d5/d4a/Jet_8py_source.html

 from builtins import range

 from PhysicsTools.Heppy.physicsobjects.PhysicsObject import *

 from PhysicsTools.HeppyCore.utils.deltar import deltaPhi

 import math


 loose_WP = [

     (0, 2.5, -0.8),

     (2.5, 2.75, -0.74),

     (2.75, 3.0, -0.68),

     (3.0, 5.0, -0.77),

     ]


 # Working point 2 May 2013 (Phil via H2tau list)

 loose_53X_WP = [

     (0, 2.5, -0.63),

     (2.5, 2.75, -0.60),

     (2.75, 3.0, -0.55),

     (3.0, 5.2, -0.45),

     ]


 _btagWPs = {

     "TCHEL": ("pfTrackCountingHighEffBJetTags", 1.7),

     "TCHEM": ("pfTrackCountingHighEffBJetTags", 3.3),

     "TCHPT": ("pfTrackCountingHighPurBJetTags", 3.41),

     "JPL": ("pfJetProbabilityBJetTags", 0.275),

     "JPM": ("pfJetProbabilityBJetTags", 0.545),

     "JPT": ("pfJetProbabilityBJetTags", 0.790),

     "CSVL": ("combinedSecondaryVertexBJetTags", 0.244),

     "CSVM": ("combinedSecondaryVertexBJetTags", 0.679),

     "CSVT": ("combinedSecondaryVertexBJetTags", 0.898),

 ###https://twiki.cern.ch/twiki/bin/viewauth/CMS/BtagRecommendation74X50ns

     "CMVAL": ("pfCombinedMVABJetTags", 0.630), # for same b-jet efficiency of CSVv2IVFL on ttbar MC, jet pt > 30

     "CMVAM": ("pfCombinedMVABJetTags", 0.732), # for same b-jet efficiency of CSVv2IVFM on ttbar MC, jet pt > 30

     "CMVAT": ("pfCombinedMVABJetTags", 0.813), # for same b-jet efficiency of CSVv2IVFT on ttbar MC, jet pt > 30

     "CMVAv2M": ("pfCombinedMVAV2BJetTags", 0.185), # for same b-jet efficiency of CSVv2IVFM on ttbar MC, jet pt > 30

 ###https://twiki.cern.ch/twiki/bin/viewauth/CMS/BtagRecommendation80X

     "CSVv2IVFL": ("pfCombinedInclusiveSecondaryVertexV2BJetTags", 0.460),

     "CSVv2IVFM": ("pfCombinedInclusiveSecondaryVertexV2BJetTags", 0.800),

     "CSVv2IVFT": ("pfCombinedInclusiveSecondaryVertexV2BJetTags", 0.935),

     "CMVAv2L": ("pfCombinedMVAV2BJetTags", -0.715), # for same b-jet efficiency of CSVv2IVFL on ttbar MC, jet pt > 30

     "CMVAv2M": ("pfCombinedMVAV2BJetTags", 0.185),  # for same b-jet efficiency of CSVv2IVFM on ttbar MC, jet pt > 30

     "CMVAv2T": ("pfCombinedMVAV2BJetTags", 0.875),  # for same b-jet efficiency of CSVv2IVFT on ttbar MC, jet pt > 30


 }


 class Jet(PhysicsObject):

     def __init__(self, *args, **kwargs):

         super(Jet, self).__init__(*args, **kwargs)

         self._physObjInit()


     def _physObjInit(self):

         self._rawFactorMultiplier = 1.0

         self._recalibrated = False

         self._leadingTrack = None

         self._leadingTrackSearched = False


     def rawEnergy(self):

         return self.energy() * self.rawFactor()


     # these energy fraction methods need to be redefined here

     # because the pat::Jet's currentJECLevel data member cannot be update easily by the calibrator

     # and then the C++ methods would be broken when new jet corrections are applied in Heppy

     def chargedEmEnergyFraction(self):

         return self.chargedEmEnergy()/self.rawEnergy()


     def chargedHadronEnergyFraction(self):

         return self.chargedHadronEnergy()/self.rawEnergy()


     def chargedMuEnergyFraction(self):

         return self.chargedMuEnergy()/self.rawEnergy()


     def electronEnergyFraction(self):

         return self.electronEnergy()/self.rawEnergy()


     def muonEnergyFraction(self):

         return self.muonEnergy()/self.rawEnergy()


     def neutralEmEnergyFraction(self):

         return self.neutralEmEnergy()/self.rawEnergy()


     def neutralHadronEnergyFraction(self):

         return self.neutralHadronEnergy()/self.rawEnergy()


     def photonEnergyFraction(self):

         return self.photonEnergy()/self.rawEnergy()


     def HFHadronEnergyFraction(self):

         return self.HFHadronEnergy()/self.rawEnergy()


     def HFEMEnergyFraction(self):

         return self.HFEMEnergy()/self.rawEnergy()


     def hoEnergyFraction(self):

         return self.hoEnergy()/self.rawEnergy()


     def jetID(self,name=""):

         if not self.isPFJet():

             raise RuntimeError("jetID implemented only for PF Jets")

         eta = abs(self.eta());

         energy = self.rawEnergy();

         chf = self.chargedHadronEnergy()/energy;

         nhf = self.neutralHadronEnergy()/energy;

         phf = self.neutralEmEnergy()/energy;

         muf = self.muonEnergy()/energy;

         elf = self.chargedEmEnergy()/energy;

         chm = self.chargedHadronMultiplicity();

         npr = self.chargedMultiplicity() + self.neutralMultiplicity();

         npn = self.neutralMultiplicity();

         #if npr != self.nConstituents():

         #    import pdb; pdb.set_trace()

         if name == "POG_PFID":


             if   self.jetID("PAG_monoID_Tight") and self.jetID("POG_PFID_Tight") : return 5;

             if   self.jetID("PAG_monoID_Loose") and self.jetID("POG_PFID_Tight") : return 4;

             if   self.jetID("POG_PFID_Tight")  : return 3;

             #elif self.jetID("POG_PFID_Medium") : return 2;  commented this line because this working point doesn't exist anymore (as 12/05/15)

             elif self.jetID("POG_PFID_Loose")  : return 1;

             else                               : return 0;


         # jetID from here: https://twiki.cern.ch/twiki/bin/viewauth/CMS/JetID#Recommendations_for_13_TeV_data

         if name == "POG_PFID_Loose":    return ((eta<3.0 and ((npr>1 and phf<0.99 and nhf<0.99) and (eta>2.4 or (elf<0.99 and chf>0 and chm>0)))) or (eta>3.0 and (phf<0.90 and npn>10)));

         if name == "POG_PFID_Medium":   return (npr>1 and phf<0.95 and nhf<0.95 and muf < 0.8) and (eta>2.4 or (elf<0.99 and chf>0 and chm>0));

         if name == "POG_PFID_Tight":    return ((eta<3.0 and ((npr>1 and phf<0.90 and nhf<0.90) and (eta>2.4 or (elf<0.99 and chf>0 and chm>0)))) or (eta>3.0 and (phf<0.90 and npn>10)));

         if name == "VBFHBB_PFID_Loose":  return (npr>1 and phf<0.99 and nhf<0.99);

         if name == "VBFHBB_PFID_Medium": return (npr>1 and phf<0.99 and nhf<0.99) and ((eta<=2.4 and nhf<0.9 and phf<0.9 and elf<0.99 and muf<0.99 and chf>0 and chm>0) or eta>2.4);

         if name == "VBFHBB_PFID_Tight":  return (npr>1 and phf<0.99 and nhf<0.99) and ((eta<=2.4 and nhf<0.9 and phf<0.9 and elf<0.70 and muf<0.70 and chf>0 and chm>0) or eta>2.4);

         if name == "PAG_monoID_Loose":    return (eta<3.0 and chf>0.05 and nhf<0.7 and phf<0.8);

         if name == "PAG_monoID_Tight":    return (eta<3.0 and chf>0.2 and nhf<0.7 and phf<0.7);


         raise RuntimeError("jetID '%s' not supported" % name)


     def looseJetId(self):

         '''PF Jet ID (loose operation point) [method provided for convenience only]'''

         return self.jetID("POG_PFID_Loose")


     def puMva(self, label="pileupJetId:fullDiscriminant"):

         if self.hasUserFloat(label):

             return self.userFloat(label)

         return -99


     def puJetId(self, label="pileupJetId:fullDiscriminant"):

         '''Full mva PU jet id'''


         puMva = self.puMva(label)

         wp = loose_53X_WP

         eta = abs(self.eta())


         for etamin, etamax, cut in wp:

             if not(eta>=etamin and eta<etamax):

                 continue

             return puMva>cut

         return -99


     def rawFactor(self):

         return self.jecFactor('Uncorrected') * self._rawFactorMultiplier


     def setRawFactor(self, factor):

         self._rawFactorMultiplier = factor/self.jecFactor('Uncorrected')


     def corrFactor(self):

         return 1.0/self.rawFactor()


     def setCorrP4(self,newP4):

         self._recalibrated = True

         corr = newP4.Pt() / (self.pt() * self.rawFactor())

         self.setP4(newP4);

         self.setRawFactor(1.0/corr);


     def l1corrFactor(self):

         if hasattr(self, 'CorrFactor_L1'):

             return self.CorrFactor_L1

         if self._recalibrated:

             raise RuntimeError("The jet was recalibrated, but without calculateSeparateCorrections. L1 is not available")

         jecLevels = self.physObj.availableJECLevels()

         for level in jecLevels:

             if "L1" in level:

                 return self.physObj.jecFactor(level)/self.physObj.jecFactor('Uncorrected')

         return 1.0 # Jet does not have any L1 correction


     def btag(self,name):

         ret = self.bDiscriminator(name)

         if ret == -1000 and name.startswith("pf"):

             ret = self.bDiscriminator(name[2].lower()+name[3:])

         return ret


     def btagWP(self,name):

         global _btagWPs

         (disc,val) = _btagWPs[name]

         return self.btag(disc) > val


     def leadingTrack(self):

         if self._leadingTrackSearched :

             return self._leadingTrack

         self._leadingTrackSearched = True

         self._leadingTrack =  max( self.daughterPtrVector() , key = lambda x : x.pt() if  x.charge()!=0 else 0. )

         if self._leadingTrack.charge()==0: #in case of "all neutral"

             self._leadingTrack = None

         return self._leadingTrack


     def leadTrackPt(self):

         lt=self.leadingTrack()

         if lt :

             return lt.pt()

         else :

             return 0.

     def qgl(self) :

         if not hasattr(self,"qgl_value") :

             if hasattr(self,"qgl_rho") : #check if qgl calculator is configured

                 self.computeQGvars()

                 self.qgl_value=self.qgl_calc(self,self.qgl_rho)

             else :

                 self.qgl_value=-1. #if no qgl calculator configured


         return self.qgl_value


     def computeQGvars(self):

         #return immediately if qgvars already computed or if qgl is disabled

         if not hasattr(self,"qgl_rho") or getattr(self,"hasQGVvars",False) :

             return self

         self.hasQGvars = True


         jet = self

         jet.mult = 0

         sum_weight = 0.

         sum_pt = 0.

         sum_deta = 0.

         sum_dphi = 0.

         sum_deta2 = 0.

         sum_detadphi = 0.

         sum_dphi2 = 0.


         for ii in range(0, jet.numberOfDaughters()) :


             part = jet.daughter(ii)


             if part.charge() == 0 : # neutral particles


                 if part.pt() < 1.: continue


             else : # charged particles


                 if part.trackHighPurity()==False: continue

                 if part.fromPV()<=1: continue


             jet.mult += 1


             deta = part.eta() - jet.eta()

             dphi = deltaPhi(part.phi(), jet.phi())

             partPt = part.pt()

             weight = partPt*partPt

             sum_weight += weight

             sum_pt += partPt

             sum_deta += deta*weight

             sum_dphi += dphi*weight

             sum_deta2 += deta*deta*weight

             sum_detadphi += deta*dphi*weight

             sum_dphi2 += dphi*dphi*weight


         a = 0.

         b = 0.

         c = 0.


         if sum_weight > 0 :

             jet.ptd = math.sqrt(sum_weight)/sum_pt

             ave_deta = sum_deta/sum_weight

             ave_dphi = sum_dphi/sum_weight

             ave_deta2 = sum_deta2/sum_weight

             ave_dphi2 = sum_dphi2/sum_weight

             a = ave_deta2 - ave_deta*ave_deta

             b = ave_dphi2 - ave_dphi*ave_dphi

             c = -(sum_detadphi/sum_weight - ave_deta*ave_dphi)

         else: jet.ptd = 0.


         delta = math.sqrt(math.fabs((a-b)*(a-b)+4.*c*c))


         if a+b-delta > 0: jet.axis2 = -math.log(math.sqrt(0.5*(a+b-delta)))

         else: jet.axis2 = -1.

         return jet


 class GenJet( PhysicsObject):

     pass


Jet.Jet.puMva
def puMva
Definition: Jet.py:139

Jet.Jet.looseJetId
def looseJetId
Definition: Jet.py:135

Jet.Jet.neutralEmEnergyFraction
def neutralEmEnergyFraction
Definition: Jet.py:78

Jet.Jet.chargedEmEnergyFraction
def chargedEmEnergyFraction
Definition: Jet.py:63

Jet.Jet.puJetId
def puJetId
Definition: Jet.py:144

Jet.Jet._leadingTrack
_leadingTrack
Definition: Jet.py:54

Jet.Jet.setRawFactor
def setRawFactor
Definition: Jet.py:160

Jet.Jet.photonEnergyFraction
def photonEnergyFraction
Definition: Jet.py:84

Jet.Jet.btag
def btag
Definition: Jet.py:183

Jet.Jet._recalibrated
_recalibrated
Definition: Jet.py:53

Jet.Jet.qgl
def qgl
Definition: Jet.py:209

Jet.Jet._physObjInit
def _physObjInit
Definition: Jet.py:51

srCondWrite_cfg.deltaPhi
tuple deltaPhi
Definition: srCondWrite_cfg.py:54

Jet.Jet.l1corrFactor
def l1corrFactor
Definition: Jet.py:172

Jet.Jet._rawFactorMultiplier
_rawFactorMultiplier
Definition: Jet.py:52

sistrip::SpyUtilities::range
const uint16_t range(const Frame &aFrame)
Definition: SiStripSpyUtilities.cc:76

Jet.Jet.leadingTrack
def leadingTrack
Definition: Jet.py:194

Jet.Jet.qgl_value
qgl_value
Definition: Jet.py:213

Jet.Jet.chargedMuEnergyFraction
def chargedMuEnergyFraction
Definition: Jet.py:69

deltar

Jet.Jet.rawEnergy
def rawEnergy
Definition: Jet.py:57

Jet.Jet.__init__
def __init__
Definition: Jet.py:47

funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

Jet.Jet.neutralHadronEnergyFraction
def neutralHadronEnergyFraction
Definition: Jet.py:81

Jet.Jet.computeQGvars
def computeQGvars
Definition: Jet.py:219

Jet.Jet.jetID
def jetID
Definition: Jet.py:99

SiStripPI::max
Definition: SiStripPayloadInspectorHelper.h:169

PhysicsObject
Definition: PhysicsObject.py:1

Jet.GenJet
Definition: Jet.py:291

Jet.Jet.leadTrackPt
def leadTrackPt
Definition: Jet.py:203

Jet.Jet.HFHadronEnergyFraction
def HFHadronEnergyFraction
Definition: Jet.py:88

Jet.Jet.HFEMEnergyFraction
def HFEMEnergyFraction
Definition: Jet.py:91

Jet.Jet.corrFactor
def corrFactor
Definition: Jet.py:163

Jet.Jet.hasQGvars
hasQGvars
Definition: Jet.py:223

PhysicsObject

Jet.Jet.electronEnergyFraction
def electronEnergyFraction
Definition: Jet.py:72

Jet.Jet.setCorrP4
def setCorrP4
Definition: Jet.py:166

Jet.Jet._leadingTrackSearched
_leadingTrackSearched
Definition: Jet.py:55

Jet.Jet.rawFactor
def rawFactor
Definition: Jet.py:157

Jet.Jet.hoEnergyFraction
def hoEnergyFraction
Definition: Jet.py:94

Jet.Jet.chargedHadronEnergyFraction
def chargedHadronEnergyFraction
Definition: Jet.py:66

Jet.Jet.btagWP
def btagWP
Definition: Jet.py:189

Jet.Jet.muonEnergyFraction
def muonEnergyFraction
Definition: Jet.py:75

Jet.Jet
Definition: Jet.py:46