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  • Makefile

    rec5e04b r2fc1c08  
    319319        modules/EnergySmearing.h \
    320320        modules/MomentumSmearing.h \
     321        modules/TrackSmearing.h \
    321322        modules/ImpactParameterSmearing.h \
    322323        modules/TimeSmearing.h \
     
    342343        modules/StatusPidFilter.h \
    343344        modules/PdgCodeFilter.h \
     345        modules/BeamSpotFilter.h \
    344346        modules/Cloner.h \
    345347        modules/Weighter.h \
     
    347349        modules/JetFlavorAssociation.h \
    348350        modules/JetFakeParticle.h \
     351        modules/VertexSorter.h \
     352        modules/VertexFinder.h \
    349353        modules/ExampleModule.h
    350354tmp/modules/ModulesDict$(PcmSuf): \
     
    553557        classes/DelphesFactory.h \
    554558        classes/DelphesFormula.h
     559tmp/modules/BeamSpotFilter.$(ObjSuf): \
     560        modules/BeamSpotFilter.$(SrcSuf) \
     561        modules/BeamSpotFilter.h \
     562        classes/DelphesClasses.h \
     563        classes/DelphesFactory.h \
     564        classes/DelphesFormula.h \
     565        external/ExRootAnalysis/ExRootResult.h \
     566        external/ExRootAnalysis/ExRootFilter.h \
     567        external/ExRootAnalysis/ExRootClassifier.h
    555568tmp/modules/Calorimeter.$(ObjSuf): \
    556569        modules/Calorimeter.$(SrcSuf) \
     
    852865        external/ExRootAnalysis/ExRootFilter.h \
    853866        external/ExRootAnalysis/ExRootClassifier.h
     867tmp/modules/TrackSmearing.$(ObjSuf): \
     868        modules/TrackSmearing.$(SrcSuf) \
     869        modules/TrackSmearing.h \
     870        classes/DelphesClasses.h \
     871        classes/DelphesFactory.h \
     872        classes/DelphesFormula.h \
     873        external/ExRootAnalysis/ExRootResult.h \
     874        external/ExRootAnalysis/ExRootFilter.h \
     875        external/ExRootAnalysis/ExRootClassifier.h
    854876tmp/modules/TreeWriter.$(ObjSuf): \
    855877        modules/TreeWriter.$(SrcSuf) \
     
    868890        classes/DelphesFactory.h \
    869891        classes/DelphesFormula.h \
     892        external/ExRootAnalysis/ExRootResult.h \
     893        external/ExRootAnalysis/ExRootFilter.h \
     894        external/ExRootAnalysis/ExRootClassifier.h
     895tmp/modules/VertexFinder.$(ObjSuf): \
     896        modules/VertexFinder.$(SrcSuf) \
     897        modules/VertexFinder.h \
     898        classes/DelphesClasses.h \
     899        classes/DelphesFactory.h \
     900        classes/DelphesFormula.h \
     901        classes/DelphesPileUpReader.h \
     902        external/ExRootAnalysis/ExRootResult.h \
     903        external/ExRootAnalysis/ExRootFilter.h \
     904        external/ExRootAnalysis/ExRootClassifier.h
     905tmp/modules/VertexSorter.$(ObjSuf): \
     906        modules/VertexSorter.$(SrcSuf) \
     907        modules/VertexSorter.h \
     908        classes/DelphesClasses.h \
     909        classes/DelphesFactory.h \
     910        classes/DelphesFormula.h \
     911        classes/DelphesPileUpReader.h \
    870912        external/ExRootAnalysis/ExRootResult.h \
    871913        external/ExRootAnalysis/ExRootFilter.h \
     
    931973        tmp/modules/AngularSmearing.$(ObjSuf) \
    932974        tmp/modules/BTagging.$(ObjSuf) \
     975        tmp/modules/BeamSpotFilter.$(ObjSuf) \
    933976        tmp/modules/Calorimeter.$(ObjSuf) \
    934977        tmp/modules/Cloner.$(ObjSuf) \
     
    9631006        tmp/modules/TrackCountingTauTagging.$(ObjSuf) \
    9641007        tmp/modules/TrackPileUpSubtractor.$(ObjSuf) \
     1008        tmp/modules/TrackSmearing.$(ObjSuf) \
    9651009        tmp/modules/TreeWriter.$(ObjSuf) \
    9661010        tmp/modules/UniqueObjectFinder.$(ObjSuf) \
     1011        tmp/modules/VertexFinder.$(ObjSuf) \
     1012        tmp/modules/VertexSorter.$(ObjSuf) \
    9671013        tmp/modules/Weighter.$(ObjSuf)
    9681014
     
    15691615        tmp/external/tcl/tclVar.$(ObjSuf)
    15701616
     1617modules/TrackSmearing.h: \
     1618        classes/DelphesModule.h
     1619        @touch $@
     1620
    15711621external/fastjet/ClusterSequence.hh: \
    15721622        external/fastjet/PseudoJet.hh \
     
    18291879        @touch $@
    18301880
     1881modules/VertexSorter.h: \
     1882        classes/DelphesModule.h \
     1883        classes/DelphesClasses.h
     1884        @touch $@
     1885
    18311886modules/Delphes.h: \
    18321887        classes/DelphesModule.h
     1888        @touch $@
     1889
     1890modules/VertexFinder.h: \
     1891        classes/DelphesModule.h \
     1892        classes/DelphesClasses.h
    18331893        @touch $@
    18341894
     
    20012061
    20022062modules/FastJetFinder.h: \
     2063        classes/DelphesModule.h
     2064        @touch $@
     2065
     2066modules/BeamSpotFilter.h: \
    20032067        classes/DelphesModule.h
    20042068        @touch $@
  • cards/converter_card.tcl

    rec5e04b r2fc1c08  
    1313module TreeWriter TreeWriter {
    1414# add Branch InputArray BranchName BranchClass
    15   add Branch Delphes/allParticles Particle GenParticle
     15  add Branch Delphes/stableParticles Particle GenParticle
    1616}
    1717
  • cards/delphes_card_CMS.tcl

    rec5e04b r2fc1c08  
    3535 
    3636  FastJetFinder
     37  FastCaloJetFinder
    3738
    3839  JetEnergyScale
     
    210211  set HCalEnergyMin 1.0
    211212
    212   set ECalEnergySignificanceMin 1.0
    213   set HCalEnergySignificanceMin 1.0
     213  set ECalEnergySignificanceMin 2.0
     214  set HCalEnergySignificanceMin 2.0
    214215
    215216  set SmearTowerCenter true
     
    497498}
    498499
     500################
     501# caloJet finder
     502################
     503
     504module FastJetFinder FastCaloJetFinder {
     505  set InputArray Calorimeter/towers
     506
     507  set OutputArray jets
     508
     509  # algorithm: 1 CDFJetClu, 2 MidPoint, 3 SIScone, 4 kt, 5 Cambridge/Aachen, 6 antikt
     510  set JetAlgorithm 6
     511  set ParameterR 0.5
     512
     513  set JetPTMin 20.0
     514}
     515
    499516##################
    500517# Jet Energy Scale
     
    610627
    611628  add Branch UniqueObjectFinder/jets Jet Jet
     629  add Branch FastCaloJetFinder/jets CaloJet Jet
    612630  add Branch UniqueObjectFinder/electrons Electron Electron
    613631  add Branch UniqueObjectFinder/photons Photon Photon
  • classes/DelphesClasses.cc

    rec5e04b r2fc1c08  
    4141CompBase *Tower::fgCompare = CompE<Tower>::Instance();
    4242CompBase *HectorHit::fgCompare = CompE<HectorHit>::Instance();
     43CompBase *Vertex::fgCompare = CompSumPT2<Vertex>::Instance();
    4344CompBase *Candidate::fgCompare = CompMomentumPt<Candidate>::Instance();
    4445
     
    121122  Charge(0), Mass(0.0),
    122123  IsPU(0), IsRecoPU(0), IsConstituent(0), IsFromConversion(0),
     124  ClusterIndex(-1), ClusterNDF(0), ClusterSigma(0), SumPT2(0), BTVSumPT2(0), GenDeltaZ(0), GenSumPT2(0),
    123125  Flavor(0), FlavorAlgo(0), FlavorPhys(0),
    124126  BTag(0), BTagAlgo(0), BTagPhys(0),
     
    127129  Momentum(0.0, 0.0, 0.0, 0.0),
    128130  Position(0.0, 0.0, 0.0, 0.0),
     131  PositionError(0.0, 0.0, 0.0, 0.0),
     132  InitialPosition(0.0, 0.0, 0.0, 0.0),
    129133  Area(0.0, 0.0, 0.0, 0.0),
    130   Dxy(0), SDxy(0), Xd(0), Yd(0), Zd(0),
     134  L(0),
     135  D0(0), ErrorD0(0),
     136  DZ(0), ErrorDZ(0),
     137  P(0),  ErrorP(0),
     138  PT(0), ErrorPT(0),
     139  CtgTheta(0), ErrorCtgTheta(0),
     140  Phi(0), ErrorPhi(0), 
     141  Xd(0), Yd(0), Zd(0),
    131142  TrackResolution(0),
    132143  NCharged(0),
     
    245256  object.IsConstituent = IsConstituent;
    246257  object.IsFromConversion = IsFromConversion;
     258  object.ClusterIndex = ClusterIndex;
     259  object.ClusterNDF = ClusterNDF;
     260  object.ClusterSigma = ClusterSigma;
     261  object.SumPT2 = SumPT2;
     262  object.BTVSumPT2 = BTVSumPT2;
     263  object.GenDeltaZ = GenDeltaZ;
     264  object.GenSumPT2 = GenSumPT2;
    247265  object.Flavor = Flavor;
    248266  object.FlavorAlgo = FlavorAlgo;
     
    262280  object.Momentum = Momentum;
    263281  object.Position = Position;
     282  object.InitialPosition = InitialPosition;
     283  object.PositionError = PositionError;
    264284  object.Area = Area;
    265   object.Dxy = Dxy;
    266   object.SDxy = SDxy;
     285  object.L = L;
     286  object.ErrorT = ErrorT;
     287  object.D0 = D0;
     288  object.ErrorD0 = ErrorD0;
     289  object.DZ = DZ;
     290  object.ErrorDZ = ErrorDZ;
     291  object.P = P;
     292  object.ErrorP = ErrorP;
     293  object.PT = PT;
     294  object.ErrorPT = ErrorPT;
     295  object.CtgTheta = CtgTheta ;
     296  object.ErrorCtgTheta = ErrorCtgTheta;
     297  object.Phi = Phi;
     298  object.ErrorPhi = ErrorPhi; 
    267299  object.Xd = Xd;
    268300  object.Yd = Yd;
     
    282314  object.SumPtChargedPU = SumPtChargedPU;
    283315  object.SumPt = SumPt;
    284 
     316  object.ClusterIndex = ClusterIndex;
     317  object.ClusterNDF = ClusterNDF;
     318  object.ClusterSigma = ClusterSigma;
     319  object.SumPT2 = SumPT2;
     320 
    285321  object.FracPt[0] = FracPt[0];
    286322  object.FracPt[1] = FracPt[1];
     
    363399  Momentum.SetXYZT(0.0, 0.0, 0.0, 0.0);
    364400  Position.SetXYZT(0.0, 0.0, 0.0, 0.0);
     401  InitialPosition.SetXYZT(0.0, 0.0, 0.0, 0.0);
    365402  Area.SetXYZT(0.0, 0.0, 0.0, 0.0);
    366   Dxy = 0.0;
    367   SDxy = 0.0;
     403  L = 0.0;
     404  ErrorT = 0.0;
     405  D0 = 0.0; 
     406  ErrorD0 = 0.0;
     407  DZ = 0.0;
     408  ErrorDZ = 0.0;
     409  P =0.0;
     410  ErrorP =0.0;
     411  PT = 0.0;
     412  ErrorPT = 0.0;
     413  CtgTheta = 0.0;
     414  ErrorCtgTheta = 0.0;
     415  Phi = 0.0;
     416  ErrorPhi = 0.0;
    368417  Xd = 0.0;
    369418  Yd = 0.0;
     
    387436  SumPt = -999;
    388437
     438  ClusterIndex = -1;
     439  ClusterNDF = -99;
     440  ClusterSigma = 0.0;
     441  SumPT2 = 0.0;
     442  BTVSumPT2 = 0.0;
     443  GenDeltaZ = 0.0;
     444  GenSumPT2 = 0.0;
     445 
    389446  FracPt[0] = 0.0;
    390447  FracPt[1] = 0.0;
  • classes/DelphesClasses.h

    rec5e04b r2fc1c08  
    147147  Float_t Pz; // particle momentum vector (z component) | hepevt.phep[number][2]
    148148
    149   Float_t PT; // particle transverse momentum
     149  Float_t D0;
     150  Float_t DZ;
     151  Float_t P;
     152  Float_t PT;
     153  Float_t CtgTheta;
     154  Float_t Phi;
    150155  Float_t Eta; // particle pseudorapidity
    151   Float_t Phi; // particle azimuthal angle
    152 
    153156  Float_t Rapidity; // particle rapidity
    154157
     
    168171//---------------------------------------------------------------------------
    169172
    170 class Vertex: public TObject
     173class Vertex: public SortableObject
    171174{
    172175public:
     
    176179  Float_t Z; // vertex position (z component)
    177180
    178   ClassDef(Vertex, 1)
     181  Double_t ErrorX;
     182  Double_t ErrorY;
     183  Double_t ErrorZ;
     184  Double_t ErrorT;
     185
     186  Int_t Index;
     187  Int_t NDF;
     188  Double_t Sigma;
     189  Double_t SumPT2;
     190  Double_t BTVSumPT2;
     191  Double_t GenDeltaZ;
     192  Double_t GenSumPT2;
     193
     194  TRefArray Constituents; // references to constituents
     195
     196  static CompBase *fgCompare; //!
     197  const CompBase *GetCompare() const { return fgCompare; }
     198
     199  ClassDef(Vertex, 3)
    179200};
    180201
     
    397418  Int_t Charge; // track charge
    398419
    399   Float_t PT; // track transverse momentum
    400 
    401420  Float_t Eta; // track pseudorapidity
    402   Float_t Phi; // track azimuthal angle
    403421
    404422  Float_t EtaOuter; // track pseudorapidity at the tracker edge
     
    415433  Float_t TOuter; // track position (z component) at the tracker edge
    416434
    417   Float_t Dxy;     // track signed transverse impact parameter
    418   Float_t SDxy;    // signed error on the track signed transverse impact parameter
     435  Float_t L; // track path length
     436  Float_t ErrorT; // error on the time measurement
     437
     438  Float_t D0;     // track signed transverse impact parameter
     439  Float_t ErrorD0;    // signed error on the track signed transverse impact parameter
     440
     441  Float_t DZ; // track transverse momentum
     442  Float_t ErrorDZ; // track transverse momentum error
     443
     444  Float_t P; // track transverse momentum
     445  Float_t ErrorP; // track transverse momentum error
     446
     447  Float_t PT; // track transverse momentum
     448  Float_t ErrorPT; // track transverse momentum error
     449
     450  Float_t CtgTheta; // track transverse momentum
     451  Float_t ErrorCtgTheta; // track transverse momentum error
     452
     453  Float_t Phi; // track azimuthal angle
     454  Float_t ErrorPhi; // track azimuthal angle
     455
    419456  Float_t Xd;      // X coordinate of point of closest approach to vertex
    420457  Float_t Yd;      // Y coordinate of point of closest approach to vertex
     
    423460  TRef Particle; // reference to generated particle
    424461
     462  Int_t VertexIndex; // reference to vertex
     463
    425464  static CompBase *fgCompare; //!
    426465  const CompBase *GetCompare() const { return fgCompare; }
     
    526565  Float_t DeltaPhi;
    527566
    528   TLorentzVector Momentum, Position, Area;
    529 
    530   Float_t Dxy;
    531   Float_t SDxy;
     567  TLorentzVector Momentum, Position, InitialPosition, PositionError, Area;
     568
     569  Float_t L; // path length
     570  Float_t ErrorT; // path length
     571  Float_t D0;
     572  Float_t ErrorD0;
     573  Float_t DZ;
     574  Float_t ErrorDZ;
     575  Float_t P;
     576  Float_t ErrorP;
     577  Float_t PT;
     578  Float_t ErrorPT;
     579  Float_t CtgTheta;
     580  Float_t ErrorCtgTheta;
     581  Float_t Phi;
     582  Float_t ErrorPhi;
     583
    532584  Float_t Xd;
    533585  Float_t Yd;
     
    535587
    536588  // tracking resolution
    537  
     589
    538590  Float_t TrackResolution;
    539591
     
    562614  Float_t SumPt;
    563615
     616  // vertex variables
     617
     618  Int_t ClusterIndex;
     619  Int_t ClusterNDF;
     620  Double_t ClusterSigma;
     621  Double_t SumPT2;
     622  Double_t BTVSumPT2;
     623  Double_t GenDeltaZ;
     624  Double_t GenSumPT2;
     625
    564626  // N-subjettiness variables
    565627
     
    595657  void SetFactory(DelphesFactory *factory) { fFactory = factory; }
    596658
    597   ClassDef(Candidate, 4)
     659  ClassDef(Candidate, 5)
    598660};
    599661
  • classes/SortableObject.h

    rec5e04b r2fc1c08  
    156156      return -1;
    157157    else if(t1->ET < t2->ET)
     158      return 1;
     159    else
     160      return 0;
     161  }
     162};
     163
     164//---------------------------------------------------------------------------
     165
     166template <typename T>
     167class CompSumPT2: public CompBase
     168{
     169  CompSumPT2() {}
     170public:
     171  static CompSumPT2 *Instance()
     172  {
     173    static CompSumPT2 single;
     174    return &single;
     175  }
     176
     177  Int_t Compare(const TObject *obj1, const TObject *obj2) const
     178  {
     179    const T *t1 = static_cast<const T*>(obj1);
     180    const T *t2 = static_cast<const T*>(obj2);
     181    if(t1->SumPT2 > t2->SumPT2)
     182      return -1;
     183    else if(t1->SumPT2 < t2->SumPT2)
    158184      return 1;
    159185    else
  • doc/genMakefile.tcl

    rec5e04b r2fc1c08  
    263263executableDeps {converters/*.cpp} {examples/*.cpp}
    264264
    265 executableDeps {readers/DelphesHepMC.cpp} {readers/DelphesLHEF.cpp} {readers/DelphesSTDHEP.cpp}
     265executableDeps {readers/DelphesHepMC.cpp} {readers/DelphesLHEF.cpp} {readers/DelphesSTDHEP.cpp} {readers/DelphesROOT.cpp}
    266266
    267267puts {ifeq ($(HAS_CMSSW),true)}
  • examples/Pythia8/configParticleGun.cmnd

    rec5e04b r2fc1c08  
    33! 1) Settings used in the main program.
    44
    5 Main:numberOfEvents = 10000         ! number of events to generate
     5Main:numberOfEvents = 100000         ! number of events to generate
    66Main:timesAllowErrors = 3          ! how many aborts before run stops
    77Main:spareFlag1 = on                ! true means particle gun
    8 Main:spareMode1 = 11               ! 1-5 - di-quark, 21 - di-gluon, 11 - single electron, 13 - single muon, 22 - single photon
     8Main:spareMode1 = ID               ! 1-5 - di-quark, 21 - di-gluon, 11 - single electron, 13 - single muon, 22 - single photon
    99Main:spareParm1 = 10000           ! max pt
    1010
  • modules/Calorimeter.cc

    rec5e04b r2fc1c08  
    5858  fItParticleInputArray(0), fItTrackInputArray(0)
    5959{
    60   Int_t i;
    61 
     60 
    6261  fECalResolutionFormula = new DelphesFormula;
    6362  fHCalResolutionFormula = new DelphesFormula;
    6463
    65   for(i = 0; i < 2; ++i)
    66   {
    67     fECalTowerTrackArray[i] = new TObjArray;
    68     fItECalTowerTrackArray[i] = fECalTowerTrackArray[i]->MakeIterator();
    69 
    70     fHCalTowerTrackArray[i] = new TObjArray;
    71     fItHCalTowerTrackArray[i] = fHCalTowerTrackArray[i]->MakeIterator();
    72   }
     64  fECalTowerTrackArray = new TObjArray;
     65  fItECalTowerTrackArray = fECalTowerTrackArray->MakeIterator();
     66
     67  fHCalTowerTrackArray = new TObjArray;
     68  fItHCalTowerTrackArray = fHCalTowerTrackArray->MakeIterator();
     69 
    7370}
    7471
     
    7774Calorimeter::~Calorimeter()
    7875{
    79   Int_t i;
    80 
     76 
    8177  if(fECalResolutionFormula) delete fECalResolutionFormula;
    8278  if(fHCalResolutionFormula) delete fHCalResolutionFormula;
    8379
    84   for(i = 0; i < 2; ++i)
    85   {
    86     if(fECalTowerTrackArray[i]) delete fECalTowerTrackArray[i];
    87     if(fItECalTowerTrackArray[i]) delete fItECalTowerTrackArray[i];
    88 
    89     if(fHCalTowerTrackArray[i]) delete fHCalTowerTrackArray[i];
    90     if(fItHCalTowerTrackArray[i]) delete fItHCalTowerTrackArray[i];
    91   }
     80  if(fECalTowerTrackArray) delete fECalTowerTrackArray;
     81  if(fItECalTowerTrackArray) delete fItECalTowerTrackArray;
     82
     83  if(fHCalTowerTrackArray) delete fHCalTowerTrackArray;
     84  if(fItHCalTowerTrackArray) delete fItHCalTowerTrackArray;
     85 
    9286}
    9387
     
    218212  Double_t ecalFraction, hcalFraction;
    219213  Double_t ecalEnergy, hcalEnergy;
    220   Double_t ecalSigma, hcalSigma;
    221214  Int_t pdgCode;
    222215
     
    368361      fHCalTowerEnergy = 0.0;
    369362
    370       fECalTrackEnergy[0] = 0.0;
    371       fECalTrackEnergy[1] = 0.0;
    372 
    373       fHCalTrackEnergy[0] = 0.0;
    374       fHCalTrackEnergy[1] = 0.0;
    375 
     363      fECalTrackEnergy = 0.0;
     364      fHCalTrackEnergy = 0.0;
     365     
     366      fECalTrackSigma = 0.0;
     367      fHCalTrackSigma = 0.0;
     368     
    376369      fTowerTrackHits = 0;
    377370      fTowerPhotonHits = 0;
    378371
    379       fECalTowerTrackArray[0]->Clear();
    380       fECalTowerTrackArray[1]->Clear();
    381 
    382       fHCalTowerTrackArray[0]->Clear();
    383       fHCalTowerTrackArray[1]->Clear();
     372      fECalTowerTrackArray->Clear();
     373      fHCalTowerTrackArray->Clear();
     374   
    384375    }
    385376
     
    406397      if(fECalTrackFractions[number] > 1.0E-9 && fHCalTrackFractions[number] < 1.0E-9)
    407398      {
    408         ecalSigma = fECalResolutionFormula->Eval(0.0, fTowerEta, 0.0, momentum.E());
    409         if(ecalSigma/momentum.E() < track->TrackResolution)
    410         {
    411           fECalTrackEnergy[0] += ecalEnergy;
    412           fECalTowerTrackArray[0]->Add(track);
    413         }
    414         else
    415         {
    416           fECalTrackEnergy[1] += ecalEnergy;
    417           fECalTowerTrackArray[1]->Add(track);
    418         }
     399        fECalTrackEnergy += ecalEnergy;
     400        fECalTrackSigma += (track->TrackResolution)*momentum.E()*(track->TrackResolution)*momentum.E();
     401        fECalTowerTrackArray->Add(track);
    419402      }
     403     
    420404      else if(fECalTrackFractions[number] < 1.0E-9 && fHCalTrackFractions[number] > 1.0E-9)
    421405      {
    422         hcalSigma = fHCalResolutionFormula->Eval(0.0, fTowerEta, 0.0, momentum.E());
    423         if(hcalSigma/momentum.E() < track->TrackResolution)
    424         {
    425           fHCalTrackEnergy[0] += hcalEnergy;
    426           fHCalTowerTrackArray[0]->Add(track);
    427         }
    428         else
    429         {
    430           fHCalTrackEnergy[1] += hcalEnergy;
    431           fHCalTowerTrackArray[1]->Add(track);
    432         }
     406        fHCalTrackEnergy += hcalEnergy;
     407        fHCalTrackSigma += (track->TrackResolution)*momentum.E()*(track->TrackResolution)*momentum.E();
     408        fHCalTowerTrackArray->Add(track);
    433409      }
     410     
    434411      else if(fECalTrackFractions[number] < 1.0E-9 && fHCalTrackFractions[number] < 1.0E-9)
    435412      {
     
    476453  Double_t energy, pt, eta, phi;
    477454  Double_t ecalEnergy, hcalEnergy;
     455  Double_t ecalNeutralEnergy, hcalNeutralEnergy;
     456 
    478457  Double_t ecalSigma, hcalSigma;
    479 
     458  Double_t ecalNeutralSigma, hcalNeutralSigma;
     459
     460  Double_t weightTrack, weightCalo, bestEnergyEstimate, rescaleFactor;
     461 
    480462  TLorentzVector momentum;
    481463  TFractionMap::iterator itFractionMap;
     
    484466
    485467  if(!fTower) return;
    486 
    487468
    488469  ecalSigma = fECalResolutionFormula->Eval(0.0, fTowerEta, 0.0, fECalTowerEnergy);
     
    554535    fTowerOutputArray->Add(fTower);
    555536  }
    556 
     537 
    557538  // fill energy flow candidates
    558 
    559   ecalEnergy -= fECalTrackEnergy[1];
    560   hcalEnergy -= fHCalTrackEnergy[1];
    561 
    562   fItECalTowerTrackArray[0]->Reset();
    563   while((track = static_cast<Candidate*>(fItECalTowerTrackArray[0]->Next())))
    564   {
    565     mother = track;
    566     track = static_cast<Candidate*>(track->Clone());
    567     track->AddCandidate(mother);
    568 
    569     track->Momentum *= ecalEnergy/fECalTrackEnergy[0];
    570 
    571     fEFlowTrackOutputArray->Add(track);
    572   }
    573 
    574   fItECalTowerTrackArray[1]->Reset();
    575   while((track = static_cast<Candidate*>(fItECalTowerTrackArray[1]->Next())))
    576   {
    577     mother = track;
    578     track = static_cast<Candidate*>(track->Clone());
    579     track->AddCandidate(mother);
    580 
    581     fEFlowTrackOutputArray->Add(track);
    582   }
    583 
    584   fItHCalTowerTrackArray[0]->Reset();
    585   while((track = static_cast<Candidate*>(fItHCalTowerTrackArray[0]->Next())))
    586   {
    587     mother = track;
    588     track = static_cast<Candidate*>(track->Clone());
    589     track->AddCandidate(mother);
    590 
    591     track->Momentum *= hcalEnergy/fHCalTrackEnergy[0];
    592 
    593     fEFlowTrackOutputArray->Add(track);
    594   }
    595 
    596   fItHCalTowerTrackArray[1]->Reset();
    597   while((track = static_cast<Candidate*>(fItHCalTowerTrackArray[1]->Next())))
    598   {
    599     mother = track;
    600     track = static_cast<Candidate*>(track->Clone());
    601     track->AddCandidate(mother);
    602 
    603     fEFlowTrackOutputArray->Add(track);
    604   }
    605 
    606   if(fECalTowerTrackArray[0]->GetEntriesFast() > 0) ecalEnergy = 0.0;
    607   if(fHCalTowerTrackArray[0]->GetEntriesFast() > 0) hcalEnergy = 0.0;
    608 
    609   ecalSigma = fECalResolutionFormula->Eval(0.0, fTowerEta, 0.0, ecalEnergy);
    610   hcalSigma = fHCalResolutionFormula->Eval(0.0, fTowerEta, 0.0, hcalEnergy);
    611 
    612   if(ecalEnergy < fECalEnergyMin || ecalEnergy < fECalEnergySignificanceMin*ecalSigma) ecalEnergy = 0.0;
    613   if(hcalEnergy < fHCalEnergyMin || hcalEnergy < fHCalEnergySignificanceMin*hcalSigma) hcalEnergy = 0.0;
    614 
    615   energy = ecalEnergy + hcalEnergy;
    616 
    617   if(ecalEnergy > 0.0)
     539  fECalTrackSigma = TMath::Sqrt(fECalTrackSigma);
     540  fHCalTrackSigma = TMath::Sqrt(fHCalTrackSigma);
     541
     542  //compute neutral excesses
     543  ecalNeutralEnergy = max( (ecalEnergy - fECalTrackEnergy) , 0.0);
     544  hcalNeutralEnergy = max( (hcalEnergy - fHCalTrackEnergy) , 0.0);
     545 
     546  ecalNeutralSigma = ecalNeutralEnergy / TMath::Sqrt(fECalTrackSigma*fECalTrackSigma + ecalSigma*ecalSigma);
     547  hcalNeutralSigma = hcalNeutralEnergy / TMath::Sqrt(fHCalTrackSigma*fHCalTrackSigma + hcalSigma*hcalSigma);
     548 
     549   // if ecal neutral excess is significant, simply create neutral EflowPhoton tower and clone each track into eflowtrack
     550  if(ecalNeutralEnergy > fECalEnergyMin && ecalNeutralSigma > fECalEnergySignificanceMin)
    618551  {
    619552    // create new photon tower
    620553    tower = static_cast<Candidate*>(fTower->Clone());
    621 
    622     pt = ecalEnergy / TMath::CosH(eta);
    623 
    624     tower->Momentum.SetPtEtaPhiE(pt, eta, phi, ecalEnergy);
    625     tower->Eem = ecalEnergy;
     554    pt =  ecalNeutralEnergy / TMath::CosH(eta);
     555   
     556    tower->Momentum.SetPtEtaPhiE(pt, eta, phi, ecalNeutralEnergy);
     557    tower->Eem = ecalNeutralEnergy;
    626558    tower->Ehad = 0.0;
    627559    tower->PID = 22;
    628 
     560   
    629561    fEFlowPhotonOutputArray->Add(tower);
    630   }
    631   if(hcalEnergy > 0.0)
    632   {
    633     // create new neutral hadron tower
     562   
     563    //clone tracks
     564    fItECalTowerTrackArray->Reset();
     565    while((track = static_cast<Candidate*>(fItECalTowerTrackArray->Next())))
     566    {
     567      mother = track;
     568      track = static_cast<Candidate*>(track->Clone());
     569      track->AddCandidate(mother);
     570
     571      fEFlowTrackOutputArray->Add(track);
     572    }
     573 
     574  }
     575 
     576  // if neutral excess is not significant, rescale eflow tracks, such that the total charged equals the best measurement given by the calorimeter and tracking
     577  else if(fECalTrackEnergy > 0.0)
     578  {
     579    weightTrack = (fECalTrackSigma > 0.0) ? 1 / (fECalTrackSigma*fECalTrackSigma) : 0.0;
     580    weightCalo  = (ecalSigma > 0.0) ? 1 / (ecalSigma*ecalSigma) : 0.0;
     581 
     582    bestEnergyEstimate = (weightTrack*fECalTrackEnergy + weightCalo*ecalEnergy) / (weightTrack + weightCalo);
     583    rescaleFactor = bestEnergyEstimate/fECalTrackEnergy;
     584
     585    //rescale tracks
     586    fItECalTowerTrackArray->Reset();
     587    while((track = static_cast<Candidate*>(fItECalTowerTrackArray->Next())))
     588    { 
     589      mother = track;
     590      track = static_cast<Candidate*>(track->Clone());
     591      track->AddCandidate(mother);
     592
     593      track->Momentum *= rescaleFactor;
     594
     595      fEFlowTrackOutputArray->Add(track);
     596    }
     597  }
     598
     599
     600  // if hcal neutral excess is significant, simply create neutral EflowNeutralHadron tower and clone each track into eflowtrack
     601  if(hcalNeutralEnergy > fHCalEnergyMin && hcalNeutralSigma > fHCalEnergySignificanceMin)
     602  {
     603    // create new photon tower
    634604    tower = static_cast<Candidate*>(fTower->Clone());
    635 
    636     pt = hcalEnergy / TMath::CosH(eta);
    637 
    638     tower->Momentum.SetPtEtaPhiE(pt, eta, phi, hcalEnergy);
     605    pt =  hcalNeutralEnergy / TMath::CosH(eta);
     606   
     607    tower->Momentum.SetPtEtaPhiE(pt, eta, phi, hcalNeutralEnergy);
     608    tower->Ehad = hcalNeutralEnergy;
    639609    tower->Eem = 0.0;
    640     tower->Ehad = hcalEnergy;
    641 
     610   
    642611    fEFlowNeutralHadronOutputArray->Add(tower);
    643   }
     612   
     613    //clone tracks
     614    fItHCalTowerTrackArray->Reset();
     615    while((track = static_cast<Candidate*>(fItHCalTowerTrackArray->Next())))
     616    {
     617      mother = track;
     618      track = static_cast<Candidate*>(track->Clone());
     619      track->AddCandidate(mother);
     620
     621      fEFlowTrackOutputArray->Add(track);
     622    }
     623 
     624  }
     625 
     626  // if neutral excess is not significant, rescale eflow tracks, such that the total charged equals the best measurement given by the calorimeter and tracking
     627  else if(fHCalTrackEnergy > 0.0)
     628  {
     629    weightTrack = (fHCalTrackSigma > 0.0) ? 1 / (fHCalTrackSigma*fHCalTrackSigma) : 0.0;
     630    weightCalo  = (hcalSigma > 0.0) ? 1 / (hcalSigma*hcalSigma) : 0.0;
     631 
     632    bestEnergyEstimate = (weightTrack*fHCalTrackEnergy + weightCalo*hcalEnergy) / (weightTrack + weightCalo);
     633    rescaleFactor = bestEnergyEstimate / fHCalTrackEnergy;
     634
     635    //rescale tracks
     636    fItHCalTowerTrackArray->Reset();
     637    while((track = static_cast<Candidate*>(fItHCalTowerTrackArray->Next())))
     638    { 
     639      mother = track;
     640      track = static_cast<Candidate*>(track->Clone());
     641      track->AddCandidate(mother);
     642
     643      track->Momentum *= rescaleFactor;
     644
     645      fEFlowTrackOutputArray->Add(track);
     646    }
     647  }
     648 
     649 
    644650}
    645651
  • modules/Calorimeter.h

    rec5e04b r2fc1c08  
    5858  Double_t fTowerEta, fTowerPhi, fTowerEdges[4];
    5959  Double_t fECalTowerEnergy, fHCalTowerEnergy;
    60   Double_t fECalTrackEnergy[2], fHCalTrackEnergy[2];
     60  Double_t fECalTrackEnergy, fHCalTrackEnergy;
    6161
    6262  Double_t fTimingEnergyMin;
     
    7070  Double_t fECalEnergySignificanceMin;
    7171  Double_t fHCalEnergySignificanceMin;
     72
     73  Double_t fECalTrackSigma;
     74  Double_t fHCalTrackSigma;
    7275
    7376  Bool_t fSmearTowerCenter;
     
    103106  TObjArray *fEFlowNeutralHadronOutputArray; //!
    104107
    105   TObjArray *fECalTowerTrackArray[2]; //!
    106   TIterator *fItECalTowerTrackArray[2]; //!
     108  TObjArray *fECalTowerTrackArray; //!
     109  TIterator *fItECalTowerTrackArray; //!
    107110
    108   TObjArray *fHCalTowerTrackArray[2]; //!
    109   TIterator *fItHCalTowerTrackArray[2]; //!
     111  TObjArray *fHCalTowerTrackArray; //!
     112  TIterator *fItHCalTowerTrackArray; //!
    110113
    111114  void FinalizeTower();
  • modules/ImpactParameterSmearing.cc

    rec5e04b r2fc1c08  
    9696{
    9797  Candidate *candidate, *particle, *mother;
    98   Double_t xd, yd, zd, dxy, sx, sy, sz, ddxy;
     98  Double_t xd, yd, zd, d0, sx, sy, sz, dd0;
    9999  Double_t pt, eta, px, py, phi, e;
    100100
     
    103103  {
    104104
    105     // take momentum before smearing (otherwise apply double smearing on dxy)
     105    // take momentum before smearing (otherwise apply double smearing on d0)
    106106    particle = static_cast<Candidate*>(candidate->GetCandidates()->At(0));
    107107
     
    131131
    132132    // calculate impact parameter (after-smearing)
    133     dxy = (xd*py - yd*px)/pt;
     133    d0 = (xd*py - yd*px)/pt;
    134134
    135     ddxy = gRandom->Gaus(0.0, fFormula->Eval(pt, eta, phi, e));
     135    dd0 = gRandom->Gaus(0.0, fFormula->Eval(pt, eta, phi, e));
    136136
    137137    // fill smeared values in candidate
     
    143143    candidate->Zd = zd;
    144144
    145     candidate->Dxy = dxy;
    146     candidate->SDxy = ddxy;
     145    candidate->D0 = d0;
     146    candidate->ErrorD0 = dd0;
    147147
    148148    candidate->AddCandidate(mother);
  • modules/ModulesLinkDef.h

    rec5e04b r2fc1c08  
    3535#include "modules/EnergySmearing.h"
    3636#include "modules/MomentumSmearing.h"
     37#include "modules/TrackSmearing.h"
    3738#include "modules/ImpactParameterSmearing.h"
    3839#include "modules/TimeSmearing.h"
     
    5859#include "modules/StatusPidFilter.h"
    5960#include "modules/PdgCodeFilter.h"
     61#include "modules/BeamSpotFilter.h"
    6062#include "modules/RecoPuFilter.h"
    6163#include "modules/Cloner.h"
     
    6466#include "modules/JetFlavorAssociation.h"
    6567#include "modules/JetFakeParticle.h"
     68#include "modules/VertexSorter.h"
     69#include "modules/VertexFinder.h"
     70#include "modules/VertexFinderDA4D.h"
    6671#include "modules/ExampleModule.h"
    6772
     
    8186#pragma link C++ class EnergySmearing+;
    8287#pragma link C++ class MomentumSmearing+;
     88#pragma link C++ class TrackSmearing+;
    8389#pragma link C++ class ImpactParameterSmearing+;
    8490#pragma link C++ class TimeSmearing+;
     
    104110#pragma link C++ class StatusPidFilter+;
    105111#pragma link C++ class PdgCodeFilter+;
     112#pragma link C++ class BeamSpotFilter+;
    106113#pragma link C++ class RecoPuFilter+;
    107114#pragma link C++ class Cloner+;
     
    110117#pragma link C++ class JetFlavorAssociation+;
    111118#pragma link C++ class JetFakeParticle+;
     119#pragma link C++ class VertexSorter+;
     120#pragma link C++ class VertexFinder+;
     121#pragma link C++ class VertexFinderDA4D+;
    112122#pragma link C++ class ExampleModule+;
    113123
  • modules/ParticlePropagator.cc

    rec5e04b r2fc1c08  
    6767}
    6868
     69
    6970//------------------------------------------------------------------------------
    7071
     
    9192  fItInputArray = fInputArray->MakeIterator();
    9293
     94  // import beamspot
     95  try
     96  {
     97    fBeamSpotInputArray = ImportArray(GetString("BeamSpotInputArray", "BeamSpotFilter/beamSpotParticle"));
     98  }
     99  catch(runtime_error &e)
     100  {
     101    fBeamSpotInputArray = 0;
     102  }
    93103  // create output arrays
    94104
     
    111121{
    112122  Candidate *candidate, *mother;
    113   TLorentzVector candidatePosition, candidateMomentum;
     123  TLorentzVector candidatePosition, candidateMomentum, beamSpotPosition;
    114124  Double_t px, py, pz, pt, pt2, e, q;
    115125  Double_t x, y, z, t, r, phi;
     
    120130  Double_t tmp, discr, discr2;
    121131  Double_t delta, gammam, omega, asinrho;
    122   Double_t rcu, rc2, dxy, xd, yd, zd;
     132  Double_t rcu, rc2, xd, yd, zd;
     133  Double_t l, d0, dz, p, ctgTheta, phip, etap, alpha;
     134  Double_t bsx, bsy, bsz;
    123135
    124136  const Double_t c_light = 2.99792458E8;
     137
     138  if (!fBeamSpotInputArray || fBeamSpotInputArray->GetSize () == 0)
     139    beamSpotPosition.SetXYZT(0.0, 0.0, 0.0, 0.0);
     140  else
     141  {
     142    Candidate &beamSpotCandidate = *((Candidate *) fBeamSpotInputArray->At(0));
     143    beamSpotPosition = beamSpotCandidate.Position;
     144  }
    125145
    126146  fItInputArray->Reset();
     
    132152    y = candidatePosition.Y()*1.0E-3;
    133153    z = candidatePosition.Z()*1.0E-3;
     154
     155    bsx = beamSpotPosition.X()*1.0E-3;
     156    bsy = beamSpotPosition.Y()*1.0E-3;
     157    bsz = beamSpotPosition.Z()*1.0E-3;
     158
    134159    q = candidate->Charge;
    135160
     
    182207      z_t = z + pz*t;
    183208
     209      l = TMath::Sqrt( (x_t - x)*(x_t - x) + (y_t - y)*(y_t - y) + (z_t - z)*(z_t - z));
     210
    184211      mother = candidate;
    185212      candidate = static_cast<Candidate*>(candidate->Clone());
    186213
     214      candidate->InitialPosition = candidatePosition;
    187215      candidate->Position.SetXYZT(x_t*1.0E3, y_t*1.0E3, z_t*1.0E3, candidatePosition.T() + t*e*1.0E3);
     216      candidate->L = l*1.0E3;
    188217
    189218      candidate->Momentum = candidateMomentum;
     
    239268      zd = z + (TMath::Sqrt(xd*xd + yd*yd) - TMath::Sqrt(x*x + y*y))*pz/pt;
    240269
    241       // calculate impact paramater
    242       dxy = (xd*py - yd*px)/pt;
     270      // use perigee momentum rather than original particle
     271      // momentum, since the orignal particle momentum isn't known
     272
     273      px = TMath::Sign(1.0,r) * pt * (-y_c / r_c);
     274      py = TMath::Sign(1.0,r) * pt * (x_c / r_c);
     275      etap = candidateMomentum.Eta();
     276      phip = TMath::ATan2(py, px);
     277
     278      candidateMomentum.SetPtEtaPhiE(pt, etap, phip, candidateMomentum.E());
     279
     280      // calculate additional track parameters (correct for beamspot position)
     281
     282      d0        = (  (x - bsx) * py - (y - bsy) * px) / pt;
     283      dz        = z - ((x - bsx) * px + (y - bsy) * py) / pt * (pz / pt);
     284      p         = candidateMomentum.P();
     285      ctgTheta  = 1.0 / TMath::Tan (candidateMomentum.Theta ());
     286
    243287
    244288      // 3. time evaluation t = TMath::Min(t_r, t_z)
     
    287331      r_t = TMath::Hypot(x_t, y_t);
    288332
     333
     334      // compute path length for an helix
     335
     336      alpha = pz*1.0E9 / c_light / gammam;
     337      l = t * TMath::Sqrt(alpha*alpha + r*r*omega*omega);
     338
    289339      if(r_t > 0.0)
    290340      {
     341
     342        // store these variables before cloning
     343        candidate->D0 = d0*1.0E3;
     344        candidate->DZ = dz*1.0E3;
     345        candidate->P  = p;
     346        candidate->PT = pt;
     347        candidate->CtgTheta = ctgTheta;
     348        candidate->Phi = phip;
     349
    291350        mother = candidate;
    292351        candidate = static_cast<Candidate*>(candidate->Clone());
    293352
     353        candidate->InitialPosition = candidatePosition;
    294354        candidate->Position.SetXYZT(x_t*1.0E3, y_t*1.0E3, z_t*1.0E3, candidatePosition.T() + t*c_light*1.0E3);
    295355
    296356        candidate->Momentum = candidateMomentum;
    297         candidate->Dxy = dxy*1.0E3;
    298         candidate->Xd = xd*1.0E3;
     357
     358            candidate->L  =  l*1.0E3;
     359
     360            candidate->Xd = xd*1.0E3;
    299361        candidate->Yd = yd*1.0E3;
    300362        candidate->Zd = zd*1.0E3;
  • modules/ParticlePropagator.h

    rec5e04b r2fc1c08  
    3535class TClonesArray;
    3636class TIterator;
     37class TLorentzVector;
    3738
    3839class ParticlePropagator: public DelphesModule
     
    5556
    5657  const TObjArray *fInputArray; //!
     58  const TObjArray *fBeamSpotInputArray; //!
    5759
    5860  TObjArray *fOutputArray; //!
  • modules/PileUpMerger.cc

    rec5e04b r2fc1c08  
    115115  TDatabasePDG *pdg = TDatabasePDG::Instance();
    116116  TParticlePDG *pdgParticle;
    117   Int_t pid;
     117  Int_t pid, nch, nvtx = -1;
    118118  Float_t x, y, z, t, vx, vy;
    119   Float_t px, py, pz, e;
    120   Double_t dz, dphi, dt;
     119  Float_t px, py, pz, e, pt;
     120  Double_t dz, dphi, dt, sumpt2, dz0, dt0;
    121121  Int_t numberOfEvents, event, numberOfParticles;
    122122  Long64_t allEntries, entry;
     
    132132  fFunction->GetRandom2(dz, dt);
    133133
     134  dz0 = -1.0e6;
     135  dt0 = -1.0e6;
     136
    134137  dt *= c_light*1.0E3; // necessary in order to make t in mm/c
    135138  dz *= 1.0E3; // necessary in order to make z in mm
     139
     140  //cout<<dz<<","<<dt<<endl;
     141
    136142  vx = 0.0;
    137143  vy = 0.0;
     144
    138145  numberOfParticles = fInputArray->GetEntriesFast();
     146  nch = 0;
     147  sumpt2 = 0.0;
     148
     149  factory = GetFactory();
     150  vertex = factory->NewCandidate();
     151
    139152  while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
    140153  {
     
    143156    z = candidate->Position.Z();
    144157    t = candidate->Position.T();
    145     candidate->Position.SetZ(z + dz);
    146     candidate->Position.SetT(t + dt);
     158    pt = candidate->Momentum.Pt();
     159
     160    // take postion and time from first stable particle
     161    if (dz0 < -999999.0)
     162      dz0 = z;
     163    if (dt0 < -999999.0)
     164      dt0 = t;
     165
     166    // cancel any possible offset in position and time the input file
     167    candidate->Position.SetZ(z - dz0 + dz);
     168    candidate->Position.SetT(t - dt0 + dt);
     169
     170    candidate->IsPU = 0;
     171
    147172    fParticleOutputArray->Add(candidate);
     173
     174    if(TMath::Abs(candidate->Charge) >  1.0E-9)
     175    {
     176      nch++;
     177      sumpt2 += pt*pt;
     178      vertex->AddCandidate(candidate);
     179    }
    148180  }
    149181
    150182  if(numberOfParticles > 0)
    151183  {
    152     vx /= numberOfParticles;
    153     vy /= numberOfParticles;
     184    vx /= sumpt2;
     185    vy /= sumpt2;
    154186  }
    155187
    156   factory = GetFactory();
    157 
    158   vertex = factory->NewCandidate();
     188  nvtx++;
    159189  vertex->Position.SetXYZT(vx, vy, dz, dt);
     190  vertex->ClusterIndex = nvtx;
     191  vertex->ClusterNDF = nch;
     192  vertex->SumPT2 = sumpt2;
     193  vertex->GenSumPT2 = sumpt2;
    160194  fVertexOutputArray->Add(vertex);
    161195
     
    170204      numberOfEvents = gRandom->Integer(2*fMeanPileUp + 1);
    171205      break;
     206    case 2:
     207      numberOfEvents = fMeanPileUp;
     208      break;
    172209    default:
    173210      numberOfEvents = gRandom->Poisson(fMeanPileUp);
     
    176213
    177214  allEntries = fReader->GetEntries();
     215
    178216
    179217  for(event = 0; event < numberOfEvents; ++event)
     
    198236    vx = 0.0;
    199237    vy = 0.0;
     238
    200239    numberOfParticles = 0;
     240    sumpt2 = 0.0;
     241
     242    //factory = GetFactory();
     243    vertex = factory->NewCandidate();
     244
    201245    while(fReader->ReadParticle(pid, x, y, z, t, px, py, pz, e))
    202246    {
     
    215259      candidate->Momentum.SetPxPyPzE(px, py, pz, e);
    216260      candidate->Momentum.RotateZ(dphi);
     261      pt = candidate->Momentum.Pt();
    217262
    218263      x -= fInputBeamSpotX;
     
    224269      vx += candidate->Position.X();
    225270      vy += candidate->Position.Y();
     271
    226272      ++numberOfParticles;
     273      if(TMath::Abs(candidate->Charge) >  1.0E-9)
     274      {
     275        nch++;
     276        sumpt2 += pt*pt;
     277        vertex->AddCandidate(candidate);
     278      }
    227279
    228280      fParticleOutputArray->Add(candidate);
     
    235287    }
    236288
    237     vertex = factory->NewCandidate();
     289    nvtx++;
     290
    238291    vertex->Position.SetXYZT(vx, vy, dz, dt);
     292
     293    vertex->ClusterIndex = nvtx;
     294    vertex->ClusterNDF = nch;
     295    vertex->SumPT2 = sumpt2;
     296    vertex->GenSumPT2 = sumpt2;
     297
    239298    vertex->IsPU = 1;
    240299
    241300    fVertexOutputArray->Add(vertex);
     301
    242302  }
    243303}
  • modules/SimpleCalorimeter.cc

    rec5e04b r2fc1c08  
    5858  fItParticleInputArray(0), fItTrackInputArray(0)
    5959{
    60   Int_t i;
    61 
     60 
    6261  fResolutionFormula = new DelphesFormula;
    63 
    64   for(i = 0; i < 2; ++i)
    65   {
    66     fTowerTrackArray[i] = new TObjArray;
    67     fItTowerTrackArray[i] = fTowerTrackArray[i]->MakeIterator();
    68   }
     62  fTowerTrackArray = new TObjArray;
     63  fItTowerTrackArray = fTowerTrackArray->MakeIterator();
     64 
    6965}
    7066
     
    7369SimpleCalorimeter::~SimpleCalorimeter()
    7470{
    75   Int_t i;
    76 
     71 
    7772  if(fResolutionFormula) delete fResolutionFormula;
    78 
    79   for(i = 0; i < 2; ++i)
    80   {
    81     if(fTowerTrackArray[i]) delete fTowerTrackArray[i];
    82     if(fItTowerTrackArray[i]) delete fItTowerTrackArray[i];
    83   }
     73  if(fTowerTrackArray) delete fTowerTrackArray;
     74  if(fItTowerTrackArray) delete fItTowerTrackArray;
     75 
    8476}
    8577
     
    198190  Double_t fraction;
    199191  Double_t energy;
    200   Double_t sigma;
    201192  Int_t pdgCode;
    202193
     
    340331      fTowerEnergy = 0.0;
    341332
    342       fTrackEnergy[0] = 0.0;
    343       fTrackEnergy[1] = 0.0;
     333      fTrackEnergy = 0.0;
     334      fTrackSigma = 0.0;
    344335
    345336      fTowerTime = 0.0;
     
    351342      fTowerPhotonHits = 0;
    352343
    353       fTowerTrackArray[0]->Clear();
    354       fTowerTrackArray[1]->Clear();
    355     }
     344      fTowerTrackArray->Clear();
     345     }
    356346
    357347    // check for track hits
     
    371361      if(fTrackFractions[number] > 1.0E-9)
    372362      {
    373         sigma = fResolutionFormula->Eval(0.0, fTowerEta, 0.0, momentum.E());
    374         if(sigma/momentum.E() < track->TrackResolution)
    375         {
    376           fTrackEnergy[0] += energy;
    377           fTowerTrackArray[0]->Add(track);
    378         }
    379         else
    380         {
    381           fTrackEnergy[1] += energy;
    382           fTowerTrackArray[1]->Add(track);
    383         }
     363             
     364       // compute total charged energy   
     365       fTrackEnergy += energy;
     366       fTrackSigma += ((track->TrackResolution)*momentum.E())*((track->TrackResolution)*momentum.E());
     367       
     368       fTowerTrackArray->Add(track);
     369     
    384370      }
     371       
    385372      else
    386373      {
     
    403390    fTowerEnergy += energy;
    404391
    405     fTowerTime += TMath::Sqrt(energy)*position.T();
    406     fTowerTimeWeight += TMath::Sqrt(energy);
     392    fTowerTime += energy*position.T();
     393    fTowerTimeWeight += energy;
    407394
    408395    fTower->AddCandidate(particle);
     
    418405{
    419406  Candidate *tower, *track, *mother;
    420   Double_t energy, pt, eta, phi;
    421   Double_t sigma;
     407  Double_t energy,neutralEnergy, pt, eta, phi;
     408  Double_t sigma, neutralSigma;
    422409  Double_t time;
     410   
     411  Double_t weightTrack, weightCalo, bestEnergyEstimate, rescaleFactor;
    423412
    424413  TLorentzVector momentum;
     
    436425
    437426  if(energy < fEnergyMin || energy < fEnergySignificanceMin*sigma) energy = 0.0;
     427
    438428
    439429  if(fSmearTowerCenter)
     
    464454  if(energy > 0.0) fTowerOutputArray->Add(fTower);
    465455
    466   // fill e-flow candidates
    467 
    468   energy -= fTrackEnergy[1];
    469 
    470   fItTowerTrackArray[0]->Reset();
    471   while((track = static_cast<Candidate*>(fItTowerTrackArray[0]->Next())))
    472   {
    473     mother = track;
    474     track = static_cast<Candidate*>(track->Clone());
    475     track->AddCandidate(mother);
    476 
    477     track->Momentum *= energy/fTrackEnergy[0];
    478 
    479     fEFlowTrackOutputArray->Add(track);
    480   }
    481 
    482   fItTowerTrackArray[1]->Reset();
    483   while((track = static_cast<Candidate*>(fItTowerTrackArray[1]->Next())))
    484   {
    485     mother = track;
    486     track = static_cast<Candidate*>(track->Clone());
    487     track->AddCandidate(mother);
    488 
    489     fEFlowTrackOutputArray->Add(track);
    490   }
    491 
    492   if(fTowerTrackArray[0]->GetEntriesFast() > 0) energy = 0.0;
    493 
    494   sigma = fResolutionFormula->Eval(0.0, fTowerEta, 0.0, energy);
    495   if(energy < fEnergyMin || energy < fEnergySignificanceMin*sigma) energy = 0.0;
    496 
    497   // save energy excess as an energy flow tower
    498   if(energy > 0.0)
     456 
     457  // e-flow candidates
     458
     459  //compute neutral excess
     460 
     461  fTrackSigma = TMath::Sqrt(fTrackSigma);
     462  neutralEnergy = max( (energy - fTrackEnergy) , 0.0);
     463 
     464  //compute sigma_trk total
     465  neutralSigma = neutralEnergy / TMath::Sqrt(fTrackSigma*fTrackSigma+ sigma*sigma);
     466   
     467  // if neutral excess is significant, simply create neutral Eflow tower and clone each track into eflowtrack
     468  if(neutralEnergy > fEnergyMin && neutralSigma > fEnergySignificanceMin)
    499469  {
    500470    // create new photon tower
    501471    tower = static_cast<Candidate*>(fTower->Clone());
    502     pt = energy / TMath::CosH(eta);
    503 
    504     tower->Eem = (!fIsEcal) ? 0 : energy;
    505     tower->Ehad = (fIsEcal) ? 0 : energy;
     472    pt = neutralEnergy / TMath::CosH(eta);
     473
     474    tower->Eem = (!fIsEcal) ? 0 : neutralEnergy;
     475    tower->Ehad = (fIsEcal) ? 0 : neutralEnergy;
     476    tower->PID = (fIsEcal) ? 22 : 0;
     477 
     478    tower->Momentum.SetPtEtaPhiE(pt, eta, phi, neutralEnergy);
     479    fEFlowTowerOutputArray->Add(tower);
    506480   
    507     tower->Momentum.SetPtEtaPhiE(pt, eta, phi, energy);
     481    fItTowerTrackArray->Reset();
     482    while((track = static_cast<Candidate*>(fItTowerTrackArray->Next())))
     483    {
     484      mother = track;
     485      track = static_cast<Candidate*>(track->Clone());
     486      track->AddCandidate(mother);
     487
     488      fEFlowTrackOutputArray->Add(track);
     489    }
     490  }
    508491   
    509     tower->PID = (fIsEcal) ? 22 : 0;
    510    
    511     fEFlowTowerOutputArray->Add(tower);
    512   }
    513 }
     492  // if neutral excess is not significant, rescale eflow tracks, such that the total charged equals the best measurement given by the calorimeter and tracking
     493  else if (fTrackEnergy > 0.0)
     494  {
     495    weightTrack = (fTrackSigma > 0.0) ? 1 / (fTrackSigma*fTrackSigma) : 0.0;
     496    weightCalo  = (sigma > 0.0) ? 1 / (sigma*sigma) : 0.0;
     497 
     498    bestEnergyEstimate = (weightTrack*fTrackEnergy + weightCalo*energy) / (weightTrack + weightCalo);
     499    rescaleFactor = bestEnergyEstimate/fTrackEnergy;
     500   
     501    fItTowerTrackArray->Reset();
     502    while((track = static_cast<Candidate*>(fItTowerTrackArray->Next())))
     503    {
     504      mother = track;
     505      track = static_cast<Candidate*>(track->Clone());
     506      track->AddCandidate(mother);
     507
     508      track->Momentum *= rescaleFactor;
     509
     510      fEFlowTrackOutputArray->Add(track);
     511    }
     512  }
     513   
     514 }
    514515
    515516//------------------------------------------------------------------------------
  • modules/SimpleCalorimeter.h

    rec5e04b r2fc1c08  
    5959  Double_t fTowerEta, fTowerPhi, fTowerEdges[4];
    6060  Double_t fTowerEnergy;
    61   Double_t fTrackEnergy[2];
     61  Double_t fTrackEnergy;
    6262
    6363  Double_t fTowerTime;
     
    7272
    7373  Double_t fEnergySignificanceMin;
     74
     75  Double_t fTrackSigma;
    7476
    7577  Bool_t fSmearTowerCenter;
     
    102104  TObjArray *fEFlowTowerOutputArray; //!
    103105
    104   TObjArray *fTowerTrackArray[2]; //!
    105   TIterator *fItTowerTrackArray[2]; //!
     106  TObjArray *fTowerTrackArray; //!
     107  TIterator *fItTowerTrackArray; //!
    106108
    107109  void FinalizeTower();
  • modules/TimeSmearing.cc

    rec5e04b r2fc1c08  
    9393{
    9494  Candidate *candidate, *mother;
    95   Double_t t;
     95  Double_t ti, tf_smeared, tf;
    9696  const Double_t c_light = 2.99792458E8;
    9797
     
    9999  while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
    100100  {
    101     const TLorentzVector &candidatePosition = candidate->Position;
    102     t = candidatePosition.T()*1.0E-3/c_light;
     101    const TLorentzVector &candidateInitialPosition = candidate->InitialPosition;
     102    const TLorentzVector &candidateFinalPosition = candidate->Position;
     103
     104    ti = candidateInitialPosition.T()*1.0E-3/c_light;
     105    tf = candidateFinalPosition.T()*1.0E-3/c_light;
    103106
    104107    // apply smearing formula
    105     t = gRandom->Gaus(t, fTimeResolution);
     108    tf_smeared = gRandom->Gaus(tf, fTimeResolution);
     109    ti = ti + tf_smeared - tf;
    106110
    107111    mother = candidate;
    108112    candidate = static_cast<Candidate*>(candidate->Clone());
    109     candidate->Position.SetT(t*1.0E3*c_light);
     113    candidate->InitialPosition.SetT(ti*1.0E3*c_light);
     114    candidate->Position.SetT(tf*1.0E3*c_light);
     115
     116    candidate->ErrorT = fTimeResolution*1.0E3*c_light;
    110117
    111118    candidate->AddCandidate(mother);
  • modules/TrackCountingBTagging.cc

    rec5e04b r2fc1c08  
    9696
    9797  Double_t jpx, jpy;
    98   Double_t dr, tpx, tpy, tpt;
    99   Double_t xd, yd, dxy, ddxy, ip, sip;
     98  Double_t dr, tpt;
     99  Double_t xd, yd, d0, dd0, ip, sip;
    100100
    101101  Int_t sign;
     
    117117    {
    118118      const TLorentzVector &trkMomentum = track->Momentum;
    119 
     119     
    120120      dr = jetMomentum.DeltaR(trkMomentum);
    121 
    122121      tpt = trkMomentum.Pt();
    123       tpx = trkMomentum.Px();
    124       tpy = trkMomentum.Py();
    125 
    126122      xd = track->Xd;
    127123      yd = track->Yd;
    128       dxy = TMath::Hypot(xd, yd);
    129       ddxy = track->SDxy;
     124      d0 = TMath::Hypot(xd, yd);
     125      dd0 = track->ErrorD0;
    130126
    131127      if(tpt < fPtMin) continue;
    132128      if(dr > fDeltaR) continue;
    133       if(dxy > fIPmax) continue;
     129      if(d0 > fIPmax) continue;
    134130
    135131      sign = (jpx*xd + jpy*yd > 0.0) ? 1 : -1;
    136132
    137       ip = sign*dxy;
    138       sip = ip / TMath::Abs(ddxy);
     133      ip = sign*d0;
     134      sip = ip / TMath::Abs(dd0);
    139135
    140136      if(sip > fSigMin) count++;
  • modules/TreeWriter.cc

    rec5e04b r2fc1c08  
    215215    entry->Pz = momentum.Pz();
    216216
     217    entry->D0            = candidate->D0;
     218    entry->DZ            = candidate->DZ;
     219    entry->P             = candidate->P;
     220    entry->PT            = candidate->PT;
     221    entry->CtgTheta      = candidate->CtgTheta;
     222    entry->Phi           = candidate->Phi;
     223
    217224    entry->Eta = eta;
    218225    entry->Phi = momentum.Phi();
     
    233240{
    234241  TIter iterator(array);
    235   Candidate *candidate = 0;
     242  Candidate *candidate = 0, *constituent = 0;
    236243  Vertex *entry = 0;
    237244
    238245  const Double_t c_light = 2.99792458E8;
    239246
     247  Double_t x, y, z, t, xError, yError, zError, tError, sigma, sumPT2, btvSumPT2, genDeltaZ, genSumPT2;
     248  UInt_t index, ndf;
     249
     250  CompBase *compare = Candidate::fgCompare;
     251  Candidate::fgCompare = CompSumPT2<Candidate>::Instance();
     252  array->Sort();
     253  Candidate::fgCompare = compare;
     254
    240255  // loop over all vertices
    241256  iterator.Reset();
    242257  while((candidate = static_cast<Candidate*>(iterator.Next())))
    243258  {
    244     const TLorentzVector &position = candidate->Position;
     259
     260    index = candidate->ClusterIndex;
     261    ndf = candidate->ClusterNDF;
     262    sigma = candidate->ClusterSigma;
     263    sumPT2 = candidate->SumPT2;
     264    btvSumPT2 = candidate->BTVSumPT2;
     265    genDeltaZ = candidate->GenDeltaZ;
     266    genSumPT2 = candidate->GenSumPT2;
     267
     268    x = candidate->Position.X();
     269    y = candidate->Position.Y();
     270    z = candidate->Position.Z();
     271    t = candidate->Position.T()*1.0E-3/c_light;
     272
     273    xError = candidate->PositionError.X ();
     274    yError = candidate->PositionError.Y ();
     275    zError = candidate->PositionError.Z ();
     276    tError = candidate->PositionError.T ()*1.0E-3/c_light;
    245277
    246278    entry = static_cast<Vertex*>(branch->NewEntry());
    247279
    248     entry->X = position.X();
    249     entry->Y = position.Y();
    250     entry->Z = position.Z();
    251     entry->T = position.T()*1.0E-3/c_light;
    252   }
    253 }
     280    entry->Index = index;
     281    entry->NDF = ndf;
     282    entry->Sigma = sigma;
     283    entry->SumPT2 = sumPT2;
     284    entry->BTVSumPT2 = btvSumPT2;
     285    entry->GenDeltaZ = genDeltaZ;
     286    entry->GenSumPT2 = genSumPT2;
     287
     288    entry->X = x;
     289    entry->Y = y;
     290    entry->Z = z;
     291    entry->T = t;
     292
     293    entry->ErrorX = xError;
     294    entry->ErrorY = yError;
     295    entry->ErrorZ = zError;
     296    entry->ErrorT = tError;
     297
     298
     299    TIter itConstituents(candidate->GetCandidates());
     300    itConstituents.Reset();
     301    entry->Constituents.Clear();
     302    while((constituent = static_cast<Candidate*>(itConstituents.Next())))
     303    {
     304      entry->Constituents.Add(constituent);
     305    }
     306
     307  }
     308}
     309
    254310
    255311//------------------------------------------------------------------------------
     
    261317  Candidate *particle = 0;
    262318  Track *entry = 0;
    263   Double_t pt, signz, cosTheta, eta, rapidity;
     319  Double_t pt, signz, cosTheta, eta, rapidity, p, ctgTheta, phi;
    264320  const Double_t c_light = 2.99792458E8;
    265321
     
    292348    entry->TOuter = position.T()*1.0E-3/c_light;
    293349
    294     entry->Dxy = candidate->Dxy;
    295     entry->SDxy = candidate->SDxy ;
     350    entry->L = candidate->L;
     351
     352    entry->D0            = candidate->D0;
     353    entry->ErrorD0       = candidate->ErrorD0;
     354    entry->DZ            = candidate->DZ;
     355    entry->ErrorDZ       = candidate->ErrorDZ;
     356
     357    entry->ErrorP        = candidate->ErrorP;
     358    entry->ErrorPT       = candidate->ErrorPT;
     359    entry->ErrorCtgTheta = candidate->ErrorCtgTheta;
     360    entry->ErrorPhi      = candidate->ErrorPhi;
     361
    296362    entry->Xd = candidate->Xd;
    297363    entry->Yd = candidate->Yd;
     
    301367
    302368    pt = momentum.Pt();
     369    p = momentum.P();
     370    phi = momentum.Phi();
     371    ctgTheta = (TMath::Tan(momentum.Theta()) != 0) ? 1/TMath::Tan(momentum.Theta()) : 1e10;
     372
    303373    cosTheta = TMath::Abs(momentum.CosTheta());
    304374    signz = (momentum.Pz() >= 0.0) ? 1.0 : -1.0;
     
    306376    rapidity = (cosTheta == 1.0 ? signz*999.9 : momentum.Rapidity());
    307377
     378    entry->PT  = pt;
    308379    entry->Eta = eta;
    309     entry->Phi = momentum.Phi();
    310     entry->PT = pt;
     380    entry->Phi = phi;
     381    entry->CtgTheta = ctgTheta;
    311382
    312383    particle = static_cast<Candidate*>(candidate->GetCandidates()->At(0));
     
    319390
    320391    entry->Particle = particle;
     392
     393    entry->VertexIndex = candidate->ClusterIndex;
     394
    321395  }
    322396}
  • readers/DelphesCMSFWLite.cpp

    rec5e04b r2fc1c08  
    272272
    273273    branchEvent = treeWriter->NewBranch("Event", HepMCEvent::Class());
    274     branchRwgt = treeWriter->NewBranch("Rwgt", Weight::Class());
     274    branchRwgt = treeWriter->NewBranch("Weight", Weight::Class());
    275275
    276276    confReader = new ExRootConfReader;
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