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FBaseSimEvent Class Reference

#include <FBaseSimEvent.h>

Inheritance diagram for FBaseSimEvent:
FSimEvent

Public Member Functions

void addChargedTrack (int id)
 Add an id in the vector of charged tracks id's. More...
 
void addParticles (const HepMC::GenEvent &hev)
 Add the particles and their vertices to the list. More...
 
int addSimTrack (const RawParticle *p, int iv, int ig=-1, const HepMC::GenVertex *ev=0)
 Add a new track to the Event and to the various lists. More...
 
int addSimVertex (const XYZTLorentzVector &decayVertex, int im=-1, FSimVertexType::VertexType type=FSimVertexType::ANY)
 Add a new vertex to the Event and to the various lists. More...
 
int chargedTrack (int id) const
 return "reconstructed" charged tracks index. More...
 
void clear ()
 clear the FBaseSimEvent content before the next event More...
 
const HepMC::GenParticle * embdGenpart (int i) const
 return MC track with a given id More...
 
const SimTrackembdTrack (int i) const
 return embedded track with given id More...
 
const SimVertexembdVertex (int i) const
 return embedded vertex with given id More...
 
const FSimVertexTypeembdVertexType (int i) const
 return embedded vertex type with given id More...
 
 FBaseSimEvent (const edm::ParameterSet &kine)
 Default constructor. More...
 
void fill (const HepMC::GenEvent &hev)
 fill the FBaseSimEvent from the current HepMC::GenEvent More...
 
void fill (const std::vector< SimTrack > &, const std::vector< SimVertex > &)
 fill the FBaseSimEvent from SimTrack's and SimVert'ices More...
 
const KineParticleFilterfilter () const
 
void initializePdt (const HepPDT::ParticleDataTable *aPdt)
 Initialize the particle data table. More...
 
unsigned int nChargedTracks () const
 Number of "reconstructed" charged tracks. More...
 
unsigned int nGenParts () const
 Number of generator particles. More...
 
unsigned int nTracks () const
 Number of tracks. More...
 
unsigned int nVertices () const
 Number of vertices. More...
 
void print () const
 print the FBaseSimEvent in an intelligible way More...
 
void printMCTruth (const HepMC::GenEvent &hev)
 print the original MCTruth event More...
 
const HepPDT::ParticleDataTabletheTable () const
 Get the pointer to the particle data table. More...
 
FSimTracktrack (int id) const
 Return track with given Id. More...
 
FSimVertexvertex (int id) const
 Return vertex with given Id. More...
 
FSimVertexTypevertexType (int id) const
 Return vertex with given Id. More...
 
 ~FBaseSimEvent ()
 usual virtual destructor More...
 

Protected Member Functions

std::vector
< HepMC::GenParticle * > * 
genparts () const
 The pointer to the vector of GenParticle's. More...
 
std::vector< FSimTrack > * tracks () const
 The pointer to the vector of FSimTrack's. More...
 
std::vector< FSimVertex > * vertices () const
 The pointer to the vector of FSimVertex's. More...
 

Private Attributes

unsigned int initialSize
 
double lateVertexPosition
 
KineParticleFiltermyFilter
 The particle filter. More...
 
unsigned int nChargedParticleTracks
 
unsigned int nGenParticles
 
unsigned int nSimTracks
 
unsigned int nSimVertices
 
const ParticleDataTablepdt
 
double sigmaVerteX
 
double sigmaVerteY
 
double sigmaVerteZ
 
unsigned int theChargedSize
 
std::vector< unsigned > * theChargedTracks
 
FSimVertexTypeCollectiontheFSimVerticesType
 
std::vector
< HepMC::GenParticle * > * 
theGenParticles
 
unsigned int theGenSize
 
std::vector< FSimTrack > * theSimTracks
 
std::vector< FSimVertex > * theSimVertices
 
unsigned int theTrackSize
 
unsigned int theVertexSize
 

Detailed Description

Definition at line 42 of file FBaseSimEvent.h.

Constructor & Destructor Documentation

FBaseSimEvent::FBaseSimEvent ( const edm::ParameterSet kine)

Default constructor.

Definition at line 30 of file FBaseSimEvent.cc.

References initialSize, theChargedSize, theChargedTracks, theFSimVerticesType, theGenParticles, theGenSize, theSimTracks, theSimVertices, theTrackSize, and theVertexSize.

31  :
32  nSimTracks(0),
33  nSimVertices(0),
34  nGenParticles(0),
36  initialSize(5000)
37 {
38 
39  // Initialize the vectors of particles and vertices
40  theGenParticles = new std::vector<HepMC::GenParticle*>();
41  theSimTracks = new std::vector<FSimTrack>;
42  theSimVertices = new std::vector<FSimVertex>;
43  theChargedTracks = new std::vector<unsigned>();
45 
46  // Reserve some size to avoid mutiple copies
47  /* */
48  theSimTracks->resize(initialSize);
49  theSimVertices->resize(initialSize);
52  theFSimVerticesType->resize(initialSize);
57  /* */
58 
59  // Initialize the Particle filter
60  myFilter = new KineParticleFilter(kine);
61 
62 }
std::vector< FSimTrack > * theSimTracks
std::vector< unsigned > * theChargedTracks
unsigned int theTrackSize
unsigned int theVertexSize
unsigned int nSimTracks
unsigned int theGenSize
unsigned int nSimVertices
std::vector< FSimVertexType > FSimVertexTypeCollection
collection of FSimVertexType objects
unsigned int nGenParticles
unsigned int initialSize
std::vector< FSimVertex > * theSimVertices
unsigned int theChargedSize
unsigned int nChargedParticleTracks
std::vector< HepMC::GenParticle * > * theGenParticles
FSimVertexTypeCollection * theFSimVerticesType
FBaseSimEvent::~FBaseSimEvent ( )

usual virtual destructor

Definition at line 64 of file FBaseSimEvent.cc.

References myFilter, theChargedTracks, theFSimVerticesType, theGenParticles, theSimTracks, and theSimVertices.

64  {
65 
66  // Clear the vectors
67  theGenParticles->clear();
68  theSimTracks->clear();
69  theSimVertices->clear();
70  theChargedTracks->clear();
71  theFSimVerticesType->clear();
72 
73  // Delete
74  delete theGenParticles;
75  delete theSimTracks;
76  delete theSimVertices;
77  delete theChargedTracks;
78  delete theFSimVerticesType;
79  delete myFilter;
80 
81 }
std::vector< FSimTrack > * theSimTracks
std::vector< unsigned > * theChargedTracks
KineParticleFilter * myFilter
The particle filter.
std::vector< FSimVertex > * theSimVertices
std::vector< HepMC::GenParticle * > * theGenParticles
FSimVertexTypeCollection * theFSimVerticesType

Member Function Documentation

void FBaseSimEvent::addChargedTrack ( int  id)

Add an id in the vector of charged tracks id's.

Definition at line 717 of file FBaseSimEvent.cc.

References nChargedParticleTracks, theChargedSize, and theChargedTracks.

717  {
718  (*theChargedTracks)[nChargedParticleTracks++] = id;
721  theChargedSize *= 2;
723  }
724 }
std::vector< unsigned > * theChargedTracks
unsigned int theChargedSize
unsigned int nChargedParticleTracks
void FBaseSimEvent::addParticles ( const HepMC::GenEvent &  hev)

Add the particles and their vertices to the list.

Some internal array to work with.

Definition at line 338 of file FBaseSimEvent.cc.

References funct::abs(), addSimTrack(), addSimVertex(), FSimVertexType::DECAY_VERTEX, alignCSCRings::e, GenParticle::GenParticle, lateVertexPosition, nGenParticles, nGenParts(), hltrates_dqm_sourceclient-live_cfg::offset, AlCaHLTBitMon_ParallelJobs::p, position, FSimVertexType::PRIMARY_VERTEX, HLT_25ns14e33_v1_cff::primaryVertex, theGenParticles, theGenSize, and vertex().

Referenced by fill().

338  {
339 
341  int genEventSize = myGenEvent.particles_size();
342  std::vector<int> myGenVertices(genEventSize, static_cast<int>(0));
343 
344  // If no particles, no work to be done !
345  if ( myGenEvent.particles_empty() ) return;
346 
347  // Are there particles in the FSimEvent already ?
348  int offset = nGenParts();
349 
350  // Primary vertex
351  HepMC::GenVertex* primaryVertex = *(myGenEvent.vertices_begin());
352 
353  // unit transformation (needs review)
354  XYZTLorentzVector primaryVertexPosition(primaryVertex->position().x()/10.,
355  primaryVertex->position().y()/10.,
356  primaryVertex->position().z()/10.,
357  primaryVertex->position().t()/10.);
358 
359  // Set the main vertex
360  myFilter->setMainVertex(primaryVertexPosition);
361 
362  // This is the main vertex index
363  int mainVertex = addSimVertex(myFilter->vertex(), -1, FSimVertexType::PRIMARY_VERTEX);
364 
365  HepMC::GenEvent::particle_const_iterator piter;
366  HepMC::GenEvent::particle_const_iterator pbegin = myGenEvent.particles_begin();
367  HepMC::GenEvent::particle_const_iterator pend = myGenEvent.particles_end();
368 
369  int initialBarcode = 0;
370  if ( pbegin != pend ) initialBarcode = (*pbegin)->barcode();
371  // Loop on the particles of the generated event
372  for ( piter = pbegin; piter != pend; ++piter ) {
373 
374  // This is the generated particle pointer - for the signal event only
375  HepMC::GenParticle* p = *piter;
376 
377  if ( !offset ) {
378  (*theGenParticles)[nGenParticles++] = p;
380  theGenSize *= 2;
381  theGenParticles->resize(theGenSize);
382  }
383 
384  }
385 
386  // Reject particles with late origin vertex (i.e., coming from late decays)
387  // This should not happen, but one never knows what users may be up to!
388  // For example exotic particles might decay late - keep the decay products in the case.
389  XYZTLorentzVector productionVertexPosition(0.,0.,0.,0.);
390  HepMC::GenVertex* productionVertex = p->production_vertex();
391  if ( productionVertex ) {
392  unsigned productionMother = productionVertex->particles_in_size();
393  if ( productionMother ) {
394  unsigned motherId = (*(productionVertex->particles_in_const_begin()))->pdg_id();
395  if ( abs(motherId) < 1000000 )
396  productionVertexPosition =
397  XYZTLorentzVector(productionVertex->position().x()/10.,
398  productionVertex->position().y()/10.,
399  productionVertex->position().z()/10.,
400  productionVertex->position().t()/10.);
401  }
402  }
403  if ( !myFilter->accept(productionVertexPosition) ) continue;
404 
405  int abspdgId = abs(p->pdg_id());
406  HepMC::GenVertex* endVertex = p->end_vertex();
407 
408  // Keep only:
409  // 1) Stable particles (watch out! New status code = 1001!)
410  bool testStable = p->status()%1000==1;
411  // Declare stable standard particles that decay after a macroscopic path length
412  // (except if exotic)
413  if ( p->status() == 2 && abspdgId < 1000000) {
414  if ( endVertex ) {
415  XYZTLorentzVector decayPosition =
416  XYZTLorentzVector(endVertex->position().x()/10.,
417  endVertex->position().y()/10.,
418  endVertex->position().z()/10.,
419  endVertex->position().t()/10.);
420  // If the particle flew enough to be beyond the beam pipe enveloppe, just declare it stable
421  if ( decayPosition.Perp2() > lateVertexPosition ) testStable = true;
422  }
423  }
424 
425  // 2) or particles with stable daughters (watch out! New status code = 1001!)
426  bool testDaugh = false;
427  if ( !testStable &&
428  p->status() == 2 &&
429  endVertex &&
430  endVertex->particles_out_size() ) {
431  HepMC::GenVertex::particles_out_const_iterator firstDaughterIt =
432  endVertex->particles_out_const_begin();
433  HepMC::GenVertex::particles_out_const_iterator lastDaughterIt =
434  endVertex->particles_out_const_end();
435  for ( ; firstDaughterIt != lastDaughterIt ; ++firstDaughterIt ) {
436  HepMC::GenParticle* daugh = *firstDaughterIt;
437  if ( daugh->status()%1000==1 ) {
438  // Check that it is not a "prompt electron or muon brem":
439  if (abspdgId == 11 || abspdgId == 13) {
440  if ( endVertex ) {
441  XYZTLorentzVector endVertexPosition = XYZTLorentzVector(endVertex->position().x()/10.,
442  endVertex->position().y()/10.,
443  endVertex->position().z()/10.,
444  endVertex->position().t()/10.);
445  // If the particle flew enough to be beyond the beam pipe enveloppe, just declare it stable
446  if ( endVertexPosition.Perp2() < lateVertexPosition ) {
447  break;
448  }
449  }
450  }
451  testDaugh=true;
452  break;
453  }
454  }
455  }
456 
457  // 3) or particles that fly more than one micron.
458  double dist = 0.;
459  if ( !testStable && !testDaugh && p->production_vertex() ) {
461  productionVertexPosition(p->production_vertex()->position().x()/10.,
462  p->production_vertex()->position().y()/10.,
463  p->production_vertex()->position().z()/10.,
464  p->production_vertex()->position().t()/10.);
465  dist = (primaryVertexPosition-productionVertexPosition).Vect().Mag2();
466  }
467  bool testDecay = ( dist > 1e-8 ) ? true : false;
468 
469  // Save the corresponding particle and vertices
470  if ( testStable || testDaugh || testDecay ) {
471 
472  /*
473  const HepMC::GenParticle* mother = p->production_vertex() ?
474  *(p->production_vertex()->particles_in_const_begin()) : 0;
475  */
476 
477  int motherBarcode = p->production_vertex() &&
478  p->production_vertex()->particles_in_const_begin() !=
479  p->production_vertex()->particles_in_const_end() ?
480  (*(p->production_vertex()->particles_in_const_begin()))->barcode() : 0;
481 
482  int originVertex =
483  motherBarcode && myGenVertices[motherBarcode-initialBarcode] ?
484  myGenVertices[motherBarcode-initialBarcode] : mainVertex;
485 
486  XYZTLorentzVector momentum(p->momentum().px(),
487  p->momentum().py(),
488  p->momentum().pz(),
489  p->momentum().e());
490  RawParticle part(momentum, vertex(originVertex).position());
491  part.setID(p->pdg_id());
492 
493  // Add the particle to the event and to the various lists
494 
495  int theTrack = testStable && p->end_vertex() ?
496  // The particle is scheduled to decay
497  addSimTrack(&part,originVertex, nGenParts()-offset,p->end_vertex()) :
498  // The particle is not scheduled to decay
499  addSimTrack(&part,originVertex, nGenParts()-offset);
500 
501  if (
502  // This one deals with particles with no end vertex
503  !p->end_vertex() ||
504  // This one deals with particles that have a pre-defined
505  // decay proper time, but have not decayed yet
506  ( testStable && p->end_vertex() && !p->end_vertex()->particles_out_size() )
507  // In both case, just don't add a end vertex in the FSimEvent
508  ) continue;
509 
510  // Add the vertex to the event and to the various lists
511  XYZTLorentzVector decayVertex =
512  XYZTLorentzVector(p->end_vertex()->position().x()/10.,
513  p->end_vertex()->position().y()/10.,
514  p->end_vertex()->position().z()/10.,
515  p->end_vertex()->position().t()/10.);
516  // vertex(mainVertex).position();
517  int theVertex = addSimVertex(decayVertex,theTrack, FSimVertexType::DECAY_VERTEX);
518 
519  if ( theVertex != -1 ) myGenVertices[p->barcode()-initialBarcode] = theVertex;
520 
521  // There we are !
522  }
523  }
524 
525 }
double lateVertexPosition
int addSimVertex(const XYZTLorentzVector &decayVertex, int im=-1, FSimVertexType::VertexType type=FSimVertexType::ANY)
Add a new vertex to the Event and to the various lists.
int addSimTrack(const RawParticle *p, int iv, int ig=-1, const HepMC::GenVertex *ev=0)
Add a new track to the Event and to the various lists.
unsigned int theGenSize
FSimVertex & vertex(int id) const
Return vertex with given Id.
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
unsigned int nGenParticles
part
Definition: HCALResponse.h:20
unsigned int nGenParts() const
Number of generator particles.
Definition: FBaseSimEvent.h:94
static int position[264][3]
Definition: ReadPGInfo.cc:509
std::vector< HepMC::GenParticle * > * theGenParticles
math::XYZTLorentzVector XYZTLorentzVector
Definition: RawParticle.h:15
int FBaseSimEvent::addSimTrack ( const RawParticle p,
int  iv,
int  ig = -1,
const HepMC::GenVertex *  ev = 0 
)

Add a new track to the Event and to the various lists.

Definition at line 529 of file FBaseSimEvent.cc.

References FSimVertex::addDaughter(), FSimTrack::addDaughter(), SimTrack::genpartIndex(), RawParticle::momentum(), nSimTracks, dbtoconf::parent, RawParticle::PDGmass(), mathSSE::sqrt(), RawParticle::t(), theSimTracks, theTrackSize, track(), and vertex().

Referenced by addParticles(), fill(), MaterialEffects::interact(), and TrajectoryManager::updateWithDaughters().

530  {
531 
532  // Check that the particle is in the Famos "acceptance"
533  // Keep all primaries of pile-up events, though
534  if ( !myFilter->accept(p) && ig >= -1 ) return -1;
535 
536  // The new track index
537  int trackId = nSimTracks++;
539  theTrackSize *= 2;
540  theSimTracks->resize(theTrackSize);
541  }
542 
543  // Attach the particle to the origin vertex, and to the mother
544  vertex(iv).addDaughter(trackId);
545  if ( !vertex(iv).noParent() ) {
546  track(vertex(iv).parent().id()).addDaughter(trackId);
547 
548  if ( ig == -1 ) {
549  int motherId = track(vertex(iv).parent().id()).genpartIndex();
550  if ( motherId < -1 ) ig = motherId;
551  }
552  }
553 
554  // Some transient information for FAMOS internal use
555  (*theSimTracks)[trackId] = ev ?
556  // A proper decay time is scheduled
557  FSimTrack(p,iv,ig,trackId,this,
558  ev->position().t()/10.
559  * p->PDGmass()
560  / std::sqrt(p->momentum().Vect().Mag2())) :
561  // No proper decay time is scheduled
562  FSimTrack(p,iv,ig,trackId,this);
563 
564  return trackId;
565 
566 }
list parent
Definition: dbtoconf.py:74
std::vector< FSimTrack > * theSimTracks
double PDGmass() const
get the THEORETICAL mass
Definition: RawParticle.cc:255
unsigned int theTrackSize
bool ev
unsigned int nSimTracks
FSimVertex & vertex(int id) const
Return vertex with given Id.
const XYZTLorentzVector & momentum() const
the momentum fourvector
Definition: RawParticle.h:286
T sqrt(T t)
Definition: SSEVec.h:48
int genpartIndex() const
index of the corresponding Generator particle in the Event container (-1 if no Genpart) ...
Definition: SimTrack.h:33
void addDaughter(int i)
Add a RecHit for a track on a layer.
Definition: FSimTrack.h:181
void addDaughter(int i)
Definition: FSimVertex.h:46
FSimTrack & track(int id) const
Return track with given Id.
int FBaseSimEvent::addSimVertex ( const XYZTLorentzVector decayVertex,
int  im = -1,
FSimVertexType::VertexType  type = FSimVertexType::ANY 
)

Add a new vertex to the Event and to the various lists.

Definition at line 569 of file FBaseSimEvent.cc.

References nSimVertices, FSimTrack::setEndVertex(), theFSimVerticesType, theSimVertices, theVertexSize, and track().

Referenced by addParticles(), fill(), MaterialEffects::interact(), TrajectoryManager::reconstruct(), and TrajectoryManager::updateWithDaughters().

569  {
570 
571  // Check that the vertex is in the Famos "acceptance"
572  if ( !myFilter->accept(v) ) return -1;
573 
574  // The number of vertices
575  int vertexId = nSimVertices++;
577  theVertexSize *= 2;
578  theSimVertices->resize(theVertexSize);
580  }
581 
582  // Attach the end vertex to the particle (if accepted)
583  if ( im !=-1 ) track(im).setEndVertex(vertexId);
584 
585  // Some transient information for FAMOS internal use
586  (*theSimVertices)[vertexId] = FSimVertex(v,im,vertexId,this);
587 
588  (*theFSimVerticesType)[vertexId] = FSimVertexType(type);
589 
590  return vertexId;
591 
592 }
type
Definition: HCALResponse.h:21
unsigned int theVertexSize
unsigned int nSimVertices
A FSimVertexType hold the information on the vertex origine.
std::vector< FSimVertex > * theSimVertices
void setEndVertex(int endv)
Set the end vertex.
Definition: FSimTrack.h:148
FSimTrack & track(int id) const
Return track with given Id.
FSimVertexTypeCollection * theFSimVerticesType
int FBaseSimEvent::chargedTrack ( int  id) const

return "reconstructed" charged tracks index.

Definition at line 727 of file FBaseSimEvent.cc.

References nChargedParticleTracks, and theChargedTracks.

727  {
728  if (id>=0 && id<(int)nChargedParticleTracks)
729  return (*theChargedTracks)[id];
730  else
731  return -1;
732 }
std::vector< unsigned > * theChargedTracks
unsigned int nChargedParticleTracks
void FBaseSimEvent::clear ( void  )
const HepMC::GenParticle * FBaseSimEvent::embdGenpart ( int  i) const

return MC track with a given id

Definition at line 747 of file FBaseSimEvent.cc.

References i, and theGenParticles.

747  {
748  return (*theGenParticles)[i];
749 }
int i
Definition: DBlmapReader.cc:9
std::vector< HepMC::GenParticle * > * theGenParticles
const SimTrack& FBaseSimEvent::embdTrack ( int  i) const
inline

return embedded track with given id

Referenced by FSimEvent::load().

const SimVertex& FBaseSimEvent::embdVertex ( int  i) const
inline

return embedded vertex with given id

Referenced by FSimEvent::load().

const FSimVertexType& FBaseSimEvent::embdVertexType ( int  i) const
inline

return embedded vertex type with given id

Referenced by FSimEvent::load().

void FBaseSimEvent::fill ( const HepMC::GenEvent &  hev)

fill the FBaseSimEvent from the current HepMC::GenEvent

Definition at line 91 of file FBaseSimEvent.cc.

References addParticles(), and clear().

Referenced by FSimEvent::fill().

91  {
92 
93  // Clear old vectors
94  clear();
95 
96  // Add the particles in the FSimEvent
97  addParticles(myGenEvent);
98 
99 }
void addParticles(const HepMC::GenEvent &hev)
Add the particles and their vertices to the list.
void clear()
clear the FBaseSimEvent content before the next event
void FBaseSimEvent::fill ( const std::vector< SimTrack > &  simTracks,
const std::vector< SimVertex > &  simVertices 
)

fill the FBaseSimEvent from SimTrack's and SimVert'ices

Definition at line 102 of file FBaseSimEvent.cc.

References funct::abs(), addSimTrack(), addSimVertex(), FSimTrack::charge(), clear(), RawParticle::cos2ThetaV(), SimTrack::genpartIndex(), BaseParticlePropagator::getSuccess(), lateVertexPosition, CoreSimTrack::momentum(), FSimTrack::momentum(), SimVertex::noParent(), FSimTrack::notYetToEndVertex(), nTracks(), SimVertex::parentIndex(), CoreSimVertex::position(), FSimVertex::position(), position, FSimVertexType::PRIMARY_VERTEX, HLT_25ns14e33_v1_cff::primaryVertex, BaseParticlePropagator::propagateToEcalEntrance(), BaseParticlePropagator::propagateToHcalEntrance(), BaseParticlePropagator::propagateToHcalExit(), BaseParticlePropagator::propagateToHOLayer(), BaseParticlePropagator::propagateToPreshowerLayer1(), BaseParticlePropagator::propagateToPreshowerLayer2(), BaseParticlePropagator::propagateToVFcalEntrance(), RawParticle::setCharge(), FSimTrack::setEcal(), FSimTrack::setHcal(), FSimTrack::setHcalExit(), FSimTrack::setHO(), FSimTrack::setLayer1(), FSimTrack::setLayer2(), BaseParticlePropagator::setMagneticField(), FSimTrack::setVFcal(), tree::t, track(), SimTrack::trackerSurfaceMomentum(), SimTrack::trackerSurfacePosition(), CoreSimTrack::type(), FSimTrack::vertex(), vertex(), RawParticle::vertex(), SimTrack::vertIndex(), x, y, and z.

103  {
104 
105  // Watch out there ! A SimVertex is in mm (stupid),
106  // while a FSimVertex is in cm (clever).
107 
108  clear();
109 
110  unsigned nVtx = simVertices.size();
111  unsigned nTks = simTracks.size();
112 
113  // Empty event, do nothin'
114  if ( nVtx == 0 ) return;
115 
116  // Two arrays for internal use.
117  std::vector<int> myVertices(nVtx,-1);
118  std::vector<int> myTracks(nTks,-1);
119 
120  // create a map associating geant particle id and position in the
121  // event SimTrack vector
122 
123  std::map<unsigned, unsigned> geantToIndex;
124  for( unsigned it=0; it<simTracks.size(); ++it ) {
125  geantToIndex[ simTracks[it].trackId() ] = it;
126  }
127 
128  // Create also a map associating a SimTrack with its endVertex
129  /*
130  std::map<unsigned, unsigned> endVertex;
131  for ( unsigned iv=0; iv<simVertices.size(); ++iv ) {
132  endVertex[ simVertices[iv].parentIndex() ] = iv;
133  }
134  */
135 
136  // Set the main vertex for the kine particle filter
137  // SimVertices were in mm until 110_pre2
138  // HepLorentzVector primaryVertex = simVertices[0].position()/10.;
139  // SImVertices are now in cm
140  // Also : position is copied until SimVertex switches to Mathcore.
141  // XYZTLorentzVector primaryVertex = simVertices[0].position();
142  // The next 5 lines to be then replaced by the previous line
143  XYZTLorentzVector primaryVertex(simVertices[0].position().x(),
144  simVertices[0].position().y(),
145  simVertices[0].position().z(),
146  simVertices[0].position().t());
147  //
148  myFilter->setMainVertex(primaryVertex);
149  // Add the main vertex to the list.
151  myVertices[0] = 0;
152 
153  for( unsigned trackId=0; trackId<nTks; ++trackId ) {
154 
155  // The track
156  const SimTrack& track = simTracks[trackId];
157  // std::cout << std::endl << "SimTrack " << trackId << " " << track << std::endl;
158 
159  // The origin vertex
160  int vertexId = track.vertIndex();
161  const SimVertex& vertex = simVertices[vertexId];
162  //std::cout << "Origin vertex " << vertexId << " " << vertex << std::endl;
163 
164  // The mother track
165  int motherId = -1;
166  if( !vertex.noParent() ) { // there is a parent to this vertex
167  // geant id of the mother
168  unsigned motherGeantId = vertex.parentIndex();
169  std::map<unsigned, unsigned >::iterator association
170  = geantToIndex.find( motherGeantId );
171  if(association != geantToIndex.end() )
172  motherId = association->second;
173  }
174  int originId = motherId == - 1 ? -1 : myTracks[motherId];
175  //std::cout << "Origin id " << originId << std::endl;
176 
177  /*
178  if ( endVertex.find(trackId) != endVertex.end() )
179  std::cout << "End vertex id = " << endVertex[trackId] << std::endl;
180  else
181  std::cout << "No endVertex !!! " << std::endl;
182  std::cout << "Tracker surface position " << track.trackerSurfacePosition() << std::endl;
183  */
184 
185  // Add the vertex (if it does not already exist!)
186  XYZTLorentzVector position(vertex.position().px(),vertex.position().py(),
187  vertex.position().pz(),vertex.position().e());
188  if ( myVertices[vertexId] == -1 )
189  // Momentum and position are copied until SimTrack and SimVertex
190  // switch to Mathcore.
191  // myVertices[vertexId] = addSimVertex(vertex.position(),originId);
192  // The next line to be then replaced by the previous line
193  myVertices[vertexId] = addSimVertex(position,originId);
194 
195  // Add the track (with protection for brem'ing electrons and muons)
196  int motherType = motherId == -1 ? 0 : simTracks[motherId].type();
197 
198  bool notBremInDetector =
199  (abs(motherType) != 11 && abs(motherType) != 13) ||
200  motherType != track.type() ||
201  position.Perp2() < lateVertexPosition ;
202 
203  if ( notBremInDetector ) {
204  // Momentum and position are copied until SimTrack and SimVertex
205  // switch to Mathcore.
206  // RawParticle part(track.momentum(), vertex.position());
207  // The next 3 lines to be then replaced by the previous line
208  XYZTLorentzVector momentum(track.momentum().px(),track.momentum().py(),
209  track.momentum().pz(),track.momentum().e());
210  RawParticle part(momentum,position);
211  //
212  part.setID(track.type());
213  //std::cout << "Ctau = " << part.PDGcTau() << std::endl;
214  // Don't save tracks that have decayed immediately but for which no daughters
215  // were saved (probably due to cuts on E, pT and eta)
216  // if ( part.PDGcTau() > 0.1 || endVertex.find(trackId) != endVertex.end() )
217  myTracks[trackId] = addSimTrack(&part,myVertices[vertexId],track.genpartIndex());
218  if ( myTracks[trackId] >= 0 ) {
219  (*theSimTracks)[ myTracks[trackId] ].setTkPosition(track.trackerSurfacePosition());
220  (*theSimTracks)[ myTracks[trackId] ].setTkMomentum(track.trackerSurfaceMomentum());
221  }
222  } else {
223 
224  myTracks[trackId] = myTracks[motherId];
225  if ( myTracks[trackId] >= 0 ) {
226  (*theSimTracks)[ myTracks[trackId] ].setTkPosition(track.trackerSurfacePosition());
227  (*theSimTracks)[ myTracks[trackId] ].setTkMomentum(track.trackerSurfaceMomentum());
228  }
229  }
230 
231  }
232 
233  // Now loop over the remaining end vertices !
234  for( unsigned vertexId=0; vertexId<nVtx; ++vertexId ) {
235 
236  // if the vertex is already saved, just ignore.
237  if ( myVertices[vertexId] != -1 ) continue;
238 
239  // The yet unused vertex
240  const SimVertex& vertex = simVertices[vertexId];
241 
242  // The mother track
243  int motherId = -1;
244  if( !vertex.noParent() ) { // there is a parent to this vertex
245 
246  // geant id of the mother
247  unsigned motherGeantId = vertex.parentIndex();
248  std::map<unsigned, unsigned >::iterator association
249  = geantToIndex.find( motherGeantId );
250  if(association != geantToIndex.end() )
251  motherId = association->second;
252  }
253  int originId = motherId == - 1 ? -1 : myTracks[motherId];
254 
255  // Add the vertex
256  // Momentum and position are copied until SimTrack and SimVertex
257  // switch to Mathcore.
258  // myVertices[vertexId] = addSimVertex(vertex.position(),originId);
259  // The next 3 lines to be then replaced by the previous line
260  XYZTLorentzVector position(vertex.position().px(),vertex.position().py(),
261  vertex.position().pz(),vertex.position().e());
262  myVertices[vertexId] = addSimVertex(position,originId);
263  }
264 
265  // Finally, propagate all particles to the calorimeters
266  BaseParticlePropagator myPart;
267  XYZTLorentzVector mom;
268  XYZTLorentzVector pos;
269 
270 
271  // Loop over the tracks
272  for( int fsimi=0; fsimi < (int)nTracks() ; ++fsimi) {
273 
274 
275  FSimTrack& myTrack = track(fsimi);
276  double trackerSurfaceTime = myTrack.vertex().position().t()
277  + myTrack.momentum().e()/myTrack.momentum().pz()
278  * ( myTrack.trackerSurfacePosition().z()
279  - myTrack.vertex().position().z() );
280  pos = XYZTLorentzVector(myTrack.trackerSurfacePosition().x(),
281  myTrack.trackerSurfacePosition().y(),
282  myTrack.trackerSurfacePosition().z(),
283  trackerSurfaceTime);
284  mom = XYZTLorentzVector(myTrack.trackerSurfaceMomentum().x(),
285  myTrack.trackerSurfaceMomentum().y(),
286  myTrack.trackerSurfaceMomentum().z(),
287  myTrack.trackerSurfaceMomentum().t());
288 
289  if ( mom.T() > 0. ) {
290  // The particle to be propagated
291  myPart = BaseParticlePropagator(RawParticle(mom,pos),0.,0.,4.);
292  myPart.setCharge(myTrack.charge());
293 
294  // Propagate to Preshower layer 1
295  myPart.propagateToPreshowerLayer1(false);
296  if ( myTrack.notYetToEndVertex(myPart.vertex()) && myPart.getSuccess()>0 )
297  myTrack.setLayer1(myPart,myPart.getSuccess());
298 
299  // Propagate to Preshower Layer 2
300  myPart.propagateToPreshowerLayer2(false);
301  if ( myTrack.notYetToEndVertex(myPart.vertex()) && myPart.getSuccess()>0 )
302  myTrack.setLayer2(myPart,myPart.getSuccess());
303 
304  // Propagate to Ecal Endcap
305  myPart.propagateToEcalEntrance(false);
306  if ( myTrack.notYetToEndVertex(myPart.vertex()) )
307  myTrack.setEcal(myPart,myPart.getSuccess());
308 
309  // Propagate to HCAL entrance
310  myPart.propagateToHcalEntrance(false);
311  if ( myTrack.notYetToEndVertex(myPart.vertex()) )
312  myTrack.setHcal(myPart,myPart.getSuccess());
313 
314  // Attempt propagation to HF for low pt and high eta
315  if ( myPart.cos2ThetaV()>0.8 || mom.T() < 3. ) {
316  // Propagate to VFCAL entrance
317  myPart.propagateToVFcalEntrance(false);
318  if ( myTrack.notYetToEndVertex(myPart.vertex()) )
319  myTrack.setVFcal(myPart,myPart.getSuccess());
320 
321  // Otherwise propagate to the HCAL exit and HO.
322  } else {
323  // Propagate to HCAL exit
324  myPart.propagateToHcalExit(false);
325  if ( myTrack.notYetToEndVertex(myPart.vertex()) )
326  myTrack.setHcalExit(myPart,myPart.getSuccess());
327  // Propagate to HOLayer entrance
328  myPart.setMagneticField(0);
329  myPart.propagateToHOLayer(false);
330  if ( myTrack.notYetToEndVertex(myPart.vertex()) )
331  myTrack.setHO(myPart,myPart.getSuccess());
332  }
333  }
334  }
335 }
double lateVertexPosition
const math::XYZVectorD & trackerSurfacePosition() const
Definition: SimTrack.h:36
void setCharge(float q)
set the MEASURED charge
Definition: RawParticle.cc:139
int addSimVertex(const XYZTLorentzVector &decayVertex, int im=-1, FSimVertexType::VertexType type=FSimVertexType::ANY)
Add a new vertex to the Event and to the various lists.
tuple t
Definition: tree.py:139
float charge() const
charge
Definition: FSimTrack.h:47
int addSimTrack(const RawParticle *p, int iv, int ig=-1, const HepMC::GenVertex *ev=0)
Add a new track to the Event and to the various lists.
bool propagateToPreshowerLayer1(bool first=true)
const XYZTLorentzVector & momentum() const
Temporary (until move of SimTrack to Mathcore) - No! Actually very useful.
Definition: FSimTrack.h:190
void setEcal(const RawParticle &pp, int success)
Set the ecal variables.
Definition: FSimTrack.cc:69
int getSuccess() const
Has propagation been performed and was barrel or endcap reached ?
void setLayer2(const RawParticle &pp, int success)
Set the preshower layer2 variables.
Definition: FSimTrack.cc:62
void clear()
clear the FBaseSimEvent content before the next event
void setMagneticField(double b)
Set the magnetic field.
bool notYetToEndVertex(const XYZTLorentzVector &pos) const
Compare the end vertex position with another position.
Definition: FSimTrack.cc:33
FSimVertex & vertex(int id) const
Return vertex with given Id.
bool propagateToVFcalEntrance(bool first=true)
void setLayer1(const RawParticle &pp, int success)
Set the preshower layer1 variables.
Definition: FSimTrack.cc:55
int parentIndex() const
Definition: SimVertex.h:33
const math::XYZTLorentzVector & position() const
Temporary (until CMSSW moves to Mathcore) - No ! Actually very useful.
Definition: FSimVertex.h:49
unsigned int nTracks() const
Number of tracks.
Definition: FBaseSimEvent.h:84
bool propagateToHcalExit(bool first=true)
int genpartIndex() const
index of the corresponding Generator particle in the Event container (-1 if no Genpart) ...
Definition: SimTrack.h:33
double cos2ThetaV() const
Definition: RawParticle.h:269
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
const math::XYZTLorentzVectorD & position() const
Definition: CoreSimVertex.h:26
const FSimVertex & vertex() const
Origin vertex.
bool propagateToEcalEntrance(bool first=true)
int vertIndex() const
index of the vertex in the Event container (-1 if no vertex)
Definition: SimTrack.h:29
const XYZTLorentzVector & vertex() const
the vertex fourvector
Definition: RawParticle.h:285
part
Definition: HCALResponse.h:20
const math::XYZTLorentzVectorD & trackerSurfaceMomentum() const
Definition: SimTrack.h:38
void setHcalExit(const RawParticle &pp, int success)
Set the hcal exit variables.
Definition: FSimTrack.cc:90
int type() const
particle type (HEP PDT convension)
Definition: CoreSimTrack.h:25
bool propagateToHcalEntrance(bool first=true)
const math::XYZTLorentzVectorD & momentum() const
Definition: CoreSimTrack.h:22
static int position[264][3]
Definition: ReadPGInfo.cc:509
void setHO(const RawParticle &pp, int success)
Set the ho variables.
Definition: FSimTrack.cc:96
void setVFcal(const RawParticle &pp, int success)
Set the hcal variables.
Definition: FSimTrack.cc:83
void setHcal(const RawParticle &pp, int success)
Set the hcal variables.
Definition: FSimTrack.cc:76
bool noParent() const
Definition: SimVertex.h:34
bool propagateToHOLayer(bool first=true)
bool propagateToPreshowerLayer2(bool first=true)
math::XYZTLorentzVector XYZTLorentzVector
Definition: RawParticle.h:15
FSimTrack & track(int id) const
Return track with given Id.
const KineParticleFilter& FBaseSimEvent::filter ( ) const
inline
std::vector<HepMC::GenParticle*>* FBaseSimEvent::genparts ( ) const
inlineprotected

The pointer to the vector of GenParticle's.

Definition at line 150 of file FBaseSimEvent.h.

References theGenParticles.

150  {
151  return theGenParticles;
152  }
std::vector< HepMC::GenParticle * > * theGenParticles
void FBaseSimEvent::initializePdt ( const HepPDT::ParticleDataTable aPdt)

Initialize the particle data table.

Definition at line 84 of file FBaseSimEvent.cc.

References pdt.

Referenced by FamosManager::setupGeometryAndField().

84  {
85 
86  pdt = aPdt;
87 
88 }
const ParticleDataTable * pdt
unsigned int FBaseSimEvent::nChargedTracks ( ) const
inline

Number of "reconstructed" charged tracks.

Definition at line 99 of file FBaseSimEvent.h.

References nChargedParticleTracks.

99  {
100  return nChargedParticleTracks;
101  }
unsigned int nChargedParticleTracks
unsigned int FBaseSimEvent::nGenParts ( ) const
inline

Number of generator particles.

Definition at line 94 of file FBaseSimEvent.h.

References nGenParticles.

Referenced by addParticles(), and FSimEvent::nGenParts().

94  {
95  return nGenParticles;
96  }
unsigned int nGenParticles
unsigned int FBaseSimEvent::nTracks ( ) const
inline

Number of tracks.

Definition at line 84 of file FBaseSimEvent.h.

References nSimTracks.

Referenced by fill(), FSimEvent::nTracks(), and print().

84  {
85  return nSimTracks;
86  }
unsigned int nSimTracks
unsigned int FBaseSimEvent::nVertices ( ) const
inline

Number of vertices.

Definition at line 89 of file FBaseSimEvent.h.

References nSimVertices.

Referenced by FSimEvent::nVertices(), and print().

89  {
90  return nSimVertices;
91  }
unsigned int nSimVertices
void FBaseSimEvent::print ( void  ) const

print the FBaseSimEvent in an intelligible way

Definition at line 690 of file FBaseSimEvent.cc.

References gather_cfg::cout, i, nTracks(), nVertices(), track(), and vertexType().

Referenced by CalorimetryManager::reconstruct().

690  {
691 
692  std::cout << " Id Gen Name eta phi pT E Vtx1 "
693  << " x y z "
694  << "Moth Vtx2 eta phi R Z Daughters Ecal?" << std::endl;
695 
696  for( int i=0; i<(int)nTracks(); i++ )
697  std::cout << track(i) << std::endl;
698 
699  for( int i=0; i<(int)nVertices(); i++ )
700  std::cout << "i = " << i << " " << vertexType(i) << std::endl;
701 
702 
703 
704 }
int i
Definition: DBlmapReader.cc:9
unsigned int nVertices() const
Number of vertices.
Definition: FBaseSimEvent.h:89
FSimVertexType & vertexType(int id) const
Return vertex with given Id.
unsigned int nTracks() const
Number of tracks.
Definition: FBaseSimEvent.h:84
tuple cout
Definition: gather_cfg.py:121
FSimTrack & track(int id) const
Return track with given Id.
void FBaseSimEvent::printMCTruth ( const HepMC::GenEvent &  hev)

print the original MCTruth event

Definition at line 595 of file FBaseSimEvent.cc.

References gather_cfg::cout, eta, GenParticle::GenParticle, relval_steps::k, mergeVDriftHistosByStation::name, AlCaHLTBitMon_ParallelJobs::p, pdt, and AlCaHLTBitMon_QueryRunRegistry::string.

595  {
596 
597  std::cout << "Id Gen Name eta phi pT E Vtx1 "
598  << " x y z "
599  << "Moth Vtx2 eta phi R Z Da1 Da2 Ecal?" << std::endl;
600 
601  for ( HepMC::GenEvent::particle_const_iterator
602  piter = myGenEvent.particles_begin();
603  piter != myGenEvent.particles_end();
604  ++piter ) {
605 
606  HepMC::GenParticle* p = *piter;
607  /* */
608  int partId = p->pdg_id();
610 
611  if ( pdt->particle(ParticleID(partId)) !=0 ) {
612  name = (pdt->particle(ParticleID(partId)))->name();
613  } else {
614  name = "none";
615  }
616 
617  XYZTLorentzVector momentum1(p->momentum().px(),
618  p->momentum().py(),
619  p->momentum().pz(),
620  p->momentum().e());
621 
622  int vertexId1 = 0;
623 
624  if ( !p->production_vertex() ) continue;
625 
626  XYZVector vertex1 (p->production_vertex()->position().x()/10.,
627  p->production_vertex()->position().y()/10.,
628  p->production_vertex()->position().z()/10.);
629  vertexId1 = p->production_vertex()->barcode();
630 
631  std::cout.setf(std::ios::fixed, std::ios::floatfield);
632  std::cout.setf(std::ios::right, std::ios::adjustfield);
633 
634  std::cout << std::setw(4) << p->barcode() << " "
635  << name;
636 
637  for(unsigned int k=0;k<11-name.length() && k<12; k++) std::cout << " ";
638 
639  double eta = momentum1.eta();
640  if ( eta > +10. ) eta = +10.;
641  if ( eta < -10. ) eta = -10.;
642  std::cout << std::setw(6) << std::setprecision(2) << eta << " "
643  << std::setw(6) << std::setprecision(2) << momentum1.phi() << " "
644  << std::setw(7) << std::setprecision(2) << momentum1.pt() << " "
645  << std::setw(7) << std::setprecision(2) << momentum1.e() << " "
646  << std::setw(4) << vertexId1 << " "
647  << std::setw(6) << std::setprecision(1) << vertex1.x() << " "
648  << std::setw(6) << std::setprecision(1) << vertex1.y() << " "
649  << std::setw(6) << std::setprecision(1) << vertex1.z() << " ";
650 
651  const HepMC::GenParticle* mother =
652  *(p->production_vertex()->particles_in_const_begin());
653 
654  if ( mother )
655  std::cout << std::setw(4) << mother->barcode() << " ";
656  else
657  std::cout << " " ;
658 
659  if ( p->end_vertex() ) {
660  XYZTLorentzVector vertex2(p->end_vertex()->position().x()/10.,
661  p->end_vertex()->position().y()/10.,
662  p->end_vertex()->position().z()/10.,
663  p->end_vertex()->position().t()/10.);
664  int vertexId2 = p->end_vertex()->barcode();
665 
666  std::vector<const HepMC::GenParticle*> children;
667  HepMC::GenVertex::particles_out_const_iterator firstDaughterIt =
668  p->end_vertex()->particles_out_const_begin();
669  HepMC::GenVertex::particles_out_const_iterator lastDaughterIt =
670  p->end_vertex()->particles_out_const_end();
671  for ( ; firstDaughterIt != lastDaughterIt ; ++firstDaughterIt ) {
672  children.push_back(*firstDaughterIt);
673  }
674 
675  std::cout << std::setw(4) << vertexId2 << " "
676  << std::setw(6) << std::setprecision(2) << vertex2.eta() << " "
677  << std::setw(6) << std::setprecision(2) << vertex2.phi() << " "
678  << std::setw(5) << std::setprecision(1) << vertex2.pt() << " "
679  << std::setw(6) << std::setprecision(1) << vertex2.z() << " ";
680  for ( unsigned id=0; id<children.size(); ++id )
681  std::cout << std::setw(4) << children[id]->barcode() << " ";
682  }
683  std::cout << std::endl;
684 
685  }
686 
687 }
const ParticleDataTable * pdt
math::XYZVector XYZVector
tuple cout
Definition: gather_cfg.py:121
math::XYZTLorentzVector XYZTLorentzVector
Definition: RawParticle.h:15
const HepPDT::ParticleDataTable* FBaseSimEvent::theTable ( ) const
inline

Get the pointer to the particle data table.

Definition at line 57 of file FBaseSimEvent.h.

References pdt.

Referenced by FSimTrack::FSimTrack(), and FamosProducer::produce().

57  {
58  return pdt;
59  }
const ParticleDataTable * pdt
FSimTrack& FBaseSimEvent::track ( int  id) const
inline
std::vector<FSimTrack>* FBaseSimEvent::tracks ( void  ) const
inlineprotected

The pointer to the vector of FSimTrack's.

Definition at line 140 of file FBaseSimEvent.h.

References theSimTracks.

140  {
141  return theSimTracks;
142  }
std::vector< FSimTrack > * theSimTracks
FSimVertex& FBaseSimEvent::vertex ( int  id) const
inline

Return vertex with given Id.

Referenced by addParticles(), addSimTrack(), Tau.Tau::dxy(), fill(), and TrajectoryManager::updateWithDaughters().

FSimVertexType& FBaseSimEvent::vertexType ( int  id) const
inline

Return vertex with given Id.

Referenced by print().

std::vector<FSimVertex>* FBaseSimEvent::vertices ( ) const
inlineprotected

The pointer to the vector of FSimVertex's.

Definition at line 145 of file FBaseSimEvent.h.

References theSimVertices.

145  {
146  return theSimVertices;
147  }
std::vector< FSimVertex > * theSimVertices

Member Data Documentation

unsigned int FBaseSimEvent::initialSize
private

Definition at line 172 of file FBaseSimEvent.h.

Referenced by FBaseSimEvent().

double FBaseSimEvent::lateVertexPosition
private

Definition at line 183 of file FBaseSimEvent.h.

Referenced by addParticles(), and fill().

KineParticleFilter* FBaseSimEvent::myFilter
private

The particle filter.

Definition at line 175 of file FBaseSimEvent.h.

Referenced by filter(), and ~FBaseSimEvent().

unsigned int FBaseSimEvent::nChargedParticleTracks
private

Definition at line 166 of file FBaseSimEvent.h.

Referenced by addChargedTrack(), chargedTrack(), clear(), and nChargedTracks().

unsigned int FBaseSimEvent::nGenParticles
private

Definition at line 165 of file FBaseSimEvent.h.

Referenced by addParticles(), clear(), and nGenParts().

unsigned int FBaseSimEvent::nSimTracks
private

Definition at line 163 of file FBaseSimEvent.h.

Referenced by addSimTrack(), clear(), and nTracks().

unsigned int FBaseSimEvent::nSimVertices
private

Definition at line 164 of file FBaseSimEvent.h.

Referenced by addSimVertex(), clear(), and nVertices().

const ParticleDataTable* FBaseSimEvent::pdt
private

Definition at line 181 of file FBaseSimEvent.h.

Referenced by initializePdt(), printMCTruth(), and theTable().

double FBaseSimEvent::sigmaVerteX
private

Definition at line 177 of file FBaseSimEvent.h.

double FBaseSimEvent::sigmaVerteY
private

Definition at line 178 of file FBaseSimEvent.h.

double FBaseSimEvent::sigmaVerteZ
private

Definition at line 179 of file FBaseSimEvent.h.

unsigned int FBaseSimEvent::theChargedSize
private

Definition at line 171 of file FBaseSimEvent.h.

Referenced by addChargedTrack(), and FBaseSimEvent().

std::vector<unsigned>* FBaseSimEvent::theChargedTracks
private

Definition at line 161 of file FBaseSimEvent.h.

Referenced by addChargedTrack(), chargedTrack(), FBaseSimEvent(), and ~FBaseSimEvent().

FSimVertexTypeCollection* FBaseSimEvent::theFSimVerticesType
private

Definition at line 158 of file FBaseSimEvent.h.

Referenced by addSimVertex(), FBaseSimEvent(), and ~FBaseSimEvent().

std::vector<HepMC::GenParticle*>* FBaseSimEvent::theGenParticles
private

Definition at line 159 of file FBaseSimEvent.h.

Referenced by addParticles(), embdGenpart(), FBaseSimEvent(), genparts(), and ~FBaseSimEvent().

unsigned int FBaseSimEvent::theGenSize
private

Definition at line 170 of file FBaseSimEvent.h.

Referenced by addParticles(), and FBaseSimEvent().

std::vector<FSimTrack>* FBaseSimEvent::theSimTracks
private

Definition at line 156 of file FBaseSimEvent.h.

Referenced by addSimTrack(), FBaseSimEvent(), tracks(), and ~FBaseSimEvent().

std::vector<FSimVertex>* FBaseSimEvent::theSimVertices
private

Definition at line 157 of file FBaseSimEvent.h.

Referenced by addSimVertex(), FBaseSimEvent(), vertices(), and ~FBaseSimEvent().

unsigned int FBaseSimEvent::theTrackSize
private

Definition at line 168 of file FBaseSimEvent.h.

Referenced by addSimTrack(), and FBaseSimEvent().

unsigned int FBaseSimEvent::theVertexSize
private

Definition at line 169 of file FBaseSimEvent.h.

Referenced by addSimVertex(), and FBaseSimEvent().