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List of all members | Public Member Functions | Private Attributes
EpCombinationTool Class Reference

#include <EpCombinationTool.h>

Public Member Functions

void combine (SimpleElectron &mySimpleElectron) const
 
 EpCombinationTool ()
 
 EpCombinationTool (const EpCombinationTool &other)=delete
 
bool init (const GBRForest *forest)
 
bool init (const std::string &regressionFile, const std::string &bdtName)
 
EpCombinationTooloperator= (const EpCombinationTool &other)=delete
 
 ~EpCombinationTool ()
 

Private Attributes

const GBRForestm_forest
 
bool m_ownForest
 

Detailed Description

Definition at line 10 of file EpCombinationTool.h.

Constructor & Destructor Documentation

EpCombinationTool::EpCombinationTool ( )

Definition at line 12 of file EpCombinationTool.cc.

12  :
13  m_forest(NULL), m_ownForest(false)
14 /*****************************************************************/
15 {
16 }
const GBRForest * m_forest
#define NULL
Definition: scimark2.h:8
EpCombinationTool::~EpCombinationTool ( )

Definition at line 21 of file EpCombinationTool.cc.

References m_forest, and m_ownForest.

23 {
24  if(m_ownForest) delete m_forest;
25 }
const GBRForest * m_forest
EpCombinationTool::EpCombinationTool ( const EpCombinationTool other)
delete

Member Function Documentation

void EpCombinationTool::combine ( SimpleElectron mySimpleElectron) const

Definition at line 62 of file EpCombinationTool.cc.

References gather_cfg::cout, relval_parameters_module::energy, energyError(), mathSSE::sqrt(), and histoStyle::weight.

Referenced by ElectronEnergyCalibratorRun2::calibrate(), CalibratedPatElectronProducer::produce(), and CalibratedElectronProducer::produce().

64 {
65  if(!m_forest)
66  {
67  cout<<"ERROR: The combination tool is not initialized\n";
68  return;
69  }
70 
71  float energy = mySimpleElectron.getNewEnergy();
72  float energyError = mySimpleElectron.getNewEnergyError();
73  float momentum = mySimpleElectron.getTrackerMomentum();
74  float momentumError = mySimpleElectron.getTrackerMomentumError();
75  int electronClass = mySimpleElectron.getElClass();
76  bool isEcalDriven = mySimpleElectron.isEcalDriven();
77  bool isTrackerDriven = mySimpleElectron.isTrackerDriven();
78  bool isEB = mySimpleElectron.isEB();
79 
80  // compute relative errors and ratio of errors
81  float energyRelError = energyError / energy;
82  float momentumRelError = momentumError / momentum;
83  float errorRatio = energyRelError / momentumRelError;
84 
85  // calculate E/p and corresponding error
86  float eOverP = energy / momentum;
87  float eOverPerror = sqrt(
88  (energyError/momentum)*(energyError/momentum) +
89  (energy*momentumError/momentum/momentum)*
90  (energy*momentumError/momentum/momentum));
91 
92  // fill input variables
93  float regressionInputs[11];
94  regressionInputs[0] = energy;
95  regressionInputs[1] = energyRelError;
96  regressionInputs[2] = momentum;
97  regressionInputs[3] = momentumRelError;
98  regressionInputs[4] = errorRatio;
99  regressionInputs[5] = eOverP;
100  regressionInputs[6] = eOverPerror;
101  regressionInputs[7] = static_cast<float>(isEcalDriven);
102  regressionInputs[8] = static_cast<float>(isTrackerDriven);
103  regressionInputs[9] = static_cast<float>(electronClass);
104  regressionInputs[10] = static_cast<float>(isEB);
105 
106  // retrieve combination weight
107  float weight = 0.;
108  if(eOverP>0.025
109  &&fabs(momentum-energy)<15.*sqrt(momentumError*momentumError + energyError*energyError)
110  && ( (momentumError < 10.*momentum) || (energy < 200.) )
111  ) // protection against crazy track measurement
112  {
113  weight = m_forest->GetResponse(regressionInputs);
114  if(weight>1.) weight = 1.;
115  else if(weight<0.) weight = 0.;
116  }
117 
118  float combinedMomentum = weight*momentum + (1.-weight)*energy;
119  float combinedMomentumError = sqrt(weight*weight*momentumError*momentumError + (1.-weight)*(1.-weight)*energyError*energyError);
120 
121  // FIXME : pure tracker electrons have track momentum error of 999.
122  // If the combination try to combine such electrons then the original combined momentum is kept
123  if(momentumError!=999. || weight==0.)
124  {
125  mySimpleElectron.setCombinedMomentum(combinedMomentum);
126  mySimpleElectron.setCombinedMomentumError(combinedMomentumError);
127  }
128 }
double GetResponse(const float *vector) const
Definition: GBRForest.h:59
int getElClass() const
void setCombinedMomentum(double combinedMomentum)
double getTrackerMomentum() const
const GBRForest * m_forest
double getNewEnergy() const
bool isTrackerDriven() const
double getNewEnergyError() const
T sqrt(T t)
Definition: SSEVec.h:18
bool isEB() const
tuple cout
Definition: gather_cfg.py:145
int weight
Definition: histoStyle.py:50
void setCombinedMomentumError(double combinedMomentumError)
double getTrackerMomentumError() const
bool isEcalDriven() const
float energyError(float E, float *par)
bool EpCombinationTool::init ( const GBRForest forest)

Definition at line 52 of file EpCombinationTool.cc.

References m_forest, and m_ownForest.

Referenced by CalibratedElectronProducer::CalibratedElectronProducer(), and CalibratedPatElectronProducer::CalibratedPatElectronProducer().

53 {
54  if(m_ownForest) delete m_forest;
55  m_forest = forest;
56  m_ownForest = false;
57  return true;
58 }
const GBRForest * m_forest
bool EpCombinationTool::init ( const std::string &  regressionFile,
const std::string &  bdtName 
)

Definition at line 29 of file EpCombinationTool.cc.

References gather_cfg::cout, m_forest, and m_ownForest.

31 {
32  TFile* regressionFile = TFile::Open(regressionFileName.c_str());
33  if(!regressionFile)
34  {
35  cout<<"ERROR: Cannot open regression file "<<regressionFileName<<"\n";
36  return false;
37  }
38  if(m_ownForest) delete m_forest;
39  m_forest = (GBRForest*) regressionFile->Get(bdtName.c_str());
40  m_ownForest = true;
41  //regressionFile->GetObject(bdtName.c_str(), m_forest);
42  if(!m_forest)
43  {
44  cout<<"ERROR: Cannot find forest "<<bdtName<<" in "<<regressionFileName<<"\n";
45  regressionFile->Close();
46  return false;
47  }
48  regressionFile->Close();
49  return true;
50 }
const GBRForest * m_forest
tuple cout
Definition: gather_cfg.py:145
EpCombinationTool& EpCombinationTool::operator= ( const EpCombinationTool other)
delete

Member Data Documentation

const GBRForest* EpCombinationTool::m_forest
private

Definition at line 25 of file EpCombinationTool.h.

Referenced by init(), and ~EpCombinationTool().

bool EpCombinationTool::m_ownForest
private

Definition at line 26 of file EpCombinationTool.h.

Referenced by init(), and ~EpCombinationTool().