Mods/interface/PhotonTreeWriter.h

//--------------------------------------------------------------------------------------------------
// $Id: PhotonTreeWriter.h,v 1.4 2011/11/18 00:07:16 bendavid Exp $
//
// PhotonTreeWriter
//
// Authors: J. Bendavid
//--------------------------------------------------------------------------------------------------

#ifndef MITPHYSICS_MODS_PHOTONTREEWRITER_H
#define MITPHYSICS_MODS_PHOTONTREEWRITER_H

#include "MitAna/TreeMod/interface/BaseMod.h" 
#include "MitAna/DataTree/interface/PhotonFwd.h"
#include "MitAna/DataTree/interface/TrackCol.h"
#include "MitAna/DataTree/interface/VertexCol.h"
#include "MitAna/DataTree/interface/BeamSpotCol.h"
#include "MitAna/DataTree/interface/PFCandidateCol.h"
#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
#include "MitAna/DataTree/interface/DecayParticleCol.h"
#include "MitAna/DataTree/interface/ElectronCol.h"
#include "MitAna/DataTree/interface/DecayParticleCol.h"
#include "MitAna/DataTree/interface/PileupInfoCol.h"
#include "MitAna/DataTree/interface/MCParticleCol.h"
#include "MitAna/DataTree/interface/SuperClusterCol.h"
#include "MitAna/DataTree/interface/PFMetCol.h"
#include "MitAna/DataTree/interface/JetCol.h"
#include "MitPhysics/Utils/interface/PhotonFix.h"
#include "MitPhysics/Utils/interface/PhotonTools.h"

class TNtuple;
class TRandom3;

namespace mithep 
{
  
  class PhotonTreeWriterPhoton
  {
    public:  
      void SetVars(const Photon *p, const DecayParticle *c, const Electron *ele, const SuperCluster *pfsc, const MCParticle *m, PhotonFix &phfixph, PhotonFix &phfixele);
      Float_t Ecor()    const { return ecor;    };
      Float_t Ecorerr() const { return ecorerr; };
      Float_t Ecorele()    const { return ecorele;    };
      Float_t Ecoreleerr() const { return ecoreleerr; };      
      
    private:  
      UChar_t hasphoton;
      Float_t e;
      Float_t pt;
      Float_t eta;
      Float_t phi;
      Float_t r9;
      Float_t e3x3;
      Float_t e5x5;
      Float_t sce;
      Float_t scrawe;
      Float_t scpse;
      Float_t sceta;
      Float_t scphi;
      UInt_t scnclusters;
      UInt_t scnhits;
      Float_t scetawidth;
      Float_t scphiwidth;
      Float_t hovere;
      Float_t sigietaieta;
      Bool_t isbarrel;
      Bool_t isr9reco;
      Bool_t isr9cat;
      Char_t phcat;
      Float_t eerr;
      Float_t eerrsmeared;
      Float_t esmearing;
      Float_t idmva;
      Float_t ecalisodr03;
      Float_t hcalisodr03;
      Float_t trkisohollowdr03;
      

      //quantities from seed basic cluster      
      Float_t eseed;
      Float_t etaseed;
      Float_t phiseed;
      Int_t ietaseed;
      Int_t iphiseed;
      Int_t ixseed;
      Int_t iyseed;
      Float_t etacryseed;
      Float_t phicryseed;
      Float_t xcryseed;
      Float_t ycryseed;
      Float_t thetaaxisseed;
      Float_t phiaxisseed;
      Float_t sigietaietaseed;
      Float_t sigiphiphiseed;
      Float_t covietaiphiseed;
      Float_t e3x3seed;
      Float_t e5x5seed;      
      Float_t emaxseed;
      Float_t e2ndseed;
      Float_t etopseed;
      Float_t ebottomseed;
      Float_t eleftseed;
      Float_t erightseed;      
      Float_t e1x3seed;
      Float_t e3x1seed;
      Float_t e1x5seed;
      Float_t e2x2seed;
      Float_t e4x4seed;
      Float_t e2x5maxseed;
      Float_t e2x5topseed;
      Float_t e2x5bottomseed;
      Float_t e2x5leftseed;
      Float_t e2x5rightseed;      
      Float_t xseedseed;
      Float_t yseedseed;
      Float_t zseedseed;
      UInt_t  nhitsseed;
      
      
      //quantities from second basic cluster, if present
      Float_t ebc2;
      Float_t etabc2;
      Float_t phibc2;
      Int_t ietabc2;
      Int_t iphibc2;
      Int_t ixbc2;
      Int_t iybc2;
      Float_t etacrybc2;
      Float_t phicrybc2;
      Float_t xcrybc2;
      Float_t ycrybc2;
      Float_t thetaaxisbc2;
      Float_t phiaxisbc2;
      Float_t sigietaietabc2;
      Float_t sigiphiphibc2;
      Float_t covietaiphibc2;
      Float_t e3x3bc2;
      Float_t e5x5bc2;            
      Float_t emaxbc2;
      Float_t e2ndbc2;
      Float_t etopbc2;
      Float_t ebottombc2;
      Float_t eleftbc2;
      Float_t erightbc2;
      Float_t e1x3bc2;
      Float_t e3x1bc2;
      Float_t e1x5bc2;
      Float_t e2x2bc2;
      Float_t e4x4bc2;
      Float_t e2x5maxbc2;
      Float_t e2x5topbc2;
      Float_t e2x5bottombc2;
      Float_t e2x5leftbc2;
      Float_t e2x5rightbc2;      
      Float_t xbc2bc2;
      Float_t ybc2bc2;
      Float_t zbc2bc2;      
      UInt_t  nhitsbc2;
      
      //quantities from lowest energy basic cluster if present
      Float_t ebclast;
      Float_t etabclast;
      Float_t phibclast;
      Int_t ietabclast;
      Int_t iphibclast;
      Int_t ixbclast;
      Int_t iybclast;
      Float_t etacrybclast;
      Float_t phicrybclast;
      Float_t xcrybclast;
      Float_t ycrybclast;
      Float_t thetaaxisbclast;
      Float_t phiaxisbclast;
      Float_t sigietaietabclast;
      Float_t sigiphiphibclast;
      Float_t covietaiphibclast;
      Float_t e3x3bclast;
      Float_t e5x5bclast;             
      UInt_t  nhitsbclast;
      
      //quantities from second lowest energy basic cluster if present
      Float_t ebclast2;
      Float_t etabclast2;
      Float_t phibclast2;
      Int_t ietabclast2;
      Int_t iphibclast2;
      Int_t ixbclast2;
      Int_t iybclast2;
      Float_t etacrybclast2;
      Float_t phicrybclast2;
      Float_t xcrybclast2;
      Float_t ycrybclast2;
      Float_t thetaaxisbclast2;
      Float_t phiaxisbclast2;
      Float_t sigietaietabclast2;
      Float_t sigiphiphibclast2;
      Float_t covietaiphibclast2;
      Float_t e3x3bclast2;
      Float_t e5x5bclast2;
      UInt_t  nhitsbclast2;             
      
      //energy correction quantities from PhotonFix
      Float_t ecor;
      Float_t ecorerr;
      Float_t ecorele;
      Float_t ecoreleerr;
      Float_t etac;
      Float_t etas;
      Float_t etam;
      Float_t phic;
      Float_t phis;
      Float_t phim;  
      Float_t xz;
      Float_t xc;
      Float_t xs;
      Float_t xm;
      Float_t yz;
      Float_t yc;
      Float_t ys;
      Float_t ym;        
      
      //conversion quantities
      UChar_t hasconversion;
      Float_t convp;
      Float_t convpt;
      Float_t conveta;
      Float_t convphi;
      Float_t convdeta;
      Float_t convdphi;
      Float_t convvtxrho;
      Float_t convvtxz;
      Float_t convvtxphi;
      Float_t convleadpt;
      Float_t convtrailpt;
      Float_t convleadtrackpt;
      Char_t convleadtrackalgo;
      Char_t convleadtrackalgos;
      Char_t convleadtrackcharge;
      Float_t convtrailtrackpt;
      Char_t convtrailtrackalgo;
      Char_t convtrailtrackalgos;      
      Char_t trailtrackcharge;
      
      //electron quantities
      UChar_t haselectron;
      UChar_t eleisecaldriven;      
      UChar_t eleistrackerdriven;     
      Float_t elee;
      Float_t elept;
      Float_t eleeta;
      Float_t elephi;
      Char_t elecharge;
      Float_t elefbrem;
      Float_t eledeta;
      Float_t eledphi;
      Float_t elep;
      Float_t elepin;
      Float_t elepout;
      
      //pf supercluster quantities
      UChar_t haspfsc;
      Float_t pfsce;
      Float_t pfscrawe;
      Float_t pfsceta;
      Float_t pfscphi;
      
      //generator level quantities
      UChar_t ispromptgen;
      Float_t gene;
      Float_t genpt;
      Float_t geneta;
      Float_t genphi;
      Float_t genz;
      Int_t   pdgid;
      Int_t   motherpdgid;
      

  };
  
  class PhotonTreeWriterDiphotonEvent
  {
    public:
      Float_t rho;
      Float_t genHiggspt;
      Float_t genHiggsZ;
      Float_t genmass;
      Float_t gencostheta;
      Float_t bsX;
      Float_t bsY;
      Float_t bsZ;
      Float_t vtxX;
      Float_t vtxY;      
      Float_t vtxZ;
      Int_t   nVtx;
      Int_t   numPU;
      Int_t   numPUminus;
      Int_t   numPUplus;
      Float_t mass;
      Float_t masserr;
      Float_t masserrsmeared;
      Float_t masserrwrongvtx;
      Float_t masserrsmearedwrongvtx;
      Float_t vtxprob;
      Float_t deltamvtx;
      Float_t ptgg;
      Float_t etagg;
      Float_t phigg;
      Float_t costheta;
      Float_t massele;
      Float_t ptee;
      Float_t costhetaele;
      Float_t mt;
      Float_t cosphimet;
      Float_t mtele;
      Float_t cosphimetele;
      UInt_t  evt;
      UInt_t  run;
      UInt_t  lumi;
      UChar_t evtcat;
      UInt_t  nobj;
      Float_t pfmet;
      Float_t pfmetphi;
      Float_t pfmetx;
      Float_t pfmety;
      UChar_t  ismc;
      
      //corrected quantities from PhotonFix corrections
      Float_t masscor;
      Float_t masscorerr;
      Float_t masscorele;
      Float_t masscoreleerr;
      
      //jet quantities
      Float_t jet1pt;
      Float_t jet1eta;
      Float_t jet1phi;
      Float_t jet1mass;
      Float_t jet2pt;
      Float_t jet2eta;
      Float_t jet2phi;
      Float_t jet2mass;
      Float_t jetcentralpt;
      Float_t jetcentraleta;
      Float_t jetcentralphi;
      Float_t jetcentralmass;
      Float_t dijetpt;
      Float_t dijeteta;
      Float_t dijetphi;
      Float_t dijetmass;
      Float_t jetetaplus;
      Float_t jetetaminus;
      
      Float_t zeppenfeld;
      Float_t dphidijetgg;
      
      PhotonTreeWriterPhoton photons[2];

    
  };
  
  class PhotonTreeWriter : public BaseMod
  {
  public:
    PhotonTreeWriter(const char *name ="PhotonTreeWriter", 
                       const char *title="Selecting PhotonPairs");
    
    ~PhotonTreeWriter();

    // setting all the input Names
    void                SetInputPhotonsName(const char *n){ fPhotonBranchName= n;        }
    void                SetPhotonsFromBranch(bool b)      { fPhotonsFromBranch = b;      }
    void                SetTrackName(const char *n)       { fTrackBranchName = n;        }
    void                SetElectronName(const char *n)    { fElectronName = n;           }
    void                SetConversionName(const char *n)  { fConversionName = n;         }
    void                SetPUDensityName(const char *n)   { fPileUpDenName = n;          }
    void                SetPVName(const char *n)          { fPVName = n;                 }
    void                SetPVFromBranch(bool b)           { fPVFromBranch = b;           }
    void                SetMCParticle(const char *n)      { fMCParticleName = n;         }
    void                SetPUInfoName(const char *n)      { fPileUpName = n;             }
    void                SetBeamspotName(const char *n)    { fBeamspotName = n;           }
    void                SetPFCandName(const char *n)      { fPFCandName = n;             }
    void                SetSuperClusterName(const char *n) { fSuperClusterName = n;      }
    void                SetPFJetName(const char *n)       { fPFJetName = n;              }
    void                SetPFJetsFromBranch(Bool_t b)     { fPFJetsFromBranch = b;       }
    void                SetEnableJets(Bool_t b)           { fEnableJets = b;             }
    void                SetPhFixDataFile(const char *n)   { fPhFixDataFile = n;          }


    // set basic Cut variables (FOR PRE-SELECTION)

    // is Data Or Not?
    void                SetIsData (Bool_t b) { fIsData = b;};
    

    void                SetInvertElectronVeto(Bool_t b)   { fInvertElectronVeto = b;     }          

    void                SetTupleName(const char* c)     { fTupleName     = c; }
    void                SetGoodElectronsFromBranch(Bool_t b) { fGoodElectronsFromBranch = b; }
    void                SetGoodElectronName(TString name) { fGoodElectronName = name; }
    void                SetWriteDiphotonTree(Bool_t b)  { fWriteDiphotonTree = b; }
    void                SetWriteSingleTree(Bool_t b)    { fWriteSingleTree = b; }
    void                SetLoopOnGoodElectrons(Bool_t b) { fLoopOnGoodElectrons = b; }
    void                SetExcludeSinglePrompt(Bool_t b) { fExcludeSinglePrompt = b; }
    void                SetExcludeDoublePrompt(Bool_t b) { fExcludeDoublePrompt = b; }

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

    // private auxiliary methods...
    void                FindHiggsPtAndZ(Float_t& pt, Float_t& z, Float_t& mass);
    Float_t             GetEventCat(PhotonTools::CiCBaseLineCats cat1, PhotonTools::CiCBaseLineCats cat2);

    // Names for the input Collections
    TString             fPhotonBranchName;
    TString             fElectronName;
    TString             fGoodElectronName;
    TString             fConversionName;
    TString             fTrackBranchName;
    TString             fPileUpDenName;    
    TString             fPVName;
    TString             fBeamspotName;
    TString             fPFCandName;
    TString             fMCParticleName;
    TString             fPileUpName;
    TString             fSuperClusterName;
    TString             fPFMetName;
    TString             fPFJetName;
    
    // is it Data or MC?
    Bool_t              fIsData;
    
    // in case there's some PV pre-selection
    Bool_t              fPhotonsFromBranch;
    Bool_t              fPVFromBranch;
    Bool_t              fGoodElectronsFromBranch;
    Bool_t              fPFJetsFromBranch;

    const PhotonCol              *fPhotons;
    const ElectronCol            *fElectrons;
    const ElectronCol            *fGoodElectrons;    
    const DecayParticleCol       *fConversions;
    const TrackCol               *fTracks;
    const PileupEnergyDensityCol *fPileUpDen;
    const VertexCol              *fPV;
    const BeamSpotCol            *fBeamspot;
    const PFCandidateCol         *fPFCands;
    const MCParticleCol          *fMCParticles;
    const PileupInfoCol          *fPileUp;    
    const SuperClusterCol        *fSuperClusters;   
    const PFMetCol               *fPFMet;
    const JetCol                 *fPFJets;
    
    // --------------------------------
    Bool_t fLoopOnGoodElectrons; //primary loop over good electrons collection instead of photons
    Bool_t              fInvertElectronVeto;    //=true then invert electron veto (for cic selection only atm)     
    Bool_t fWriteDiphotonTree;
    Bool_t fWriteSingleTree;

    Bool_t fExcludeSinglePrompt;
    Bool_t fExcludeDoublePrompt;
    
    Bool_t fEnableJets;
    
    TString fPhFixDataFile;
    PhotonFix fPhfixph;
    PhotonFix fPhfixele;

    // --------------------------------
    // validation Tuple
    TString fTupleName;
    PhotonTreeWriterDiphotonEvent* fDiphotonEvent;
    PhotonTreeWriterPhoton* fSinglePhoton;    
    TTree* hCiCTuple;
    TTree* hCiCTupleSingle;

    ClassDef(PhotonTreeWriter, 1) // Photon identification module
  };
}
#endif
Revision:	1.5
Committed:	Sun Dec 11 00:03:04 2011 UTC (13 years, 5 months ago) by bendavid
Content type:	text/plain
Branch:	MAIN
Changes since 1.4:	+146 -33 lines
Log Message:	more photon updates for mva plus id analysis
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: PhotonTreeWriter.h,v 1.4 2011/11/18 00:07:16 bendavid Exp $
3	//
4	// PhotonTreeWriter
5	//
6	// Authors: J. Bendavid
7	//--------------------------------------------------------------------------------------------------
8
9	#ifndef MITPHYSICS_MODS_PHOTONTREEWRITER_H
10	#define MITPHYSICS_MODS_PHOTONTREEWRITER_H
11
12	#include "MitAna/TreeMod/interface/BaseMod.h"
13	#include "MitAna/DataTree/interface/PhotonFwd.h"
14	#include "MitAna/DataTree/interface/TrackCol.h"
15	#include "MitAna/DataTree/interface/VertexCol.h"
16	#include "MitAna/DataTree/interface/BeamSpotCol.h"
17	#include "MitAna/DataTree/interface/PFCandidateCol.h"
18	#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h"
19	#include "MitAna/DataTree/interface/DecayParticleCol.h"
20	#include "MitAna/DataTree/interface/ElectronCol.h"
21	#include "MitAna/DataTree/interface/DecayParticleCol.h"
22	#include "MitAna/DataTree/interface/PileupInfoCol.h"
23	#include "MitAna/DataTree/interface/MCParticleCol.h"
24	#include "MitAna/DataTree/interface/SuperClusterCol.h"
25	#include "MitAna/DataTree/interface/PFMetCol.h"
26	#include "MitAna/DataTree/interface/JetCol.h"
27	#include "MitPhysics/Utils/interface/PhotonFix.h"
28	#include "MitPhysics/Utils/interface/PhotonTools.h"
29
30	class TNtuple;
31	class TRandom3;
32
33	namespace mithep
34	{
35
36	class PhotonTreeWriterPhoton
37	{
38	public:
39	void SetVars(const Photon p, const DecayParticle c, const Electron ele, const SuperCluster pfsc, const MCParticle *m, PhotonFix &phfixph, PhotonFix &phfixele);
40	Float_t Ecor() const { return ecor; };
41	Float_t Ecorerr() const { return ecorerr; };
42	Float_t Ecorele() const { return ecorele; };
43	Float_t Ecoreleerr() const { return ecoreleerr; };
44
45	private:
46	UChar_t hasphoton;
47	Float_t e;
48	Float_t pt;
49	Float_t eta;
50	Float_t phi;
51	Float_t r9;
52	Float_t e3x3;
53	Float_t e5x5;
54	Float_t sce;
55	Float_t scrawe;
56	Float_t scpse;
57	Float_t sceta;
58	Float_t scphi;
59	UInt_t scnclusters;
60	UInt_t scnhits;
61	Float_t scetawidth;
62	Float_t scphiwidth;
63	Float_t hovere;
64	Float_t sigietaieta;
65	Bool_t isbarrel;
66	Bool_t isr9reco;
67	Bool_t isr9cat;
68	Char_t phcat;
69	Float_t eerr;
70	Float_t eerrsmeared;
71	Float_t esmearing;
72	Float_t idmva;
73	Float_t ecalisodr03;
74	Float_t hcalisodr03;
75	Float_t trkisohollowdr03;
76
77
78	//quantities from seed basic cluster
79	Float_t eseed;
80	Float_t etaseed;
81	Float_t phiseed;
82	Int_t ietaseed;
83	Int_t iphiseed;
84	Int_t ixseed;
85	Int_t iyseed;
86	Float_t etacryseed;
87	Float_t phicryseed;
88	Float_t xcryseed;
89	Float_t ycryseed;
90	Float_t thetaaxisseed;
91	Float_t phiaxisseed;
92	Float_t sigietaietaseed;
93	Float_t sigiphiphiseed;
94	Float_t covietaiphiseed;
95	Float_t e3x3seed;
96	Float_t e5x5seed;
97	Float_t emaxseed;
98	Float_t e2ndseed;
99	Float_t etopseed;
100	Float_t ebottomseed;
101	Float_t eleftseed;
102	Float_t erightseed;
103	Float_t e1x3seed;
104	Float_t e3x1seed;
105	Float_t e1x5seed;
106	Float_t e2x2seed;
107	Float_t e4x4seed;
108	Float_t e2x5maxseed;
109	Float_t e2x5topseed;
110	Float_t e2x5bottomseed;
111	Float_t e2x5leftseed;
112	Float_t e2x5rightseed;
113	Float_t xseedseed;
114	Float_t yseedseed;
115	Float_t zseedseed;
116	UInt_t nhitsseed;
117
118
119	//quantities from second basic cluster, if present
120	Float_t ebc2;
121	Float_t etabc2;
122	Float_t phibc2;
123	Int_t ietabc2;
124	Int_t iphibc2;
125	Int_t ixbc2;
126	Int_t iybc2;
127	Float_t etacrybc2;
128	Float_t phicrybc2;
129	Float_t xcrybc2;
130	Float_t ycrybc2;
131	Float_t thetaaxisbc2;
132	Float_t phiaxisbc2;
133	Float_t sigietaietabc2;
134	Float_t sigiphiphibc2;
135	Float_t covietaiphibc2;
136	Float_t e3x3bc2;
137	Float_t e5x5bc2;
138	Float_t emaxbc2;
139	Float_t e2ndbc2;
140	Float_t etopbc2;
141	Float_t ebottombc2;
142	Float_t eleftbc2;
143	Float_t erightbc2;
144	Float_t e1x3bc2;
145	Float_t e3x1bc2;
146	Float_t e1x5bc2;
147	Float_t e2x2bc2;
148	Float_t e4x4bc2;
149	Float_t e2x5maxbc2;
150	Float_t e2x5topbc2;
151	Float_t e2x5bottombc2;
152	Float_t e2x5leftbc2;
153	Float_t e2x5rightbc2;
154	Float_t xbc2bc2;
155	Float_t ybc2bc2;
156	Float_t zbc2bc2;
157	UInt_t nhitsbc2;
158
159	//quantities from lowest energy basic cluster if present
160	Float_t ebclast;
161	Float_t etabclast;
162	Float_t phibclast;
163	Int_t ietabclast;
164	Int_t iphibclast;
165	Int_t ixbclast;
166	Int_t iybclast;
167	Float_t etacrybclast;
168	Float_t phicrybclast;
169	Float_t xcrybclast;
170	Float_t ycrybclast;
171	Float_t thetaaxisbclast;
172	Float_t phiaxisbclast;
173	Float_t sigietaietabclast;
174	Float_t sigiphiphibclast;
175	Float_t covietaiphibclast;
176	Float_t e3x3bclast;
177	Float_t e5x5bclast;
178	UInt_t nhitsbclast;
179
180	//quantities from second lowest energy basic cluster if present
181	Float_t ebclast2;
182	Float_t etabclast2;
183	Float_t phibclast2;
184	Int_t ietabclast2;
185	Int_t iphibclast2;
186	Int_t ixbclast2;
187	Int_t iybclast2;
188	Float_t etacrybclast2;
189	Float_t phicrybclast2;
190	Float_t xcrybclast2;
191	Float_t ycrybclast2;
192	Float_t thetaaxisbclast2;
193	Float_t phiaxisbclast2;
194	Float_t sigietaietabclast2;
195	Float_t sigiphiphibclast2;
196	Float_t covietaiphibclast2;
197	Float_t e3x3bclast2;
198	Float_t e5x5bclast2;
199	UInt_t nhitsbclast2;
200
201	//energy correction quantities from PhotonFix
202	Float_t ecor;
203	Float_t ecorerr;
204	Float_t ecorele;
205	Float_t ecoreleerr;
206	Float_t etac;
207	Float_t etas;
208	Float_t etam;
209	Float_t phic;
210	Float_t phis;
211	Float_t phim;
212	Float_t xz;
213	Float_t xc;
214	Float_t xs;
215	Float_t xm;
216	Float_t yz;
217	Float_t yc;
218	Float_t ys;
219	Float_t ym;
220
221	//conversion quantities
222	UChar_t hasconversion;
223	Float_t convp;
224	Float_t convpt;
225	Float_t conveta;
226	Float_t convphi;
227	Float_t convdeta;
228	Float_t convdphi;
229	Float_t convvtxrho;
230	Float_t convvtxz;
231	Float_t convvtxphi;
232	Float_t convleadpt;
233	Float_t convtrailpt;
234	Float_t convleadtrackpt;
235	Char_t convleadtrackalgo;
236	Char_t convleadtrackalgos;
237	Char_t convleadtrackcharge;
238	Float_t convtrailtrackpt;
239	Char_t convtrailtrackalgo;
240	Char_t convtrailtrackalgos;
241	Char_t trailtrackcharge;
242
243	//electron quantities
244	UChar_t haselectron;
245	UChar_t eleisecaldriven;
246	UChar_t eleistrackerdriven;
247	Float_t elee;
248	Float_t elept;
249	Float_t eleeta;
250	Float_t elephi;
251	Char_t elecharge;
252	Float_t elefbrem;
253	Float_t eledeta;
254	Float_t eledphi;
255	Float_t elep;
256	Float_t elepin;
257	Float_t elepout;
258
259	//pf supercluster quantities
260	UChar_t haspfsc;
261	Float_t pfsce;
262	Float_t pfscrawe;
263	Float_t pfsceta;
264	Float_t pfscphi;
265
266	//generator level quantities
267	UChar_t ispromptgen;
268	Float_t gene;
269	Float_t genpt;
270	Float_t geneta;
271	Float_t genphi;
272	Float_t genz;
273	Int_t pdgid;
274	Int_t motherpdgid;
275
276
277
278	};
279
280	class PhotonTreeWriterDiphotonEvent
281	{
282	public:
283	Float_t rho;
284	Float_t genHiggspt;
285	Float_t genHiggsZ;
286	Float_t genmass;
287	Float_t gencostheta;
288	Float_t bsX;
289	Float_t bsY;
290	Float_t bsZ;
291	Float_t vtxX;
292	Float_t vtxY;
293	Float_t vtxZ;
294	Int_t nVtx;
295	Int_t numPU;
296	Int_t numPUminus;
297	Int_t numPUplus;
298	Float_t mass;
299	Float_t masserr;
300	Float_t masserrsmeared;
301	Float_t masserrwrongvtx;
302	Float_t masserrsmearedwrongvtx;
303	Float_t vtxprob;
304	Float_t deltamvtx;
305	Float_t ptgg;
306	Float_t etagg;
307	Float_t phigg;
308	Float_t costheta;
309	Float_t massele;
310	Float_t ptee;
311	Float_t costhetaele;
312	Float_t mt;
313	Float_t cosphimet;
314	Float_t mtele;
315	Float_t cosphimetele;
316	UInt_t evt;
317	UInt_t run;
318	UInt_t lumi;
319	UChar_t evtcat;
320	UInt_t nobj;
321	Float_t pfmet;
322	Float_t pfmetphi;
323	Float_t pfmetx;
324	Float_t pfmety;
325	UChar_t ismc;
326
327	//corrected quantities from PhotonFix corrections
328	Float_t masscor;
329	Float_t masscorerr;
330	Float_t masscorele;
331	Float_t masscoreleerr;
332
333	//jet quantities
334	Float_t jet1pt;
335	Float_t jet1eta;
336	Float_t jet1phi;
337	Float_t jet1mass;
338	Float_t jet2pt;
339	Float_t jet2eta;
340	Float_t jet2phi;
341	Float_t jet2mass;
342	Float_t jetcentralpt;
343	Float_t jetcentraleta;
344	Float_t jetcentralphi;
345	Float_t jetcentralmass;
346	Float_t dijetpt;
347	Float_t dijeteta;
348	Float_t dijetphi;
349	Float_t dijetmass;
350	Float_t jetetaplus;
351	Float_t jetetaminus;
352
353	Float_t zeppenfeld;
354	Float_t dphidijetgg;
355
356	PhotonTreeWriterPhoton photons[2];
357
358
359	};
360
361	class PhotonTreeWriter : public BaseMod
362	{
363	public:
364	PhotonTreeWriter(const char *name ="PhotonTreeWriter",
365	const char *title="Selecting PhotonPairs");
366
367	~PhotonTreeWriter();
368
369	// setting all the input Names
370	void SetInputPhotonsName(const char *n){ fPhotonBranchName= n; }
371	void SetPhotonsFromBranch(bool b) { fPhotonsFromBranch = b; }
372	void SetTrackName(const char *n) { fTrackBranchName = n; }
373	void SetElectronName(const char *n) { fElectronName = n; }
374	void SetConversionName(const char *n) { fConversionName = n; }
375	void SetPUDensityName(const char *n) { fPileUpDenName = n; }
376	void SetPVName(const char *n) { fPVName = n; }
377	void SetPVFromBranch(bool b) { fPVFromBranch = b; }
378	void SetMCParticle(const char *n) { fMCParticleName = n; }
379	void SetPUInfoName(const char *n) { fPileUpName = n; }
380	void SetBeamspotName(const char *n) { fBeamspotName = n; }
381	void SetPFCandName(const char *n) { fPFCandName = n; }
382	void SetSuperClusterName(const char *n) { fSuperClusterName = n; }
383	void SetPFJetName(const char *n) { fPFJetName = n; }
384	void SetPFJetsFromBranch(Bool_t b) { fPFJetsFromBranch = b; }
385	void SetEnableJets(Bool_t b) { fEnableJets = b; }
386	void SetPhFixDataFile(const char *n) { fPhFixDataFile = n; }
387
388
389	// set basic Cut variables (FOR PRE-SELECTION)
390
391	// is Data Or Not?
392	void SetIsData (Bool_t b) { fIsData = b;};
393
394
395	void SetInvertElectronVeto(Bool_t b) { fInvertElectronVeto = b; }
396
397	void SetTupleName(const char* c) { fTupleName = c; }
398	void SetGoodElectronsFromBranch(Bool_t b) { fGoodElectronsFromBranch = b; }
399	void SetGoodElectronName(TString name) { fGoodElectronName = name; }
400	void SetWriteDiphotonTree(Bool_t b) { fWriteDiphotonTree = b; }
401	void SetWriteSingleTree(Bool_t b) { fWriteSingleTree = b; }
402	void SetLoopOnGoodElectrons(Bool_t b) { fLoopOnGoodElectrons = b; }
403	void SetExcludeSinglePrompt(Bool_t b) { fExcludeSinglePrompt = b; }
404	void SetExcludeDoublePrompt(Bool_t b) { fExcludeDoublePrompt = b; }
405
406	protected:
407	void Process();
408	void SlaveBegin();
409
410	// private auxiliary methods...
411	void FindHiggsPtAndZ(Float_t& pt, Float_t& z, Float_t& mass);
412	Float_t GetEventCat(PhotonTools::CiCBaseLineCats cat1, PhotonTools::CiCBaseLineCats cat2);
413
414	// Names for the input Collections
415	TString fPhotonBranchName;
416	TString fElectronName;
417	TString fGoodElectronName;
418	TString fConversionName;
419	TString fTrackBranchName;
420	TString fPileUpDenName;
421	TString fPVName;
422	TString fBeamspotName;
423	TString fPFCandName;
424	TString fMCParticleName;
425	TString fPileUpName;
426	TString fSuperClusterName;
427	TString fPFMetName;
428	TString fPFJetName;
429
430	// is it Data or MC?
431	Bool_t fIsData;
432
433	// in case there's some PV pre-selection
434	Bool_t fPhotonsFromBranch;
435	Bool_t fPVFromBranch;
436	Bool_t fGoodElectronsFromBranch;
437	Bool_t fPFJetsFromBranch;
438
439	const PhotonCol *fPhotons;
440	const ElectronCol *fElectrons;
441	const ElectronCol *fGoodElectrons;
442	const DecayParticleCol *fConversions;
443	const TrackCol *fTracks;
444	const PileupEnergyDensityCol *fPileUpDen;
445	const VertexCol *fPV;
446	const BeamSpotCol *fBeamspot;
447	const PFCandidateCol *fPFCands;
448	const MCParticleCol *fMCParticles;
449	const PileupInfoCol *fPileUp;
450	const SuperClusterCol *fSuperClusters;
451	const PFMetCol *fPFMet;
452	const JetCol *fPFJets;
453
454	// --------------------------------
455	Bool_t fLoopOnGoodElectrons; //primary loop over good electrons collection instead of photons
456	Bool_t fInvertElectronVeto; //=true then invert electron veto (for cic selection only atm)
457	Bool_t fWriteDiphotonTree;
458	Bool_t fWriteSingleTree;
459
460	Bool_t fExcludeSinglePrompt;
461	Bool_t fExcludeDoublePrompt;
462
463	Bool_t fEnableJets;
464
465	TString fPhFixDataFile;
466	PhotonFix fPhfixph;
467	PhotonFix fPhfixele;
468
469	// --------------------------------
470	// validation Tuple
471	TString fTupleName;
472	PhotonTreeWriterDiphotonEvent* fDiphotonEvent;
473	PhotonTreeWriterPhoton* fSinglePhoton;
474	TTree* hCiCTuple;
475	TTree* hCiCTupleSingle;
476
477	ClassDef(PhotonTreeWriter, 1) // Photon identification module
478	};
479	}
480	#endif