TrackerLevel2/inc/TrkLevel2.h

/**
 * \file TrkLevel2.h
 * \author Elena Vannuccini
 */
#ifndef trklevel2_h
#define trklevel2_h

#include <TObject.h>
#include <TObjArray.h>
#include <TClonesArray.h>
#include <TRefArray.h>
#include <TRef.h>

#include <TrkStruct.h>
#include <TrkLevel1.h>

// z-coordinate of track state-vector reference-plane
#define ZINI 23.5   
// upper and lower (mechanical) z-coordinate of the tracker
//#define ZTRKUP 22.29
//#define ZTRKDW -22.22
// (mechanical) z-coordinate of the tracker planes
#define ZTRK6 -22.23
#define ZTRK5 -13.32
#define ZTRK4 -4.42
#define ZTRK3 4.48
#define ZTRK2 13.38
#define ZTRK1 22.28
// (mechanical) x/y-coordinates of magnet cavity
#define XTRKL -8.1
#define XTRKR  8.1
#define YTRKL -6.6
#define YTRKR  6.6

/**
 * \brief Class to describe, by points, a particle trajectory in the apparatus. 
 *
 * The idea is to create it by integrating the equations of motion, given the 
 * track state vector and the z coordinates where to evaluate track position.
 */
// ==================================================================
class Trajectory : public TObject{
 private:

 public:

    int npoint; ///< number of evaluated points along the trajectory
    float* x;   ///< x coordinates 
    float* y;   ///< y coordinates 
    float* z;   ///< z coordinates 
    float* thx; ///< x projected angle 
    float* thy; ///< y projected angle
    float* tl;  ///< track length

    Trajectory();
    Trajectory(int n);
    Trajectory(int n, float* pz);
    void Dump();

    float GetLength(){float l=0; for(int i=0; i<npoint;i++)l=l+tl[i]; return l;};
    float GetLength(int,int);

    ClassDef(Trajectory,2);

};
/**
 * \brief Class to describe fitted tracks. 
 *
 * A track is defined by the measured coordinates associated to it, the 
 * track status vector, plus other quantities.
 * A track may have an "image", due to the ambiguity in the y view.
 */
// ==================================================================
class TrkTrack : public TObject {

private:

    int   seqno;           ///<stored track sequential number
    int   image;           ///<sequential number of track-image

        
public:

//      TRef clx[6];
//      TRef cly[6];
        TRefArray *clx;
        TRefArray *cly;

    float al[5];           ///<TRACK STATE VECTOR 
    float coval[5][5];     ///<covariance matrix 
    int   xgood[6];        ///<mask of included x planes 
    int   ygood[6];        ///<mask of included y planes 
    float xm[6];           ///<measured x coordinates
    float ym[6];           ///<measured y coordinates 
    float zm[6];           ///<measured z coordinates 
    float resx[6];         ///<spatial resolution on X view
    float resy[6];         ///<spatial resolution on y view
    float chi2;            ///<chi2
        int   nstep;           ///<n. step
        float xv[6];           ///<calculated x coordinates
    float yv[6];           ///<calculated y coordinates
    float zv[6];           ///<calculated z coordinates
    float axv[6];          ///<calculated angles (deg) on x view
    float ayv[6];          ///<calculated angles (deg) on y view
    float dedx_x[6];       ///<signal in MIP (scaled to 300 micrometer)
    float dedx_y[6];       ///<signal in MIP (scaled to 300 micrometer)


    TrkTrack();
    TrkTrack(const TrkTrack&);

        ~TrkTrack(){Delete();};
        
    void Dump();
        void Clear();
        void Delete();
        
    Int_t  GetSeqNo(){return seqno;}        ///< Returns the track sequential number
    Int_t  GetImageSeqNo(){return image;}   ///< Returns the track image sequential number
    Bool_t HasImage(){return !(image==-1);} ///< Returns true if the track has an image
    int DoTrack(Trajectory* t);                         ///< Evaluates the trajectory in the apparatus.
    int DoTrack2(Trajectory* t);                        ///< Evaluates the trajectory in the apparatus.
    float BdL(){return 0;};                                     ///< Evaluates the integral of B*dL along the track.
    Int_t GetNX(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=xgood[i]; return n;}; 
    Int_t GetNY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=ygood[i]; return n;};
    Int_t GetNtot(){return GetNX()+GetNY();};
    Float_t GetRigidity();
    Float_t GetDeflection();
    Float_t GetDEDX();
        Float_t GetDEDX(Int_t ip){if( !(xgood[ip]+ygood[ip]) ) return 0; return (dedx_x[ip]+dedx_y[ip])/(xgood[ip]+ygood[ip]);};
        // sono un'imbecille... assegno xm e ym anche quando si tratta di un singolo
        // non posso quindi usare xm e ym per dire se una vista e` inclusa nel fit o no
/*      Bool_t XGood(int ip){ return xm[ip] != -100.;};
        Bool_t YGood(int ip){ return ym[ip] != -100.;};*/
        Bool_t XGood(int ip){ return xgood[ip]==1;};
        Bool_t YGood(int ip){ return ygood[ip]==1;};
        
        TrkCluster *GetClusterX(int ip){TrkCluster *pt = (TrkCluster*)(clx->At(ip)); return pt;};
        TrkCluster *GetClusterY(int ip){TrkCluster *pt = (TrkCluster*)(cly->At(ip)); return pt;};
        
    TrkTrack* GetTrkTrack(){return this;};

    friend class TrkLevel2;

    ClassDef(TrkTrack,2);

};
/**
 * \brief Class to describe single clusters ("singlets"). 
 *
 * Single clusters are clusters not associated to any track.
 */
class TrkSinglet : public TObject {

private:
        

public:
        
        TRef cls;

    int plane;       ///<plane 
    float coord[2];  ///<coordinate (on sensor 1 and 2)
    float sgnl;      ///<cluster signal in MIP 

    TrkSinglet();
    TrkSinglet(const TrkSinglet&);

    void Dump();
        
    TrkCluster *GetCluster(){TrkCluster *pt = (TrkCluster*)cls.GetObject(); return pt;};

    friend class TrkLevel2;

    ClassDef(TrkSinglet,2);

};

/**
 * \brief Class to describe tracker LEVEL2 data.
 *
 * A tracker events is defined by some general variables, plus the collection of all the fitted tracks and all 
 * single clusters on X and Y views. 
 * Tracks and single clusters ("singlets") are described by the classes TrkTrack and TrkSinglet respectivelly.
 * 
 * Each track may have an "image", due to the ambiguity on the Y view, which is stored also. 
 * Thus, the number of stored tracks ( ntrk() ) differs from the number of "physical" tracks ( GetNTracks() ). 
 * Proper methods allow to sort tracks and select the physical ones ( GetTracks() ).
 */
class TrkLevel2 : public TObject {

 private:
        
//      TRefArray    *PhysicalTrack;  ///< physical tracks (no image) - 
         
 public:

        Int_t         good[12];       ///< event status
//      Int_t good2;
//    Int_t crc[12];

    TClonesArray *Track;        ///< fitted tracks
    TClonesArray *SingletX;     ///< x singlets
    TClonesArray *SingletY;     ///< y singlets

    TrkLevel2();
//    TrkLevel2(cTrkLevel2 *);
    ~TrkLevel2(){Delete();};
        
    void Clear();
    void Delete();
    
    int ntrk() {return Track->GetEntries();}    ///< number of stored track
    int nclsx(){return SingletX->GetEntries();} ///< number of x singlets 
    int nclsy(){return SingletY->GetEntries();} ///< number of y singlets 

    void Dump();
    void SetFromLevel2Struct(cTrkLevel2 *);
    void SetFromLevel2Struct(cTrkLevel2 *, TrkLevel1 *);
    void GetLevel2Struct(cTrkLevel2 *) const;
    void LoadField(TString);
    Float_t GetZTrk(Int_t);
    Float_t GetXTrkLeft(){return XTRKL;};
    Float_t GetXTrkRight(){return XTRKR;};
    Float_t GetYTrkLeft(){return YTRKL;};
    Float_t GetYTrkRight(){return YTRKR;};
    
    TrkSinglet   *GetSingletX(int);
    TrkSinglet   *GetSingletY(int);
    
    TrkTrack     *GetStoredTrack(int i);
    Int_t         GetSeqNo(Int_t i)  {return (((TrkTrack *)Track->At(i))->seqno);}; ///< Returns track sequential number
//    TClonesArray *GetTracks_Chi2Sorted();
//    TClonesArray *GetTracks_NFitSorted();
//    TClonesArray *GetTracks();
    TRefArray *GetTracks_NFitSorted();
    TRefArray *GetTracks(){return this->GetTracks_NFitSorted();};
    
//    int       GetNTracks(){return this->GetTracks()->GetEntries();}
    Int_t     GetNTracks();
    TrkTrack* GetTrack(int i);
    TrkTrack* GetTrackImage(int i);
    
    TrkLevel2*    GetTrkLevel2(){return this;}
    TClonesArray* GetTrackArray(){return Track;};///< returns pointer to the track array
    
    ClassDef(TrkLevel2,2);

};

#endif
1	/**
2	* \file TrkLevel2.h
3	* \author Elena Vannuccini
4	*/
5	#ifndef trklevel2_h
6	#define trklevel2_h
7
8	#include <TObject.h>
9	#include <TObjArray.h>
10	#include <TClonesArray.h>
11	#include <TRefArray.h>
12	#include <TRef.h>
13
14	#include <TrkStruct.h>
15	#include <TrkLevel1.h>
16
17	// z-coordinate of track state-vector reference-plane
18	#define ZINI 23.5
19	// upper and lower (mechanical) z-coordinate of the tracker
20	//#define ZTRKUP 22.29
21	//#define ZTRKDW -22.22
22	// (mechanical) z-coordinate of the tracker planes
23	#define ZTRK6 -22.23
24	#define ZTRK5 -13.32
25	#define ZTRK4 -4.42
26	#define ZTRK3 4.48
27	#define ZTRK2 13.38
28	#define ZTRK1 22.28
29	// (mechanical) x/y-coordinates of magnet cavity
30	#define XTRKL -8.1
31	#define XTRKR 8.1
32	#define YTRKL -6.6
33	#define YTRKR 6.6
34
35	/**
36	* \brief Class to describe, by points, a particle trajectory in the apparatus.
37	*
38	* The idea is to create it by integrating the equations of motion, given the
39	* track state vector and the z coordinates where to evaluate track position.
40	*/
41	// ==================================================================
42	class Trajectory : public TObject{
43	private:
44
45	public:
46
47	int npoint; ///< number of evaluated points along the trajectory
48	float* x; ///< x coordinates
49	float* y; ///< y coordinates
50	float* z; ///< z coordinates
51	float* thx; ///< x projected angle
52	float* thy; ///< y projected angle
53	float* tl; ///< track length
54
55	Trajectory();
56	Trajectory(int n);
57	Trajectory(int n, float* pz);
58	void Dump();
59
60	float GetLength(){float l=0; for(int i=0; i<npoint;i++)l=l+tl[i]; return l;};
61	float GetLength(int,int);
62
63	ClassDef(Trajectory,2);
64
65	};
66	/**
67	* \brief Class to describe fitted tracks.
68	*
69	* A track is defined by the measured coordinates associated to it, the
70	* track status vector, plus other quantities.
71	* A track may have an "image", due to the ambiguity in the y view.
72	*/
73	// ==================================================================
74	class TrkTrack : public TObject {
75
76	private:
77
78	int seqno; ///<stored track sequential number
79	int image; ///<sequential number of track-image
80
81
82	public:
83
84	// TRef clx[6];
85	// TRef cly[6];
86	TRefArray *clx;
87	TRefArray *cly;
88
89	float al[5]; ///<TRACK STATE VECTOR
90	float coval[5][5]; ///<covariance matrix
91	int xgood[6]; ///<mask of included x planes
92	int ygood[6]; ///<mask of included y planes
93	float xm[6]; ///<measured x coordinates
94	float ym[6]; ///<measured y coordinates
95	float zm[6]; ///<measured z coordinates
96	float resx[6]; ///<spatial resolution on X view
97	float resy[6]; ///<spatial resolution on y view
98	float chi2; ///<chi2
99	int nstep; ///<n. step
100	float xv[6]; ///<calculated x coordinates
101	float yv[6]; ///<calculated y coordinates
102	float zv[6]; ///<calculated z coordinates
103	float axv[6]; ///<calculated angles (deg) on x view
104	float ayv[6]; ///<calculated angles (deg) on y view
105	float dedx_x[6]; ///<signal in MIP (scaled to 300 micrometer)
106	float dedx_y[6]; ///<signal in MIP (scaled to 300 micrometer)
107
108
109	TrkTrack();
110	TrkTrack(const TrkTrack&);
111
112	~TrkTrack(){Delete();};
113
114	void Dump();
115	void Clear();
116	void Delete();
117
118	Int_t GetSeqNo(){return seqno;} ///< Returns the track sequential number
119	Int_t GetImageSeqNo(){return image;} ///< Returns the track image sequential number
120	Bool_t HasImage(){return !(image==-1);} ///< Returns true if the track has an image
121	int DoTrack(Trajectory* t); ///< Evaluates the trajectory in the apparatus.
122	int DoTrack2(Trajectory* t); ///< Evaluates the trajectory in the apparatus.
123	float BdL(){return 0;}; ///< Evaluates the integral of B*dL along the track.
124	Int_t GetNX(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=xgood[i]; return n;};
125	Int_t GetNY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=ygood[i]; return n;};
126	Int_t GetNtot(){return GetNX()+GetNY();};
127	Float_t GetRigidity();
128	Float_t GetDeflection();
129	Float_t GetDEDX();
130	Float_t GetDEDX(Int_t ip){if( !(xgood[ip]+ygood[ip]) ) return 0; return (dedx_x[ip]+dedx_y[ip])/(xgood[ip]+ygood[ip]);};
131	// sono un'imbecille... assegno xm e ym anche quando si tratta di un singolo
132	// non posso quindi usare xm e ym per dire se una vista e` inclusa nel fit o no
133	/* Bool_t XGood(int ip){ return xm[ip] != -100.;};
134	Bool_t YGood(int ip){ return ym[ip] != -100.;};*/
135	Bool_t XGood(int ip){ return xgood[ip]==1;};
136	Bool_t YGood(int ip){ return ygood[ip]==1;};
137
138	TrkCluster GetClusterX(int ip){TrkCluster pt = (TrkCluster*)(clx->At(ip)); return pt;};
139	TrkCluster GetClusterY(int ip){TrkCluster pt = (TrkCluster*)(cly->At(ip)); return pt;};
140
141	TrkTrack* GetTrkTrack(){return this;};
142
143	friend class TrkLevel2;
144
145	ClassDef(TrkTrack,2);
146
147	};
148	/**
149	* \brief Class to describe single clusters ("singlets").
150	*
151	* Single clusters are clusters not associated to any track.
152	*/
153	class TrkSinglet : public TObject {
154
155	private:
156
157
158	public:
159
160	TRef cls;
161
162	int plane; ///<plane
163	float coord[2]; ///<coordinate (on sensor 1 and 2)
164	float sgnl; ///<cluster signal in MIP
165
166	TrkSinglet();
167	TrkSinglet(const TrkSinglet&);
168
169	void Dump();
170
171	TrkCluster GetCluster(){TrkCluster pt = (TrkCluster*)cls.GetObject(); return pt;};
172
173	friend class TrkLevel2;
174
175	ClassDef(TrkSinglet,2);
176
177	};
178
179	/**
180	* \brief Class to describe tracker LEVEL2 data.
181	*
182	* A tracker events is defined by some general variables, plus the collection of all the fitted tracks and all
183	* single clusters on X and Y views.
184	* Tracks and single clusters ("singlets") are described by the classes TrkTrack and TrkSinglet respectivelly.
185	*
186	* Each track may have an "image", due to the ambiguity on the Y view, which is stored also.
187	* Thus, the number of stored tracks ( ntrk() ) differs from the number of "physical" tracks ( GetNTracks() ).
188	* Proper methods allow to sort tracks and select the physical ones ( GetTracks() ).
189	*/
190	class TrkLevel2 : public TObject {
191
192	private:
193
194	// TRefArray *PhysicalTrack; ///< physical tracks (no image) -
195
196	public:
197
198	Int_t good[12]; ///< event status
199	// Int_t good2;
200	// Int_t crc[12];
201
202	TClonesArray *Track; ///< fitted tracks
203	TClonesArray *SingletX; ///< x singlets
204	TClonesArray *SingletY; ///< y singlets
205
206	TrkLevel2();
207	// TrkLevel2(cTrkLevel2 *);
208	~TrkLevel2(){Delete();};
209
210	void Clear();
211	void Delete();
212
213	int ntrk() {return Track->GetEntries();} ///< number of stored track
214	int nclsx(){return SingletX->GetEntries();} ///< number of x singlets
215	int nclsy(){return SingletY->GetEntries();} ///< number of y singlets
216
217	void Dump();
218	void SetFromLevel2Struct(cTrkLevel2 *);
219	void SetFromLevel2Struct(cTrkLevel2 , TrkLevel1 );
220	void GetLevel2Struct(cTrkLevel2 *) const;
221	void LoadField(TString);
222	Float_t GetZTrk(Int_t);
223	Float_t GetXTrkLeft(){return XTRKL;};
224	Float_t GetXTrkRight(){return XTRKR;};
225	Float_t GetYTrkLeft(){return YTRKL;};
226	Float_t GetYTrkRight(){return YTRKR;};
227
228	TrkSinglet *GetSingletX(int);
229	TrkSinglet *GetSingletY(int);
230
231	TrkTrack *GetStoredTrack(int i);
232	Int_t GetSeqNo(Int_t i) {return (((TrkTrack *)Track->At(i))->seqno);}; ///< Returns track sequential number
233	// TClonesArray *GetTracks_Chi2Sorted();
234	// TClonesArray *GetTracks_NFitSorted();
235	// TClonesArray *GetTracks();
236	TRefArray *GetTracks_NFitSorted();
237	TRefArray *GetTracks(){return this->GetTracks_NFitSorted();};
238
239	// int GetNTracks(){return this->GetTracks()->GetEntries();}
240	Int_t GetNTracks();
241	TrkTrack* GetTrack(int i);
242	TrkTrack* GetTrackImage(int i);
243
244	TrkLevel2* GetTrkLevel2(){return this;}
245	TClonesArray* GetTrackArray(){return Track;};///< returns pointer to the track array
246
247	ClassDef(TrkLevel2,2);
248
249	};
250
251	#endif