db/dd8/TSLToyGen_8cc_source.html

 #include <iostream>

 #include "PhysicsTools/KinFitter/interface/TSLToyGen.h"

 #include "TMatrixD.h"

 #include "PhysicsTools/KinFitter/interface/TFitConstraintM.h"

 #include "PhysicsTools/KinFitter/interface/TFitConstraintEp.h"

 #include "PhysicsTools/KinFitter/interface/TAbsFitParticle.h"

 #include "TH1.h"

 #include "TMath.h"

 #include "TRandom.h"

 #include "TString.h"


 TSLToyGen::TSLToyGen( const TAbsFitParticle* bReco, const TAbsFitParticle* lepton,

               const TAbsFitParticle* X, const TAbsFitParticle* neutrino):

   _inimeasParticles(0),

   _iniunmeasParticles(0),

   _measParticles(0),

   _unmeasParticles(0),

   _Y4S(0., 0., 0.)


 {


   // Clone input particles

   _iniBreco = bReco->clone( bReco->GetName() + (TString) "INI" );

   _breco = bReco->clone( bReco->GetName() + (TString) "SMEAR" );

   _iniLepton = lepton->clone( lepton->GetName() + (TString) "INI" );

   _lepton = lepton->clone( lepton->GetName() + (TString) "SMEAR" );

   _iniX = X->clone( X->GetName() + (TString) "INI" );

   _X = X->clone( X->GetName() + (TString) "SMEAR" );

   _iniNeutrino = neutrino->clone( neutrino->GetName() +(TString)  "INI" );

   _neutrino = neutrino->clone( neutrino->GetName() + (TString) "SMEAR" );


   _printPartIni = false;

   _printConsIni = false;

   _printSmearedPartBefore = false;

   _printConsBefore = false;

   _printConsAfter = false;

   _printPartAfter = false;

   _withMassConstraint = false;

   _withMPDGCons = false;

   _doCheckConstraintsTruth = true;

 }


 TSLToyGen::~TSLToyGen() {


   delete _iniBreco;

   delete _iniLepton;

   delete _iniX;

   delete _iniNeutrino;


   delete _breco;

   delete _lepton;

   delete _X;

   delete _neutrino;


 }


 Bool_t TSLToyGen::doToyExperiments( Int_t nbExperiments ) {


   // define fitter

   TKinFitter fitter;


   std::vector<TAbsFitParticle*> ParVec(0);

   ParVec.push_back(_breco);

   ParVec.push_back(_lepton);

   ParVec.push_back(_X);

   ParVec.push_back(_neutrino);


   fitter.addMeasParticle(_breco);

   _inimeasParticles.push_back( _iniBreco );

   _measParticles.push_back( _breco );

   fitter.addMeasParticle(_lepton);

   _inimeasParticles.push_back( _iniLepton );

   _measParticles.push_back( _lepton );

   fitter.addMeasParticle(_X);

   _inimeasParticles.push_back( _iniX );

   _measParticles.push_back( _X );

   fitter.addUnmeasParticle(_neutrino);

   _iniunmeasParticles.push_back( _iniNeutrino );

   _iniunmeasParticles.push_back( _neutrino );


  // Calculate Y4S

   _Y4S.SetXYZ(0., 0., 0.);

   for (unsigned int p = 0;  p < _inimeasParticles.size(); p++) {

     _Y4S += _inimeasParticles[p]->getIni4Vec()->Vect();

   }

   _Y4S += _iniNeutrino->getIni4Vec()->Vect();

   //_Y4S.SetXYZ(-0.1212, -0.0033, 5.8784);

   Double_t EY4S = TMath::Sqrt( _Y4S.Mag2() + 10.58*10.58 );

   //  std::cout << "_Y4S : " <<_Y4S.x() << " / " << _Y4S.y() << " / " << _Y4S.z() << " / " <<EY4S<< std::endl;


   TFitConstraintEp pXCons( "pX", "pX", &ParVec, TFitConstraintEp::pX, _Y4S.x() );

   TFitConstraintEp pYCons( "pY", "pY", &ParVec, TFitConstraintEp::pY, _Y4S.y() );

   TFitConstraintEp pZCons( "pZ", "pZ", &ParVec, TFitConstraintEp::pZ, _Y4S.z() );

   TFitConstraintEp ECons( "E", "E", &ParVec, TFitConstraintEp::E, EY4S );

   TFitConstraintM MCons( "MassConstraint", "Mass-Constraint", 0, 0 ,0);

   MCons.addParticle1( _breco );

   MCons.addParticles2( _lepton, _neutrino, _X );

   TFitConstraintM MPDGCons( "MPDGCons", "MPDGCons", 0, 0 , 5.279 );

   MPDGCons.addParticles1( _lepton, _neutrino, _X );

 //   TFitConstraintE EBCons( "EBXlnuCons", "EBXlnuCons", 0, 0 );

 //   EBCons.addParticle1( _breco );

 //   EBCons.addParticles2( _lepton, _neutrino, _X );


   fitter.addConstraint(&pXCons);

   fitter.addConstraint(&pYCons);

   fitter.addConstraint(&pZCons);

   fitter.addConstraint(&ECons);

   if (_withMassConstraint)

     fitter.addConstraint(&MCons);

   if(_withMPDGCons)

      fitter.addConstraint(&MPDGCons);

   // fitter.addConstraint(&EBCons);


   fitter.setMaxNbIter( 50 );

   fitter.setMaxDeltaS( 5e-5 );

   fitter.setMaxF( 1e-4 );

   fitter.setVerbosity(0);


   if( _printPartIni ) {

     std::cout << std::endl

           << "----------------------------------" << std::endl;

     std::cout << "--- PRINTING INITIAL PARTICLES ---" << std::endl;

     std::cout << "----------------------------------" << std::endl ;

     _iniBreco->print();

     _iniLepton->print();

     _iniX->print();

     _iniNeutrino->print();

     std::cout << std::endl << std::endl;

   }


   if( _printConsIni ) {

     std::cout << std::endl

           << "-------------------------------------------------" << std::endl;

     std::cout << "INITIAL CONSTRAINTS " << std::endl ;

     std::cout << "-------------------------------------------------" << std::endl;

     std::cout << "     M: " << MCons.getCurrentValue()

           << "  MPDG: " << MPDGCons.getCurrentValue()

           << "    px: " << pXCons.getCurrentValue()

           << "    py: " << pYCons.getCurrentValue()

           << "    pz: " << pZCons.getCurrentValue()

           << "     E: " << ECons.getCurrentValue() << std::endl << std::endl;

   }


   // Check initial constraints

   if (  _doCheckConstraintsTruth ) {

     if (fitter.getF() > fitter.getMaxF()) {

       //std::cout << "Initial constraints are not fulfilled." << std::endl;

       return false;

     }

   }


   // create histograms

   createHists();


   // perform pseudo experiments

   for (int i = 0; i < nbExperiments; i++) {


     smearParticles();


     if( _printSmearedPartBefore ) {

       std::cout <<  std::endl

         << "-------------------------------------------------------" << std::endl ;

       std::cout << "--- PRINTING SMEARED PARTICLES BEFORE FIT FOR experiment # " <<i+1 << std::endl;

       std::cout << "-------------------------------------------------------" << std::endl;

       _breco->print();

       _lepton->print();

       _X->print();

       _neutrino->print();

     }


     if( _printConsBefore ) {

       std::cout << std::endl

         << "-------------------------------------------------" << std::endl;

       std::cout << "INITIAL (SMEARED) CONSTRAINTS FOR experiment # "<< i+1 << std::endl ;

       std::cout << "-------------------------------------------------" << std::endl;

       std::cout << "     M: " << MCons.getCurrentValue()

         << "    px: " << pXCons.getCurrentValue()

         << "    py: " << pYCons.getCurrentValue()

         << "    pz: " << pZCons.getCurrentValue()

         << "     E: " << ECons.getCurrentValue() << std::endl << std::endl;

     }


     fitter.fit();


     if( _printConsAfter) {

       std::cout << std::endl

         << "-------------------------------------------------" << std::endl;

       std::cout << " CONSTRAINTS AFTER FIT FOR experiment # "<< i+1 << std::endl ;

       std::cout << "-------------------------------------------------" << std::endl;

       std::cout << "     M: " << MCons.getCurrentValue()

         << "  MPDG: " << MPDGCons.getCurrentValue()

         << "    px: " << pXCons.getCurrentValue()

         << "    py: " << pYCons.getCurrentValue()

         << "    pz: " << pZCons.getCurrentValue()

         << "     E: " << ECons.getCurrentValue() << std::endl << std::endl;

     }


     if( _printPartAfter ) {

       std::cout <<  std::endl

         << "--------------------------------------------------------" << std::endl ;

       std::cout << "--- PRINTING PARTICLES AFTER FIT FOR experiment # "<< i+1 << std::endl;

       std::cout << "--------------------------------------------------------" << std::endl;

       _breco->print();

       _lepton->print();

       _X->print();

       _neutrino->print();

     }


     _histStatus->Fill( fitter.getStatus() );

     _histNIter->Fill( fitter.getNbIter() );

     if ( fitter.getStatus() == 0 ) {

       _histPChi2->Fill( TMath::Prob( fitter.getS(), fitter.getNDF() ) );

       _histChi2->Fill( fitter.getS());

       fillPull1();

       fillPull2();

       fillPar();

       fillM();

     }


     if (i % 176 == 0) {

       std::cout << "\r";

       std::cout <<" ------ "<< (Double_t) i/nbExperiments*100. << " % PROCESSED ------";

       std::cout.flush();

     }

   }


   return true;


 }


 void TSLToyGen::smearParticles() {

   // Smear measured particles


   for (unsigned int p = 0; p < _measParticles.size(); p++) {


     TAbsFitParticle* particle =  _measParticles[p];

     TAbsFitParticle* iniParticle =  _inimeasParticles[p];

     TMatrixD parIni( *(iniParticle->getParIni()) );

     const TMatrixD* covM = iniParticle->getCovMatrix();

     for (int m = 0; m < iniParticle->getNPar(); m++) {

       parIni(m, 0) += gRandom->Gaus(0., TMath::Sqrt( (*covM)(m,m) ) );

     }

     TLorentzVector* ini4Vec = iniParticle->calc4Vec( &parIni );

     particle->setIni4Vec( ini4Vec );

     delete ini4Vec;

     TLorentzVector vectrue( *_inimeasParticles[p]->getIni4Vec() );

     TMatrixD* partrue = _measParticles[p]->transform( vectrue );

     //_measParticles[p]->setParIni(partrue);

     delete partrue;

   }


   // Calculate neutrino

   TVector3 nuP3 = _Y4S;

   for (unsigned int p = 0;  p < _measParticles.size(); p++) {

     nuP3 -= _measParticles[p]->getCurr4Vec()->Vect();

   }

   TLorentzVector ini4VecNeutrino  ;

   ini4VecNeutrino.SetXYZM( nuP3.X(), nuP3.Y(), nuP3.Z(), 0. );

   _neutrino->setIni4Vec( &ini4VecNeutrino );


 }


 void TSLToyGen::fillPull1() {


   Int_t histindex = 0;

   for (unsigned int p = 0; p < _measParticles.size(); p++) {


     //const TAbsFitParticle* particle = _measParticles[p];

     TLorentzVector vectrue( *_inimeasParticles[p]->getIni4Vec() );

     TMatrixD* partrue = _measParticles[p]->transform( vectrue );

     const TMatrixD* parfit = _measParticles[p]->getParCurr();


     TMatrixD parpull( *parfit );

     parpull -= (*partrue);

     const TMatrixD* covMatrixFit = _measParticles[p]->getCovMatrixFit();

     for (int i = 0; i < parpull.GetNrows(); i++) {


       ((TH1D*) _histsDiff1[histindex])->Fill( parpull(i, 0) );

       parpull(i, 0) /= TMath::Sqrt( (*covMatrixFit)(i, i) );

       ((TH1D*) _histsPull1[histindex])->Fill( parpull(i, 0) );

       ((TH1D*) _histsError1[histindex])->Fill( TMath::Sqrt( (*covMatrixFit)(i, i) ) );

       histindex++;


     }

     delete partrue;


   }


 }


 void TSLToyGen::fillPull2() {


   Int_t histindex = 0;

   for (unsigned int p = 0; p <  _measParticles.size(); p++) {


     const TMatrixD* pull = _measParticles[p]->getPull();

     const TMatrixD* VDeltaY = _measParticles[p]->getCovMatrixDeltaY();

     TMatrixD pardiff( *(_measParticles[p]->getParCurr()) );

     pardiff -= *(_measParticles[p]->getParIni());

     for (int i = 0; i < pull->GetNrows(); i++) {

       ( (TH1D*) _histsPull2[histindex])->Fill( (*pull)(i, 0) );

       ( (TH1D*) _histsError2[histindex])->Fill( TMath::Sqrt( (*VDeltaY)(i, i) ) );

       ( (TH1D*) _histsDiff2[histindex])->Fill( pardiff(i, 0) );

       histindex++;

     }

   }


 }


 void TSLToyGen::fillPar() {


   Int_t histindex = 0;

   for (unsigned int p = 0; p <  _measParticles.size(); p++) {


     const TMatrixD* partrue = _inimeasParticles[p]->getParIni();

     const TMatrixD* parsmear = _measParticles[p]->getParIni();

     const TMatrixD* parfit = _measParticles[p]->getParCurr();

     for (int i = 0; i < partrue->GetNrows(); i++) {

       ( (TH1D*) _histsParTrue[histindex])->Fill( (*partrue)(i, 0) );

       ( (TH1D*) _histsParSmear[histindex])->Fill( (*parsmear)(i, 0) );

       ( (TH1D*) _histsParFit[histindex])->Fill( (*parfit)(i, 0) );

       histindex++;

     }

   }


 }


 void TSLToyGen::fillM() {


   _histMBrecoTrue->Fill( _iniBreco->getIni4Vec()->M() );

   _histMBrecoSmear->Fill( _breco->getIni4Vec()->M() );

   _histMBrecoFit->Fill( _breco->getCurr4Vec()->M() );


   _histMXTrue->Fill( _iniX->getIni4Vec()->M() );

   _histMXSmear->Fill( _X->getIni4Vec()->M() );

   _histMXFit->Fill( _X->getCurr4Vec()->M() );


   TLorentzVector xlnutrue =  *(_iniLepton->getIni4Vec());

   xlnutrue += *(_iniX->getIni4Vec());

   xlnutrue += *(_iniNeutrino->getIni4Vec());

   _histMXlnuTrue->Fill( xlnutrue.M() );


   TLorentzVector xlnusmear =  *(_lepton->getIni4Vec());

   xlnusmear += *(_X->getIni4Vec());

   xlnusmear += *(_neutrino->getIni4Vec());

   _histMXlnuSmear->Fill( xlnusmear.M() );


   TLorentzVector xlnufit =  *(_lepton->getCurr4Vec());

   xlnufit += *(_X->getCurr4Vec());

   xlnufit += *(_neutrino->getCurr4Vec());

   _histMXlnuFit->Fill( xlnufit.M() );


 }


 void  TSLToyGen::createHists() {


   _histStatus = new TH1D( "hStatus", "Status of the Fit", 16, -1, 15);

   _histNIter = new TH1D( "hNIter", "Number of iterations", 100, 0, 100);

   _histPChi2 = new TH1D( "hPChi2", "Chi2 probability", 100, 0., 1.);

   _histChi2 = new TH1D(  "hChi2", "Chi2 ", 200, 0., 20.);

   _histMBrecoTrue = new TH1D( "histMBrecoTrue", "histMBrecoTrue", 2000, 4., 6.);

   _histMBrecoSmear = new TH1D( "histMBrecoSmear", "histMBrecoSmear", 2000, 4., 6.);

   _histMBrecoFit = new TH1D( "histMBrecoFit", "histMBrecoFit", 2000, 4., 6.);

   _histMXTrue = new TH1D( "histMXTrue", "histMXTrue", 600, 0., 6.);

   _histMXSmear = new TH1D( "histMXSmear", "histMXSmear", 600, 0., 6.);

   _histMXFit = new TH1D( "histMXFit", "histMXFit", 600, 0., 6.);

   _histMXlnuTrue = new TH1D( "histMXlnuTrue", "histMXlnuTrue", 3000, 4., 7.);

   _histMXlnuSmear = new TH1D( "histMXlnuSmear", "histMXlnuSmear", 500, 3., 8.);

   _histMXlnuFit = new TH1D( "histMXlnuFit", "histMXlnuFit", 3000, 4., 7.);


   _histsParTrue.Clear();

   _histsParSmear.Clear();

   _histsParFit.Clear();

   _histsPull1.Clear();

   _histsError1.Clear();

   _histsDiff1.Clear();

   _histsPull2.Clear();

   _histsError2.Clear();

   _histsDiff2.Clear();


   TObjArray histarrays;

   histarrays.Add( &_histsParTrue );

   histarrays.Add( &_histsParSmear );

   histarrays.Add( &_histsParFit );

   histarrays.Add( &_histsPull1 );

   histarrays.Add( &_histsError1 );

   histarrays.Add( &_histsDiff1 );

   histarrays.Add( &_histsPull2 );

   histarrays.Add( &_histsError2 );

   histarrays.Add( &_histsDiff2 );


   TString histnames[] = {"hParTrue", "hParSmear", "hParFit", "hPull1", "hError1", "hDiff1", "hPull2", "hError2", "hDiff2" };


   TArrayD arrmin( histarrays.GetEntries() );

   TArrayD arrmax( histarrays.GetEntries() );

   arrmin[0] = 0.;   arrmax[0] = 2.;   // Parameters

   arrmin[1] = 0.;   arrmax[1] = 2.;

   arrmin[2] = 0.;   arrmax[2] = 2.;


   arrmin[3] = -3.;   arrmax[3] = 3.;   // Pull1

   arrmin[4] = 0.;   arrmax[4] = .2;    //Error1

   arrmin[5] = -.5;   arrmax[5] = .5;   //Diff1

   arrmin[6] = -3.;   arrmax[6] = 3.;   // Pull2

   arrmin[7] = 0.;   arrmax[7] = 0.2;   //Error2

   arrmin[8] = -.5;   arrmax[8] = .5;   //Diff2


   for (unsigned int p = 0; p <  _measParticles.size(); p++) {


     const TAbsFitParticle* particle = _measParticles[p];

     //    const TMatrixD* covMatrix = particle->getCovMatrix();


     for (int i = 0; i < particle->getNPar(); i++) {

       for (int h = 0; h < histarrays.GetEntries(); h++ ) {

     TString name = histnames[h] + (TString) particle->GetName();

     name += i;

     if ( h < 3) {

       const TMatrixD* parfit = _measParticles[p]->getParCurr();

       arrmin[h] = (*parfit)(i,0)*0.5;

       arrmax[h] = (*parfit)(i,0)*1.5;

     }

     TH1D* newhisto =  new TH1D( name, name, 100, arrmin[h], arrmax[h]) ;

     ((TObjArray*) histarrays[h])->Add( newhisto );


     //  newhisto->SetBit(TH1::kCanRebin);

       }

     }

   }

 }

TFitConstraintM
Definition: TFitConstraintM.h:11

TSLToyGen::_histsDiff1
TObjArray _histsDiff1
Definition: TSLToyGen.h:41

TSLToyGen::_histPChi2
TH1D * _histPChi2
Definition: TSLToyGen.h:22

TSLToyGen::_histsPull2
TObjArray _histsPull2
Definition: TSLToyGen.h:42

TSLToyGen::_histNIter
TH1D * _histNIter
Definition: TSLToyGen.h:21

TSLToyGen::fillM
void fillM()
Definition: TSLToyGen.cc:331

TSLToyGen::_histMXlnuFit
TH1D * _histMXlnuFit
Definition: TSLToyGen.h:33

TKinFitter::getNbIter
Int_t getNbIter()
Definition: TKinFitter.h:40

i
int i
Definition: DBlmapReader.cc:9

TSLToyGen::_iniLepton
TAbsFitParticle * _iniLepton
Definition: TSLToyGen.h:77

TFitConstraintEp::pX
Definition: TFitConstraintEp.h:14

TKinFitter::setMaxF
void setMaxF(Double_t maxF)
Definition: TKinFitter.h:44

TSLToyGen::_histsPull1
TObjArray _histsPull1
Definition: TSLToyGen.h:39

TSLToyGen::_withMassConstraint
Bool_t _withMassConstraint
Definition: TSLToyGen.h:91

TFitConstraintM::addParticles1
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)
Definition: TFitConstraintM.cc:103

TKinFitter::fit
Int_t fit()
Definition: TKinFitter.cc:309

TSLToyGen::smearParticles
void smearParticles()
Definition: TSLToyGen.cc:234

TSLToyGen::_printPartIni
Bool_t _printPartIni
Definition: TSLToyGen.h:85

TSLToyGen::fillPar
void fillPar()
Definition: TSLToyGen.cc:313

TKinFitter::setMaxDeltaS
void setMaxDeltaS(Double_t maxDeltaS)
Definition: TKinFitter.h:42

TAbsFitParticle::setIni4Vec
virtual void setIni4Vec(const TLorentzVector *pini)=0

TSLToyGen::_histsError1
TObjArray _histsError1
Definition: TSLToyGen.h:40

TSLToyGen::_withMPDGCons
Bool_t _withMPDGCons
Definition: TSLToyGen.h:92

TSLToyGen::TSLToyGen
TSLToyGen(const TAbsFitParticle *bReco, const TAbsFitParticle *lepton, const TAbsFitParticle *X, const TAbsFitParticle *neutrino)
Definition: TSLToyGen.cc:14

X
#define X(str)
Definition: MuonsGrabber.cc:49

TAbsFitParticle::getIni4Vec
const TLorentzVector * getIni4Vec()
Definition: TAbsFitParticle.h:34

TSLToyGen::_printConsAfter
Bool_t _printConsAfter
Definition: TSLToyGen.h:89

TSLToyGen::_histMXTrue
TH1D * _histMXTrue
Definition: TSLToyGen.h:28

TAbsFitParticle::calc4Vec
virtual TLorentzVector * calc4Vec(const TMatrixD *params)=0

TSLToyGen::_histsDiff2
TObjArray _histsDiff2
Definition: TSLToyGen.h:44

TSLToyGen::_histsError2
TObjArray _histsError2
Definition: TSLToyGen.h:43

mergeVDriftHistosByStation.name
string name
Definition: mergeVDriftHistosByStation.py:77

TSLToyGen::_inimeasParticles
std::vector< TAbsFitParticle * > _inimeasParticles
Definition: TSLToyGen.h:70

TSLToyGen::_iniX
TAbsFitParticle * _iniX
Definition: TSLToyGen.h:78

TSLToyGen::_breco
TAbsFitParticle * _breco
Definition: TSLToyGen.h:80

TSLToyGen::_histsParTrue
TObjArray _histsParTrue
Definition: TSLToyGen.h:35

TSLToyGen::_X
TAbsFitParticle * _X
Definition: TSLToyGen.h:82

TSLToyGen::_measParticles
std::vector< TAbsFitParticle * > _measParticles
Definition: TSLToyGen.h:72

TSLToyGen::_Y4S
TVector3 _Y4S
Definition: TSLToyGen.h:74

TKinFitter::getMaxF
Double_t getMaxF()
Definition: TKinFitter.h:45

TFitConstraintEp.h

TKinFitter::getS
Double_t getS()
Definition: TKinFitter.cc:1108

TSLToyGen.h

TKinFitter
Definition: TKinFitter.h:13

TSLToyGen::fillPull2
void fillPull2()
Definition: TSLToyGen.cc:294

TFitConstraintEp::pZ
Definition: TFitConstraintEp.h:16

TSLToyGen::_histMBrecoTrue
TH1D * _histMBrecoTrue
Definition: TSLToyGen.h:25

TSLToyGen::~TSLToyGen
virtual ~TSLToyGen()
Definition: TSLToyGen.cc:45

TKinFitter::addConstraint
void addConstraint(TAbsFitConstraint *constraint)
Definition: TKinFitter.cc:281

TFitConstraintEp
Definition: TFitConstraintEp.h:9

TSLToyGen::_iniNeutrino
TAbsFitParticle * _iniNeutrino
Definition: TSLToyGen.h:79

TKinFitter::getStatus
Int_t getStatus()
Definition: TKinFitter.h:41

TKinFitter::addUnmeasParticle
void addUnmeasParticle(TAbsFitParticle *particle)
Definition: TKinFitter.cc:245

TAbsFitParticle::getNPar
Int_t getNPar() const
Definition: TAbsFitParticle.h:32

TFitConstraintM::addParticles2
void addParticles2(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)
Definition: TFitConstraintM.cc:122

TKinFitter::getNDF
Int_t getNDF()
Definition: TKinFitter.h:35

TKinFitter::addMeasParticle
void addMeasParticle(TAbsFitParticle *particle)
Definition: TKinFitter.cc:209

TSLToyGen::_histChi2
TH1D * _histChi2
Definition: TSLToyGen.h:23

TSLToyGen::_doCheckConstraintsTruth
Bool_t _doCheckConstraintsTruth
Definition: TSLToyGen.h:93

TSLToyGen::_neutrino
TAbsFitParticle * _neutrino
Definition: TSLToyGen.h:83

TSLToyGen::createHists
void createHists()
Definition: TSLToyGen.cc:358

TAbsFitParticle::print
virtual void print()
Definition: TAbsFitParticle.cc:99

TAbsFitParticle::clone
virtual TAbsFitParticle * clone(TString newname="") const =0

TAbsFitParticle
Definition: TAbsFitParticle.h:9

TKinFitter::setVerbosity
void setVerbosity(Int_t verbosity=1)
Definition: TKinFitter.cc:294

TSLToyGen::_printConsBefore
Bool_t _printConsBefore
Definition: TSLToyGen.h:88

m
int m
Definition: DTDataIntegrityTask.cc:33

h
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

TSLToyGen::_iniBreco
TAbsFitParticle * _iniBreco
Definition: TSLToyGen.h:76

TSLToyGen::_histMXlnuTrue
TH1D * _histMXlnuTrue
Definition: TSLToyGen.h:31

TAbsFitParticle::getParIni
const TMatrixD * getParIni()
Definition: TAbsFitParticle.h:37

TFitConstraintM.h

TAbsFitParticle::getCurr4Vec
const TLorentzVector * getCurr4Vec()
Definition: TAbsFitParticle.h:33

TSLToyGen::_histStatus
TH1D * _histStatus
Definition: TSLToyGen.h:20

alignCSCRings.e
list e
Definition: alignCSCRings.py:90

TSLToyGen::_lepton
TAbsFitParticle * _lepton
Definition: TSLToyGen.h:81

TSLToyGen::_printConsIni
Bool_t _printConsIni
Definition: TSLToyGen.h:86

AlCaHLTBitMon_ParallelJobs.p
tuple p
Definition: AlCaHLTBitMon_ParallelJobs.py:152

TAbsFitParticle::getCovMatrix
virtual const TMatrixD * getCovMatrix() const
Definition: TAbsFitParticle.h:26

TKinFitter::setMaxNbIter
void setMaxNbIter(Int_t maxNbIter)
Definition: TKinFitter.h:38

TSLToyGen::_histsParSmear
TObjArray _histsParSmear
Definition: TSLToyGen.h:36

TSLToyGen::_histMBrecoFit
TH1D * _histMBrecoFit
Definition: TSLToyGen.h:27

TSLToyGen::_histMXSmear
TH1D * _histMXSmear
Definition: TSLToyGen.h:29

TFitConstraintM::addParticle1
void addParticle1(TAbsFitParticle *particle)
Definition: TFitConstraintM.cc:87

TFitConstraintM::getCurrentValue
virtual Double_t getCurrentValue()
Definition: TFitConstraintM.cc:216

TSLToyGen::fillPull1
void fillPull1()
Definition: TSLToyGen.cc:266

TKinFitter::getF
Double_t getF()
Definition: TKinFitter.cc:1095

TSLToyGen::_histMXlnuSmear
TH1D * _histMXlnuSmear
Definition: TSLToyGen.h:32

TSLToyGen::_iniunmeasParticles
std::vector< TAbsFitParticle * > _iniunmeasParticles
Definition: TSLToyGen.h:71

gather_cfg.cout
tuple cout
Definition: gather_cfg.py:121

TSLToyGen::doToyExperiments
Bool_t doToyExperiments(Int_t nbExperiments=1000)
Definition: TSLToyGen.cc:59

TSLToyGen::_printPartAfter
Bool_t _printPartAfter
Definition: TSLToyGen.h:90

TSLToyGen::_histMBrecoSmear
TH1D * _histMBrecoSmear
Definition: TSLToyGen.h:26

TFitConstraintEp::pY
Definition: TFitConstraintEp.h:15

TAbsFitParticle.h

TFitConstraintEp::E
Definition: TFitConstraintEp.h:17

TSLToyGen::_printSmearedPartBefore
Bool_t _printSmearedPartBefore
Definition: TSLToyGen.h:87

TSLToyGen::_histsParFit
TObjArray _histsParFit
Definition: TSLToyGen.h:37

TSLToyGen::_histMXFit
TH1D * _histMXFit
Definition: TSLToyGen.h:30