TrackerLevel2/inc/TrkStruct.h

/**
 * \file TrkStruct.h
 * \author Elena Vannuccini
 * \date
 */
#ifndef trkstruct_h
#define trkstruct_h

#define NPLANE 6
#define NVIEW 12
#define NVK 24
#define NLADDER 3

#define NCLMAX_VIEW 200         //max n.clusters per view
#define NCLSTR 20               //max n.strip per cluster
#define NCLMAX (NCLMAX_VIEW*12) //max n.clusters total
#define NCLBUFF (NCLMAX*NCLSTR)

#define NDBLT_MAX_NT 1000   // 0.2*ndblt_max 
#define NTRPT_MAX_NT 10000   // 0.2*ntrpt_max
#define NCLOYZ_MAX 200 
#define NCLOXZ_MAX 200    

#define NTRKMAX 10
#define NSINGMAX NCLMAX //100

#define NANGMAX 21
#define NETAVALMAX 500


#include <CalibTrk1Event.h>
#include <CalibTrk2Event.h>
using namespace pamela;
//#include <TrkCalib.h>

#include <TString.h>
#include <TFile.h>
#include <TTree.h>


#include <fstream>
#include <iostream>
/**
 * \brief Struct to pass calibration parameters to F77 routines
 */
struct cTrkCalib {

    float pedestal[128][24][12];
    float pedestal_t[128][24][12];
    float sigma[128][24][12];
    float sigma_t[128][24][12];
    int bad[128][24][12];

/*     void FillACalibFrom(TFile* , Int_t , Int_t ); */
/*     void FillFCalibFrom(TFile* , Int_t , Int_t ); */
/*     void FillTCalibFrom(TFile* , Int_t , Int_t ); */
/*     void FillTCalibFrom(TString); */

};
// ==================================================================
/**
 * \brief Struct to pass tracker LEVEL0 data to F77 routines
 */
struct cTrkLevel0 {
    int DAQmode[12];
    int DSPnumber[12];
    int DATAlength[12];
    int eventn[12];
    int nclust[12];
    int cutc[12];
    int cutcl[12];
    int addrcluster[3][12];
    int signcluster[3][12];
    int fc[12];
    int compressiontime[12];
    int fl5[12]; 
    int fl4[12];
    int fl3[12];
    int fl2[12];
    int fl1[12];
    int fl6[12];
    int checksum[12];
    int TOTDATAlength;
    int datatracker[49152];
    int pnum[12];    
    int cmdnum[12];
    int bid[12];
    int alarm[12];
    int aswr[12]; 
    int good0;
    int crc[12]; 
};
// ==================================================================
/**
 * \brief Struct to pass tracker LEVEL1 data to F77 routines
 */
struct cTrkLevel1 {
//    int good1;
    int good[12];
    int nclstr1;
    int view[NCLMAX];
    int ladder[NCLMAX];
    int maxs[NCLMAX];
    int mult[NCLMAX];
    float dedx[NCLMAX];
    int indstart[NCLMAX];
    int indmax[NCLMAX];
    int totCLlength;
    float clsignal[NCLBUFF];
    float clsigma[NCLBUFF];
    int cladc[NCLBUFF];
    int clbad[NCLBUFF];
    float cnev[24][12];
    int cnnev[24][12];
    float cnrmsev[24][12];
    int fshower[12];
    int whichtrack[NCLMAX];

};
// ==================================================================
/**
 * \brief Struct to pass tracker LEVEL2 data to F77 routines
 */
struct cTrkLevel2 {
//    int good2;
//    int crc[12];
    int good[12];
    int vkflag[24][12];
//  ----------------------------
    int nclsx;
    int planex[NSINGMAX];
    float xs[NSINGMAX][2];
    float signlxs[NSINGMAX];
    int clsx[NSINGMAX];
//  ----------------------------
    int nclsy;
    int planey[NSINGMAX];
    float ys[NSINGMAX][2];
    float signlys[NSINGMAX];
    int clsy[NSINGMAX];
//  ----------------------------
    int ntrk;
    int image[NTRKMAX];
    float xm_nt[NTRKMAX][6];
    float ym_nt[NTRKMAX][6];
    float zm_nt[NTRKMAX][6];
    float resx_nt[NTRKMAX][6];
    float resy_nt[NTRKMAX][6];
    float tailx[NTRKMAX][6];
    float taily[NTRKMAX][6];
    float al_nt[NTRKMAX][5];
    float coval[NTRKMAX][5][5];
    float chi2_nt[NTRKMAX];
    int nstep_nt[NTRKMAX];
    int xgood_nt[NTRKMAX][6];
    int ygood_nt[NTRKMAX][6];
    int ls[NTRKMAX][6];
    int xbad[NTRKMAX][6];
    int ybad[NTRKMAX][6];
    float xv_nt[NTRKMAX][6];
    float yv_nt[NTRKMAX][6];
    float zv_nt[NTRKMAX][6];
    float axv_nt[NTRKMAX][6];
    float ayv_nt[NTRKMAX][6];
    float dedx_x[NTRKMAX][6];
    float dedx_y[NTRKMAX][6];
    int cltrx[NTRKMAX][6];
    int cltry[NTRKMAX][6];
//      float bdl[NTRKMAX];

    void InitcTrkLevel2(){
        
//    good2 = 0;
        for(Int_t i=0; i<12 ; i++){
            good[i] = 0;
            for(Int_t ii=0; ii<24 ; ii++)vkflag[ii][i]=0;
        }
        //  ----------------------------
        nclsx = 0;
        nclsy = 0;
        for(Int_t i=0; i<NSINGMAX ; i++){
            planex[i]  = 0;
            xs[i][0]   = 0;
            xs[i][1]   = 0;
            signlxs[i] = 0;
            planey[i]  = 0;
            ys[i][0]   = 0;
            ys[i][1]   = 0;
            signlys[i] = 0;
        }
        //  ----------------------------
        ntrk =0 ;
        
        for(Int_t i=0; i<NTRKMAX ; i++){
            image[i]   = 0; 
            chi2_nt[i] = 0;
//      bdl[i]     = 0;
            
            for(Int_t ii=0; ii<5 ; ii++){
                al_nt[i][ii] = 0;
                for(Int_t iii=0; iii<5 ; iii++)
                    coval[i][ii][iii] = 0;
            }
            
            for(Int_t ii=0; ii<6 ; ii++){
                xm_nt[i][ii]    = 0;
                ym_nt[i][ii]    = 0;
                zm_nt[i][ii]    = 0;
                resx_nt[i][ii]  = 0;
                resy_nt[i][ii]  = 0;
                xgood_nt[i][ii] = 0;
                ygood_nt[i][ii] = 0;
                xv_nt[i][ii]    = 0;
                yv_nt[i][ii]    = 0;
                zv_nt[i][ii]    = 0;
                axv_nt[i][ii]   = 0;
                ayv_nt[i][ii]   = 0;
                dedx_x[i][ii]   = 0;
                dedx_y[i][ii]   = 0;
            }
        }
    }
    
};
// ==================================================================
/**
 * \brief Struct to pass calibration/parameter file paths to F77 routines
 */
struct cPath {
    char path[256];
    int  pathlen;
    int  error;
/**
 * Fill the struct variables from a TString object
 */
    void FillWith(TString s){
        pathlen = s.Length();
        const char *pc = s.Data();
        for(Int_t i=0; i<=pathlen; i++) path[i] = *pc++;
    };
        
};

// ==================================================================
/* /\** */
/*  * \brief Struct to pass magnetic-field file paths to F77 routines */
/*  *\/ */
/* struct cBPath { */
/*     char b_path[256]; */
/*     int  b_pathlen; */
/*     int  b_error; */
/*     int  b_loaded; */
/* /\** */
/*  * Fill the struct variables from a TString object and set  */
/*  * the load flag to FALSE. */
/*  *\/ */
/*     void FillWith(TString s){ */
/*      b_loaded  = 0; */
/*      b_pathlen = s.Length(); */
/*      const char *pc = s.Data(); */
/*      for(Int_t i=0; i<=b_pathlen; i++) b_path[i] = *pc++; */
/*     }; */
/* /\** */
/*  * Fill the struct variables from a TString object */
/*  *\/ */
/*     int BIsLoaded(){ return b_loaded; }; */
        
/* }; */

// ==================================================================
/**
 * \brief Struct to set debug mode in F77 routines
 */
struct cDbg {
    int debug;
    int verbose;
    int warning;
//    bool debug;
//    bool verbose;
    void SetNone()   {debug=0; verbose=0; warning=0;};
    void SetWarning(){debug=0; verbose=0; warning=1;};
    void SetVerbose(){debug=0; verbose=1; warning=1;};
    void SetDebug()  {debug=1; verbose=1; warning=1;};
};


// ==================================================================
/**
 * \brief Struct to pass mini2 track parameters to F77 routines
 */
struct cMini2track {
    double al[5];
    double xm[NPLANE],ym[NPLANE],zm[NPLANE];
    double xm_a[NPLANE],ym_a[NPLANE];
    double xm_b[NPLANE],ym_b[NPLANE];
    double resx[NPLANE],resy[NPLANE];
    double xgood[NPLANE],ygood[NPLANE];
    double dedxtrk_x[NPLANE];
    double dedxtrk_y[NPLANE];
    double zini;
    double pfixed;
    double chi2;
    double xv[NPLANE],yv[NPLANE],zv[NPLANE];
    double axv[NPLANE],ayv[NPLANE];
    double cov[5][5];
    double fact;
    int nstep;
    int idcand;
    int trackmode;
    int istepmin;

/*     cMini2track(){ */
/* //  -------------------------- */
/* //  fitting routine parameters */
/* //  -------------------------- */
/*      zini = 23.5; */
/*      trackmode = 0; */
/*      istepmin = 3; */
/* //  -------------------------- */
/*      pfixed = 0.; */
/*      chi2  = 0; */
/*      nstep = 0; */
/*      for(int it1=0;it1<5;it1++){ */
/*          al[it1] = 0; */
/*          for(int it2=0;it2<5;it2++)cov[it1][it2] = 0; */
/*      }; */
/*      for(int ip=0;ip<6;ip++){ */
/*          xgood[ip]  = 0; */
/*          ygood[ip]  = 0; */
/*          xm[ip]     = 0; */
/*          ym[ip]     = 0; */
/*          xm_a[ip]     = 0; */
/*          ym_a[ip]     = 0; */
/*          xm_b[ip]     = 0; */
/*          ym_b[ip]     = 0; */
/*          zm[ip]     = 0; */
/*          resx[ip]   = 0; */
/*          resy[ip]   = 0; */
/*          xv[ip]     = 0; */
/*          yv[ip]     = 0; */
/*          zv[ip]     = 0; */
/*          axv[ip]    = 0; */
/*          ayv[ip]    = 0; */
/*          dedxtrk_x[ip] = 0; */
/*          dedxtrk_y[ip] = 0; */
/*      }; */
        
/*     } */


};
//
/**
 * \Struct for the hough transform variables
 */

struct cTrkHough {

  int ndblt_nt;
  float alfayz1_nt[NDBLT_MAX_NT];
  float alfayz2_nt[NDBLT_MAX_NT];
  int db_cloud_nt[NDBLT_MAX_NT];
  int ntrpt_nt;
  float alfaxz1_nt[NTRPT_MAX_NT];
  float alfaxz2_nt[NTRPT_MAX_NT];
  float alfaxz3_nt[NTRPT_MAX_NT];
  int tr_cloud_nt[NTRPT_MAX_NT];
  int nclouds_yz_nt;
  float alfayz1_av_nt[NCLOYZ_MAX];
  float alfayz2_av_nt[NCLOYZ_MAX];
  int ptcloud_yz_nt[NCLOYZ_MAX];
  int nclouds_xz_nt;
  float alfaxz1_av_nt[NCLOXZ_MAX];
  float alfaxz2_av_nt[NCLOXZ_MAX];
  float alfaxz3_av_nt[NCLOXZ_MAX];
  int ptcloud_xz_nt[NCLOXZ_MAX];
  int nclstr;
  float totaltime;
  float houghtime;
  float fittime;


  void InitcTrkHough(){

    ndblt_nt = 0;
    ntrpt_nt = 0;
    nclouds_yz_nt = 0;
    nclouds_xz_nt = 0;
    nclstr = 0;
    totaltime = 0;
    houghtime = 0;
    fittime = 0;
    for(int i=0;i<NDBLT_MAX_NT ;i++){
      alfayz1_nt[i] = 0;
      alfayz2_nt[i] = 0;
      db_cloud_nt[i] = 0;
    }
    for(int i=0;i<NTRPT_MAX_NT ;i++){
      alfaxz1_nt[i] = 0;
      alfaxz2_nt[i] = 0;
      alfaxz3_nt[i] = 0;
      tr_cloud_nt[i] = 0;
    }
    for(int i=0;i<NCLOYZ_MAX ;i++){
      alfayz1_av_nt[i] = 0;
      alfayz2_av_nt[i] = 0;
      ptcloud_yz_nt[i] = 0;
    }
    for(int i=0;i<NCLOXZ_MAX ;i++){
      ptcloud_xz_nt[i] = 0;
      alfaxz1_av_nt[i] = 0;
      alfaxz2_av_nt[i] = 0;
      alfaxz3_av_nt[i] = 0;
    }
  }
  
};

/**
 * \brief Struct to pass VA1-mask to F77 routines
 */
struct cTrkMask {

    int mask_vk[NVK][NVIEW];
    int mask_vk_run[NVK][NVIEW];

//    void Set(TFile* , Int_t , Int_t );

};

/**
 * \brief Struct for pfa parameters
 */
struct cTrkETA {

    int nangbin;
    float angL[NANGMAX],angR[NANGMAX];
    int netaval;
    float eta2[NANGMAX][NETAVALMAX];
    float feta2[NANGMAX][NLADDER][NVIEW][NETAVALMAX];
    float eta3[NANGMAX][NETAVALMAX];
    float feta3[NANGMAX][NLADDER][NVIEW][NETAVALMAX];
    float eta4[NANGMAX][NETAVALMAX];
    float feta4[NANGMAX][NLADDER][NVIEW][NETAVALMAX];

};
/**
 * \brief Struct to configure data reduction
 */
struct cTrkSW{
    int pfaid;
};

extern "C" {

    extern struct cTrkCalib   pedsigbad_;
    extern struct cTrkMask    mask_; 
    extern struct cTrkLevel0  level0event_;
    extern struct cTrkLevel1  level1event_;
    extern struct cTrkLevel2  level2event_;
    extern struct cPath       path_;
    extern struct cDbg        dbg_;
    extern struct cTrkHough   houghevent_;
    extern struct cMini2track track_; 
    extern struct cTrkETA     pfa_; 
    extern struct cTrkSW      sw_;

    void fillpedsigfromdefault_();
    int readmipparam_(); 
    int readchargeparam_(); 
    int readvkmask_(); 
    int readalignparam_(); 
    int readetaparam_(); 
    void reductionflight_(int*);
    int analysisflight_();
    int  readb_();
    void gufld_(float*, float*);
    void xyzpam_(int*,int*,int*,int*,int*,float*,float*,float*,float*);
    float riseta_(int*,float*);

}

#endif
1	/**
2	* \file TrkStruct.h
3	* \author Elena Vannuccini
4	* \date
5	*/
6	#ifndef trkstruct_h
7	#define trkstruct_h
8
9	#define NPLANE 6
10	#define NVIEW 12
11	#define NVK 24
12	#define NLADDER 3
13
14	#define NCLMAX_VIEW 200 //max n.clusters per view
15	#define NCLSTR 20 //max n.strip per cluster
16	#define NCLMAX (NCLMAX_VIEW*12) //max n.clusters total
17	#define NCLBUFF (NCLMAX*NCLSTR)
18
19	#define NDBLT_MAX_NT 1000 // 0.2*ndblt_max
20	#define NTRPT_MAX_NT 10000 // 0.2*ntrpt_max
21	#define NCLOYZ_MAX 200
22	#define NCLOXZ_MAX 200
23
24	#define NTRKMAX 10
25	#define NSINGMAX NCLMAX //100
26
27	#define NANGMAX 21
28	#define NETAVALMAX 500
29
30
31	#include <CalibTrk1Event.h>
32	#include <CalibTrk2Event.h>
33	using namespace pamela;
34	//#include <TrkCalib.h>
35
36	#include <TString.h>
37	#include <TFile.h>
38	#include <TTree.h>
39
40
41	#include <fstream>
42	#include <iostream>
43	/**
44	* \brief Struct to pass calibration parameters to F77 routines
45	*/
46	struct cTrkCalib {
47
48	float pedestal[128][24][12];
49	float pedestal_t[128][24][12];
50	float sigma[128][24][12];
51	float sigma_t[128][24][12];
52	int bad[128][24][12];
53
54	/* void FillACalibFrom(TFile* , Int_t , Int_t ); */
55	/* void FillFCalibFrom(TFile* , Int_t , Int_t ); */
56	/* void FillTCalibFrom(TFile* , Int_t , Int_t ); */
57	/* void FillTCalibFrom(TString); */
58
59	};
60	// ==================================================================
61	/**
62	* \brief Struct to pass tracker LEVEL0 data to F77 routines
63	*/
64	struct cTrkLevel0 {
65	int DAQmode[12];
66	int DSPnumber[12];
67	int DATAlength[12];
68	int eventn[12];
69	int nclust[12];
70	int cutc[12];
71	int cutcl[12];
72	int addrcluster[3][12];
73	int signcluster[3][12];
74	int fc[12];
75	int compressiontime[12];
76	int fl5[12];
77	int fl4[12];
78	int fl3[12];
79	int fl2[12];
80	int fl1[12];
81	int fl6[12];
82	int checksum[12];
83	int TOTDATAlength;
84	int datatracker[49152];
85	int pnum[12];
86	int cmdnum[12];
87	int bid[12];
88	int alarm[12];
89	int aswr[12];
90	int good0;
91	int crc[12];
92	};
93	// ==================================================================
94	/**
95	* \brief Struct to pass tracker LEVEL1 data to F77 routines
96	*/
97	struct cTrkLevel1 {
98	// int good1;
99	int good[12];
100	int nclstr1;
101	int view[NCLMAX];
102	int ladder[NCLMAX];
103	int maxs[NCLMAX];
104	int mult[NCLMAX];
105	float dedx[NCLMAX];
106	int indstart[NCLMAX];
107	int indmax[NCLMAX];
108	int totCLlength;
109	float clsignal[NCLBUFF];
110	float clsigma[NCLBUFF];
111	int cladc[NCLBUFF];
112	int clbad[NCLBUFF];
113	float cnev[24][12];
114	int cnnev[24][12];
115	float cnrmsev[24][12];
116	int fshower[12];
117	int whichtrack[NCLMAX];
118
119	};
120	// ==================================================================
121	/**
122	* \brief Struct to pass tracker LEVEL2 data to F77 routines
123	*/
124	struct cTrkLevel2 {
125	// int good2;
126	// int crc[12];
127	int good[12];
128	int vkflag[24][12];
129	// ----------------------------
130	int nclsx;
131	int planex[NSINGMAX];
132	float xs[NSINGMAX][2];
133	float signlxs[NSINGMAX];
134	int clsx[NSINGMAX];
135	// ----------------------------
136	int nclsy;
137	int planey[NSINGMAX];
138	float ys[NSINGMAX][2];
139	float signlys[NSINGMAX];
140	int clsy[NSINGMAX];
141	// ----------------------------
142	int ntrk;
143	int image[NTRKMAX];
144	float xm_nt[NTRKMAX][6];
145	float ym_nt[NTRKMAX][6];
146	float zm_nt[NTRKMAX][6];
147	float resx_nt[NTRKMAX][6];
148	float resy_nt[NTRKMAX][6];
149	float tailx[NTRKMAX][6];
150	float taily[NTRKMAX][6];
151	float al_nt[NTRKMAX][5];
152	float coval[NTRKMAX][5][5];
153	float chi2_nt[NTRKMAX];
154	int nstep_nt[NTRKMAX];
155	int xgood_nt[NTRKMAX][6];
156	int ygood_nt[NTRKMAX][6];
157	int ls[NTRKMAX][6];
158	int xbad[NTRKMAX][6];
159	int ybad[NTRKMAX][6];
160	float xv_nt[NTRKMAX][6];
161	float yv_nt[NTRKMAX][6];
162	float zv_nt[NTRKMAX][6];
163	float axv_nt[NTRKMAX][6];
164	float ayv_nt[NTRKMAX][6];
165	float dedx_x[NTRKMAX][6];
166	float dedx_y[NTRKMAX][6];
167	int cltrx[NTRKMAX][6];
168	int cltry[NTRKMAX][6];
169	// float bdl[NTRKMAX];
170
171	void InitcTrkLevel2(){
172
173	// good2 = 0;
174	for(Int_t i=0; i<12 ; i++){
175	good[i] = 0;
176	for(Int_t ii=0; ii<24 ; ii++)vkflag[ii][i]=0;
177	}
178	// ----------------------------
179	nclsx = 0;
180	nclsy = 0;
181	for(Int_t i=0; i<NSINGMAX ; i++){
182	planex[i] = 0;
183	xs[i][0] = 0;
184	xs[i][1] = 0;
185	signlxs[i] = 0;
186	planey[i] = 0;
187	ys[i][0] = 0;
188	ys[i][1] = 0;
189	signlys[i] = 0;
190	}
191	// ----------------------------
192	ntrk =0 ;
193
194	for(Int_t i=0; i<NTRKMAX ; i++){
195	image[i] = 0;
196	chi2_nt[i] = 0;
197	// bdl[i] = 0;
198
199	for(Int_t ii=0; ii<5 ; ii++){
200	al_nt[i][ii] = 0;
201	for(Int_t iii=0; iii<5 ; iii++)
202	coval[i][ii][iii] = 0;
203	}
204
205	for(Int_t ii=0; ii<6 ; ii++){
206	xm_nt[i][ii] = 0;
207	ym_nt[i][ii] = 0;
208	zm_nt[i][ii] = 0;
209	resx_nt[i][ii] = 0;
210	resy_nt[i][ii] = 0;
211	xgood_nt[i][ii] = 0;
212	ygood_nt[i][ii] = 0;
213	xv_nt[i][ii] = 0;
214	yv_nt[i][ii] = 0;
215	zv_nt[i][ii] = 0;
216	axv_nt[i][ii] = 0;
217	ayv_nt[i][ii] = 0;
218	dedx_x[i][ii] = 0;
219	dedx_y[i][ii] = 0;
220	}
221	}
222	}
223
224	};
225	// ==================================================================
226	/**
227	* \brief Struct to pass calibration/parameter file paths to F77 routines
228	*/
229	struct cPath {
230	char path[256];
231	int pathlen;
232	int error;
233	/**
234	* Fill the struct variables from a TString object
235	*/
236	void FillWith(TString s){
237	pathlen = s.Length();
238	const char *pc = s.Data();
239	for(Int_t i=0; i<=pathlen; i++) path[i] = *pc++;
240	};
241
242	};
243
244	// ==================================================================
245	/* /\** */
246	/* * \brief Struct to pass magnetic-field file paths to F77 routines */
247	/* \/ /
248	/* struct cBPath { */
249	/* char b_path[256]; */
250	/* int b_pathlen; */
251	/* int b_error; */
252	/* int b_loaded; */
253	/* /\** */
254	/* * Fill the struct variables from a TString object and set */
255	/* * the load flag to FALSE. */
256	/* \/ /
257	/* void FillWith(TString s){ */
258	/* b_loaded = 0; */
259	/* b_pathlen = s.Length(); */
260	/* const char pc = s.Data(); /
261	/* for(Int_t i=0; i<=b_pathlen; i++) b_path[i] = pc++; /
262	/* }; */
263	/* /\** */
264	/* * Fill the struct variables from a TString object */
265	/* \/ /
266	/* int BIsLoaded(){ return b_loaded; }; */
267
268	/* }; */
269
270	// ==================================================================
271	/**
272	* \brief Struct to set debug mode in F77 routines
273	*/
274	struct cDbg {
275	int debug;
276	int verbose;
277	int warning;
278	// bool debug;
279	// bool verbose;
280	void SetNone() {debug=0; verbose=0; warning=0;};
281	void SetWarning(){debug=0; verbose=0; warning=1;};
282	void SetVerbose(){debug=0; verbose=1; warning=1;};
283	void SetDebug() {debug=1; verbose=1; warning=1;};
284	};
285
286
287	// ==================================================================
288	/**
289	* \brief Struct to pass mini2 track parameters to F77 routines
290	*/
291	struct cMini2track {
292	double al[5];
293	double xm[NPLANE],ym[NPLANE],zm[NPLANE];
294	double xm_a[NPLANE],ym_a[NPLANE];
295	double xm_b[NPLANE],ym_b[NPLANE];
296	double resx[NPLANE],resy[NPLANE];
297	double xgood[NPLANE],ygood[NPLANE];
298	double dedxtrk_x[NPLANE];
299	double dedxtrk_y[NPLANE];
300	double zini;
301	double pfixed;
302	double chi2;
303	double xv[NPLANE],yv[NPLANE],zv[NPLANE];
304	double axv[NPLANE],ayv[NPLANE];
305	double cov[5][5];
306	double fact;
307	int nstep;
308	int idcand;
309	int trackmode;
310	int istepmin;
311
312	/* cMini2track(){ */
313	/* // -------------------------- */
314	/* // fitting routine parameters */
315	/* // -------------------------- */
316	/* zini = 23.5; */
317	/* trackmode = 0; */
318	/* istepmin = 3; */
319	/* // -------------------------- */
320	/* pfixed = 0.; */
321	/* chi2 = 0; */
322	/* nstep = 0; */
323	/* for(int it1=0;it1<5;it1++){ */
324	/* al[it1] = 0; */
325	/* for(int it2=0;it2<5;it2++)cov[it1][it2] = 0; */
326	/* }; */
327	/* for(int ip=0;ip<6;ip++){ */
328	/* xgood[ip] = 0; */
329	/* ygood[ip] = 0; */
330	/* xm[ip] = 0; */
331	/* ym[ip] = 0; */
332	/* xm_a[ip] = 0; */
333	/* ym_a[ip] = 0; */
334	/* xm_b[ip] = 0; */
335	/* ym_b[ip] = 0; */
336	/* zm[ip] = 0; */
337	/* resx[ip] = 0; */
338	/* resy[ip] = 0; */
339	/* xv[ip] = 0; */
340	/* yv[ip] = 0; */
341	/* zv[ip] = 0; */
342	/* axv[ip] = 0; */
343	/* ayv[ip] = 0; */
344	/* dedxtrk_x[ip] = 0; */
345	/* dedxtrk_y[ip] = 0; */
346	/* }; */
347
348	/* } */
349
350
351	};
352	//
353	/**
354	* \Struct for the hough transform variables
355	*/
356
357	struct cTrkHough {
358
359	int ndblt_nt;
360	float alfayz1_nt[NDBLT_MAX_NT];
361	float alfayz2_nt[NDBLT_MAX_NT];
362	int db_cloud_nt[NDBLT_MAX_NT];
363	int ntrpt_nt;
364	float alfaxz1_nt[NTRPT_MAX_NT];
365	float alfaxz2_nt[NTRPT_MAX_NT];
366	float alfaxz3_nt[NTRPT_MAX_NT];
367	int tr_cloud_nt[NTRPT_MAX_NT];
368	int nclouds_yz_nt;
369	float alfayz1_av_nt[NCLOYZ_MAX];
370	float alfayz2_av_nt[NCLOYZ_MAX];
371	int ptcloud_yz_nt[NCLOYZ_MAX];
372	int nclouds_xz_nt;
373	float alfaxz1_av_nt[NCLOXZ_MAX];
374	float alfaxz2_av_nt[NCLOXZ_MAX];
375	float alfaxz3_av_nt[NCLOXZ_MAX];
376	int ptcloud_xz_nt[NCLOXZ_MAX];
377	int nclstr;
378	float totaltime;
379	float houghtime;
380	float fittime;
381
382
383	void InitcTrkHough(){
384
385	ndblt_nt = 0;
386	ntrpt_nt = 0;
387	nclouds_yz_nt = 0;
388	nclouds_xz_nt = 0;
389	nclstr = 0;
390	totaltime = 0;
391	houghtime = 0;
392	fittime = 0;
393	for(int i=0;i<NDBLT_MAX_NT ;i++){
394	alfayz1_nt[i] = 0;
395	alfayz2_nt[i] = 0;
396	db_cloud_nt[i] = 0;
397	}
398	for(int i=0;i<NTRPT_MAX_NT ;i++){
399	alfaxz1_nt[i] = 0;
400	alfaxz2_nt[i] = 0;
401	alfaxz3_nt[i] = 0;
402	tr_cloud_nt[i] = 0;
403	}
404	for(int i=0;i<NCLOYZ_MAX ;i++){
405	alfayz1_av_nt[i] = 0;
406	alfayz2_av_nt[i] = 0;
407	ptcloud_yz_nt[i] = 0;
408	}
409	for(int i=0;i<NCLOXZ_MAX ;i++){
410	ptcloud_xz_nt[i] = 0;
411	alfaxz1_av_nt[i] = 0;
412	alfaxz2_av_nt[i] = 0;
413	alfaxz3_av_nt[i] = 0;
414	}
415	}
416
417	};
418
419	/**
420	* \brief Struct to pass VA1-mask to F77 routines
421	*/
422	struct cTrkMask {
423
424	int mask_vk[NVK][NVIEW];
425	int mask_vk_run[NVK][NVIEW];
426
427	// void Set(TFile* , Int_t , Int_t );
428
429	};
430
431	/**
432	* \brief Struct for pfa parameters
433	*/
434	struct cTrkETA {
435
436	int nangbin;
437	float angL[NANGMAX],angR[NANGMAX];
438	int netaval;
439	float eta2[NANGMAX][NETAVALMAX];
440	float feta2[NANGMAX][NLADDER][NVIEW][NETAVALMAX];
441	float eta3[NANGMAX][NETAVALMAX];
442	float feta3[NANGMAX][NLADDER][NVIEW][NETAVALMAX];
443	float eta4[NANGMAX][NETAVALMAX];
444	float feta4[NANGMAX][NLADDER][NVIEW][NETAVALMAX];
445
446	};
447	/**
448	* \brief Struct to configure data reduction
449	*/
450	struct cTrkSW{
451	int pfaid;
452	};
453
454	extern "C" {
455
456	extern struct cTrkCalib pedsigbad_;
457	extern struct cTrkMask mask_;
458	extern struct cTrkLevel0 level0event_;
459	extern struct cTrkLevel1 level1event_;
460	extern struct cTrkLevel2 level2event_;
461	extern struct cPath path_;
462	extern struct cDbg dbg_;
463	extern struct cTrkHough houghevent_;
464	extern struct cMini2track track_;
465	extern struct cTrkETA pfa_;
466	extern struct cTrkSW sw_;
467
468	void fillpedsigfromdefault_();
469	int readmipparam_();
470	int readchargeparam_();
471	int readvkmask_();
472	int readalignparam_();
473	int readetaparam_();
474	void reductionflight_(int*);
475	int analysisflight_();
476	int readb_();
477	void gufld_(float, float);
478	void xyzpam_(int,int,int,int,int,float,float,float,float*);
479	float riseta_(int,float);
480
481	}
482
483	#endif