[u/mrichter/AliRoot.git] / STEER / ESD / AliTrackPointArray.h

#ifndef ALITRACKPOINTARRAY_H
#define ALITRACKPOINTARRAY_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

//////////////////////////////////////////////////////////////////////////////
//                          Class AliTrackPoint                             //
//   This class represent a single track space-point.                       //
//   It is used to access the points array defined in AliTrackPointArray.   //
//   Note that the space point coordinates are given in the global frame.   //
//                                                                          //
//   cvetan.cheshkov@cern.ch 3/11/2005                                      //
//////////////////////////////////////////////////////////////////////////////

#include <TObject.h>
#include <TMatrixDSym.h>

class TGeoRotation;

class AliTrackPoint : public TObject {

 public:
  AliTrackPoint();
  AliTrackPoint(Float_t x, Float_t y, Float_t z, const Float_t *cov, UShort_t volid, Float_t charge = 0, Float_t drifttime = 0,Float_t chargeratio = 0, Int_t clutype = 0);
  AliTrackPoint(const Float_t *xyz, const Float_t *cov, UShort_t volid, Float_t charge = 0, Float_t drifttime = 0,Float_t chargeratio = 0, Int_t clutype=0);
  AliTrackPoint(const AliTrackPoint &p);
  AliTrackPoint& operator= (const AliTrackPoint& p);
  virtual ~AliTrackPoint() {}

  // Multiplication with TGeoMatrix and distance between points (chi2) to be implemented

  void     SetXYZ(Float_t x, Float_t y, Float_t z, const Float_t *cov = 0);
  void     SetXYZ(const Float_t *xyz, const Float_t *cov = 0);
  void     SetCov(const Float_t *cov);
  void     SetVolumeID(UShort_t volid) { fVolumeID = volid; }
  void     SetCharge(Float_t charge) { fCharge = charge; }
  void     SetDriftTime(Float_t time) { fDriftTime = time; }
  void     SetChargeRatio(Float_t ratio) {  fChargeRatio= ratio; }
  void     SetClusterType(Int_t clutype) {  fClusterType= clutype; }
  void     SetExtra(Bool_t flag=kTRUE) { fIsExtra = flag; }

  Float_t  GetX() const { return fX; }
  Float_t  GetY() const { return fY; }
  Float_t  GetZ() const { return fZ; }
  void     GetXYZ(Float_t *xyz, Float_t *cov = 0) const;
  const Float_t *GetCov() const { return &fCov[0]; }
  UShort_t GetVolumeID() const { return fVolumeID; }
  Float_t  GetCharge() const { return fCharge; }
  Float_t  GetDriftTime() const { return fDriftTime;}
  Float_t  GetChargeRatio() const { return fChargeRatio;}
  Int_t    GetClusterType() const { return fClusterType;}
  Bool_t   IsExtra() const { return fIsExtra;}

  Float_t  GetResidual(const AliTrackPoint &p, Bool_t weighted = kFALSE) const;
  Bool_t   GetPCA(const AliTrackPoint &p, AliTrackPoint &out) const;

  Float_t  GetAngle() const;
  Bool_t   GetRotMatrix(TGeoRotation& rot) const;
  void SetAlignCovMatrix(const TMatrixDSym& alignparmtrx);

  AliTrackPoint& Rotate(Float_t alpha) const;
  AliTrackPoint& MasterToLocal() const;

  void     Print(Option_t *) const;

 private:

  Float_t  fX;        // X coordinate
  Float_t  fY;        // Y coordinate
  Float_t  fZ;        // Z coordinate
  Float_t  fCharge;   // Cluster charge in arbitrary units
  Float_t  fDriftTime;// Drift time in SDD (in ns)
  Float_t  fChargeRatio; // Charge ratio in SSD 
  Int_t    fClusterType; // Cluster Type (encoded info on size and shape)
  Float_t  fCov[6];   // Cov matrix
  Bool_t   fIsExtra;  // attached by tracker but not used in fit
  UShort_t fVolumeID; // Volume ID

  ClassDef(AliTrackPoint,7)
};

//////////////////////////////////////////////////////////////////////////////
//                          Class AliTrackPointArray                        //
//   This class contains the ESD track space-points which are used during   //
//   the alignment procedures. Each space-point consist of 3 coordinates    //
//   (and their errors) and the index of the sub-detector which contains    //
//   the space-point.                                                       //
//   cvetan.cheshkov@cern.ch 3/11/2005                                      //
//////////////////////////////////////////////////////////////////////////////

class AliTrackPointArray : public TObject {

 public:

  AliTrackPointArray();
  AliTrackPointArray(Int_t npoints);
  AliTrackPointArray(const AliTrackPointArray &array);
  AliTrackPointArray& operator= (const AliTrackPointArray& array);
  virtual ~AliTrackPointArray();

  //  Bool_t    AddPoint(Int_t i, AliCluster *cl, UShort_t volid);
  Bool_t    AddPoint(Int_t i, const AliTrackPoint *p);

  Int_t     GetNPoints() const { return fNPoints; }
  Int_t     GetCovSize() const { return fSize; }
  Bool_t    GetPoint(AliTrackPoint &p, Int_t i) const;
  // Getters for fast access to the coordinate arrays
  const Float_t*  GetX() const { return &fX[0]; }
  const Float_t*  GetY() const { return &fY[0]; }
  const Float_t*  GetZ() const { return &fZ[0]; }
  const Float_t*  GetCharge() const { return &fCharge[0]; }
  const Float_t*  GetDriftTime() const { return &fDriftTime[0]; }
  const Float_t*  GetChargeRatio() const { return &fChargeRatio[0]; }
  const Int_t*    GetClusterType() const { return &fClusterType[0]; }
  const Bool_t*   GetExtra() const { return &fIsExtra[0]; }
  const Float_t*  GetCov() const { return &fCov[0]; }
  const UShort_t* GetVolumeID() const { return &fVolumeID[0]; }

  Bool_t    HasVolumeID(UShort_t volid) const;

  void Sort(Bool_t down=kTRUE);

 private:
  Bool_t fSorted;        // Sorted flag

  Int_t     fNPoints;    // Number of space points
  Float_t   *fX;         //[fNPoints] Array with space point X coordinates
  Float_t   *fY;         //[fNPoints] Array with space point Y coordinates
  Float_t   *fZ;         //[fNPoints] Array with space point Z coordinates
  Float_t   *fCharge;    //[fNPoints] Array with clusters charge
  Float_t   *fDriftTime; //[fNPoints] Array with drift times
  Float_t   *fChargeRatio; //[fNPoints] Array with charge ratio
  Int_t     *fClusterType; //[fNPoints] Array with cluster type
  Bool_t    *fIsExtra;   //[fNPoints] Array with extra flags
  Int_t     fSize;       // Size of array with cov matrices = 6*N of points
  Float_t   *fCov;       //[fSize] Array with space point coordinates cov matrix
  UShort_t  *fVolumeID;  //[fNPoints] Array of space point volume IDs

  ClassDef(AliTrackPointArray,7)
};

#endif
Commit	Line	Data
98937d93	1	#ifndef ALITRACKPOINTARRAY_H
	2	#define ALITRACKPOINTARRAY_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	//////////////////////////////////////////////////////////////////////////////
	7	// Class AliTrackPoint //
	8	// This class represent a single track space-point. //
	9	// It is used to access the points array defined in AliTrackPointArray. //
	10	// Note that the space point coordinates are given in the global frame. //
	11	// //
	12	// cvetan.cheshkov@cern.ch 3/11/2005 //
	13	//////////////////////////////////////////////////////////////////////////////
	14
	15	#include <TObject.h>
ec9e17f9	16	#include <TMatrixDSym.h>
98937d93	17
082050e1	18	class TGeoRotation;
082050e1	19
98937d93	20	class AliTrackPoint : public TObject {
	21
	22	public:
	23	AliTrackPoint();
e3901fd8	24	AliTrackPoint(Float_t x, Float_t y, Float_t z, const Float_t *cov, UShort_t volid, Float_t charge = 0, Float_t drifttime = 0,Float_t chargeratio = 0, Int_t clutype = 0);
e3901fd8	25	AliTrackPoint(const Float_t xyz, const Float_t cov, UShort_t volid, Float_t charge = 0, Float_t drifttime = 0,Float_t chargeratio = 0, Int_t clutype=0);
98937d93	26	AliTrackPoint(const AliTrackPoint &p);
	27	AliTrackPoint& operator= (const AliTrackPoint& p);
	28	virtual ~AliTrackPoint() {}
	29
	30	// Multiplication with TGeoMatrix and distance between points (chi2) to be implemented
	31
	32	void SetXYZ(Float_t x, Float_t y, Float_t z, const Float_t *cov = 0);
	33	void SetXYZ(const Float_t xyz, const Float_t cov = 0);
90a845c7	34	void SetCov(const Float_t *cov);
98937d93	35	void SetVolumeID(UShort_t volid) { fVolumeID = volid; }
6d016ab4	36	void SetCharge(Float_t charge) { fCharge = charge; }
cb0800cc	37	void SetDriftTime(Float_t time) { fDriftTime = time; }
b7bcc8ed	38	void SetChargeRatio(Float_t ratio) { fChargeRatio= ratio; }
e3901fd8	39	void SetClusterType(Int_t clutype) { fClusterType= clutype; }
eb2d90b9	40	void SetExtra(Bool_t flag=kTRUE) { fIsExtra = flag; }
98937d93	41
	42	Float_t GetX() const { return fX; }
	43	Float_t GetY() const { return fY; }
	44	Float_t GetZ() const { return fZ; }
	45	void GetXYZ(Float_t xyz, Float_t cov = 0) const;
	46	const Float_t *GetCov() const { return &fCov[0]; }
	47	UShort_t GetVolumeID() const { return fVolumeID; }
6d016ab4	48	Float_t GetCharge() const { return fCharge; }
cb0800cc	49	Float_t GetDriftTime() const { return fDriftTime;}
b7bcc8ed	50	Float_t GetChargeRatio() const { return fChargeRatio;}
e3901fd8	51	Int_t GetClusterType() const { return fClusterType;}
eb2d90b9	52	Bool_t IsExtra() const { return fIsExtra;}
98937d93	53
46ae650f	54	Float_t GetResidual(const AliTrackPoint &p, Bool_t weighted = kFALSE) const;
4dcdc747	55	Bool_t GetPCA(const AliTrackPoint &p, AliTrackPoint &out) const;
46ae650f	56
46ae650f	57	Float_t GetAngle() const;
082050e1	58	Bool_t GetRotMatrix(TGeoRotation& rot) const;
e04e816f	59	void SetAlignCovMatrix(const TMatrixDSym& alignparmtrx);
ec9e17f9	60
46ae650f	61	AliTrackPoint& Rotate(Float_t alpha) const;
	62	AliTrackPoint& MasterToLocal() const;
	63
	64	void Print(Option_t *) const;
ddfbc51a	65
98937d93	66	private:
	67
	68	Float_t fX; // X coordinate
	69	Float_t fY; // Y coordinate
	70	Float_t fZ; // Z coordinate
6d016ab4	71	Float_t fCharge; // Cluster charge in arbitrary units
cb0800cc	72	Float_t fDriftTime;// Drift time in SDD (in ns)
b7bcc8ed	73	Float_t fChargeRatio; // Charge ratio in SSD
e3901fd8	74	Int_t fClusterType; // Cluster Type (encoded info on size and shape)
98937d93	75	Float_t fCov[6]; // Cov matrix
eb2d90b9	76	Bool_t fIsExtra; // attached by tracker but not used in fit
98937d93	77	UShort_t fVolumeID; // Volume ID
98937d93	78
e3901fd8	79	ClassDef(AliTrackPoint,7)
98937d93	80	};
	81
	82	//////////////////////////////////////////////////////////////////////////////
	83	// Class AliTrackPointArray //
	84	// This class contains the ESD track space-points which are used during //
	85	// the alignment procedures. Each space-point consist of 3 coordinates //
	86	// (and their errors) and the index of the sub-detector which contains //
	87	// the space-point. //
	88	// cvetan.cheshkov@cern.ch 3/11/2005 //
	89	//////////////////////////////////////////////////////////////////////////////
	90
	91	class AliTrackPointArray : public TObject {
	92
	93	public:
	94
	95	AliTrackPointArray();
	96	AliTrackPointArray(Int_t npoints);
	97	AliTrackPointArray(const AliTrackPointArray &array);
	98	AliTrackPointArray& operator= (const AliTrackPointArray& array);
	99	virtual ~AliTrackPointArray();
	100
	101	// Bool_t AddPoint(Int_t i, AliCluster *cl, UShort_t volid);
	102	Bool_t AddPoint(Int_t i, const AliTrackPoint *p);
	103
	104	Int_t GetNPoints() const { return fNPoints; }
	105	Int_t GetCovSize() const { return fSize; }
	106	Bool_t GetPoint(AliTrackPoint &p, Int_t i) const;
	107	// Getters for fast access to the coordinate arrays
	108	const Float_t* GetX() const { return &fX[0]; }
	109	const Float_t* GetY() const { return &fY[0]; }
	110	const Float_t* GetZ() const { return &fZ[0]; }
6d016ab4	111	const Float_t* GetCharge() const { return &fCharge[0]; }
cb0800cc	112	const Float_t* GetDriftTime() const { return &fDriftTime[0]; }
b7bcc8ed	113	const Float_t* GetChargeRatio() const { return &fChargeRatio[0]; }
e3901fd8	114	const Int_t* GetClusterType() const { return &fClusterType[0]; }
eb2d90b9	115	const Bool_t* GetExtra() const { return &fIsExtra[0]; }
98937d93	116	const Float_t* GetCov() const { return &fCov[0]; }
	117	const UShort_t* GetVolumeID() const { return &fVolumeID[0]; }
	118
	119	Bool_t HasVolumeID(UShort_t volid) const;
ddfbc51a	120
bead9796	121	void Sort(Bool_t down=kTRUE);
bead9796	122
98937d93	123	private:
bead9796	124	Bool_t fSorted; // Sorted flag
98937d93	125
	126	Int_t fNPoints; // Number of space points
	127	Float_t *fX; //[fNPoints] Array with space point X coordinates
	128	Float_t *fY; //[fNPoints] Array with space point Y coordinates
	129	Float_t *fZ; //[fNPoints] Array with space point Z coordinates
6d016ab4	130	Float_t *fCharge; //[fNPoints] Array with clusters charge
cb0800cc	131	Float_t *fDriftTime; //[fNPoints] Array with drift times
b7bcc8ed	132	Float_t *fChargeRatio; //[fNPoints] Array with charge ratio
e3901fd8	133	Int_t *fClusterType; //[fNPoints] Array with cluster type
eb2d90b9	134	Bool_t *fIsExtra; //[fNPoints] Array with extra flags
98937d93	135	Int_t fSize; // Size of array with cov matrices = 6*N of points
	136	Float_t *fCov; //[fSize] Array with space point coordinates cov matrix
	137	UShort_t *fVolumeID; //[fNPoints] Array of space point volume IDs
ddfbc51a	138
ddfbc51a	139	ClassDef(AliTrackPointArray,7)
98937d93	140	};
	141
	142	#endif
eb2d90b9	143