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 <TROOT.h>
#include <TSystem.h>

//#include <TrkStruct.h>
#include <TrkParams.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(){Clear();}
    TrkCluster(const TrkCluster&);

    void Dump();
    void Clear();
    void Clear(Option_t *option){Clear();}
    void Delete(){Clear();}
        
    Float_t GetSignal(Int_t, Float_t, Bool_t);    ///< cluster signal
    Float_t GetSignal(Float_t cut)                { return GetSignal( 0, cut, false); }
    Float_t GetSignal(Int_t nstrip, Bool_t force) { return GetSignal( nstrip, -1000., force ); }
    Float_t GetSignal(Int_t nstrip)               { return GetSignal( nstrip, -1000., false ); }
    Float_t GetSignal()                           { return GetSignal( 0,(Float_t)INC_CUT, false); }    
    
    Float_t GetSignalToNoise(Int_t,Float_t);  ///< cluster signal/noise
    Float_t GetSignalToNoise(Float_t cut)  { return GetSignalToNoise( 0, cut); }
    Float_t GetSignalToNoise(Int_t nstrip) { return GetSignalToNoise( nstrip,-1000. ); }
    Float_t GetSignalToNoise()             { return GetSignalToNoise( 0, (Float_t)INC_CUT); }


    Int_t   GetMultiplicity(Float_t);         ///< cluster multiplicity 
    Int_t   GetMultiplicity()  { return GetMultiplicity(INC_CUT);  }
    
    void GetLevel1Struct(cTrkLevel1* l1);
    void GetLevel1Struct(){GetLevel1Struct(&level1event_);}
    
    Float_t GetCOG(Int_t);
    Float_t GetCOG(Float_t angle);
    Float_t GetCOG(){ return GetCOG(0); }
    Float_t GetETA(Int_t,float,bool);
//    Float_t GetETA(float angle){ return GetETA(0,angle); }
    Float_t GetDigSat();
    Float_t GetPositionPU(float);
    Int_t   GetPFAstrips(float angle);

   
    Bool_t IsBad(Int_t);                ///< bad-cluster flag
    Bool_t IsSaturated(Int_t);          ///< saturated-cluster flag

    Int_t GetPlane() { return (Int_t)((view+1)/2);}         ///< plane number (1-6)
    Int_t GetLadder(){ return 1+(Int_t)((maxs-1)/1024);  }  ///< ladder number (1-3)
    Bool_t IsY(){ return (Bool_t)(view%2); }
    Bool_t IsX(){ return !((Bool_t)(view%2)); }
        
    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       cn[24][12];     ///< CN
//    Float_t       cnrms[24][12];  ///< CN RMS
    Int_t         cnn[24][12];    ///< number of strips for CN computation

        
    TClonesArray *Cluster;        ///< clusters
        
    TrkLevel1();
    ~TrkLevel1(){Delete();}
    
    int nclstr() {return Cluster->GetEntries();}    ///< number of stored clusters
    
    void Dump();
//    void SetFromLevel1Struct(cTrkLevel1 *, Bool_t);
//      void GetLevel1Struct(cTrkLevel1 *) const;
    void GetLevel1Struct(cTrkLevel1 *l1);
    void SetFromLevel1Struct(cTrkLevel1 *l1, Bool_t full);    
    void GetLevel1Struct(){GetLevel1Struct(&level1event_);}
    void SetFromLevel1Struct(Bool_t full){SetFromLevel1Struct(&level1event_,full);}
    void SetFromLevel1Struct(){SetFromLevel1Struct(true);}

    void Clear();
    void Delete();
    void Set();
    void Set(TrkLevel1 *trkl1, float mipCut=5., float fcut=0.2);
    
    TrkCluster*   GetCluster(int);
    
    TrkLevel1*    GetTrkLevel1(){return this;}
    TClonesArray* GetClusters(){return Cluster;}   ///< returns pointer to the cluster array
    
/*     int LoadPfaParam(TString); */
/*     int LoadFieldParam(TString); */
/*     int LoadChargeParam(TString); */
/*     int LoadAlignmentParam(TString); */
/*     int LoadMipParam(TString); */
/*     int LoadVKMaskParam(TString); */
/*     int LoadPfaParam(){return LoadPfaParam("");} */
/*     int LoadFieldParam(){return LoadFieldParam("");} */
/*     int LoadChargeParam(){return LoadChargeParam("");} */
/*     int LoadAlignmentParam(){return LoadAlignmentParam("");} */
/*     int LoadMipParam(){return LoadMipParam("");} */
/*     int LoadVKMaskParam(){return LoadVKMaskParam("");} */
/*     int LoadParams(); */

//    int ProcessEvent(int);
//    int ProcessEvent(){return ProcessEvent();}
    int ProcessEvent();

// spostati in TrkParams
/*     int GetPfaNbinsAngle(); */
/*     int GetPfaNbinsETA(); */
/*     int GetPfaNbinsCharge(){return 0;} */
/*     float* GetPfaCoord(TString pfa, int nview, int nladder, int nang); */
/*     float* GetPfaAbs(TString pfa, int nang); */

    void   StatusDump(int view);
    Bool_t StatusCheck(int view, int flagmask);

    
    void SetPFA(int pfaid){ sw_.pfaid = pfaid; }
    int  GetPFA(){ return sw_.pfaid; }
    

    ClassDef(TrkLevel1,2);

};


#endif
1	pam-fi	1.1	/**
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	pam-fi	1.11	#include <TROOT.h>
12			#include <TSystem.h>
13	pam-fi	1.1
14	pam-fi	1.11	//#include <TrkStruct.h>
15			#include <TrkParams.h>
16	pam-fi	1.1
17	pam-fi	1.2	#define INC_CUT 4.
18	pam-fi	1.1	/**
19			* \brief Class to describe tracker clusters.
20			*
21	pam-fi	1.2	* 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.
22			*
23	pam-fi	1.1	*/
24			// ==================================================================
25			class TrkCluster : public TObject {
26
27			private:
28
29
30			public:
31
32	pam-fi	1.5	int view; ///< view
33			int maxs; ///< strip number (1-3072) of cluster center
34			int indmax;
35
36			Int_t CLlength; ///< number of stored strip info (signal+sigma+adc+bad)
37			Float_t *clsignal; //[CLlength]
38			Float_t *clsigma; //[CLlength]
39			Int_t *cladc; //[CLlength]
40			Bool_t *clbad; //[CLlength]
41
42	pam-fi	1.1	TrkCluster();
43	pam-fi	1.18	~TrkCluster(){Clear();}
44	pam-fi	1.1	TrkCluster(const TrkCluster&);
45
46			void Dump();
47	pam-fi	1.7	void Clear();
48	pam-fi	1.18	void Clear(Option_t *option){Clear();}
49			void Delete(){Clear();}
50	pam-fi	1.3
51	pam-fi	1.15	Float_t GetSignal(Int_t, Float_t, Bool_t); ///< cluster signal
52	pam-fi	1.18	Float_t GetSignal(Float_t cut) { return GetSignal( 0, cut, false); }
53			Float_t GetSignal(Int_t nstrip, Bool_t force) { return GetSignal( nstrip, -1000., force ); }
54			Float_t GetSignal(Int_t nstrip) { return GetSignal( nstrip, -1000., false ); }
55			Float_t GetSignal() { return GetSignal( 0,(Float_t)INC_CUT, false); }
56	pam-fi	1.4
57			Float_t GetSignalToNoise(Int_t,Float_t); ///< cluster signal/noise
58	pam-fi	1.18	Float_t GetSignalToNoise(Float_t cut) { return GetSignalToNoise( 0, cut); }
59			Float_t GetSignalToNoise(Int_t nstrip) { return GetSignalToNoise( nstrip,-1000. ); }
60			Float_t GetSignalToNoise() { return GetSignalToNoise( 0, (Float_t)INC_CUT); }
61	pam-fi	1.4
62
63			Int_t GetMultiplicity(Float_t); ///< cluster multiplicity
64	pam-fi	1.18	Int_t GetMultiplicity() { return GetMultiplicity(INC_CUT); }
65	pam-fi	1.4
66	pam-fi	1.11	void GetLevel1Struct(cTrkLevel1* l1);
67	pam-fi	1.18	void GetLevel1Struct(){GetLevel1Struct(&level1event_);}
68	pam-fi	1.4
69			Float_t GetCOG(Int_t);
70	pam-fi	1.5	Float_t GetCOG(Float_t angle);
71	pam-fi	1.18	Float_t GetCOG(){ return GetCOG(0); }
72	pam-fi	1.14	Float_t GetETA(Int_t,float,bool);
73	pam-fi	1.18	// Float_t GetETA(float angle){ return GetETA(0,angle); }
74	pam-fi	1.19	Float_t GetDigSat();
75	pam-fi	1.14	Float_t GetPositionPU(float);
76	pam-fi	1.15	Int_t GetPFAstrips(float angle);
77	pam-fi	1.14
78
79	pam-fi	1.4	Bool_t IsBad(Int_t); ///< bad-cluster flag
80	pam-fi	1.8	Bool_t IsSaturated(Int_t); ///< saturated-cluster flag
81	pam-fi	1.6
82	pam-fi	1.18	Int_t GetPlane() { return (Int_t)((view+1)/2);} ///< plane number (1-6)
83			Int_t GetLadder(){ return 1+(Int_t)((maxs-1)/1024); } ///< ladder number (1-3)
84			Bool_t IsY(){ return (Bool_t)(view%2); }
85			Bool_t IsX(){ return !((Bool_t)(view%2)); }
86	pam-fi	1.2
87	pam-fi	1.18	TrkCluster* GetTrkCluster(){ return this; }
88	pam-fi	1.1
89			friend class TrkLevel1;
90
91	pam-fi	1.2	ClassDef(TrkCluster,2);
92	pam-fi	1.1
93			};
94
95			/**
96			* \brief Class to describe tracker LEVEL1 data.
97			*
98	pam-fi	1.2	* A Level1 tracker event is defined as a collection of clusters ( TrkCluster objects ).
99			* The result of common-noise computation for each viking is also stored ( cnev[24][12] ).
100			* A general flag summarize the event status (missing sections, crc failures, decoding errors ans so on...).
101	pam-fi	1.1	*/
102			class TrkLevel1 : public TObject {
103
104			private:
105	pam-fi	1.5
106	pam-fi	1.1	public:
107
108	pam-fi	1.5	Int_t good[12]; ///< event status
109			Float_t cn[24][12]; ///< CN
110			// Float_t cnrms[24][12]; ///< CN RMS
111			Int_t cnn[24][12]; ///< number of strips for CN computation
112	pam-fi	1.7
113	pam-fi	1.2
114	pam-fi	1.1	TClonesArray *Cluster; ///< clusters
115	pam-fi	1.7
116	pam-fi	1.1	TrkLevel1();
117	pam-fi	1.18	~TrkLevel1(){Delete();}
118	pam-fi	1.5
119			int nclstr() {return Cluster->GetEntries();} ///< number of stored clusters
120
121	pam-fi	1.1	void Dump();
122	pam-fi	1.11	// void SetFromLevel1Struct(cTrkLevel1 *, Bool_t);
123	pam-fi	1.3	// void GetLevel1Struct(cTrkLevel1 *) const;
124	pam-fi	1.11	void GetLevel1Struct(cTrkLevel1 *l1);
125			void SetFromLevel1Struct(cTrkLevel1 *l1, Bool_t full);
126	pam-fi	1.18	void GetLevel1Struct(){GetLevel1Struct(&level1event_);}
127			void SetFromLevel1Struct(Bool_t full){SetFromLevel1Struct(&level1event_,full);}
128			void SetFromLevel1Struct(){SetFromLevel1Struct(true);}
129	pam-fi	1.11
130	pam-fi	1.5	void Clear();
131			void Delete();
132	pam-fi	1.9	void Set();
133	pam-ts	1.20	void Set(TrkLevel1 *trkl1, float mipCut=5., float fcut=0.2);
134	pam-fi	1.5
135	pam-fi	1.1	TrkCluster* GetCluster(int);
136
137			TrkLevel1* GetTrkLevel1(){return this;}
138	pam-fi	1.18	TClonesArray* GetClusters(){return Cluster;} ///< returns pointer to the cluster array
139	pam-fi	1.1
140	pam-fi	1.11	/* int LoadPfaParam(TString); */
141			/* int LoadFieldParam(TString); */
142			/* int LoadChargeParam(TString); */
143			/* int LoadAlignmentParam(TString); */
144			/* int LoadMipParam(TString); */
145			/* int LoadVKMaskParam(TString); */
146	pam-fi	1.18	/* int LoadPfaParam(){return LoadPfaParam("");} */
147			/* int LoadFieldParam(){return LoadFieldParam("");} */
148			/* int LoadChargeParam(){return LoadChargeParam("");} */
149			/* int LoadAlignmentParam(){return LoadAlignmentParam("");} */
150			/* int LoadMipParam(){return LoadMipParam("");} */
151			/* int LoadVKMaskParam(){return LoadVKMaskParam("");} */
152	pam-fi	1.11	/* int LoadParams(); */
153
154	pam-fi	1.13	// int ProcessEvent(int);
155	pam-fi	1.18	// int ProcessEvent(){return ProcessEvent();}
156	pam-fi	1.13	int ProcessEvent();
157	pam-fi	1.11
158	pam-fi	1.16	// spostati in TrkParams
159			/* int GetPfaNbinsAngle(); */
160			/* int GetPfaNbinsETA(); */
161	pam-fi	1.18	/* int GetPfaNbinsCharge(){return 0;} */
162	pam-fi	1.16	/* float* GetPfaCoord(TString pfa, int nview, int nladder, int nang); */
163			/* float* GetPfaAbs(TString pfa, int nang); */
164	pam-fi	1.10
165	pam-fi	1.12	void StatusDump(int view);
166			Bool_t StatusCheck(int view, int flagmask);
167
168	pam-fi	1.13
169	pam-fi	1.18	void SetPFA(int pfaid){ sw_.pfaid = pfaid; }
170			int GetPFA(){ return sw_.pfaid; }
171	pam-fi	1.13
172	pam-fi	1.11
173	pam-fi	1.5	ClassDef(TrkLevel1,2);
174	pam-fi	1.1
175			};
176
177
178			#endif