CMSSW/EgammaAnalysis/ElectronTools/python/calibratedElectrons_cfi.py
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 

import FWCore.ParameterSet.Config as cms
import RecoEgamma.EgammaTools.calibratedElectronProducer_cfi  as _mod

#==============================================================================
# corrected pat electrons
#==============================================================================

calibratedElectrons = _mod.calibratedElectronProducer.clone(

    # input collections
    inputElectronsTag = cms.InputTag('gsfElectrons'),
    # name of the ValueMaps containing the regression outputs                               
    nameEnergyReg = cms.InputTag('eleRegressionEnergy:eneRegForGsfEle'),
    nameEnergyErrorReg = cms.InputTag('eleRegressionEnergy:eneErrorRegForGsfEle'),

    outputGsfElectronCollectionLabel = cms.string('calibratedGsfElectrons'),
    # For conveniency  the ValueMaps are re-created with the new collection as key. The label of the ValueMap are defined below
    nameNewEnergyReg = cms.string('eneRegForGsfEle'),
    nameNewEnergyErrorReg  = cms.string('eneErrorRegForGsfEle'),                                     
                                         
    # data or MC corrections
    # if isMC is false, data corrections are applied
    isMC = cms.bool(False),
    
    # set to True to get more printout   
    verbose = cms.bool(False),

    # set to True to get special "fake" smearing for synchronization. Use JUST in case of synchronization
    synchronization = cms.bool(False),

    updateEnergyError = cms.bool(True),

    # define the type of the scale corrections 
    # described in details here: 
    # https://twiki.cern.ch/twiki/bin/viewauth/CMS/EgammaElectronEnergyScale#Electron_energy_scale_and_resolu
    correctionsType = cms.int32(2),
    # Apply or not the linearity correction on data
    # Can only be applied with combinationType = 3
    applyLinearityCorrection = cms.bool(True),
    # define the type of the E-p combination 
    # described in details here: 
    # https://twiki.cern.ch/twiki/bin/viewauth/CMS/EgammaElectronEnergyScale#Electron_energy_scale_and_resolu
    combinationType = cms.int32(3),
    
    # this variable is used only for Moriond 2013 analysis with old regression
    # see https://twiki.cern.ch/twiki/bin/viewauth/CMS/EgammaElectronEnergyScale#Electron_energy_scale_and_re_AN1
    # for the meaning
    lumiRatio = cms.double(0.0),
   
    # input datasets
    # Prompt means May10+Promptv4+Aug05+Promptv6 for 2011
    # ReReco means Jul05+Aug05+Oct03 for 2011
    # Jan16ReReco means Jan16 for 2011
    # Summer11 means summer11 MC
    # etc.
    inputDataset = cms.string("22Jan2013ReReco"),
    
    # input pathes should be set accordingly to the combinationType and regressionType
    combinationRegressionInputPath = cms.string("EgammaAnalysis/ElectronTools/data/eleEnergyRegWeights_WithSubClusters_VApr15.root"),
    scaleCorrectionsInputPath = cms.string("EgammaAnalysis/ElectronTools/data/scalesNewReg-May2013.csv"),
    linearityCorrectionsInputPath = cms.string("EgammaAnalysis/ElectronTools/data/linearityNewReg-May2013.csv")
)