Utils/src/IsolationTools.cc

// $Id: IsolationTools.cc,v 1.3 2009/03/03 18:11:19 bendavid Exp $

#include "MitPhysics/Utils/interface/IsolationTools.h"
#include "MitCommon/MathTools/interface/MathUtils.h"

ClassImp(mithep::IsolationTools)

using namespace mithep;

//--------------------------------------------------------------------------------------------------
Double_t IsolationTools::TrackIsolation(const Track *p, Double_t extRadius, Double_t intRadius,
                                        Double_t ptLow, Double_t maxVtxZDist, 
                                        const Collection<Track> *tracks) 
{
  //Computes the Track Isolation: Summed Transverse Momentum of all tracks inside an 
  //annulus around the electron seed track.  

  Double_t ptSum =0.;  
  for (UInt_t i=0; i<tracks->GetEntries();i++) {   
    Double_t tmpPt = tracks->At(i)->Pt();
    Double_t deltaZ = fabs(p->Z0() - tracks->At(i)->Z0());

    //ignore the track if it is below the pt threshold
    if (tmpPt < ptLow) 
      continue;    
    //ingore the track if it is too far away in Z
    if (deltaZ > maxVtxZDist) 
      continue;
           
    Double_t dr = MathUtils::DeltaR(p->Phi(),p->Eta(),tracks->At(i)->Phi(), tracks->At(i)->Eta());
    //add the track pt if it is inside the annulus
    if ( dr < extRadius && 
         dr >= intRadius ) {
      ptSum += tmpPt;
    }
  }
  return ptSum;  
}

//--------------------------------------------------------------------------------------------------
Double_t IsolationTools::EcalIsolation(const SuperCluster *sc, Double_t coneSize, Double_t etLow, 
                                       const Collection<BasicCluster> *basicClusters) 
{
  //Computes the Ecal Isolation: Summed Transverse Energy of all Basic Clusters inside a  
  //cone around the electron, excluding those that are inside the electron super cluster.

  Double_t ecalIsol=0.;
  const BasicCluster *basicCluster= 0;
  for (UInt_t i=0; i<basicClusters->GetEntries();i++) {    
    basicCluster = basicClusters->At(i);    
    Double_t basicClusterEnergy    = basicCluster->Energy();
    Double_t basicClusterEta  = basicCluster->Eta();
    Double_t basicClusterEt   = basicClusterEnergy*sin(2*atan(exp(basicClusterEta)));           

    if (basicClusterEt > etLow) {            
      bool inSuperCluster = false;        
      
      // loop over the basic clusters of the supercluster
      // to make sure that the basic cluster is not inside
      // the super cluster. We exclude those.
      for (UInt_t j=0; j<sc->ClusterSize(); j++) {
        const BasicCluster *tempBasicClusterInSuperCluster = sc->Cluster(j);    
        if (tempBasicClusterInSuperCluster == basicCluster) {
          inSuperCluster = true;            
        }
      }
      
      if (!inSuperCluster) {        
        Double_t dr = MathUtils::DeltaR(sc->Phi(), sc->Eta(),
                                      basicCluster->Phi(),basicCluster->Eta());
        if(dr < coneSize) {
          ecalIsol += basicClusterEt;
        }
      }
    }
  } 
  return ecalIsol;
}

//--------------------------------------------------------------------------------------------------
Double_t IsolationTools::CaloTowerHadIsolation(const ThreeVector *p, Double_t extRadius, 
                                               Double_t intRadius, Double_t etLow, 
                                               const Collection<CaloTower> *caloTowers) 
{
  //Computes the CaloTower Had Et Isolation: Summed Hadronic Transverse Energy of all Calo Towers 
  //inside an annulus around the electron super cluster position.

  Double_t sumEt = 0;
  for (UInt_t i=0; i<caloTowers->GetEntries();i++) {    
    Double_t caloTowerEt = caloTowers->At(i)->HadEt();
    Double_t dr = MathUtils::DeltaR(caloTowers->At(i)->Phi(), caloTowers->At(i)->Eta(),
                                  p->Phi(), p->Eta());
    if (dr < extRadius && dr > intRadius && caloTowerEt > etLow) {
      sumEt += caloTowerEt;
    }
  }
  return sumEt;
}

//--------------------------------------------------------------------------------------------------
Double_t IsolationTools::CaloTowerEmIsolation(const ThreeVector *p, Double_t extRadius, 
                                              Double_t intRadius, Double_t etLow, 
                                              const Collection<CaloTower> *caloTowers) 
{
  //Computes the CaloTower Em Et Isolation: Summed Hadronic Transverse Energy of all Calo Towers 
  //inside an annulus around the electron super cluster position.

  Double_t sumEt = 0;
  for (UInt_t i=0; i<caloTowers->GetEntries();i++) {    
    Double_t caloTowerEt = caloTowers->At(i)->EmEt();
    Double_t dr = MathUtils::DeltaR(caloTowers->At(i)->Phi(), caloTowers->At(i)->Eta(),
                                   p->Phi(), p->Eta());
    if (dr < extRadius && dr > intRadius && caloTowerEt > etLow) {
      sumEt += caloTowerEt;
    }
  }
  return sumEt;
}
Revision:	1.4
Committed:	Mon Jul 20 04:55:33 2009 UTC (15 years, 9 months ago) by loizides
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_018, Mit_017, Mit_017pre3, Mit_017pre2, Mit_017pre1, Mit_016, Mit_015b, Mit_015a, Mit_015, Mit_014e, Mit_014d, Mit_014c, Mit_014b, Mit_014a, Mit_014, Mit_014pre3, Mit_014pre2, Mit_014pre1, Mit_013d, Mit_013c, Mit_013b, Mit_013a, Mit_013, Mit_013pre1, Mit_012i, Mit_012g, Mit_012f, Mit_012e, Mit_012d, Mit_012c, Mit_012b, Mit_012a, Mit_012, Mit_011a, Mit_011, Mit_010a, Mit_010
Changes since 1.3:	+3 -1 lines
Log Message:	Changes for docu
#	Content
1	// $Id: IsolationTools.cc,v 1.3 2009/03/03 18:11:19 bendavid Exp $
2
3	#include "MitPhysics/Utils/interface/IsolationTools.h"
4	#include "MitCommon/MathTools/interface/MathUtils.h"
5
6	ClassImp(mithep::IsolationTools)
7
8	using namespace mithep;
9
10	//--------------------------------------------------------------------------------------------------
11	Double_t IsolationTools::TrackIsolation(const Track *p, Double_t extRadius, Double_t intRadius,
12	Double_t ptLow, Double_t maxVtxZDist,
13	const Collection<Track> *tracks)
14	{
15	//Computes the Track Isolation: Summed Transverse Momentum of all tracks inside an
16	//annulus around the electron seed track.
17
18	Double_t ptSum =0.;
19	for (UInt_t i=0; i<tracks->GetEntries();i++) {
20	Double_t tmpPt = tracks->At(i)->Pt();
21	Double_t deltaZ = fabs(p->Z0() - tracks->At(i)->Z0());
22
23	//ignore the track if it is below the pt threshold
24	if (tmpPt < ptLow)
25	continue;
26	//ingore the track if it is too far away in Z
27	if (deltaZ > maxVtxZDist)
28	continue;
29
30	Double_t dr = MathUtils::DeltaR(p->Phi(),p->Eta(),tracks->At(i)->Phi(), tracks->At(i)->Eta());
31	//add the track pt if it is inside the annulus
32	if ( dr < extRadius &&
33	dr >= intRadius ) {
34	ptSum += tmpPt;
35	}
36	}
37	return ptSum;
38	}
39
40	//--------------------------------------------------------------------------------------------------
41	Double_t IsolationTools::EcalIsolation(const SuperCluster *sc, Double_t coneSize, Double_t etLow,
42	const Collection<BasicCluster> *basicClusters)
43	{
44	//Computes the Ecal Isolation: Summed Transverse Energy of all Basic Clusters inside a
45	//cone around the electron, excluding those that are inside the electron super cluster.
46
47	Double_t ecalIsol=0.;
48	const BasicCluster *basicCluster= 0;
49	for (UInt_t i=0; i<basicClusters->GetEntries();i++) {
50	basicCluster = basicClusters->At(i);
51	Double_t basicClusterEnergy = basicCluster->Energy();
52	Double_t basicClusterEta = basicCluster->Eta();
53	Double_t basicClusterEt = basicClusterEnergysin(2atan(exp(basicClusterEta)));
54
55	if (basicClusterEt > etLow) {
56	bool inSuperCluster = false;
57
58	// loop over the basic clusters of the supercluster
59	// to make sure that the basic cluster is not inside
60	// the super cluster. We exclude those.
61	for (UInt_t j=0; j<sc->ClusterSize(); j++) {
62	const BasicCluster *tempBasicClusterInSuperCluster = sc->Cluster(j);
63	if (tempBasicClusterInSuperCluster == basicCluster) {
64	inSuperCluster = true;
65	}
66	}
67
68	if (!inSuperCluster) {
69	Double_t dr = MathUtils::DeltaR(sc->Phi(), sc->Eta(),
70	basicCluster->Phi(),basicCluster->Eta());
71	if(dr < coneSize) {
72	ecalIsol += basicClusterEt;
73	}
74	}
75	}
76	}
77	return ecalIsol;
78	}
79
80	//--------------------------------------------------------------------------------------------------
81	Double_t IsolationTools::CaloTowerHadIsolation(const ThreeVector *p, Double_t extRadius,
82	Double_t intRadius, Double_t etLow,
83	const Collection<CaloTower> *caloTowers)
84	{
85	//Computes the CaloTower Had Et Isolation: Summed Hadronic Transverse Energy of all Calo Towers
86	//inside an annulus around the electron super cluster position.
87
88	Double_t sumEt = 0;
89	for (UInt_t i=0; i<caloTowers->GetEntries();i++) {
90	Double_t caloTowerEt = caloTowers->At(i)->HadEt();
91	Double_t dr = MathUtils::DeltaR(caloTowers->At(i)->Phi(), caloTowers->At(i)->Eta(),
92	p->Phi(), p->Eta());
93	if (dr < extRadius && dr > intRadius && caloTowerEt > etLow) {
94	sumEt += caloTowerEt;
95	}
96	}
97	return sumEt;
98	}
99
100	//--------------------------------------------------------------------------------------------------
101	Double_t IsolationTools::CaloTowerEmIsolation(const ThreeVector *p, Double_t extRadius,
102	Double_t intRadius, Double_t etLow,
103	const Collection<CaloTower> *caloTowers)
104	{
105	//Computes the CaloTower Em Et Isolation: Summed Hadronic Transverse Energy of all Calo Towers
106	//inside an annulus around the electron super cluster position.
107
108	Double_t sumEt = 0;
109	for (UInt_t i=0; i<caloTowers->GetEntries();i++) {
110	Double_t caloTowerEt = caloTowers->At(i)->EmEt();
111	Double_t dr = MathUtils::DeltaR(caloTowers->At(i)->Phi(), caloTowers->At(i)->Eta(),
112	p->Phi(), p->Eta());
113	if (dr < extRadius && dr > intRadius && caloTowerEt > etLow) {
114	sumEt += caloTowerEt;
115	}
116	}
117	return sumEt;
118	}