[u/mrichter/AliRoot.git] / MUON / AliMUONRawCluster.h

#ifndef ALIMUONRAWCLUSTER_H
#define ALIMUONRAWCLUSTER_H

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

/* $Id$ */
// Revision of includes 07/05/2004

/// \ingroup base
/// \class AliMUONRawCluster
/// \brief MUON raw cluster
///
/// Class for the MUON RecPoint
/// It contains the properties of the physics cluters found in the tracking chambers
/// RawCluster contains also the information from the both cathode of the chambers.


#include "AliMUONVCluster.h"
#include <TMath.h> // because of inline funtion GetRadius
#include <TArrayF.h>

class AliMUONRawCluster : public AliMUONVCluster {

public:
   AliMUONRawCluster();
   virtual ~AliMUONRawCluster();
   
           /// Clear method (used by TClonesArray)
   virtual void Clear(Option_t* = "") {}
   
           /// Create a copy of the current cluster
   virtual AliMUONRawCluster* Clone(const char* = "") const {return new AliMUONRawCluster(*this);}
   
           /// Set coordinates (cm)
  virtual void     SetXYZ(Double_t x, Double_t y, Double_t z) {fX[0] = x; fY[0] = y; fZ[0] = z;}
           /// Return coordinate X (cm)
  virtual Double_t GetX() const {return fX[0];}
           /// Return coordinate Y (cm)
  virtual Double_t GetY() const {return fY[0];}
           /// Return coordinate Z (cm)
  virtual Double_t GetZ() const {return fZ[0];}
  
	   /// Set resolution (cm) on coordinates (X,Y)
  virtual void     SetErrXY(Double_t errX, Double_t errY) {fErrXY[0] = errX; fErrXY[1] = errY;}
           /// Return resolution (cm) on coordinate X
  virtual Double_t GetErrX() const {return fErrXY[0];}
           /// Return resolution**2 (cm**2) on coordinate X
  virtual Double_t GetErrX2() const {return fErrXY[0] * fErrXY[0];}
           /// Return resolution (cm) on coordinate Y
  virtual Double_t GetErrY() const {return fErrXY[1];}
           /// Return resolution**2 (cm**2) on coordinate Y
  virtual Double_t GetErrY2() const {return fErrXY[1] * fErrXY[1];}
  
           /// Set the cluster charge
  virtual void     SetCharge(Double_t q) {fQ[0] = q;}
           /// Set the cluster charge
  virtual Double_t GetCharge() const {return fQ[0];}
  
           /// Return chamber Id
  virtual Int_t    GetChamberId() const {return fDetElemId/100 - 1;}
           /// Set detection element Id
          void     SetDetElemId(Int_t id) {fDetElemId = id;}
           /// Return detection element Id
  virtual Int_t    GetDetElemId() const {return fDetElemId;}
  
  virtual void     SetDigitsId(Int_t nDigits, const UInt_t *digitsId);
           /// Add a digit Id to the array of associated digits
  virtual void     AddDigitId(UInt_t id) {fIndexMap[fMultiplicity[0]++][0] = id;}

           /// Return number of associated digits
  virtual Int_t    GetNDigits() const {return fMultiplicity[0];}
           /// Return Id of digits i
  virtual UInt_t   GetDigitId(Int_t i) const {return (i < fMultiplicity[0] && i < 50) ? (UInt_t)fIndexMap[i][0] : 0;}
  
           /// Set chi2 of cluster
  virtual void     SetChi2( Double_t chi2) {fChi2[0] = chi2;}
           /// Return chi2 of cluster
  virtual Double_t GetChi2() const {return fChi2[0];}
   
           /// Set the corresponding MC track number
  virtual void     SetMCLabel(Int_t label) {SetTrack(0, label);}
           /// Return the corresponding MC track number
  virtual Int_t    GetMCLabel() const {return GetTrack(0);}
  
  /// Return radius
   Float_t      GetRadius(Int_t i) const {return TMath::Sqrt(fX[i]*fX[i]+fY[i]*fY[i]);}
   /// Return true as the function Compare() is implemented
   Bool_t       IsSortable() const {return kTRUE;}
   Int_t        Compare(const TObject *obj) const;
   Int_t        PhysicsContribution() const;
   virtual void Print(Option_t* opt="") const;
   static Int_t BinarySearch(Float_t r, TArrayF ccord, Int_t from, Int_t upto);
   static void  SortMin(Int_t *idx,Float_t *xdarray, Float_t *xarray, Float_t *yarray, Float_t *qarray,Int_t ntr);
   void         DumpIndex();

   Int_t        AddCharge(Int_t i, Float_t Q);
   Int_t        AddX(Int_t i, Float_t X);
   Int_t        AddY(Int_t i, Float_t Y);
   Int_t        AddZ(Int_t i, Float_t Z);

   Float_t      GetCharge(Int_t i) const;
   Float_t      GetX(Int_t i) const;
   Float_t      GetY(Int_t i) const;
   Float_t      GetZ(Int_t i) const;
   Int_t        GetTrack(Int_t i=0) const;
   Float_t      GetPeakSignal(Int_t i=0) const;
   Int_t        GetMultiplicity(Int_t i=0) const;
   Int_t        GetClusterType() const;
   Int_t        GetGhost() const;
   Int_t        GetNcluster(Int_t i=0) const;
   Float_t      GetChi2(Int_t i) const;
   Int_t        GetIndex(Int_t i, Int_t j) const;
   Int_t        GetOffset(Int_t i, Int_t j) const;
   Float_t      GetContrib(Int_t i, Int_t j) const;
   Int_t        GetPhysics(Int_t i) const;

   Int_t        SetCharge(Int_t i, Float_t Q);
   Int_t        SetX(Int_t i, Float_t X);
   Int_t        SetY(Int_t i, Float_t Y);
   Int_t        SetZ(Int_t i, Float_t Z);
   Int_t        SetTrack(Int_t i, Int_t track);
   Int_t        SetPeakSignal(Int_t i, Float_t peaksignal);
   Int_t        SetMultiplicity(Int_t i, Int_t mul);
   Int_t        SetClusterType(Int_t type);
   Int_t        SetGhost(Int_t ghost);
   Int_t        SetNcluster(Int_t i, Int_t ncluster);
   Int_t        SetChi2(Int_t i, Float_t chi2);
   void         SetIndex(Int_t i, Int_t j, Int_t index);
   void         SetOffset(Int_t i, Int_t j, Int_t offset);
   void         SetContrib(Int_t i, Int_t j, Float_t contrib);
   void         SetPhysics(Int_t i, Int_t physics);

private:
   Int_t       fIndexMap[50][2];  ///< Indices of digits
   Int_t       fOffsetMap[50][2]; ///< Emmanuel special
   Float_t     fContMap[50][2];   ///< Contribution from digit
   Int_t       fPhysicsMap[50];   ///< Distinguish signal and background contr.
  
   Float_t     fQ[2]  ;           ///< Q of cluster (in ADC counts)     
   Float_t     fX[2]  ;           ///< X of cluster
   Float_t     fY[2]  ;           ///< Y of cluster
   Float_t     fZ[2]  ;           ///< Z of cluster
   Int_t       fTracks[3];        ///< Labels of overlapped tracks
   Float_t     fPeakSignal[2];    ///< Peak signal 
   Int_t       fMultiplicity[2];  ///< Cluster multiplicity
   Int_t       fClusterType;      ///< Cluster type
   Int_t       fGhost;            ///< Ghost info
                                  // 0 if not a ghost or ghost problem solved
                                  // >0 if ghost problem remains because
                                  // 1 both (true and ghost) satify 
                                  //   charge chi2 compatibility
                                  // 2 none give satisfactory chi2
   Int_t       fNcluster[2];      ///< Number of clusters
   Float_t     fChi2[2];          ///< Chi**2 of fit
   Int_t       fDetElemId;        ///< ID number of the detection element (slat) on which the cluster is found. 
   Float_t     fErrXY[2];         ///< coordinate errors
   
   ClassDef(AliMUONRawCluster,3)  //Cluster class for MUON
};

// inline functions

/// Return Indices of digits
inline  Int_t  AliMUONRawCluster::GetIndex(Int_t i, Int_t j) const
{ return fIndexMap[i][j]; }

/// Return Emmanuel special offset map
inline  Int_t  AliMUONRawCluster::GetOffset(Int_t i, Int_t j) const
{ return fOffsetMap[i][j]; }

/// Return Contribution from digit
inline  Float_t  AliMUONRawCluster::GetContrib(Int_t i, Int_t j) const
{ return fContMap[i][j]; }

/// Return Distinguish signal and background contr.
inline  Int_t  AliMUONRawCluster::GetPhysics(Int_t i) const
{ return fPhysicsMap[i]; }

/// Set Indices of digits
inline  void  AliMUONRawCluster::SetIndex(Int_t i, Int_t j, Int_t index)
{ fIndexMap[i][j] = index; }

/// Set Emmanuel special offset map
inline  void  AliMUONRawCluster::SetOffset(Int_t i, Int_t j, Int_t offset)
{ fOffsetMap[i][j] = offset; }

/// Set Contribution from digit
inline  void  AliMUONRawCluster::SetContrib(Int_t i, Int_t j, Float_t contrib)
{ fContMap[i][j] = contrib; }

/// Set Distinguish signal and background contr.
inline  void  AliMUONRawCluster::SetPhysics(Int_t i, Int_t physics)
{ fPhysicsMap[i] = physics; }


#endif
Commit	Line	Data
a9e2aefa	1	#ifndef ALIMUONRAWCLUSTER_H
	2	#define ALIMUONRAWCLUSTER_H
	3
	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
	7	/* $Id$ */
30178c30	8	// Revision of includes 07/05/2004
a9e2aefa	9
692de412	10	/// \ingroup base
	11	/// \class AliMUONRawCluster
	12	/// \brief MUON raw cluster
	13	///
	14	/// Class for the MUON RecPoint
585d648a	15	/// It contains the properties of the physics cluters found in the tracking chambers
692de412	16	/// RawCluster contains also the information from the both cathode of the chambers.
3afdba21	17
3afdba21	18
2060b217	19	#include "AliMUONVCluster.h"
ecfa008b	20	#include <TMath.h> // because of inline funtion GetRadius
f480df09	21	#include <TArrayF.h>
2060b217	22
2060b217	23	class AliMUONRawCluster : public AliMUONVCluster {
3afdba21	24
a9e2aefa	25	public:
3afdba21	26	AliMUONRawCluster();
71a2d3aa	27	virtual ~AliMUONRawCluster();
71a2d3aa	28
2060b217	29	/// Clear method (used by TClonesArray)
	30	virtual void Clear(Option_t* = "") {}
	31
96ebe67e	32	/// Create a copy of the current cluster
1467f4ba	33	virtual AliMUONRawCluster* Clone(const char* = "") const {return new AliMUONRawCluster(*this);}
96ebe67e	34
96ebe67e	35	/// Set coordinates (cm)
2060b217	36	virtual void SetXYZ(Double_t x, Double_t y, Double_t z) {fX[0] = x; fY[0] = y; fZ[0] = z;}
	37	/// Return coordinate X (cm)
	38	virtual Double_t GetX() const {return fX[0];}
	39	/// Return coordinate Y (cm)
	40	virtual Double_t GetY() const {return fY[0];}
	41	/// Return coordinate Z (cm)
	42	virtual Double_t GetZ() const {return fZ[0];}
	43
	44	/// Set resolution (cm) on coordinates (X,Y)
	45	virtual void SetErrXY(Double_t errX, Double_t errY) {fErrXY[0] = errX; fErrXY[1] = errY;}
	46	/// Return resolution (cm) on coordinate X
	47	virtual Double_t GetErrX() const {return fErrXY[0];}
	48	/// Return resolution2 (cm2) on coordinate X
	49	virtual Double_t GetErrX2() const {return fErrXY[0] * fErrXY[0];}
	50	/// Return resolution (cm) on coordinate Y
	51	virtual Double_t GetErrY() const {return fErrXY[1];}
	52	/// Return resolution2 (cm2) on coordinate Y
	53	virtual Double_t GetErrY2() const {return fErrXY[1] * fErrXY[1];}
	54
	55	/// Set the cluster charge
	56	virtual void SetCharge(Double_t q) {fQ[0] = q;}
	57	/// Set the cluster charge
	58	virtual Double_t GetCharge() const {return fQ[0];}
	59
	60	/// Return chamber Id
	61	virtual Int_t GetChamberId() const {return fDetElemId/100 - 1;}
	62	/// Set detection element Id
	63	void SetDetElemId(Int_t id) {fDetElemId = id;}
	64	/// Return detection element Id
	65	virtual Int_t GetDetElemId() const {return fDetElemId;}
	66
	67	virtual void SetDigitsId(Int_t nDigits, const UInt_t *digitsId);
	68	/// Add a digit Id to the array of associated digits
	69	virtual void AddDigitId(UInt_t id) {fIndexMap[fMultiplicity[0]++][0] = id;}
	70
	71	/// Return number of associated digits
	72	virtual Int_t GetNDigits() const {return fMultiplicity[0];}
	73	/// Return Id of digits i
	74	virtual UInt_t GetDigitId(Int_t i) const {return (i < fMultiplicity[0] && i < 50) ? (UInt_t)fIndexMap[i][0] : 0;}
	75
	76	/// Set chi2 of cluster
	77	virtual void SetChi2( Double_t chi2) {fChi2[0] = chi2;}
	78	/// Return chi2 of cluster
	79	virtual Double_t GetChi2() const {return fChi2[0];}
	80
2e2d0c44	81	/// Set the corresponding MC track number
	82	virtual void SetMCLabel(Int_t label) {SetTrack(0, label);}
	83	/// Return the corresponding MC track number
	84	virtual Int_t GetMCLabel() const {return GetTrack(0);}
	85
	86	/// Return radius
9ee1d6ff	87	Float_t GetRadius(Int_t i) const {return TMath::Sqrt(fX[i]fX[i]+fY[i]fY[i]);}
71a2d3aa	88	/// Return true as the function Compare() is implemented
3afdba21	89	Bool_t IsSortable() const {return kTRUE;}
	90	Int_t Compare(const TObject *obj) const;
	91	Int_t PhysicsContribution() const;
6464217e	92	virtual void Print(Option_t* opt="") const;
3afdba21	93	static Int_t BinarySearch(Float_t r, TArrayF ccord, Int_t from, Int_t upto);
	94	static void SortMin(Int_t idx,Float_t xdarray, Float_t xarray, Float_t yarray, Float_t *qarray,Int_t ntr);
	95	void DumpIndex();
a9e2aefa	96
a31c3507	97	Int_t AddCharge(Int_t i, Float_t Q);
3afdba21	98	Int_t AddX(Int_t i, Float_t X);
	99	Int_t AddY(Int_t i, Float_t Y);
	100	Int_t AddZ(Int_t i, Float_t Z);
	101
2060b217	102	Float_t GetCharge(Int_t i) const;
	103	Float_t GetX(Int_t i) const;
	104	Float_t GetY(Int_t i) const;
	105	Float_t GetZ(Int_t i) const;
6464217e	106	Int_t GetTrack(Int_t i=0) const;
2060b217	107	Float_t GetPeakSignal(Int_t i=0) const;
6464217e	108	Int_t GetMultiplicity(Int_t i=0) const;
9e993f2a	109	Int_t GetClusterType() const;
3b5272e3	110	Int_t GetGhost() const;
6464217e	111	Int_t GetNcluster(Int_t i=0) const;
2060b217	112	Float_t GetChi2(Int_t i) const;
0164904a	113	Int_t GetIndex(Int_t i, Int_t j) const;
	114	Int_t GetOffset(Int_t i, Int_t j) const;
	115	Float_t GetContrib(Int_t i, Int_t j) const;
	116	Int_t GetPhysics(Int_t i) const;
3afdba21	117
a31c3507	118	Int_t SetCharge(Int_t i, Float_t Q);
3afdba21	119	Int_t SetX(Int_t i, Float_t X);
	120	Int_t SetY(Int_t i, Float_t Y);
	121	Int_t SetZ(Int_t i, Float_t Z);
9e993f2a	122	Int_t SetTrack(Int_t i, Int_t track);
a31c3507	123	Int_t SetPeakSignal(Int_t i, Float_t peaksignal);
9e993f2a	124	Int_t SetMultiplicity(Int_t i, Int_t mul);
9e993f2a	125	Int_t SetClusterType(Int_t type);
3b5272e3	126	Int_t SetGhost(Int_t ghost);
	127	Int_t SetNcluster(Int_t i, Int_t ncluster);
	128	Int_t SetChi2(Int_t i, Float_t chi2);
0164904a	129	void SetIndex(Int_t i, Int_t j, Int_t index);
	130	void SetOffset(Int_t i, Int_t j, Int_t offset);
	131	void SetContrib(Int_t i, Int_t j, Float_t contrib);
	132	void SetPhysics(Int_t i, Int_t physics);
3afdba21	133
0164904a	134	private:
18b6b8c7	135	Int_t fIndexMap[50][2]; ///< Indices of digits
	136	Int_t fOffsetMap[50][2]; ///< Emmanuel special
	137	Float_t fContMap[50][2]; ///< Contribution from digit
2060b217	138	Int_t fPhysicsMap[50]; ///< Distinguish signal and background contr.
3b5272e3	139
a31c3507	140	Float_t fQ[2] ; ///< Q of cluster (in ADC counts)
18b6b8c7	141	Float_t fX[2] ; ///< X of cluster
	142	Float_t fY[2] ; ///< Y of cluster
	143	Float_t fZ[2] ; ///< Z of cluster
	144	Int_t fTracks[3]; ///< Labels of overlapped tracks
a31c3507	145	Float_t fPeakSignal[2]; ///< Peak signal
18b6b8c7	146	Int_t fMultiplicity[2]; ///< Cluster multiplicity
	147	Int_t fClusterType; ///< Cluster type
	148	Int_t fGhost; ///< Ghost info
	149	// 0 if not a ghost or ghost problem solved
3b5272e3	150	// >0 if ghost problem remains because
	151	// 1 both (true and ghost) satify
	152	// charge chi2 compatibility
	153	// 2 none give satisfactory chi2
18b6b8c7	154	Int_t fNcluster[2]; ///< Number of clusters
	155	Float_t fChi2[2]; ///< Chi**2 of fit
	156	Int_t fDetElemId; ///< ID number of the detection element (slat) on which the cluster is found.
	157	Float_t fErrXY[2]; ///< coordinate errors
2060b217	158
2060b217	159	ClassDef(AliMUONRawCluster,3) //Cluster class for MUON
a9e2aefa	160	};
0164904a	161
	162	// inline functions
	163
71a2d3aa	164	/// Return Indices of digits
0164904a	165	inline Int_t AliMUONRawCluster::GetIndex(Int_t i, Int_t j) const
	166	{ return fIndexMap[i][j]; }
	167
71a2d3aa	168	/// Return Emmanuel special offset map
0164904a	169	inline Int_t AliMUONRawCluster::GetOffset(Int_t i, Int_t j) const
	170	{ return fOffsetMap[i][j]; }
	171
71a2d3aa	172	/// Return Contribution from digit
0164904a	173	inline Float_t AliMUONRawCluster::GetContrib(Int_t i, Int_t j) const
	174	{ return fContMap[i][j]; }
	175
71a2d3aa	176	/// Return Distinguish signal and background contr.
0164904a	177	inline Int_t AliMUONRawCluster::GetPhysics(Int_t i) const
	178	{ return fPhysicsMap[i]; }
	179
71a2d3aa	180	/// Set Indices of digits
0164904a	181	inline void AliMUONRawCluster::SetIndex(Int_t i, Int_t j, Int_t index)
	182	{ fIndexMap[i][j] = index; }
	183
71a2d3aa	184	/// Set Emmanuel special offset map
0164904a	185	inline void AliMUONRawCluster::SetOffset(Int_t i, Int_t j, Int_t offset)
	186	{ fOffsetMap[i][j] = offset; }
	187
71a2d3aa	188	/// Set Contribution from digit
0164904a	189	inline void AliMUONRawCluster::SetContrib(Int_t i, Int_t j, Float_t contrib)
	190	{ fContMap[i][j] = contrib; }
	191
71a2d3aa	192	/// Set Distinguish signal and background contr.
0164904a	193	inline void AliMUONRawCluster::SetPhysics(Int_t i, Int_t physics)
	194	{ fPhysicsMap[i] = physics; }
	195
87e6e2dd	196
a9e2aefa	197	#endif
a9e2aefa	198