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TrajectoryManager.h
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1 #ifndef TRAJECTORYMANAGER_H
2 #define TRAJECTORYMANAGER_H
3 
4 //DataFormats
8 
9 //FAMOS Headers
11 
12 #include "Math/GenVector/AxisAngle.h"
13 
37 #include <vector>
38 #include <map>
39 
40 class PythiaDecays;
42 class TrackerLayer;
43 class ParticlePropagator;
44 class FSimEvent;
45 //class Histos;
48 class DetLayer;
49 class MagneticField;
50 class MagneticFieldMap;
52 class TrackerGeometry;
53 class TrackerTopology;
54 
55 namespace edm {
56  class ParameterSet;
57 }
58 
60 
61 {
62  public:
63 
64  typedef ROOT::Math::AxisAngle Rotation;
65 
68 
70  TrajectoryManager(FSimEvent* aSimEvent,
71  const edm::ParameterSet& matEff,
73  const edm::ParameterSet& decays);
74 
77 
79  void reconstruct(const TrackerTopology *tTopo, RandomEngineAndDistribution const*);
80 
82  void createPSimHits(const TrackerLayer& layer,
83  const ParticlePropagator& P_before,
84  std::map<double,PSimHit>& theHitMap,
85  int trackID, int partID, const TrackerTopology *tTopo);
86 
89  int fsimi,
91 
94  bool propagateToLayer(ParticlePropagator& PP,unsigned layer);
95 
98 
100  void initializeRecoGeometry(const GeometricSearchTracker* geomSearchTracker,
101  const TrackerInteractionGeometry* interactionGeometry,
102  const MagneticFieldMap* aFieldMap);
103 
105  void initializeTrackerGeometry(const TrackerGeometry* geomTracker);
106 
107  // load container from edm::Event
108  void loadSimHits(edm::PSimHitContainer & c) const;
109 
110  private:
111 
114 
116  void moveAllDaughters(int fsimi, const Rotation& r, double rescale);
117 
119  void initializeLayerMap();
120 
123  const ParticlePropagator& pp,
124  const MagneticField* field) const;
125 
127  void makePSimHits( const GeomDet* det, const TrajectoryStateOnSurface& ts,
128  std::map<double,PSimHit>& theHitMap,
129  int tkID, float el, float thick, int pID, const TrackerTopology *tTopo);
131  std::pair<double,PSimHit> makeSinglePSimHit( const GeomDetUnit& det,
132  const TrajectoryStateOnSurface& ts,
133  int tkID, float el, float thick, int pID, const TrackerTopology *tTopo) const;
134 
136  const DetLayer* detLayer( const TrackerLayer& layer, float zpos) const;
137 
138  private:
139 
141 
144 
146 
149  double distCut;
150 
151  double pTmin;
152  bool firstLoop;
153  std::map<unsigned,std::map<double,PSimHit> > thePSimHits;
154 
157  std::vector<const DetLayer*> theLayerMap;
159 
160  // Histos* myHistos;
161 
163 
164 };
165 #endif
void reconstruct(const TrackerTopology *tTopo, RandomEngineAndDistribution const *)
Does the real job.
void initializeLayerMap()
Initialize correspondence map between Famos interaction geometry and tracker reco geometry...
const DetLayer * detLayer(const TrackerLayer &layer, float zpos) const
Returns the DetLayer pointer corresponding to the FAMOS layer.
void initializeTrackerGeometry(const TrackerGeometry *geomTracker)
Initialize the full Tracker Geometry.
void propagateToCalorimeters(ParticlePropagator &PP, int fsimi, RandomEngineAndDistribution const *)
Propagate the particle through the calorimeters.
PythiaDecays * myDecayEngine
std::pair< double, PSimHit > makeSinglePSimHit(const GeomDetUnit &det, const TrajectoryStateOnSurface &ts, int tkID, float el, float thick, int pID, const TrackerTopology *tTopo) const
and there
void makePSimHits(const GeomDet *det, const TrajectoryStateOnSurface &ts, std::map< double, PSimHit > &theHitMap, int tkID, float el, float thick, int pID, const TrackerTopology *tTopo)
and there
tuple pp
Definition: createTree.py:15
void createPSimHits(const TrackerLayer &layer, const ParticlePropagator &P_before, std::map< double, PSimHit > &theHitMap, int trackID, int partID, const TrackerTopology *tTopo)
Create a vector of PSimHits.
const MagneticFieldMap * _theFieldMap
const TrackerGeometry * theGeomTracker
void initializeRecoGeometry(const GeometricSearchTracker *geomSearchTracker, const TrackerInteractionGeometry *interactionGeometry, const MagneticFieldMap *aFieldMap)
Initialize the Reconstruction Geometry.
TrajectoryStateOnSurface makeTrajectoryState(const DetLayer *layer, const ParticlePropagator &pp, const MagneticField *field) const
Teddy, you must put comments there.
void moveAllDaughters(int fsimi, const Rotation &r, double rescale)
Move, rescale and rotate all daughters after propagation, material effects and decay of the mother...
const GeometricSearchTracker * theGeomSearchTracker
ROOT::Math::AxisAngle Rotation
~TrajectoryManager()
Default Destructor.
const TrackerInteractionGeometry * _theGeometry
MaterialEffects * theMaterialEffects
TrajectoryManager()
Default Constructor.
std::map< unsigned, std::map< double, PSimHit > > thePSimHits
void loadSimHits(edm::PSimHitContainer &c) const
tuple simHits
Definition: trackerHits.py:16
const TrackerInteractionGeometry * theGeometry()
Returns the pointer to geometry.
std::vector< const DetLayer * > theLayerMap
bool propagateToLayer(ParticlePropagator &PP, unsigned layer)
std::vector< PSimHit > PSimHitContainer
void updateWithDaughters(ParticlePropagator &PP, int fsimi, RandomEngineAndDistribution const *)
Decay the particle and update the SimEvent with daughters.