set magnetic field for tracks

[u/mrichter/AliRoot.git] / TRD / AliTRDtrack.h

diff --git a/TRD/AliTRDtrack.h b/TRD/AliTRDtrack.h
index e30c03566c57b6a49b88c86336071ca03ac0da91..d192fd5041d6d760ba91eadc63d7838f72c2eddb 100644 (file)
--- a/TRD/AliTRDtrack.h
+++ b/TRD/AliTRDtrack.h
@@ -1,90 +1,154 @@
 #ifndef ALITRDTRACK_H
-#define ALITRDTRACK_H  
+#define ALITRDTRACK_H
 
 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
- * See cxx source for full Copyright notice                               */ 
+ * See cxx source for full Copyright notice                               */
 
-#include <TObject.h> 
+#include <AliKalmanTrack.h>
+#include <TMath.h>
+
+#include "AliBarrelTrack.h"
+#include "AliTRDgeometry.h"
+#include "TVector2.h"
 
 class AliTRDcluster;
+class AliTPCtrack;
+class AliESDtrack;
+
+const unsigned kMAX_CLUSTERS_PER_TRACK=210; 
 
-class AliTRDtrack : public TObject {
+class AliTRDtrack : public AliKalmanTrack {
 
 // Represents reconstructed TRD track
 
 public:
 
-   AliTRDtrack() { fN=0;}
-   AliTRDtrack(UInt_t index, const Double_t xx[5],
+   AliTRDtrack():AliKalmanTrack(){}
+   AliTRDtrack(const AliTRDcluster *c, UInt_t index, const Double_t xx[5],
                const Double_t cc[15], Double_t xr, Double_t alpha);  
    AliTRDtrack(const AliTRDtrack& t);    
+   AliTRDtrack(const AliKalmanTrack& t, Double_t alpha); 
+   AliTRDtrack(const AliESDtrack& t);    
 
-   Int_t  Compare(TObject *o);
+   Int_t    Compare(const TObject *o) const;
+   void     CookdEdx(Double_t low=0.05, Double_t up=0.70);   
 
    Double_t GetAlpha() const {return fAlpha;}
+   Int_t    GetSector() const {
+     //if (fabs(fAlpha) < AliTRDgeometry::GetAlpha()/2) return 0;
+     return Int_t(TVector2::Phi_0_2pi(fAlpha)/AliTRDgeometry::GetAlpha())%AliTRDgeometry::kNsect;}
+
    Double_t GetC()     const {return fC;}
    Int_t    GetClusterIndex(Int_t i) const {return fIndex[i];}    
-   Double_t GetChi2()  const {return fChi2;}
+   Float_t  GetClusterdQdl(Int_t i) const {return fdQdl[i];}    
+
    void     GetCovariance(Double_t cov[15]) const;  
-   Double_t GetdEdX()  const {return fdEdx;}
+   Double_t GetdEdx()  const {return fdEdx;}
+   Double_t GetPIDsignal()  const {return GetdEdx();}
    Double_t GetEta()   const {return fE;}
-   Int_t    GetLabel() const {return fLab;}
-   Int_t    GetNclusters() const {return fN;}
+
+   void     GetExternalCovariance(Double_t cov[15]) const ;   
+   void     GetExternalParameters(Double_t& xr, Double_t x[5]) const ;
+
+   Double_t GetLikelihoodElectron() const { return fLhElectron; };
+
+   Double_t Get1Pt()   const {return (1e-9*TMath::Abs(fC)/fC + fC)*GetConvConst(); } 
    Double_t GetP()     const {  
      return TMath::Abs(GetPt())*sqrt(1.+GetTgl()*GetTgl());
    }
-   Double_t GetPredictedChi2(const AliTRDcluster*) const ;
-   Double_t GetPt()    const {return 0.3*0.2/GetC()/100;}
+   Double_t GetPredictedChi2(const AliTRDcluster*, Double_t h01) const ;
+   Double_t GetPt()    const {return 1./Get1Pt();}   
    void     GetPxPyPz(Double_t &px, Double_t &py, Double_t &pz) const ;
+   void     GetGlobalXYZ(Double_t &x, Double_t &y, Double_t &z) const ;
+   Int_t    GetSeedLabel() const { return fSeedLab; }
    Double_t GetSigmaC2()   const {return fCcc;}
    Double_t GetSigmaTgl2() const {return fCtt;}
    Double_t GetSigmaY2()   const {return fCyy;}
    Double_t GetSigmaZ2()   const {return fCzz;}
-   Double_t GetTgl() const {return fT;}
-   Double_t GetX()   const {return fX;}
-   Double_t GetY()   const {return fY;} // returns running Y
-   Double_t GetZ()   const {return fZ;}
-
-   Bool_t   IsSortable() const {return kTRUE;}
+   Double_t GetSnp()  const {return fX*fC - fE;}
+   Double_t GetTgl()  const {return fT;}
+   Double_t GetX()    const {return fX;}
+   Double_t GetY()    const {return fY;}
+   Double_t GetZ()    const {return fZ;}
+   UInt_t * GetBackupIndexes()  {return fIndexBackup;}
+   UInt_t * GetIndexes()  {return fIndex;}
+  
+
+   Double_t GetYat(Double_t xk) const {     
+//-----------------------------------------------------------------
+// This function calculates the Y-coordinate of a track at the plane x=xk.
+// Needed for matching with the TOF (I.Belikov)
+//-----------------------------------------------------------------
+      Double_t c1=fC*fX - fE, r1=TMath::Sqrt(1.- c1*c1);
+      Double_t c2=fC*xk - fE, r2=TMath::Sqrt(1.- c2*c2);
+      return fY + (xk-fX)*(c1+c2)/(r1+r2);
+   }
+   void SetStop(Bool_t stop) {fStopped=stop;}
+   Bool_t GetStop() const {return fStopped;}
 
-   Int_t    PropagateTo(Double_t xr,
-                   Double_t x0=8.72,Double_t rho=5.86e-3,Double_t pm=0.139);
-   void     PropagateToVertex(
-                   Double_t x0=36.66,Double_t rho=1.2e-3,Double_t pm=0.139);
+   Int_t    PropagateTo(Double_t xr, Double_t x0=8.72, Double_t rho=5.86e-3);
+   void     ResetCovariance();   
+   void     ResetCovariance(Float_t mult);   
+   void ResetClusters() { SetChi2(0.); SetNumberOfClusters(0); }
    Int_t    Rotate(Double_t angle);
 
-   void     SetLabel(Int_t lab=0) {fLab=lab;}
    void     SetdEdx(Float_t dedx) {fdEdx=dedx;}  
+   void     SetLikelihoodElectron(Float_t l) { fLhElectron = l; };  
+
+   void     SetSampledEdx(Float_t q, Int_t i) {
+              Double_t s=GetSnp(), t=GetTgl();
+              q*= TMath::Sqrt((1-s*s)/(1+t*t));
+              fdQdl[i]=q;
+            }     
 
-   void     Update(const AliTRDcluster* c, Double_t chi2, UInt_t i);
+   void     SetSeedLabel(Int_t lab) { fSeedLab=lab; }
+
+   Int_t    Update(const AliTRDcluster* c, Double_t chi2, UInt_t i, 
+                   Double_t h01);
+   Int_t    UpdateMI(const AliTRDcluster* c, Double_t chi2, UInt_t i, 
+                   Double_t h01, Int_t plane);
+
+  //
+  void GetBarrelTrack(AliBarrelTrack *track);
+  void AddNWrong() {fNWrong++;}
+  
+  Int_t GetNWrong() const {return fNWrong;}
+  Int_t GetNRotate() const {return fNRotate;}
+  //
 
 
 protected:
 
-   Int_t    fLab;         // track label  
-   Double_t fChi2;        // total chi2 value for the track  
+   Int_t    fSeedLab;     // track label taken from seeding  
    Float_t  fdEdx;        // dE/dx 
 
    Double_t fAlpha;       // rotation angle
    Double_t fX;           // running local X-coordinate of the track (time bin)
+   Bool_t   fStopped;     // track stop indication
 
-   Double_t fY;           // Y-coordinate of the track
-   Double_t fZ;           // Z-coordinate of the track
-   Double_t fC;           // track curvature
-   Double_t fE;           // C*x0
-   Double_t fT;           // tangent of the track dip angle   
+   Double_t fY;             // Y-coordinate of the track
+   Double_t fZ;             // Z-coordinate of the track
+   Double_t fE;             // C*x0
+   Double_t fT;             // tangent of the track momentum dip angle
+   Double_t fC;             // track curvature
 
    Double_t fCyy;                         // covariance
    Double_t fCzy, fCzz;                   // matrix
-   Double_t fCcy, fCcz, fCcc;             // of the
-   Double_t fCey, fCez, fCec, fCee;       // track
-   Double_t fCty, fCtz, fCtc, fCte, fCtt; // parameters   
-
-   Short_t fN;             // number of clusters associated with the track
-   UInt_t  fIndex[200];    // global indexes of these clusters  
-                          
+   Double_t fCey, fCez, fCee;             // of the
+   Double_t fCty, fCtz, fCte, fCtt;       // track
+   Double_t fCcy, fCcz, fCce, fCct, fCcc; // parameters   
+   
+   UInt_t  fIndex[kMAX_CLUSTERS_PER_TRACK];  // global indexes of clusters  
+   UInt_t  fIndexBackup[kMAX_CLUSTERS_PER_TRACK]; //backup indexes of clusters - used in iterations
+   Float_t fdQdl[kMAX_CLUSTERS_PER_TRACK];   // cluster amplitudes corrected 
+                                             // for track angles    
+                           
+   Float_t fLhElectron;    // Likelihood to be an electron    
+   Int_t fNWrong;    // number of wrong clusters
+   Int_t fNRotate;
+
+   ClassDef(AliTRDtrack,2) // TRD reconstructed tracks
 
-   ClassDef(AliTRDtrack,1)  // TRD reconstructed tracks
 };