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//--------------------------------------------------------------------------------------------------
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// $Id: MuonTools.h,v 1.21 2012/01/23 20:05:20 sixie Exp $
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//
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// MuonTools
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//
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// This class allows you to classify a given muon according to defined criteria. For this purpose
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// is loads histograms from two ROOT files, specified in the constructor. The main function then
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// is "IsGood(*muon, selection)" which returns true if the given muon fulfills the selection
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// criteria.
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//
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// Logically, the code has been put together by Phil who took most of the ideas from
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// http://cmslxr.fnal.gov/lxr/source/RecoMuon/MuonIdentification/
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// http://cmslxr.fnal.gov/lxr/source/DataFormats/MuonReco/
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//
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// Authors: P.Harris, C.Loizides
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//--------------------------------------------------------------------------------------------------
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#ifndef MITPHYSICS_UTILS_MUONTOOLS_H
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#define MITPHYSICS_UTILS_MUONTOOLS_H
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#include "MitAna/DataTree/interface/Muon.h"
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#include "MitAna/DataTree/interface/VertexCol.h"
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#include "MitAna/DataTree/interface/BeamSpotCol.h"
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#include "MitCommon/MathTools/interface/MathUtils.h"
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#include "TH2D.h"
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namespace mithep {
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class MuonTools {
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public:
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MuonTools(const char *mutemp="$CMSSW_BASE/src/MitPhysics/data/MuonCaloTemplate.root",
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const char *pitemp="$CMSSW_BASE/src/MitPhysics/data/PionCaloTemplate.root");
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virtual ~MuonTools();
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enum ESelType {
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kAllArbitrated, //All arbitration (DT/CSC/RPC Hits) put on at least one
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// segments given a global Muon
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kPromptTight, //Standard global muon identification
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kTMLastStationLoose, //Loose matching requirements on lastmost muon station of reco
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kTMLastStationTight, //Tight matching requirements on lastmost muon station of reco
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kTMOneStationLoose, //Loose matching requirements on at least one muon station of reco
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kTMOneStationTight, //Tight matching requirements on at least one muon station of reco
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kTM2DCompatibilityLoose, //Loose requirement on sum of compatabiliity variables
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// ===> 1.2 Segment compatability + 0.8 calo compatability > 0.8
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kTM2DCompatibilityTight //Tight requirement on sum of compatabiliity variables
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// ===> 1.2 Segment compatability + 0.8 calo compatability > 1.2
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};
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enum EMuonEffectiveAreaType {
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kMuChargedIso03,
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kMuNeutralIso03,
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kMuChargedIso04,
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kMuNeutralIso04,
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kMuHadEnergy,
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kMuHoEnergy,
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kMuEmEnergy,
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kMuHadS9Energy,
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kMuHoS9Energy,
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kMuEmS9Energy,
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kMuTrkIso03,
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kMuEMIso03,
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kMuHadIso03,
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kMuTrkIso05,
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kMuEMIso05,
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kMuHadIso05,
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kMuGammaIsoDR0p0To0p1,
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kMuGammaIsoDR0p1To0p2,
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kMuGammaIsoDR0p2To0p3,
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kMuGammaIsoDR0p3To0p4,
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kMuGammaIsoDR0p4To0p5,
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kMuNeutralHadronIsoDR0p0To0p1,
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kMuNeutralHadronIsoDR0p1To0p2,
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kMuNeutralHadronIsoDR0p2To0p3,
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kMuNeutralHadronIsoDR0p3To0p4,
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kMuNeutralHadronIsoDR0p4To0p5
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};
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enum EMuonEffectiveAreaTarget {
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kMuEANoCorr,
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kMuEAData2011,
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kMuEASummer11MC,
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kMuEAFall11MC
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};
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Bool_t Init(const char *mutemp, const char *pitemp);
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Bool_t IsGood(const mithep::Muon *iMuon, ESelType iSel) const;
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Double_t GetCaloCompatability(const mithep::Muon *iMuon,
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Bool_t iEMSpecial, Bool_t iCorrectedHCAL) const;
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Double_t GetSegmentCompatability(const mithep::Muon *iMuon) const;
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static Bool_t PassD0Cut(const Muon *mu, const VertexCol *vertices, Double_t fD0Cut, Int_t nVertex = 0);
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static Bool_t PassD0Cut(const Muon *mu, const BeamSpotCol *beamspots, Double_t fD0Cut);
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static Bool_t PassDZCut(const Muon *mu, const VertexCol *vertices, Double_t fDZCut, Int_t nVertex = 0);
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static Bool_t PassSoftMuonCut(const Muon *mu, const VertexCol *vertices, const Double_t fDZCut = 0.2,
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const Bool_t applyIso = kTRUE);
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static Double_t MuonEffectiveArea(EMuonEffectiveAreaType type, Double_t Eta,
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EMuonEffectiveAreaTarget EffectiveAreaTarget = kMuEAData2011);
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protected:
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void DeleteHistos();
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Bool_t Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const;
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Double_t SigWeight(Double_t iVal0, Double_t iVal1) const;
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private:
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Bool_t fIsInit; //!=true if histograms are loaded
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TH2D *fmuon_em_etaEmi; //!Neg Endcap EM Calo Deposit Template for Muons
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TH2D *fmuon_had_etaEmi; //!Neg Endcap Hadronic Calo Deposit Template for Muons
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TH2D *fmuon_had_etaTmi; //!Neg Transition Hadronic Calo Deposit Template for Muons
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TH2D *fmuon_em_etaB; //!Barrel EM Calo Deposit Template for Muons
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TH2D *fmuon_had_etaB; //!Barrel Hadronic Calo Deposit Template for Muons
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TH2D *fmuon_ho_etaB; //!Barrel HO Calo Deposit Template for Muons
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TH2D *fmuon_had_etaTpl; //!Plus Transition Hadronic Calo Deposit Template for Muons
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TH2D *fmuon_em_etaEpl; //!Plus Endcap EM Calo Deposit Template for Muons
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TH2D *fmuon_had_etaEpl; //!Plus Endcap Hadronic Calo Deposit Template for Muons
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TH2D *fpion_em_etaEmi; //!Neg Endcap EM Calo Deposit Template for Pions
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TH2D *fpion_had_etaEmi; //!Neg Endcap Hadronic Calo Deposit Template for Pions
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TH2D *fpion_had_etaTmi; //!Neg Transition Hadronic Calo Deposit Template for Pions
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TH2D *fpion_em_etaB; //!Barrel EM Calo Deposit Template for Pions
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TH2D *fpion_had_etaB; //!Barrel Hadronic Calo Deposit Template for Pions
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TH2D *fpion_ho_etaB; //!Barrel HO Calo Deposit Template for Pions
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TH2D *fpion_had_etaTpl; //!Plus Transition Hadronic Calo Deposit Template for Pions
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TH2D *fpion_em_etaEpl; //!Plus Endcap EM Calo Deposit Template for Pions
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TH2D *fpion_had_etaEpl; //!Plus Endcap Hadronic Calo Deposit Template for Pions
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TH2D *LoadHisto(const char *fname, TFile *file) const;
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ClassDef(MuonTools, 0) // Muon tools
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};
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}
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//--------------------------------------------------------------------------------------------------
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inline Double_t mithep::MuonTools::SigWeight(Double_t iVal0, Double_t iVal1) const
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{
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// Returns weighted uncertainty given segment matching uncertainty (iVal0) and
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// segment matching pull (iVal1).
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if (iVal1 < 1.) //if pull defined and within range
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return 1.;
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if (iVal0 < 3. && iVal1 > 3.) { //if pull not well defined and uncertainty defined
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Double_t lVal = TMath::Max(iVal0,1.);
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return 1./TMath::Power(lVal,0.25);
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}
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Double_t lVal = TMath::Max(iVal1,1.); //if pull > 1 and pull < 3 return 1/pull^4
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return 1./TMath::Power(lVal,0.25);
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}
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//--------------------------------------------------------------------------------------------------
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inline Bool_t mithep::MuonTools::Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const
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{
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// Check if values are in overflow bins of given histogram.
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if(iHist == 0)
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return kTRUE;
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if (iHist ->GetXaxis()->FindBin(lVal0) == 0 ||
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iHist ->GetXaxis()->FindBin(lVal0) > iHist->GetNbinsX() ||
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iHist ->GetYaxis()->FindBin(lVal1) == 0 ||
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iHist ->GetYaxis()->FindBin(lVal1) > iHist->GetNbinsY()) {
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return kTRUE;
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}
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return kFALSE;
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}
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#endif
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