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StKinFitter Class Reference

#include <StKinFitter.h>

Inheritance diagram for StKinFitter:
TopKinFitter

Public Member Functions

StEvtSolution addKinFitInfo (StEvtSolution *asol)
 
 StKinFitter ()
 
 StKinFitter (int jetParam, int lepParam, int metParam, int maxNrIter, double maxDeltaS, double maxF, const std::vector< int > &constraints)
 
 StKinFitter (Param jetParam, Param lepParam, Param metParam, int maxNrIter, double maxDeltaS, double maxF, const std::vector< int > &constraints)
 
 ~StKinFitter ()
 
- Public Member Functions inherited from TopKinFitter
int fitNrIter () const
 return number of used iterations More...
 
double fitProb () const
 return fit probability More...
 
double fitS () const
 return chi2 of fit (not normalized to degrees of freedom) More...
 
void setVerbosity (const int verbosityLevel)
 allows to change the verbosity of the TKinFitter More...
 
 TopKinFitter (const int maxNrIter=200, const double maxDeltaS=5e-5, const double maxF=1e-4, const double mW=80.4, const double mTop=173.)
 default constructor More...
 
 ~TopKinFitter ()
 default destructor More...
 

Private Member Functions

void setupFitter ()
 

Private Attributes

TFitConstraintMcons1_
 
TFitConstraintMcons2_
 
TFitConstraintMcons3_
 
std::vector< int > constraints_
 
TAbsFitParticlefitBottom_
 
TAbsFitParticlefitLepton_
 
TAbsFitParticlefitLight_
 
TAbsFitParticlefitNeutrino_
 
Param jetParam_
 
Param lepParam_
 
Param metParam_
 

Additional Inherited Members

- Public Types inherited from TopKinFitter
enum  Param { kEMom, kEtEtaPhi, kEtThetaPhi }
 supported parameterizations More...
 
- Protected Member Functions inherited from TopKinFitter
std::string param (const Param &param) const
 convert Param to human readable form More...
 
- Protected Attributes inherited from TopKinFitter
TKinFitterfitter_
 kinematic fitter More...
 
double maxDeltaS_
 maximal allowed chi2 (not normalized to degrees of freedom) More...
 
double maxF_
 maximal allowed distance from constraints More...
 
int maxNrIter_
 maximal allowed number of iterations to be used for the fit More...
 
double mTop_
 top mass value used for constraints More...
 
double mW_
 W mass value used for constraints. More...
 

Detailed Description

Definition at line 19 of file StKinFitter.h.

Constructor & Destructor Documentation

StKinFitter::StKinFitter ( )

Definition at line 27 of file StKinFitter.cc.

References setupFitter().

27  :
28  TopKinFitter(),
29  jetParam_(kEMom),
30  lepParam_(kEMom),
32 {
33  setupFitter();
34 }
void setupFitter()
Definition: StKinFitter.cc:226
TopKinFitter(const int maxNrIter=200, const double maxDeltaS=5e-5, const double maxF=1e-4, const double mW=80.4, const double mTop=173.)
default constructor
Definition: TopKinFitter.cc:4
Param metParam_
Definition: StKinFitter.h:46
Param lepParam_
Definition: StKinFitter.h:46
Param jetParam_
Definition: StKinFitter.h:46
StKinFitter::StKinFitter ( int  jetParam,
int  lepParam,
int  metParam,
int  maxNrIter,
double  maxDeltaS,
double  maxF,
const std::vector< int > &  constraints 
)

Definition at line 36 of file StKinFitter.cc.

References setupFitter().

37  :
38  TopKinFitter(maxNrIter, maxDeltaS, maxF),
39  jetParam_((Param) jetParam),
40  lepParam_((Param) lepParam),
41  metParam_((Param) metParam),
43 {
44  setupFitter();
45 }
void setupFitter()
Definition: StKinFitter.cc:226
TopKinFitter(const int maxNrIter=200, const double maxDeltaS=5e-5, const double maxF=1e-4, const double mW=80.4, const double mTop=173.)
default constructor
Definition: TopKinFitter.cc:4
Param metParam_
Definition: StKinFitter.h:46
std::vector< int > constraints_
Definition: StKinFitter.h:47
Param lepParam_
Definition: StKinFitter.h:46
Param jetParam_
Definition: StKinFitter.h:46
StKinFitter::StKinFitter ( Param  jetParam,
Param  lepParam,
Param  metParam,
int  maxNrIter,
double  maxDeltaS,
double  maxF,
const std::vector< int > &  constraints 
)

Definition at line 47 of file StKinFitter.cc.

References setupFitter().

48  :
49  TopKinFitter(maxNrIter, maxDeltaS, maxF),
50  jetParam_(jetParam),
51  lepParam_(lepParam),
52  metParam_(metParam),
54 {
55  setupFitter();
56 }
void setupFitter()
Definition: StKinFitter.cc:226
TopKinFitter(const int maxNrIter=200, const double maxDeltaS=5e-5, const double maxF=1e-4, const double mW=80.4, const double mTop=173.)
default constructor
Definition: TopKinFitter.cc:4
Param metParam_
Definition: StKinFitter.h:46
std::vector< int > constraints_
Definition: StKinFitter.h:47
Param lepParam_
Definition: StKinFitter.h:46
Param jetParam_
Definition: StKinFitter.h:46
StKinFitter::~StKinFitter ( )

Definition at line 58 of file StKinFitter.cc.

References cons1_, cons2_, cons3_, fitBottom_, fitLepton_, fitLight_, and fitNeutrino_.

59 {
60  delete cons1_; delete cons2_; delete cons3_;
61  delete fitBottom_; delete fitLight_; delete fitLepton_; delete fitNeutrino_;
62 }
TAbsFitParticle * fitLight_
Definition: StKinFitter.h:38
TFitConstraintM * cons2_
Definition: StKinFitter.h:43
TFitConstraintM * cons3_
Definition: StKinFitter.h:44
TAbsFitParticle * fitBottom_
Definition: StKinFitter.h:37
TAbsFitParticle * fitNeutrino_
Definition: StKinFitter.h:40
TFitConstraintM * cons1_
Definition: StKinFitter.h:42
TAbsFitParticle * fitLepton_
Definition: StKinFitter.h:39

Member Function Documentation

StEvtSolution StKinFitter::addKinFitInfo ( StEvtSolution asol)

Definition at line 64 of file StKinFitter.cc.

References reco::LeafCandidate::energy(), reco::LeafCandidate::et(), res::HelperElectron::eta(), res::HelperMuon::eta(), res::HelperJet::eta(), eta(), reco::LeafCandidate::eta(), TKinFitter::fit(), fitBottom_, fitLepton_, fitLight_, fitNeutrino_, TopKinFitter::fitProb(), TopKinFitter::fitter_, StEvtSolution::getBottom(), TAbsFitParticle::getCurr4Vec(), StEvtSolution::getDecay(), StEvtSolution::getElectron(), StEvtSolution::getLight(), StEvtSolution::getMuon(), StEvtSolution::getNeutrino(), TKinFitter::getStatus(), jetParam_, res::HelperJet::kB, TopKinFitter::kEMom, TopKinFitter::kEtEtaPhi, TopKinFitter::kEtThetaPhi, res::HelperJet::kUds, lepParam_, CaloMET_cfi::met, res::HelperMET::met(), metParam_, res::HelperMuon::phi(), res::HelperElectron::phi(), res::HelperJet::phi(), res::HelperMET::phi(), funct::pow(), res::HelperElectron::pt(), res::HelperMuon::pt(), res::HelperJet::pt(), RecoTauCleanerPlugins::pt, reco::LeafCandidate::pt(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), reco::LeafCandidate::pz(), StEvtSolution::setChi2Prob(), TAbsFitParticle::setCovMatrix(), StEvtSolution::setFitBottom(), StEvtSolution::setFitLepton(), StEvtSolution::setFitLight(), StEvtSolution::setFitNeutrino(), and TAbsFitParticle::setIni4Vec().

Referenced by StEvtSolutionMaker::produce().

65 {
66  StEvtSolution fitsol(*asol);
67 
68  TMatrixD m1(3,3), m2(3,3);
69  TMatrixD m1b(4,4), m2b(4,4);
70  TMatrixD m3(3,3), m4(3,3);
71  m1.Zero(); m2.Zero();
72  m1b.Zero(); m2b.Zero();
73  m3.Zero(); m4.Zero();
74 
75  TLorentzVector bottomVec(fitsol.getBottom().px(),fitsol.getBottom().py(),
76  fitsol.getBottom().pz(),fitsol.getBottom().energy());
77  TLorentzVector lightVec(fitsol.getLight().px(),fitsol.getLight().py(),
78  fitsol.getLight().pz(),fitsol.getLight().energy());
79  TLorentzVector leplVec;
80  if(fitsol.getDecay()== "electron") leplVec = TLorentzVector(fitsol.getElectron().px(), fitsol.getElectron().py(),
81  fitsol.getElectron().pz(), fitsol.getElectron().energy());
82  if(fitsol.getDecay()== "muon") leplVec = TLorentzVector(fitsol.getMuon().px(), fitsol.getMuon().py(),
83  fitsol.getMuon().pz(), fitsol.getMuon().energy());
84  TLorentzVector lepnVec(fitsol.getNeutrino().px(), fitsol.getNeutrino().py(),
85  0, fitsol.getNeutrino().et());
86 
87  // jet resolutions
88  {
89  //FIXME this dirty hack needs a clean solution soon!
90  double pt = fitsol.getBottom().pt ();
91  double eta = fitsol.getBottom().eta();
92  res::HelperJet jetRes;
93  if (jetParam_ == kEMom) {
94  m1b(0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
95  m1b(1,1) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
96  m1b(2,2) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
97  m1b(3,3) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
98  m2b(0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
99  m2b(1,1) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
100  m2b(2,2) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
101  m2b(3,3) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
102  } else if (jetParam_ == kEtEtaPhi) {
103  m1 (0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
104  m1 (1,1) = pow(jetRes.eta(pt, eta, res::HelperJet::kB ), 2);
105  m1 (2,2) = pow(jetRes.phi(pt, eta, res::HelperJet::kB ), 2);
106  m2 (0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
107  m2 (1,1) = pow(jetRes.eta(pt, eta, res::HelperJet::kUds), 2);
108  m2 (2,2) = pow(jetRes.phi(pt, eta, res::HelperJet::kUds), 2);
109  } else if (jetParam_ == kEtThetaPhi) {
110  m1 (0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kB ), 2);
111  m1 (1,1) = pow(jetRes.eta(pt, eta, res::HelperJet::kB ), 2);
112  m1 (2,2) = pow(jetRes.phi(pt, eta, res::HelperJet::kB ), 2);
113  m2 (0,0) = pow(jetRes.pt (pt, eta, res::HelperJet::kUds), 2);
114  m2 (1,1) = pow(jetRes.eta(pt, eta, res::HelperJet::kUds), 2);
115  m2 (2,2) = pow(jetRes.phi(pt, eta, res::HelperJet::kUds), 2);
116  }
117  }
118  // lepton resolutions
119  {
120  //FIXME this dirty hack needs a clean solution soon!
121  double pt = fitsol.getElectron().pt ();
122  double eta = fitsol.getElectron().eta();
123  res::HelperMuon muonRes;
124  res::HelperElectron elecRes;
125  if (lepParam_ == kEMom) {
126  if(fitsol.getDecay()== "electron"){
127  m3(0,0) = pow(elecRes.pt (pt, eta), 2);
128  m3(1,1) = pow(elecRes.pt (pt, eta), 2);
129  m3(2,2) = pow(elecRes.pt (pt, eta), 2);
130  }
131  if(fitsol.getDecay()== "muon"){
132  m3(0,0) = pow(muonRes.pt (pt, eta), 2);
133  m3(1,1) = pow(muonRes.pt (pt, eta), 2);
134  m3(2,2) = pow(muonRes.pt (pt, eta), 2);
135  }
136  } else if (lepParam_ == kEtEtaPhi) {
137  if(fitsol.getDecay()== "electron"){
138  m3(0,0) = pow(elecRes.pt (pt, eta), 2);
139  m3(1,1) = pow(elecRes.eta(pt, eta), 2);
140  m3(2,2) = pow(elecRes.phi(pt, eta), 2);
141  }
142  if(fitsol.getDecay()== "muon"){
143  m3(0,0) = pow(muonRes.pt (pt, eta), 2);
144  m3(1,1) = pow(muonRes.eta(pt, eta), 2);
145  m3(2,2) = pow(muonRes.phi(pt, eta), 2);
146  }
147  } else if (lepParam_ == kEtThetaPhi) {
148  if(fitsol.getDecay()== "electron"){
149  m3(0,0) = pow(elecRes.pt (pt, eta), 2);
150  m3(1,1) = pow(elecRes.eta(pt, eta), 2);
151  m3(2,2) = pow(elecRes.phi(pt, eta), 2);
152  }
153  if(fitsol.getDecay()== "muon"){
154  m3(0,0) = pow(muonRes.pt (pt, eta), 2);
155  m3(1,1) = pow(muonRes.eta(pt, eta), 2);
156  m3(2,2) = pow(muonRes.phi(pt, eta), 2);
157  }
158  }
159  }
160  // neutrino resolutions
161  {
162  //FIXME this dirty hack needs a clean solution soon!
163  double met = fitsol.getNeutrino().pt();
164  res::HelperMET metRes;
165  if (metParam_ == kEMom) {
166  m4(0,0) = pow(metRes.met(met), 2);
167  m4(1,1) = pow( 9999., 2);
168  m4(2,2) = pow(metRes.met(met), 2);
169  } else if (metParam_ == kEtEtaPhi) {
170  m4(0,0) = pow(metRes.met(met), 2);
171  m4(1,1) = pow( 9999., 2);
172  m4(2,2) = pow(metRes.phi(met), 2);
173  } else if (metParam_ == kEtThetaPhi) {
174  m4(0,0) = pow(metRes.met(met), 2);
175  m4(1,1) = pow( 9999., 2);
176  m4(2,2) = pow(metRes.phi(met), 2);
177  }
178  }
179  // set the kinematics of the objects to be fitted
180  fitBottom_->setIni4Vec(&bottomVec);
181  fitLight_->setIni4Vec(&lightVec);
182  fitLepton_->setIni4Vec(&leplVec);
183  fitNeutrino_->setIni4Vec(&lepnVec);
184  if (jetParam_ == kEMom) {
185  fitBottom_->setCovMatrix(&m1b);
186  fitLight_->setCovMatrix(&m2b);
187  } else {
188  fitBottom_->setCovMatrix(&m1);
189  fitLight_->setCovMatrix(&m2);
190  }
191  fitLepton_->setCovMatrix(&m3);
193 
194  // perform the fit!
195  fitter_->fit();
196 
197  // add fitted information to the solution
198  if (fitter_->getStatus() == 0) {
199  // read back the jet kinematics and resolutions
202 
203  // read back the lepton kinematics and resolutions
205 
206  // read back the MET kinematics and resolutions
208 
209  // finally fill the fitted particles
210  fitsol.setFitBottom(aFitBottom);
211  fitsol.setFitLight(aFitLight);
212  fitsol.setFitLepton(aFitLepton);
213  fitsol.setFitNeutrino(aFitNeutrino);
214 
215  // store the fit's chi2 probability
216  fitsol.setChi2Prob( fitProb() );
217  }
218 
219  return fitsol;
220 
221 }
double pt(double pt, double eta, Flavor flav)
Definition: Jet.h:25
TAbsFitParticle * fitLight_
Definition: StKinFitter.h:38
tuple met
____________________________________________________________________________||
Definition: CaloMET_cfi.py:4
Int_t fit()
Definition: TKinFitter.cc:309
double phi(double pt, double eta, Flavor flav)
Definition: Jet.h:183
virtual void setIni4Vec(const TLorentzVector *pini)=0
double phi(double pt, double eta)
Definition: Electron.h:115
double phi(double pt)
Definition: MET.h:58
double pt(double pt, double eta)
Definition: Electron.h:23
double eta(double pt, double eta)
Definition: Electron.h:147
T eta() const
double fitProb() const
return fit probability
Definition: TopKinFitter.h:36
TAbsFitParticle * fitBottom_
Definition: StKinFitter.h:37
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:29
TAbsFitParticle * fitNeutrino_
Definition: StKinFitter.h:40
Param metParam_
Definition: StKinFitter.h:46
Int_t getStatus()
Definition: TKinFitter.h:41
virtual void setCovMatrix(const TMatrixD *theCovMatrix)
double eta(double pt, double eta, Flavor flav)
Definition: Jet.h:241
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
Analysis-level particle class.
Definition: Particle.h:32
Param lepParam_
Definition: StKinFitter.h:46
double eta(double pt, double eta)
Definition: Muon.h:141
const TLorentzVector * getCurr4Vec()
double pt(double pt, double eta)
Definition: Muon.h:23
TAbsFitParticle * fitLepton_
Definition: StKinFitter.h:39
TKinFitter * fitter_
kinematic fitter
Definition: TopKinFitter.h:46
Param jetParam_
Definition: StKinFitter.h:46
double phi(double pt, double eta)
Definition: Muon.h:109
double met(double met)
Definition: MET.h:23
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void StKinFitter::setupFitter ( )
private

Definition at line 226 of file StKinFitter.cc.

References TKinFitter::addConstraint(), TKinFitter::addMeasParticle(), TFitConstraintM::addParticle1(), TFitConstraintM::addParticles1(), cons1_, cons2_, cons3_, constraints_, gather_cfg::cout, fitBottom_, fitLepton_, fitLight_, fitNeutrino_, TopKinFitter::fitter_, i, jetParam_, TopKinFitter::kEMom, TopKinFitter::kEtEtaPhi, TopKinFitter::kEtThetaPhi, lepParam_, TopKinFitter::maxDeltaS_, TopKinFitter::maxF_, TopKinFitter::maxNrIter_, metParam_, TopKinFitter::mTop_, TopKinFitter::mW_, and TopKinFitter::param().

Referenced by StKinFitter().

226  {
227 
228  // FIXME: replace by messagelogger!!!
229 
230  std::cout<<std::endl<<std::endl<<"+++++++++++ KINFIT SETUP ++++++++++++"<<std::endl;
231  std::cout<<" jet parametrisation: " << param(jetParam_) << std::endl;
232  std::cout<<" lepton parametrisation: " << param(lepParam_) << std::endl;
233  std::cout<<" met parametrisation: " << param(metParam_) << std::endl;
234  std::cout<<" constraints: "<<std::endl;
235  for(unsigned int i=0; i<constraints_.size(); i++){
236  if(constraints_[i] == 1) std::cout<<" - hadronic W-mass"<<std::endl;
237  if(constraints_[i] == 2) std::cout<<" - leptonic W-mass"<<std::endl;
238  if(constraints_[i] == 3) std::cout<<" - hadronic top mass"<<std::endl;
239  if(constraints_[i] == 4) std::cout<<" - leptonic top mass"<<std::endl;
240  if(constraints_[i] == 5) std::cout<<" - neutrino mass"<<std::endl;
241  }
242  std::cout<<"Max. number of iterations: "<<maxNrIter_<<std::endl;
243  std::cout<<"Max. deltaS: "<<maxDeltaS_<<std::endl;
244  std::cout<<"Max. F: "<<maxF_<<std::endl;
245  std::cout<<"++++++++++++++++++++++++++++++++++++++++++++"<<std::endl<<std::endl<<std::endl;
246 
247  TMatrixD empty3(3,3); TMatrixD empty4(4,4);
248  if (jetParam_ == kEMom) {
249  fitBottom_ = new TFitParticleEMomDev("Jet1", "Jet1", 0, &empty4);
250  fitLight_ = new TFitParticleEMomDev("Jet2", "Jet2", 0, &empty4);
251  } else if (jetParam_ == kEtEtaPhi) {
252  fitBottom_ = new TFitParticleEtEtaPhi("Jet1", "Jet1", 0, &empty3);
253  fitLight_ = new TFitParticleEtEtaPhi("Jet2", "Jet2", 0, &empty3);
254  } else if (jetParam_ == kEtThetaPhi) {
255  fitBottom_ = new TFitParticleEtThetaPhi("Jet1", "Jet1", 0, &empty3);
256  fitLight_ = new TFitParticleEtThetaPhi("Jet2", "Jet2", 0, &empty3);
257  }
258  if (lepParam_ == kEMom) {
259  fitLepton_ = new TFitParticleEScaledMomDev("Lepton", "Lepton", 0, &empty3);
260  } else if (lepParam_ == kEtEtaPhi) {
261  fitLepton_ = new TFitParticleEtEtaPhi("Lepton", "Lepton", 0, &empty3);
262  } else if (lepParam_ == kEtThetaPhi) {
263  fitLepton_ = new TFitParticleEtThetaPhi("Lepton", "Lepton", 0, &empty3);
264  }
265  if (metParam_ == kEMom) {
266  fitNeutrino_ = new TFitParticleEScaledMomDev("Neutrino", "Neutrino", 0, &empty3);
267  } else if (metParam_ == kEtEtaPhi) {
268  fitNeutrino_ = new TFitParticleEtEtaPhi("Neutrino", "Neutrino", 0, &empty3);
269  } else if (metParam_ == kEtThetaPhi) {
270  fitNeutrino_ = new TFitParticleEtThetaPhi("Neutrino", "Neutrino", 0, &empty3);
271  }
272 
273  cons1_ = new TFitConstraintM("MassConstraint", "Mass-Constraint", 0, 0 , mW_);
275  cons2_ = new TFitConstraintM("MassConstraint", "Mass-Constraint", 0, 0, mTop_);
277  cons3_ = new TFitConstraintM("MassConstraint", "Mass-Constraint", 0, 0, 0.);
279 
280  for (unsigned int i=0; i<constraints_.size(); i++) {
284  }
289 
290 }
int i
Definition: DBlmapReader.cc:9
TAbsFitParticle * fitLight_
Definition: StKinFitter.h:38
TFitConstraintM * cons2_
Definition: StKinFitter.h:43
void addParticles1(TAbsFitParticle *p1, TAbsFitParticle *p2=0, TAbsFitParticle *p3=0, TAbsFitParticle *p4=0, TAbsFitParticle *p5=0, TAbsFitParticle *p6=0, TAbsFitParticle *p7=0, TAbsFitParticle *p8=0, TAbsFitParticle *p9=0, TAbsFitParticle *p10=0)
std::string param(const Param &param) const
convert Param to human readable form
Definition: TopKinFitter.cc:23
int maxNrIter_
maximal allowed number of iterations to be used for the fit
Definition: TopKinFitter.h:48
TFitConstraintM * cons3_
Definition: StKinFitter.h:44
TAbsFitParticle * fitBottom_
Definition: StKinFitter.h:37
TAbsFitParticle * fitNeutrino_
Definition: StKinFitter.h:40
Param metParam_
Definition: StKinFitter.h:46
void addConstraint(TAbsFitConstraint *constraint)
Definition: TKinFitter.cc:281
std::vector< int > constraints_
Definition: StKinFitter.h:47
double mW_
W mass value used for constraints.
Definition: TopKinFitter.h:54
void addMeasParticle(TAbsFitParticle *particle)
Definition: TKinFitter.cc:209
double maxDeltaS_
maximal allowed chi2 (not normalized to degrees of freedom)
Definition: TopKinFitter.h:50
Param lepParam_
Definition: StKinFitter.h:46
TFitConstraintM * cons1_
Definition: StKinFitter.h:42
void addParticle1(TAbsFitParticle *particle)
tuple cout
Definition: gather_cfg.py:121
TAbsFitParticle * fitLepton_
Definition: StKinFitter.h:39
TKinFitter * fitter_
kinematic fitter
Definition: TopKinFitter.h:46
Param jetParam_
Definition: StKinFitter.h:46
double mTop_
top mass value used for constraints
Definition: TopKinFitter.h:56
double maxF_
maximal allowed distance from constraints
Definition: TopKinFitter.h:52

Member Data Documentation

TFitConstraintM* StKinFitter::cons1_
private

Definition at line 42 of file StKinFitter.h.

Referenced by setupFitter(), and ~StKinFitter().

TFitConstraintM* StKinFitter::cons2_
private

Definition at line 43 of file StKinFitter.h.

Referenced by setupFitter(), and ~StKinFitter().

TFitConstraintM* StKinFitter::cons3_
private

Definition at line 44 of file StKinFitter.h.

Referenced by setupFitter(), and ~StKinFitter().

std::vector<int> StKinFitter::constraints_
private

Definition at line 47 of file StKinFitter.h.

Referenced by setupFitter().

TAbsFitParticle* StKinFitter::fitBottom_
private

Definition at line 37 of file StKinFitter.h.

Referenced by addKinFitInfo(), setupFitter(), and ~StKinFitter().

TAbsFitParticle* StKinFitter::fitLepton_
private

Definition at line 39 of file StKinFitter.h.

Referenced by addKinFitInfo(), setupFitter(), and ~StKinFitter().

TAbsFitParticle* StKinFitter::fitLight_
private

Definition at line 38 of file StKinFitter.h.

Referenced by addKinFitInfo(), setupFitter(), and ~StKinFitter().

TAbsFitParticle* StKinFitter::fitNeutrino_
private

Definition at line 40 of file StKinFitter.h.

Referenced by addKinFitInfo(), setupFitter(), and ~StKinFitter().

Param StKinFitter::jetParam_
private

Definition at line 46 of file StKinFitter.h.

Referenced by addKinFitInfo(), and setupFitter().

Param StKinFitter::lepParam_
private

Definition at line 46 of file StKinFitter.h.

Referenced by addKinFitInfo(), and setupFitter().

Param StKinFitter::metParam_
private

Definition at line 46 of file StKinFitter.h.

Referenced by addKinFitInfo(), and setupFitter().