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 |
#define NSENSOR 2 |
14 |
#define NSTRIPVK 128 |
15 |
#define NSTRIP NSTRIPVK*NVK |
16 |
|
17 |
#define NCLMAX_VIEW 200 //max n.clusters per view |
18 |
#define NCLSTR 20 //max n.strip per cluster |
19 |
#define NCLMAX (NCLMAX_VIEW*12) //max n.clusters total |
20 |
#define NCLBUFF (NCLMAX*NCLSTR) |
21 |
|
22 |
#define NDBLT_MAX_NT 1000 // 0.2*ndblt_max |
23 |
#define NTRPT_MAX_NT 10000 // 0.2*ntrpt_max |
24 |
#define NCLOYZ_MAX 200 |
25 |
#define NCLOXZ_MAX 200 |
26 |
|
27 |
#define NTRKMAX 10 |
28 |
#define NSINGMAX NCLMAX //100 |
29 |
|
30 |
#define NANGMAX 21 |
31 |
#define NETAVALMAX 500 |
32 |
|
33 |
#define NTRACKSMAX (NCLOYZ_MAX*NCLOXZ_MAX) |
34 |
|
35 |
#include <CalibTrk1Event.h> |
36 |
#include <CalibTrk2Event.h> |
37 |
using namespace pamela; |
38 |
//#include <TrkCalib.h> |
39 |
|
40 |
#include <TString.h> |
41 |
#include <TFile.h> |
42 |
#include <TTree.h> |
43 |
|
44 |
|
45 |
|
46 |
#include <fstream> |
47 |
#include <iostream> |
48 |
/** |
49 |
* \brief Struct to pass calibration parameters to F77 routines |
50 |
*/ |
51 |
struct cTrkCalib { |
52 |
|
53 |
float pedestal[128][24][12]; |
54 |
float pedestal_t[128][24][12]; |
55 |
float sigma[128][24][12]; |
56 |
float sigma_t[128][24][12]; |
57 |
int bad[128][24][12]; |
58 |
|
59 |
void Reset(){ |
60 |
for(int is=0; is<128; is++){ |
61 |
for(int ivk=0; ivk<24; ivk++){ |
62 |
for(int iv=0; iv<12; iv++){ |
63 |
pedestal[is][ivk][iv]=0.; |
64 |
pedestal_t[is][ivk][iv]=0.; |
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sigma[is][ivk][iv]=0.; |
66 |
sigma_t[is][ivk][iv]=0.; |
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bad[is][ivk][iv]=1; |
68 |
} |
69 |
} |
70 |
} |
71 |
} |
72 |
|
73 |
/* void FillACalibFrom(TFile* , Int_t , Int_t ); */ |
74 |
/* void FillFCalibFrom(TFile* , Int_t , Int_t ); */ |
75 |
/* void FillTCalibFrom(TFile* , Int_t , Int_t ); */ |
76 |
/* void FillTCalibFrom(TString); */ |
77 |
|
78 |
}; |
79 |
// ================================================================== |
80 |
/** |
81 |
* \brief Struct to pass tracker LEVEL0 data to F77 routines |
82 |
*/ |
83 |
struct cTrkLevel0 { |
84 |
int DAQmode[12]; |
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int DSPnumber[12]; |
86 |
int DATAlength[12]; |
87 |
int eventn[12]; |
88 |
int nclust[12]; |
89 |
int cutc[12]; |
90 |
int cutcl[12]; |
91 |
int addrcluster[3][12]; |
92 |
int signcluster[3][12]; |
93 |
int fc[12]; |
94 |
int compressiontime[12]; |
95 |
int fl5[12]; |
96 |
int fl4[12]; |
97 |
int fl3[12]; |
98 |
int fl2[12]; |
99 |
int fl1[12]; |
100 |
int fl6[12]; |
101 |
int checksum[12]; |
102 |
int TOTDATAlength; |
103 |
int datatracker[49152]; |
104 |
int pnum[12]; |
105 |
int cmdnum[12]; |
106 |
int bid[12]; |
107 |
int alarm[12]; |
108 |
int aswr[12]; |
109 |
int good0; |
110 |
int crc[12]; |
111 |
}; |
112 |
// ================================================================== |
113 |
/** |
114 |
* \brief Struct to pass tracker LEVEL1 data to F77 routines |
115 |
*/ |
116 |
struct cTrkLevel1 { |
117 |
// int good1; |
118 |
int good[12]; |
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int nclstr1; |
120 |
int view[NCLMAX]; |
121 |
int ladder[NCLMAX]; |
122 |
int maxs[NCLMAX]; |
123 |
int mult[NCLMAX]; |
124 |
float dedx[NCLMAX]; |
125 |
int indstart[NCLMAX]; |
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int indmax[NCLMAX]; |
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int totCLlength; |
128 |
float clsignal[NCLBUFF]; |
129 |
float clsigma[NCLBUFF]; |
130 |
int cladc[NCLBUFF]; |
131 |
int clbad[NCLBUFF]; |
132 |
float cnev[24][12]; |
133 |
int cnnev[24][12]; |
134 |
float cnrmsev[24][12]; |
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int fshower[12]; |
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int whichtrack[NCLMAX]; |
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|
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}; |
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// ================================================================== |
140 |
/** |
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* \brief Struct to pass tracker LEVEL2 data to F77 routines |
142 |
*/ |
143 |
struct cTrkLevel2 { |
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// int good2; |
145 |
// int crc[12]; |
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int good[12]; |
147 |
int vkflag[24][12]; |
148 |
// ---------------------------- |
149 |
int nclsx; |
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int planex[NSINGMAX]; |
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float xs[NSINGMAX][2]; |
152 |
float signlxs[NSINGMAX]; |
153 |
int clsx[NSINGMAX]; |
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int sxbad[NSINGMAX]; |
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int multmaxsx[NSINGMAX]; |
156 |
// ---------------------------- |
157 |
int nclsy; |
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int planey[NSINGMAX]; |
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float ys[NSINGMAX][2]; |
160 |
float signlys[NSINGMAX]; |
161 |
int clsy[NSINGMAX]; |
162 |
int sybad[NSINGMAX]; |
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int multmaxsy[NSINGMAX]; |
164 |
// ---------------------------- |
165 |
int ntrk; |
166 |
int image[NTRKMAX]; |
167 |
float xm_nt[NTRKMAX][6]; |
168 |
float ym_nt[NTRKMAX][6]; |
169 |
float zm_nt[NTRKMAX][6]; |
170 |
float resx_nt[NTRKMAX][6]; |
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float resy_nt[NTRKMAX][6]; |
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float tailx[NTRKMAX][6]; |
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float taily[NTRKMAX][6]; |
174 |
float al_nt[NTRKMAX][5]; |
175 |
float coval[NTRKMAX][5][5]; |
176 |
float chi2_nt[NTRKMAX]; |
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int nstep_nt[NTRKMAX]; |
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int xgood_nt[NTRKMAX][6]; |
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int ygood_nt[NTRKMAX][6]; |
180 |
int ls[NTRKMAX][6]; |
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int xbad[NTRKMAX][6]; |
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int ybad[NTRKMAX][6]; |
183 |
float xv_nt[NTRKMAX][6]; |
184 |
float yv_nt[NTRKMAX][6]; |
185 |
float zv_nt[NTRKMAX][6]; |
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float axv_nt[NTRKMAX][6]; |
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float ayv_nt[NTRKMAX][6]; |
188 |
float dedx_x[NTRKMAX][6]; |
189 |
float dedx_y[NTRKMAX][6]; |
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int cltrx[NTRKMAX][6]; |
191 |
int cltry[NTRKMAX][6]; |
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int multmaxx[NTRKMAX][6]; |
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int multmaxy[NTRKMAX][6]; |
194 |
float seedx[NTRKMAX][6]; |
195 |
float seedy[NTRKMAX][6]; |
196 |
float xpu[NTRKMAX][6]; |
197 |
float ypu[NTRKMAX][6]; |
198 |
// float bdl[NTRKMAX]; |
199 |
|
200 |
void InitcTrkLevel2(){ |
201 |
|
202 |
// good2 = 0; |
203 |
for(Int_t i=0; i<12 ; i++){ |
204 |
good[i] = 0; |
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for(Int_t ii=0; ii<24 ; ii++)vkflag[ii][i]=0; |
206 |
} |
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// ---------------------------- |
208 |
nclsx = 0; |
209 |
nclsy = 0; |
210 |
for(Int_t i=0; i<NSINGMAX ; i++){ |
211 |
planex[i] = 0; |
212 |
xs[i][0] = 0; |
213 |
xs[i][1] = 0; |
214 |
signlxs[i] = 0; |
215 |
clsx[i] = 0; |
216 |
sxbad[i] = 0; |
217 |
planey[i] = 0; |
218 |
ys[i][0] = 0; |
219 |
ys[i][1] = 0; |
220 |
signlys[i] = 0; |
221 |
clsy[i] = 0; |
222 |
sybad[i] = 0; |
223 |
} |
224 |
// ---------------------------- |
225 |
ntrk =0 ; |
226 |
|
227 |
for(Int_t i=0; i<NTRKMAX ; i++){ |
228 |
image[i] = 0; |
229 |
chi2_nt[i] = 0; |
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// bdl[i] = 0; |
231 |
|
232 |
for(Int_t ii=0; ii<5 ; ii++){ |
233 |
al_nt[i][ii] = 0; |
234 |
for(Int_t iii=0; iii<5 ; iii++) |
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coval[i][ii][iii] = 0; |
236 |
} |
237 |
|
238 |
for(Int_t ii=0; ii<6 ; ii++){ |
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xm_nt[i][ii] = 0; |
240 |
ym_nt[i][ii] = 0; |
241 |
zm_nt[i][ii] = 0; |
242 |
resx_nt[i][ii] = 0; |
243 |
resy_nt[i][ii] = 0; |
244 |
xgood_nt[i][ii] = 0; |
245 |
ygood_nt[i][ii] = 0; |
246 |
xv_nt[i][ii] = 0; |
247 |
yv_nt[i][ii] = 0; |
248 |
zv_nt[i][ii] = 0; |
249 |
axv_nt[i][ii] = 0; |
250 |
ayv_nt[i][ii] = 0; |
251 |
dedx_x[i][ii] = 0; |
252 |
dedx_y[i][ii] = 0; |
253 |
multmaxx[i][ii] = 0; |
254 |
multmaxy[i][ii] = 0; |
255 |
seedx[i][ii] = 0; |
256 |
seedy[i][ii] = 0; |
257 |
xpu[i][ii] = 0; |
258 |
ypu[i][ii] = 0; |
259 |
} |
260 |
} |
261 |
} |
262 |
|
263 |
}; |
264 |
// ================================================================== |
265 |
/** |
266 |
* \brief Struct to pass calibration/parameter file paths to F77 routines |
267 |
*/ |
268 |
struct cPath { |
269 |
char path[256]; |
270 |
int pathlen; |
271 |
int error; |
272 |
/** |
273 |
* Fill the struct variables from a TString object |
274 |
*/ |
275 |
void FillWith(TString s){ |
276 |
pathlen = s.Length(); |
277 |
const char *pc = s.Data(); |
278 |
for(Int_t i=0; i<=pathlen; i++) path[i] = *pc++; |
279 |
}; |
280 |
|
281 |
}; |
282 |
|
283 |
// ================================================================== |
284 |
/* /\** */ |
285 |
/* * \brief Struct to pass magnetic-field file paths to F77 routines */ |
286 |
/* *\/ */ |
287 |
/* struct cBPath { */ |
288 |
/* char b_path[256]; */ |
289 |
/* int b_pathlen; */ |
290 |
/* int b_error; */ |
291 |
/* int b_loaded; */ |
292 |
/* /\** */ |
293 |
/* * Fill the struct variables from a TString object and set */ |
294 |
/* * the load flag to FALSE. */ |
295 |
/* *\/ */ |
296 |
/* void FillWith(TString s){ */ |
297 |
/* b_loaded = 0; */ |
298 |
/* b_pathlen = s.Length(); */ |
299 |
/* const char *pc = s.Data(); */ |
300 |
/* for(Int_t i=0; i<=b_pathlen; i++) b_path[i] = *pc++; */ |
301 |
/* }; */ |
302 |
/* /\** */ |
303 |
/* * Fill the struct variables from a TString object */ |
304 |
/* *\/ */ |
305 |
/* int BIsLoaded(){ return b_loaded; }; */ |
306 |
|
307 |
/* }; */ |
308 |
|
309 |
// ================================================================== |
310 |
/** |
311 |
* \brief Struct to set debug mode in F77 routines |
312 |
*/ |
313 |
struct cDbg { |
314 |
int debug; |
315 |
int verbose; |
316 |
int warning; |
317 |
// bool debug; |
318 |
// bool verbose; |
319 |
void SetNone() {debug=0; verbose=0; warning=0;}; |
320 |
void SetWarning(){debug=0; verbose=0; warning=1;}; |
321 |
void SetVerbose(){debug=0; verbose=1; warning=1;}; |
322 |
void SetDebug() {debug=1; verbose=1; warning=1;}; |
323 |
}; |
324 |
|
325 |
|
326 |
// ================================================================== |
327 |
/** |
328 |
* \brief Struct to pass mini2 track parameters to F77 routines |
329 |
*/ |
330 |
struct cMini2track { |
331 |
double al[5]; |
332 |
double xm[NPLANE],ym[NPLANE],zm[NPLANE]; |
333 |
double xm_a[NPLANE],ym_a[NPLANE],zm_a[NPLANE]; |
334 |
double xm_b[NPLANE],ym_b[NPLANE],zm_b[NPLANE]; |
335 |
double resx[NPLANE],resy[NPLANE]; |
336 |
double tailx[NPLANE],taily[NPLANE]; |
337 |
double xgood[NPLANE],ygood[NPLANE]; |
338 |
double dedxtrk_x[NPLANE]; |
339 |
double dedxtrk_y[NPLANE]; |
340 |
double zini; |
341 |
double pfixed; |
342 |
double chi2; |
343 |
double xv[NPLANE],yv[NPLANE],zv[NPLANE]; |
344 |
double axv[NPLANE],ayv[NPLANE]; |
345 |
double cov[5][5]; |
346 |
double fact; |
347 |
int nstep; |
348 |
int idcand; |
349 |
int trackmode; |
350 |
int istepmin; |
351 |
|
352 |
/* cMini2track(){ */ |
353 |
/* // -------------------------- */ |
354 |
/* // fitting routine parameters */ |
355 |
/* // -------------------------- */ |
356 |
/* zini = 23.5; */ |
357 |
/* trackmode = 0; */ |
358 |
/* istepmin = 3; */ |
359 |
/* // -------------------------- */ |
360 |
/* pfixed = 0.; */ |
361 |
/* chi2 = 0; */ |
362 |
/* nstep = 0; */ |
363 |
/* for(int it1=0;it1<5;it1++){ */ |
364 |
/* al[it1] = 0; */ |
365 |
/* for(int it2=0;it2<5;it2++)cov[it1][it2] = 0; */ |
366 |
/* }; */ |
367 |
/* for(int ip=0;ip<6;ip++){ */ |
368 |
/* xgood[ip] = 0; */ |
369 |
/* ygood[ip] = 0; */ |
370 |
/* xm[ip] = 0; */ |
371 |
/* ym[ip] = 0; */ |
372 |
/* xm_a[ip] = 0; */ |
373 |
/* ym_a[ip] = 0; */ |
374 |
/* xm_b[ip] = 0; */ |
375 |
/* ym_b[ip] = 0; */ |
376 |
/* zm[ip] = 0; */ |
377 |
/* resx[ip] = 0; */ |
378 |
/* resy[ip] = 0; */ |
379 |
/* xv[ip] = 0; */ |
380 |
/* yv[ip] = 0; */ |
381 |
/* zv[ip] = 0; */ |
382 |
/* axv[ip] = 0; */ |
383 |
/* ayv[ip] = 0; */ |
384 |
/* dedxtrk_x[ip] = 0; */ |
385 |
/* dedxtrk_y[ip] = 0; */ |
386 |
/* }; */ |
387 |
|
388 |
/* } */ |
389 |
|
390 |
|
391 |
}; |
392 |
|
393 |
// ================================================================== |
394 |
/** |
395 |
* \brief Struct to pass DELTAB parameters to F77 routines |
396 |
*/ |
397 |
struct cDeltaB { |
398 |
double delta0; |
399 |
double delta1; |
400 |
double dlt; |
401 |
}; |
402 |
|
403 |
// |
404 |
/** |
405 |
* \Struct for the hough transform variables |
406 |
*/ |
407 |
|
408 |
struct cTrkHough { |
409 |
|
410 |
int ndblt_nt; |
411 |
float alfayz1_nt[NDBLT_MAX_NT]; |
412 |
float alfayz2_nt[NDBLT_MAX_NT]; |
413 |
int db_cloud_nt[NDBLT_MAX_NT]; |
414 |
int ntrpt_nt; |
415 |
float alfaxz1_nt[NTRPT_MAX_NT]; |
416 |
float alfaxz2_nt[NTRPT_MAX_NT]; |
417 |
float alfaxz3_nt[NTRPT_MAX_NT]; |
418 |
int tr_cloud_nt[NTRPT_MAX_NT]; |
419 |
int nclouds_yz_nt; |
420 |
float alfayz1_av_nt[NCLOYZ_MAX]; |
421 |
float alfayz2_av_nt[NCLOYZ_MAX]; |
422 |
int ptcloud_yz_nt[NCLOYZ_MAX]; |
423 |
int nclouds_xz_nt; |
424 |
float alfaxz1_av_nt[NCLOXZ_MAX]; |
425 |
float alfaxz2_av_nt[NCLOXZ_MAX]; |
426 |
float alfaxz3_av_nt[NCLOXZ_MAX]; |
427 |
int ptcloud_xz_nt[NCLOXZ_MAX]; |
428 |
int nclstr; |
429 |
float totaltime; |
430 |
float houghtime; |
431 |
float fittime; |
432 |
|
433 |
|
434 |
void InitcTrkHough(){ |
435 |
|
436 |
ndblt_nt = 0; |
437 |
ntrpt_nt = 0; |
438 |
nclouds_yz_nt = 0; |
439 |
nclouds_xz_nt = 0; |
440 |
nclstr = 0; |
441 |
totaltime = 0; |
442 |
houghtime = 0; |
443 |
fittime = 0; |
444 |
for(int i=0;i<NDBLT_MAX_NT ;i++){ |
445 |
alfayz1_nt[i] = 0; |
446 |
alfayz2_nt[i] = 0; |
447 |
db_cloud_nt[i] = 0; |
448 |
} |
449 |
for(int i=0;i<NTRPT_MAX_NT ;i++){ |
450 |
alfaxz1_nt[i] = 0; |
451 |
alfaxz2_nt[i] = 0; |
452 |
alfaxz3_nt[i] = 0; |
453 |
tr_cloud_nt[i] = 0; |
454 |
} |
455 |
for(int i=0;i<NCLOYZ_MAX ;i++){ |
456 |
alfayz1_av_nt[i] = 0; |
457 |
alfayz2_av_nt[i] = 0; |
458 |
ptcloud_yz_nt[i] = 0; |
459 |
} |
460 |
for(int i=0;i<NCLOXZ_MAX ;i++){ |
461 |
ptcloud_xz_nt[i] = 0; |
462 |
alfaxz1_av_nt[i] = 0; |
463 |
alfaxz2_av_nt[i] = 0; |
464 |
alfaxz3_av_nt[i] = 0; |
465 |
} |
466 |
} |
467 |
|
468 |
}; |
469 |
|
470 |
/** |
471 |
* \Struct for track candidates after hough transform |
472 |
*/ |
473 |
struct cTrkCandidates { |
474 |
int ntracks; |
475 |
float al[NTRACKSMAX][5]; |
476 |
float xm[NTRACKSMAX][NPLANE]; |
477 |
float ym[NTRACKSMAX][NPLANE]; |
478 |
float zm[NTRACKSMAX][NPLANE]; |
479 |
float resx[NTRACKSMAX][NPLANE]; |
480 |
float resy[NTRACKSMAX][NPLANE]; |
481 |
float xv[NTRACKSMAX][NPLANE]; |
482 |
float yv[NTRACKSMAX][NPLANE]; |
483 |
float zv[NTRACKSMAX][NPLANE]; |
484 |
float axv[NTRACKSMAX][NPLANE]; |
485 |
float ayv[NTRACKSMAX][NPLANE]; |
486 |
float xgood[NTRACKSMAX][NPLANE]; |
487 |
float ygood[NTRACKSMAX][NPLANE]; |
488 |
int cp[NTRACKSMAX][NPLANE]; |
489 |
int cls[NTRACKSMAX][NPLANE]; |
490 |
int sensor[NTRACKSMAX][NPLANE]; |
491 |
int ladder[NTRACKSMAX][NPLANE]; |
492 |
float bx[NTRACKSMAX][NPLANE]; |
493 |
float by[NTRACKSMAX][NPLANE]; |
494 |
float chi2[NTRACKSMAX]; |
495 |
|
496 |
void Init(){ |
497 |
ntracks=0; |
498 |
for(int i=0; i<NTRACKSMAX; i++){ |
499 |
for(int ii=0; ii<5; ii++)al[i][ii]=0; |
500 |
chi2[i]=0; |
501 |
for(int ip=0; ip<NPLANE; ip++){ |
502 |
xm[i][ip]=0; |
503 |
ym[i][ip]=0; |
504 |
zm[i][ip]=0; |
505 |
resx[i][ip]=0; |
506 |
resy[i][ip]=0; |
507 |
xv[i][ip]=0; |
508 |
yv[i][ip]=0; |
509 |
zv[i][ip]=0; |
510 |
axv[i][ip]=0; |
511 |
ayv[i][ip]=0; |
512 |
xgood[i][ip]=0; |
513 |
ygood[i][ip]=0; |
514 |
cp[i][ip]=0; |
515 |
cls[i][ip]=0; |
516 |
sensor[i][ip]=0; |
517 |
ladder[i][ip]=0; |
518 |
bx[i][ip]=0; |
519 |
by[i][ip]=0; |
520 |
} |
521 |
} |
522 |
|
523 |
}; |
524 |
|
525 |
|
526 |
}; |
527 |
|
528 |
/** |
529 |
* \brief Struct to pass VA1-mask to F77 routines |
530 |
*/ |
531 |
struct cTrkMask { |
532 |
|
533 |
int mask_vk[NVK][NVIEW]; |
534 |
int mask_vk_run[NVK][NVIEW]; |
535 |
|
536 |
// void Set(TFile* , Int_t , Int_t ); |
537 |
|
538 |
void Reset(){ |
539 |
for(int ivk=0; ivk<NVK; ivk++){ |
540 |
for(int iv=0; iv<NVIEW; iv++){ |
541 |
// mask_vk[ivk][iv]=0; |
542 |
mask_vk_run[ivk][iv]=0; |
543 |
} |
544 |
} |
545 |
} |
546 |
|
547 |
void Dump(){ |
548 |
} |
549 |
|
550 |
}; |
551 |
|
552 |
/** |
553 |
* \brief Struct for pfa parameters |
554 |
*/ |
555 |
struct cTrkETA { |
556 |
|
557 |
int nangbin; |
558 |
float angL[NANGMAX],angR[NANGMAX]; |
559 |
int netaval; |
560 |
float eta2[NANGMAX][NETAVALMAX]; |
561 |
float feta2[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
562 |
float eta3[NANGMAX][NETAVALMAX]; |
563 |
float feta3[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
564 |
float eta4[NANGMAX][NETAVALMAX]; |
565 |
float feta4[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
566 |
float fcorr[NANGMAX][NLADDER][NVIEW]; |
567 |
float e234ax[6];//F77: e2fax,e2tax,e3fax,e3tax,e4fax,e4tax |
568 |
float e234ay[6];//F77: e2fay,e2tay,e3fay,e3tay,e4fay,e4tay |
569 |
|
570 |
}; |
571 |
/** |
572 |
* \brief Struct to configure data reduction |
573 |
*/ |
574 |
struct cTrkSW{ |
575 |
int pfaid; |
576 |
}; |
577 |
/** |
578 |
* \brief Struct to read alignment parameters |
579 |
*/ |
580 |
struct cTrkAlign { |
581 |
|
582 |
double omega[NSENSOR][NLADDER][NPLANE]; |
583 |
double beta[NSENSOR][NLADDER][NPLANE]; |
584 |
double gamma[NSENSOR][NLADDER][NPLANE]; |
585 |
double dx[NSENSOR][NLADDER][NPLANE]; |
586 |
double dy[NSENSOR][NLADDER][NPLANE]; |
587 |
double dz[NSENSOR][NLADDER][NPLANE]; |
588 |
|
589 |
}; |
590 |
|
591 |
/** |
592 |
* \brief Struct to check reduction procedure: CN evaluation |
593 |
*/ |
594 |
struct cTrkCN { |
595 |
|
596 |
float cn[NVK][NVIEW]; |
597 |
float cnrms[NVK][NVIEW]; |
598 |
int cnn[NVK][NVIEW]; |
599 |
int clstr[NSTRIPVK][NVK][NVIEW]; |
600 |
int strange[NSTRIPVK][NVK][NVIEW]; |
601 |
|
602 |
}; |
603 |
/** |
604 |
* \brief Struct to check reduction procedure: pedestal subtraction |
605 |
*/ |
606 |
struct cTrkEvent { |
607 |
float value[NSTRIP]; |
608 |
}; |
609 |
|
610 |
extern "C" { |
611 |
|
612 |
extern struct cTrkCalib pedsigbad_; |
613 |
extern struct cTrkMask mask_; |
614 |
extern struct cTrkLevel0 level0event_; |
615 |
extern struct cTrkLevel1 level1event_; |
616 |
extern struct cTrkLevel2 level2event_; |
617 |
extern struct cPath path_; |
618 |
extern struct cDbg dbg_; |
619 |
extern struct cTrkHough houghevent_; |
620 |
extern struct cTrkCandidates trackcandidates_; |
621 |
extern struct cMini2track track_; |
622 |
extern struct cTrkETA pfa_; |
623 |
extern struct cTrkSW sw_; |
624 |
extern struct cDeltaB deltab_; |
625 |
extern struct cTrkAlign alignparameters_; |
626 |
extern struct cTrkEvent calibratedsignal_; |
627 |
|
628 |
void fillpedsigfromdefault_(); |
629 |
int readmipparam_(); |
630 |
int readchargeparam_(); |
631 |
int readvkmask_(); |
632 |
int readalignparam_(); |
633 |
int readetaparam_(); |
634 |
void reductionflight_(int*); |
635 |
int analysisflight_(); |
636 |
int readb_(); |
637 |
void gufld_(float*, float*); |
638 |
void xyzpam_(int*,int*,int*,int*,int*,float*,float*,float*,float*); |
639 |
float riseta_(int*,float*); |
640 |
void chisq_(int*, int*); |
641 |
|
642 |
}; |
643 |
|
644 |
|
645 |
#endif |