'_Zptcut' + str(zptcut) + '_Hptcut' +
str(hptcut) + '_metcut' + str(metcut) +
'_btagwp' + str(btagwp) + '.pkl')
datuncs17 = pd.read_pickle('analysis_output_ZpAnomalon/' + args.date +
'/Run2017.AllZpAnomalonData_unc_' + reg +
'_Zptcut' + str(zptcut) + '_Hptcut' +
str(hptcut) + '_metcut' + str(metcut) +
'_btagwp' + str(btagwp) + '.pkl')
datuncs18 = pd.read_pickle('analysis_output_ZpAnomalon/' + args.date +
'/Run2018.AllZpAnomalonData_unc_' + reg +
'_Zptcut' + str(zptcut) + '_Hptcut' +
str(hptcut) + '_metcut' + str(metcut) +
'_btagwp' + str(btagwp) + '.pkl')
#check for plotting, prep backgrounds
bkg_colors = gecorg.colsFromPalette(bkgnames, ROOT.kLake)
if not year:
lumi = 41.53 + 59.74
print("Stacking for a luminosity of ", round(lumi, 2))
bkg_info17 = gecorg.prepBkg(bkgupout17, bkgnames, bkg_colors,
'xsects_2017.ini', 41.53, "yes")
bkg_info18 = gecorg.prepBkg(bkgupout18, bkgnames, bkg_colors,
'xsects_2017.ini', 59.74, "yes")
bkguncs = (bkguncs17**2 + bkguncs18**2)**(1 / 2)
datfiles = datfiles17 + datfiles18
dat_info = [ROOT.TFile(dat) for dat in datfiles]
datuncs = (datuncs17**2 + datuncs18**2)**(1 / 2)
regiondescrip = reg + '_1718'
keys = bkg_info17[0]['binlist'][0]['tfile'].GetListOfKeys()
if year == 17:
lumi = 41.53
metcut = args.metcut
btaggers = [
'DeepMassDecorrelTagHbbvsQCD', #move to command line option?
'DeepMassDecorrelTagZbbvsQCD',
'DeepMassDecorrelTagZHbbvsQCD',
'pfMassIndependentDeepDoubleBvLJetTagsProbHbb',
]
sigsamp = 'Zp1200-ND175-NS1'
plotmax = 100000000000.0
#Prep the plot
mg = ROOT.TMultiGraph()
gleg = ROOT.TLegend(0.45, 0.1, 0.90, 0.3)
tc = ROOT.TCanvas("tc", "btagrco", 600, 600)
btagcols = gecorg.colsFromPalette(btaggers, ROOT.kColorPrintableOnGrey)
for i, btag in enumerate(btaggers):
#Samples
#bkgfiles = gecorg.gatherBkg('analysis_output_ZpAnomalon/'+args.date+'/','upout_'+btag,zptcut,hptcut,metcut)
if year == 18:
mcprefix = 'Autumn18'
if year == 17:
mcprefix = 'Fall17'
DYJetsToLL = glob.glob('analysis_output_ZpAnomalon/' + args.date +
'/' + mcprefix + '.DYJetsToLL_M-50_HT*upout_' +
btag + '*_Zptcut' + str(zptcut) + '_Hptcut' +
str(hptcut) + '_metcut' + str(metcut) +
'_btagwp*')
TT = glob.glob('analysis_output_ZpAnomalon/' + args.date + '/' +
parser.add_argument("-y","--year", type=float,help = "year of samples eg. 2017 -> 17")
args = parser.parse_args()
#Get command line parameters
lumi = args.lumi
sig_xsec = args.xsec
zptcut = args.zptcut
hptcut = args.hptcut
metcut = args.metcut
btagwp = args.btagwp
year = args.year
bkgfiles = go.gatherBkg('analysis_output_ZpAnomalon/'+args.date,'upout',zptcut,hptcut,metcut,btagwp,year)
#bkguncs = np.load('analysis_output_ZpAnomalon/'+args.date+'/Fall17.AllZpAnomalonBkgs_unc_Zptcut'+str(zptcut)+'_Hptcut'+str(hptcut)+'_metcut'+str(metcut)+'_btagwp'+str(btagwp)+'.npz')
bkgnames = ["DYJetsToLL","TT","WZTo2L2Q","ZZTo2L2Q"]
bkgcols = go.colsFromPalette(bkgnames,ROOT.kLake)
bkginfo = go.prepBkg(bkgfiles,bkgnames,bkgcols,'xsects_2017.ini',lumi,"yes")#gathers xs scales
metstr = "Percent Passing \(MET > "+str(metcut)+"\)"
zptstr = "Percent Passing \(Z p_{T} > "+str(zptcut)+"\)"
hptstr = "Percent Passing Fat Jet \(p_{T} > "+str(hptcut)+"\)"
btgstr = "Percent Passing {0} btag WP".format(str(btagwp))
sbstr = "Percent in side band"
cfdict = {metstr:{},zptstr:{},hptstr:{},btgstr:{},sbstr:{}}
totorig = 0
totymet = 0
totyzpt = 0
totyhpt = 0
totybtg = 0
metcut = args.metcut
btagwp = args.btagwp
zp1200nd175ns1top = "analysis_output_ZpAnomalon/2021-03-26/ZpAnomalonHZ_UFO-Zp1200-ND175-NS1_topiary_Zptcut0.0_Hptcut250.0_metcut0.0_btagwp0.0.root"
zp2000nd300ns1top = "analysis_output_ZpAnomalon/2021-03-26/ZpAnomalonHZ_UFO-Zp2000-ND300-NS1_topiary_Zptcut0.0_Hptcut250.0_metcut0.0_btagwp0.0.root"
zp2000nd800ns200top = "analysis_output_ZpAnomalon/2021-03-26/ZpAnomalonHZ_UFO-Zp2000-ND800-NS200_topiary_Zptcut0.0_Hptcut250.0_metcut0.0_btagwp0.0.root"
zp3000nd1200ns1top = "analysis_output_ZpAnomalon/2021-03-26/ZpAnomalonHZ_UFO-Zp3000-ND1200-NS1_topiary_Zptcut0.0_Hptcut250.0_metcut0.0_btagwp0.0.root"
zp1200nd175ns1up = "analysis_output_ZpAnomalon/2021-03-29/ZpAnomalonHZ_UFO-Zp1200-ND175-NS1_upout_DeepMassDecorrelTagZHbbvsQCD_sideband_Zptcut"+str(zptcut)+"_Hptcut"+str(hptcut)+"_metcut"+str(metcut)+"_btagwp"+str(btagwp)+".root"
zp2000nd300ns1up = "analysis_output_ZpAnomalon/2021-03-29/ZpAnomalonHZ_UFO-Zp2000-ND300-NS1_upout_DeepMassDecorrelTagZHbbvsQCD_sideband_Zptcut"+str(zptcut)+"_Hptcut"+str(hptcut)+"_metcut"+str(metcut)+"_btagwp"+str(btagwp)+".root"
zp2000nd800ns200up = "analysis_output_ZpAnomalon/2021-03-29/ZpAnomalonHZ_UFO-Zp2000-ND800-NS200_upout_DeepMassDecorrelTagZHbbvsQCD_sideband_Zptcut"+str(zptcut)+"_Hptcut"+str(hptcut)+"_metcut"+str(metcut)+"_btagwp"+str(btagwp)+".root"
zp3000nd1200ns1up = "analysis_output_ZpAnomalon/2021-03-29/ZpAnomalonHZ_UFO-Zp3000-ND1200-NS1_upout_DeepMassDecorrelTagZHbbvsQCD_sideband_Zptcut"+str(zptcut)+"_Hptcut"+str(hptcut)+"_metcut"+str(metcut)+"_btagwp"+str(btagwp)+".root"
sigsamps = [zp1200nd175ns1up,zp2000nd300ns1up,zp2000nd800ns200up,zp3000nd1200ns1up]
sigtops = [zp1200nd175ns1top,zp2000nd300ns1top,zp2000nd800ns200top,zp3000nd1200ns1top]
sigcols = go.colsFromPalette(sigsamps,ROOT.kLake)
siginfo = go.prepSig(sigsamps,sigcols,sig_xsec,101.27)#gathers xs scales
skimstr = "Events with \( > 0\) fat jets and \( Z(\ell^{+}\ell^{-}) cand \)"
trigstr = "Events Pass trigger"
zrecostr = "Events with \( 70 < m_{\ell\ell} < 110 \)"
hrecostr = "Events Pass $H$ reco "
metstr = "Events Passing \(MET > "+str(metcut)+"\)"
zptstr = "Events Passing \(Z p_{T} > "+str(zptcut)+"\)"
hptstr = "Events Passing Fat Jet \(p_{T} > "+str(hptcut)+"\)"
btgstr = "Events Passing {0} btag WP".format(str(btagwp))
sbstr = "Events in side band"
cfdict = {metstr:{},zptstr:{},hptstr:{},btgstr:{},sbstr:{},skimstr:{},trigstr:{},zrecostr:{},hrecostr:{}}
totorig = 0
