Mods/interface/PhotonIDMod.h

//--------------------------------------------------------------------------------------------------
// $Id: PhotonIDMod.h,v 1.26 2012/05/27 17:02:19 bendavid Exp $
//
// PhotonIDMod
//
// This module applies photon identification criteria and exports a pointer to a collection
// of "good photons" according to the specified identification scheme.
//
// Authors: S.Xie, C.Loizides
//--------------------------------------------------------------------------------------------------

#ifndef MITPHYSICS_MODS_PHOTONIDMOD_H
#define MITPHYSICS_MODS_PHOTONIDMOD_H

#include "MitAna/TreeMod/interface/BaseMod.h" 
#include "MitAna/DataTree/interface/PhotonFwd.h"
#include "MitAna/DataTree/interface/TrackCol.h"
#include "MitAna/DataTree/interface/BeamSpotCol.h"
#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
#include "MitAna/DataTree/interface/DecayParticleCol.h"
#include "MitAna/DataTree/interface/ElectronCol.h"
#include "MitAna/DataTree/interface/VertexCol.h"
#include "MitAna/DataTree/interface/DecayParticleCol.h"
#include "MitAna/DataTree/interface/PileupInfoCol.h"
#include "MitAna/DataTree/interface/MCParticleCol.h"
#include "MitAna/DataTree/interface/PFCandidateCol.h"

#include "MitPhysics/Utils/interface/MVATools.h"
#include "MitPhysics/Utils/interface/PhotonTools.h"

class TRandom3;

namespace mithep 
{
  class PhotonIDMod : public BaseMod
  {
    public:
      PhotonIDMod(const char *name="PhotonIDMod", 
                  const char *title="Photon identification module");

      Bool_t              GetApplySpikeRemoval()      const { return fApplySpikeRemoval;   }
      Bool_t              GetApplyPixelSeed()         const { return fApplyPixelSeed;      }
      const char         *GetGoodName()               const { return GetGoodPhotonsName(); }   
      const char         *GetGoodPhotonsName()        const { return fGoodPhotonsName;     }   
      Double_t            GetHadOverEmMax()           const { return fHadOverEmMax;        }
      const char         *GetIDType()                 const { return fPhotonIDType;        }
      const char         *GetInputName()              const { return fPhotonBranchName;    }   
      const char         *GetIsoType()                const { return fPhotonIsoType;       }
      const char         *GetOutputName()             const { return GetGoodPhotonsName(); }   
      Double_t            GetPtMin()                  const { return fPhotonPtMin;         }
      Bool_t              GetApplyFiduciality()       const { return fFiduciality;         }
      Double_t            GetEtaWidthEB()             const { return fEtaWidthEB;          }
      Double_t            GetEtaWidthEE()             const { return fEtaWidthEE;          }
      Double_t            GetAbsEtaMax()              const { return fAbsEtaMax;           }
      void                SetApplySpikeRemoval(Bool_t b)    { fApplySpikeRemoval  = b;     }
      void                SetApplyPixelSeed(Bool_t b)       { fApplyPixelSeed  = b;        }
      void                SetApplyElectronVeto(Bool_t b)    { fApplyElectronVeto = b;      }
      void                SetInvertElectronVeto(Bool_t b)   { fInvertElectronVeto = b;     }      
      void                SetApplyElectronVetoConvRecovery(Bool_t b) { fApplyElectronVetoConvRecovery = b; }
      void                SetApplyConversionId(Bool_t b)    { fApplyConversionId = b;      }
      void                SetApplyTriggerMatching(Bool_t b)      { fApplyTriggerMatching = b;  }      
      void                SetGoodName(const char *n)        { SetGoodPhotonsName(n);       }   
      void                SetGoodPhotonsName(const char *n) { fGoodPhotonsName = n;        }   
      void                SetHadOverEmMax(Double_t hoe)     { fHadOverEmMax    = hoe;      }
      void                SetIDType(const char *type)       { fPhotonIDType    = type;     }
      void                SetInputName(const char *n)       { fPhotonBranchName= n;        }   
      void                SetTrackName(const char *n)       { fTrackBranchName = n;        }   
      void                SetBeamspotName(const char *n)    { fBeamspotBranchName = n;     }   
      void                SetIsoType(const char *type)      { fPhotonIsoType   = type;     }
      void                SetOutputName(const char *n)      { SetGoodPhotonsName(n);       }    
      void                SetPtMin(Double_t pt)             { fPhotonPtMin     = pt;       }
      void                SetR9Min(Double_t x)              { fPhotonR9Min     = x;        }
      void                SetEtaWidthEB(Double_t x)         { fEtaWidthEB      = x;        }
      void                SetEtaWidthEE(Double_t x)         { fEtaWidthEE      = x;        }
      void                SetAbsEtaMax(Double_t x)          { fAbsEtaMax       = x;        }
      void                SetApplyR9Min(Bool_t b)           { fApplyR9Min      = b;        }
      void                SetApplyFiduciality(Bool_t b)     { fFiduciality = b;            }      
      void                SetEffAreas(Double_t ecal, Double_t hcal, Double_t track) { 
        fEffAreaEcalEE = ecal; fEffAreaHcalEE = hcal; fEffAreaTrackEE = track;
        fEffAreaEcalEB = ecal; fEffAreaHcalEB = hcal; fEffAreaTrackEB = track;
      }
      void                SetEffAreasEEEB(Double_t ecalEE, Double_t hcalEE, Double_t trackEE,
                                          Double_t ecalEB, Double_t hcalEB, Double_t trackEB) { 
        fEffAreaEcalEE = ecalEE; fEffAreaHcalEE = hcalEE; fEffAreaTrackEE = trackEE;
        fEffAreaEcalEB = ecalEB; fEffAreaHcalEB = hcalEB; fEffAreaTrackEB = trackEB;
      }
      void                SetTriggerObjectsName(const char *n)   { fTrigObjectsName = n;       }
    

    void                SetPhotonsFromBranch(bool b)           { fPhotonsFromBranch = b;           }

    void                SetPVName(const char *n)          { fPVName = n;                 }
    void                SetPVFromBranch(bool b)           { fPVFromBranch = b;           }
    void                SetIsData (Bool_t b) { fIsData = b;};


    void                SetShowerShapeType(const char *type) { fShowerShapeType        = type;    } 

        // methods to set the MC smearing/energy correction values
    void                AddEnCorrPerRun( UInt_t sRun, UInt_t eRun,
                                         Double_t corr_EBlowEta_hR9central,
                                         Double_t corr_EBlowEta_hR9gap,
                                         Double_t corr_EBlowEta_lR9,
                                         Double_t corr_EBhighEta_hR9,
                                         Double_t corr_EBhighEta_lR9,                                         
                                         Double_t corr_EElowEta_hR9,
                                         Double_t corr_EElowEta_lR9,
                                         Double_t corr_EEhighEta_hR9,
                                         Double_t corr_EEhighEta_lR9) {

      fDataEnCorr_EBlowEta_hR9central.push_back(corr_EBlowEta_hR9central);
      fDataEnCorr_EBlowEta_hR9gap.push_back(corr_EBlowEta_hR9gap);
      fDataEnCorr_EBlowEta_lR9.push_back(corr_EBlowEta_lR9);
      fDataEnCorr_EBhighEta_hR9.push_back(corr_EBhighEta_hR9);
      fDataEnCorr_EBhighEta_lR9.push_back(corr_EBhighEta_lR9);      
      fDataEnCorr_EElowEta_hR9.push_back(corr_EElowEta_hR9);
      fDataEnCorr_EElowEta_lR9.push_back(corr_EElowEta_lR9);      
      fDataEnCorr_EEhighEta_hR9.push_back(corr_EEhighEta_hR9);
      fDataEnCorr_EEhighEta_lR9.push_back(corr_EEhighEta_lR9);       
      fRunStart.push_back         (sRun);
      fRunEnd.push_back           (eRun);
    };

    void                SetMCSmearFactors(Double_t _EBlowEta_hR9central,
                                          Double_t _EBlowEta_hR9gap, 
                                          Double_t _EBlowEta_lR9,
                                          Double_t _EBhighEta_hR9, 
                                          Double_t _EBhighEta_lR9,
                                          Double_t _EElowEta_hR9, 
                                          Double_t _EElowEta_lR9,
                                          Double_t _EEhighEta_hR9,
                                          Double_t _EEhighEta_lR9) {
      fMCSmear_EBlowEta_hR9central = _EBlowEta_hR9central;
      fMCSmear_EBlowEta_hR9gap = _EBlowEta_hR9gap;
      fMCSmear_EBlowEta_lR9 = _EBlowEta_lR9;
      fMCSmear_EBhighEta_hR9 = _EBhighEta_hR9;
      fMCSmear_EBhighEta_lR9 = _EBhighEta_lR9;      
      fMCSmear_EElowEta_hR9 = _EElowEta_hR9;
      fMCSmear_EElowEta_lR9 = _EElowEta_lR9;
      fMCSmear_EEhighEta_hR9 = _EEhighEta_hR9;
      fMCSmear_EEhighEta_lR9 = _EEhighEta_lR9;      
    };

    void                SetGoodElectronsFromBranch(Bool_t b) { fGoodElectronsFromBranch = b; }
    void                SetGoodElectronName(TString name) { fGoodElectronName = name; }

    void                SetBdtCutBarrel(double a) {fbdtCutBarrel = a; }
    void                SetBdtCutEndcap(double a) {fbdtCutEndcap = a; }


    void                DoDataEneCorr(bool a)              { fDoDataEneCorr = a; }
    void                DoMCSmear(bool a)                  { fDoMCSmear     = a; }
    void                SetDoShowerShapeScaling(Bool_t b)  { fDoShowerShapeScaling = b; }

    // replaced by ShowerShapeScaling (fab)
/*     void                SetDoMCR9Scaling(Bool_t b)        { fDoMCR9Scaling = b; } */
/*     void                SetMCR9Scale(Double_t ebscale, Double_t eescale) { fMCR9ScaleEB = ebscale; fMCR9ScaleEE = eescale; } */
/*     void                SetDoMCSigIEtaIEtaScaling(Bool_t b)        { fDoMCSigIEtaIEtaScaling = b; } */
/*     void                SetDoMCWidthScaling(Bool_t b)        { fDoMCWidthScaling = b; } */

    void                SetDoMCErrScaling(Bool_t b)        { fDoMCErrScaling = b; }
    void                SetMCErrScale(Double_t ebscale, Double_t eescale) { fMCErrScaleEB = ebscale; fMCErrScaleEE = eescale; }

      enum EPhIdType {
        kIdUndef = 0,       //not defined
        kTight,             //"Tight"
        kLoose,             //"Loose"
        kLooseEM,           //"LooseEM"
        kBaseLineCiC,        //"2011" Hgg BaseLine CiC
        kBaseLineCiCPF,        //"2012" Hgg BaseLine CiC
        kMITMVAId,          // MingMing MVA ID
        kMITPhSelection,    //MIT loose preselection (for mva)
        kMITPFPhSelection,    //MIT loose preselection (for mva)
        kCustomId           //"Custom"
      };

      enum EPhIsoType {
        kIsoUndef = 0,      //not defined        
        kNoIso,             //"NoIso"
        kCombinedIso,       //"CombinedIso"
        kCustomIso,         //"Custom"
        kMITPUCorrected     //PileUp Corrected Hgg Isolation
      };

    protected:
      void                Process();
      void                SlaveBegin();

      Int_t               FindRunRangeIdx(UInt_t run);
      Double_t            GetDataEnCorr(Int_t runRange, PhotonTools::eScaleCats cat);
      Double_t            GetMCSmearFac(PhotonTools::eScaleCats cat);

      TString             fPhotonBranchName;     //name of photon collection (input)
      TString             fGoodPhotonsName;      //name of exported "good photon" collection
      TString             fTrackBranchName;      // name of the track collection (only needed for PU corrected isolation)
      TString             fBeamspotBranchName;   //name of the Beamspot collection (only needed for PU corrected isolation)
      TString             fPileUpDenName;        //name of the PU density collection      
      TString             fConversionName;       //name of conversion branch
      TString             fElectronName;
      TString             fGoodElectronName;
      TString             fTrigObjectsName;        //name of trigger object collection
      TString             fPVName;
      TString             fMCParticleName;
      TString             fPileUpName;
      TString             fPFCandsName;
      TString             fPhotonIDType;         //type of photon identification we impose
      TString             fPhotonIsoType;        //type of photon isolation we impose
      Double_t            fPhotonPtMin;          //min pt cut
      Double_t            fHadOverEmMax;         //maximum of hadronic/em energy
      Bool_t              fApplySpikeRemoval;    //whether apply spike removal      
      Bool_t              fApplyPixelSeed;       //=true then apply pixel seed constraint
      Bool_t              fApplyElectronVeto;    //=true then apply electron veto (with no conversion recovery)
      Bool_t              fInvertElectronVeto;    //=true then invert electron veto (for cic selection only atm)      
      Bool_t              fApplyElectronVetoConvRecovery; //=true then apply electron veto with conversion recovery
      Bool_t              fApplyConversionId;    //=true then apply conversion id cuts
      Bool_t              fApplyTriggerMatching;   //match to hlt photon (default=0)      
      Double_t            fPhotonR9Min;          //min R9 value
      EPhIdType           fPhIdType;             //!identification scheme
      EPhIsoType          fPhIsoType;            //!isolation scheme
      Bool_t              fFiduciality;          //=true then apply fiducual requirement

      Double_t            fEtaWidthEB;           //max Eta Width in ECAL Barrel
      Double_t            fEtaWidthEE;           //max Eta Width in ECAL End Cap
      Double_t            fAbsEtaMax;            //max Abs Eta
      Bool_t              fApplyR9Min;           //apply R9 min
      Double_t            fEffAreaEcalEE;
      Double_t            fEffAreaHcalEE;
      Double_t            fEffAreaTrackEE;
      Double_t            fEffAreaEcalEB;
      Double_t            fEffAreaHcalEB;
      Double_t            fEffAreaTrackEB;
      const PhotonCol    *fPhotons;              //!photon branch
      const TrackCol     *fTracks;               //!track branch
      const BeamSpotCol  *fBeamspots;            //!beamspot branch    
      const PileupEnergyDensityCol *fPileUpDen;  //!rho branch
      const DecayParticleCol *fConversions;      //!conversion branch
      const ElectronCol  *fElectrons;            //!electron branch
      const ElectronCol  *fGoodElectrons;        //!electron branch
      const VertexCol*    fPV;                   //!
      const MCParticleCol          *fMCParticles;//!
      const PileupInfoCol          *fPileUp;     //!  
      const PFCandidateCol          *fPFCands;     //!  

      Double_t fbdtCutBarrel;
      Double_t fbdtCutEndcap;
      int                         fVariableType;
      TString                     fEndcapWeights;
      TString                     fBarrelWeights;
      MVATools                    fTool;

      Bool_t fDoMCR9Scaling;
      Double_t fMCR9ScaleEB;
      Double_t fMCR9ScaleEE;
      
      Bool_t fDoMCSigIEtaIEtaScaling;
      Bool_t fDoMCWidthScaling;
      
      Bool_t fDoMCErrScaling;
      Double_t fMCErrScaleEB;
      Double_t fMCErrScaleEE;    

      Bool_t              fPhotonsFromBranch;
      Bool_t              fPVFromBranch;
      Bool_t              fGoodElectronsFromBranch;
      Bool_t              fIsData;


      // showershape
      TString                                fShowerShapeType;
      PhotonTools::ShowerShapeScales         fSSType;
      
      bool                  fDoDataEneCorr;
      bool                  fDoMCSmear;
      Bool_t                fDoShowerShapeScaling; 


      // Vectroes to hols smeraring/correction factors
      std::vector<Double_t> fDataEnCorr_EBlowEta_hR9central;
      std::vector<Double_t> fDataEnCorr_EBlowEta_hR9gap;
      std::vector<Double_t> fDataEnCorr_EBlowEta_lR9;
      std::vector<Double_t> fDataEnCorr_EBhighEta_hR9;
      std::vector<Double_t> fDataEnCorr_EBhighEta_lR9;    
      std::vector<Double_t> fDataEnCorr_EElowEta_hR9;
      std::vector<Double_t> fDataEnCorr_EElowEta_lR9;
      std::vector<Double_t> fDataEnCorr_EEhighEta_hR9;
      std::vector<Double_t> fDataEnCorr_EEhighEta_lR9;
      
      std::vector<UInt_t>   fRunStart;
      std::vector<UInt_t>   fRunEnd;
      
      Double_t              fMCSmear_EBlowEta_hR9central;
      Double_t              fMCSmear_EBlowEta_hR9gap;
      Double_t              fMCSmear_EBlowEta_lR9;
      Double_t              fMCSmear_EBhighEta_hR9;
      Double_t              fMCSmear_EBhighEta_lR9;    
      Double_t              fMCSmear_EElowEta_hR9;
      Double_t              fMCSmear_EElowEta_lR9;
      Double_t              fMCSmear_EEhighEta_hR9;
      Double_t              fMCSmear_EEhighEta_lR9;    

      TRandom3* fRng;


    ClassDef(PhotonIDMod, 1) // Photon identification module
  };
}
#endif
Revision:	1.27
Committed:	Tue Jul 24 11:41:22 2012 UTC (12 years, 9 months ago) by fabstoec
Content type:	text/plain
Branch:	MAIN
Changes since 1.26:	+104 -5 lines
Log Message:	outsourced Photon shower-shape scaling to PhotonTools
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: PhotonIDMod.h,v 1.26 2012/05/27 17:02:19 bendavid Exp $
3	//
4	// PhotonIDMod
5	//
6	// This module applies photon identification criteria and exports a pointer to a collection
7	// of "good photons" according to the specified identification scheme.
8	//
9	// Authors: S.Xie, C.Loizides
10	//--------------------------------------------------------------------------------------------------
11
12	#ifndef MITPHYSICS_MODS_PHOTONIDMOD_H
13	#define MITPHYSICS_MODS_PHOTONIDMOD_H
14
15	#include "MitAna/TreeMod/interface/BaseMod.h"
16	#include "MitAna/DataTree/interface/PhotonFwd.h"
17	#include "MitAna/DataTree/interface/TrackCol.h"
18	#include "MitAna/DataTree/interface/BeamSpotCol.h"
19	#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
20	#include "MitAna/DataTree/interface/DecayParticleCol.h"
21	#include "MitAna/DataTree/interface/ElectronCol.h"
22	#include "MitAna/DataTree/interface/VertexCol.h"
23	#include "MitAna/DataTree/interface/DecayParticleCol.h"
24	#include "MitAna/DataTree/interface/PileupInfoCol.h"
25	#include "MitAna/DataTree/interface/MCParticleCol.h"
26	#include "MitAna/DataTree/interface/PFCandidateCol.h"
27
28	#include "MitPhysics/Utils/interface/MVATools.h"
29	#include "MitPhysics/Utils/interface/PhotonTools.h"
30
31	class TRandom3;
32
33	namespace mithep
34	{
35	class PhotonIDMod : public BaseMod
36	{
37	public:
38	PhotonIDMod(const char *name="PhotonIDMod",
39	const char *title="Photon identification module");
40
41	Bool_t GetApplySpikeRemoval() const { return fApplySpikeRemoval; }
42	Bool_t GetApplyPixelSeed() const { return fApplyPixelSeed; }
43	const char *GetGoodName() const { return GetGoodPhotonsName(); }
44	const char *GetGoodPhotonsName() const { return fGoodPhotonsName; }
45	Double_t GetHadOverEmMax() const { return fHadOverEmMax; }
46	const char *GetIDType() const { return fPhotonIDType; }
47	const char *GetInputName() const { return fPhotonBranchName; }
48	const char *GetIsoType() const { return fPhotonIsoType; }
49	const char *GetOutputName() const { return GetGoodPhotonsName(); }
50	Double_t GetPtMin() const { return fPhotonPtMin; }
51	Bool_t GetApplyFiduciality() const { return fFiduciality; }
52	Double_t GetEtaWidthEB() const { return fEtaWidthEB; }
53	Double_t GetEtaWidthEE() const { return fEtaWidthEE; }
54	Double_t GetAbsEtaMax() const { return fAbsEtaMax; }
55	void SetApplySpikeRemoval(Bool_t b) { fApplySpikeRemoval = b; }
56	void SetApplyPixelSeed(Bool_t b) { fApplyPixelSeed = b; }
57	void SetApplyElectronVeto(Bool_t b) { fApplyElectronVeto = b; }
58	void SetInvertElectronVeto(Bool_t b) { fInvertElectronVeto = b; }
59	void SetApplyElectronVetoConvRecovery(Bool_t b) { fApplyElectronVetoConvRecovery = b; }
60	void SetApplyConversionId(Bool_t b) { fApplyConversionId = b; }
61	void SetApplyTriggerMatching(Bool_t b) { fApplyTriggerMatching = b; }
62	void SetGoodName(const char *n) { SetGoodPhotonsName(n); }
63	void SetGoodPhotonsName(const char *n) { fGoodPhotonsName = n; }
64	void SetHadOverEmMax(Double_t hoe) { fHadOverEmMax = hoe; }
65	void SetIDType(const char *type) { fPhotonIDType = type; }
66	void SetInputName(const char *n) { fPhotonBranchName= n; }
67	void SetTrackName(const char *n) { fTrackBranchName = n; }
68	void SetBeamspotName(const char *n) { fBeamspotBranchName = n; }
69	void SetIsoType(const char *type) { fPhotonIsoType = type; }
70	void SetOutputName(const char *n) { SetGoodPhotonsName(n); }
71	void SetPtMin(Double_t pt) { fPhotonPtMin = pt; }
72	void SetR9Min(Double_t x) { fPhotonR9Min = x; }
73	void SetEtaWidthEB(Double_t x) { fEtaWidthEB = x; }
74	void SetEtaWidthEE(Double_t x) { fEtaWidthEE = x; }
75	void SetAbsEtaMax(Double_t x) { fAbsEtaMax = x; }
76	void SetApplyR9Min(Bool_t b) { fApplyR9Min = b; }
77	void SetApplyFiduciality(Bool_t b) { fFiduciality = b; }
78	void SetEffAreas(Double_t ecal, Double_t hcal, Double_t track) {
79	fEffAreaEcalEE = ecal; fEffAreaHcalEE = hcal; fEffAreaTrackEE = track;
80	fEffAreaEcalEB = ecal; fEffAreaHcalEB = hcal; fEffAreaTrackEB = track;
81	}
82	void SetEffAreasEEEB(Double_t ecalEE, Double_t hcalEE, Double_t trackEE,
83	Double_t ecalEB, Double_t hcalEB, Double_t trackEB) {
84	fEffAreaEcalEE = ecalEE; fEffAreaHcalEE = hcalEE; fEffAreaTrackEE = trackEE;
85	fEffAreaEcalEB = ecalEB; fEffAreaHcalEB = hcalEB; fEffAreaTrackEB = trackEB;
86	}
87	void SetTriggerObjectsName(const char *n) { fTrigObjectsName = n; }
88
89
90	void SetPhotonsFromBranch(bool b) { fPhotonsFromBranch = b; }
91
92	void SetPVName(const char *n) { fPVName = n; }
93	void SetPVFromBranch(bool b) { fPVFromBranch = b; }
94	void SetIsData (Bool_t b) { fIsData = b;};
95
96
97	void SetShowerShapeType(const char *type) { fShowerShapeType = type; }
98
99	// methods to set the MC smearing/energy correction values
100	void AddEnCorrPerRun( UInt_t sRun, UInt_t eRun,
101	Double_t corr_EBlowEta_hR9central,
102	Double_t corr_EBlowEta_hR9gap,
103	Double_t corr_EBlowEta_lR9,
104	Double_t corr_EBhighEta_hR9,
105	Double_t corr_EBhighEta_lR9,
106	Double_t corr_EElowEta_hR9,
107	Double_t corr_EElowEta_lR9,
108	Double_t corr_EEhighEta_hR9,
109	Double_t corr_EEhighEta_lR9) {
110
111	fDataEnCorr_EBlowEta_hR9central.push_back(corr_EBlowEta_hR9central);
112	fDataEnCorr_EBlowEta_hR9gap.push_back(corr_EBlowEta_hR9gap);
113	fDataEnCorr_EBlowEta_lR9.push_back(corr_EBlowEta_lR9);
114	fDataEnCorr_EBhighEta_hR9.push_back(corr_EBhighEta_hR9);
115	fDataEnCorr_EBhighEta_lR9.push_back(corr_EBhighEta_lR9);
116	fDataEnCorr_EElowEta_hR9.push_back(corr_EElowEta_hR9);
117	fDataEnCorr_EElowEta_lR9.push_back(corr_EElowEta_lR9);
118	fDataEnCorr_EEhighEta_hR9.push_back(corr_EEhighEta_hR9);
119	fDataEnCorr_EEhighEta_lR9.push_back(corr_EEhighEta_lR9);
120	fRunStart.push_back (sRun);
121	fRunEnd.push_back (eRun);
122	};
123
124	void SetMCSmearFactors(Double_t _EBlowEta_hR9central,
125	Double_t _EBlowEta_hR9gap,
126	Double_t _EBlowEta_lR9,
127	Double_t _EBhighEta_hR9,
128	Double_t _EBhighEta_lR9,
129	Double_t _EElowEta_hR9,
130	Double_t _EElowEta_lR9,
131	Double_t _EEhighEta_hR9,
132	Double_t _EEhighEta_lR9) {
133	fMCSmear_EBlowEta_hR9central = _EBlowEta_hR9central;
134	fMCSmear_EBlowEta_hR9gap = _EBlowEta_hR9gap;
135	fMCSmear_EBlowEta_lR9 = _EBlowEta_lR9;
136	fMCSmear_EBhighEta_hR9 = _EBhighEta_hR9;
137	fMCSmear_EBhighEta_lR9 = _EBhighEta_lR9;
138	fMCSmear_EElowEta_hR9 = _EElowEta_hR9;
139	fMCSmear_EElowEta_lR9 = _EElowEta_lR9;
140	fMCSmear_EEhighEta_hR9 = _EEhighEta_hR9;
141	fMCSmear_EEhighEta_lR9 = _EEhighEta_lR9;
142	};
143
144	void SetGoodElectronsFromBranch(Bool_t b) { fGoodElectronsFromBranch = b; }
145	void SetGoodElectronName(TString name) { fGoodElectronName = name; }
146
147	void SetBdtCutBarrel(double a) {fbdtCutBarrel = a; }
148	void SetBdtCutEndcap(double a) {fbdtCutEndcap = a; }
149
150
151	void DoDataEneCorr(bool a) { fDoDataEneCorr = a; }
152	void DoMCSmear(bool a) { fDoMCSmear = a; }
153	void SetDoShowerShapeScaling(Bool_t b) { fDoShowerShapeScaling = b; }
154
155	// replaced by ShowerShapeScaling (fab)
156	/* void SetDoMCR9Scaling(Bool_t b) { fDoMCR9Scaling = b; } */
157	/* void SetMCR9Scale(Double_t ebscale, Double_t eescale) { fMCR9ScaleEB = ebscale; fMCR9ScaleEE = eescale; } */
158	/* void SetDoMCSigIEtaIEtaScaling(Bool_t b) { fDoMCSigIEtaIEtaScaling = b; } */
159	/* void SetDoMCWidthScaling(Bool_t b) { fDoMCWidthScaling = b; } */
160
161	void SetDoMCErrScaling(Bool_t b) { fDoMCErrScaling = b; }
162	void SetMCErrScale(Double_t ebscale, Double_t eescale) { fMCErrScaleEB = ebscale; fMCErrScaleEE = eescale; }
163
164	enum EPhIdType {
165	kIdUndef = 0, //not defined
166	kTight, //"Tight"
167	kLoose, //"Loose"
168	kLooseEM, //"LooseEM"
169	kBaseLineCiC, //"2011" Hgg BaseLine CiC
170	kBaseLineCiCPF, //"2012" Hgg BaseLine CiC
171	kMITMVAId, // MingMing MVA ID
172	kMITPhSelection, //MIT loose preselection (for mva)
173	kMITPFPhSelection, //MIT loose preselection (for mva)
174	kCustomId //"Custom"
175	};
176
177	enum EPhIsoType {
178	kIsoUndef = 0, //not defined
179	kNoIso, //"NoIso"
180	kCombinedIso, //"CombinedIso"
181	kCustomIso, //"Custom"
182	kMITPUCorrected //PileUp Corrected Hgg Isolation
183	};
184
185	protected:
186	void Process();
187	void SlaveBegin();
188
189	Int_t FindRunRangeIdx(UInt_t run);
190	Double_t GetDataEnCorr(Int_t runRange, PhotonTools::eScaleCats cat);
191	Double_t GetMCSmearFac(PhotonTools::eScaleCats cat);
192
193	TString fPhotonBranchName; //name of photon collection (input)
194	TString fGoodPhotonsName; //name of exported "good photon" collection
195	TString fTrackBranchName; // name of the track collection (only needed for PU corrected isolation)
196	TString fBeamspotBranchName; //name of the Beamspot collection (only needed for PU corrected isolation)
197	TString fPileUpDenName; //name of the PU density collection
198	TString fConversionName; //name of conversion branch
199	TString fElectronName;
200	TString fGoodElectronName;
201	TString fTrigObjectsName; //name of trigger object collection
202	TString fPVName;
203	TString fMCParticleName;
204	TString fPileUpName;
205	TString fPFCandsName;
206	TString fPhotonIDType; //type of photon identification we impose
207	TString fPhotonIsoType; //type of photon isolation we impose
208	Double_t fPhotonPtMin; //min pt cut
209	Double_t fHadOverEmMax; //maximum of hadronic/em energy
210	Bool_t fApplySpikeRemoval; //whether apply spike removal
211	Bool_t fApplyPixelSeed; //=true then apply pixel seed constraint
212	Bool_t fApplyElectronVeto; //=true then apply electron veto (with no conversion recovery)
213	Bool_t fInvertElectronVeto; //=true then invert electron veto (for cic selection only atm)
214	Bool_t fApplyElectronVetoConvRecovery; //=true then apply electron veto with conversion recovery
215	Bool_t fApplyConversionId; //=true then apply conversion id cuts
216	Bool_t fApplyTriggerMatching; //match to hlt photon (default=0)
217	Double_t fPhotonR9Min; //min R9 value
218	EPhIdType fPhIdType; //!identification scheme
219	EPhIsoType fPhIsoType; //!isolation scheme
220	Bool_t fFiduciality; //=true then apply fiducual requirement
221
222	Double_t fEtaWidthEB; //max Eta Width in ECAL Barrel
223	Double_t fEtaWidthEE; //max Eta Width in ECAL End Cap
224	Double_t fAbsEtaMax; //max Abs Eta
225	Bool_t fApplyR9Min; //apply R9 min
226	Double_t fEffAreaEcalEE;
227	Double_t fEffAreaHcalEE;
228	Double_t fEffAreaTrackEE;
229	Double_t fEffAreaEcalEB;
230	Double_t fEffAreaHcalEB;
231	Double_t fEffAreaTrackEB;
232	const PhotonCol *fPhotons; //!photon branch
233	const TrackCol *fTracks; //!track branch
234	const BeamSpotCol *fBeamspots; //!beamspot branch
235	const PileupEnergyDensityCol *fPileUpDen; //!rho branch
236	const DecayParticleCol *fConversions; //!conversion branch
237	const ElectronCol *fElectrons; //!electron branch
238	const ElectronCol *fGoodElectrons; //!electron branch
239	const VertexCol* fPV; //!
240	const MCParticleCol *fMCParticles;//!
241	const PileupInfoCol *fPileUp; //!
242	const PFCandidateCol *fPFCands; //!
243
244	Double_t fbdtCutBarrel;
245	Double_t fbdtCutEndcap;
246	int fVariableType;
247	TString fEndcapWeights;
248	TString fBarrelWeights;
249	MVATools fTool;
250
251	Bool_t fDoMCR9Scaling;
252	Double_t fMCR9ScaleEB;
253	Double_t fMCR9ScaleEE;
254
255	Bool_t fDoMCSigIEtaIEtaScaling;
256	Bool_t fDoMCWidthScaling;
257
258	Bool_t fDoMCErrScaling;
259	Double_t fMCErrScaleEB;
260	Double_t fMCErrScaleEE;
261
262	Bool_t fPhotonsFromBranch;
263	Bool_t fPVFromBranch;
264	Bool_t fGoodElectronsFromBranch;
265	Bool_t fIsData;
266
267
268	// showershape
269	TString fShowerShapeType;
270	PhotonTools::ShowerShapeScales fSSType;
271
272	bool fDoDataEneCorr;
273	bool fDoMCSmear;
274	Bool_t fDoShowerShapeScaling;
275
276
277	// Vectroes to hols smeraring/correction factors
278	std::vector<Double_t> fDataEnCorr_EBlowEta_hR9central;
279	std::vector<Double_t> fDataEnCorr_EBlowEta_hR9gap;
280	std::vector<Double_t> fDataEnCorr_EBlowEta_lR9;
281	std::vector<Double_t> fDataEnCorr_EBhighEta_hR9;
282	std::vector<Double_t> fDataEnCorr_EBhighEta_lR9;
283	std::vector<Double_t> fDataEnCorr_EElowEta_hR9;
284	std::vector<Double_t> fDataEnCorr_EElowEta_lR9;
285	std::vector<Double_t> fDataEnCorr_EEhighEta_hR9;
286	std::vector<Double_t> fDataEnCorr_EEhighEta_lR9;
287
288	std::vector<UInt_t> fRunStart;
289	std::vector<UInt_t> fRunEnd;
290
291	Double_t fMCSmear_EBlowEta_hR9central;
292	Double_t fMCSmear_EBlowEta_hR9gap;
293	Double_t fMCSmear_EBlowEta_lR9;
294	Double_t fMCSmear_EBhighEta_hR9;
295	Double_t fMCSmear_EBhighEta_lR9;
296	Double_t fMCSmear_EElowEta_hR9;
297	Double_t fMCSmear_EElowEta_lR9;
298	Double_t fMCSmear_EEhighEta_hR9;
299	Double_t fMCSmear_EEhighEta_lR9;
300
301	TRandom3* fRng;
302
303
304	ClassDef(PhotonIDMod, 1) // Photon identification module
305	};
306	}
307	#endif