Utils/interface/ElectronIDMVA.h

//--------------------------------------------------------------------------------------------------
// $Id $
//
// ElectronIDMVA
//
// Helper Class for Electron Identification MVA
//
// Authors: S.Xie
//--------------------------------------------------------------------------------------------------

#ifndef MITPHYSICS_UTILS_ElectronIDMVA_H
#define MITPHYSICS_UTILS_ElectronIDMVA_H

#include "MitAna/DataTree/interface/ElectronFwd.h"
#include "MitAna/DataTree/interface/VertexFwd.h"
#include "MitAna/DataTree/interface/TrackFwd.h"
#include "MitAna/DataTree/interface/Electron.h"
#include "MitAna/DataTree/interface/ElectronCol.h"
#include "MitAna/DataTree/interface/MuonCol.h"
#include "MitAna/DataTree/interface/PFCandidateCol.h"
#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
#include "MitCommon/MathTools/interface/MathUtils.h"
#include "MitPhysics/Utils/interface/ElectronTools.h"

// for Rho definitons
#include "MitPhysics/Utils/interface/RhoUtilities.h"

class TRandom3;
namespace TMVA {
  class Reader;
}

namespace mithep {
  class ElectronIDMVA {
    public:
      ElectronIDMVA();
      ~ElectronIDMVA(); 

      enum MVAType {
        kUninitialized = 0,
        kBaseline,           // SigmaIEtaIEta, DEtaIn, DPhiIn, FBrem, SigmaIPhiIPhi, NBrem, OneOverEMinusOneOverP
        kNoIPInfo,              // kBaseline + EOverP, ESeedClusterOverPout, ESeedClusterOverPIn
        kWithIPInfo,            // kBaseline + d0 , IP3d, IP3dSig
        kIDIsoCombined,         // ID variables , PFIso03 , PFIso04
        kIDEGamma2012TrigV0,    // EGamma certified (Spring 2012) ID-only MVA
        kIDEGamma2012NonTrigV0, // EGamma certified (Spring 2012) ID-only MVA
        kIDEGamma2012NonTrigV1, // EGamma certified (Spring 2012) ID-only MVA, "official" version
        kIsoRingsV0,            // Isolation MVA with IsoRings as input
        kIDHWW2012TrigV0        // HWW certified (Spring 2012) ID-only MVA
      };


      void     Initialize( std::string methodName,
                           std::string weightsfile,
                           ElectronIDMVA::MVAType type,
                           RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
      void     Initialize( std::string methodName,
                           ElectronIDMVA::MVAType type,
                           Bool_t useBinnedVersion,
                           std::vector<std::string> weightsfiles,
                           RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
      void     Initialize(TString methodName,
                          TString Subdet0Pt10To20Weights , 
                          TString Subdet1Pt10To20Weights , 
                          TString Subdet2Pt10To20Weights,
                          TString Subdet0Pt20ToInfWeights, 
                          TString Subdet1Pt20ToInfWeights, 
                          TString Subdet2Pt20ToInfWeights,
                          ElectronIDMVA::MVAType type,
                          RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
      
      Bool_t   IsInitialized() const { return fIsInitialized; }
      void     bindVariables();
      UInt_t   GetMVABin(double eta,double pt ) const;

      Double_t MVAValue(const Electron *ele, const Vertex *vertex, Bool_t printDebug = kFALSE);
      Double_t MVAValue(const Electron *ele, const Vertex *vertex, 
                        const PFCandidateCol *PFCands, 
                        const PileupEnergyDensityCol *PileupEnergyDensity,
                        Double_t intRadius,
                        Bool_t printDebug = kFALSE);
      Double_t MVAValue(const Electron *ele, const Vertex *vertex, 
                        const PFCandidateCol *PFCands, 
                        const PileupEnergyDensityCol *PileupEnergyDensity,
                        ElectronTools::EElectronEffectiveAreaTarget EffectiveAreaTarget,
                        const ElectronCol *goodElectrons,
                        const MuonCol *goodMuons,                       
                        Bool_t printDebug = kFALSE);
      Double_t MVAValue(Double_t ElePt , Double_t EleEta,
                        Double_t EleSigmaIEtaIEta,
                        Double_t EleDEtaIn,
                        Double_t EleDPhiIn,
                        Double_t EleHoverE,
                        Double_t EleD0,
                        Double_t EleDZ,
                        Double_t EleFBrem,
                        Double_t EleEOverP,
                        Double_t EleESeedClusterOverPout,
                        Double_t EleSigmaIPhiIPhi,
                        Double_t EleNBrem,
                        Double_t EleOneOverEMinusOneOverP,
                        Double_t EleESeedClusterOverPIn,
                        Double_t EleIP3d,
                        Double_t EleIP3dSig);
      Double_t MVAValue(Double_t ElePt , Double_t EleEta,
                        Double_t PileupEnergyDensity,
                        Double_t EleSigmaIEtaIEta,
                        Double_t EleDEtaIn,
                        Double_t EleDPhiIn,
                        Double_t EleHoverE,
                        Double_t EleD0,
                        Double_t EleDZ,
                        Double_t EleFBrem,
                        Double_t EleEOverP,
                        Double_t EleESeedClusterOverPout,
                        Double_t EleSigmaIPhiIPhi,
                        Double_t EleNBrem,
                        Double_t EleOneOverEMinusOneOverP,
                        Double_t EleESeedClusterOverPIn,
                        Double_t EleIP3d,
                        Double_t EleIP3dSig,
                        Double_t EleGsfTrackChi2OverNdof,
                        Double_t EledEtaCalo,
                        Double_t EledPhiCalo,
                        Double_t EleR9,
                        Double_t EleSCEtaWidth,
                        Double_t EleSCPhiWidth,
                        Double_t EleCovIEtaIPhi,
                        Double_t ElePreShowerOverRaw,
                        Double_t EleChargedIso03,
                        Double_t EleNeutralHadronIso03,
                        Double_t EleGammaIso03,
                        Double_t EleChargedIso04,
                        Double_t EleNeutralHadronIso04,
                        Double_t EleGammaIso04,
                        Bool_t printDebug = kFALSE );
      Double_t MVAValue_IsoRings( Double_t ElePt,
                                  Double_t EleSCEta,
                                  Double_t ChargedIso_DR0p0To0p1,
                                  Double_t ChargedIso_DR0p1To0p2,
                                  Double_t ChargedIso_DR0p2To0p3,
                                  Double_t ChargedIso_DR0p3To0p4,
                                  Double_t ChargedIso_DR0p4To0p5,
                                  Double_t GammaIso_DR0p0To0p1,
                                  Double_t GammaIso_DR0p1To0p2,
                                  Double_t GammaIso_DR0p2To0p3,
                                  Double_t GammaIso_DR0p3To0p4,
                                  Double_t GammaIso_DR0p4To0p5,
                                  Double_t NeutralHadronIso_DR0p0To0p1,
                                  Double_t NeutralHadronIso_DR0p1To0p2,
                                  Double_t NeutralHadronIso_DR0p2To0p3,
                                  Double_t NeutralHadronIso_DR0p3To0p4,
                                  Double_t NeutralHadronIso_DR0p4To0p5,
                                  Bool_t printDebug = kFALSE);
      Double_t MVAValue_IDNonTrig( Double_t ElePt, 
                                   Double_t EleSCEta, 
                                   Double_t EleFBrem, 
                                   Double_t EleKFTrkChiSqr,
                                   Double_t EleKFTrkNHits,
                                   Double_t EleGsfTrackChi2OverNdof,
                                   Double_t EleDEtaIn, 
                                   Double_t EleDPhiIn, 
                                   Double_t EledEtaCalo,
                                   Double_t EleSigmaIEtaIEta, 
                                   Double_t EleSigmaIPhiIPhi, 
                                   Double_t EleSCEtaWidth,
                                   Double_t EleSCPhiWidth,
                                   Double_t EleE1x5OverE5x5,
                                   Double_t EleR9,
                                   Double_t EleHoverE, 
                                   Double_t EleEOverP, 
                                   Double_t EleOneOverEMinusOneOverP, 
                                   Double_t EleESeedClusterOverPout, 
                                   Double_t ElePreShowerOverRaw,
                                   Bool_t printDebug = kFALSE);

    protected:      
      std::vector<TMVA::Reader*> fTMVAReader;
      TString                   fMethodname;
      Bool_t                    fIsInitialized;
      MVAType                   fMVAType;
      Bool_t                    fUseBinnedVersion;
      UInt_t                    fNMVABins;
      RhoUtilities::RhoType     fTheRhoType;

      Float_t                   fMVAVar_ElePt; 
      Float_t                   fMVAVar_EleEta; 
      Float_t                   fMVAVar_EleSigmaIEtaIEta; 
      Float_t                   fMVAVar_EleDEtaIn; 
      Float_t                   fMVAVar_EleDPhiIn; 
      Float_t                   fMVAVar_EleHoverE; 
      Float_t                   fMVAVar_EleD0; 
      Float_t                   fMVAVar_EleDZ; 
      Float_t                   fMVAVar_EleFBrem; 
      Float_t                   fMVAVar_EleEOverP; 
      Float_t                   fMVAVar_EleESeedClusterOverPout; 
      Float_t                   fMVAVar_EleSigmaIPhiIPhi; 
      Float_t                   fMVAVar_EleNBrem; 
      Float_t                   fMVAVar_EleOneOverEMinusOneOverP; 
      Float_t                   fMVAVar_EleESeedClusterOverPIn; 
      Float_t                   fMVAVar_EleIP3d; 
      Float_t                   fMVAVar_EleIP3dSig; 
      Float_t                   fMVAVar_EleGsfTrackChi2OverNdof;
      Float_t                   fMVAVar_EledEtaCalo;
      Float_t                   fMVAVar_EledPhiCalo;
      Float_t                   fMVAVar_EleR9;
      Float_t                   fMVAVar_EleSCEtaWidth;
      Float_t                   fMVAVar_EleSCPhiWidth;
      Float_t                   fMVAVar_EleCovIEtaIPhi;
      Float_t                   fMVAVar_ElePreShowerOverRaw;
      Float_t                   fMVAVar_EleChargedIso03OverPt;
      Float_t                   fMVAVar_EleNeutralHadronIso03OverPt;
      Float_t                   fMVAVar_EleGammaIso03OverPt;
      Float_t                   fMVAVar_EleChargedIso04OverPt;
      Float_t                   fMVAVar_EleNeutralHadronIso04OverPt;
      Float_t                   fMVAVar_EleGammaIso04OverPt;

      Float_t                   fMVAVar_EleEEleClusterOverPout;
      Float_t                   fMVAVar_EleKFTrkChiSqr;
      Float_t                   fMVAVar_EleKFTrkNHits;
      Float_t                   fMVAVar_EleKFTrkNLayers;
      Float_t                   fMVAVar_EleE1x5OverE5x5;

      Float_t                   fMVAVar_ChargedIso_DR0p0To0p1;
      Float_t                   fMVAVar_ChargedIso_DR0p1To0p2;
      Float_t                   fMVAVar_ChargedIso_DR0p2To0p3;
      Float_t                   fMVAVar_ChargedIso_DR0p3To0p4;
      Float_t                   fMVAVar_ChargedIso_DR0p4To0p5;
      Float_t                   fMVAVar_GammaIso_DR0p0To0p1;
      Float_t                   fMVAVar_GammaIso_DR0p1To0p2;
      Float_t                   fMVAVar_GammaIso_DR0p2To0p3;
      Float_t                   fMVAVar_GammaIso_DR0p3To0p4;
      Float_t                   fMVAVar_GammaIso_DR0p4To0p5;
      Float_t                   fMVAVar_NeutralHadronIso_DR0p0To0p1;
      Float_t                   fMVAVar_NeutralHadronIso_DR0p1To0p2;
      Float_t                   fMVAVar_NeutralHadronIso_DR0p2To0p3;
      Float_t                   fMVAVar_NeutralHadronIso_DR0p3To0p4;
      Float_t                   fMVAVar_NeutralHadronIso_DR0p4To0p5;


    ClassDef(ElectronIDMVA, 0) // Muon tools
      };
}

#endif
Revision:	1.13
Committed:	Wed Jun 13 01:50:48 2012 UTC (12 years, 10 months ago) by vdutta
Content type:	text/plain
Branch:	MAIN
Changes since 1.12:	+1 -0 lines
Log Message:	add official version of EGamma NonTrig MVA ID
#	User	Rev	Content
1	sixie	1.1	//--------------------------------------------------------------------------------------------------
2			// $Id $
3			//
4			// ElectronIDMVA
5			//
6			// Helper Class for Electron Identification MVA
7			//
8			// Authors: S.Xie
9			//--------------------------------------------------------------------------------------------------
10
11			#ifndef MITPHYSICS_UTILS_ElectronIDMVA_H
12			#define MITPHYSICS_UTILS_ElectronIDMVA_H
13
14			#include "MitAna/DataTree/interface/ElectronFwd.h"
15			#include "MitAna/DataTree/interface/VertexFwd.h"
16			#include "MitAna/DataTree/interface/TrackFwd.h"
17			#include "MitAna/DataTree/interface/Electron.h"
18			#include "MitAna/DataTree/interface/ElectronCol.h"
19	sixie	1.8	#include "MitAna/DataTree/interface/MuonCol.h"
20	sixie	1.5	#include "MitAna/DataTree/interface/PFCandidateCol.h"
21			#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
22	sixie	1.1	#include "MitCommon/MathTools/interface/MathUtils.h"
23	sixie	1.8	#include "MitPhysics/Utils/interface/ElectronTools.h"
24	sixie	1.1
25	ceballos	1.12	// for Rho definitons
26			#include "MitPhysics/Utils/interface/RhoUtilities.h"
27
28	sixie	1.1	class TRandom3;
29			namespace TMVA {
30			class Reader;
31			}
32
33			namespace mithep {
34			class ElectronIDMVA {
35			public:
36			ElectronIDMVA();
37			~ElectronIDMVA();
38
39	sixie	1.3	enum MVAType {
40	sixie	1.8	kUninitialized = 0,
41			kBaseline, // SigmaIEtaIEta, DEtaIn, DPhiIn, FBrem, SigmaIPhiIPhi, NBrem, OneOverEMinusOneOverP
42			kNoIPInfo, // kBaseline + EOverP, ESeedClusterOverPout, ESeedClusterOverPIn
43			kWithIPInfo, // kBaseline + d0 , IP3d, IP3dSig
44			kIDIsoCombined, // ID variables , PFIso03 , PFIso04
45			kIDEGamma2012TrigV0, // EGamma certified (Spring 2012) ID-only MVA
46			kIDEGamma2012NonTrigV0, // EGamma certified (Spring 2012) ID-only MVA
47	vdutta	1.13	kIDEGamma2012NonTrigV1, // EGamma certified (Spring 2012) ID-only MVA, "official" version
48	ceballos	1.11	kIsoRingsV0, // Isolation MVA with IsoRings as input
49			kIDHWW2012TrigV0 // HWW certified (Spring 2012) ID-only MVA
50	sixie	1.3	};
51
52
53	sixie	1.8	void Initialize( std::string methodName,
54			std::string weightsfile,
55	ceballos	1.12	ElectronIDMVA::MVAType type,
56			RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
57	sixie	1.8	void Initialize( std::string methodName,
58			ElectronIDMVA::MVAType type,
59			Bool_t useBinnedVersion,
60	ceballos	1.12	std::vector<std::string> weightsfiles,
61			RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
62	sixie	1.1	void Initialize(TString methodName,
63			TString Subdet0Pt10To20Weights ,
64			TString Subdet1Pt10To20Weights ,
65			TString Subdet2Pt10To20Weights,
66			TString Subdet0Pt20ToInfWeights,
67			TString Subdet1Pt20ToInfWeights,
68			TString Subdet2Pt20ToInfWeights,
69	ceballos	1.12	ElectronIDMVA::MVAType type,
70			RhoUtilities::RhoType theRhoType = RhoUtilities::DEFAULT);
71	sixie	1.1
72			Bool_t IsInitialized() const { return fIsInitialized; }
73	sixie	1.8	void bindVariables();
74			UInt_t GetMVABin(double eta,double pt ) const;
75
76			Double_t MVAValue(const Electron ele, const Vertex vertex, Bool_t printDebug = kFALSE);
77	sixie	1.5	Double_t MVAValue(const Electron ele, const Vertex vertex,
78	sixie	1.6	const PFCandidateCol *PFCands,
79			const PileupEnergyDensityCol *PileupEnergyDensity,
80	sixie	1.7	Double_t intRadius,
81	sixie	1.6	Bool_t printDebug = kFALSE);
82	sixie	1.8	Double_t MVAValue(const Electron ele, const Vertex vertex,
83			const PFCandidateCol *PFCands,
84			const PileupEnergyDensityCol *PileupEnergyDensity,
85			ElectronTools::EElectronEffectiveAreaTarget EffectiveAreaTarget,
86			const ElectronCol *goodElectrons,
87			const MuonCol *goodMuons,
88			Bool_t printDebug = kFALSE);
89	sixie	1.5	Double_t MVAValue(Double_t ElePt , Double_t EleEta,
90	sixie	1.2	Double_t EleSigmaIEtaIEta,
91			Double_t EleDEtaIn,
92			Double_t EleDPhiIn,
93			Double_t EleHoverE,
94			Double_t EleD0,
95			Double_t EleDZ,
96			Double_t EleFBrem,
97			Double_t EleEOverP,
98			Double_t EleESeedClusterOverPout,
99			Double_t EleSigmaIPhiIPhi,
100			Double_t EleNBrem,
101			Double_t EleOneOverEMinusOneOverP,
102			Double_t EleESeedClusterOverPIn,
103			Double_t EleIP3d,
104	sixie	1.5	Double_t EleIP3dSig);
105			Double_t MVAValue(Double_t ElePt , Double_t EleEta,
106			Double_t PileupEnergyDensity,
107			Double_t EleSigmaIEtaIEta,
108			Double_t EleDEtaIn,
109			Double_t EleDPhiIn,
110			Double_t EleHoverE,
111			Double_t EleD0,
112			Double_t EleDZ,
113			Double_t EleFBrem,
114			Double_t EleEOverP,
115			Double_t EleESeedClusterOverPout,
116			Double_t EleSigmaIPhiIPhi,
117			Double_t EleNBrem,
118			Double_t EleOneOverEMinusOneOverP,
119			Double_t EleESeedClusterOverPIn,
120			Double_t EleIP3d,
121			Double_t EleIP3dSig,
122			Double_t EleGsfTrackChi2OverNdof,
123			Double_t EledEtaCalo,
124			Double_t EledPhiCalo,
125			Double_t EleR9,
126			Double_t EleSCEtaWidth,
127			Double_t EleSCPhiWidth,
128			Double_t EleCovIEtaIPhi,
129			Double_t ElePreShowerOverRaw,
130			Double_t EleChargedIso03,
131			Double_t EleNeutralHadronIso03,
132			Double_t EleGammaIso03,
133			Double_t EleChargedIso04,
134			Double_t EleNeutralHadronIso04,
135	sixie	1.6	Double_t EleGammaIso04,
136			Bool_t printDebug = kFALSE );
137	sixie	1.10	Double_t MVAValue_IsoRings( Double_t ElePt,
138			Double_t EleSCEta,
139			Double_t ChargedIso_DR0p0To0p1,
140			Double_t ChargedIso_DR0p1To0p2,
141			Double_t ChargedIso_DR0p2To0p3,
142			Double_t ChargedIso_DR0p3To0p4,
143			Double_t ChargedIso_DR0p4To0p5,
144			Double_t GammaIso_DR0p0To0p1,
145			Double_t GammaIso_DR0p1To0p2,
146			Double_t GammaIso_DR0p2To0p3,
147			Double_t GammaIso_DR0p3To0p4,
148			Double_t GammaIso_DR0p4To0p5,
149			Double_t NeutralHadronIso_DR0p0To0p1,
150			Double_t NeutralHadronIso_DR0p1To0p2,
151			Double_t NeutralHadronIso_DR0p2To0p3,
152			Double_t NeutralHadronIso_DR0p3To0p4,
153			Double_t NeutralHadronIso_DR0p4To0p5,
154			Bool_t printDebug = kFALSE);
155			Double_t MVAValue_IDNonTrig( Double_t ElePt,
156			Double_t EleSCEta,
157			Double_t EleFBrem,
158			Double_t EleKFTrkChiSqr,
159			Double_t EleKFTrkNHits,
160			Double_t EleGsfTrackChi2OverNdof,
161			Double_t EleDEtaIn,
162			Double_t EleDPhiIn,
163			Double_t EledEtaCalo,
164			Double_t EleSigmaIEtaIEta,
165			Double_t EleSigmaIPhiIPhi,
166			Double_t EleSCEtaWidth,
167			Double_t EleSCPhiWidth,
168			Double_t EleE1x5OverE5x5,
169			Double_t EleR9,
170			Double_t EleHoverE,
171			Double_t EleEOverP,
172			Double_t EleOneOverEMinusOneOverP,
173			Double_t EleESeedClusterOverPout,
174			Double_t ElePreShowerOverRaw,
175			Bool_t printDebug = kFALSE);
176	sixie	1.2
177	sixie	1.1	protected:
178	sixie	1.8	std::vector<TMVA::Reader*> fTMVAReader;
179			TString fMethodname;
180	sixie	1.1	Bool_t fIsInitialized;
181	sixie	1.8	MVAType fMVAType;
182			Bool_t fUseBinnedVersion;
183			UInt_t fNMVABins;
184	ceballos	1.12	RhoUtilities::RhoType fTheRhoType;
185	sixie	1.8
186			Float_t fMVAVar_ElePt;
187			Float_t fMVAVar_EleEta;
188	sixie	1.1	Float_t fMVAVar_EleSigmaIEtaIEta;
189			Float_t fMVAVar_EleDEtaIn;
190			Float_t fMVAVar_EleDPhiIn;
191			Float_t fMVAVar_EleHoverE;
192			Float_t fMVAVar_EleD0;
193			Float_t fMVAVar_EleDZ;
194			Float_t fMVAVar_EleFBrem;
195			Float_t fMVAVar_EleEOverP;
196			Float_t fMVAVar_EleESeedClusterOverPout;
197			Float_t fMVAVar_EleSigmaIPhiIPhi;
198			Float_t fMVAVar_EleNBrem;
199			Float_t fMVAVar_EleOneOverEMinusOneOverP;
200			Float_t fMVAVar_EleESeedClusterOverPIn;
201			Float_t fMVAVar_EleIP3d;
202			Float_t fMVAVar_EleIP3dSig;
203	sixie	1.5	Float_t fMVAVar_EleGsfTrackChi2OverNdof;
204			Float_t fMVAVar_EledEtaCalo;
205			Float_t fMVAVar_EledPhiCalo;
206			Float_t fMVAVar_EleR9;
207			Float_t fMVAVar_EleSCEtaWidth;
208			Float_t fMVAVar_EleSCPhiWidth;
209			Float_t fMVAVar_EleCovIEtaIPhi;
210			Float_t fMVAVar_ElePreShowerOverRaw;
211			Float_t fMVAVar_EleChargedIso03OverPt;
212			Float_t fMVAVar_EleNeutralHadronIso03OverPt;
213			Float_t fMVAVar_EleGammaIso03OverPt;
214			Float_t fMVAVar_EleChargedIso04OverPt;
215			Float_t fMVAVar_EleNeutralHadronIso04OverPt;
216			Float_t fMVAVar_EleGammaIso04OverPt;
217	sixie	1.8
218			Float_t fMVAVar_EleEEleClusterOverPout;
219			Float_t fMVAVar_EleKFTrkChiSqr;
220			Float_t fMVAVar_EleKFTrkNHits;
221	sixie	1.9	Float_t fMVAVar_EleKFTrkNLayers;
222	sixie	1.8	Float_t fMVAVar_EleE1x5OverE5x5;
223
224			Float_t fMVAVar_ChargedIso_DR0p0To0p1;
225			Float_t fMVAVar_ChargedIso_DR0p1To0p2;
226			Float_t fMVAVar_ChargedIso_DR0p2To0p3;
227			Float_t fMVAVar_ChargedIso_DR0p3To0p4;
228			Float_t fMVAVar_ChargedIso_DR0p4To0p5;
229			Float_t fMVAVar_GammaIso_DR0p0To0p1;
230			Float_t fMVAVar_GammaIso_DR0p1To0p2;
231			Float_t fMVAVar_GammaIso_DR0p2To0p3;
232			Float_t fMVAVar_GammaIso_DR0p3To0p4;
233			Float_t fMVAVar_GammaIso_DR0p4To0p5;
234			Float_t fMVAVar_NeutralHadronIso_DR0p0To0p1;
235			Float_t fMVAVar_NeutralHadronIso_DR0p1To0p2;
236			Float_t fMVAVar_NeutralHadronIso_DR0p2To0p3;
237			Float_t fMVAVar_NeutralHadronIso_DR0p3To0p4;
238			Float_t fMVAVar_NeutralHadronIso_DR0p4To0p5;
239
240
241	sixie	1.1	ClassDef(ElectronIDMVA, 0) // Muon tools
242			};
243			}
244
245			#endif