Utils/interface/MuonTools.h

//--------------------------------------------------------------------------------------------------
// $Id: MuonTools.h,v 1.14 2011/01/21 11:25:26 ceballos Exp $
//
// MuonTools
//
// This class allows you to classify a given muon according to defined criteria. For this purpose
// is loads histograms from two ROOT files, specified in the constructor. The main function then
// is "IsGood(*muon, selection)" which returns true if the given muon fulfills the selection
// criteria. 
// 
// Logically, the code has been put together by Phil who took most of the ideas from
//  http://cmslxr.fnal.gov/lxr/source/RecoMuon/MuonIdentification/
//  http://cmslxr.fnal.gov/lxr/source/DataFormats/MuonReco/
//
// Authors: P.Harris, C.Loizides
//--------------------------------------------------------------------------------------------------

#ifndef MITPHYSICS_UTILS_MUONTOOLS_H
#define MITPHYSICS_UTILS_MUONTOOLS_H

#include "MitAna/DataTree/interface/Muon.h"
#include "MitAna/DataTree/interface/VertexCol.h"
#include "MitAna/DataTree/interface/BeamSpotCol.h"
#include "MitCommon/MathTools/interface/MathUtils.h"
#include "TH2D.h"

namespace mithep {
  class MuonTools {
    public:
      MuonTools(const char *mutemp="$CMSSW_BASE/src/MitPhysics/data/MuonCaloTemplate.root", 
                const char *pitemp="$CMSSW_BASE/src/MitPhysics/data/PionCaloTemplate.root");
      virtual ~MuonTools();

      enum ESelType { 
        kAllArbitrated,          //All arbitration (DT/CSC/RPC Hits) put on at least one 
                                 //  segments given a global Muon
        kPromptTight,            //Standard global muon identification
        kTMLastStationLoose,     //Loose matching requirements on lastmost muon station of reco 
        kTMLastStationTight,     //Tight matching requirements on lastmost muon station of reco 
        kTMOneStationLoose,      //Loose matching requirements on at least one muon station of reco 
        kTMOneStationTight,      //Tight matching requirements on at least one muon station of reco 
        kTM2DCompatibilityLoose, //Loose requirement on sum of compatabiliity variables 
                                 //  ===> 1.2 Segment compatability + 0.8 calo compatability > 0.8
        kTM2DCompatibilityTight  //Tight requirement on sum of compatabiliity variables 
                                 //  ===> 1.2 Segment compatability + 0.8 calo compatability > 1.2
      };

      Bool_t        Init(const char *mutemp, const char *pitemp);
      Bool_t        IsGood(const mithep::Muon *iMuon, ESelType iSel) const;
      Double_t      GetCaloCompatability(const mithep::Muon *iMuon,
                                         Bool_t iEMSpecial, Bool_t iCorrectedHCAL) const; 
      Double_t      GetSegmentCompatability(const mithep::Muon *iMuon)             const;
      static Bool_t PassD0Cut(const Muon *mu, const VertexCol *vertices, Double_t fD0Cut, Int_t nVertex = 0); 
      static Bool_t PassD0Cut(const Muon *mu, const BeamSpotCol *beamspots, Double_t fD0Cut);
      static Bool_t PassDZCut(const Muon *mu, const VertexCol *vertices, Double_t fDZCut);
      static Bool_t PassSoftMuonCut(const Muon *mu, const VertexCol *vertices); 

    protected:
      void        DeleteHistos();
      Bool_t      Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1)    const; 
      Double_t    SigWeight(Double_t iVal0, Double_t iVal1)                      const; 
   
    private:
      Bool_t      fIsInit;              //!=true if histograms are loaded
      TH2D       *fmuon_em_etaEmi;      //!Neg Endcap EM       Calo Deposit Template for Muons
      TH2D       *fmuon_had_etaEmi;     //!Neg Endcap Hadronic Calo Deposit Template for Muons
      TH2D       *fmuon_had_etaTmi;     //!Neg Transition Hadronic Calo Deposit Template for Muons
      TH2D       *fmuon_em_etaB;        //!Barrel EM       Calo Deposit Template for Muons
      TH2D       *fmuon_had_etaB;       //!Barrel Hadronic Calo Deposit Template for Muons
      TH2D       *fmuon_ho_etaB;        //!Barrel HO       Calo Deposit Template for Muons
      TH2D       *fmuon_had_etaTpl;     //!Plus Transition Hadronic Calo Deposit Template for Muons
      TH2D       *fmuon_em_etaEpl;      //!Plus Endcap EM       Calo Deposit Template for Muons
      TH2D       *fmuon_had_etaEpl;     //!Plus Endcap Hadronic Calo Deposit Template for Muons
      TH2D       *fpion_em_etaEmi;      //!Neg  Endcap EM       Calo Deposit Template for Pions
      TH2D       *fpion_had_etaEmi;     //!Neg  Endcap Hadronic Calo Deposit Template for Pions
      TH2D       *fpion_had_etaTmi;     //!Neg Transition Hadronic Calo Deposit Template for Pions
      TH2D       *fpion_em_etaB;        //!Barrel EM       Calo Deposit Template for Pions
      TH2D       *fpion_had_etaB;       //!Barrel Hadronic Calo Deposit Template for Pions
      TH2D       *fpion_ho_etaB;        //!Barrel HO       Calo Deposit Template for Pions
      TH2D       *fpion_had_etaTpl;     //!Plus Transition Hadronic Calo Deposit Template for Pions
      TH2D       *fpion_em_etaEpl;      //!Plus Endcap EM       Calo Deposit Template for Pions
      TH2D       *fpion_had_etaEpl;     //!Plus Endcap Hadronic Calo Deposit Template for Pions

      TH2D       *LoadHisto(const char *fname, TFile *file)                      const;

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

//--------------------------------------------------------------------------------------------------
inline Double_t mithep::MuonTools::SigWeight(Double_t iVal0, Double_t iVal1) const
{
  // Returns weighted uncertainty given segment matching uncertainty (iVal0) and
  // segment matching pull (iVal1).

  if (iVal1 < 1.)  //if pull defined and within range
    return 1.;
  if (iVal0 < 3. && iVal1 > 3.) {       //if pull not well defined and uncertainty defined
    Double_t lVal = TMath::Max(iVal0,1.);
    return 1./TMath::Power(lVal,0.25);
  }

  Double_t lVal = TMath::Max(iVal1,1.); //if pull > 1 and pull < 3 return 1/pull^4
  return 1./TMath::Power(lVal,0.25);
}
//--------------------------------------------------------------------------------------------------
inline Bool_t mithep::MuonTools::Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const
{
  // Check if values are in overflow bins of given histogram.

  if(iHist == 0)
    return kTRUE;

  if (iHist ->GetXaxis()->FindBin(lVal0) == 0                  || 
      iHist ->GetXaxis()->FindBin(lVal0) >  iHist->GetNbinsX() || 
      iHist ->GetYaxis()->FindBin(lVal1) == 0                  || 
      iHist ->GetYaxis()->FindBin(lVal1) >  iHist->GetNbinsY()) {
    return kTRUE;
  }
  return kFALSE;
}
#endif
Revision:	1.15
Committed:	Tue Mar 15 12:02:49 2011 UTC (14 years, 1 month ago) by ceballos
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_020a, Mit_020
Changes since 1.14:	+3 -2 lines
Log Message:	new ip cuts
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: MuonTools.h,v 1.14 2011/01/21 11:25:26 ceballos Exp $
3	//
4	// MuonTools
5	//
6	// This class allows you to classify a given muon according to defined criteria. For this purpose
7	// is loads histograms from two ROOT files, specified in the constructor. The main function then
8	// is "IsGood(*muon, selection)" which returns true if the given muon fulfills the selection
9	// criteria.
10	//
11	// Logically, the code has been put together by Phil who took most of the ideas from
12	// http://cmslxr.fnal.gov/lxr/source/RecoMuon/MuonIdentification/
13	// http://cmslxr.fnal.gov/lxr/source/DataFormats/MuonReco/
14	//
15	// Authors: P.Harris, C.Loizides
16	//--------------------------------------------------------------------------------------------------
17
18	#ifndef MITPHYSICS_UTILS_MUONTOOLS_H
19	#define MITPHYSICS_UTILS_MUONTOOLS_H
20
21	#include "MitAna/DataTree/interface/Muon.h"
22	#include "MitAna/DataTree/interface/VertexCol.h"
23	#include "MitAna/DataTree/interface/BeamSpotCol.h"
24	#include "MitCommon/MathTools/interface/MathUtils.h"
25	#include "TH2D.h"
26
27	namespace mithep {
28	class MuonTools {
29	public:
30	MuonTools(const char *mutemp="$CMSSW_BASE/src/MitPhysics/data/MuonCaloTemplate.root",
31	const char *pitemp="$CMSSW_BASE/src/MitPhysics/data/PionCaloTemplate.root");
32	virtual ~MuonTools();
33
34	enum ESelType {
35	kAllArbitrated, //All arbitration (DT/CSC/RPC Hits) put on at least one
36	// segments given a global Muon
37	kPromptTight, //Standard global muon identification
38	kTMLastStationLoose, //Loose matching requirements on lastmost muon station of reco
39	kTMLastStationTight, //Tight matching requirements on lastmost muon station of reco
40	kTMOneStationLoose, //Loose matching requirements on at least one muon station of reco
41	kTMOneStationTight, //Tight matching requirements on at least one muon station of reco
42	kTM2DCompatibilityLoose, //Loose requirement on sum of compatabiliity variables
43	// ===> 1.2 Segment compatability + 0.8 calo compatability > 0.8
44	kTM2DCompatibilityTight //Tight requirement on sum of compatabiliity variables
45	// ===> 1.2 Segment compatability + 0.8 calo compatability > 1.2
46	};
47
48	Bool_t Init(const char mutemp, const char pitemp);
49	Bool_t IsGood(const mithep::Muon *iMuon, ESelType iSel) const;
50	Double_t GetCaloCompatability(const mithep::Muon *iMuon,
51	Bool_t iEMSpecial, Bool_t iCorrectedHCAL) const;
52	Double_t GetSegmentCompatability(const mithep::Muon *iMuon) const;
53	static Bool_t PassD0Cut(const Muon mu, const VertexCol vertices, Double_t fD0Cut, Int_t nVertex = 0);
54	static Bool_t PassD0Cut(const Muon mu, const BeamSpotCol beamspots, Double_t fD0Cut);
55	static Bool_t PassDZCut(const Muon mu, const VertexCol vertices, Double_t fDZCut);
56	static Bool_t PassSoftMuonCut(const Muon mu, const VertexCol vertices);
57
58	protected:
59	void DeleteHistos();
60	Bool_t Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const;
61	Double_t SigWeight(Double_t iVal0, Double_t iVal1) const;
62
63	private:
64	Bool_t fIsInit; //!=true if histograms are loaded
65	TH2D *fmuon_em_etaEmi; //!Neg Endcap EM Calo Deposit Template for Muons
66	TH2D *fmuon_had_etaEmi; //!Neg Endcap Hadronic Calo Deposit Template for Muons
67	TH2D *fmuon_had_etaTmi; //!Neg Transition Hadronic Calo Deposit Template for Muons
68	TH2D *fmuon_em_etaB; //!Barrel EM Calo Deposit Template for Muons
69	TH2D *fmuon_had_etaB; //!Barrel Hadronic Calo Deposit Template for Muons
70	TH2D *fmuon_ho_etaB; //!Barrel HO Calo Deposit Template for Muons
71	TH2D *fmuon_had_etaTpl; //!Plus Transition Hadronic Calo Deposit Template for Muons
72	TH2D *fmuon_em_etaEpl; //!Plus Endcap EM Calo Deposit Template for Muons
73	TH2D *fmuon_had_etaEpl; //!Plus Endcap Hadronic Calo Deposit Template for Muons
74	TH2D *fpion_em_etaEmi; //!Neg Endcap EM Calo Deposit Template for Pions
75	TH2D *fpion_had_etaEmi; //!Neg Endcap Hadronic Calo Deposit Template for Pions
76	TH2D *fpion_had_etaTmi; //!Neg Transition Hadronic Calo Deposit Template for Pions
77	TH2D *fpion_em_etaB; //!Barrel EM Calo Deposit Template for Pions
78	TH2D *fpion_had_etaB; //!Barrel Hadronic Calo Deposit Template for Pions
79	TH2D *fpion_ho_etaB; //!Barrel HO Calo Deposit Template for Pions
80	TH2D *fpion_had_etaTpl; //!Plus Transition Hadronic Calo Deposit Template for Pions
81	TH2D *fpion_em_etaEpl; //!Plus Endcap EM Calo Deposit Template for Pions
82	TH2D *fpion_had_etaEpl; //!Plus Endcap Hadronic Calo Deposit Template for Pions
83
84	TH2D LoadHisto(const char fname, TFile *file) const;
85
86	ClassDef(MuonTools, 0) // Muon tools
87	};
88	}
89
90	//--------------------------------------------------------------------------------------------------
91	inline Double_t mithep::MuonTools::SigWeight(Double_t iVal0, Double_t iVal1) const
92	{
93	// Returns weighted uncertainty given segment matching uncertainty (iVal0) and
94	// segment matching pull (iVal1).
95
96	if (iVal1 < 1.) //if pull defined and within range
97	return 1.;
98	if (iVal0 < 3. && iVal1 > 3.) { //if pull not well defined and uncertainty defined
99	Double_t lVal = TMath::Max(iVal0,1.);
100	return 1./TMath::Power(lVal,0.25);
101	}
102
103	Double_t lVal = TMath::Max(iVal1,1.); //if pull > 1 and pull < 3 return 1/pull^4
104	return 1./TMath::Power(lVal,0.25);
105	}
106	//--------------------------------------------------------------------------------------------------
107	inline Bool_t mithep::MuonTools::Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const
108	{
109	// Check if values are in overflow bins of given histogram.
110
111	if(iHist == 0)
112	return kTRUE;
113
114	if (iHist ->GetXaxis()->FindBin(lVal0) == 0 \|\|
115	iHist ->GetXaxis()->FindBin(lVal0) > iHist->GetNbinsX() \|\|
116	iHist ->GetYaxis()->FindBin(lVal1) == 0 \|\|
117	iHist ->GetYaxis()->FindBin(lVal1) > iHist->GetNbinsY()) {
118	return kTRUE;
119	}
120	return kFALSE;
121	}
122	#endif