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00001 #ifndef _COMMONRECO_ANALYTICALPROPAGATOR_H_
00002 #define _COMMONRECO_ANALYTICALPROPAGATOR_H_
00003 
00004 #include "TrackingTools/GeomPropagators/interface/Propagator.h"
00005 #include "TrackingTools/TrajectoryState/interface/TrajectoryStateOnSurface.h"
00006 
00007 #include <cmath>
00008 #include <cfloat>
00009 
00010 class Surface;
00011 class Cylinder;
00012 class Plane;
00013 class HelixPlaneCrossing;
00014 class MagneticField; 
00015 
00016 
00022 class AnalyticalPropagator : public Propagator {
00023 
00024 public:
00025 
00026   AnalyticalPropagator( const MagneticField* field,
00027                         PropagationDirection dir = alongMomentum,
00028                         float maxDPhi = 1.6) :
00029     Propagator(dir),
00030     theMaxDPhi2(maxDPhi*maxDPhi),
00031     theMaxDBzRatio(0.5),
00032     theField(field) {}
00033 
00034   ~AnalyticalPropagator() {}
00035   //
00036   // use base class methods where necessary:
00037   // - propagation from TrajectoryStateOnSurface 
00038   //     (will use propagation from FreeTrajectoryState)
00039   // - propagation to general Surface
00040   //     (will use specialised methods for planes or cylinders)
00041   //
00042   using Propagator::propagate;
00043   using Propagator::propagateWithPath;
00044 
00046   TrajectoryStateOnSurface propagate(const FreeTrajectoryState& fts, 
00047                                      const Plane& plane) const {
00048     return propagateWithPath(fts,plane).first;
00049   }
00051   std::pair<TrajectoryStateOnSurface,double> 
00052   propagateWithPath(const FreeTrajectoryState& fts, 
00053                     const Plane& plane) const; 
00054   
00056   TrajectoryStateOnSurface propagate(const FreeTrajectoryState& fts, 
00057                                      const Cylinder& cylinder) const {
00058     return propagateWithPath(fts,cylinder).first;
00059   }
00061   std::pair<TrajectoryStateOnSurface,double> 
00062   propagateWithPath(const FreeTrajectoryState& fts, 
00063                     const Cylinder& cylinder) const;
00067   virtual bool setMaxDirectionChange( float phiMax) { 
00068     theMaxDPhi2 = phiMax*phiMax;
00069     return true;
00070   }
00071   
00072 #ifndef CMS_NO_RELAXED_RETURN_TYPE
00073   virtual AnalyticalPropagator * clone() const 
00074 #else
00075     virtual Propagator * clone() const
00076 #endif
00077   {
00078     return new AnalyticalPropagator(*this);
00079   }
00080   
00085   void setMaxRelativeChangeInBz (const float maxDBz) {
00086     theMaxDBzRatio = maxDBz;
00087   }
00088 
00089 
00090 private:
00092   std::pair<TrajectoryStateOnSurface,double> 
00093   propagatedStateWithPath (const FreeTrajectoryState& fts, 
00094                            const Surface& surface, 
00095                            const GlobalTrajectoryParameters& gtp, 
00096                            const double& s) const;
00097 
00099   bool propagateParametersOnCylinder(const FreeTrajectoryState& fts, 
00100                                      const Cylinder& cylinder, 
00101                                      GlobalPoint& x, 
00102                                      GlobalVector& p, 
00103                                      double& s) const;
00104 
00106   bool propagateParametersOnPlane(const FreeTrajectoryState& fts, 
00107                                   const Plane& plane, 
00108                                   GlobalPoint& x, 
00109                                   GlobalVector& p, 
00110                                   double& s) const;
00111   
00113   bool propagateWithLineCrossing(const GlobalPoint&, const GlobalVector&, 
00114                                  const Plane&, GlobalPoint&, double&) const;
00116   bool propagateWithLineCrossing(const GlobalPoint&, const GlobalVector&, 
00117                                  const Cylinder&, GlobalPoint&, double&) const;
00119   bool propagateWithHelixCrossing(HelixPlaneCrossing&, const Plane&, const float,
00120                                   GlobalPoint&, GlobalVector&, double& s) const;
00121 
00122   virtual const MagneticField* magneticField() const {return theField;}
00123 
00124 private:
00125   typedef std::pair<TrajectoryStateOnSurface,double> TsosWP;
00126   float theMaxDPhi2;
00127   float theMaxDBzRatio;
00128   const MagneticField* theField;
00129 };
00130 
00131 #endif