#ifndef ALIITSRECPOINT_H
#define ALIITSRECPOINT_H
+/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+ * See cxx source for full Copyright notice */
-////////////////////////////////////////////////////
-// Reconstructed space point class for set:ITS //
-////////////////////////////////////////////////////
+/*
+ $Id$
+*/
-#include <TObject.h>
-
-
-class AliITSRecPoint : public TObject {
+///////////////////////////////////////////////////////////////////////////////
+// Reconstructed space point class for set:ITS
+// Reconstructed points are expressed simultaneously in two different
+// reference frames, both differing from the global system.
+// The first is referred to the sensor (see AliITSsegmentation for the
+// definition) and each point is represented by two coordinates: fXloc and
+// fZloc. This system in the code is referred to as "local"
+// The second is used for tracking (V2, SA and MI versions) and the X axis
+// represents the radial coordinate (this system is, in the bending plane,
+// a rotated system w.r.t. the global reference system).
+// Each reaconstructed point is represented by two coordinates: fY and fZ,
+// inherited from AliCluster. This system in the code is referred to as
+// "trackingV2".
+///////////////////////////////////////////////////////////////////////////////
+#include <AliCluster.h>
+#include <Riostream.h>
+#include <AliLog.h>
+class AliITSRecPoint : public AliCluster {
public:
-
AliITSRecPoint();
+ AliITSRecPoint(Int_t *lab,Float_t *hit, Int_t *info, Bool_t local = kFALSE);
+ AliITSRecPoint(const AliITSRecPoint& pt);
+ AliITSRecPoint& operator=(const AliITSRecPoint &source);
+
virtual ~AliITSRecPoint() {}; // distructor
- Bool_t IsSortable() const {return kTRUE;} // allows for sorting
- Int_t GetLabel(Int_t i) {return fTracks[i];} // get track label
- Float_t GetX(){return fX;} // gets fX
- Float_t GetZ(){return fZ;} // gets fZ
- Float_t GetQ(){return fQ;} // gets fQ
- Float_t GetdEdX(){return fdEdX;} // gets fdEdX
- Float_t GetSigmaX2(){return fSigmaX2;} // gets fSigmaX2
- Float_t GetSigmaZ2(){return fSigmaZ2;} // gets fSigmaZ2
- void SetLabel(Int_t i, Int_t lab){fTracks[i]=lab;} // sets track label
- void SetX(Float_t x){fX=x;} // sets fX
- void SetZ(Float_t z){fZ=z;} // sets fZ
- void SetQ(Float_t q){fQ=q;} // sets fQ
- void SetdEdX(Float_t dedx){fdEdX=dedx;} // sets fdEdX
- void SetSigmaX2(Float_t sx2){fSigmaX2=sx2;} // sets fSigmaX2
- void SetSigmaZ2(Float_t sz2){fSigmaZ2=sz2;} // sets fSigmaZ2
- void Use() {
- //if fQ<0 cluster is already associated with a track
- fQ=-fQ;
- }
- Int_t IsUsed() const {return (fQ<0) ? 1 : 0;} // checks Use condision
- Int_t Compare(TObject *o) {
- //to be defined
- return 0;
- }
+ Bool_t IsSortable() const {return kTRUE;} // allows for sorting
+ Float_t GetDetLocalX() const {return fXloc;} // gets fX
+ Float_t GetDetLocalZ() const {return fZloc;} // gets fZ
+ Float_t GetdEdX() const {return fdEdX;} // gets fdEdX
+ Float_t GetSigmaDetLocX2() const {return GetSigmaY2();} // gets fSigmaX2
+ void SetdEdX(Float_t dedx){fdEdX=dedx;} // sets fdEdX
+ Int_t Compare(const TObject *) const {return 0;} //to be defined
+ void Print(ostream *os);
+ // Reads in the content of this class in the format of Print
+ void Read(istream *is);
+ virtual void Print(Option_t *option="") const {TObject::Print(option);}
+ virtual Int_t Read(const char *name) {return TObject::Read(name);}
+
+ void Use(Int_t = 0) {fQ=-fQ;}
+ void UnUse() {fQ=TMath::Abs(fQ);}
+ void SetQ(Float_t q) {fQ=q;}
+ void SetDetectorIndex(Int_t i) { fIndex=i; }
+ void SetLayer(Int_t layer) {fLayer=layer;}
+ void SetNz(Int_t nz) {fNz =nz;}
+ void SetNy(Int_t ny){fNy=ny;}
+ void SetChargeRatio(Float_t ratio) { fChargeRatio = ratio;}
+ void SetPhiR(Float_t y) { fChargeRatio=y; }
+ void SetType(Int_t type){ fType=type;}
+ void SetDeltaProbability(Float_t prob){fDeltaProb = prob;}
+
+ Int_t IsUsed() const {return (fQ<0)?1:0;}
+ Float_t GetQ() const {return TMath::Abs(fQ);}
+ Int_t GetDetectorIndex() const { return 0x3FF&fIndex; }
+ Int_t GetLayer() const {return fLayer;}
+ Int_t GetNz() const {return fNz;}
+ Int_t GetNy() const {return fNy;}
+ Float_t GetChargeRatio() const {return fChargeRatio;}
+ Float_t GetPhiR() const {return fChargeRatio;}
+ Int_t GetPindex() const { return 0xFFF00000&fIndex; } //SSD clusters only
+ Int_t GetNindex() const { return 0xFFC00&fIndex; } //SSD clusters only
+ Int_t GetType() const {return fType;} // type of the cluster
+ Float_t GetDeltaProbability() const{return fDeltaProb;} //probability to belong to the delta ray
+
+ protected:
- public:
- Int_t fTracks[3]; //labels of overlapped tracks
- Float_t fX ; //X of cluster
- Float_t fZ ; //Z of cluster
- Float_t fQ ; //Q of cluster (in ADC counts)
- Float_t fdEdX; //dE/dX inside this cluster
- Float_t fSigmaX2; //Sigma X square of cluster
- Float_t fSigmaZ2; //Sigma Z square of cluster
+ Float_t fXloc ; //X of cluster (local coordinates)
+ Float_t fZloc ; //Z of cluster (local coordinates)
+ Float_t fdEdX; //dE/dX inside this cluster
- ClassDef(AliITSRecPoint,1) // AliITSRecPoint class
+ Int_t fIndex; // detector index
+ Float_t fQ ; // Q of cluster (in ADC counts)
+ Char_t fLayer; // layer number
+ Short_t fNz; //number of digits in Z direction
+ Short_t fNy; //number of digits in y direction
+ Float_t fChargeRatio; //charge ratio
+ Int_t fType; //quality factor of the cluster
+ Float_t fDeltaProb; // probability to be deleta electron
+
+ ClassDef(AliITSRecPoint,5) // AliITSRecPoint class
};
-
+// Input and output function for standard C++ input/output.
+ostream& operator<<(ostream &os,AliITSRecPoint &source);
+istream& operator>>(istream &is,AliITSRecPoint &source);
#endif
-
-
-