source: git/python/DelphesAnalysis/Delphes.py@ e57c062

import ROOT
import libPyROOT as _root
ROOT.gSystem.Load("libDelphes")

#####################################################
### Definition of the string conversion methods   ###
#####################################################

def _Event__str__( self ):
  theString = "Event number %i\n" % self.Number
  theString += "Read in %f and processed in %f.\n" % (self.ReadTime, self.ProcTime)
  return theString

_root.MakeRootClass( "Event" ).__str__    = _Event__str__

def _LHCOEvent__str__( self ):
  theString = "Trigger word: %b\n" % self.Trigger
  return theString

_root.MakeRootClass( "LHCOEvent" ).__str__    = _LHCOEvent__str__

def _LHEFEvent__str__( self ):
  hepmcstr = "Process ID: %i\n" % self.ProcessID
  hepmcstr += "ScalePDF = %f\n" % self.ScalePDF
  hepmcstr += "Alpha QED = %f\n" % self.AlphaQED
  hepmcstr += "Alpha DCQ = %f\n" % self.AlphaQCD
  hepmcstr += "Event weight = %f\n" % self.Weight
  return hepmcstr

_root.MakeRootClass( "LHEFEvent" ).__str__    = _LHEFEvent__str__

def _HepMCEvent__str__( self ):
  hepmcstr = "Process ID: %i\n" % self.ProcessID
  hepmcstr += "Energy scale: %f\n" % self.Scale
  hepmcstr += "Alpha QED = %f\n" % self.AlphaQED
  hepmcstr += "Alpha QCD = %f\n" % self.AlphaQCD
  hepmcstr += "Number of multi parton interactions: %f\n" % self.MPI
  hepmcstr += """Q-scale used in evaluation of PDFs (in GeV): %f\n""" % self.ScalePDF
  hepmcstr += """Fraction of beam momentum carried by %i parton ("beam side"): %f\n""" % (self.ID1,self.X1)
  hepmcstr += """Fraction of beam momentum carried by %i parton ("target side"): %f\n""" % (self.ID2,self.X2)
  hepmcstr += "PDF (id1, x1, Q) = %f\n" % self.PDF1 
  hepmcstr += "PDF (id2, x2, Q) = %f\n" % self.PDF2 
  return hepmcstr

_root.MakeRootClass( "HepMCEvent" ).__str__    = _HepMCEvent__str__

def _GenParticle__str__( self ):
  thestring =  "Particle HEP ID number = %d\n" % self.PID
  thestring += "Particle status: %d\n" % self.Status
  if self.IsPU: thestring += "That particle is from PU.\n"
  thestring += "Particle 1st mother: %d\n" % self.M1
  thestring += "Particle 2nd mother: %d\n" % self.M2
  thestring += "Particle 1st daughter: %d\n" % self.D1
  thestring += "Particle last daughter: %d\n" % self.D2
  thestring += "(Px,Py,Pz,E) = (%f,%f,%f,%f)\n" % (self.Px,self.Py,self.Pz,self.E)
  thestring += "(Pt,Eta,Phi) = (%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  thestring += "Rapidity = %f\n" % self.Rapidity
  thestring += "Charge: %d\n" % self.Charge
  thestring += "Mass: %f\n" % self.Mass
  thestring += "Vertex position: (x,y,z,t) = (%f,%f,%f,%f)\n" % (self.X,self.Y,self.Z,self.T)
  return thestring

_root.MakeRootClass( "GenParticle" ).__str__    = _GenParticle__str__

def _GenParticle_printDecay( self, db, particles, pre="" ):
  thestring = "%s (%f,%f,%f,%f) (status %d)\n" % (db.GetParticle(self.PID).GetName(),self.Px,self.Py,self.Pz,self.E, self.Status)
  for daughter in range(self.D1,self.D2+1):
    if daughter==-1: break
    if daughter<self.D2 : thestring += "%s+->%s" % (pre,particles.At(daughter).printDecay(db,particles,pre+"|   "))
    else: thestring += "%s+->%s" % (pre,particles.At(daughter).printDecay(db,particles,pre+"    "))
  return thestring

_root.MakeRootClass( "GenParticle" ).printDecay = _GenParticle_printDecay

def _MissingET__str__( self ):
  thestring =  "Mising transverse energy: %f\n" % self.MET
  thestring += "Mising energy azimuthal angle: %f\n" % self.Phi
  return thestring
 
_root.MakeRootClass( "MissingET" ).__str__    = _MissingET__str__

def _ScalarHT__str__( self ):
  thestring = "Scalar sum of transverse momenta: %f\n" %self.HT

_root.MakeRootClass( "ScalarHT" ).__str__    = _ScalarHT__str__

def _Photon__str__( self ):
  thestring = "(Pt,Eta,Phi) =(%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  return thestring

_root.MakeRootClass( "Photon" ).__str__    = _Photon__str__

def _Electron__str__( self ):
  thestring = "(Pt,Eta,Phi) =(%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  thestring += "charge: %d\n" % self.Charge
  return thestring 

_root.MakeRootClass( "Electron" ).__str__    = _Electron__str__

def _Muon__str__( self ):
  thestring = "(Pt,Eta,Phi) =(%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  thestring += "charge: %d\n" % self.Charge
  return thestring 

_root.MakeRootClass( "Muon" ).__str__    = _Muon__str__

def _Jet__str__( self ):
  thestring = "(Pt,Eta,Phi) =(%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  thestring += "Charge: %d\n" % self.Charge
  thestring += "Mass: %f\n" % self.Mass
  if self.BTag: thestring += "This jet is b-tagged.\n"
  if self.TauTag: thestring += "This jet is tagged as a tau-jet.\n" 
  thestring += "Jet radius in (eta,phi) = (%f,%f)\n" % (self.DeltaEta,self.DeltaPhi)
  thestring += "Number of constituents: %d\n" % self.Constituents.GetEntries()
  thestring += "H/E ratio in the calorimeters: %f\n" % self.EhadOverEem
  nch = 0
  ech = 0.
  for constit in self.Constituents:
    if constit.Charge != 0:
      fourvector = ROOT.TLorentzVector()
      fourvector.SetPtEtaPhiM(constit.PT,constit.Eta,constit.Phi,0.)
      nch += 1
      ech += fourvector.E()
  thestring += "Charged Energy fraction: %f\n" % (ech/self.P4().E())
  thestring += "Charged Multiplicity: %d\n" % nch
  return thestring

_root.MakeRootClass( "Jet" ).__str__    = _Jet__str__

def _Track__str__( self ):
  thestring =  "Particle HEP ID number = %d\n" % self.PID
  thestring += "(Pt,Eta,Phi) = (%f,%f,%f)\n" % (self.PT,self.Eta,self.Phi)
  thestring += "Charge: %d\n" % self.Charge
  thestring += "At calorimeter surface: (Pt,Eta,Phi) = (%f,%f,%f)\n" % (self.PT,self.EtaOuter,self.PhiOuter)
  thestring += "Vertex position: (x,y,z) = (%f,%f,%f)\n" % (self.X,self.Y,self.Z)
  thestring += "Position at calorimer surface: (x,y,z) = (%f,%f,%f)\n" % (self.XOuter,self.YOuter,self.ZOuter)
  return thestring 

_root.MakeRootClass( "Track" ).__str__    = _Track__str__

def _Tower__str__( self):
  thestring  = "(Et,Eta,Phi) = (%f,%f,%f)\n" % (self.ET,self.Eta,self.Phi)
  thestring += "(E,Eem,Ehad) = (%f,%f,%f)\n" % (tower.E,tower.Eem,tower.Ehad)
  thestring += "Edges: %f, %f, %f, %f\n" % (tower.Edges[0],tower.Edges[1],tower.Edges[2],tower.Edges[3])
  return thestring

_root.MakeRootClass( "Tower" ).__str__    = _Tower__str__

#####################################################
### Definition of additional ROOT methods         ###
#####################################################

def _lorentzVector__str__( self ):
  theString =  "(pt, eta, phi) = (%f,%f,%f)\n" % (self.Pt(), self.Eta(), self.Phi())
  theString += "mass = %f, p = %f, mt = %f\n"  % (self.M(), self.P(), self.Mt())
  return theString

_root.MakeRootClass( "TLorentzVector" ).__str__    = _lorentzVector__str__