[u/mrichter/AliRoot.git] / PWG1 / TRD / info / AliTRDclusterInfo.h

#ifndef ALITRDCLUSTERINFO_H
#define ALITRDCLUSTERINFO_H

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


#ifndef Root_TObject
#include "TObject.h"
#endif

class AliTRDcluster;
class AliTRDclusterInfo : public TObject
{
public:
  AliTRDclusterInfo();

  Float_t   GetAnisochronity() const {return fD;}
  inline void GetCluster(Int_t &det, Float_t &x, Float_t &y, Float_t &z, Float_t &q, Int_t &t, Float_t *cov=0x0) const;
  void      GetMC(Int_t &pdg, Int_t &label) const{
      pdg  = fPdg;
      label= fLbl; }
  void      GetGlobalPosition(Float_t &yt, Float_t &zt, Float_t &dydx, Float_t &dzdx, Float_t *cov=0x0) const {
      dydx = fdydx;
      dzdx = fdzdx;
      yt   = fYt;
      zt   = fZt;
      if(cov) memcpy(cov, fCov, 3*sizeof(Float_t));}
  Float_t   GetResolution() const {return fdy;}
  Float_t   GetDriftLength() const {return fXd;}
  Float_t   GetYDisplacement() const {return fYd;}
  Float_t   GetTilt() const { return fTilt;}

  void      Print(Option_t *opt="") const;

  void      SetAnisochronity(Float_t d) {fD = d;}
  void      SetCluster(const AliTRDcluster *c);
  void      SetMC(Int_t pdg, Int_t label){
      fPdg  = pdg;
      fLbl  = label;}
  void      SetGlobalPosition(Float_t yt, Float_t zt, Float_t dydx, Float_t dzdx, Float_t *cov=0x0) {
      fdydx = dydx;
      fdzdx = dzdx;
      fYt   = yt;
      fZt   = zt;
      if(cov) memcpy(fCov, cov, 3*sizeof(Float_t));}
  void      SetResolution(Float_t dy) {fdy = dy;}
  void      SetDriftLength(Float_t d) {fXd = d;}
  void      SetTilt(Float_t t) {fTilt = t;}

private:
  UShort_t fDet;   // detector
  Short_t  fPdg;   // particle code
  Short_t  fLbl;   // track label (MC)
  Short_t  fLocalTime; // calibrate drift time
  Float_t  fQ;     // cluster charge (REC)
  Float_t  fX;     // x coordinate (REC)
  Float_t  fY;     // y coordinate (REC)
  Float_t  fYd;    // displacement from pad center y coordinate
  Float_t  fZ;     // z coordinate (REC)
  Float_t  fdydx;  // slope in phi (MC)
  Float_t  fdzdx;  // slope in theta (MC)
  Float_t  fXd;    // drift length
  Float_t  fYt;    // y coordinate (MC)
  Float_t  fZt;    // z coordinate (MC)
  Float_t  fCov[3];// covariance matrix in the yz plane (track)
  Float_t  fCovCl[3];// covariance matrix in the yz plane (cluster)
  Float_t  fdy;    // difference in y after tilt correction
  Float_t  fD;     // distance to the anode wire
  Float_t  fTilt;  // pad tilt;

  ClassDef(AliTRDclusterInfo, 1) // extracted cluster2MC information
};


//_________________________________________________
inline void AliTRDclusterInfo::GetCluster(Int_t &det, Float_t &x, Float_t &y, Float_t &z, Float_t &q, Int_t &t, Float_t *cov) const
{
  det = fDet;
  x   = fX;
  y   = fY;
  z   = fZ;
  q   = fQ;
  t   = fLocalTime;
  if(cov) memcpy(cov, fCovCl, 3*sizeof(Float_t));
}

#endif
Commit	Line	Data
1ee39b3a	1	#ifndef ALITRDCLUSTERINFO_H
	2	#define ALITRDCLUSTERINFO_H
	3
	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
	7
	8	#ifndef Root_TObject
	9	#include "TObject.h"
	10	#endif
	11
	12	class AliTRDcluster;
	13	class AliTRDclusterInfo : public TObject
	14	{
	15	public:
	16	AliTRDclusterInfo();
	17
	18	Float_t GetAnisochronity() const {return fD;}
	19	inline void GetCluster(Int_t &det, Float_t &x, Float_t &y, Float_t &z, Float_t &q, Int_t &t, Float_t *cov=0x0) const;
	20	void GetMC(Int_t &pdg, Int_t &label) const{
	21	pdg = fPdg;
	22	label= fLbl; }
	23	void GetGlobalPosition(Float_t &yt, Float_t &zt, Float_t &dydx, Float_t &dzdx, Float_t *cov=0x0) const {
	24	dydx = fdydx;
	25	dzdx = fdzdx;
	26	yt = fYt;
	27	zt = fZt;
	28	if(cov) memcpy(cov, fCov, 3*sizeof(Float_t));}
	29	Float_t GetResolution() const {return fdy;}
	30	Float_t GetDriftLength() const {return fXd;}
	31	Float_t GetYDisplacement() const {return fYd;}
	32	Float_t GetTilt() const { return fTilt;}
	33
	34	void Print(Option_t *opt="") const;
	35
	36	void SetAnisochronity(Float_t d) {fD = d;}
	37	void SetCluster(const AliTRDcluster *c);
	38	void SetMC(Int_t pdg, Int_t label){
	39	fPdg = pdg;
	40	fLbl = label;}
	41	void SetGlobalPosition(Float_t yt, Float_t zt, Float_t dydx, Float_t dzdx, Float_t *cov=0x0) {
	42	fdydx = dydx;
	43	fdzdx = dzdx;
	44	fYt = yt;
	45	fZt = zt;
	46	if(cov) memcpy(fCov, cov, 3*sizeof(Float_t));}
	47	void SetResolution(Float_t dy) {fdy = dy;}
	48	void SetDriftLength(Float_t d) {fXd = d;}
	49	void SetTilt(Float_t t) {fTilt = t;}
	50
	51	private:
	52	UShort_t fDet; // detector
	53	Short_t fPdg; // particle code
	54	Short_t fLbl; // track label (MC)
	55	Short_t fLocalTime; // calibrate drift time
	56	Float_t fQ; // cluster charge (REC)
	57	Float_t fX; // x coordinate (REC)
	58	Float_t fY; // y coordinate (REC)
	59	Float_t fYd; // displacement from pad center y coordinate
	60	Float_t fZ; // z coordinate (REC)
	61	Float_t fdydx; // slope in phi (MC)
	62	Float_t fdzdx; // slope in theta (MC)
	63	Float_t fXd; // drift length
	64	Float_t fYt; // y coordinate (MC)
65	Float_t fZt; // z coordinate (MC)
66	Float_t fCov[3];// covariance matrix in the yz plane (track)
67	Float_t fCovCl[3];// covariance matrix in the yz plane (cluster)
68	Float_t fdy; // difference in y after tilt correction
69	Float_t fD; // distance to the anode wire
70	Float_t fTilt; // pad tilt;
71
72	ClassDef(AliTRDclusterInfo, 1) // extracted cluster2MC information
73	};
74
75
76	//_________________________________________________
77	inline void AliTRDclusterInfo::GetCluster(Int_t &det, Float_t &x, Float_t &y, Float_t &z, Float_t &q, Int_t &t, Float_t *cov) const
78	{
79	det = fDet;
80	x = fX;
81	y = fY;
82	z = fZ;
83	q = fQ;
84	t = fLocalTime;
85	if(cov) memcpy(cov, fCovCl, 3*sizeof(Float_t));
86	}
87
88	#endif
89