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import math
import ROOT
from ROOT import gSystem, TH2F, gStyle
from DataFormats.FWLite import Events, Handle
from PhysicsTools.PythonAnalysis import *
#import print_options
#print_options.set_float_precision(4)
gSystem.Load("libFWCoreFWLite.so")
ROOT.FWLiteEnabler.enable()
#import EcalDetId
#from DataFormats.EcalDetId import *
#
import sys,os
allRecHits=False
eventListPrint=False
lumi=-1
#lumi=247
eventNumbers=[
343500081,
343652254,
344326842,
344404776,
345023043,
344758536,
344533037,
343780994,
344736267,
344828101,
344846924,
344263362,
344466033,
343687292,
344102889,
344150484,
343978421,
344657593,
344966978,
345140483,
343618665,
344354767,
344911692]
#eventNumbers=[64944437] # evento con trackerDrivenEle
eventNumbers=[]
eventMin=-1
# for now look for events in two files with a given lumi section
maxEvents=-1
event_counter=0
for arg in sys.argv:
if(arg=='AOD'):
print("AOD")
file="/tmp/"+os.environ["USER"]+"/rereco30Nov-AOD.root"
file_format="AOD"
break
elif(arg=='AlcaFromAOD'):
print("AlcaFromAOD")
file="/tmp/"+os.environ["USER"]+"/AlcarecoFromAOD.root"
file_format="AlcaFromAOD"
break
elif(arg=='AlcaFromAOD-recalib'):
print("AlcaFromAOD-recalib")
file="/tmp/"+os.environ["USER"]+"/AlcarecoFromAOD-recalib.root"
file_format="AlcaFromAOD_Recalib"
break
elif(arg=='sandbox'):
print('sandbox')
# file="/tmp/"+os.environ["USER"]+"/sandbox.root"
# file="/tmp/"+os.environ["USER"]+"/alcaRecoSkim-2.root"
file="./scratch/sandbox.root"
#file="/tmp/"+os.environ["USER"]+"/alcaSkimSandbox-noADCtoGeV.root"
file_format="sandbox"
#sandbox"
break
elif(arg=='sandboxRereco'):
print('sandbox recalib')
#file="/tmp/"+os.environ["USER"]+"/SANDBOX/sandboxRereco.root"
file="./alcaSkimSandbox1.root"
# file="root://eoscms//eos/cms/store/group/alca_ecalcalib/sandboxRecalib/7TeV/fromUncalib/rereco30Nov/DoubleElectron-RUN2011B-v1/sandboxRereco-007.root"
file_format="sandboxRecalib"
break
elif(arg=='RECO'):
print('RECO')
file="root://eoscms//eos/cms/store/data/Run2012A/DoubleElectron/RECO/PromptReco-v1/000/193/336/BC442450-7997-E111-8177-003048D3C90E.root"
# file="/tmp/"+os.environ["USER"]+"/SANDBOX/RAW-RECO.root"
file_format="RECO"
break
elif(arg=='MC'):
print('MC')
file="/tmp/"+os.environ["USER"]+"/MC-AODSIM.root"
file_format="AOD"
break
elif(arg=='ALCARECO'):
print('ALCARECO')
file="alcaSkimSandbox_numEvent10000.root"
# file="alcaSkimSandbox.root"
file_format="ALCARECO"
break
else:
continue
# exit(0)
# AOD
# sandbox
#file_format = "ALCARECO"
#file_format = 'sandbox'
#file_format = 'AOD'
#file_format = "AlcaFromAOD"
#file_format = "AlcaFromAOD_Recalib"
#file='./alcaRecoSkim.root'
# if(file_format == 'AOD'):
# file='/tmp/shervin/AOD.root'
# elif(file_format == 'AlcaFromAOD'):
# file='/tmp/shervin/alcaRecoSkimFromAOD.root'
# elif(file_format == 'AlcaFromAOD_Recalib'):
# file='/tmp/shervin/alcaRecoSkimFromAOD_Recalib.root'
# file='/tmp/shervin/alcaRecoSkimFromAOD_Recalib_IC_LC-2.root'
#file='./root/alcaRecoSkimFromAOD_LC_IC.root'
#file='./root/alcaRecoSkimFromAOD_Recalib_IC_LC.root'
#file='./root/alcaRecoSkimFromSandBox_Recalib.root'
#file='/tmp/shervin/alcaRecoSkim-1.root'
#file='/tmp/shervin/myAlcaRecoSkim.root'
print(file)
events = Events (file)
handleElectrons = Handle('std::vector<reco::GsfElectron>')
handleRecHitsEB = Handle('edm::SortedCollection<EcalRecHit,edm::StrictWeakOrdering<EcalRecHit> >')
handleRecHitsEE = Handle('edm::SortedCollection<EcalRecHit,edm::StrictWeakOrdering<EcalRecHit> >')
handleRecHitsES = Handle('edm::SortedCollection<EcalRecHit,edm::StrictWeakOrdering<EcalRecHit> >')
handleRhoFastJet = Handle('double')
if (file_format == 'ALCARECO'):
processName="ALCARECO"
electronTAG = 'gedGsfElectrons'
elif(file_format == 'sandboxRecalib'):
processName = "ALCARERECO"
electronTAG = 'electronRecalibSCAssociator'
# recHitsTAG = "alCaIsolatedElectrons"
elif(file_format == 'sandbox'):
processName = "ALCASKIM"
# electronTAG = 'electronRecalibSCAssociator'
electronTAG = 'gedGsfElectrons'
elif(file_format == "AOD"):
processName = "RECO"
electronTAG = 'gedGsfElectrons'
elif(file_format == "AlcaFromAOD"):
processName = "ALCASKIM"
electronTAG = 'gedGsfElectrons'
elif(file_format == "AlcaFromAOD_Recalib"):
electronTAG = 'electronRecalibSCAssociator'
processName = 'ALCASKIM'
elif(file_format == "RECO"):
electronTAG = "gedGsfElectrons"
processName = "RECO"
EErecHitmap_ele1 = TH2F("EErecHitmap_ele1", "EErecHitmap_ele1",
100,0,100,
100,0,100)
EBrecHitmap_ele1 = TH2F("EBrecHitmap_ele1", "EBrecHitmap_ele1",
171,-85,85,
360,0,360)
EErecHitmap_ele2 = TH2F("EErecHitmap_ele2", "EErecHitmap_ele2",
100,0,100,
100,0,100)
EBrecHitmap_ele2 = TH2F("EBrecHitmap_ele2", "EBrecHitmap_ele2",
171,-85,85,
360,0,360)
print(file_format, file, electronTAG, processName, maxEvents)
print("run lumi event isEB energy eSC rawESC e5x5 E_ES, etaEle, phiEle, etaSC, phiSC, clustersSize, nRecHits")
for event in events:
# if(event_counter % 100):
# print("[STATUS] event ", event_counter)
if(maxEvents > 0 and event_counter > maxEvents):
break
if(eventListPrint==True):
print(event.eventAuxiliary().run(), event.eventAuxiliary().luminosityBlock(), event.eventAuxiliary().event())
continue
#if(event.eventAuxiliary.run()== 145351895):
if lumi > 0 and int(event.eventAuxiliary().luminosityBlock()) != lumi :
continue
if(len(eventNumbers)>0 and not (event.eventAuxiliary().event() in eventNumbers)):
continue
# event.getByLabel(electronTAG, "", processName, handleElectrons)
event.getByLabel(electronTAG, handleElectrons)
# print(file_format, file, electronTAG )
electrons = handleElectrons.product()
if(file_format=="AOD"):
event.getByLabel("reducedEcalRecHitsEB", "", processName, handleRecHitsEB)
event.getByLabel("reducedEcalRecHitsEE", "", processName, handleRecHitsEE)
event.getByLabel("reducedEcalRecHitsES", "", processName, handleRecHitsES)
# print("##############", )
# rhoTAG=edm.InputTag()
# rhoTAG=("kt6PFJets","rho","RECO")
# event.getByLabel("kt6PFJets","rho","RECO",handleRhoFastJet)
# elif(file_format=="sandboxRecalib" or file_format=="RECO"):
elif(file_format=="RECO"):
event.getByLabel("ecalRecHit", "EcalRecHitsEB", processName, handleRecHitsEB)
event.getByLabel("ecalRecHit", "EcalRecHitsEE", processName, handleRecHitsEE)
elif(file_format=="ALCARECO" or file_format=="sandboxRecalib"):
event.getByLabel("alCaIsolatedElectrons", "alCaRecHitsEB", processName, handleRecHitsEB)
event.getByLabel("alCaIsolatedElectrons", "alCaRecHitsEE", processName, handleRecHitsEE)
# event.getByLabel("kt6PFJets","rho","RECO",handleRhoFastJet)
# event.getByLabel("reducedEcalRecHitsES", "", processName, handleRecHitsES)
# event.getByLabel("ecalRecHit", "EcalRecHitsES", processName, handleRecHitsES)
# elif(file_format=="sandbox"):
# event.getByLabel("ecalRecHit", "EcalRecHitsEB", processName, handleRecHitsEB)
# event.getByLabel("ecalRecHit", "EcalRecHitsEE", processName, handleRecHitsEE)
# else:
# print("Num of electrons: ",len(electrons))
if(len(electrons)>=2):
ele_counter=0
for electron in electrons:
if(not electron.ecalDrivenSeed()):
print("trackerDriven",)
# sys.exit(0)
electron.superCluster().energy()
# ESrecHits = handleRecHitsES.product()
# if(abs(electron.eta()) > 1.566):
# for ESrecHit in ESrecHits:
# if(eventNumber >0):
# esrecHit = ESDetId(ESrecHit.id().rawId())
# print(ESrecHit.id()(), esrecHit.strip(), esrecHit.six(), esrecHit.siy(), esrecHit.plane())
print("------------------------------")
if(not file_format=="sandbox"):
if(electron.isEB()):
recHits = handleRecHitsEB.product()
else:
recHits = handleRecHitsEE.product()
nRecHits=0
for recHit in recHits:
nRecHits=nRecHits+1
if(len(eventNumbers)==1):
if(electron.isEB()):
EBrecHit = EBDetId(recHit.id().rawId())
if(allRecHits):
if(ele_counter==0):
EBrecHitmap_ele1.Fill(EBrecHit.ieta(), EBrecHit.iphi(), recHit.energy());
elif(ele_counter==1):
EBrecHitmap_ele2.Fill(EBrecHit.ieta(), EBrecHit.iphi(), recHit.energy());
print(recHit.id()(), EBrecHit.ieta(), EBrecHit.iphi(), recHit.energy(), recHit.checkFlag(0))
else:
EErecHit = EEDetId(recHit.id().rawId())
if(allRecHits):
if(ele_counter==0):
EErecHitmap_ele1.Fill(EErecHit.ix(), EErecHit.iy(), recHit.energy());
elif(ele_counter==1):
EErecHitmap_ele2.Fill(EErecHit.ix(), EErecHit.iy(), recHit.energy());
print(recHit.id()(), EErecHit.ix(), EErecHit.iy(), recHit.energy())
hits = electron.superCluster().hitsAndFractions()
nRecHitsSC=0
for hit in hits:
nRecHitsSC=nRecHitsSC+1
if(len(eventNumbers)==1):
if(electron.isEB()):
EBrecHit = EBDetId(hit.first.rawId())
if(not allRecHits):
if(ele_counter==0):
EBrecHitmap_ele1.Fill(EBrecHit.ieta(), EBrecHit.iphi(), hit.second*electron.superCluster().energy());
elif(ele_counter==1):
EBrecHitmap_ele2.Fill(EBrecHit.ieta(), EBrecHit.iphi(), hit.second*electron.superCluster().energy());
print("SC", (hit.first).rawId(), (hit.first)(), EBrecHit.ieta(), EBrecHit.iphi(), EBrecHit.tower().iTT(), EBrecHit.ism(), EBrecHit.im())
else:
EErecHit = EEDetId(hit.first.rawId())
if(not allRecHits):
if(ele_counter==0):
EErecHitmap_ele1.Fill(EErecHit.ix(), EErecHit.iy(), recHit.energy());
elif(ele_counter==1):
EErecHitmap_ele2.Fill(EErecHit.ix(), EErecHit.iy(), recHit.energy());
# print("SC ", (hit.first)())
print(event.eventAuxiliary().run(), event.eventAuxiliary().luminosityBlock(), event.eventAuxiliary().event(),)
print("isEB=",electron.isEB(),)
print('{0:7.3f} {1:7.3f} {2:7.3f} {3:7.3f} {4:7.3f}'.format(electron.energy(), electron.superCluster().energy(), electron.superCluster().rawEnergy(), electron.e5x5(), electron.superCluster().preshowerEnergy()),)
print('{0:6.3f} {1:6.3f} {2:6.3f} {3:6.3f}'.format(electron.eta(), electron.phi(), electron.superCluster().eta(), electron.superCluster().phi()),)
print(electron.superCluster().clustersSize(), nRecHits, nRecHitsSC)
ele_counter+=1
event_counter+=1
print(event_counter)
# setting maps to -999
gStyle.SetPaintTextFormat("1.1f")
EBrecHitmap_ele1.SaveAs("EBrecHitmap_ele1.root")
EErecHitmap_ele1.SaveAs("EErecHitmap_ele1.root")
EBrecHitmap_ele2.SaveAs("EBrecHitmap_ele2.root")
EErecHitmap_ele2.SaveAs("EErecHitmap_ele2.root")
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