TrackerLevel2/inc/TrkLevel1.h

/**
 * \file TrkLevel1.h
 * \author Elena Vannuccini
 */
#ifndef trklevel1_h
#define trklevel1_h

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

#include <TrkStruct.h>

#define INC_CUT 4.
/**
 * \brief Class to describe tracker clusters. 
 *
 * A cluster is defined as a group of adjacent strips whose signals exceed noise by INC_CUT sigma, and at least one strip has signal/noise > SEED_CUT. Tipical values are SEED_CUT = 7 and INC_CUT = 4.
 * 
 */
// ==================================================================
class TrkCluster : public TObject {

private:


public:
        
        int view; ///< view
        int maxs; ///< strip number (1-3072) of cluster center
        int indmax; 

        Int_t         CLlength; ///< number of stored strip info (signal+sigma+adc+bad)
        Float_t      *clsignal; //[CLlength] 
        Float_t      *clsigma;  //[CLlength]
        Int_t        *cladc;    //[CLlength]
        Bool_t       *clbad;    //[CLlength]
                
    TrkCluster();
        ~TrkCluster();
    TrkCluster(const TrkCluster&);

    void Dump();
        
    Int_t   GetLadder()        { return 1+(Int_t)((maxs-1)/1024);  };  ///< ladder number
        
    Float_t GetSignal(Int_t, Float_t);    ///< cluster signal
    Float_t GetSignal(Float_t cut)  { return GetSignal( (Int_t)0, cut); };
    Float_t GetSignal(Int_t nstrip) { return GetSignal( nstrip, (Float_t)(-1000) ); };
    Float_t GetSignal()             { return GetSignal( (Int_t)0,(Float_t)INC_CUT); };
    
    Float_t GetSignalToNoise(Int_t,Float_t);  ///< cluster signal/noise
    Float_t GetSignalToNoise(Float_t cut)  { return GetSignalToNoise( (Int_t)0, cut); };
    Float_t GetSignalToNoise(Int_t nstrip) { return GetSignalToNoise( nstrip, (Float_t)(-1000) ); };
    Float_t GetSignalToNoise()             { return GetSignalToNoise( (Int_t)0, (Float_t)INC_CUT); };


    Int_t   GetMultiplicity(Float_t);         ///< cluster multiplicity 
    Int_t   GetMultiplicity()  { return GetMultiplicity(INC_CUT);  };
    
    cTrkLevel1* GetLevel1Struct();
    
    Float_t GetCOG(Int_t);
    Float_t GetCOG(){ return GetCOG(0); };
    Float_t GetETA(Int_t,float);
    Float_t GetETA(float angle){ return GetETA(0,angle); };
    
    Bool_t IsBad(Int_t);                ///< bad-cluster flag
        
    TrkCluster* GetTrkCluster(){ return this; };

    friend class TrkLevel1;

    ClassDef(TrkCluster,2);

};

/**
 * \brief Class to describe tracker LEVEL1 data.
 *
 * A Level1 tracker event is defined as a collection of clusters ( TrkCluster objects ).
 * The result of common-noise computation for each viking is also stored ( cnev[24][12] ).
 * A general flag summarize the event status (missing sections, crc failures, decoding errors ans so on...).
 */
class TrkLevel1 : public TObject {

 private:

 public:

        Int_t         good[12];       ///< event status
        Float_t       cnev[24][12];   ///< CN
        Int_t         cnnev[24][12];  ///< number of strips for CN computation
//      Int_t         fshower[12];
//      Int_t         good1;
//      Int_t         crc[12];
        
    TClonesArray *Cluster;        ///< clusters
                
        
    TrkLevel1();
        ~TrkLevel1(){Delete();};

        int nclstr() {return Cluster->GetEntries();}    ///< number of stored clusters

    void Dump();
    void SetFromLevel1Struct(cTrkLevel1 *);
//      void GetLevel1Struct(cTrkLevel1 *) const;
        cTrkLevel1* GetLevel1Struct();
        void Clear();
        void Delete();

    TrkCluster*   GetCluster(int);
    
    TrkLevel1*    GetTrkLevel1(){return this;}
    TClonesArray* GetClusters(){return Cluster;};   ///< returns pointer to the cluster array
    
        int           LoadPfaParam(TString);
        
        ClassDef(TrkLevel1,2);

};


#endif
1	/**
2	* \file TrkLevel1.h
3	* \author Elena Vannuccini
4	*/
5	#ifndef trklevel1_h
6	#define trklevel1_h
7
8	#include <TObject.h>
9	#include <TClonesArray.h>
10	#include <TRef.h>
11
12	#include <TrkStruct.h>
13
14	#define INC_CUT 4.
15	/**
16	* \brief Class to describe tracker clusters.
17	*
18	* A cluster is defined as a group of adjacent strips whose signals exceed noise by INC_CUT sigma, and at least one strip has signal/noise > SEED_CUT. Tipical values are SEED_CUT = 7 and INC_CUT = 4.
19	*
20	*/
21	// ==================================================================
22	class TrkCluster : public TObject {
23
24	private:
25
26
27	public:
28
29	int view; ///< view
30	int maxs; ///< strip number (1-3072) of cluster center
31	int indmax;
32
33	Int_t CLlength; ///< number of stored strip info (signal+sigma+adc+bad)
34	Float_t *clsignal; //[CLlength]
35	Float_t *clsigma; //[CLlength]
36	Int_t *cladc; //[CLlength]
37	Bool_t *clbad; //[CLlength]
38
39	TrkCluster();
40	~TrkCluster();
41	TrkCluster(const TrkCluster&);
42
43	void Dump();
44
45	Int_t GetLadder() { return 1+(Int_t)((maxs-1)/1024); }; ///< ladder number
46
47	Float_t GetSignal(Int_t, Float_t); ///< cluster signal
48	Float_t GetSignal(Float_t cut) { return GetSignal( (Int_t)0, cut); };
49	Float_t GetSignal(Int_t nstrip) { return GetSignal( nstrip, (Float_t)(-1000) ); };
50	Float_t GetSignal() { return GetSignal( (Int_t)0,(Float_t)INC_CUT); };
51
52	Float_t GetSignalToNoise(Int_t,Float_t); ///< cluster signal/noise
53	Float_t GetSignalToNoise(Float_t cut) { return GetSignalToNoise( (Int_t)0, cut); };
54	Float_t GetSignalToNoise(Int_t nstrip) { return GetSignalToNoise( nstrip, (Float_t)(-1000) ); };
55	Float_t GetSignalToNoise() { return GetSignalToNoise( (Int_t)0, (Float_t)INC_CUT); };
56
57
58	Int_t GetMultiplicity(Float_t); ///< cluster multiplicity
59	Int_t GetMultiplicity() { return GetMultiplicity(INC_CUT); };
60
61	cTrkLevel1* GetLevel1Struct();
62
63	Float_t GetCOG(Int_t);
64	Float_t GetCOG(){ return GetCOG(0); };
65	Float_t GetETA(Int_t,float);
66	Float_t GetETA(float angle){ return GetETA(0,angle); };
67
68	Bool_t IsBad(Int_t); ///< bad-cluster flag
69
70	TrkCluster* GetTrkCluster(){ return this; };
71
72	friend class TrkLevel1;
73
74	ClassDef(TrkCluster,2);
75
76	};
77
78	/**
79	* \brief Class to describe tracker LEVEL1 data.
80	*
81	* A Level1 tracker event is defined as a collection of clusters ( TrkCluster objects ).
82	* The result of common-noise computation for each viking is also stored ( cnev[24][12] ).
83	* A general flag summarize the event status (missing sections, crc failures, decoding errors ans so on...).
84	*/
85	class TrkLevel1 : public TObject {
86
87	private:
88
89	public:
90
91	Int_t good[12]; ///< event status
92	Float_t cnev[24][12]; ///< CN
93	Int_t cnnev[24][12]; ///< number of strips for CN computation
94	// Int_t fshower[12];
95	// Int_t good1;
96	// Int_t crc[12];
97
98	TClonesArray *Cluster; ///< clusters
99
100
101	TrkLevel1();
102	~TrkLevel1(){Delete();};
103
104	int nclstr() {return Cluster->GetEntries();} ///< number of stored clusters
105
106	void Dump();
107	void SetFromLevel1Struct(cTrkLevel1 *);
108	// void GetLevel1Struct(cTrkLevel1 *) const;
109	cTrkLevel1* GetLevel1Struct();
110	void Clear();
111	void Delete();
112
113	TrkCluster* GetCluster(int);
114
115	TrkLevel1* GetTrkLevel1(){return this;}
116	TClonesArray* GetClusters(){return Cluster;}; ///< returns pointer to the cluster array
117
118	int LoadPfaParam(TString);
119
120	ClassDef(TrkLevel1,2);
121
122	};
123
124
125	#endif