'Mass2j_PFCor': (12, 50., 146., []),
        'fit_mlvjj':
        (modePars[mH][4] * 10, modePars[mH][2], modePars[mH][3], [])
    }
    pars.plotRanges = {
        'Mass2j_PFCor': (12, 50., 146., []),
        'fit_mlvjj': (modePars[mH][4], modePars[mH][2], modePars[mH][3], [])
    }
    pars.varTitles = {'Mass2j_PFCor': 'm_{jj}', 'fit_mlvjj': 'm_{l#nujj}'}
    pars.exclude = {'Mass2j_PFCor': (66., 66. + 32.)}
    pars.doExclude = True
    pars.blind = True

    pars.binData = False
    # pars.binData = True

    return customizeElectrons(pars) if isElectron else \
        customizeMuons(pars)
Esempio n. 3
0
def theConfig(**kwargs):
    # (Nj, mH, isElectron = False, initFile = [], includeSignal = True,
    #           MVACutOverride = None):
    print 'mjj',kwargs
    pars = Wjj2DFitterPars()

    # pars.MCDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/ReducedTrees/'
    pars.MCDirectory = '/eos/uscms/store/user/lnujj/RDtrees_with_8TeV_MVA/Higgs_22Oct/'
    if ('xrootd' in kwargs) and kwargs['xrootd']:
        pars.MCDirectory = 'root://cmseos:1094/' + pars.MCDirectory
    pars.QCDDirectory = "/uscms_data/d3/ilyao/QCD8TeV/Moriond13/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/Moriond2013/RD_includingDiboson/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/HCP2012METfix/ReducedTrees/"

    pars.DataDirectory = pars.MCDirectory
    pars.isElectron = kwargs['isElectron']
    if ('initFile' in kwargs):
        pars.initialParametersFile = list(kwargs['initFile'])
    else:
        pars.initialParametersFile = []

    pars.backgrounds = ['diboson', 'WpJ', 'top']
    if ('includeSignal' in kwargs):
        pars.includeSignal = kwargs['includeSignal']
    else:
        pars.includeSignal = False
    pars.signals = ['ggH', 'qqH']
    pars.yieldConstraints = { 'diboson' : 0.10, 'top' : 0.07 }
    #pars.yieldConstraints = {}
    pars.constrainShapes = ['WpJ']
    # if kwargs['mH'] > 200:
    #     pars.constrainShapes = ['WpJ']

    pars.Njets = kwargs['Nj']
    pars.mHiggs = kwargs['mH']

    modePars = mu2Pars
    if pars.isElectron:
        flavorString = 'el'
        if pars.Njets == 3:
            modePars = el3Pars
        else:
            modePars = el2Pars
    else:
        flavorString = 'mu'
        if pars.Njets == 3:
            modePars = mu3Pars
        else:
            modePars = mu2Pars

    pars.cuts = '(ggdevt==%i)&&(fit_status==0)&&(W_mt>30)' % pars.Njets
    pars.cuts = '(fit_status==0)&&(W_mt>30)'
    if ('MVACutOverride' in kwargs) and (kwargs['MVACutOverride'] != None):
        pars.cuts += '&&(%s>%.3f)' % \
            (modePars[pars.mHiggs][0].replace('mu', flavorString), 
             kwargs['MVACutOverride'])
    else:
        pars.cuts += '&&(%s>%.3f)' % \
            (modePars[pars.mHiggs][0].replace('mu', flavorString), 
             modePars[pars.mHiggs][1])
    
    #btag veto
    pars.btagVeto = False
    for i in range(0, 6):
        pars.cuts += '&&((abs(JetPFCor_Eta[%i])>2.4)||' % i + \
            '(JetPFCor_Pt[%i]<30.)||' % i + \
            '(JetPFCor_bDiscriminatorCSV[%i]<0.244))' % i

    # veto boosted topology
    # if pars.mHiggs >= 600:
    #     pars.cuts += '&&(W_pt<200.)'

    # veto vbf
    # pars.cuts += '&&(vbf_event==0)'

    # you need a files entry and a models entry for each of the fit 
    # compoents in backgrounds and signals
    # the files should a list with entries like (filename, Ngen, xsec)
    pars.dibosonFiles = [
        (pars.MCDirectory + 'RD_%s_WW_CMSSW532.root' % (flavorString),
         9450414, 57.1097),
        (pars.MCDirectory + 'RD_%s_WZ_CMSSW532.root' % (flavorString),
         10000267, 32.3161),
        ]
    pars.dibosonModels = [ modePars[pars.mHiggs][5]['diboson'][0] ]

    wpj_kfactor = 1.16
    pars.WpJFiles = [
        # (pars.MCDirectory + 'RD_%s_WpJ_CMSSW532.root' % (flavorString),
        #  18353019+50768992, 36257.2),
        (pars.MCDirectory + 'RD_%s_ZpJ_CMSSW532.root' % (flavorString),
         30209426, 3503.71),
        # (pars.MCDirectory + 'RD_%s_W1Jets_CMSSW532.root' % (flavorString),
        #  19871598, 5400.0*wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W2Jets_CMSSW532.root' % (flavorString),
         33004921, 1750.0*wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W3Jets_CMSSW532.root' % (flavorString),
         15059503, 519.0*wpj_kfactor),
        # (pars.MCDirectory + 'RD_%s_W4Jets_CMSSW532.root' % (flavorString),
        #  12842803, 214.0*wpj_kfactor),
        (pars.MCDirectory + 'RD_%s_W4Jets_CMSSW532_old.root' % (flavorString),
         4369420, 214.0*wpj_kfactor),
        ]
    pars.WpJModels = [ modePars[pars.mHiggs][5]['WpJ'][0] ]
    if (len(modePars[pars.mHiggs][5]['WpJ']) > 2):
        pars.WpJAuxModels = [ modePars[pars.mHiggs][5]['WpJ'][2] ]

    pars.topFiles = [
        (pars.MCDirectory + 'RD_%s_TTbar_CMSSW532.root' % (flavorString),
         6893735, 225.197),
        (pars.MCDirectory + 'RD_%s_STopS_Tbar_CMSSW532.root' % (flavorString),
         139974, 1.75776),
        (pars.MCDirectory + 'RD_%s_STopS_T_CMSSW532.root' % (flavorString),
         259960, 3.89394),
        (pars.MCDirectory + 'RD_%s_STopT_Tbar_CMSSW532.root' % (flavorString),
         1935066, 30.0042),
        (pars.MCDirectory + 'RD_%s_STopT_T_CMSSW532.root' % (flavorString),
         3758221, 55.531),
        (pars.MCDirectory + 'RD_%s_STopTW_Tbar_CMSSW532.root' % (flavorString),
         493458, 11.1773),
        (pars.MCDirectory + 'RD_%s_STopTW_T_CMSSW532.root' % (flavorString),
         497657, 11.1773),
        ]
    pars.topModels = [ modePars[pars.mHiggs][5]['top'][0] ]

    pars.QCDFracOfData = 0.05
    pars.QCDFiles = [
        (pars.QCDDirectory + 'RDQCD_WenuJets_Isog0p3NoElMVA_19p2invfb.root',
         1,1), #The events come from the data sideband
        ]
    pars.QCDModels = [27]

    ngen = HWWSignalShapes.NgenHiggs(pars.mHiggs, 'ggH')
    pars.ggHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(pars.mHiggs, 
                                                               "ggH",
                                                               pars.isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.ggHModels = [ modePars[pars.mHiggs][5]['ggH'][0] ]
    pars.ggHdoSystMult = False
    if pars.mHiggs >= 400:
        pars.ggHInterference = True
        pars.ggHSystMult = 'interf_ggH'


    ngen = HWWSignalShapes.NgenHiggs(pars.mHiggs, 'qqH')
    pars.qqHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(pars.mHiggs, 
                                                               "qqH",
                                                               pars.isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.qqHModels = [ modePars[pars.mHiggs][5]['qqH'][0] ]

    pars.dibosonPlotting = {'color' : kAzure+8, 'title' : 'WW+WZ'}
    pars.WpJPlotting = { 'color' : kRed, 'title' : 'V+jets'}
    pars.topPlotting = {'color' : kGreen+2, 'title' : 'top'}
    pars.ggHPlotting = {'color' : kBlue, 
                        'title' : "H(%i) #rightarrow WW" % pars.mHiggs}
    pars.qqHPlotting = {'color' : kBlue, 
                        'title' : "H(%i) #rightarrow WW" % pars.mHiggs,
                        'visible' : True}
    pars.QCDPlotting = {'color' : kGray, 'title':'multijet'}

    pars.var = ['Mass2j_PFCor', 'fit_mlvjj']
    pars.varRanges = {'Mass2j_PFCor': (13, 50., 154., []),
                      'fit_mlvjj': (modePars[pars.mHiggs][4]*10, 
                                    modePars[pars.mHiggs][2], 
                                    modePars[pars.mHiggs][3], [])
                      }
    pars.plotRanges = {'Mass2j_PFCor': (13, 50., 154., []),
                      'fit_mlvjj': (modePars[pars.mHiggs][4], 
                                    modePars[pars.mHiggs][2], 
                                    modePars[pars.mHiggs][3], [])
                      }
    pars.varTitles = {'Mass2j_PFCor': 'm_{jj}',
                      'fit_mlvjj' : 'm_{l#nujj}'
                      }
    pars.exclude = {'Mass2j_PFCor' : (66., 66.+32.)}
    pars.doExclude = True
    pars.blind = True

    pars.binData = False
    # pars.binData = True

    return customizeElectrons(pars) if pars.isElectron else \
        customizeMuons(pars)
Esempio n. 4
0
    event.getByLabel(label, handle)
    genParts = handle.product()

    if (eventN % 100 == 0):
        print "Record:", eventN,
        print "Run:", event.object().id().run(),
        print "event:", event.object().id().event()
    for particle in genParts:
        if (abs(particle.pdgId()) == 25) and (particle.status() == 3):
            dauMode = abs(particle.daughter(0).pdgId())
            if not (dauMode in decayCnts):
                decayCnts[dauMode] = 0
            decayCnts[dauMode] += 1
            # printParticleDecayTree(particle, statusCutoff = 3)
            Higgs_mass[0] = particle.mass()
            Event_wgt[0] = HWWSignalShapes.HiggsCPWeight(
                opts.mH, particle.mass())
            sumWgts += Event_wgt[0]

            # Running_wgt[0] = HWWSignalShapes.runningWidthWeight(350,
            #                                                     particle.mass())
            # sumRunning += Running_wgt[0]
            break

    outTree.Fill()
    if eventN >= 10000:
        break

print decayCnts
#print "n events:",eventN
print "avg CP weight:", sumWgts / (eventN + 1)
# print "avg running width weight:", sumRunning/(eventN+1)
## assert(False)

mf4 = fitter4.stackedPlot(False, RooWjjMjjFitter.mlnujj)
mf4.SetName("Mlvjj_Stacked")
## sf4 = fitter4.residualPlot(mf4, "h_background", "dibosonPdf", False)
# pf4 = fitter4.residualPlot(mf4, "h_total", "", True)
pf4 = pulls.createPull(mf4.getHist('theData'), mf4.getCurve('h_total'))
pf4.SetName("Mlvjj_Pull")
lf4 = fitter4.stackedPlot(True, RooWjjMjjFitter.mlnujj)
lf4.SetName("Mlvjj_log")

fitUtils = RooWjjFitterUtils(pars4)
iwt = 0
if (opts.mH >= 500):
    iwt = 1
sigHists = HWWSignalShapes.GenHiggsHists(pars4, opts.mH, fitUtils, iwt = iwt)

extraFactor = 2.
otherdata = HWWSignalShapes.NgenHiggs(opts.mH, 'HWW')
SigVisual = TH1D(sigHists['HWW'])
SigVisual.Print()
SigVisual.SetName('SigVisual')
SigVisual.SetLineColor(kBlue)
SigVisual.SetLineWidth(3)
SigVisual.Scale(pars4.intLumi*extraFactor*otherdata[1]*otherdata[2]/2.)
SigVisual.Print()
SigVisualLog = TH1D(SigVisual)
SigVisualLog.SetName("SigVisualLog")

c4body = TCanvas('c4body', '4 body stacked')
mf4.addTH1(SigVisual, "hist")
Esempio n. 6
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    pars4.wHiggs = HWWSignalShapes.HiggsWidth[mHmorph]
    # fitter4 = RooWjjMjjFitter(pars4)

    higgsModes = HWWSignalShapes.modes
    morphedHists = []

    utils = RooWjjFitterUtils(pars4)

    print 'basis Higgs', mHbasis, 'morphing with Higgs', mHmorph,
    print 'to make Higgs', opts.mH

    iwt = 0
    if (opts.mH >= 500):
        iwt = 1

    higgsHists = HWWSignalShapes.GenHiggsHists(pars4, mHmorph, utils, iwt=iwt)

    fbasis = TFile(opts.basisFile)
    # fmorph = TFile(opts.morphFile)
    gROOT.cd()

    for higgsMode in higgsModes:

        basisName = '%s%i_%s_shape' % (higgsMode, mHbasis, modeString)
        morphName = '%s%i_%s_shape' % (higgsMode, mHmorph, modeString)

        print 'basis hist name:', basisName, 'morph hist name:', morphName

        histbasis = scaleUnwidth(fbasis.Get(basisName))
        histmorph = scaleUnwidth(higgsHists[higgsMode])
    if fitterPars.includeMuons and fitterPars.includeElectrons:
        modeString = ''
    elif fitterPars.includeMuons:
        modeString = 'Muon'
    elif fitterPars.includeElectrons:
        modeString = 'Electron'
    else:
        modeString = ''

    pars4 = config.the4BodyConfig(fitterPars, mHbasis, opts.syst, 
                                  opts.alpha)
    # fitter4 = RooWjjMjjFitter(pars4)

    (halfGen, otherdata) = HWWSignalShapes.NgenHiggs(opts.mH, 'HWW')
    SignalHist = HWWSignalShapes.makeHiggsHist(opts.mH, pars4, 'HWW')
    SignalHist.Scale(otherdata[1]*otherdata[2]*pars4.intLumi* \
                         opts.factor/otherdata[0])
    print "signal only"
    SignalHist.Print()
    if opts.debug:
        print 'drawing signal histogram...'
        SignalHist.Draw()
        gPad.Update()
        gPad.WaitPrimitive()

    basisFilename = 'H%i_%s_%iJets_Fit_Shapes.root' % (mHbasis, modeString,
                                                       opts.Nj)
    print 'opening', basisFilename
    bfile = TFile(basisFilename)
    bgCurve = bfile.Get('h_total')
Esempio n. 8
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def theConfig(Nj, mH, isElectron = False, initFile = [], includeSignal = True):
    pars = Wjj2DFitterPars()

    pars.MCDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/ReducedTrees/'
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/Moriond2013/RD_includingDiboson/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/HCP2012METfix/ReducedTrees/"

    pars.DataDirectory = '/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/HWWTrees/'
    pars.isElectron = isElectron
    pars.initialParametersFile = initFile

    pars.backgrounds = ['diboson', 'WpJ', 'top']
    pars.includeSignal = includeSignal
    pars.signals = ['ggH', 'qqH']
    pars.yieldConstraints = { 'diboson' : 0.034, 'top' : 0.07 }
    #pars.yieldConstraints = {}
    pars.constrainShapes = []

    pars.Njets = Nj
    pars.mHiggs = mH

    modePars = mu2Pars
    if isElectron:
        flavorString = 'el'
        if Nj == 3:
            modePars = el3Pars
        else:
            modePars = el2Pars
    else:
        flavorString = 'mu'
        if Nj == 3:
            modePars = mu3Pars
        else:
            modePars = mu2Pars

    pars.cuts = '(ggdevt==%i)&&(fit_status==0)&&(W_mt>30)' % Nj
    pars.cuts += '&&(%s>%.3f)' % (modePars[mH][0], modePars[mH][1])
    # pars.cuts = '(fit_status==0)&&(W_mt>30)' + \
    #     '&&(%s>%.3f)' % (modePars[mH][0], modePars[mH][1])
    
    #btag veto
    pars.btagVeto = False
    # for i in range(0, 6):
    #     pars.cuts += '&&((abs(JetPFCor_Eta[%i])>2.4)||' % i + \
    #         '(JetPFCor_Pt[%i]<30.)||' % i + \
    #         '(JetPFCor_bDiscriminatorCSV[%i]<0.679))' % i

    # veto boosted topology
    # if mH >= 600:
    #     pars.cuts += '&&(W_pt<200.)'

    # veto vbf
    pars.cuts += '&&(vbf_event==0)'

    # you need a files entry and a models entry for each of the fit 
    # compoents in backgrounds and signals
    # the files should a list with entries like (filename, Ngen, xsec)
    pars.dibosonFiles = [
        (pars.MCDirectory + 'RD_%s_WW_CMSSW532.root' % (flavorString),
         9450414, 57.1097),
        (pars.MCDirectory + 'RD_%s_WZ_CMSSW532.root' % (flavorString),
         10000267, 32.3161),
        ]
    pars.dibosonModels = modePars[mH][5]['diboson']
 
    pars.WpJFiles = [
        (pars.MCDirectory + 'RD_%s_WpJ_CMSSW532.root' % (flavorString),
         18353019+50768992, 36257.2),
        (pars.MCDirectory + 'RD_%s_ZpJ_CMSSW532.root' % (flavorString),
         30209426, 3503.71),
        ]
    pars.WpJModels = modePars[mH][5]['WpJ']

    pars.topFiles = [
        (pars.MCDirectory + 'RD_%s_TTbar_CMSSW532.root' % (flavorString),
         6893735, 225.197),
        (pars.MCDirectory + 'RD_%s_STopS_Tbar_CMSSW532.root' % (flavorString),
         139974, 1.75776),
        (pars.MCDirectory + 'RD_%s_STopS_T_CMSSW532.root' % (flavorString),
         259960, 3.89394),
        (pars.MCDirectory + 'RD_%s_STopT_Tbar_CMSSW532.root' % (flavorString),
         1935066, 30.0042),
        (pars.MCDirectory + 'RD_%s_STopT_T_CMSSW532.root' % (flavorString),
         3758221, 55.531),
        (pars.MCDirectory + 'RD_%s_STopTW_Tbar_CMSSW532.root' % (flavorString),
         493458, 11.1773),
        (pars.MCDirectory + 'RD_%s_STopTW_T_CMSSW532.root' % (flavorString),
         497657, 11.1773),
        ]
    pars.topModels = modePars[mH][5]['top']

    ngen = HWWSignalShapes.NgenHiggs(mH, 'ggH')
    pars.ggHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "ggH",
                                                               isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.ggHModels = modePars[mH][5]['ggH']
    if pars.mHiggs >= 400:
        pars.ggHInterference = True


    ngen = HWWSignalShapes.NgenHiggs(mH, 'qqH')
    pars.qqHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "qqH",
                                                               isElectron),
         ngen[0], ngen[1]*ngen[2])
        ]
    pars.qqHModels = modePars[mH][5]['qqH']

    pars.dibosonPlotting = {'color' : kAzure+8, 'title' : 'WW+WZ'}
    pars.WpJPlotting = { 'color' : kRed, 'title' : 'V+jets'}
    pars.topPlotting = {'color' : kGreen+2, 'title' : 'top'}
    pars.ggHPlotting = {'color' : kBlue, 'title' : "H(%i) #rightarrow WW" % mH}
    pars.qqHPlotting = {'color' : kBlue, 'title' : "H(%i) #rightarrow WW" % mH,
                        'visible' : True}

    pars.var = ['Mass2j_PFCor', 'fit_mlvjj']
    pars.varRanges = {'Mass2j_PFCor': (18, 50., 194., []),
                      'fit_mlvjj': (modePars[mH][4], modePars[mH][2], 
                                    modePars[mH][3], [])
                      }
    pars.varTitles = {'Mass2j_PFCor': 'm_{jj}',
                      'fit_mlvjj' : 'm_{l#nujj}'
                      }
    pars.exclude = {}
    pars.blind = False
    # pars.v1binEdges = [50, 55.,60.,65.,70.,75.,80.,85.,95.,
    #                    105.,115.,125.,135.,150.,165.,180.,200.]
    # pars.v1nbins = len(pars.v1binEdges)-1

    pars.binData = False
    # pars.binData = True

    return customizeElectrons(pars) if isElectron else \
        customizeMuons(pars)
def theConfig(Nj, mH, isElectron=False, initFile=[], includeSignal=True):
    pars = Wjj2DFitterPars()

    pars.MCDirectory = "/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/ReducedTrees/"
    pars.QCDDirectory = "/uscms_data/d3/ilyao/QCD8TeV/Moriond13/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/Moriond2013/RD_includingDiboson/"
    # pars.MCDirectory = "root://cmseos:1094//eos/uscms/store/user/lnujj/HCP2012METfix/ReducedTrees/"

    pars.DataDirectory = "/uscms_data/d2/andersj/Wjj/2012/data/Moriond2013/HWWTrees/"
    pars.isElectron = isElectron
    pars.initialParametersFile = initFile

    pars.backgrounds = ["diboson", "WpJ", "top"]
    pars.includeSignal = includeSignal
    pars.signals = ["ggH", "qqH"]
    pars.yieldConstraints = {"diboson": 0.034, "top": 0.07}
    # pars.yieldConstraints = {}
    pars.constrainShapes = ["WpJ"]
    if mH > 200:
        pars.constrainShapes = ["WpJ"]

    pars.Njets = Nj
    pars.mHiggs = mH

    modePars = mu2Pars
    if isElectron:
        flavorString = "el"
        if Nj == 3:
            modePars = el3Pars
        else:
            modePars = el2Pars
    else:
        flavorString = "mu"
        if Nj == 3:
            modePars = mu3Pars
        else:
            modePars = mu2Pars

    pars.cuts = "(ggdevt==%i)&&(fit_status==0)&&(W_mt>30)" % Nj
    pars.cuts = "(fit_status==0)&&(W_mt>30)"
    pars.cuts += "&&(%s>%.3f)" % (modePars[mH][0], modePars[mH][1])

    # btag veto
    pars.btagVeto = False
    for i in range(0, 6):
        pars.cuts += (
            "&&((abs(JetPFCor_Eta[%i])>2.4)||" % i
            + "(JetPFCor_Pt[%i]<30.)||" % i
            + "(JetPFCor_bDiscriminatorCSV[%i]<0.244))" % i
        )

    # veto boosted topology
    # if mH >= 600:
    #     pars.cuts += '&&(W_pt<200.)'

    # veto vbf
    pars.cuts += "&&(vbf_event==0)"

    # you need a files entry and a models entry for each of the fit
    # compoents in backgrounds and signals
    # the files should a list with entries like (filename, Ngen, xsec)
    pars.dibosonFiles = [
        (pars.MCDirectory + "RD_%s_WW_CMSSW532.root" % (flavorString), 9450414, 57.1097),
        (pars.MCDirectory + "RD_%s_WZ_CMSSW532.root" % (flavorString), 10000267, 32.3161),
    ]
    pars.dibosonModels = [modePars[mH][5]["diboson"][0]]

    wpj_kfactor = 1.16
    pars.WpJFiles = [
        # (pars.MCDirectory + 'RD_%s_WpJ_CMSSW532.root' % (flavorString),
        #  18353019+50768992, 36257.2),
        (pars.MCDirectory + "RD_%s_ZpJ_CMSSW532.root" % (flavorString), 30209426, 3503.71),
        # (pars.MCDirectory + 'RD_%s_W1Jets_CMSSW532.root' % (flavorString),
        #  19871598, 5400.0*wpj_kfactor),
        (pars.MCDirectory + "RD_%s_W2Jets_CMSSW532.root" % (flavorString), 33004921, 1750.0 * wpj_kfactor),
        (pars.MCDirectory + "RD_%s_W3Jets_CMSSW532.root" % (flavorString), 15059503, 519.0 * wpj_kfactor),
        (pars.MCDirectory + "RD_%s_W4Jets_CMSSW532.root" % (flavorString), 12842803, 214.0 * wpj_kfactor),
    ]
    pars.WpJModels = [modePars[mH][5]["WpJ"][0]]

    pars.topFiles = [
        (pars.MCDirectory + "RD_%s_TTbar_CMSSW532.root" % (flavorString), 6893735, 225.197),
        (pars.MCDirectory + "RD_%s_STopS_Tbar_CMSSW532.root" % (flavorString), 139974, 1.75776),
        (pars.MCDirectory + "RD_%s_STopS_T_CMSSW532.root" % (flavorString), 259960, 3.89394),
        (pars.MCDirectory + "RD_%s_STopT_Tbar_CMSSW532.root" % (flavorString), 1935066, 30.0042),
        (pars.MCDirectory + "RD_%s_STopT_T_CMSSW532.root" % (flavorString), 3758221, 55.531),
        (pars.MCDirectory + "RD_%s_STopTW_Tbar_CMSSW532.root" % (flavorString), 493458, 11.1773),
        (pars.MCDirectory + "RD_%s_STopTW_T_CMSSW532.root" % (flavorString), 497657, 11.1773),
    ]
    pars.topModels = [modePars[mH][5]["top"][0]]

    pars.QCDFracOfData = 0.05
    pars.QCDFiles = [
        (
            pars.QCDDirectory + "RDQCD_WenuJets_Isog0p3NoElMVA_19p2invfb.root",
            1,
            1,
        )  # The events come from the data sideband
    ]
    pars.QCDModels = [27]

    ngen = HWWSignalShapes.NgenHiggs(mH, "ggH")
    pars.ggHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "ggH", isElectron), ngen[0], ngen[1] * ngen[2])
    ]
    pars.ggHModels = [modePars[mH][5]["ggH"][0]]
    if pars.mHiggs >= 400:
        pars.ggHInterference = True

    ngen = HWWSignalShapes.NgenHiggs(mH, "qqH")
    pars.qqHFiles = [
        (pars.MCDirectory + HWWSignalShapes.makeSignalFilename(mH, "qqH", isElectron), ngen[0], ngen[1] * ngen[2])
    ]
    pars.qqHModels = [modePars[mH][5]["qqH"][0]]

    pars.dibosonPlotting = {"color": kAzure + 8, "title": "WW+WZ"}
    pars.WpJPlotting = {"color": kRed, "title": "V+jets"}
    pars.topPlotting = {"color": kGreen + 2, "title": "top"}
    pars.ggHPlotting = {"color": kBlue, "title": "H(%i) #rightarrow WW" % mH}
    pars.qqHPlotting = {"color": kBlue, "title": "H(%i) #rightarrow WW" % mH, "visible": True}
    pars.QCDPlotting = {"color": kGray, "title": "multijet"}

    pars.var = ["Mass2j_PFCor", "fit_mlvjj"]
    pars.varRanges = {
        "Mass2j_PFCor": (12, 50.0, 146.0, []),
        "fit_mlvjj": (modePars[mH][4] * 10, modePars[mH][2], modePars[mH][3], []),
    }
    pars.plotRanges = {
        "Mass2j_PFCor": (12, 50.0, 146.0, []),
        "fit_mlvjj": (modePars[mH][4], modePars[mH][2], modePars[mH][3], []),
    }
    pars.varTitles = {"Mass2j_PFCor": "m_{jj}", "fit_mlvjj": "m_{l#nujj}"}
    pars.exclude = {"Mass2j_PFCor": (66.0, 66.0 + 32.0)}
    pars.doExclude = True
    pars.blind = True

    pars.binData = False
    # pars.binData = True

    return customizeElectrons(pars) if isElectron else customizeMuons(pars)
Esempio n. 10
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    if opts.ParamWpJ < 0:
        fitterPars.smoothingOrder = 0

    if fitterPars.includeMuons and fitterPars.includeElectrons:
        modeString = ''
    elif fitterPars.includeMuons:
        modeString = 'Muon'
    elif fitterPars.includeElectrons:
        modeString = 'Electron'
    else:
        modeString = ''

    pars4 = config.the4BodyConfig(fitterPars, mHbasis, opts.syst, opts.alpha)
    # fitter4 = RooWjjMjjFitter(pars4)

    (halfGen, otherdata) = HWWSignalShapes.NgenHiggs(opts.mH, 'HWW')
    SignalHist = HWWSignalShapes.makeHiggsHist(opts.mH, pars4, 'HWW')
    SignalHist.Scale(otherdata[1]*otherdata[2]*pars4.intLumi* \
                         opts.factor/otherdata[0])
    print "signal only"
    SignalHist.Print()
    if opts.debug:
        print 'drawing signal histogram...'
        SignalHist.Draw()
        gPad.Update()
        gPad.WaitPrimitive()

    basisFilename = 'H%i_%s_%iJets_Fit_Shapes.root' % (mHbasis, modeString,
                                                       opts.Nj)
    print 'opening', basisFilename
    bfile = TFile(basisFilename)