/[PAMELA software]/PamelaLevel2/src/PamLevel2.cpp
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Contents of /PamelaLevel2/src/PamLevel2.cpp

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Revision 1.95 - (show annotations) (download)
Wed Oct 15 08:51:51 2014 UTC (10 years, 4 months ago) by pam-ts
Branch: MAIN
Changes since 1.94: +1316 -128 lines 
Methods to handle branches and tracks from extended algorythm added.
1 #include <PamLevel2.h>
2
3 /////////////////////////////////////////////////////////////////////////////
4 /////////////////////////////////////////////////////////////////////////////
5 /////////////////////////////////////////////////////////////////////////////
6 /////////////////////////////////////////////////////////////////////////////
7
8 void GPamela::Clear() {
9 Irun = 0;
10 Ievnt = 0;
11 Ipa = 0;
12 X0 = 0.;
13 Y0 = 0.;
14 Z0 = 0.;
15 Theta = 0.;
16 Phi = 0.;
17 P0 = 0.;
18 Nthtof = 0;
19 Nthcat = 0;
20 Nthcas = 0;
21 Nthspe = 0;
22 Nstrpx = 0;
23 Nstrpy = 0;
24 Nthcali = 0;
25 Nthcal = 0;
26 Nthnd = 0;
27 Nthcard = 0;
28 }
29
30 void GPamela::Delete() {
31
32 Clear();
33 /* EM all these are in the stack not in the heap, so no need to delete by hand...
34 delete[] Ipltof;
35 delete[] Ipaddle;
36 delete[] Ipartof;
37 delete[] Xintof;
38 delete[] Yintof;
39 delete[] Zintof;
40 delete[] Xouttof;
41 delete[] Youttof;
42 delete[] Zouttof;
43 delete[] Ereltof;
44 delete[] Timetof;
45 delete[] Pathtof;
46 delete[] P0tof;
47 delete[] Iparcat;
48 delete[] Icat;
49 delete[] Xincat;
50 delete[] Yincat;
51 delete[] Zincat;
52 delete[] Xoutcat;
53 delete[] Youtcat;
54 delete[] Zoutcat;
55 delete[] Erelcat;
56 delete[] Timecat;
57 delete[] Pathcat;
58 delete[] P0cat;
59 delete[] Iparcas;
60 delete[] Icas;
61 delete[] Xincas;
62 delete[] Yincas;
63 delete[] Zincas;
64 delete[] Xoutcas;
65 delete[] Youtcas;
66 delete[] Zoutcas;
67 delete[] Erelcas;
68 delete[] Timecas;
69 delete[] Pathcas;
70 delete[] P0cas;
71 delete[] Iparspe;
72 delete[] Itrpb;
73 delete[] Itrsl;
74 delete[] Itspa;
75 delete[] Xinspe;
76 delete[] Yinspe;
77 delete[] Zinspe;
78 delete[] Xoutspe;
79 delete[] Youtspe;
80 delete[] Zoutspe;
81 delete[] Xavspe;
82 delete[] Yavspe;
83 delete[] Zavspe;
84 delete[] Erelspe;
85 delete[] Pathspe;
86 delete[] P0spe;
87 delete[] Nxmult;
88 delete[] Nymult;
89 delete[] Npstripx;
90 delete[] Ntstripx;
91 delete[] Istripx;
92 delete[] Qstripx;
93 delete[] Xstripx;
94 delete[] Npstripy;
95 delete[] Ntstripy;
96 delete[] Istripy;
97 delete[] Qstripy;
98 delete[] Ystripy;
99 delete[] Icaplane;
100 delete[] Icastrip;
101 delete[] Icamod;
102 delete[] Enestrip;
103 delete[] Icapl;
104 delete[] Icasi;
105 delete[] Icast;
106 delete[] Xincal;
107 delete[] Yincal;
108 delete[] Zincal;
109 delete[] Erelcal;
110 delete[] Itubend;
111 delete[] Iparnd;
112 delete[] Xinnd;
113 delete[] Yinnd;
114 delete[] Zinnd;
115 delete[] Xoutnd;
116 delete[] Youtnd;
117 delete[] Zoutnd;
118 delete[] Erelnd;
119 delete[] Timend;
120 delete[] Pathnd;
121 delete[] P0nd;
122 delete[] Iparcard;
123 delete[] Icard;
124 delete[] Xincard;
125 delete[] Yincard;
126 delete[] Zincard;
127 delete[] Xoutcard;
128 delete[] Youtcard;
129 delete[] Zoutcard;
130 delete[] Erelcard;
131 delete[] Timecard;
132 delete[] Pathcard;
133 delete[] P0card;
134 */
135 }
136
137
138 void GPamela::SetBranchAddress(TChain* fhBookTree) {
139
140 // cout << "fhBookTree "<<fhBookTree << endl;
141 // prepare tree
142 fhBookTree->SetBranchAddress("Irun", &Irun);
143 fhBookTree->SetBranchAddress("Ievnt", &Ievnt);
144 fhBookTree->SetBranchAddress("Ipa", &Ipa);
145 fhBookTree->SetBranchAddress("X0", &X0);
146 fhBookTree->SetBranchAddress("Y0", &Y0);
147 fhBookTree->SetBranchAddress("Z0", &Z0);
148 fhBookTree->SetBranchAddress("Theta", &Theta);
149 fhBookTree->SetBranchAddress("Phi", &Phi);
150 fhBookTree->SetBranchAddress("P0", &P0);
151 fhBookTree->SetBranchAddress("Nthtof", &Nthtof);
152 fhBookTree->SetBranchAddress("Ipltof", Ipltof);
153 fhBookTree->SetBranchAddress("Ipaddle", Ipaddle);
154 fhBookTree->SetBranchAddress("Ipartof", Ipartof);
155 fhBookTree->SetBranchAddress("Xintof", Xintof);
156 fhBookTree->SetBranchAddress("Yintof", Yintof);
157 fhBookTree->SetBranchAddress("Zintof", Zintof);
158 fhBookTree->SetBranchAddress("Xouttof", Xouttof);
159 fhBookTree->SetBranchAddress("Youttof", Youttof);
160 fhBookTree->SetBranchAddress("Zouttof", Zouttof);
161 fhBookTree->SetBranchAddress("Ereltof", Ereltof);
162 fhBookTree->SetBranchAddress("Timetof", Timetof);
163 fhBookTree->SetBranchAddress("Pathtof", Pathtof);
164 fhBookTree->SetBranchAddress("P0tof", P0tof);
165 fhBookTree->SetBranchAddress("Nthcat", &Nthcat);
166 fhBookTree->SetBranchAddress("Iparcat", Iparcat);
167 fhBookTree->SetBranchAddress("Icat", Icat);
168 fhBookTree->SetBranchAddress("Xincat", Xincat);
169 fhBookTree->SetBranchAddress("Yincat", Yincat);
170 fhBookTree->SetBranchAddress("Zincat", Zincat);
171 fhBookTree->SetBranchAddress("Xoutcat", Xoutcat);
172 fhBookTree->SetBranchAddress("Youtcat", Youtcat);
173 fhBookTree->SetBranchAddress("Zoutcat", Zoutcat);
174 fhBookTree->SetBranchAddress("Erelcat", Erelcat);
175 fhBookTree->SetBranchAddress("Timecat", Timecat);
176 fhBookTree->SetBranchAddress("Pathcat", Pathcat);
177 fhBookTree->SetBranchAddress("P0cat", P0cat);
178 fhBookTree->SetBranchAddress("Nthcas", &Nthcas);
179 fhBookTree->SetBranchAddress("Iparcas", Iparcas);
180 fhBookTree->SetBranchAddress("Icas", Icas);
181 fhBookTree->SetBranchAddress("Xincas", Xincas);
182 fhBookTree->SetBranchAddress("Yincas", Yincas);
183 fhBookTree->SetBranchAddress("Zincas", Zincas);
184 fhBookTree->SetBranchAddress("Xoutcas", Xoutcas);
185 fhBookTree->SetBranchAddress("Youtcas", Youtcas);
186 fhBookTree->SetBranchAddress("Zoutcas", Zoutcas);
187 fhBookTree->SetBranchAddress("Erelcas", Erelcas);
188 fhBookTree->SetBranchAddress("Timecas", Timecas);
189 fhBookTree->SetBranchAddress("Pathcas", Pathcas);
190 fhBookTree->SetBranchAddress("P0cas", P0cas);
191 fhBookTree->SetBranchAddress("Nthspe", &Nthspe);
192 fhBookTree->SetBranchAddress("Iparspe", Iparspe);
193 fhBookTree->SetBranchAddress("Itrpb", Itrpb);
194 fhBookTree->SetBranchAddress("Itrsl", Itrsl);
195 fhBookTree->SetBranchAddress("Itspa", Itspa);
196 fhBookTree->SetBranchAddress("Xinspe", Xinspe);
197 fhBookTree->SetBranchAddress("Yinspe", Yinspe);
198 fhBookTree->SetBranchAddress("Zinspe", Zinspe);
199 fhBookTree->SetBranchAddress("Xoutspe", Xoutspe);
200 fhBookTree->SetBranchAddress("Youtspe", Youtspe);
201 fhBookTree->SetBranchAddress("Zoutspe", Zoutspe);
202 fhBookTree->SetBranchAddress("Xavspe", Xavspe);
203 fhBookTree->SetBranchAddress("Yavspe", Yavspe);
204 fhBookTree->SetBranchAddress("Zavspe", Zavspe);
205 fhBookTree->SetBranchAddress("Erelspe", Erelspe);
206 fhBookTree->SetBranchAddress("Pathspe", Pathspe);
207 fhBookTree->SetBranchAddress("P0spe", P0spe);
208 fhBookTree->SetBranchAddress("Nxmult", Nxmult);
209 fhBookTree->SetBranchAddress("Nymult", Nymult);
210 fhBookTree->SetBranchAddress("Nstrpx", &Nstrpx);
211 fhBookTree->SetBranchAddress("Npstripx", Npstripx);
212 fhBookTree->SetBranchAddress("Ntstripx", Ntstripx);
213 fhBookTree->SetBranchAddress("Istripx", Istripx);
214 fhBookTree->SetBranchAddress("Qstripx", Qstripx);
215 fhBookTree->SetBranchAddress("Xstripx", Xstripx);
216 fhBookTree->SetBranchAddress("Nstrpy", &Nstrpy);
217 fhBookTree->SetBranchAddress("Npstripy", Npstripy);
218 fhBookTree->SetBranchAddress("Ntstripy", Ntstripy);
219 fhBookTree->SetBranchAddress("Istripy", Istripy);
220 fhBookTree->SetBranchAddress("Qstripy", Qstripy);
221 fhBookTree->SetBranchAddress("Ystripy", Ystripy);
222 fhBookTree->SetBranchAddress("Nthcali", &Nthcali);
223 fhBookTree->SetBranchAddress("Icaplane", Icaplane);
224 fhBookTree->SetBranchAddress("Icastrip", Icastrip);
225 fhBookTree->SetBranchAddress("Icamod", Icamod);
226 fhBookTree->SetBranchAddress("Enestrip", Enestrip);
227 fhBookTree->SetBranchAddress("Nthcal", &Nthcal);
228 fhBookTree->SetBranchAddress("Icapl", Icapl);
229 fhBookTree->SetBranchAddress("Icasi", Icasi);
230 fhBookTree->SetBranchAddress("Icast", Icast);
231 fhBookTree->SetBranchAddress("Xincal", Xincal);
232 fhBookTree->SetBranchAddress("Yincal", Yincal);
233 fhBookTree->SetBranchAddress("Zincal", Zincal);
234 fhBookTree->SetBranchAddress("Erelcal", Erelcal);
235 fhBookTree->SetBranchAddress("Nthnd", &Nthnd);
236 fhBookTree->SetBranchAddress("Itubend", Itubend);
237 fhBookTree->SetBranchAddress("Iparnd", Iparnd);
238 fhBookTree->SetBranchAddress("Xinnd", Xinnd);
239 fhBookTree->SetBranchAddress("Yinnd", Yinnd);
240 fhBookTree->SetBranchAddress("Zinnd", Zinnd);
241 fhBookTree->SetBranchAddress("Xoutnd", Xoutnd);
242 fhBookTree->SetBranchAddress("Youtnd", Youtnd);
243 fhBookTree->SetBranchAddress("Zoutnd", Zoutnd);
244 fhBookTree->SetBranchAddress("Erelnd", Erelnd);
245 fhBookTree->SetBranchAddress("Timend", Timend);
246 fhBookTree->SetBranchAddress("Pathnd", Pathnd);
247 fhBookTree->SetBranchAddress("P0nd", P0nd);
248 fhBookTree->SetBranchAddress("Nthcard", &Nthcard);
249 fhBookTree->SetBranchAddress("Iparcard", Iparcard);
250 fhBookTree->SetBranchAddress("Icard", Icard);
251 fhBookTree->SetBranchAddress("Xincard", Xincard);
252 fhBookTree->SetBranchAddress("Yincard", Yincard);
253 fhBookTree->SetBranchAddress("Zincard", Zincard);
254 fhBookTree->SetBranchAddress("Xoutcard", Xoutcard);
255 fhBookTree->SetBranchAddress("Youtcard", Youtcard);
256 fhBookTree->SetBranchAddress("Zoutcard", Zoutcard);
257 fhBookTree->SetBranchAddress("Erelcard", Erelcard);
258 fhBookTree->SetBranchAddress("Timecard", Timecard);
259 fhBookTree->SetBranchAddress("Pathcard", Pathcard);
260 fhBookTree->SetBranchAddress("P0card", P0card);
261
262 // fhBookTree->SetBranchStatus("*",0);
263
264 }
265
266 ClassImp( GPamela);
267
268 /////////////////////////////////////////////////////////////////////////////
269 /////////////////////////////////////////////////////////////////////////////
270 /////////////////////////////////////////////////////////////////////////////
271 /////////////////////////////////////////////////////////////////////////////
272 //--------------------------------------
273 //
274 //
275 //--------------------------------------
276 /**
277 * Default constructor
278 */
279 PamTrack::PamTrack() {
280 trk_track = 0;
281 trk_ext_track = 0;
282 calo_track = 0;
283 tof_track = 0;
284 orb_track = 0;
285 candeleteobj = 0;
286 pscore = 0;
287 iscore = 0;
288 }
289 ;
290 //--------------------------------------
291 //
292 //
293 //--------------------------------------
294 /**
295 * Constructor
296 */
297 PamTrack::PamTrack(TrkTrack* t, CaloTrkVar* c, ToFTrkVar* o, OrbitalInfoTrkVar *r) {
298
299 trk_ext_track = 0;
300 trk_track = 0;
301 calo_track = 0;
302 tof_track = 0;
303 orb_track = 0;
304 // if(t)trk_track = new TrkTrack(*t);
305 // if(c)calo_track = new CaloTrkVar(*c);
306 // if(o)tof_track = new ToFTrkVar(*o);
307 // if (t)
308 // trk_track = t;
309 // if (c)
310 // calo_track = c;
311 // if (o)
312 // tof_track = o;
313 // if (r)
314 // orb_track = r;
315
316 // candeleteobj = 0;
317
318
319 if (t){
320 trk_track = new TrkTrack(*t);
321 trk_ext_track = new ExtTrack(*t);//NB!! ha dimensione 6 invece che 8
322 }
323 if (c)
324 calo_track = new CaloTrkVar(*c);
325 if (o)
326 tof_track = new ToFTrkVar(*o);
327 if (r)
328 orb_track = new OrbitalInfoTrkVar(*r);
329 candeleteobj = 1;
330
331 }
332 ;
333 /**
334 * Constructor
335 */
336 PamTrack::PamTrack(ExtTrack* t, CaloTrkVar* c, ToFTrkVar* o, OrbitalInfoTrkVar *r) {
337
338 trk_ext_track = 0;
339 trk_track = 0;
340 calo_track = 0;
341 tof_track = 0;
342 orb_track = 0;
343 // if(t)trk_track = new TrkTrack(*t);
344 // if(c)calo_track = new CaloTrkVar(*c);
345 // if(o)tof_track = new ToFTrkVar(*o);
346 // if (t)
347 // trk_track = t;
348 // if (c)
349 // calo_track = c;
350 // if (o)
351 // tof_track = o;
352 // if (r)
353 // orb_track = r;
354
355 // candeleteobj = 0;
356
357
358 if (t){
359 //// trk_track = new TrkTrack(*t);//in this case TrkTrack object remains null
360 trk_ext_track = new ExtTrack(*t);
361 }
362 if (c)
363 calo_track = new CaloTrkVar(*c);
364 if (o)
365 tof_track = new ToFTrkVar(*o);
366 if (r)
367 orb_track = new OrbitalInfoTrkVar(*r);
368 candeleteobj = 1;
369 pscore = 0;
370 iscore = 0;
371
372 }
373 ;
374 PamTrack::PamTrack(const PamTrack& track) {
375
376 TrkTrack *t = track.trk_track;
377 CaloTrkVar *c = track.calo_track;
378 ToFTrkVar *o = track.tof_track;
379 OrbitalInfoTrkVar *r = track.orb_track;
380
381 trk_track = 0;
382 calo_track = 0;
383 tof_track = 0;
384 orb_track = 0;
385 if (t)
386 trk_track = new TrkTrack(*t);
387 if (c)
388 calo_track = new CaloTrkVar(*c);
389 if (o)
390 tof_track = new ToFTrkVar(*o);
391 if (r)
392 orb_track = new OrbitalInfoTrkVar(*r);
393 candeleteobj = 1;
394 pscore = 0;
395 iscore = 0;
396
397 }
398 void PamTrack::Clear() {
399
400 // cout << "PamTrack::Clear() "<<candeleteobj<<endl;
401 if (candeleteobj) {
402
403 if (trk_ext_track)
404 trk_ext_track->ExtTrack::Clear();
405 if (trk_track)
406 trk_track->TrkTrack::Clear();
407 if (calo_track)
408 calo_track->CaloTrkVar::Clear();//???
409 if (tof_track)
410 tof_track->ToFTrkVar::Clear();//???
411 if (orb_track)
412 orb_track->OrbitalInfoTrkVar::Clear();//???
413 }
414 else {
415 trk_ext_track = 0;
416 trk_track = 0;
417 calo_track = 0;
418 tof_track = 0;
419 orb_track = 0;
420 }
421 pscore = 0;
422 iscore = 0;
423
424 }
425 void PamTrack::Delete() {
426 // cout << "PamTrack::Delete() "<<candeleteobj<<endl;
427 if (candeleteobj) {
428 if (trk_ext_track) {
429 trk_ext_track->ExtTrack::Clear();
430 delete trk_ext_track;
431 }
432 if (trk_track) {
433 trk_track->TrkTrack::Clear();
434 delete trk_track;
435 }
436 if (calo_track) {
437 calo_track->CaloTrkVar::Clear();//???
438 delete calo_track;
439 }
440 if (tof_track) {
441 tof_track->ToFTrkVar::Clear();//???
442 delete tof_track;
443 }
444 if (orb_track) {
445 orb_track->OrbitalInfoTrkVar::Clear();//???
446 delete orb_track;
447 }
448 }
449 else {
450 Clear();
451 }
452 }
453
454
455
456
457 //--------------------------------------
458 //
459 //
460 //--------------------------------------
461 /**
462 * Default Constructor
463 */
464 PamLevel2::PamLevel2() {
465 Initialize();
466 }
467
468
469 /**
470 * Constructor
471 * @param ddir Name of directory where level2 files are stored.
472 * @param list Name of an ascii file containing the list of file names
473 * @param detlist Options to chose what to load.
474 * Possible options are:
475 * +AUTO --> load all trees/branches in the input files
476 * +(-)ALL --> inlcude(exclude) all trees/branches
477 * +(-)TRK1+(-)TRK2+(-)CAL1+(-)CAL2+(-)TOF+(-)TRG+(-)ND+(-)S4+(-)ORB+(-)AC --> inlcude(exclude) trees and branches
478 * +(-)TRK0 --> include(exclude) tracker level0 tree
479 * +(-)GP --> include exclude GPAMELA output tree
480 * If no options are specified, the default is assumed. Default is:
481 * +TRK2+CAL2+CAL1+TOF+TRG+ND+AC+S4+ORB
482 */
483 PamLevel2::PamLevel2(TString ddir, TString llist, TString detlist) {
484 Initialize();
485 TList* listf = GetListOfLevel2Files(ddir, llist);
486 if (listf)
487 GetPamTree(listf, detlist);
488 if (listf)
489 GetRunTree(listf);
490 SetMaxShift(-1);
491 }
492
493
494 PamLevel2::PamLevel2(TString ddir, TList *llist, TString detlist) {
495 Initialize();
496 GetPamTree(llist, detlist);
497 GetRunTree(llist);
498 SetMaxShift(-1);
499 }
500
501 /**
502 * Constructor
503 * @param ddir Name of directory where level2 files are stored.
504 * @param list Name of an ascii file containing the list of file names
505 * Default trees/branches are loaded. Default is:
506 * +TRK2+CAL2+CAL1+TOF+TRG+ND+AC+S4+ORB
507 */
508 PamLevel2::PamLevel2(TString ddir, TString llist) {
509 Initialize();
510 TList* listf = GetListOfLevel2Files(ddir, llist);
511 cout << "GetPamTree: "<<endl;
512 GetPamTree(listf, "");
513 cout << "GetRunTree: "<<endl;
514 GetRunTree(listf);
515 SetMaxShift(-1);
516 }
517
518
519 void PamLevel2::Initialize() {
520
521 h0_obj = 0;
522 trk0_obj = 0;
523 calo0_obj = 0;
524
525 trk2_obj = 0;
526 trk1_obj = 0;
527 trkh_obj = 0;
528 calo1_obj = 0;
529 calo2_obj = 0;
530 tof2_obj = 0;
531 trig_obj = 0;
532 s4_obj = 0;
533 nd_obj = 0;
534 ac_obj = 0;
535 orb2_obj = 0;
536 gp_obj = 0;
537
538 extAlgFlag=0;
539
540 trk_ext_obj = 0;
541 trk_ext_nuc_obj = 0;
542 trk_nuc_obj = 0;
543
544 calo_ext_obj = 0;
545 calo_ext_nuc_obj = 0;
546 calo_nuc_obj = 0;
547
548 tof_ext_obj = 0;
549 tof_ext_nuc_obj = 0;
550 tof_nuc_obj = 0;
551
552 orb_ext_obj = 0;
553 orb_ext_nuc_obj = 0;
554 orb_nuc_obj = 0;
555
556 trk2_nuc_obj = 0;
557 calo2_nuc_obj = 0;
558 tof2_nuc_obj = 0;
559 orb2_nuc_obj = 0;
560
561
562 run_obj = 0;//new GL_RUN();
563 soft_obj = 0;// Emiliano
564 irun = -1LL;
565 irunt = -1LL;
566 totrunentry = 0LL;
567 totrunentrymax = 0LL;
568 totrunentrymin = 0LL;
569 runfirstentry = 0LL;
570 runlastentry = 0LL;
571 gltsync = 0; // Emiliano
572 fUpdateRunInfo = true; // Emiliano
573 fUseDBinRunInfo = true; // Emiliano
574 isSync = false; // by default assume that the level2 file(s) is(are) not sinchronized between L0/DB and L2, that is we miss some packets in L2 due to nested/DV-skipped events
575 il0entry = 0LL;
576 // hasL0EE = true;
577
578 l0_file = NULL;
579 l0_tree = NULL;
580 iroot = -1;
581 dbc = 0;
582
583 prevshift = 0;
584 yprevshift = 0;
585 maxshift = 10; //EMILIANO now overridden by SetMaxShift(-1) called by constructors
586
587 run_tree = NULL;
588 run_tree_clone = NULL;
589 sel_tree = NULL;
590 sel_tree_clone = NULL;
591
592 irunentry = -1LL;
593 pam_tree = NULL;
594 for (Int_t i = 0; i < NCLONES; i++)
595 pam_tree_clone[i] = NULL;
596
597 totdltime[0] = 0LL;
598 totdltime[1] = 0LL;
599 totdltime[2] = 0LL;
600
601 host = "mysql://localhost/pamelaprod";
602 user = "anonymous";
603 psw = "";
604 const char *pamdbhost = gSystem->Getenv("PAM_DBHOST");
605 const char *pamdbuser = gSystem->Getenv("PAM_DBUSER");
606 const char *pamdbpsw = gSystem->Getenv("PAM_DBPSW");
607 if (!pamdbhost)
608 pamdbhost = "";
609 if (!pamdbuser)
610 pamdbuser = "";
611 if (!pamdbpsw)
612 pamdbpsw = "";
613 if (strcmp(pamdbhost, ""))
614 host = pamdbhost;
615 if (strcmp(pamdbuser, ""))
616 user = pamdbuser;
617 if (strcmp(pamdbpsw, ""))
618 psw = pamdbpsw;
619
620 // sorted_tracks = 0;//new TRefArray();
621
622 CAL0 = false;
623 CAL1 = true;
624 CAL2 = true;
625 TRK2 = true;
626 TRK1 = false;
627 TRK0 = false;
628 TRKh = false;
629 TRG = true;
630 TOF = true;
631 TOF0 = false;
632 S4 = true;
633 ND = true;
634 AC = true;
635 ORB = true;
636 GP = false;
637
638 EXT = false;
639 NUC = false;
640 trkAlg = "";//default tracking algorythm
641
642 RUN = true;
643
644 SELLI = -1;
645
646 ISGP = false;
647
648 DBG = false;
649
650 tsorted = 0;
651 timage = 0;
652 text = 0 ;
653
654 tsorted_nuc = 0;
655 timage_nuc = 0;
656 text_nuc = 0 ;
657
658 howtosort = "+CAL+TOF";
659 //howtosort = "+TOF";
660 sortthr = 100.;
661
662 issorted = false;
663 lastsorted = -1;
664 issorted_new = false;
665 lastsorted_new = -1;
666
667 }
668 ;
669 /**
670 * Delete the event (act as Dtor)
671 */
672 void PamLevel2::Delete() {
673
674 if (run_obj)
675 delete run_obj;
676 if (soft_obj)
677 delete soft_obj; //Emiliano
678
679 // cout << "void PamLevel2::Clear()"<<endl;
680 if (h0_obj)
681 delete h0_obj;
682 if (trk0_obj)
683 delete trk0_obj;
684 if (calo0_obj)
685 delete calo0_obj;
686 if (trk1_obj)
687 delete trk1_obj;
688 if (trk2_obj)
689 delete trk2_obj;
690 if (trkh_obj)
691 delete trkh_obj;
692 if (calo1_obj)
693 delete calo1_obj;
694 if (calo2_obj)
695 delete calo2_obj;
696 if (tof2_obj)
697 delete tof2_obj;
698 if (trig_obj)
699 delete trig_obj;
700 if (s4_obj)
701 delete s4_obj;
702 if (nd_obj)
703 delete nd_obj;
704 if (ac_obj)
705 delete ac_obj;
706 if (orb2_obj)
707 delete orb2_obj;
708 if (gp_obj)
709 delete gp_obj;
710
711 if(trk_nuc_obj)trk_nuc_obj->Delete();
712 if(trk_ext_obj)trk_ext_obj->Delete();
713 if(trk_ext_nuc_obj)trk_ext_nuc_obj->Delete();
714
715 if(calo_nuc_obj)calo_nuc_obj->Delete();
716 if(calo_ext_obj)calo_ext_obj->Delete();
717 if(calo_ext_nuc_obj)calo_ext_nuc_obj->Delete();
718
719 if(tof_nuc_obj)tof_nuc_obj->Delete();
720 if(tof_ext_obj)tof_ext_obj->Delete();
721 if(tof_ext_nuc_obj)tof_ext_nuc_obj->Delete();
722
723 if(orb_nuc_obj)orb_nuc_obj->Delete();
724 if(orb_ext_obj)orb_ext_obj->Delete();
725 if(orb_ext_nuc_obj)orb_ext_nuc_obj->Delete();
726
727
728 if(trk2_nuc_obj)trk2_nuc_obj->Delete();;
729 if( calo2_nuc_obj)calo2_nuc_obj->Delete();;
730 if(tof2_nuc_obj)tof2_nuc_obj->Delete();;
731 if(orb2_nuc_obj)orb2_nuc_obj->Delete();;
732
733
734
735 if (tsorted) {
736 tsorted->Delete();
737 delete tsorted;
738 }
739 if (timage) {
740 timage->Delete();
741 delete timage;
742 }
743 if (text) {
744 text->Delete();
745 delete text;
746 }
747 if (tsorted_nuc) {
748 tsorted_nuc->Delete();
749 delete tsorted_nuc;
750 }
751 if (timage_nuc) {
752 timage_nuc->Delete();
753 delete timage_nuc;
754 }
755 if (text_nuc) {
756 text_nuc->Delete();
757 delete text_nuc;
758 }
759
760
761
762 if (dbc) {
763 dbc->Close();
764 delete dbc;
765 dbc=0;
766 }
767
768 if (gltsync)
769 delete gltsync;
770
771 if (l0_file)
772 l0_file->Close();
773 // if(pam_tree)pam_tree->Delete();;
774
775 if (pam_tree) {
776 //
777 // we have first to find which chains we have to delete, then delete the main chain and only after delete the friend chains. Any other order causes a segfault...
778 //
779 TList *temp = pam_tree->GetListOfFriends();
780 TList *contents = new TList; // create chain friend list
781 contents->SetOwner();
782 TIter next(temp);
783 TChain *questo = 0;
784 while ((questo = (TChain*) next())) {
785 TString name = questo->GetName();
786 contents->Add((TChain*) gROOT->FindObject(name.Data()));// add object to the list
787 };
788 //
789 // deleting the main chain
790 //
791 pam_tree->Delete();
792 //
793 // deleting the friends...
794 //
795 TIter next2(contents);
796 TChain *questa = 0;
797 while ( (questa = (TChain*)next2()) ) {
798 TString name = questa->GetName();
799 questa->Delete();
800 questa = NULL;
801 };
802 //
803 };
804 pam_tree = NULL;
805
806 if (run_tree)
807 run_tree->Delete();;
808 if (sel_tree)
809 sel_tree->Delete();;
810
811 // The following lines are commented out since they may generate a double delete error
812 // if the file containing the clone trees is closed. This is because the file owns the
813 // clone trees which are written into it, so it will delete them when it is closed; if
814 // also PamLevel2 will try to delete these trees, a double delete error will be generated
815 // when exiting from analysis program. (Nicola 28/11/2011)
816
817 /*for (Int_t i = 0; i < NCLONES; i++)
818 if (pam_tree_clone[i])
819 pam_tree_clone[i]->Delete();;
820 if (run_tree_clone)
821 run_tree_clone->Delete();;
822 if (sel_tree_clone)
823 sel_tree_clone->Delete();;*/
824
825 if (irunoffset)
826 delete[] irunoffset;
827
828
829 Initialize();
830
831 }
832 ;
833
834 /**
835 * Clear the event (NB! does not deallocate objects)
836 */
837 void PamLevel2::Clear() {
838
839 // cout << "void PamLevel2::Clear()"<<endl;
840
841 //
842 // This method is called once for every entry but RunInfo and SoftInfo do not change until the next run so we cannot clear them here unless we don't
843 // want to load them for each event even if they are the same...
844 //
845 // if(run_obj)delete run_obj;
846 // if(run_obj) run_obj->Clear(); // Emiliano: Do not deallocate run_obj here, it will give segmentation fault! call clear instead
847 // if(soft_obj) soft_obj->Clear();
848
849 if (h0_obj)
850 h0_obj->Clear();
851 // if(trk0_obj) trk0_obj->Clear();
852 if (trk1_obj)
853 trk1_obj->Clear();
854 if (trk2_obj)
855 trk2_obj->Clear();
856 if (trkh_obj)
857 trkh_obj->Clear();
858 if (calo0_obj)
859 calo0_obj->Clear();
860 if (calo1_obj)
861 calo1_obj->Clear();
862 if (calo2_obj)
863 calo2_obj->Clear();
864 if (tof2_obj)
865 tof2_obj->Clear();
866 if (trig_obj)
867 trig_obj->Clear();
868 if (s4_obj)
869 s4_obj->Clear();
870 if (nd_obj)
871 nd_obj->Clear();
872 if (ac_obj)
873 ac_obj->Clear();
874 if (orb2_obj)
875 orb2_obj->Clear();
876 if (gp_obj)
877 gp_obj->Clear();
878
879 // if(sorted_tracks)sorted_tracks->Clear();
880 // sorted_tracks.Clear();
881
882 if(trk_nuc_obj)trk_nuc_obj->Clear();
883 if(trk_ext_obj)trk_ext_obj->Clear();
884 if(trk_ext_nuc_obj)trk_ext_nuc_obj->Clear();
885
886 if(calo_nuc_obj)calo_nuc_obj->Clear();
887 if(calo_ext_obj)calo_ext_obj->Clear();
888 if(calo_ext_nuc_obj)calo_ext_nuc_obj->Clear();
889
890 if(tof_nuc_obj)tof_nuc_obj->Clear();
891 if(tof_ext_obj)tof_ext_obj->Clear();
892 if(tof_ext_nuc_obj)tof_ext_nuc_obj->Clear();
893
894 if(orb_nuc_obj)orb_nuc_obj->Clear();
895 if(orb_ext_obj)orb_ext_obj->Clear();
896 if(orb_ext_nuc_obj)orb_ext_nuc_obj->Clear();
897
898 if(trk2_nuc_obj)trk2_nuc_obj->Clear();;
899 if( calo2_nuc_obj)calo2_nuc_obj->Clear();;
900 if(tof2_nuc_obj)tof2_nuc_obj->Clear();;
901 if(orb2_nuc_obj)orb2_nuc_obj->Clear();;
902
903 if (tsorted)tsorted->Delete();
904 if (timage)timage->Delete();
905 if (text) text->Delete();
906
907 if (tsorted_nuc)tsorted_nuc->Delete();
908 if (timage_nuc)timage_nuc->Delete();
909 if (text_nuc) text_nuc->Delete();
910 }
911 ;
912
913 void PamLevel2::Reset() {
914 //
915 // First of all clear everything
916 //
917 Clear();
918 //
919 // close and reset chains and pointers
920 //
921 if (pam_tree) {
922 //
923 // we have first to find which chains we have to delete, then delete the main chain and only after delete the friend chains. Any other order causes a segfault...
924 //
925 TList *temp = pam_tree->GetListOfFriends();
926 TList *contents = new TList; // create chain friend list
927 contents->SetOwner();
928 TIter next(temp);
929 TChain *questo = 0;
930 while ((questo = (TChain*) next())) {
931 TString name = questo->GetName();
932 contents->Add((TChain*) gROOT->FindObject(name.Data()));// add object to the list
933 };
934 //
935 // deleting the main chain
936 //
937 pam_tree->Delete();
938 //
939 // deleting the friends...
940 //
941 TIter next2(contents);
942 TChain *questa = 0;
943 while ( (questa = (TChain*) next2()) ) {
944 TString name = questa->GetName();
945 questa->Delete();
946 questa = NULL;
947 };
948 //
949 };
950 pam_tree = NULL;
951 //
952 if (run_tree)
953 run_tree->Delete();;
954 run_tree = NULL;
955 if (sel_tree)
956 sel_tree->Delete();;
957 sel_tree = NULL;
958 //
959 // Close file
960 //
961 if (l0_file)
962 l0_file->Close("R");
963 l0_file = NULL;
964 //
965 h0_obj = 0;
966 trk0_obj = 0;
967 calo0_obj = 0;
968 //
969 trk2_obj = 0;
970 trk1_obj = 0;
971 trkh_obj = 0;
972 calo1_obj = 0;
973 calo2_obj = 0;
974 tof2_obj = 0;
975 trig_obj = 0;
976 s4_obj = 0;
977 nd_obj = 0;
978 ac_obj = 0;
979 orb2_obj = 0;
980 gp_obj = 0;
981
982 trk_ext_obj = 0;
983 trk_ext_nuc_obj = 0;
984 trk_nuc_obj = 0;
985
986 calo_ext_obj = 0;
987 calo_ext_nuc_obj = 0;
988 calo_nuc_obj = 0;
989
990 tof_ext_obj = 0;
991 tof_ext_nuc_obj = 0;
992 tof_nuc_obj = 0;
993
994 orb_ext_obj = 0;
995 orb_ext_nuc_obj = 0;
996 orb_nuc_obj = 0;
997
998 trk2_nuc_obj = 0;
999 calo2_nuc_obj = 0;
1000 tof2_nuc_obj = 0;
1001 orb2_nuc_obj = 0;
1002
1003 trk2_nuc_obj = 0;
1004 calo2_nuc_obj = 0;
1005 tof2_nuc_obj = 0;
1006 orb2_nuc_obj = 0;
1007 //
1008 // Reset run pointers
1009 //
1010 run_obj = 0;//new GL_RUN();
1011 soft_obj = 0;// Emiliano
1012 irun = -1;
1013 irunt = -1;
1014 totrunentry = 0LL;
1015 totrunentrymax = 0LL;
1016 totrunentrymin = 0LL;
1017 runfirstentry = 0ULL;
1018 runlastentry = 0ULL;
1019 prevabstime = 0ULL;
1020 prevpktnum = 0;
1021 abstime = 0ULL;
1022 pktnum = 0;
1023 isFragment = false;
1024 //
1025 totdltime[0] = 0LL;
1026 totdltime[1] = 0LL;
1027 totdltime[2] = 0LL;
1028 //
1029 }
1030 ;
1031
1032 Bool_t PamLevel2::IsGood(Bool_t strict) {
1033 Bool_t goodev = true;
1034 //
1035 if (calo2_obj && !calo2_obj->IsGood(strict))
1036 goodev = false;
1037 //
1038 if (strict) {
1039 if (trk2_obj && trk2_obj->UnpackError() != 0)
1040 goodev = false;
1041 if (tof2_obj && tof2_obj->unpackError != 0)
1042 goodev = false;
1043 if (trig_obj && trig_obj->unpackError != 0)
1044 goodev = false;
1045 if (s4_obj && s4_obj->unpackError != 0)
1046 goodev = false;
1047 if (nd_obj && nd_obj->unpackError != 0)
1048 goodev = false;
1049 if (ac_obj && (ac_obj->unpackError != 0 || ((ac_obj->status[0] >> 2) & 1) || ((ac_obj->status[1] >> 2) & 1)))
1050 goodev = false;
1051 // if(orb2_obj)
1052 }
1053 else {
1054 if (nd_obj && nd_obj->unpackError != 0)
1055 goodev = false;
1056 if (ac_obj && (ac_obj->unpackError != 0 || ((ac_obj->status[0] >> 2) & 1) || ((ac_obj->status[1] >> 2) & 1)))
1057 goodev = false;
1058 };
1059 return (goodev);
1060 }
1061 ;
1062
1063 void PamLevel2::SkipRunInfoUpdate(){
1064 printf("\n\n ******** WARNING ******** \n Skip DB connections, DO NOT USE PamLevel2::GetRunInfo() method! \n\n");
1065 fUpdateRunInfo = false;
1066 this->SetSELLI(2);
1067 printf(" ===============> W A R N I N G <================ \n");
1068 printf(" in case PamLevel2::CreateCloneTrees() will be called \n");
1069 printf(" it will be reverted to PadmeAmidala level2 structure , i.e. NO SELECTIONLIST WILL BE CREATED IN THE NEW LEVEL2 FILE! \n\n");
1070 if ( run_tree_clone ){
1071 printf(" ===============> W A R N I N G <================ \n");
1072 printf(" PamLevel2::SkipRunIndoUpdate or PamLevel2::NoDBconnections() has been called together with PamLevel2::CreateCloneTrees() \n");
1073 printf(" TO AVOID CRASHES call PamLevel2::CreateCloneTrees() after PamLevel2::SkipRunIndoUpdate or PamLevel2::NoDBconnections() \n");
1074 };
1075 }
1076
1077 void PamLevel2::SetMaxShift(Int_t sh){
1078 if ( sh >= 0 ){
1079 printf("PamLevel2::SetMaxShift(Int_t) --WARNING-- the default is optimized by checking the level2 file\n it is strongly suggested to let PamLevel2 choose the max shift!\n");
1080 maxshift = sh;
1081 } else {
1082 ULong64_t nev = GetEntries();
1083 ULong64_t runnev = 0ULL;
1084 for (Int_t r=0; r< run_tree->GetEntries();r++){
1085 run_tree->GetEntry(r);//update runinfo
1086 runnev += GetRunInfo()->NEVENTS;
1087 }
1088 maxshift = (Int_t)(runnev-nev) + 10; // +10 just to be conservative
1089 if ( (runnev-nev) == 0 ) isSync = true;
1090 if (DBG) printf("PamLevel2::SetMaxShift(Int_t_) - sh negative %i - nev is %lld runnnev is %lld so maxshift set to %i \n",sh,nev,runnev,maxshift);
1091 // printf("PamLevel2::SetMaxShift(Int_t_) - sh negative %i - nev is %lld runnnev is %lld so maxshift set to %i \n",sh,nev,runnev,maxshift); // TOGLITOGLI
1092 }
1093 }
1094
1095 //--------------------------------------
1096 //
1097 //
1098 //--------------------------------------
1099 void *PamLevel2::GetPointerTo(const char* c) {
1100
1101 TString objname = c;
1102
1103 if (!objname.CompareTo("TrkLevel1")) {
1104 if (!trk1_obj) {
1105 trk1_obj = new TrkLevel1();
1106 trk1_obj->Set();
1107 }
1108 return &trk1_obj;
1109 };
1110 if (!objname.CompareTo("TrkLevel2")) {
1111 if (!trk2_obj) {
1112 trk2_obj = new TrkLevel2();
1113 trk2_obj->Set();
1114 }
1115 return &trk2_obj;
1116 };
1117 if (!objname.CompareTo("TrkHough")) {
1118 if (!trkh_obj) {
1119 trkh_obj = new TrkHough();
1120 trkh_obj->Set();
1121 }
1122 return &trkh_obj;
1123 };
1124 if (!objname.CompareTo("CaloLevel1")) {
1125 if (!calo1_obj)
1126 calo1_obj = new CaloLevel1();
1127 return &calo1_obj;
1128 };
1129 if (!objname.CompareTo("CaloLevel2")) {
1130 if (!calo2_obj) {
1131 calo2_obj = new CaloLevel2();
1132 calo2_obj->Set();
1133 };
1134 return &calo2_obj;
1135 };
1136 if (!objname.CompareTo("ToFLevel2")) {
1137 if (!tof2_obj) {
1138 tof2_obj = new ToFLevel2();
1139 tof2_obj->Set();
1140 }
1141 return &tof2_obj;
1142 };
1143 if (!objname.CompareTo("TrigLevel2")) {
1144 if (!trig_obj)
1145 trig_obj = new TrigLevel2();
1146 return &trig_obj;
1147 };
1148 if (!objname.CompareTo("S4Level2")) {
1149 if (!s4_obj)
1150 s4_obj = new S4Level2();
1151 return &s4_obj;
1152 };
1153 if (!objname.CompareTo("NDLevel2")) {
1154 if (!nd_obj)
1155 nd_obj = new NDLevel2();
1156 return &nd_obj;
1157 };
1158 if (!objname.CompareTo("AcLevel2")) {
1159 if (!ac_obj)
1160 ac_obj = new AcLevel2();
1161 return &ac_obj;
1162 };
1163 if (!objname.CompareTo("OrbitalInfo")) {
1164 if (!orb2_obj) {
1165 orb2_obj = new OrbitalInfo();
1166 orb2_obj->Set();
1167 }
1168 return &orb2_obj;
1169 };
1170 // if(!objname.CompareTo("OrbitalInfo")){
1171 // if(!orb2_obj) orb2_obj = new OrbitalInfo();
1172 // return &orb2_obj;
1173 // };
1174 if (!objname.CompareTo("GPamela")) {
1175 if (!gp_obj)
1176 gp_obj = new GPamela();
1177 return &gp_obj;
1178 };
1179
1180 if (!objname.CompareTo("RunInfo"))
1181 return &run_obj;
1182
1183 if (!objname.CompareTo("SoftInfo"))
1184 return &soft_obj; // Emiliano
1185
1186 return NULL;
1187 }
1188 ;
1189 //--------------------------------------
1190 //
1191 //
1192 //--------------------------------------
1193 /**
1194 * Retrieves the calorimeter track matching the seqno-th tracker stored track.
1195 * (If seqno = -1 retrieves the self-trigger calorimeter track)
1196 */
1197 CaloTrkVar *PamLevel2::GetCaloStoredTrack(int seqno) {
1198
1199 if (!calo2_obj)
1200 return 0;
1201
1202 if (calo2_obj->CaloLevel2::ntrk() == 0) {
1203 cout << "PamLevel2::GetCaloStoredTrack(int) : requested tracker SeqNo " << seqno
1204 << " but no Calorimeter tracks are stored" << endl;
1205 return NULL;
1206 };
1207
1208 CaloTrkVar *c = 0;
1209 Int_t it_calo = 0;
1210
1211 do {
1212 c = calo2_obj->CaloLevel2::GetCaloTrkVar(it_calo);
1213 it_calo++;
1214 } while (c && seqno != c->trkseqno && it_calo < calo2_obj->CaloLevel2::ntrk());
1215
1216 if (!c || seqno != c->trkseqno) {
1217 c = 0;
1218 if (seqno != -1)
1219 cout << "PamLevel2::GetCaloStoredTrack(int) : requested tracker SeqNo " << seqno
1220 << " does not match Calorimeter stored tracks" << endl;
1221 };
1222 return c;
1223
1224 }
1225 ;
1226 //--------------------------------------
1227 //
1228 //
1229 //--------------------------------------
1230 /**
1231 * Retrieves the ToF track matching the seqno-th tracker stored track.
1232 * (If seqno = -1 retrieves the tracker-independent tof track)
1233 */
1234 ToFTrkVar *PamLevel2::GetToFStoredTrack(int seqno) {
1235
1236 if (!tof2_obj)
1237 return 0;
1238
1239 if (tof2_obj->ToFLevel2::ntrk() == 0) {
1240 cout << "PamLevel2::GetToFStoredTrack(int) : requested tracker SeqNo " << seqno << " but no ToF tracks are stored"
1241 << endl;
1242 return NULL;
1243 };
1244
1245 ToFTrkVar *c = 0;
1246 Int_t it_tof = 0;
1247
1248 do {
1249 c = tof2_obj->ToFLevel2::GetToFTrkVar(it_tof);
1250 it_tof++;
1251 } while (c && seqno != c->trkseqno && it_tof < tof2_obj->ToFLevel2::ntrk());
1252
1253 if (!c || seqno != c->trkseqno) {
1254 c = 0;
1255 if (seqno != -1)
1256 cout << "PamLevel2::GetToFStoredTrack(int) : requested tracker SeqNo " << seqno
1257 << " does not match ToF stored tracks" << endl;
1258 };
1259 return c;
1260
1261 }
1262 ;
1263
1264 //--------------------------------------
1265 //
1266 //
1267 //--------------------------------------
1268 /**
1269 * Retrieves the OrbitalInfo track matching the seqno-th tracker stored track.
1270 * (If seqno = -1 retrieves the tracker-independent tof related track)
1271 */
1272 OrbitalInfoTrkVar *PamLevel2::GetOrbitalInfoStoredTrack(int seqno) {
1273
1274 if (!orb2_obj)
1275 return 0;
1276
1277 if (orb2_obj->OrbitalInfo::ntrk() == 0) {
1278 // // TRICK BEGIN
1279 // OrbitalInfoTrkVar *r = new OrbitalInfoTrkVar(); // TEMPORARY TRICK
1280 // Int_t nn = 0;
1281 // TClonesArray &tor = *orb2_obj->OrbitalInfoTrk;
1282 // for(Int_t nt=0; nt < tof2_obj->ToFLevel2::ntrk(); nt++){
1283 // //
1284 // ToFTrkVar *ptt = tof2_obj->ToFLevel2::GetToFTrkVar(nt);
1285 // if ( ptt->trkseqno != -1 ){
1286 // //
1287 // r->trkseqno = ptt->trkseqno;
1288 // //
1289 // r->Eij = 0;
1290 // //
1291 // r->Sij = 0;
1292 // //
1293 // r->pitch = -1000.;
1294 // //
1295 // r->cutoff = -1000.;
1296 // //
1297 // new(tor[nn]) OrbitalInfoTrkVar(*r);
1298 // nn++;
1299 // //
1300 // r->Clear();
1301 // //
1302 // };
1303 // };
1304 // delete r;
1305 // OrbitalInfoTrkVar *c = 0;
1306 // c = orb2_obj->OrbitalInfo::GetOrbitalInfoTrkVar(0);
1307 // return c;
1308 // //TRICK END
1309 cout << "PamLevel2::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo " << seqno
1310 << " but no OrbitalInfo tracks are stored" << endl;
1311 return NULL;
1312 };
1313
1314 OrbitalInfoTrkVar *c = 0;
1315 Int_t it_tof = 0;
1316
1317 do {
1318 c = orb2_obj->OrbitalInfo::GetOrbitalInfoTrkVar(it_tof);
1319 it_tof++;
1320 } while (c && seqno != c->trkseqno && it_tof < orb2_obj->OrbitalInfo::ntrk());
1321
1322 if (!c || seqno != c->trkseqno) {
1323 c = 0;
1324 if (seqno != -1)
1325 cout << "PamLevel2::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo " << seqno
1326 << " does not match OrbitalInfo stored tracks" << endl;
1327 };
1328 return c;
1329
1330 }
1331 ;
1332
1333 //--------------------------------------
1334 //
1335 //
1336 //--------------------------------------
1337 /**
1338 * Give the pamela track associated to a tracker track, retrieving related calorimeter, orbitalinfo and tof track information.
1339 */
1340 PamTrack* PamLevel2::GetPamTrackAlong(TrkTrack* t) {
1341
1342 cout << "PamLevel2::GetPamTrackAlong(TrkTrack* t) **obsolete** " << endl;
1343 cout << "(if you use it, remember to delete the PamTrack object)" << endl;
1344
1345 CaloTrkVar *c = 0;
1346 ToFTrkVar *o = 0;
1347 OrbitalInfoTrkVar *r = 0;
1348
1349 if (CAL2)
1350 c = GetCaloStoredTrack(t->GetSeqNo());
1351 if (TOF)
1352 o = GetToFStoredTrack(t->GetSeqNo());
1353 if (ORB)
1354 r = GetOrbitalInfoStoredTrack(t->GetSeqNo());
1355
1356 // if(t && c && o)track = new PamTrack(t,c,o);
1357 PamTrack *track = new PamTrack(t, c, o, r);
1358
1359 return track;
1360
1361 }
1362 ;
1363 //--------------------------------------
1364 //
1365 //
1366 //--------------------------------------
1367 /**
1368 * Retrieves the it-th stored track.
1369 * It override TrkLevel2::GetTrack(int it).
1370 * @param itrk Track number, ranging from 0 to GetNTracks().
1371 */
1372
1373 PamTrack* PamLevel2::GetStoredTrack(Int_t itrk) {
1374
1375 cout << "PamLevel2::GetStoredTrack(Int_t itrk) **to-be-updated** " << endl;
1376 cout
1377 << "for the moment, better use separately the methods: TrkLevel2::GetStoredTrack(seqno) CaloLevel2::GetCaloTrkVar(Int_t notrack) ToFLevel2::GetToFTrkVar(Int_t notrack) OrbitalInfo::GetOrbitalInfoTrkVar(Int_t notrack)"
1378 << endl;
1379 cout << "(if you use it, remember to delete the PamTrack object)" << endl;
1380 PamTrack *track = 0;
1381
1382 if (itrk >= 0 && itrk < trk2_obj->TrkLevel2::ntrk()) {
1383
1384 TrkTrack *t = trk2_obj->TrkLevel2::GetStoredTrack(itrk);
1385 track = GetPamTrackAlong(t);
1386
1387 }
1388 else {
1389 cout << "PamLevel2::GetStoredTrack(int) : tracker track SeqNo " << itrk << " does not exist (GetNTracks() = "
1390 << trk2_obj->TrkLevel2::GetNTracks() << ")" << endl;
1391 };
1392
1393 return track;
1394
1395 }
1396 //--------------------------------------
1397 //
1398
1399 /**
1400 * Sort physical (tracker) tracks. Left here as backward compatibility method.
1401 **/
1402 void PamLevel2::SortTracks(TString how) {
1403 printf(
1404 " WARNING! obsolete, use SortTracks() and SetSortingMethod(TString) instead! \n Setting sorting method to %s \n",
1405 how.Data());
1406 howtosort = how;
1407 SortTracks();
1408 }
1409 ;
1410
1411 //
1412 //--------------------------------------
1413 /**
1414 * Sort physical (tracker) tracks.
1415 * @param how String to set the sorting cryterium (es: "CAL" or "TRK+CAL+TOF" ecc...).
1416 * Sorting cryteria:
1417 * TRK: lower chi**2
1418 * CAL: lower Y spatial residual on the first calorimeter plane
1419 * TOF: bigger numebr of hit PMTs along the track, on S12 S21 S32 (where paddles are along the Y axis).
1420 * S1: (ask Emiliano)
1421 * S2: (ask Emiliano)
1422 * S3: (ask Emiliano)
1423 * GP: more GP hits
1424 * The default sorting cryterium is "TOF+CAL".
1425 *
1426 * The total number of physical tracks is always given by GetNTracks() and the it-th physical track can be retrieved by means of the methods GetTrack(int it) and GetTrack(int it, TString how).
1427 */
1428 void PamLevel2::SortTracks() {
1429
1430 //Check if the current event has already been sorted
1431 if (issorted && lastsorted == GetReadEntry()) {
1432 return;
1433 }
1434 //Reset the sort flags, just in case something will go wrong...
1435 issorted = false;
1436 lastsorted = -1;
1437
1438 TString how = howtosort;
1439
1440 // cout <<" PamLevel2::SortTracks(TString how) "<<endl;
1441 if (!trk2_obj) {
1442 cout << "void PamLevel2::SortTracks(): TrkLevel2 not loaded !!!";
1443 return;
1444 };
1445 //Save current Object count
1446 Int_t ObjectNumber = TProcessID::GetObjectCount();
1447
1448 // create TCloneArrays to store tracks and its images
1449 if (!tsorted)
1450 tsorted = new TClonesArray("PamTrack", trk2_obj->GetNTracks());
1451 tsorted->Delete();
1452 TClonesArray &ttsorted = *tsorted;
1453
1454 if (!timage)
1455 timage = new TClonesArray("PamTrack", trk2_obj->GetNTracks());
1456 timage->Delete();
1457 TClonesArray &ttimage = *timage;
1458
1459
1460
1461 //--------------------------------------------------
1462 // retrieve sorting method
1463 //--------------------------------------------------
1464 Bool_t use_TRK = how.Contains("TRK", TString::kIgnoreCase);
1465 Bool_t use_CAL = how.Contains("CAL", TString::kIgnoreCase);
1466 Bool_t use_TOF = how.Contains("TOF", TString::kIgnoreCase);
1467 Bool_t use_S1 = how.Contains("S1", TString::kIgnoreCase);
1468 Bool_t use_S2 = how.Contains("S2", TString::kIgnoreCase);
1469 Bool_t use_S3 = how.Contains("S3", TString::kIgnoreCase);
1470 Bool_t use_GP = how.Contains("GP", TString::kIgnoreCase);
1471
1472 if (use_TOF) {
1473 use_S1 = true;
1474 use_S2 = true;
1475 use_S3 = true;
1476 };
1477 if (!CAL2 && use_CAL)
1478 use_CAL = false;
1479 if (!TOF) {
1480 use_TOF = false;
1481 use_S1 = false;
1482 use_S2 = false;
1483 use_S3 = false;
1484 }
1485 if (!GP) {
1486 use_GP = false;
1487 }
1488
1489 if (!TRK2) {
1490 cout << "SortTracks() : without tracker does not work!!! (not yet)" << endl;
1491 return;
1492 };
1493
1494 // cout << "use_CAL "<<use_CAL<<" use_TOF "<<use_TOF<<" use_TRK "<<use_TRK <<endl;
1495
1496
1497 //--------------------------------------------------
1498 // loop over "physical" tracks sorted by the tracker
1499 //--------------------------------------------------
1500 for (Int_t i = 0; i < trk2_obj->TrkLevel2::GetNTracks(); i++) {
1501
1502 TrkTrack *ts = 0;
1503 CaloTrkVar *cs = 0;
1504 ToFTrkVar *os = 0;
1505 OrbitalInfoTrkVar *rs = 0;
1506
1507 // get tracker tracks
1508 TrkTrack *tp = trk2_obj->TrkLevel2::GetTrack(i); //tracker
1509 CaloTrkVar *cp = GetCaloStoredTrack(tp->GetSeqNo());
1510 ToFTrkVar *op = GetToFStoredTrack(tp->GetSeqNo());
1511 OrbitalInfoTrkVar *rp = GetOrbitalInfoStoredTrack(tp->GetSeqNo());
1512
1513 TrkTrack *ti = 0; //tracker (image)
1514 CaloTrkVar *ci = 0;
1515 ToFTrkVar *oi = 0;
1516 OrbitalInfoTrkVar *ri = 0;
1517 // cout << "trk track n. "<<i << " "<<hex<< tp <<dec<< endl;
1518 // if track has an image, check image selection
1519
1520 Int_t tp_score = 0; //main track sorted by the tracker
1521 Int_t ti_score = 0; //image track
1522 Int_t totp_score = 0; //main track sorted by the tracker
1523 Int_t toti_score = 0; //image track
1524
1525 if (tp->HasImage()) {
1526
1527 ti = trk2_obj->TrkLevel2::GetTrackImage(i); //tracker (image)
1528 ci = GetCaloStoredTrack(ti->GetSeqNo());
1529 oi = GetToFStoredTrack(ti->GetSeqNo());
1530 ri = GetOrbitalInfoStoredTrack(ti->GetSeqNo());
1531
1532 // cout << "its image "<<i << " "<<hex<< ti <<dec<< endl;
1533
1534 //assign starting scores
1535 tp_score = 0; //main track sorted by the tracker
1536 ti_score = 0; //image track
1537
1538 // -----------------------------------------------------------------------------------------
1539 // *****************************************************************************************
1540 // -----------------------------------------------------------------------------------------
1541 // calorimeter check
1542 // -----------------------------------------------------------------------------------------
1543 if (use_CAL && !calo2_obj) {
1544 cout << "void PamLevel2::SortTracks(): howtosort= " << how << " but CaloLevel2 not loaded !!!";
1545 return;
1546 };
1547 if (use_CAL && !cp && ci) {
1548 ti_score++;
1549 toti_score++;
1550 };
1551 if (use_CAL && cp && !ci) {
1552 tp_score++;
1553 totp_score++;
1554 };
1555 if (use_CAL && cp && ci && true) {
1556
1557 if (cp->npresh > ci->npresh && true) {
1558 tp_score++;
1559 totp_score++;
1560 };
1561 if (cp->npresh < ci->npresh && true) {
1562 ti_score++;
1563 toti_score++;
1564 };
1565
1566 // cout << "CALO "<<tp_score<<ti_score<<endl;
1567
1568 };
1569 // -----------------------------------------------------------------------------------------
1570 // *****************************************************************************************
1571 // -----------------------------------------------------------------------------------------
1572 // TOF check
1573 // -----------------------------------------------------------------------------------------
1574 // check the number of hit pmts along the track
1575 // on S12 S21 and S32, where paddles are parallel to Y axis
1576 if ((use_TOF || use_S1 || use_S2 || use_S3) && !tof2_obj) {
1577 cout << "void PamLevel2::SortTracks(): howtosort= " << how << " but ToFLevel2 not loaded !!!";
1578 return;
1579 };
1580 //
1581 if ((use_TOF || use_S1 || use_S2 || use_S3) && !op && oi) {
1582 ti_score++;
1583 toti_score++;
1584 };
1585 if ((use_TOF || use_S1 || use_S2 || use_S3) && op && !oi) {
1586 tp_score++;
1587 totp_score++;
1588 };
1589 if ((use_TOF || use_S1 || use_S2 || use_S3) && op && oi) {
1590 //
1591 Float_t sen = 0.;
1592 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
1593 Int_t pl = tof2_obj->GetPlaneIndex((op->pmtadc).At(ih));
1594 if (pl == 2 || pl == 3 || pl == 4 || pl == 5)
1595 sen += (op->dedx).At(ih);
1596 };
1597 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
1598 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmtadc).At(ih));
1599 if (pl == 2 || pl == 3 || pl == 4 || pl == 5)
1600 sen += (oi->dedx).At(ih);
1601 };
1602 //
1603 if (sen >= sortthr && false) { // temporary disabled NUCLEI special algorithm since the new one should work for every particle (to be checked!)
1604 //printf(" IS A NUCLEUS! en = %f \n",sen);
1605 //
1606 // is a nucleus use a different algorithm
1607 //
1608 Int_t nz = 6;
1609 Float_t zin[6]; // << define TOF z-coordinates
1610 for (Int_t ip = 0; ip < nz; ip++)
1611 zin[ip] = tof2_obj->ToFLevel2::GetZTOF(tof2_obj->ToFLevel2::GetToFPlaneID(ip)); // << read ToF plane z-coordinates
1612 Trajectory *tr = new Trajectory(nz, zin);
1613 //
1614 Int_t nphit_p = 0;
1615 Int_t nphit_i = 0;
1616 Float_t enhit_p = 0.;
1617 Float_t enhit_i = 0.;
1618 //
1619 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
1620 Int_t pl = tof2_obj->GetPlaneIndex((op->pmtadc).At(ih));
1621 if (pl == 1 || pl == 2 || pl == 5) {
1622 nphit_p++;
1623 enhit_p += (op->dedx).At(ih);
1624 };
1625 };
1626 //
1627 tp->DoTrack2(tr);
1628 //
1629 if (fabs(tr->y[0] - oi->ytofpos[0]) < 2.) {
1630 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
1631 Int_t pl = tof2_obj->GetPlaneIndex((op->pmtadc).At(ih));
1632 if (pl == 0) {
1633 nphit_p++;
1634 enhit_p += (op->dedx).At(ih);
1635 };
1636 };
1637 };
1638 if (fabs(tr->y[3] - oi->ytofpos[1]) < 2.) {
1639 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
1640 Int_t pl = tof2_obj->GetPlaneIndex((op->pmtadc).At(ih));
1641 if (pl == 3) {
1642 nphit_p++;
1643 enhit_p += (op->dedx).At(ih);
1644 };
1645 };
1646 };
1647 if (fabs(tr->y[4] - oi->ytofpos[2]) < 2.) {
1648 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
1649 Int_t pl = tof2_obj->GetPlaneIndex((op->pmtadc).At(ih));
1650 if (pl == 4) {
1651 nphit_p++;
1652 enhit_p += (op->dedx).At(ih);
1653 };
1654 };
1655 };
1656
1657 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
1658 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmtadc).At(ih));
1659 if (pl == 1 || pl == 2 || pl == 5) {
1660 nphit_i++;
1661 enhit_i += (op->dedx).At(ih);
1662 };
1663 };
1664 //
1665 ti->DoTrack2(tr);
1666 //
1667 if (fabs(tr->y[0] - oi->ytofpos[0]) < 2.) {
1668 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
1669 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmtadc).At(ih));
1670 if (pl == 0) {
1671 nphit_i++;
1672 enhit_i += (op->dedx).At(ih);
1673 };
1674 };
1675 };
1676 if (fabs(tr->y[3] - oi->ytofpos[1]) < 2.) {
1677 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
1678 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmtadc).At(ih));
1679 if (pl == 3) {
1680 nphit_i++;
1681 enhit_i += (op->dedx).At(ih);
1682 };
1683 };
1684 };
1685 if (fabs(tr->y[4] - oi->ytofpos[2]) < 2.) {
1686 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
1687 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmtadc).At(ih));
1688 if (pl == 4) {
1689 nphit_i++;
1690 enhit_i += (op->dedx).At(ih);
1691 };
1692 };
1693 };
1694
1695 if ((use_TOF || use_S1 || use_S2 || use_S3) && (nphit_p + nphit_i) != 0 && true) {
1696
1697 // printf(" seqno %i nphit_p %i nphit_i %i enhit_p %f enhit_i %f \n",trk2_obj->TrkLevel2::GetSeqNo(i),nphit_p,nphit_i,enhit_p,enhit_i);
1698 // printf(" score p %i score i %i \n",tp_score,ti_score);
1699 // if( enhit_p > enhit_i ) tp_score++;
1700 // if( nphit_p >= nphit_i && enhit_p > enhit_i ) tp_score++;
1701 if (nphit_p > nphit_i)
1702 tp_score++;
1703 if (nphit_p < nphit_i)
1704 ti_score++;
1705 if (nphit_p == nphit_i) {
1706 if (enhit_p > enhit_i)
1707 tp_score++;
1708 else
1709 ti_score++;
1710 };
1711 // printf(" dopo score p %i score i %i \n",tp_score,ti_score);
1712 };
1713 delete tr;
1714 //
1715 }
1716 else {
1717 // -------------
1718 // NOT a NUCLEUS
1719 // -------------
1720 //printf(" NOT a NUCLEUS! en = %f \n",sen);
1721
1722 Int_t nphit_p = 0;
1723 Int_t nphit_i = 0;
1724
1725 /* cout << "track: npmtadc "<< op->npmtadc << endl;
1726 cout << "track: npmttdc "<< op->npmttdc << endl;
1727 cout << "image: npmtadc "<< oi->npmtadc << endl;
1728 cout << "image: npmttdc "<< oi->npmttdc << endl;*/
1729
1730 // for (Int_t ih=0; ih < op->npmtadc; ih++){
1731 // Int_t pl = tof2_obj->GetPlaneIndex( (op->pmtadc).At(ih) );
1732 // if(pl == 1 || pl == 2 || pl == 5)nphit_p++;
1733 // };
1734
1735 // for (Int_t ih=0; ih < oi->npmtadc; ih++){
1736 // Int_t pl = tof2_obj->GetPlaneIndex( (oi->pmtadc).At(ih) );
1737 // if(pl == 1 || pl == 2 || pl == 5)nphit_i++;
1738 // };
1739 // --- modified to count tdc signals (more efficient?)
1740 // --- and to implement check on tdcflag
1741 for (Int_t ih = 0; ih < op->npmttdc; ih++) {
1742 Int_t pl = tof2_obj->GetPlaneIndex((op->pmttdc).At(ih));
1743 // if( (op->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_p++;
1744 if ((use_S1 && (pl == 0 || pl == 1)) || (use_S2 && (pl == 2 || pl == 3))
1745 || (use_S3 && (pl == 4 || pl == 5))) {
1746 if ((op->tdcflag).At(ih) == 0)
1747 nphit_p++;
1748 };
1749 };
1750
1751 for (Int_t ih = 0; ih < oi->npmttdc; ih++) {
1752 Int_t pl = tof2_obj->GetPlaneIndex((oi->pmttdc).At(ih));
1753 // if( (oi->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_i++;
1754 if ((use_S1 && (pl == 0 || pl == 1)) || (use_S2 && (pl == 2 || pl == 3))
1755 || (use_S3 && (pl == 4 || pl == 5))) {
1756 if ((oi->tdcflag).At(ih) == 0)
1757 nphit_i++;
1758 };
1759 };
1760
1761 if ((nphit_p + nphit_i) != 0 && true) {
1762
1763 if (nphit_p != nphit_i) {
1764 totp_score += nphit_p;
1765 toti_score += nphit_i;
1766 tp_score += nphit_p;
1767 ti_score += nphit_i;
1768 };
1769 // if ( nphit_p > nphit_i) tp_score+=nphit_p;
1770 // else if( nphit_p < nphit_i) ti_score+=nphit_i;
1771 // else ;//niente
1772 };
1773 };
1774 // cout << "TOF "<<tp_score<<ti_score<<endl;
1775 };
1776
1777 // if(tp_score == ti_score) use_TRK = true;
1778
1779
1780 // -----------------------------------------------------------------------------------------
1781 // *****************************************************************************************
1782 // -----------------------------------------------------------------------------------------
1783 // tracker check
1784 // -----------------------------------------------------------------------------------------
1785 // chi**2 difference is not always large enough to distinguish among
1786 // the real track and its image.
1787 // Tracker check will be applied always when calorimeter and tof information is ambiguous.
1788 // *** MODIFIED ON AUGUST 2007 ***
1789 if (use_TRK) {
1790 // if( tp->chi2 > 0 && tp->chi2 < ti->chi2 ) tp_score++ ;
1791 // else if( ti->chi2 > 0 && ti->chi2 < tp->chi2 ) ti_score++ ;
1792
1793 // CHECK 1 : number of points along X
1794 if (tp->GetNX() >= ti->GetNX()) {
1795 tp_score++;
1796 totp_score++;
1797 };
1798 if (tp->GetNX() <= ti->GetNX()) {
1799 ti_score++;
1800 toti_score++;
1801 };
1802 // CHECK 2 : number of points along Y
1803 if (tp->GetNY() >= ti->GetNY()) {
1804 tp_score++;
1805 totp_score++;
1806 };
1807 if (tp->GetNY() <= ti->GetNY()) {
1808 ti_score++;
1809 toti_score++;
1810 };
1811
1812 // cout << "TRK "<<tp_score<<ti_score<<endl;
1813 };
1814
1815 // -----------------------------------------------------------------------------------------
1816 // *****************************************************************************************
1817 // -----------------------------------------------------------------------------------------
1818 // GPamela check
1819 // -----------------------------------------------------------------------------------------
1820
1821 //---------------------------------------------------
1822 // count the number of GP hits
1823 //---------------------------------------------------
1824 if (use_GP) {
1825 int ngphits_p = 0;
1826 int ngphits_i = 0;
1827 float toll = 0.02; //200 micron
1828 for (int ih = 0; ih < GetGPamela()->Nthspe; ih++) {
1829 int ip = (Int_t) GetGPamela()->Itrpb[ih] - 1;
1830 if (tp && tp->YGood(ip) && fabs(tp->ym[ip] - GetGPamela()->Yavspe[ih]) < toll && true)
1831 ngphits_p++;
1832 if (ti && ti->YGood(ip) && fabs(ti->ym[ip] - GetGPamela()->Yavspe[ih]) < toll && true)
1833 ngphits_i++;
1834 }
1835 if (ngphits_p > ngphits_i && true) {
1836 tp_score++;
1837 totp_score++;
1838 }
1839 if (ngphits_p < ngphits_i && true) {
1840 ti_score++;
1841 toti_score++;
1842 }
1843 }
1844
1845 // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
1846 // the winner is....
1847 // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
1848 if (tp_score > ti_score) {
1849
1850 }
1851 else if (tp_score < ti_score) {
1852
1853 ts = ti;//its image!!
1854 cs = ci;
1855 os = oi;
1856 rs = ri;
1857 Int_t totis = toti_score;
1858
1859 ti = tp;//its image!!
1860 ci = cp;
1861 oi = op;
1862 ri = rp;
1863
1864 tp = ts;//its image!!
1865 cp = cs;
1866 op = os;
1867 rp = rs;
1868
1869 toti_score = totp_score;
1870 totp_score = totis;
1871
1872 }
1873 else {
1874
1875 // cout << "Warning - track image ambiguity not solved" << endl;
1876
1877 };
1878
1879 }
1880 else {
1881 totp_score = 1;
1882 toti_score = 0;
1883
1884 // ts = tp;
1885 // cs = cp;
1886 // os = op;
1887 };
1888
1889 // cout <<" SortTracks() "<<i<<" -- "<<ts<<endl;
1890 // sorted_tracks->Add(ts);//save the track in the sorted array
1891 // sorted_tracks.Add(ts);//save the track in the sorted array
1892 // sorted_tracks.Add(tp);//save the track in the sorted array
1893 // cout << "SortTracks:: sorted_tracks->Add(it) "<<i<<" "<<ts<<endl;
1894 // cout<<"o "<<tp<<endl;
1895 // cout<<"o "<<cp<<endl;
1896 // cout<<"o "<<op<<endl;
1897
1898 new (ttsorted[i]) PamTrack(tp, cp, op, rp);
1899 new (ttimage[i]) PamTrack(ti, ci, oi, ri);
1900
1901 ((PamTrack*) (ttsorted[i]))->SetPScore(totp_score);
1902 ((PamTrack*) (ttsorted[i]))->SetIScore(toti_score);
1903 ((PamTrack*) (ttimage[i]))->SetPScore(totp_score);
1904 ((PamTrack*) (ttimage[i]))->SetIScore(toti_score);
1905 };
1906
1907 if (tsorted->GetEntries() != trk2_obj->GetNTracks()) {
1908 cout << "void PamLevel2::SortTracks(): tsorted->GetEntries() " << tsorted->GetEntries()
1909 << " != trk2_obj->GetNTracks() = " << trk2_obj->GetNTracks() << endl;
1910 tsorted->Delete();
1911 tsorted = 0;
1912 timage->Delete();
1913 timage = 0;
1914 }
1915
1916 //Restore Object count
1917 //To save space in the table keeping track of all referenced objects
1918 //We reset the object count to what it was at the beginning of the event.
1919 TProcessID::SetObjectCount(ObjectNumber);
1920
1921 //Everything went fine so the current event can be tagged as sorted
1922 issorted = true;
1923 lastsorted = GetReadEntry();
1924
1925 }
1926 ;
1927 //
1928 //--------------------------------------
1929 /**
1930 * Sort physical (tracker) tracks.
1931 * @param how String to set the sorting cryterium (es: "CAL" or "TRK+CAL+TOF" ecc...).
1932 * Sorting cryteria:
1933 * TRK: lower chi**2
1934 * CAL: lower Y spatial residual on the first calorimeter plane
1935 * TOF: bigger numebr of hit PMTs along the track, on S12 S21 S32 (where paddles are along the Y axis).
1936 * S1: (ask Emiliano)
1937 * S2: (ask Emiliano)
1938 * S3: (ask Emiliano)
1939 * GP: more GP hits
1940 * The default sorting cryterium is "TOF+CAL".
1941 *
1942 * The total number of physical tracks is always given by GetNTracks() and the it-th physical track can be retrieved by means of the methods GetTrack(int it) and GetTrack(int it, TString how).
1943 *
1944 * New version, with handling of extended tracks and nuclei tracks.
1945 */
1946 void PamLevel2::SortTracksNew() {
1947
1948 //--------------------------------------------------
1949 //Check if the current event has already been sorted
1950 //--------------------------------------------------
1951 if (issorted_new && lastsorted_new == GetReadEntry()) {
1952 return; //already done for this event
1953 }
1954
1955
1956 // cout << "SORT" << endl;
1957
1958 //Reset the sort flags, just in case something will go wrong...
1959 issorted_new = false;
1960 lastsorted_new = -1;
1961
1962 //--------------------------------------------------
1963 // set input variables
1964 //--------------------------------------------------
1965
1966 TString how = howtosort;
1967 //Save current Object count
1968 Int_t ObjectNumber = TProcessID::GetObjectCount();
1969
1970
1971
1972
1973 TrkLevel2 * trk2 ;
1974 CaloLevel2 * calo2;
1975 ToFLevel2 * tof2 ;
1976 OrbitalInfo * orb2 ;
1977
1978 TClonesArray * trkext ;
1979 TClonesArray * caloext;
1980 TClonesArray * tofext ;
1981 TClonesArray * orbext ;
1982
1983
1984 // cout << "trk2_obj" << trk2_obj<< endl;
1985 // cout << "trk2_nuc_obj" << trk2_nuc_obj<< endl;
1986 // cout << " trk_ext_obj "<<trk_ext_obj<< endl;
1987 // cout << " trk_ext_nuc_obj "<<trk_ext_nuc_obj<< endl;
1988
1989 //-----------------------------------------------------------
1990 // create/reset TCloneArrays to store tracks and their images
1991 //-----------------------------------------------------------
1992
1993 // main tracks from standard alg
1994 if (!tsorted)
1995 tsorted = new TClonesArray("PamTrack", trk2_obj->GetNTracks());
1996 tsorted->Delete();
1997 // track images from standard alg
1998 if (!timage)
1999 timage = new TClonesArray("PamTrack", trk2_obj->GetNTracks());
2000 timage->Delete();
2001 // tracks from extended algorythm
2002 if(EXT && !text)
2003 text = new TClonesArray("PamTrack",trk_ext_obj->GetEntries());
2004 if(text)text->Delete();
2005
2006 //-----------------------------------------------------------
2007 // create/reset TCloneArrays to store tracks and their images
2008 //-----------------------------------------------------------
2009 if(NUC){
2010 // main tracks from standard alg
2011 if (!tsorted_nuc)
2012 tsorted_nuc = new TClonesArray("PamTrack", trk2_nuc_obj->GetNTracks());
2013 tsorted_nuc->Delete();
2014 // track images from standard alg
2015 if (!timage_nuc)
2016 timage_nuc = new TClonesArray("PamTrack", trk2_nuc_obj->GetNTracks());
2017 timage_nuc->Delete();
2018 // tracks from extended algorythm
2019 if(EXT && !text_nuc)
2020 text_nuc = new TClonesArray("PamTrack",trk_ext_nuc_obj->GetEntries());
2021 if(text_nuc)text_nuc->Delete();
2022 }
2023 //--------------------------------------------------
2024 // retrieve sorting method
2025 //--------------------------------------------------
2026 Bool_t use_TRK = how.Contains("TRK", TString::kIgnoreCase);
2027 Bool_t use_CAL = how.Contains("CAL", TString::kIgnoreCase);
2028 Bool_t use_TOF = how.Contains("TOF", TString::kIgnoreCase);
2029 Bool_t use_S1 = how.Contains("S1", TString::kIgnoreCase);
2030 Bool_t use_S2 = how.Contains("S2", TString::kIgnoreCase);
2031 Bool_t use_S3 = how.Contains("S3", TString::kIgnoreCase);
2032 Bool_t use_GP = how.Contains("GP", TString::kIgnoreCase);
2033
2034 if (use_TOF) {
2035 use_S1 = true;
2036 use_S2 = true;
2037 use_S3 = true;
2038 };
2039 if (!CAL2 && use_CAL)
2040 use_CAL = false;
2041 if (!TOF) {
2042 use_TOF = false;
2043 use_S1 = false;
2044 use_S2 = false;
2045 use_S3 = false;
2046 }
2047 if (!GP) {
2048 use_GP = false;
2049 }
2050
2051 if (!TRK2) {
2052 cout << "SortTracks() : without tracker does not work!!! (not yet)" << endl;
2053 return;
2054 };
2055
2056
2057 ///////////////////////////////////////////////////////////////////////////////////
2058 //
2059 // sort tracks and fill PamTrack arrays
2060 //
2061 ///////////////////////////////////////////////////////////////////////////////////
2062 for(int doit=0; doit<2; doit++){
2063
2064 // cout << "doit "<<doit<<endl;
2065
2066
2067 if(doit == 0){
2068
2069 trk2 = trk2_obj;
2070 calo2 = calo2_obj;
2071 tof2 = tof2_obj;
2072 orb2 = orb2_obj;
2073
2074 trkext = trk_ext_obj;
2075 caloext = calo_ext_obj;
2076 tofext = tof_ext_obj;
2077 orbext = orb_ext_obj;
2078
2079
2080
2081
2082
2083 }else if (doit == 1){
2084
2085 if(!NUC)break;
2086
2087
2088 trk2 = trk2_nuc_obj;
2089 calo2 = calo2_nuc_obj;
2090 tof2 = tof2_nuc_obj;
2091 orb2 = orb2_nuc_obj;
2092
2093 trkext = trk_ext_nuc_obj;
2094 caloext = calo_ext_nuc_obj;
2095 tofext = tof_ext_nuc_obj;
2096 orbext = orb_ext_nuc_obj;
2097
2098
2099
2100
2101 }
2102
2103 // cout << "trk2" << trk2<<endl;
2104 // cout << "calo2" << calo2<<endl;
2105 // cout << "tof2" << tof2<<endl;
2106 // cout << "orb2" << orb2<<endl;
2107 // cout << "trkext" <<trkext <<endl;
2108 // cout << "tofext" << tofext<<endl;
2109 // cout << "caloext" << caloext<<endl;
2110 // cout << "orbext" << orbext<<endl;
2111
2112 TClonesArray &ttext = (doit==0 ? *text : *text_nuc);
2113 TClonesArray &ttimage = (doit==0 ? *timage : *timage_nuc);
2114 TClonesArray &ttsorted = (doit==0 ? *tsorted : *tsorted_nuc);
2115
2116 // cout << "tsorted + timage "<<doit<<endl;
2117
2118 //--------------------------------------------------
2119 // loop over "physical" tracks sorted by the tracker
2120 //--------------------------------------------------
2121 for (Int_t i = 0; i < trk2->TrkLevel2::GetNTracks(); i++) {
2122
2123 TrkTrack *ts = 0;
2124 CaloTrkVar *cs = 0;
2125 ToFTrkVar *os = 0;
2126 OrbitalInfoTrkVar *rs = 0;
2127
2128 // get tracker tracks
2129 TrkTrack *tp = trk2->GetTrack(i); //tracker
2130 CaloTrkVar *cp = calo2->GetCaloStoredTrack(tp->GetSeqNo());
2131 ToFTrkVar *op = tof2->GetToFStoredTrack(tp->GetSeqNo());
2132 OrbitalInfoTrkVar *rp = orb2->GetOrbitalInfoStoredTrack(tp->GetSeqNo());
2133
2134 TrkTrack *ti = 0; //tracker (image)
2135 CaloTrkVar *ci = 0;
2136 ToFTrkVar *oi = 0;
2137 OrbitalInfoTrkVar *ri = 0;
2138 // cout << "trk track n. "<<i << " "<<hex<< tp <<dec<< endl;
2139 // if track has an image, check image selection
2140
2141 Int_t tp_score = 0; //main track sorted by the tracker
2142 Int_t ti_score = 0; //image track
2143 Int_t totp_score = 0; //main track sorted by the tracker
2144 Int_t toti_score = 0; //image track
2145
2146 if (tp->HasImage()) {
2147
2148 ti = trk2->GetTrackImage(i); //tracker (image)
2149 ci = calo2->GetCaloStoredTrack(ti->GetSeqNo());
2150 oi = tof2->GetToFStoredTrack(ti->GetSeqNo());
2151 ri = orb2->GetOrbitalInfoStoredTrack(ti->GetSeqNo());
2152
2153 // cout << "its image "<<i << " "<<hex<< ti <<dec<< endl;
2154
2155 //assign starting scores
2156 tp_score = 0; //main track sorted by the tracker
2157 ti_score = 0; //image track
2158
2159 // -----------------------------------------------------------------------------------------
2160 // *****************************************************************************************
2161 // -----------------------------------------------------------------------------------------
2162 // calorimeter check
2163 // -----------------------------------------------------------------------------------------
2164 if (use_CAL && !calo2) {
2165 cout << "void PamLevel2::SortTracks(): howtosort= " << how << " but CaloLevel2 not loaded !!!";
2166 return;
2167 };
2168 if (use_CAL && !cp && ci) {
2169 ti_score++;
2170 toti_score++;
2171 };
2172 if (use_CAL && cp && !ci) {
2173 tp_score++;
2174 totp_score++;
2175 };
2176 if (use_CAL && cp && ci && true) {
2177
2178 if (cp->npresh > ci->npresh && true) {
2179 tp_score++;
2180 totp_score++;
2181 };
2182 if (cp->npresh < ci->npresh && true) {
2183 ti_score++;
2184 toti_score++;
2185 };
2186
2187 // cout << "CALO "<<tp_score<<ti_score<<endl;
2188
2189 };
2190 // -----------------------------------------------------------------------------------------
2191 // *****************************************************************************************
2192 // -----------------------------------------------------------------------------------------
2193 // TOF check
2194 // -----------------------------------------------------------------------------------------
2195 // check the number of hit pmts along the track
2196 // on S12 S21 and S32, where paddles are parallel to Y axis
2197 if ((use_TOF || use_S1 || use_S2 || use_S3) && !tof2) {
2198 cout << "void PamLevel2::SortTracks(): howtosort= " << how << " but ToFLevel2 not loaded !!!";
2199 return;
2200 };
2201 //
2202 if ((use_TOF || use_S1 || use_S2 || use_S3) && !op && oi) {
2203 ti_score++;
2204 toti_score++;
2205 };
2206 if ((use_TOF || use_S1 || use_S2 || use_S3) && op && !oi) {
2207 tp_score++;
2208 totp_score++;
2209 };
2210 if ((use_TOF || use_S1 || use_S2 || use_S3) && op && oi) {
2211 //
2212 Float_t sen = 0.;
2213 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
2214 Int_t pl = tof2->GetPlaneIndex((op->pmtadc).At(ih));
2215 if (pl == 2 || pl == 3 || pl == 4 || pl == 5)
2216 sen += (op->dedx).At(ih);
2217 };
2218 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
2219 Int_t pl = tof2->GetPlaneIndex((oi->pmtadc).At(ih));
2220 if (pl == 2 || pl == 3 || pl == 4 || pl == 5)
2221 sen += (oi->dedx).At(ih);
2222 };
2223 //
2224 if (sen >= sortthr && false) { // temporary disabled NUCLEI special algorithm since the new one should work for every particle (to be checked!)
2225 //printf(" IS A NUCLEUS! en = %f \n",sen);
2226 //
2227 // is a nucleus use a different algorithm
2228 //
2229 Int_t nz = 6;
2230 Float_t zin[6]; // << define TOF z-coordinates
2231 for (Int_t ip = 0; ip < nz; ip++)
2232 zin[ip] = tof2->GetZTOF(tof2->GetToFPlaneID(ip)); // << read ToF plane z-coordinates
2233 Trajectory *tr = new Trajectory(nz, zin);
2234 //
2235 Int_t nphit_p = 0;
2236 Int_t nphit_i = 0;
2237 Float_t enhit_p = 0.;
2238 Float_t enhit_i = 0.;
2239 //
2240 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
2241 Int_t pl = tof2->GetPlaneIndex((op->pmtadc).At(ih));
2242 if (pl == 1 || pl == 2 || pl == 5) {
2243 nphit_p++;
2244 enhit_p += (op->dedx).At(ih);
2245 };
2246 };
2247 //
2248 tp->DoTrack2(tr);
2249 //
2250 if (fabs(tr->y[0] - oi->ytofpos[0]) < 2.) {
2251 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
2252 Int_t pl = tof2->GetPlaneIndex((op->pmtadc).At(ih));
2253 if (pl == 0) {
2254 nphit_p++;
2255 enhit_p += (op->dedx).At(ih);
2256 };
2257 };
2258 };
2259 if (fabs(tr->y[3] - oi->ytofpos[1]) < 2.) {
2260 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
2261 Int_t pl = tof2->GetPlaneIndex((op->pmtadc).At(ih));
2262 if (pl == 3) {
2263 nphit_p++;
2264 enhit_p += (op->dedx).At(ih);
2265 };
2266 };
2267 };
2268 if (fabs(tr->y[4] - oi->ytofpos[2]) < 2.) {
2269 for (Int_t ih = 0; ih < op->npmtadc; ih++) {
2270 Int_t pl = tof2->GetPlaneIndex((op->pmtadc).At(ih));
2271 if (pl == 4) {
2272 nphit_p++;
2273 enhit_p += (op->dedx).At(ih);
2274 };
2275 };
2276 };
2277
2278 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
2279 Int_t pl = tof2->GetPlaneIndex((oi->pmtadc).At(ih));
2280 if (pl == 1 || pl == 2 || pl == 5) {
2281 nphit_i++;
2282 enhit_i += (op->dedx).At(ih);
2283 };
2284 };
2285 //
2286 ti->DoTrack2(tr);
2287 //
2288 if (fabs(tr->y[0] - oi->ytofpos[0]) < 2.) {
2289 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
2290 Int_t pl = tof2->GetPlaneIndex((oi->pmtadc).At(ih));
2291 if (pl == 0) {
2292 nphit_i++;
2293 enhit_i += (op->dedx).At(ih);
2294 };
2295 };
2296 };
2297 if (fabs(tr->y[3] - oi->ytofpos[1]) < 2.) {
2298 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
2299 Int_t pl = tof2->GetPlaneIndex((oi->pmtadc).At(ih));
2300 if (pl == 3) {
2301 nphit_i++;
2302 enhit_i += (op->dedx).At(ih);
2303 };
2304 };
2305 };
2306 if (fabs(tr->y[4] - oi->ytofpos[2]) < 2.) {
2307 for (Int_t ih = 0; ih < oi->npmtadc; ih++) {
2308 Int_t pl = tof2->GetPlaneIndex((oi->pmtadc).At(ih));
2309 if (pl == 4) {
2310 nphit_i++;
2311 enhit_i += (op->dedx).At(ih);
2312 };
2313 };
2314 };
2315
2316 if ((use_TOF || use_S1 || use_S2 || use_S3) && (nphit_p + nphit_i) != 0 && true) {
2317
2318 // printf(" seqno %i nphit_p %i nphit_i %i enhit_p %f enhit_i %f \n",trk2_obj->TrkLevel2::GetSeqNo(i),nphit_p,nphit_i,enhit_p,enhit_i);
2319 // printf(" score p %i score i %i \n",tp_score,ti_score);
2320 // if( enhit_p > enhit_i ) tp_score++;
2321 // if( nphit_p >= nphit_i && enhit_p > enhit_i ) tp_score++;
2322 if (nphit_p > nphit_i)
2323 tp_score++;
2324 if (nphit_p < nphit_i)
2325 ti_score++;
2326 if (nphit_p == nphit_i) {
2327 if (enhit_p > enhit_i)
2328 tp_score++;
2329 else
2330 ti_score++;
2331 };
2332 // printf(" dopo score p %i score i %i \n",tp_score,ti_score);
2333 };
2334 delete tr;
2335 //
2336 }
2337 else {
2338 // -------------
2339 // NOT a NUCLEUS
2340 // -------------
2341 //printf(" NOT a NUCLEUS! en = %f \n",sen);
2342
2343 Int_t nphit_p = 0;
2344 Int_t nphit_i = 0;
2345
2346 /* cout << "track: npmtadc "<< op->npmtadc << endl;
2347 cout << "track: npmttdc "<< op->npmttdc << endl;
2348 cout << "image: npmtadc "<< oi->npmtadc << endl;
2349 cout << "image: npmttdc "<< oi->npmttdc << endl;*/
2350
2351 // for (Int_t ih=0; ih < op->npmtadc; ih++){
2352 // Int_t pl = tof2_obj->GetPlaneIndex( (op->pmtadc).At(ih) );
2353 // if(pl == 1 || pl == 2 || pl == 5)nphit_p++;
2354 // };
2355
2356 // for (Int_t ih=0; ih < oi->npmtadc; ih++){
2357 // Int_t pl = tof2_obj->GetPlaneIndex( (oi->pmtadc).At(ih) );
2358 // if(pl == 1 || pl == 2 || pl == 5)nphit_i++;
2359 // };
2360 // --- modified to count tdc signals (more efficient?)
2361 // --- and to implement check on tdcflag
2362 for (Int_t ih = 0; ih < op->npmttdc; ih++) {
2363 Int_t pl = tof2->GetPlaneIndex((op->pmttdc).At(ih));
2364 // if( (op->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_p++;
2365 if ((use_S1 && (pl == 0 || pl == 1)) || (use_S2 && (pl == 2 || pl == 3))
2366 || (use_S3 && (pl == 4 || pl == 5))) {
2367 if ((op->tdcflag).At(ih) == 0)
2368 nphit_p++;
2369 };
2370 };
2371
2372 for (Int_t ih = 0; ih < oi->npmttdc; ih++) {
2373 Int_t pl = tof2->GetPlaneIndex((oi->pmttdc).At(ih));
2374 // if( (oi->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_i++;
2375 if ((use_S1 && (pl == 0 || pl == 1)) || (use_S2 && (pl == 2 || pl == 3))
2376 || (use_S3 && (pl == 4 || pl == 5))) {
2377 if ((oi->tdcflag).At(ih) == 0)
2378 nphit_i++;
2379 };
2380 };
2381
2382 if ((nphit_p + nphit_i) != 0 && true) {
2383
2384 if (nphit_p != nphit_i) {
2385 totp_score += nphit_p;
2386 toti_score += nphit_i;
2387 tp_score += nphit_p;
2388 ti_score += nphit_i;
2389 };
2390 // if ( nphit_p > nphit_i) tp_score+=nphit_p;
2391 // else if( nphit_p < nphit_i) ti_score+=nphit_i;
2392 // else ;//niente
2393 };
2394 };
2395 // cout << "TOF "<<tp_score<<ti_score<<endl;
2396 };
2397
2398 // if(tp_score == ti_score) use_TRK = true;
2399
2400
2401 // -----------------------------------------------------------------------------------------
2402 // *****************************************************************************************
2403 // -----------------------------------------------------------------------------------------
2404 // tracker check
2405 // -----------------------------------------------------------------------------------------
2406 // chi**2 difference is not always large enough to distinguish among
2407 // the real track and its image.
2408 // Tracker check will be applied always when calorimeter and tof information is ambiguous.
2409 // *** MODIFIED ON AUGUST 2007 ***
2410 if (use_TRK) {
2411 // if( tp->chi2 > 0 && tp->chi2 < ti->chi2 ) tp_score++ ;
2412 // else if( ti->chi2 > 0 && ti->chi2 < tp->chi2 ) ti_score++ ;
2413
2414 // CHECK 1 : number of points along X
2415 if (tp->GetNX() >= ti->GetNX()) {
2416 tp_score++;
2417 totp_score++;
2418 };
2419 if (tp->GetNX() <= ti->GetNX()) {
2420 ti_score++;
2421 toti_score++;
2422 };
2423 // CHECK 2 : number of points along Y
2424 if (tp->GetNY() >= ti->GetNY()) {
2425 tp_score++;
2426 totp_score++;
2427 };
2428 if (tp->GetNY() <= ti->GetNY()) {
2429 ti_score++;
2430 toti_score++;
2431 };
2432
2433 // cout << "TRK "<<tp_score<<ti_score<<endl;
2434 };
2435
2436 // -----------------------------------------------------------------------------------------
2437 // *****************************************************************************************
2438 // -----------------------------------------------------------------------------------------
2439 // GPamela check
2440 // -----------------------------------------------------------------------------------------
2441
2442 //---------------------------------------------------
2443 // count the number of GP hits
2444 //---------------------------------------------------
2445 if (use_GP) {
2446 int ngphits_p = 0;
2447 int ngphits_i = 0;
2448 float toll = 0.02; //200 micron
2449 for (int ih = 0; ih < GetGPamela()->Nthspe; ih++) {
2450 int ip = (Int_t) GetGPamela()->Itrpb[ih] - 1;
2451 if (tp && tp->YGood(ip) && fabs(tp->ym[ip] - GetGPamela()->Yavspe[ih]) < toll && true)
2452 ngphits_p++;
2453 if (ti && ti->YGood(ip) && fabs(ti->ym[ip] - GetGPamela()->Yavspe[ih]) < toll && true)
2454 ngphits_i++;
2455 }
2456 if (ngphits_p > ngphits_i && true) {
2457 tp_score++;
2458 totp_score++;
2459 }
2460 if (ngphits_p < ngphits_i && true) {
2461 ti_score++;
2462 toti_score++;
2463 }
2464 }
2465
2466 // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
2467 // the winner is....
2468 // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
2469 if (tp_score > ti_score) {
2470
2471 }
2472 else if (tp_score < ti_score) {
2473
2474 ts = ti;//its image!!
2475 cs = ci;
2476 os = oi;
2477 rs = ri;
2478 Int_t totis = toti_score;
2479
2480 ti = tp;//its image!!
2481 ci = cp;
2482 oi = op;
2483 ri = rp;
2484
2485 tp = ts;//its image!!
2486 cp = cs;
2487 op = os;
2488 rp = rs;
2489
2490 toti_score = totp_score;
2491 totp_score = totis;
2492
2493 }
2494 else {
2495
2496 // cout << "Warning - track image ambiguity not solved" << endl;
2497
2498 };
2499
2500 }
2501 else {
2502 totp_score = 1;
2503 toti_score = 0;
2504
2505 // ts = tp;
2506 // cs = cp;
2507 // os = op;
2508 };
2509
2510 // cout <<" SortTracks() "<<i<<" -- "<<ts<<endl;
2511 // sorted_tracks->Add(ts);//save the track in the sorted array
2512 // sorted_tracks.Add(ts);//save the track in the sorted array
2513 // sorted_tracks.Add(tp);//save the track in the sorted array
2514 // cout << "SortTracks:: sorted_tracks->Add(it) "<<i<<" "<<ts<<endl;
2515 // cout<<"o "<<tp<<endl;
2516 // cout<<"o "<<cp<<endl;
2517 // cout<<"o "<<op<<endl;
2518
2519 new (ttsorted[i]) PamTrack(tp, cp, op, rp);
2520 new (ttimage[i]) PamTrack(ti, ci, oi, ri);
2521
2522 ((PamTrack*) (ttsorted[i]))->SetPScore(totp_score);
2523 ((PamTrack*) (ttsorted[i]))->SetIScore(toti_score);
2524 ((PamTrack*) (ttimage[i]))->SetPScore(totp_score);
2525 ((PamTrack*) (ttimage[i]))->SetIScore(toti_score);
2526 };
2527
2528
2529
2530
2531
2532 // if (tsorted->GetEntries() != trk2->GetNTracks()) {
2533 // cout << "void PamLevel2::SortTracks(): tsorted->GetEntries() " << tsorted->GetEntries()
2534 // << " != trk2->GetNTracks() = " << trk2->GetNTracks() << endl;
2535 // tsorted->Delete();
2536 // tsorted = 0;
2537 // timage->Delete();
2538 // timage = 0;
2539 // }
2540
2541
2542 // cout << "text "<<doit<<endl;
2543
2544
2545 //--------------------------------------------------
2546 // fill array with extended tracks (this is easy...)
2547 //--------------------------------------------------
2548 if(EXT){
2549 for(int it=0; it<trkext->GetEntries(); it++){
2550
2551 new (ttext[it]) PamTrack((ExtTrack*)(*trkext)[it], (CaloTrkVar*)(*caloext)[it], (ToFTrkVar*)(*tofext)[it], (OrbitalInfoTrkVar*)(*orbext)[it]);
2552
2553 }
2554 }
2555
2556
2557
2558 };
2559
2560
2561 //Restore Object count
2562 //To save space in the table keeping track of all referenced objects
2563 //We reset the object count to what it was at the beginning of the event.
2564 TProcessID::SetObjectCount(ObjectNumber);
2565
2566 //Everything went fine so the current event can be tagged as sorted
2567 issorted_new = true;
2568 lastsorted_new = GetReadEntry();
2569
2570 // cout << " tsorted "<< tsorted << " "<<(tsorted ? tsorted->GetEntries() : 0)<<endl;
2571 // cout << " timage "<< timage << " "<<(timage ? timage->GetEntries() : 0)<<endl;
2572 // cout << " text "<< text << " "<<(text ? text->GetEntries() : 0)<<endl;
2573
2574
2575 };
2576 //--------------------------------------
2577 //
2578 //
2579 //--------------------------------------
2580 /**
2581 * This method overrides TrkLevel2::GetTracks(), where sorting is done by decreasing number of fit points and increasing chi^2.
2582 * PamLevel2::GetTracks() keeps the same track order given by TrkLevel2::GetTracks(), but checks image selection by using calorimeter and ToF tracking information.
2583 /*
2584
2585 // TRefArray *PamLevel2::GetTracks(){
2586
2587 // // *-*-*-*-*-*-*-*-*-*-*-*-*
2588 // SortTracks("+CAL+TOF");
2589 // // *-*-*-*-*-*-*-*-*-*-*-*-*
2590
2591 // // return sorted_tracks;
2592 // return &sorted_tracks;
2593
2594 // };
2595
2596
2597 //--------------------------------------
2598 //
2599 //
2600 //--------------------------------------
2601 /**
2602 * Retrieves the it-th Pamela "physical" track.
2603 * It override TrkLevel2::GetTrack(int it).
2604 * @param it Track number, ranging from 0 to GetNTracks().
2605 */
2606 PamTrack *PamLevel2::GetTrack(int it) {
2607
2608 PamTrack *track = NULL;
2609
2610 // *-*-*-*-*-*-*-*-*-*-*-*-*
2611 SortTracks();
2612 // *-*-*-*-*-*-*-*-*-*-*-*-*
2613 if (!tsorted)
2614 return track;
2615 if (!tsorted->GetEntries())
2616 return track;
2617
2618
2619 if (it >= 0 && it < trk2_obj->TrkLevel2::GetNTracks()) {
2620 track = (PamTrack*)((*tsorted)[it]);
2621 }
2622 else {
2623 cout << "PamLevel2::GetTrack(int) : tracker track SeqNo " << it << " does not exist (GetNTracks() = "
2624 << trk2_obj->TrkLevel2::GetNTracks() << ")" << endl;
2625 };
2626
2627 return track;
2628
2629 };
2630
2631 //PamTrack *PamLevel2::GetTrack(int it) { return GetTrack(it,trkAlg); };
2632
2633 /**
2634 * Retrieves the it-th Pamela "physical" track.
2635 * It override TrkLevel2::GetTrack(int it).
2636 * @param it Track number, ranging from 0 to GetNTracks().
2637 * @param alg Algorythm, see SetTrakingAlgorythm(char *alg) for explanation.
2638 */
2639 PamTrack *PamLevel2::GetTrack(int it, char* alg) {
2640
2641 TString s(alg);
2642 if(!s.CompareTo("") ||!s.CompareTo("STD") )return GetTrack(it); //old algorythm
2643
2644
2645 SortTracksNew();
2646 // >> fill tsorted, timage and text
2647
2648 if ( ( !s.Contains("EXTF", TString::kIgnoreCase) || !EXT )){ //not forced exteded-alg requested (or exteded-data missing)
2649
2650 if( s.Contains("NUC")){
2651 if(
2652 tsorted_nuc &&
2653 it < tsorted_nuc->GetEntries() && //enough tracks found
2654 it >= 0 && //valid index
2655 true) return (PamTrack*)((*tsorted_nuc)[it]); //ok return the track
2656 }else{
2657 if(
2658 tsorted &&
2659 it < tsorted->GetEntries() && //enough tracks found
2660 it >= 0 && //valid index
2661 true )return (PamTrack*)((*tsorted)[it]); //ok return the track
2662 }
2663
2664 }
2665
2666
2667 /////////////////////////////////////////////////////////////////////////
2668 /// if requested get track from extended algorythm output
2669 /////////////////////////////////////////////////////////////////////////
2670
2671 if(s.Contains("EXT", TString::kIgnoreCase) && EXT){//if exteded-alg requested
2672
2673 if(s.Contains("NUC")){
2674 if(
2675 text_nuc &&
2676 it < text_nuc->GetEntries() && //enough tracks found
2677 it >= 0 && //valid index
2678 true) return (PamTrack*)((*text_nuc)[it]);
2679 }else{
2680 if(
2681 text &&
2682 it < text->GetEntries() && //enough tracks found
2683 it >= 0 && //valid index
2684 true) return (PamTrack*)((*text)[it]);
2685 }
2686
2687 };
2688
2689
2690
2691 return NULL;
2692
2693 }
2694 ;
2695 TClonesArray *PamLevel2::GetTracks() {
2696
2697 // *-*-*-*-*-*-*-*-*-*-*-*-*
2698 SortTracks();
2699 // *-*-*-*-*-*-*-*-*-*-*-*-*
2700
2701 return tsorted;
2702
2703 }
2704 ;
2705 Int_t PamLevel2::GetNTracks(char* alg) {
2706
2707
2708 // cout << " trk_nuc_obj->GetEntries() "<<trk_nuc_obj->GetEntries()<<" trk2_nuc_obj->GetNTracks() "<<trk2_nuc_obj->GetNTracks()<<endl;
2709
2710 TString s(alg);
2711
2712 if(!s.CompareTo("") || !s.CompareTo("STD"))return trk2_obj->TrkLevel2::GetNTracks(); //standard algorythm
2713
2714 if(s.Contains("EXTF", TString::kIgnoreCase) && EXT){
2715 if(s.Contains("NUC", TString::kIgnoreCase) && NUC)return trk_ext_nuc_obj->GetEntries();//ok
2716 return trk_ext_obj->GetEntries();//ok
2717 }
2718 if( s.Contains("EXT", TString::kIgnoreCase) && EXT) {
2719 if(s.Contains("NUC", TString::kIgnoreCase) && NUC)
2720 return (trk2_nuc_obj->TrkLevel2::GetNTracks() ? trk2_nuc_obj->TrkLevel2::GetNTracks() : trk_ext_nuc_obj->GetEntries() );
2721 return (trk2_obj->TrkLevel2::GetNTracks() ? trk2_obj->TrkLevel2::GetNTracks() : trk_ext_obj->GetEntries() );
2722 }
2723 if(s.Contains("NUC", TString::kIgnoreCase) && NUC )
2724 return trk2_nuc_obj->TrkLevel2::GetNTracks();
2725
2726 return 0;
2727
2728 }
2729
2730
2731 //--------------------------------------
2732 //
2733 //
2734 //--------------------------------------
2735 /**
2736 * Retrieves (if present) the image of the it-th Pamela "physical" track, sorted by the method PamLevel2::SortTracks().
2737 * @param it Track number, ranging from 0 to GetNTracks().
2738 */
2739 PamTrack *PamLevel2::GetTrackImage(int it) {
2740
2741 // *-*-*-*-*-*-*-*-*-*-*-*-*
2742 SortTracks();
2743 // *-*-*-*-*-*-*-*-*-*-*-*-*
2744 if (!timage)
2745 return 0;
2746 if (!timage->GetEntries())
2747 return 0;
2748
2749 PamTrack *image = 0;
2750
2751 if (it >= 0 && it < trk2_obj->TrkLevel2::GetNTracks()) {
2752 TClonesArray &t = *(tsorted);
2753 PamTrack *temp = (PamTrack*) t[it];
2754 if (temp->GetTrkTrack()->HasImage()) {
2755 TClonesArray & t = *(timage);
2756 image = (PamTrack*) t[it];
2757 }
2758 else {
2759 // cout <<"PamLevel2::GetTrackImage(int) : Track SeqNo "<<it<<" does not have image"<<endl;
2760 };
2761 }
2762 else {
2763 cout << "PamLevel2::GetTrackImage(int) : Tracker track SeqNo " << it << " does not exist (GetNTracks() = "
2764 << trk2_obj->TrkLevel2::GetNTracks() << ")" << endl;
2765 };
2766
2767 return image;
2768 }
2769 /**
2770 * Retrieves (if present) the image of the it-th Pamela "physical" track, sorted by the method PamLevel2::SortTracks().
2771 * @param it Track number, ranging from 0 to GetNTracks().
2772 * @param alg Algorythm, see SetTrakingAlgorythm(char *alg) for explanation.
2773 */
2774 PamTrack *PamLevel2::GetTrackImage(int it, char* alg) {
2775
2776 TString s(alg);
2777 if(!s.CompareTo("") || !s.CompareTo("STD"))return GetTrack(it); //old algorythm
2778
2779
2780 SortTracksNew();
2781 // >> fill tsorted, timage and text
2782
2783 if ( ( !s.Contains("EXTF", TString::kIgnoreCase) || !EXT )){ //not forced exteded-alg requested (or exteded-data missing)
2784
2785 if( s.Contains("NUC")){
2786 if(
2787 tsorted_nuc &&
2788 it < tsorted_nuc->GetEntries() && //enough tracks found
2789 it >= 0 && //valid index
2790 true){
2791 TClonesArray &t = *(tsorted_nuc);
2792 PamTrack *temp = (PamTrack*) t[it];
2793 if (temp->GetTrkTrack()->HasImage()) {
2794 return (PamTrack*)((*timage_nuc)[it]); //ok return the track
2795 }
2796
2797 }
2798 }else{
2799 if(
2800 tsorted &&
2801 it < tsorted->GetEntries() && //enough tracks found
2802 it >= 0 && //valid index
2803 true ){
2804 TClonesArray &t = *(tsorted);
2805 PamTrack *temp = (PamTrack*) t[it];
2806 if (temp->GetTrkTrack()->HasImage()) {
2807 return (PamTrack*)((*timage)[it]); //ok return the track
2808 }
2809 }
2810 }
2811
2812 }
2813
2814 return NULL;
2815
2816 }
2817 ;
2818
2819 //--------------------------------------
2820 //
2821 //
2822 //--------------------------------------
2823 /**
2824 * Get the Pamela detector trees in a single file and make them friends.
2825 * @param f TFile pointer
2826 * @param detlist String to select trees to be included
2827 * @return Pointer to a TTree
2828 */
2829 TTree *PamLevel2::GetPamTree(TFile *f, TString detlist) {
2830
2831 if (detlist.Contains("+AUTO", TString::kIgnoreCase)) {
2832 cout << "+AUTO" << endl;
2833 GetWhichTrees(f);
2834 };
2835 SetWhichTrees(detlist);
2836
2837 if (pam_tree) {
2838 printf("WARNING: TTree *PamLevel2::GetPamTree(TFile *fl, TString detlist) -- pam_tree already exists!\n ");
2839 return pam_tree;
2840 };
2841 //
2842
2843 cout << "TTree *PamLevel2::GetPamTree(TFile *f, TString detlist ) -- obsolte " << endl;
2844
2845 // SetWhichTrees(detlist);
2846
2847 TTree *Trout = 0;
2848
2849 TString fname = f->GetName();
2850 if (!CheckLevel2File(fname))
2851 return NULL;
2852
2853 // UInt_t *found=0;
2854
2855 cout << "GetPamTree(TFile*,TString): detector list --> ";
2856 if (TRK1)
2857 cout << "TRK1 ";
2858 if (TRK2)
2859 cout << "TRK2 ";
2860 if (TRKh)
2861 cout << "TRKH ";
2862 if (CAL1)
2863 cout << "CAL1 ";
2864 if (CAL2)
2865 cout << "CAL2 ";
2866 if (TOF)
2867 cout << "TOF ";
2868 if (TRG)
2869 cout << "TRG ";
2870 if (AC)
2871 cout << "AC ";
2872 if (ND)
2873 cout << "ND ";
2874 if (S4)
2875 cout << "S4 ";
2876 if (ORB)
2877 cout << "ORB ";
2878 if (GP)
2879 cout << "GP ";
2880 cout << endl;
2881 if (SELLI && SELLI != 2)
2882 cout << ">>> Found selection-list <<<" << endl; //EMILIANO
2883
2884 f->cd();
2885
2886 // Tracker
2887 TTree *T = (TTree*) f->Get("Tracker");
2888 if (T && (TRK2 || TRK1 || TRKh)) {
2889 if (TRK2)
2890 T->SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel2"));
2891 // else T->SetBranchStatus("TrkLevel2",0,found);
2892 if (TRK2)
2893 cout << "Tracker : set branch address TrkLevel2" << endl;
2894 if (TRK1)
2895 T->SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel1"));
2896 // else T->SetBranchStatus("TrkLevel1",0,found);
2897 if (TRK1)
2898 cout << "Tracker : set branch address TrkLevel1" << endl;
2899 if (TRKh)
2900 T->SetBranchAddress("TrkHough", GetPointerTo("TrkHough"));
2901 // else T->SetBranchStatus("TrkHough",0,found);
2902 if (TRKh)
2903 cout << "Tracker : set branch address TrkHough" << endl;
2904 if (!Trout)
2905 Trout = T;
2906 else
2907 Trout->AddFriend(T);
2908 }
2909 else {
2910 cout << "Tracker : missing tree" << endl;
2911 };
2912 // Calorimeter
2913 TTree *C = (TTree*) f->Get("Calorimeter");
2914 if (C && (CAL2 || CAL1)) {
2915 if (CAL2)
2916 C->SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2"));
2917 // else C->SetBranchStatus("CaloLevel2",0,found);
2918 if (CAL2)
2919 cout << "Calorimeter : set branch address CaloLevel2" << endl;
2920 if (CAL1)
2921 C->SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1"));
2922 // else C->SetBranchStatus("CaloLevel1",0,found);
2923 if (CAL1)
2924 cout << "Calorimeter : set branch address CaloLevel1" << endl;
2925 if (!Trout)
2926 Trout = C;
2927 else
2928 Trout->AddFriend(C);
2929 }
2930 else {
2931 cout << "Calorimeter : missing tree" << endl;
2932 };
2933
2934 // ToF
2935 TTree *O = (TTree*) f->Get("ToF");
2936 if (O && TOF) {
2937 O->SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2"));
2938 cout << "ToF : set branch address ToFLevel2" << endl;
2939 if (!Trout)
2940 Trout = O;
2941 else
2942 Trout->AddFriend(O);
2943 }
2944 else {
2945 cout << "ToF : missing tree" << endl;
2946 };
2947 // Trigger
2948 TTree *R = (TTree*) f->Get("Trigger");
2949 if (R && TRG) {
2950 R->SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2"));
2951 cout << "Trigger : set branch address TrigLevel2" << endl;
2952 if (!Trout)
2953 Trout = R;
2954 else
2955 Trout->AddFriend(R);
2956 }
2957 else {
2958 cout << "Trigger : missing tree" << endl;
2959 };
2960 // S4
2961 TTree *S = (TTree*) f->Get("S4");
2962 if (S && S4) {
2963 S->SetBranchAddress("S4Level2", GetPointerTo("S4Level2"));
2964 cout << "S4 : set branch address S4Level2" << endl;
2965 if (!Trout)
2966 Trout = S;
2967 else
2968 Trout->AddFriend(S);
2969 }
2970 else {
2971 cout << "S4 : missing tree" << endl;
2972 };
2973 // Neutron Detector
2974 TTree *N = (TTree*) f->Get("NeutronD");
2975 if (N && ND) {
2976 N->SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2"));
2977 cout << "NeutronD : set branch address NDLevel2" << endl;
2978 if (!Trout)
2979 Trout = N;
2980 else
2981 Trout->AddFriend(N);
2982 }
2983 else {
2984 cout << "NeutronD : missing tree" << endl;
2985 };
2986 // Anticounters
2987 TTree *A = (TTree*) f->Get("Anticounter");
2988 if (A && AC) {
2989 A->SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2"));
2990 cout << "Anticounter : set branch address AcLevel2" << endl;
2991 if (!Trout)
2992 Trout = A;
2993 else
2994 Trout->AddFriend(A);
2995 }
2996 else {
2997 cout << "Anticounter : missing tree" << endl;
2998 };
2999 // Orbital Info
3000 TTree *B = (TTree*) f->Get("OrbitalInfo");
3001 if (B && ORB) {
3002 B->SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo"));
3003 cout << "OrbitalInfo : set branch address OrbitalInfo" << endl;
3004 if (!Trout)
3005 Trout = B;
3006 else
3007 Trout->AddFriend(B);
3008 }
3009 else {
3010 cout << "OrbitalInfo : missing tree" << endl;
3011 };
3012
3013 // GPamela
3014 TTree *G = (TTree*) f->Get("h20");
3015 if (G && GP) {
3016 if (!gp_obj)
3017 gp_obj = new GPamela();
3018 // ------------------------------------
3019 // ATTENZIONE!!!
3020 // non so per quale arcano motivo,
3021 // per l'albero di gpamela il branch address lo devo settare
3022 // DOPO aver fatto friend
3023 // FGRRRVZZZZUTSALKJMSLKJ!!!
3024 // ------------------------------------
3025 // gp_obj->SetBranchAddress(G); //ho dovuto fare in maniera diversa dagli altri
3026 // cout << "h20 : set branch address GPamela "<<endl;
3027 if (!Trout)
3028 Trout = G;
3029 else
3030 Trout->AddFriend(G);
3031 }
3032 else {
3033 // cout << "h20 : missing tree"<<endl;
3034 };
3035
3036 TTree *L = (TTree*) f->Get("SelectionList");
3037 if (L && SELLI == 1) {
3038 cout << " TTree *PamLevel2::GetPamTree(TFile, TString) >>> SelectionList not implemented!!!!" << endl;
3039 sel_tree = 0;
3040 }
3041 else {
3042 cout << "SelectionList : missing tree" << endl;
3043 };
3044
3045 cout << endl << " Number of entries: " << Trout->GetEntries() << endl << endl;
3046
3047 // ------------------------------------
3048 // ATTENZIONE!!!
3049 // non so per quale arcano motivo,
3050 // per l'albero di gpamela il branch address lo devo settare
3051 // DOPO aver fatto friend
3052 // FGRRRVZZZZUTSALKJMSLKJ!!!
3053 // ------------------------------------
3054 if (G && GP) {
3055 gp_obj->SetBranchAddress(Trout); //ho dovuto fare in maniera diversa dagli altri
3056 cout << "h20 : set branch address GPamela " << endl;
3057 }
3058 else {
3059 cout << "h20 : missing tree" << endl;
3060 };
3061
3062 pam_tree = (TChain*) Trout;
3063
3064 return Trout;
3065
3066 }
3067 //--------------------------------------
3068 //
3069 //
3070 //--------------------------------------
3071 /**
3072 * Get list of Level2 files.
3073 * @param ddir Level2 data directory.
3074 * @param flisttxt Name of txt file containing file list.
3075 * @return Pointer to a TList of TSystemFiles
3076 * If no input file list is given , all the Level2 files inside the directory are processed.
3077 */
3078 TList* PamLevel2::GetListOfLevel2Files(TString ddir, TString flisttxt = "") {
3079
3080 TString wdir = gSystem->WorkingDirectory();
3081
3082 if (ddir != "") {
3083 cout << "Level2 data directory : " << ddir << endl;
3084 }
3085 else {
3086 cout << "Level2 data directory not given as input: trying to evaluate from list or taking working directory "
3087 << endl;
3088 };
3089 TList *contents = new TList; // create output list
3090 contents->SetOwner();
3091
3092 // --------------------------------------
3093 // case 1 : input file/file-list provided
3094 // --------------------------------------
3095 if (flisttxt != "") {
3096
3097 // --------------------------------------
3098 // a list of files given as input
3099 // --------------------------------------
3100 if (!flisttxt.EndsWith(".root")) {
3101
3102 TString dir = gSystem->DirName(flisttxt);
3103 // cout << " List directory "<<dir<<endl;
3104 if (dir == "." || dir == "")
3105 flisttxt = gSystem->ConcatFileName(wdir.Data(), gSystem->BaseName(flisttxt));
3106 // flisttxt = gSystem->ConcatFileName(gSystem->DirName(flisttxt),gSystem->BaseName(flisttxt));
3107
3108 if (!gSystem->ChangeDirectory(ddir)) {
3109 cout << "Cannot change directory : " << ddir << endl;
3110 return 0;
3111 }
3112
3113 cout << "Input file list : " << flisttxt << endl;
3114 ifstream in;
3115 in.open(flisttxt, ios::in); //open input file list
3116 if (!in.good()) {
3117 cout << " TList* PamLevel2::GetListOfLevel2Files(TString, TString) --> ERROR opening the file " << endl;
3118 gSystem->ChangeDirectory(wdir); // back to the working directory
3119 return 0;
3120 }
3121 int line = 0;
3122 // ...........................
3123 // loop over file-list records
3124 // ...........................
3125 while (1) {
3126 TString file;
3127 in >> file;
3128 if (!in.good())
3129 break;
3130 line++;
3131 cout << "(*) " << file << endl;
3132 if (file.IsNull()) {
3133 cout << "-- list interrupted at line " << line << endl;
3134 break;
3135 }
3136 if (file.Contains("#"))
3137 file = file(0, file.First("#"));
3138 //
3139 // take only root files
3140 //
3141 if (file.EndsWith(".root")) {
3142 TString filedir;
3143 cout << ddir << endl;
3144 if ( ddir != "" ) {
3145 filedir = ddir; // take the input dir
3146 }
3147 else {
3148 gSystem->ChangeDirectory(wdir); // back to the working directory
3149 filedir = gSystem->DirName(file); // this will take the path if exist in the list otherwise it will return automatically the working dir
3150 };
3151 filedir.Append("/");
3152 // char *fullpath = gSystem->ConcatFileName(gSystem->DirName(filedir), gSystem->BaseName(file));
3153 char *fullpath = gSystem->ConcatFileName(filedir.Data(), gSystem->BaseName(file));
3154 contents->Add(new TSystemFile(fullpath, gSystem->DirName(fullpath)));// add file to the list
3155 cout << fullpath << endl;
3156 delete fullpath;
3157 }
3158 // }else{
3159 // if(file.Data()!="")cout << "File: "<<file<<" ---> missing "<< endl;
3160 // };
3161 };
3162 in.close();
3163 // --------------------------------------
3164 // a single root file given as input
3165 // --------------------------------------
3166 }
3167 else {
3168 if (flisttxt.Contains("#"))
3169 flisttxt = flisttxt(0, flisttxt.First("#"));
3170 char *fullpath = gSystem->ConcatFileName(gSystem->DirName(flisttxt), gSystem->BaseName(flisttxt));
3171 contents->Add(new TSystemFile(fullpath, gSystem->DirName(fullpath)));// add file to the list
3172 delete fullpath;
3173 };
3174 // ---------------------------------------------------------------------------------
3175 // case 2 : no input file/file-list provided --> read all files insede the directory
3176 // ---------------------------------------------------------------------------------
3177 }
3178 else {
3179
3180 cout << "No input file list given." << endl;
3181 cout << "Check for existing root files." << endl;
3182 // cout << "Warking directory: "<< gSystem->WorkingDirectory()<< endl;
3183 if (ddir == "") {
3184 ddir = wdir;
3185 cout << "Level2 data directory : " << ddir << endl;
3186 };
3187
3188 TSystemDirectory *datadir = new TSystemDirectory(gSystem->BaseName(ddir), ddir);
3189 TList *temp = datadir->GetListOfFiles();
3190 if (!temp)
3191 return 0;
3192 // temp->Print();
3193 // cout << "*************************************" << endl;
3194
3195 TIter next(temp);
3196 TSystemFile *questo = 0;
3197
3198 while ((questo = (TSystemFile*) next())) {
3199 TString name = questo-> GetName();
3200 if (name.EndsWith(".root")) {
3201 // const char *fullpath = gSystem->FindFile(ddir,name);
3202 // char *fullpath;
3203 // gSystem->IsFileInIncludePath(name,&fullpath);
3204 char *fullpath = gSystem->ConcatFileName(gSystem->DirName(ddir), gSystem->BaseName(name));
3205 contents->Add(new TSystemFile(fullpath, gSystem->DirName(fullpath)));
3206 delete fullpath;
3207 };
3208 }
3209 delete temp;
3210 delete datadir;
3211
3212 };
3213 gSystem->ChangeDirectory(wdir); // back to the working directory
3214 // cout << endl << "Selected files:" << endl;
3215 // contents->Print();
3216 cout << contents->GetEntries() << " files \n";
3217 // cout << endl;
3218 // cout << "Working directory: "<< gSystem->WorkingDirectory()<< endl;
3219 return contents;
3220 }
3221 ;
3222 //--------------------------------------
3223 //
3224 //
3225 //--------------------------------------
3226 /**
3227 * Get the Pamela detector chains from a list of files and make them friends.
3228 * @param fl Pointer to a TList of TSystemFiles
3229 * @param detlist String to select trees to be included
3230 * @return Pointer to a TChain
3231 */
3232 TChain *PamLevel2::GetPamTree(TList *fl, TString detlist) {
3233 //
3234 //
3235 //
3236 if (pam_tree) {
3237 printf("WARNING: TChain *PamLevel2::GetPamTree(TList *fl, TString detlist) -- pam_tree already exists!\n ");
3238 return pam_tree;
3239 };
3240 //
3241
3242 TChain *Trout = 0;
3243
3244 // -------------------------------------------
3245 // set flags to include/exclude trees/branches
3246 // -------------------------------------------
3247 if (detlist.Contains("+AUTO", TString::kIgnoreCase)) {
3248 if (fl->GetEntries() > 0) {
3249 cout << "+AUTO" << endl;
3250 TFile *fprimo = new TFile(fl->At(0)->GetName());
3251 GetWhichTrees(fprimo);
3252 fprimo->Close();// AAAAARGGGGGHHHHH!!!!!!! non commentare questa riga, altrimenti si incasina il TChain
3253 fprimo->Delete();
3254 }
3255 };
3256 SetWhichTrees(detlist);
3257
3258 // -------------------------------------------
3259 // build chains
3260 // -------------------------------------------
3261 TChain *T = 0;
3262 TChain *C = 0;
3263 TChain *O = 0;
3264 TChain *R = 0;
3265 TChain *S = 0;
3266 TChain *N = 0;
3267 TChain *A = 0;
3268 TChain *B = 0;
3269 TChain *G = 0;
3270
3271 TChain *L = 0;
3272
3273 if (TRK2 || TRK1 || TRKh)
3274 T = new TChain("Tracker");
3275 if (CAL2 || CAL1)
3276 C = new TChain("Calorimeter");
3277 if (TOF)
3278 O = new TChain("ToF");
3279 if (TRG)
3280 R = new TChain("Trigger");
3281 if (S4)
3282 S = new TChain("S4");
3283 if (ND)
3284 N = new TChain("NeutronD");
3285 if (AC)
3286 A = new TChain("Anticounter");
3287 if (ORB)
3288 B = new TChain("OrbitalInfo");
3289 if (GP)
3290 G = new TChain("h20");
3291 L = new TChain("SelectionList");
3292
3293 // loop over files and create chains
3294 TIter next(fl);
3295 TSystemFile *questo = 0;
3296 while ((questo = (TSystemFile*) next())) {
3297 TString name = questo->GetName();
3298 cout << "File: " << name << endl;
3299 if (CheckLevel2File(name)) {
3300 if (TRK2 || TRK1 || TRKh)
3301 T->Add(name);
3302 if (CAL1 || CAL2)
3303 C->Add(name);
3304 if (TOF)
3305 O->Add(name);
3306 if (TRG)
3307 R->Add(name);
3308 if (S4)
3309 S->Add(name);
3310 if (ND)
3311 N->Add(name);
3312 if (AC)
3313 A->Add(name);
3314 if (ORB)
3315 B->Add(name);
3316 if (GP)
3317 G->Add(name);
3318 if (SELLI == 1)
3319 L->Add(name);
3320 };
3321 };
3322
3323 cout << "done data-tree chains "<< T->GetNtrees() <<" \n";
3324 cout << "----------------------------------------------------" << endl;
3325
3326 // -------------------------------------------
3327 // make friends
3328 // -------------------------------------------
3329
3330 // Tracker
3331 cout << "Friends: " << endl;
3332 if (T && (TRK2 || TRK1 || TRKh)) {
3333 if (!Trout)
3334 Trout = T;
3335 else
3336 Trout->AddFriend("Tracker");
3337 // cout << "+Tacker"<<endl;
3338 };
3339 // Calorimeter
3340 if (C && (CAL2 || CAL1)) {
3341 if (!Trout)
3342 Trout = C;
3343 else
3344 Trout->AddFriend("Calorimeter");
3345 // cout << "+Calorimeter"<<endl;
3346 };
3347 // ToF
3348 if (O && TOF) {
3349 if (!Trout)
3350 Trout = O;
3351 else
3352 Trout->AddFriend("ToF");
3353 // cout << "+ToF"<<endl;
3354 };
3355 // Trigger
3356 if (R && TRG) {
3357 if (!Trout)
3358 Trout = O;
3359 else
3360 Trout->AddFriend("Trigger");
3361 // cout << "+Trigger"<<endl;
3362 };
3363 // S4
3364 if (S && S4) {
3365 if (!Trout)
3366 Trout = O;
3367 else
3368 Trout->AddFriend("S4");
3369 // cout << "+S4"<<endl;
3370 };
3371 // Neutron Detector
3372 if (N && ND) {
3373 if (!Trout)
3374 Trout = O;
3375 else
3376 Trout->AddFriend("NeutronD");
3377 // cout << "+NeutronD"<<endl;
3378 };
3379 // Anticounters
3380 if (A && AC) {
3381 if (!Trout)
3382 Trout = O;
3383 else
3384 Trout->AddFriend("Anticounter");
3385 // cout << "+Anticounter"<<endl;
3386 };
3387 // Orbital Info
3388 if (B && ORB) {
3389 if (!Trout)
3390 Trout = O;
3391 else
3392 Trout->AddFriend("OrbitalInfo");
3393 // cout << "+OrbitalInfo"<<endl;
3394 };
3395 // GPamela
3396 if (G && GP) {
3397 if (!Trout)
3398 Trout = G;
3399 else
3400 Trout->AddFriend("h20");
3401 // cout << "+h20"<<endl;
3402 };
3403
3404 // =====================================
3405 // SET BRANCH-ADDRESS AFTER CHAIN+FRIEND
3406 // =====================================
3407 if( Trout->GetNtrees() )SetBranchAddress(Trout);
3408
3409 // ------------------------------------
3410 // finally handle selection trees...
3411 // (it is not friend of pamela tree)
3412 // ------------------------------------
3413
3414 cout << "----------------------------------------------------" << endl;
3415
3416 // Selection List
3417 if (L && SELLI == 1) {
3418 cout << ">>> Found selection-list <<<" << endl;
3419 // L->SetBranchAddress("RunEntry",&irun);
3420 L->SetBranchAddress("RunEntry", &irunt);//NEWNEW
3421 cout << "SelectionList: set branch address RunEntry" << endl;
3422 L->SetBranchAddress("EventEntry", &irunentry);
3423 cout << "SelectionList: set branch address EventEntry" << endl;
3424 /* if ( L->GetBranch("L0EventEntry") ){
3425 hasL0EE = true;
3426 L->SetBranchAddress("L0EventEntry", &il0entry);
3427 cout << "SelectionList: set branch address L0EventEntry" << endl;
3428 } else {
3429 hasL0EE = false; // backward compatibility with old preselected files...
3430 }*/
3431 sel_tree = L;
3432 // if(!Trout)Trout=O;
3433 // else Trout->AddFriend("SelectionList");
3434 cout << "+SelectionList" << endl;
3435 cout << "----------------------------------------------------" << endl;
3436 }
3437 else {
3438 // cout << "SelectionList : missing tree"<<endl;
3439 if (L)
3440 L->Delete();
3441 };
3442
3443 // --------------------------------------------
3444 // return the pamela chain with all the friends
3445 // --------------------------------------------
3446
3447 pam_tree = Trout;
3448
3449 return Trout;
3450 }
3451
3452 //--------------------------------------
3453 //
3454 //
3455 //--------------------------------------
3456 /**
3457 * Set branch addresses for Pamela friend trees
3458 */
3459 void PamLevel2::SetBranchAddress(TTree *t) {
3460
3461 // TRK2 = TRK2 & t->GetBranchStatus("TrkLevel2");
3462 // TRK1 = TRK1 & t->GetBranchStatus("TrkLevel1");
3463 // TRKh = TRKh & t->GetBranchStatus("TrkHough");
3464 // CAL2 = CAL2 & t->GetBranchStatus("CaloLevel2");
3465 // CAL1 = CAL1 & t->GetBranchStatus("CaloLevel1");
3466 // TOF = TOF & t->GetBranchStatus("ToFLevel2");
3467 // TRG = TRG & t->GetBranchStatus("TrigLevel2");
3468 // S4 = S4 & t->GetBranchStatus("S4Level2");
3469 // ND = ND & t->GetBranchStatus("NDLevel2");
3470 // AC = AC & t->GetBranchStatus("AcLevel2");
3471 // ORB = ORB & t->GetBranchStatus("OrbitalInfo");
3472 // GP = GP & t->GetBranchStatus("h20");
3473
3474
3475 // Tracker
3476 if (TRK1) {
3477 t->SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel2"));
3478 cout << "Tracker : set branch address TrkLevel1" << endl;
3479 };
3480 if (TRK2) {
3481 t->SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel1"));
3482 cout << "Tracker : set branch address TrkLevel2" << endl;
3483 NUC = t->GetBranchStatus("TrackNuclei");
3484 EXT = t->GetBranchStatus("RecoveredTrack") && (NUC ? t->GetBranchStatus("RecoveredTrackNuclei"): true );
3485 };
3486 if (TRKh) {
3487 t->SetBranchAddress("TrkHough", GetPointerTo("TrkHough"));
3488 cout << "Tracker : set branch address TrkHough" << endl;
3489 };
3490
3491 // Calorimeter
3492 if (CAL1) {
3493 t->SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1"));
3494 cout << "Calorimeter : set branch address CaloLevel1" << endl;
3495 };
3496 if (CAL2) {
3497 t->SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2"));
3498 cout << "Calorimeter : set branch address CaloLevel2" << endl;
3499 };
3500
3501 // ToF
3502 if (TOF) {
3503 t->SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2"));
3504 cout << "ToF : set branch address ToFLevel2" << endl;
3505 };
3506 // Trigger
3507 if (TRG) {
3508 t->SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2"));
3509 cout << "Trigger : set branch address TrigLevel2" << endl;
3510 };
3511 // S4
3512 if (S4) {
3513 t->SetBranchAddress("S4Level2", GetPointerTo("S4Level2"));
3514 cout << "S4 : set branch address S4Level2" << endl;
3515 };
3516 // Neutron Detector
3517 if (ND) {
3518 t->SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2"));
3519 cout << "NeutronD : set branch address NDLevel2" << endl;
3520 };
3521 // Anticounters
3522 if (AC) {
3523 t->SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2"));
3524 cout << "Anticounter : set branch address AcLevel2" << endl;
3525 };
3526 // OrbitalInfo
3527 if (ORB) {
3528 t->SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo"));
3529 cout << "OrbitalInfo : set branch address OrbitalInfo" << endl;
3530 };
3531 // GPamela
3532 if (GP) {
3533 // GetPointerTo("GPamela");
3534 if (!gp_obj)
3535 gp_obj = new GPamela();
3536 // gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri
3537 // // t->SetBranchAddress("GPamela", GetPointerTo("GPamela"));
3538 if (SELLI)
3539 t->SetBranchAddress("GPamela", GetPointerTo("GPamela"));
3540 else
3541 gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri
3542
3543 cout << "h20 : set branch address GPamela " << endl;
3544 };
3545 if(NUC){
3546
3547 cout << "Found nuclei-track branches" << endl;
3548
3549 if( !trk_nuc_obj )trk_nuc_obj = new TClonesArray("TrkTrack");
3550 if( !calo_nuc_obj)calo_nuc_obj= new TClonesArray("CaloTrkVar");
3551 if( !tof_nuc_obj)tof_nuc_obj= new TClonesArray("ToFTrkVar");
3552 if( !orb_nuc_obj)orb_nuc_obj= new TClonesArray("OrbitalInfoTrkVar");
3553 if (TRK2)t-> SetBranchAddress("TrackNuclei",&trk_nuc_obj);
3554 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("TrackNuclei",&calo_nuc_obj);
3555 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("TrackNuclei",&tof_nuc_obj);
3556 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("TrackNuclei",&orb_nuc_obj);
3557
3558 ///copy the vector content inside a "fake" object (all aother info are missing)
3559
3560 if( !trk2_nuc_obj )trk2_nuc_obj = new TrkLevel2();
3561 if( !calo2_nuc_obj )calo2_nuc_obj = new CaloLevel2();
3562 if( !tof2_nuc_obj )tof2_nuc_obj = new ToFLevel2();
3563 if( !orb2_nuc_obj )orb2_nuc_obj = new OrbitalInfo();
3564 // *(trk2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*trk_nuc_obj);
3565 // *(calo2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*calo_nuc_obj);
3566 // *(tof2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*tof_nuc_obj);
3567 // *(orb2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*orb_nuc_obj);
3568
3569 trk2_nuc_obj->SetTrackArray( trk_nuc_obj );
3570 calo2_nuc_obj->SetTrackArray( calo_nuc_obj );
3571 tof2_nuc_obj->SetTrackArray( tof_nuc_obj );
3572 orb2_nuc_obj->SetTrackArray( orb_nuc_obj );
3573
3574
3575 }
3576
3577 if(EXT){
3578
3579 cout << "Found extended tracking algorythm branches" << endl;
3580
3581 if( !trk_ext_obj )trk_ext_obj = new TClonesArray("ExtTrack");
3582 if( !calo_ext_obj)calo_ext_obj= new TClonesArray("CaloTrkVar");
3583 if( !tof_ext_obj)tof_ext_obj= new TClonesArray("ToFTrkVar");
3584 if( !orb_ext_obj)orb_ext_obj= new TClonesArray("OrbitalInfoTrkVar");
3585
3586 if (TRK2)t-> SetBranchAddress("RecoveredTrack",&trk_ext_obj);
3587 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("RecoveredTrack",&calo_ext_obj);
3588 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("RecoveredTrack",&tof_ext_obj);
3589 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("RecoveredTrack",&orb_ext_obj);
3590
3591
3592 if(NUC){
3593 if( !trk_ext_nuc_obj )trk_ext_nuc_obj = new TClonesArray("ExtTrack");
3594 if( !calo_ext_nuc_obj)calo_ext_nuc_obj= new TClonesArray("CaloTrkVar");
3595 if( !tof_ext_nuc_obj)tof_ext_nuc_obj= new TClonesArray("ToFTrkVar");
3596 if( !orb_ext_nuc_obj)orb_ext_nuc_obj= new TClonesArray("OrbitalInfoTrkVar");
3597 if (TRK2)t-> SetBranchAddress("RecoveredTrackNuclei",&trk_ext_nuc_obj);
3598 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("RecoveredTrackNuclei",&calo_ext_nuc_obj);
3599 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("RecoveredTrackNuclei",&tof_ext_nuc_obj);
3600 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("RecoveredTrackNuclei",&orb_ext_nuc_obj);
3601 }
3602 }
3603 }
3604 /**
3605 * Set branch addresses for Pamela friend trees
3606 */
3607 void PamLevel2::SetBranchAddress(TChain *t) {
3608
3609 // TRK2 = TRK2 & t->GetBranchStatus("TrkLevel2");
3610 // TRK1 = TRK1 & t->GetBranchStatus("TrkLevel1");
3611 // TRKh = TRKh & t->GetBranchStatus("TrkHough");
3612 // CAL1 = CAL1 & t->GetBranchStatus("CaloLevel1");
3613 // CAL2 = CAL2 & t->GetBranchStatus("CaloLevel2");
3614 // TOF = TOF & t->GetBranchStatus("ToFLevel2");
3615 // TRG = TRG & t->GetBranchStatus("TrigLevel2");
3616 // S4 = S4 & t->GetBranchStatus("S4Level2");
3617 // ND = ND & t->GetBranchStatus("NDLevel2");
3618 // AC = AC & t->GetBranchStatus("AcLevel2");
3619 // ORB = ORB & t->GetBranchStatus("OrbitalInfo");
3620 // GP = GP & t->GetBranchStatus("h20");
3621
3622 // Tracker
3623 if (TRK2) {
3624 t->SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel2"));
3625 cout << "Tracker : set branch address TrkLevel2" << endl;
3626 NUC = t->GetBranchStatus("TrackNuclei");
3627 EXT = t->GetBranchStatus("RecoveredTrack") && (NUC ? t->GetBranchStatus("RecoveredTrackNuclei"): true );
3628 };
3629 if (TRK1) {
3630 t->SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel1"));
3631 cout << "Tracker : set branch address TrkLevel1" << endl;
3632 };
3633 if (TRKh) {
3634 t->SetBranchAddress("TrkHough", GetPointerTo("TrkHough"));
3635 cout << "Tracker : set branch address TrkHough" << endl;
3636 };
3637
3638 // Calorimeter
3639 if (CAL2) {
3640 t->SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2"));
3641 cout << "Calorimeter : set branch address CaloLevel2" << endl;
3642 };
3643 if (CAL1) {
3644 t->SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1"));
3645 cout << "Calorimeter : set branch address CaloLevel1" << endl;
3646 };
3647
3648 // ToF
3649 if (TOF) {
3650 t->SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2"));
3651 cout << "ToF : set branch address ToFLevel2" << endl;
3652 };
3653 // Trigger
3654 if (TRG) {
3655 t->SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2"));
3656 cout << "Trigger : set branch address TrigLevel2" << endl;
3657 };
3658 // S4
3659 if (S4) {
3660 t->SetBranchAddress("S4Level2", GetPointerTo("S4Level2"));
3661 cout << "S4 : set branch address S4Level2" << endl;
3662 };
3663 // Neutron Detector
3664 if (ND) {
3665 t->SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2"));
3666 cout << "NeutronD : set branch address NDLevel2" << endl;
3667 };
3668 // Anticounters
3669 if (AC) {
3670 t->SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2"));
3671 cout << "Anticounter : set branch address AcLevel2" << endl;
3672 };
3673 // OrbitalInfo
3674 if (ORB) {
3675 t->SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo"));
3676 cout << "OrbitalInfo : set branch address OrbitalInfo" << endl;
3677 };
3678 // GPamela
3679 // cout <<"GP "<<GP<<endl;
3680 if (GP) {
3681 // GetPointerTo("GPamela");
3682 if (!gp_obj)
3683 gp_obj = new GPamela();
3684 if (SELLI)
3685 t->SetBranchAddress("GPamela", GetPointerTo("GPamela"));
3686 else
3687 gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri
3688 // gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri
3689 cout << "h20 : set branch address GPamela " << endl;
3690 };
3691 // SelectionList
3692 // if(SELLI==1){
3693 // t->SetBranchAddress("RunEntry",&irunt);//NEWNEW
3694 // cout << "SelectionList: set branch address RunEntry"<<endl;
3695 // t->SetBranchAddress("EventEntry",&irunentry);
3696 // cout << "SelectionList: set branch address EventEntry"<<endl;
3697
3698 // }
3699 if(NUC){
3700
3701 cout << "Found nuclei-track branches" << endl;
3702
3703 if( !trk_nuc_obj )trk_nuc_obj = new TClonesArray("TrkTrack");
3704 if( !calo_nuc_obj)calo_nuc_obj= new TClonesArray("CaloTrkVar");
3705 if( !tof_nuc_obj)tof_nuc_obj= new TClonesArray("ToFTrkVar");
3706 if( !orb_nuc_obj)orb_nuc_obj= new TClonesArray("OrbitalInfoTrkVar");
3707 if (TRK2)t-> SetBranchAddress("TrackNuclei",&trk_nuc_obj);
3708 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("TrackNuclei",&calo_nuc_obj);
3709 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("TrackNuclei",&tof_nuc_obj);
3710 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("TrackNuclei",&orb_nuc_obj);
3711
3712 ///copy the vector content inside a "fake" object (all aother info are missing)
3713
3714 if( !trk2_nuc_obj )trk2_nuc_obj = new TrkLevel2();
3715 if( !calo2_nuc_obj )calo2_nuc_obj = new CaloLevel2();
3716 if( !tof2_nuc_obj )tof2_nuc_obj = new ToFLevel2();
3717 if( !orb2_nuc_obj )orb2_nuc_obj = new OrbitalInfo();
3718
3719 // *(trk2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*trk_nuc_obj);
3720 // *(calo2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*calo_nuc_obj);
3721 // *(tof2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*tof_nuc_obj);
3722 // *(orb2_nuc_obj->GetPointerToTrackArray()) = new TClonesArray(*orb_nuc_obj);
3723 trk2_nuc_obj->SetTrackArray( trk_nuc_obj );
3724 calo2_nuc_obj->SetTrackArray( calo_nuc_obj );
3725 tof2_nuc_obj->SetTrackArray( tof_nuc_obj );
3726 orb2_nuc_obj->SetTrackArray( orb_nuc_obj );
3727
3728 }
3729 if(EXT){
3730
3731 cout << "Found extended tracking algorythm branches" << endl;
3732
3733 t->SetBranchAddress("extAlgFlag",&extAlgFlag);
3734
3735 if( !trk_ext_obj )trk_ext_obj = new TClonesArray("ExtTrack");
3736 if( !calo_ext_obj)calo_ext_obj= new TClonesArray("CaloTrkVar");
3737 if( !tof_ext_obj)tof_ext_obj= new TClonesArray("ToFTrkVar");
3738 if( !orb_ext_obj)orb_ext_obj= new TClonesArray("OrbitalInfoTrkVar");
3739
3740 if (TRK2)t-> SetBranchAddress("RecoveredTrack",&trk_ext_obj);
3741 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("RecoveredTrack",&calo_ext_obj);
3742 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("RecoveredTrack",&tof_ext_obj);
3743 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("RecoveredTrack",&orb_ext_obj);
3744
3745 if(NUC){
3746 if( !trk_ext_nuc_obj )trk_ext_nuc_obj = new TClonesArray("ExtTrack");
3747 if( !calo_ext_nuc_obj)calo_ext_nuc_obj= new TClonesArray("CaloTrkVar");
3748 if( !tof_ext_nuc_obj)tof_ext_nuc_obj= new TClonesArray("ToFTrkVar");
3749 if( !orb_ext_nuc_obj)orb_ext_nuc_obj= new TClonesArray("OrbitalInfoTrkVar");
3750 if (TRK2)t-> SetBranchAddress("RecoveredTrackNuclei",&trk_ext_nuc_obj);
3751 if (CAL2)t->GetFriend("Calorimeter")->SetBranchAddress("RecoveredTrackNuclei",&calo_ext_nuc_obj);
3752 if (TOF )t->GetFriend("ToF")-> SetBranchAddress("RecoveredTrackNuclei",&tof_ext_nuc_obj);
3753 if (ORB )t->GetFriend("OrbitalInfo")->SetBranchAddress("RecoveredTrackNuclei",&orb_ext_nuc_obj);
3754 }
3755 }
3756
3757 }
3758
3759 /**
3760 * Set the tracking algorythm
3761 * @param alg String to choose the track.
3762 * "" --> take the output of the standard tracking algorythm
3763 * "STD" --> take the output of the standard tracking algorythm
3764 * "NUC" --> take the output of the standard tracking algorythm for nuclei cluster selection
3765 * "EXT" --> in case the standard tracking algorythm has not found any track, take the output of the extended one
3766 * "EXTF" --> force the extended tracking algorythm
3767 * "NUCEXT" --> as "EXT", but for nuclei
3768 * "NUCEXTF" --> as "EXTF", but for nuclei
3769 */
3770 void PamLevel2::SetTrakingAlgorythm(char *alg){
3771
3772
3773 TString s(alg);
3774 if(s.Contains("NUC", TString::kIgnoreCase) && !NUC)
3775 cout << "Warning! NUC algorythm requested, but branches are missing"<<endl;
3776 if(s.Contains("EXT", TString::kIgnoreCase) && !EXT)
3777 cout << "Warning! EXT algorythm requested, but branches are missing"<<endl;;
3778
3779 trkAlg = alg;
3780
3781 };
3782 char* PamLevel2::GetTrakingAlgorythm(){
3783
3784
3785 cout<<endl<<" Implemented tracking algorythm: ";
3786 cout<<endl<<" \"\" or \"STD\" --> take the output of the standard tracking algorythm";
3787 cout<<endl<<" \"NUC\" --> take the output of the standard tracking algorythm for nuclei cluster selection";
3788 cout<<endl<<" \"EXT\" --> in case the standard tracking algorythm has not found any track,";
3789 cout<<endl<<" take the output of the extended one";
3790 cout<<endl<<" \"EXTF\" --> force the extended tracking algorythm";
3791 cout<<endl<<" \"NUCEXT\" --> as \"EXT\", but for nuclei ";
3792 cout<<endl<<" \"NUCEXTF\" --> as \"EXTF\", but for nuclei";
3793
3794 cout<<endl;
3795 cout<<" <<Currently set algorythm>> "<<trkAlg<<endl;
3796 cout<<endl;
3797
3798 return trkAlg;
3799 };
3800
3801
3802
3803 //--------------------------------------
3804 //
3805 //
3806 //--------------------------------------
3807 /**
3808 * Get the Run tree chain from a list of files.
3809 * @param fl Pointer to a TList of TSystemFiles
3810 * @return Pointer to a TChain
3811 */
3812 TChain *PamLevel2::GetRunTree(TList *fl) {
3813 //
3814 //
3815 //
3816 if (run_tree) {
3817 printf("WARNING: TChain *PamLevel2::GetRunTree(TList *fl) -- run_tree already exists!\n ");
3818 return run_tree;
3819 };
3820 //
3821
3822
3823 TChain *R = new TChain("Run");
3824
3825 // loop over files and create chains
3826 TIter next(fl);
3827 TSystemFile *questo = 0;
3828 while ((questo = (TSystemFile*) next())) {
3829 TString name = questo->GetName();
3830 // cout << "File: "<< name << endl;
3831 if (CheckLevel2File(name)) {
3832 R->Add(name);
3833 };
3834 }
3835
3836 cout << "done run chain "<< R->GetNtrees() <<" \n";
3837
3838
3839 if (RUN && R->GetNtrees()) {
3840
3841 R->SetBranchAddress("RunInfo", GetPointerTo("RunInfo"));
3842 cout << "Run : set branch address RunInfo" << endl;
3843 R->SetBranchAddress("SoftInfo", GetPointerTo("SoftInfo")); // Emiliano
3844 cout << "Software : set branch address SoftInfo" << endl; // Emiliano
3845
3846 irunoffset = new int[R->GetNtrees()];
3847 if (DBG) {
3848 cout << "----------------------------------------------------" << endl;
3849 cout << "irun\t | ";
3850 cout << "tree\t |";
3851 // cout << "offset\t |";
3852 cout << "RUN\t";
3853 cout << "FRAG\t";
3854 cout << "NEVENTS\t";
3855 cout << "absolute time\t\t\t";
3856 cout << "on-board time";
3857 cout << endl;
3858 }
3859 for (Int_t ii = 0; ii < R->GetEntries(); ii++) {
3860 R->GetEntry(ii);
3861 if (DBG) {
3862 cout << ii << "\t | ";
3863 cout << R->GetTreeNumber() << "\t |";
3864 // cout << R->GetChainOffset()<< "\t |";
3865 cout << GetRunInfo()->ID << "\t";
3866 cout << GetRunInfo()->ID_RUN_FRAG << "\t";
3867 cout << GetRunInfo()->NEVENTS << "\t";
3868 cout << GetRunInfo()->RUNHEADER_TIME << " <---> " << GetRunInfo()->RUNTRAILER_TIME << "\t";
3869 cout << GetRunInfo()->RUNHEADER_OBT << " <---> " << GetRunInfo()->RUNTRAILER_OBT << "\t";
3870 cout << endl;
3871 }
3872 irunoffset[R->GetTreeNumber()] = R->GetChainOffset();
3873 }
3874 cout << "N.run = " << R->GetEntries() << endl;
3875 cout << "----------------------------------------------------" << endl;
3876
3877 }
3878 // else {
3879 // delete R;
3880 // R = 0;
3881 // }
3882
3883 run_tree = R;
3884
3885 return R;
3886
3887 }
3888 //--------------------------------------
3889 //
3890 //
3891 //--------------------------------------
3892 /**
3893 * Get the Run tree from a file.
3894 * @param f Pointer to a TFile
3895 * @return Pointer to a TTree
3896 */
3897 TTree *PamLevel2::GetRunTree(TFile *f) {
3898 if (run_tree) {
3899 printf("WARNING: TTree *PamLevel2::GetRunTree(TFile *f) -- run_tree already exists!\n ");
3900 return run_tree;
3901 };
3902
3903 cout << "TTree *PamLevel2::GetRunTree(TFile *f) -- obsolte " << endl;
3904
3905 TTree *T = (TTree*) f->Get("Run");
3906
3907 if (T) {
3908 T->SetBranchAddress("RunInfo", GetPointerTo("RunInfo"));
3909 cout << "Run : set branch address RunInfo" << endl;
3910 T->SetBranchAddress("SoftInfo", GetPointerTo("SoftInfo")); // Emiliano
3911 cout << "Software : set branch address SoftInfo" << endl; // Emiliano
3912
3913 }
3914
3915 run_tree = (TChain*) T;
3916
3917 return T;
3918
3919 }
3920
3921 Bool_t PamLevel2::UpdateRunInfo(Long64_t iev) {
3922
3923 if (DBG) printf("PamLevel2::UpdateRunInfo(Long64_t) - inside\n");
3924
3925 if (!run_tree) {
3926 cout << " Bool_t PamLevel2::UpdateRunInfo(ULong64_t iev) -- ERROR -- run tree not loaded" << endl;
3927 return false;
3928 }
3929 if (run_tree->GetEntries() <= 0) {
3930 cout << " Bool_t PamLevel2::UpdateRunInfo(ULong64_t iev) -- ERROR -- run tree is empty" << endl;
3931 return (false);
3932 }
3933
3934
3935 Int_t oldrun = irun; // store current run index
3936
3937 // -----------------------------------------------------------------------
3938 // the first time the routine is called, set run search from the beginning
3939 // -----------------------------------------------------------------------
3940
3941 if (irun < 0) {
3942 irun = 0LL;
3943 irunt = 0LL;
3944 totrunentry = 0LL;
3945 totrunentrymin = 0LL;
3946 totrunentrymax = 0LL;
3947 irunentry = 0LL;
3948 il0entry = 0LL;
3949 prevshift = 0;
3950 yprevshift = 0;
3951 prevabstime = 0;
3952 prevpktnum = 0;
3953 abstime = 0ULL;
3954 pktnum = 0;
3955 isFragment = false;
3956 run_tree->GetEntry(irun);
3957 if (!GetOrbitalInfo())
3958 cout << "** WARNING ** missing OrbitalInfo ---> run info might be not correctly updated " << endl;
3959 if ( fUseDBinRunInfo ){
3960 if (gltsync)
3961 delete gltsync; //Emiliano
3962 if (!dbc || (dbc && !dbc->IsConnected()))
3963 SetDBConnection(); //Emiliano
3964 gltsync = new GL_TIMESYNC(GetRunInfo()->ID_ROOT_L0, "ID", dbc, false); //Emiliano // the "false" means not to use level0 file (not necessary here)
3965 if (dbc){
3966 dbc->Close();// Emiliano
3967 delete dbc;
3968 dbc=0;
3969 }
3970 }
3971 }
3972 // ---------------------------------------------------------------
3973 // retrieve OBT and absolute time of the event
3974 // ---------------------------------------------------------------
3975 Long64_t obt = 0LL; // Emiliano, Long64_t GL_TIMESYNC::DBobt(UInt_t obt) since depending on the situation OBT is lowered or boosted
3976 prevabstime = abstime;
3977 prevpktnum = pktnum;
3978 if (GetOrbitalInfo()) {
3979 abstime = GetOrbitalInfo()->absTime;
3980 if ( fUseDBinRunInfo ) obt = gltsync->DBobt(GetOrbitalInfo()->OBT); // Emiliano
3981 pktnum = GetOrbitalInfo()->pkt_num; // Emiliano
3982 }
3983 else {
3984 abstime = GetRunInfo()->RUNHEADER_TIME;
3985 if ( fUseDBinRunInfo ) obt = gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT); // Emiliano
3986 pktnum = GetRunInfo()->RUNHEADER_PKT; // Emiliano
3987 }
3988
3989 if (DBG){
3990 printf("0abstime %lld %lld pktnum %d %d obt %lld \n",abstime,prevabstime,pktnum,prevpktnum,obt);
3991 printf("0 rth %d %d nevents %d \n",GetRunInfo()->RUNHEADER_TIME,GetRunInfo()->RUNTRAILER_TIME,GetRunInfo()->NEVENTS);
3992 printf("0 rto %d %d \n",GetRunInfo()->RUNHEADER_OBT,GetRunInfo()->RUNTRAILER_OBT);
3993 if ( fUseDBinRunInfo ) printf("0 rto2 %lld %lld \n",gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT),gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT));
3994 printf("0 bo irunentry %lld prevshift %lld irun %lld \n",irunentry,prevshift,irun);
3995 printf("0 min %lld iev %lld max %lld tot %lld \n",totrunentrymin,iev,totrunentrymax,totrunentry);
3996 }
3997
3998 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
3999 // if it is a full file (not preselected)
4000 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
4001 if (SELLI == 0 || SELLI == 2) { // Emiliano
4002
4003 // ---------------------------------------------------------------
4004 // increment dead and live-time counters
4005 // (only when reading a file not preselected)
4006 // ---------------------------------------------------------------
4007 if (SELLI == 0) {
4008 if (GetTrigLevel2()) {
4009 totdltime[0] += GetTrigLevel2()->dltime[0];
4010 totdltime[1] += GetTrigLevel2()->dltime[1];
4011 }
4012 totdltime[2]++;
4013 }
4014
4015 //
4016 bool a = true;
4017 bool b = true;
4018 if ( fUseDBinRunInfo ){
4019 a = false;
4020 b = false;
4021 if ( obt < gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT) ) a = true;
4022 if ( obt > gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT) ) b = true;
4023 }
4024 if ( iev < totrunentrymin || iev > totrunentrymax // entry is outside run limits
4025 || iev == 0 // or it is the first entry
4026 || (!isSync && (
4027 (abstime <= GetRunInfo()->RUNHEADER_TIME && a ) // or it is outside obt limits (and abstime limits for security reasons)
4028 || (abstime >= GetRunInfo()->RUNTRAILER_TIME && b ) ))// or it is outside obt limits (and abstime limits for security reasons)
4029 ){ // check on abstime and obt needed to handle nested+DV_skipped packets
4030
4031 // check for a new run (ma prima il primo!)
4032 if (DBG){
4033 printf("1abstime %lld %lld pktnum %d %d obt %lld \n",abstime,prevabstime,pktnum,prevpktnum,obt);
4034 printf("1 rth %d %d nevents %d \n",GetRunInfo()->RUNHEADER_TIME,GetRunInfo()->RUNTRAILER_TIME,GetRunInfo()->NEVENTS);
4035 printf("1 rto %d %d \n",GetRunInfo()->RUNHEADER_OBT,GetRunInfo()->RUNTRAILER_OBT);
4036 if ( fUseDBinRunInfo ) printf("1 rto2 %lld %lld \n",gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT),gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT));
4037 printf("1 bo irunentry %lld prevshift %lld irun %lld \n",irunentry,prevshift,irun);
4038 printf("1 min %lld iev %lld max %lld tot %lld \n",totrunentrymin,iev,totrunentrymax,totrunentry);
4039 }
4040 // printf("1abstime %lld %lld pktnum %d %d obt %lld \n",abstime,prevabstime,pktnum,prevpktnum,obt);
4041 // printf("1 rth %d %d nevents %d \n",GetRunInfo()->RUNHEADER_TIME,GetRunInfo()->RUNTRAILER_TIME,GetRunInfo()->NEVENTS);
4042 // printf("1 rto %d %d \n",GetRunInfo()->RUNHEADER_OBT,GetRunInfo()->RUNTRAILER_OBT);
4043 // printf("1 rto2 %lld %lld \n",gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT),gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT));
4044 // printf("1 bo irunentry %lld prevshift %lld irun %lld \n",irunentry,prevshift,irun);
4045 // printf("1 min %lld iev %lld max %lld tot %lld \n",totrunentrymin,iev,totrunentrymax,totrunentry);//TOGLITOGLI
4046
4047 totrunentry = 0LL;
4048 runfirstentry = 0LL;
4049 for (Int_t r=0; r< run_tree->GetEntries();r++){
4050 // -------------------------------------------------------------------
4051 // save the index of the first entry of the run, relative to pam_tree,
4052 // and read a new run
4053 // -------------------------------------------------------------------
4054 run_tree->GetEntry(r);//update runinfo
4055 if ( r > 0 ){
4056 totrunentrymin = totrunentrymax+1;
4057 } else {
4058 totrunentrymin = 0LL;
4059 }
4060 totrunentry += GetRunInfo()->NEVENTS;
4061 totrunentrymax = totrunentry - 1 - prevshift; // prevshift is needed to handle nested+DV_skipped packets
4062 irun = r;
4063 if ( fUseDBinRunInfo ){
4064 a = false;
4065 b = false;
4066 if ( obt < gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT) ) a = true;
4067 if ( obt > gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT) ) b = true;
4068 }
4069 if ( (iev >= totrunentrymin && iev <= totrunentrymax) || // entry is inside run limits
4070 ( !isSync &&
4071 ( abstime >= GetRunInfo()->RUNHEADER_TIME && a // or it is inside obt limits (and abstime limits for security reasons)
4072 && abstime <= GetRunInfo()->RUNTRAILER_TIME && b)) // or it is inside obt limits (and abstime limits for security reasons)
4073 ){ // check on abstime and obt needed to handle nested+DV_skipped packets
4074 if ( totrunentrymin > iev ){ // there is a shift (nested+DV_skipped packets)
4075 if ( !isSync ){
4076 if (DBG) printf("PamLevel2::UpdateRunInfo(Long64_t) - unconsistent iev - nevents, probable DBL0-L2 async\n");
4077 if (DBG) printf("PamLevel2::UpdateRunInfo(Long64_t) - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);
4078 // printf("PamLevel2::UpdateRunInfo(Long64_t) - unconsistent iev - nevents, probable DBL0-L2 async\n");
4079 // printf("PamLevel2::UpdateRunInfo(Long64_t) - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);//TOGLITOGLI
4080 prevshift += (totrunentrymin-iev); // add the new shift to total shift
4081 totrunentrymin -= (totrunentrymin-iev); // shift run position min
4082 totrunentrymax -= (totrunentrymin-iev); // shift run position max
4083 if (DBG) printf("PamLevel2::UpdateRunInfo(Long64_t) - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);
4084 // printf("PamLevel2::UpdateRunInfo(Long64_t) - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);//TOGLITOGLI
4085 } else {
4086 printf(" PamLevel2::UpdateRunInfo(Long64_t) ERROR! sync file but unconsistent totrunetrymin %lld and iev %lld!!! \n",totrunentrymin,iev);
4087 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
4088 cout << "\nFor bug reporting instructions, please see for example:\n";
4089 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
4090 cout << " " << endl;
4091 }
4092 }
4093 runfirstentry = totrunentrymin; // first entry of the run in the level2
4094
4095
4096 //
4097 if ( fUseDBinRunInfo ){
4098 if (gltsync)
4099 delete gltsync; // Emiliano
4100 if (!dbc || (dbc && !dbc->IsConnected()))
4101 SetDBConnection(); //Emiliano
4102 gltsync = new GL_TIMESYNC(GetRunInfo()->ID_ROOT_L0, "ID", dbc, false); // Emiliano
4103 TrkParams::Set(GetRunInfo(), dbc);
4104 if (dbc){
4105 dbc->Close(); // Emiliano
4106 delete dbc;
4107 dbc=0;
4108 }
4109 if (gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT) > gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT)) { // Emiliano
4110 cout << "Bool_t PamLevel2::UpdateRunInfo(Long64_t iev) -- WARNING -- irun " << irun
4111 << " has RUNHEADER_OBT>=RUNTRAILER_OBT " << endl;
4112 cout
4113 << " (NB!! in this case some events could be assigned to a wrong run)"
4114 << endl;
4115 }
4116 }
4117 //
4118 if (DBG) printf(" found \n");
4119 // printf(" found \n");//TOGLITOGLI
4120 //
4121 break;
4122 }
4123 } // loop over run
4124
4125 // --------------------------------------
4126 // if there was no need to update the run
4127 // ---> exit with FALSE
4128 // --------------------------------------
4129 if (irun == oldrun){
4130 if (DBG) printf(" no new run \n");
4131 // printf(" no new run \n");//TOGLITOGLI
4132 return (false);
4133 }
4134 // --------------------------------------
4135 // ... otherwise
4136 // ---> exit with TRUE
4137 // --------------------------------------
4138
4139 if (SELLI != 2) {
4140 /// decrement counters since this event belongs to a new run
4141 if (GetTrigLevel2()) {
4142 totdltime[0] -= GetTrigLevel2()->dltime[0];//live-time
4143 totdltime[1] -= GetTrigLevel2()->dltime[1];//dead-time
4144 }
4145 totdltime[2]--; //event counter
4146 if (DBG) {
4147 cout << endl;
4148 cout << "n.events : " << totdltime[2] << endl;
4149 cout << "RUN LIVE-TIME: " << totdltime[0] * 0.16 << " ms" << endl;
4150 cout << "RUN DEAD-TIME: " << totdltime[1] * 0.01 << " ms" << endl;
4151 }
4152 // add an entry
4153 if (run_tree_clone && totdltime[2] > 0)
4154 if (run_tree_clone->GetBranch("DeadLiveTime")->GetEntries() < run_tree->GetEntries())
4155 run_tree_clone->GetBranch("DeadLiveTime")->Fill();
4156 // reset counters
4157 if ( totdltime[2] > 0 ){
4158 if (GetTrigLevel2()) {
4159 totdltime[0] = GetTrigLevel2()->dltime[0];//live-time
4160 totdltime[1] = 0; //dead-time
4161 }
4162 totdltime[2] = 1; //event counter
4163 }
4164 }
4165
4166 if (DBG){
4167 cout << endl << " ))))) UPDATE RUN INFO ((((( @iev " << iev << " run " << GetRunInfo()->ID << " irun " << irun
4168 << endl;
4169 printf("2abstime %lld %lld pktnum %d %d obt %lld \n",abstime,prevabstime,pktnum,prevpktnum,obt);
4170 printf("2 rth %d %d nevents %d \n",GetRunInfo()->RUNHEADER_TIME,GetRunInfo()->RUNTRAILER_TIME,GetRunInfo()->NEVENTS);
4171 printf("2 rto %d %d \n",GetRunInfo()->RUNHEADER_OBT,GetRunInfo()->RUNTRAILER_OBT);
4172 if ( fUseDBinRunInfo ) printf("2 rto2 %lld %lld \n",gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT),gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT));
4173 printf("2 bo irunentry %lld prevshift %lld irun %lld \n",irunentry,prevshift,irun);
4174 printf("2 min %lld iev %lld max %lld tot %lld \n",totrunentrymin,iev,totrunentrymax,totrunentry);
4175 }
4176 // printf("2abstime %lld %lld pktnum %d %d obt %lld \n",abstime,prevabstime,pktnum,prevpktnum,obt);
4177 // printf("2 rth %d %d nevents %d \n",GetRunInfo()->RUNHEADER_TIME,GetRunInfo()->RUNTRAILER_TIME,GetRunInfo()->NEVENTS);
4178 // printf("2 rto %d %d \n",GetRunInfo()->RUNHEADER_OBT,GetRunInfo()->RUNTRAILER_OBT);
4179 // printf("2 rto2 %lld %lld \n",gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT),gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT));
4180 // printf("2 bo irunentry %lld prevshift %lld irun %lld \n",irunentry,prevshift,irun);
4181 // printf("2 min %lld iev %lld max %lld tot %lld \n",totrunentrymin,iev,totrunentrymax,totrunentry);//TOGLITOGLI
4182
4183 return (true);
4184 } // need for run upgrade
4185 if (DBG) printf("return false\n");
4186 return (false);
4187 }// SELLI = 0 SELLI = 2
4188
4189 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
4190 // if it is a preselected file (there is SelectionList)
4191 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
4192 // irun = run entry relative to the chain
4193 // irunt = run entry relative to the tree
4194 if (SELLI == 1) {
4195 sel_tree->GetEntry(iev);// read irunt from SelectionList
4196 irun = irunt + irunoffset[sel_tree->GetTreeNumber()];//NEWNEW
4197 if (irun != oldrun) {
4198 if (irun < run_tree->GetEntries())
4199 run_tree->GetEntry(irun);
4200 // check if the time is ok (with merged files it is not...)
4201 // if not loop over run and look for the proper entry
4202 bool SECONDO_GIRO = false;
4203 // Long64_t irun_start = irun;
4204 int offset_start = irunoffset[sel_tree->GetTreeNumber()];
4205 while (((!(abstime >= GetRunInfo()->RUNHEADER_TIME && // check on absolute time (s)
4206 abstime <= GetRunInfo()->RUNTRAILER_TIME)
4207 // ||
4208 // !(obt >= GetRunInfo()->RUNHEADER_OBT && // additional check on OBT (ms)
4209 // obt <= GetRunInfo()->RUNTRAILER_OBT)
4210 ) || GetRunInfo()->NEVENTS == 0)
4211 // && irun < run_tree->GetEntries()
4212 ) {
4213
4214 if (DBG) {
4215 cout << " (test) ";
4216 cout << " tree " << sel_tree->GetTreeNumber();
4217 cout << " irunt " << irunt;
4218 cout << " offset " << irunoffset[sel_tree->GetTreeNumber()];
4219 cout << " abs " << abstime;
4220 cout << " >> " << GetRunInfo()->RUNHEADER_TIME << " " << GetRunInfo()->RUNTRAILER_TIME;
4221 cout << " obt " << obt;
4222 cout << " >> " << GetRunInfo()->RUNHEADER_OBT << " " << GetRunInfo()->RUNTRAILER_OBT;
4223 cout << " *** JUMP RUN *** irun " << irun;
4224 cout << endl;
4225 }
4226 // irun++;
4227 irunoffset[sel_tree->GetTreeNumber()]++;
4228 irun = irunt + irunoffset[sel_tree->GetTreeNumber()];//NEWNEW
4229 if (irun == run_tree->GetEntries() && SECONDO_GIRO) {
4230 // if(irun == irun_start ){
4231 cout << " ...grrrvzzkhhhajsdkj!!!! " << endl;
4232 irunoffset[sel_tree->GetTreeNumber()] = offset_start;
4233 return false;
4234 }
4235 if (irun >= run_tree->GetEntries() || irun < 0) {
4236 cout << "irun = " << irun << " >> search from the beginning... <<" << endl;
4237 SECONDO_GIRO = true;
4238 irun = 0;
4239 irunoffset[sel_tree->GetTreeNumber()] = -irunt;
4240 }
4241 run_tree->GetEntry(irun);
4242 }
4243
4244 if (DBG) {
4245 cout << " (test) ";
4246 cout << " tree " << sel_tree->GetTreeNumber();
4247 cout << " irunt " << irunt;
4248 cout << " offset " << irunoffset[sel_tree->GetTreeNumber()];
4249 cout << " abs " << abstime;
4250 cout << " >> " << GetRunInfo()->RUNHEADER_TIME << " " << GetRunInfo()->RUNTRAILER_TIME;
4251 cout << " obt " << obt;
4252 cout << " >> " << GetRunInfo()->RUNHEADER_OBT << " " << GetRunInfo()->RUNTRAILER_OBT;
4253 }
4254 if (DBG)
4255 cout << endl;
4256 if (DBG)
4257 cout << endl << " ))))) UPDATE RUN INFO ((((( @iev " << iev << " run " << GetRunInfo()->ID << " (run-entry "
4258 << irun << ")" << endl;
4259 // ----------------------------------------------------
4260 // update the tracker parameters
4261 // (non ho trovato nessun altro modo sicuro di farlo...)
4262 // ----------------------------------------------------
4263 if ( fUseDBinRunInfo ){
4264 if (!dbc || (dbc && !dbc->IsConnected()))
4265 SetDBConnection();
4266 TrkParams::Set(GetRunInfo(), dbc);
4267 if (dbc){
4268 dbc->Close();
4269 delete dbc;
4270 dbc=0;
4271 }
4272 }
4273 // cout << endl;
4274 prevshift = 0;
4275 yprevshift = 0;
4276 return true;
4277 }
4278 return false;
4279 }
4280
4281 return false;
4282 //
4283 }
4284
4285 /**
4286 * Update the runinfo informations (to be used to have Run infos event by event basis)
4287 * @param run Pointer to the chain/tree which contains run infos
4288 * @return true if a new run has been read, false if it is still the same run
4289 */
4290 Bool_t PamLevel2::UpdateRunInfo(TChain *run, Long64_t iev) {
4291 return (UpdateRunInfo(iev));
4292 }
4293
4294 /**
4295 * Update the runinfo informations (to be used to have Run infos event by event basis)
4296 * @param run Pointer to the chain/tree which contains run infos
4297 * @return true if a new run has been read, false if it is still the same run
4298 */
4299 Bool_t PamLevel2::UpdateRunInfo(TTree *run, Long64_t iev) {
4300 return (UpdateRunInfo((TChain*) run, iev));
4301 }
4302
4303
4304 //--------------------------------------
4305 //
4306 //
4307 //--------------------------------------
4308 /**
4309 * Set which trees shoul be analysed
4310 * @param detlist TString containing the sequence of trees required
4311 */
4312 void PamLevel2::SetWhichTrees(TString detlist) {
4313
4314 // if(detlist.IsNull() || detlist.Contains("+ALL", TString::kIgnoreCase)){
4315 if (detlist.Contains("+ALL", TString::kIgnoreCase)) {
4316
4317 cout << " ======================================================== " << endl;
4318 cout << " (( WARNING )) " << endl;
4319 cout << " The meaning of the option +ALL has changed!! " << endl;
4320 cout << " Now it includes really all (level0+level1+level2+gpamela)" << endl;
4321 cout << " and the file is discarded if it does not contain " << endl;
4322 cout << " all trees or if level0 files are not available!! " << endl;
4323 cout << " ======================================================== " << endl;
4324
4325 CAL0 = true;
4326 CAL1 = true;
4327 CAL2 = true;
4328 TRK2 = true;
4329 TRK1 = true;
4330 TRKh = true;
4331 TRK0 = true;
4332 TRG = true;
4333 TOF = true;
4334 TOF0 = true;
4335 S4 = true;
4336 ND = true;
4337 AC = true;
4338 ORB = true;
4339 GP = true;
4340 }
4341 else if (detlist.Contains("-ALL", TString::kIgnoreCase)) {
4342 CAL0 = false;
4343 CAL1 = false;
4344 CAL2 = false;
4345 TRK2 = false;
4346 TRK1 = false;
4347 TRKh = false;
4348 TRK0 = false;
4349 TRG = false;
4350 TOF = false;
4351 TOF0 = false;
4352 S4 = false;
4353 ND = false;
4354 AC = false;
4355 ORB = false;
4356 GP = false;
4357 };
4358
4359 // -------------------------------------------------------------------------
4360 if (detlist.Contains("CAL1", TString::kIgnoreCase)) {
4361 if (detlist.Contains("-CAL1", TString::kIgnoreCase))
4362 CAL1 = false;
4363 if (detlist.Contains("+CAL1", TString::kIgnoreCase))
4364 CAL1 = true;
4365 };
4366
4367 if (detlist.Contains("CAL0", TString::kIgnoreCase)) {
4368 if (detlist.Contains("-CAL0", TString::kIgnoreCase))
4369 CAL0 = false;
4370 if (detlist.Contains("+CAL0", TString::kIgnoreCase))
4371 CAL0 = true;
4372 };
4373
4374 if (detlist.Contains("CAL2", TString::kIgnoreCase)) {
4375 if (detlist.Contains("-CAL2", TString::kIgnoreCase))
4376 CAL2 = false;
4377 if (detlist.Contains("+CAL2", TString::kIgnoreCase))
4378 CAL2 = true;
4379 };
4380
4381 if (detlist.Contains("+CAL", TString::kIgnoreCase) && !CAL1 && !CAL2)
4382 CAL2 = true;
4383 if (detlist.Contains("-CAL", TString::kIgnoreCase) && CAL1 && CAL2) {
4384 CAL2 = false;
4385 CAL1 = false;
4386 }
4387 // -------------------------------------------------------------------------
4388 if (detlist.Contains("TRK0", TString::kIgnoreCase)) {
4389 if (detlist.Contains("-TRK0", TString::kIgnoreCase))
4390 TRK0 = false;
4391 if (detlist.Contains("+TRK0", TString::kIgnoreCase))
4392 TRK0 = true;
4393 };
4394
4395 if (detlist.Contains("TRK1", TString::kIgnoreCase)) {
4396 if (detlist.Contains("-TRK1", TString::kIgnoreCase))
4397 TRK1 = false;
4398 if (detlist.Contains("+TRK1", TString::kIgnoreCase))
4399 TRK1 = true;
4400 };
4401
4402 if (detlist.Contains("TRK2", TString::kIgnoreCase)) {
4403 if (detlist.Contains("-TRK2", TString::kIgnoreCase))
4404 TRK2 = false;
4405 if (detlist.Contains("+TRK2", TString::kIgnoreCase))
4406 TRK2 = true;
4407 };
4408
4409 if (detlist.Contains("TRKh", TString::kIgnoreCase)) {
4410 if (detlist.Contains("-TRKh", TString::kIgnoreCase))
4411 TRKh = false;
4412 if (detlist.Contains("+TRKh", TString::kIgnoreCase))
4413 TRKh = true;
4414 };
4415
4416 if (detlist.Contains("+TRK", TString::kIgnoreCase) && !TRK1 && !TRK2 && !TRKh)
4417 TRK2 = true;
4418 if (detlist.Contains("-TRK", TString::kIgnoreCase) && TRK1 && TRK2 && TRKh) {
4419 TRK2 = false;
4420 TRK1 = false;
4421 TRKh = false;
4422 }
4423 // -------------------------------------------------------------------------
4424
4425 if (detlist.Contains("-TRG", TString::kIgnoreCase))
4426 TRG = false;
4427 else if (detlist.Contains("+TRG", TString::kIgnoreCase))
4428 TRG = true;
4429
4430 if (detlist.Contains("-TOF", TString::kIgnoreCase))
4431 TOF = false;
4432 else if (detlist.Contains("+TOF", TString::kIgnoreCase))
4433 TOF = true;
4434
4435 if (detlist.Contains("-TOF0", TString::kIgnoreCase))
4436 TOF0 = false;
4437 else if (detlist.Contains("+TOF0", TString::kIgnoreCase))
4438 TOF0 = true;
4439
4440 if (detlist.Contains("-S4", TString::kIgnoreCase))
4441 S4 = false;
4442 else if (detlist.Contains("+S4", TString::kIgnoreCase))
4443 S4 = true;
4444
4445 if (detlist.Contains("-ND", TString::kIgnoreCase))
4446 ND = false;
4447 else if (detlist.Contains("+ND", TString::kIgnoreCase))
4448 ND = true;
4449
4450 if (detlist.Contains("-AC", TString::kIgnoreCase))
4451 AC = false;
4452 else if (detlist.Contains("+AC", TString::kIgnoreCase))
4453 AC = true;
4454
4455 if (detlist.Contains("-ORB", TString::kIgnoreCase))
4456 ORB = false;
4457 else if (detlist.Contains("+ORB", TString::kIgnoreCase))
4458 ORB = true;
4459
4460 if (detlist.Contains("-GP", TString::kIgnoreCase))
4461 GP = false;
4462 else if (detlist.Contains("+GP", TString::kIgnoreCase))
4463 GP = true;
4464
4465 cout << "tree/branch list from input --> ";
4466 if (TRK0)
4467 cout << "TRK0 ";
4468 if (TRK1)
4469 cout << "TRK1 ";
4470 if (TRK2)
4471 cout << "TRK2 ";
4472 if (TRKh)
4473 cout << "TRKH ";
4474 if (CAL0)
4475 cout << "CAL0 ";
4476 if (CAL1)
4477 cout << "CAL1 ";
4478 if (CAL2)
4479 cout << "CAL2 ";
4480 if (TOF)
4481 cout << "TOF ";
4482 if (TRG)
4483 cout << "TRG ";
4484 if (AC)
4485 cout << "AC ";
4486 if (ND)
4487 cout << "ND ";
4488 if (S4)
4489 cout << "S4 ";
4490 if (ORB)
4491 cout << "ORB ";
4492 if (GP)
4493 cout << "GP ";
4494 cout << endl;
4495 // cout<< "Set detector list --> ";
4496 // if(TRK1)cout<<"TRK1 ";
4497 // if(TRK2)cout<<"TRK2 ";
4498 // if(TRKh)cout<<"TRKH ";
4499 // if(CAL1)cout<<"CAL1 ";
4500 // if(CAL2)cout<<"CAL2 ";
4501 // if(TOF0)cout<<"TOF0 ";
4502 // if(TOF)cout<<"TOF ";
4503 // if(TRG)cout<<"TRG ";
4504 // if(AC)cout<<"AC ";
4505 // if(ND)cout<<"ND ";
4506 // if(S4)cout<<"S4 ";
4507 // if(ORB)cout<<"ORB ";
4508 // cout << endl;
4509
4510 }
4511 ;
4512
4513 /**
4514 * Set tree/branch detector flags from the content of a tree
4515 */
4516 void PamLevel2::GetWhichTrees(TFile* f) {
4517
4518 // cout << "void PamLevel2::GetWhichTrees(TFile* f) --- WARNING!! --- ...potrebbe non funzionare "<<endl;
4519 // -----------
4520 // reset flags
4521 // -----------
4522 CAL1 = false;
4523 CAL2 = false;
4524 TRK2 = false;
4525 TRK1 = false;
4526 TRKh = false;
4527 TRG = false;
4528 TOF = false;
4529 S4 = false;
4530 ND = false;
4531 AC = false;
4532 ORB = false;
4533 GP = false;
4534
4535 RUN = false;
4536
4537 // cout << "Checking file: "<<f->GetName()<<endl;
4538 if (!f || f->IsZombie()) {
4539 cout << "File: " << f->GetName() << " Non valid root file" << endl;
4540 return;
4541 }
4542
4543 TList *lk = f->GetListOfKeys();
4544 if (!lk)
4545 return;
4546 TIter next(lk);
4547 TKey *key = 0;
4548
4549 Int_t nev = 0;
4550
4551 while ((key = (TKey*) next())) {
4552
4553 if (!strcmp(key->GetName(), "Run"))
4554 RUN = true;
4555
4556 //=========================================================
4557 if (!strcmp(key->GetName(), "Trigger")) {
4558 TRG = true;
4559 Int_t nevt = ((TTree*) f->Get("Trigger"))->GetEntries();
4560 if (nev && nevt != nev) {
4561 cout << "File: " << f->GetName() << " Trigger tree has " << nevt << " events instead of " << nev << endl;
4562 TRG = false;
4563 }
4564 else
4565 nev = nevt;
4566 }
4567 //=========================================================
4568 if (!strcmp(key->GetName(), "ToF")) {
4569 TOF = true;
4570 Int_t nevt = ((TTree*) f->Get("ToF"))->GetEntries();
4571 if (nev && nevt != nev) {
4572 cout << "File: " << f->GetName() << " ToF tree has " << nevt << " events instead of " << nev << endl;
4573 TOF = false;
4574 }
4575 else
4576 nev = nevt;
4577 }
4578 //=========================================================
4579 if (!strcmp(key->GetName(), "S4")) {
4580 S4 = true;
4581 Int_t nevt = ((TTree*) f->Get("S4"))->GetEntries();
4582 if (nev && nevt != nev) {
4583 cout << "File: " << f->GetName() << " S4 tree has " << nevt << " events instead of " << nev << endl;
4584 S4 = false;
4585 }
4586 else
4587 nev = nevt;
4588 }
4589 //=========================================================
4590
4591 if (!strcmp(key->GetName(), "NeutronD")) {
4592 ND = true;
4593 Int_t nevt = ((TTree*) f->Get("NeutronD"))->GetEntries();
4594 if (nev && nevt != nev) {
4595 cout << "File: " << f->GetName() << "NeutronD tree has " << nevt << " events instead of " << nev << endl;
4596 ND = false;
4597 }
4598 else
4599 nev = nevt;
4600 }
4601 //=========================================================
4602 if (!strcmp(key->GetName(), "Anticounter")) {
4603 AC = true;
4604 Int_t nevt = ((TTree*) f->Get("Anticounter"))->GetEntries();
4605 if (nev && nevt != nev) {
4606 cout << "File: " << f->GetName() << " Anticounter tree has " << nevt << " events instead of " << nev << endl;
4607 AC = false;
4608 }
4609 else
4610 nev = nevt;
4611 }
4612 //=========================================================
4613 if (!strcmp(key->GetName(), "OrbitalInfo")) {
4614 ORB = true;
4615 Int_t nevt = ((TTree*) f->Get("OrbitalInfo"))->GetEntries();
4616 if (nev && nevt != nev) {
4617 cout << "File: " << f->GetName() << " OrbitalInfo tree has " << nevt << " events instead of " << nev << endl;
4618 ORB = false;
4619 }
4620 else
4621 nev = nevt;
4622 }
4623 //=========================================================
4624 if (!strcmp(key->GetName(), "Tracker")) {
4625 TTree *T = (TTree*) f->Get("Tracker");
4626 for (Int_t i = 0; i < T->GetListOfBranches()->GetEntries(); i++) {
4627 TString name = T->GetListOfBranches()->At(i)->GetName();
4628 if (!name.CompareTo("TrkLevel1"))
4629 TRK1 = true;
4630 if (!name.CompareTo("TrkLevel2"))
4631 TRK2 = true;
4632 if (!name.CompareTo("TrkHough"))
4633 TRKh = true;
4634 };
4635 Int_t nevt = T->GetEntries();
4636 if (nev && nevt != nev) {
4637 cout << "File: " << f->GetName() << " Tracker tree has " << nevt << " events instead of " << nev << endl;
4638 TRK1 = false;
4639 TRK2 = false;
4640 TRKh = false;
4641 }
4642 else
4643 nev = nevt;
4644 // T->Delete();
4645 };
4646 //=========================================================
4647 if (!strcmp(key->GetName(), "Calorimeter")) {
4648 TTree *T = (TTree*) f->Get("Calorimeter");
4649 for (Int_t i = 0; i < T->GetListOfBranches()->GetEntries(); i++) {
4650 TString name = T->GetListOfBranches()->At(i)->GetName();
4651 if (!name.CompareTo("CaloLevel1"))
4652 CAL1 = true;
4653 if (!name.CompareTo("CaloLevel2"))
4654 CAL2 = true;
4655 };
4656 Int_t nevt = T->GetEntries();
4657 if (nev && nevt != nev) {
4658 cout << "File: " << f->GetName() << " Calorimeter tree has " << nevt << " events instead of " << nev << endl;
4659 CAL1 = false;
4660 CAL2 = false;
4661 }
4662 else
4663 nev = nevt;
4664 // T->Delete();
4665 };
4666 //=========================================================
4667 if (!strcmp(key->GetName(), "h20")) {
4668 GP = true;
4669 Int_t nevt = ((TTree*) f->Get("h20"))->GetEntries();
4670 if (nev && nevt != nev) {
4671 cout << "File: " << f->GetName() << " h20 tree has " << nevt << " events instead of " << nev << endl;
4672 GP = false;
4673 }
4674 else
4675 nev = nevt;
4676 }
4677
4678 };
4679
4680 // delete lk;
4681
4682 cout << "tree/branch list from file --> ";
4683 if (TRK1)
4684 cout << "TRK1 ";
4685 if (TRK2)
4686 cout << "TRK2 ";
4687 if (TRKh)
4688 cout << "TRKH ";
4689 if (CAL1)
4690 cout << "CAL1 ";
4691 if (CAL2)
4692 cout << "CAL2 ";
4693 if (TOF)
4694 cout << "TOF ";
4695 if (TRG)
4696 cout << "TRG ";
4697 if (AC)
4698 cout << "AC ";
4699 if (ND)
4700 cout << "ND ";
4701 if (S4)
4702 cout << "S4 ";
4703 if (ORB)
4704 cout << "ORB ";
4705 if (GP)
4706 cout << "GP ";
4707 cout << endl;
4708
4709 return;
4710
4711 }
4712 ;
4713
4714 //--------------------------------------
4715 //
4716 //
4717 //--------------------------------------
4718 /**
4719 * Check if a file contains selected Pamela Level2 trees.
4720 * @param name File name
4721 * @return true if the file is ok.
4722 */
4723 Bool_t PamLevel2::CheckLevel2File(TString name) {
4724
4725 Bool_t CAL1__ok = false;
4726 Bool_t CAL2__ok = false;
4727 Bool_t TRK2__ok = false;
4728 Bool_t TRK1__ok = false;
4729 Bool_t TRKh__ok = false;
4730 Bool_t TRG__ok = false;
4731 Bool_t TOF__ok = false;
4732 Bool_t S4__ok = false;
4733 Bool_t ND__ok = false;
4734 Bool_t AC__ok = false;
4735 Bool_t ORB__ok = false;
4736 Bool_t GP__ok = false;
4737
4738 Bool_t RUN__ok = false;
4739
4740 Bool_t SELLI__ok = false;
4741
4742 // cout << "Checking file: "<<name<<endl;
4743 TFile *f = new TFile(name.Data());
4744 if (!f || f->IsZombie()) {
4745 cout << "File: " << f->GetName() << " discarded ---- Non valid root file" << endl;
4746 return false;
4747 }
4748 // cout << "Get list of keys: "<<f<<endl;
4749 TList *lk = f->GetListOfKeys();
4750 // lk->Print();
4751 TIter next(lk);
4752 TKey *key = 0;
4753
4754 Int_t nev = 0;
4755
4756 while ((key = (TKey*) next())) {
4757
4758 // cout << key->GetName() << endl;
4759 // cout << key->GetName() << ""<<key->GetClassName()<<endl;
4760 // cout << " Get tree: " << f->Get(key->GetName())<<endl;
4761 // nev_previous = nev;
4762 // cout << " n.entries "<< nev <<endl;
4763 // if( key->GetClassName()=="TTree" && nev_previous && nev != nev_previous ){
4764 // nev = ((TTree*)f->Get(key->GetName()))->GetEntries();
4765 // cout << "File: "<< f->GetName() <<" discarded ---- "<< key->GetName() << " tree: n.entries does not match "<<nev<<" "<<nev_previous<< endl;
4766 // return false;
4767 // };
4768
4769 //=========================================================
4770 // check if the file
4771
4772
4773 if (!strcmp(key->GetName(), "Run"))
4774 RUN__ok = true;
4775
4776 //=========================================================
4777 if (!strcmp(key->GetName(), "SelectionList")) {
4778 SELLI__ok = true;
4779 if (SELLI == 1) {
4780 Int_t nevt = ((TTree*) f->Get("SelectionList"))->GetEntries();
4781 if (nev && nevt != nev) {
4782 cout << "File: " << f->GetName() << " discarded ---- SelectionList tree has " << nevt
4783 << " events instead of " << nev << endl;
4784 return false;
4785 }
4786 nev = nevt;
4787 }
4788 }
4789
4790 //=========================================================
4791 if (!strcmp(key->GetName(), "Trigger")) {
4792 TRG__ok = true;
4793 if (TRG) {
4794 Int_t nevt = ((TTree*) f->Get("Trigger"))->GetEntries();
4795 if (nev && nevt != nev) {
4796 cout << "File: " << f->GetName() << " discarded ---- Trigger tree has " << nevt << " events instead of "
4797 << nev << endl;
4798 return false;
4799 }
4800 nev = nevt;
4801 }
4802 }
4803 //=========================================================
4804 if (!strcmp(key->GetName(), "ToF")) {
4805 TOF__ok = true;
4806 if (TOF) {
4807 Int_t nevt = ((TTree*) f->Get("ToF"))->GetEntries();
4808 if (nev && nevt != nev) {
4809 cout << "File: " << f->GetName() << " discarded ---- ToF tree has " << nevt << " events instead of " << nev
4810 << endl;
4811 return false;
4812 }
4813 nev = nevt;
4814 }
4815 }
4816 //=========================================================
4817 if (!strcmp(key->GetName(), "S4")) {
4818 S4__ok = true;
4819 if (S4) {
4820 Int_t nevt = ((TTree*) f->Get("S4"))->GetEntries();
4821 if (nev && nevt != nev) {
4822 cout << "File: " << f->GetName() << " discarded ---- S4 tree has " << nevt << " events instead of " << nev
4823 << endl;
4824 return false;
4825 }
4826 nev = nevt;
4827 }
4828 }
4829 //=========================================================
4830
4831 if (!strcmp(key->GetName(), "NeutronD")) {
4832 ND__ok = true;
4833 if (ND) {
4834 Int_t nevt = ((TTree*) f->Get("NeutronD"))->GetEntries();
4835 if (nev && nevt != nev) {
4836 cout << "File: " << f->GetName() << " discarded ---- NeutronD tree has " << nevt << " events instead of "
4837 << nev << endl;
4838 return false;
4839 }
4840 nev = nevt;
4841 }
4842 }
4843 //=========================================================
4844 if (!strcmp(key->GetName(), "Anticounter")) {
4845 AC__ok = true;
4846 if (AC) {
4847 Int_t nevt = ((TTree*) f->Get("Anticounter"))->GetEntries();
4848 if (nev && nevt != nev) {
4849 cout << "File: " << f->GetName() << " discarded ---- Anticounter tree has " << nevt << " events instead of "
4850 << nev << endl;
4851 return false;
4852 }
4853 nev = nevt;
4854 }
4855 }
4856 //=========================================================
4857 if (!strcmp(key->GetName(), "OrbitalInfo")) {
4858 ORB__ok = true;
4859 if (ORB) {
4860 Int_t nevt = ((TTree*) f->Get("OrbitalInfo"))->GetEntries();
4861 if (nev && nevt != nev) {
4862 cout << "File: " << f->GetName() << " discarded ---- OrbitalInfo tree has " << nevt << " events instead of "
4863 << nev << endl;
4864 return false;
4865 }
4866 nev = nevt;
4867 }
4868 }
4869 //=========================================================
4870 if (!strcmp(key->GetName(), "Tracker")) {
4871 TTree *T = (TTree*) f->Get("Tracker");
4872 if (TRK1 || TRK2 || TRKh) {
4873 Int_t nevt = T->GetEntries();
4874 if (nev && nevt != nev) {
4875 cout << "File: " << f->GetName() << " discarded ---- Tracker tree has " << nevt << " events instead of "
4876 << nev << endl;
4877 return false;
4878 }
4879 nev = nevt;
4880 }
4881 for (Int_t i = 0; i < T->GetListOfBranches()->GetEntries(); i++) {
4882 TString name = T->GetListOfBranches()->At(i)->GetName();
4883 if (!name.CompareTo("TrkLevel1"))
4884 TRK1__ok = true;
4885 if (!name.CompareTo("TrkLevel2"))
4886 TRK2__ok = true;
4887 if (!name.CompareTo("TrkHough"))
4888 TRKh__ok = true;
4889 };
4890 T->Delete();
4891 };
4892 //=========================================================
4893 if (!strcmp(key->GetName(), "Calorimeter")) {
4894 TTree *T = (TTree*) f->Get("Calorimeter");
4895 if (CAL1 || CAL2) {
4896 Int_t nevt = T->GetEntries();
4897 if (nev && nevt != nev) {
4898 cout << "File: " << f->GetName() << " discarded ---- Calorimeter tree has " << nevt << " events instead of "
4899 << nev << endl;
4900 return false;
4901 }
4902 nev = nevt;
4903 }
4904 for (Int_t i = 0; i < T->GetListOfBranches()->GetEntries(); i++) {
4905 TString name = T->GetListOfBranches()->At(i)->GetName();
4906 if (!name.CompareTo("CaloLevel1"))
4907 CAL1__ok = true;
4908 if (!name.CompareTo("CaloLevel2"))
4909 CAL2__ok = true;
4910 };
4911 T->Delete();
4912 };
4913 //=========================================================
4914 if (!strcmp(key->GetName(), "h20")) {
4915 ISGP = true;
4916 GP__ok = true;
4917 if (GP) {
4918 Int_t nevt = ((TTree*) f->Get("h20"))->GetEntries();
4919 if (nev && nevt != nev) {
4920 cout << "File: " << f->GetName() << " discarded ---- h20 tree has " << nevt << " events instead of " << nev
4921 << endl;
4922 return false;
4923 }
4924 nev = nevt;
4925 }
4926 }
4927
4928 };
4929
4930 if (SELLI == -1)
4931 SELLI = (Int_t) SELLI__ok;
4932 if (SELLI == 0 && SELLI__ok) {
4933 cout << "File: " << f->GetName() << " discarded ---- found SelectionList (it is not a full-event file)" << endl;
4934 return false;
4935 }
4936 if (SELLI == 1 && !SELLI__ok) {
4937 cout << "File: " << f->GetName() << " discarded ---- SelectionList missing" << endl;
4938 return false;
4939 }
4940
4941 // cout << "SELLI "<<SELLI<<endl;
4942
4943 // cout<< "CheckLevel2File(TString): detector list --> ";
4944 // if(TRK1__ok)cout<<"TRK1 ";
4945 // if(TRK2__ok)cout<<"TRK2 ";
4946 // if(TRKh__ok)cout<<"TRKH ";
4947 // if(CAL1__ok)cout<<"CAL1 ";
4948 // if(CAL2__ok)cout<<"CAL2 ";
4949 // if(TOF__ok)cout<<"TOF ";
4950 // if(TRG__ok)cout<<"TRG ";
4951 // if(AC__ok)cout<<"AC ";
4952 // if(ND__ok)cout<<"ND ";
4953 // if(S4__ok)cout<<"S4 ";
4954 // if(ORB__ok)cout<<"ORB ";
4955 // cout << endl;
4956
4957
4958 if (TRK2 && TRK1__ok)
4959 TRK1 = 1;
4960 // ----------------------------------------------------------------------------
4961 // NOTA
4962 // se c'e` il level1, lo devo necessarimente leggere.
4963 // infatti (non ho capito perche`) i cluster vengono letti e allocati in memoria
4964 // comunque, ma non vengono disallocati da PamLevel2::Clear()
4965 // ----------------------------------------------------------------------------
4966
4967
4968 if (!RUN__ok) {
4969 cout << "File: " << f->GetName() << " *WARNING* ---- Missing RunInfo tree (NB: RUN infos will not be updated)"
4970 << endl;
4971 RUN = false;
4972 };
4973
4974 if (CAL1 && !CAL1__ok) {
4975 cout << "File: " << f->GetName() << " discarded ---- Missing CaloLevel1 branch" << endl;
4976 return false;
4977 };
4978 if (CAL2 && !CAL2__ok) {
4979 cout << "File: " << f->GetName() << " discarded ---- Missing CaloLevel2 branch" << endl;
4980 return false;
4981 };
4982 if (TRK2 && !TRK2__ok) {
4983 cout << "File: " << f->GetName() << " discarded ---- Missing TrkLevel2 branch" << endl;
4984 return false;
4985 };
4986 if (TRK1 && !TRK1__ok) {
4987 cout << "File: " << f->GetName() << " discarded ---- Missing TrkLevel1 branch" << endl;
4988 return false;
4989 };
4990 if (TRKh && !TRKh__ok) {
4991 cout << "File: " << f->GetName() << " discarded ---- Missing TrkHough branch" << endl;
4992 return false;
4993 };
4994 if (ORB && !ORB__ok) {
4995 cout << "File: " << f->GetName() << " discarded ---- Missing ORB tree" << endl;
4996 return false;
4997 };
4998 if (AC && !AC__ok) {
4999 cout << "File: " << f->GetName() << " discarded ---- Missing AC tree" << endl;
5000 return false;
5001 };
5002 if (S4 && !S4__ok) {
5003 cout << "File: " << f->GetName() << " discarded ---- Missing S4 tree" << endl;
5004 return false;
5005 };
5006 if (TOF && !TOF__ok) {
5007 cout << "File: " << f->GetName() << " discarded ---- Missing ToF tree" << endl;
5008 return false;
5009 };
5010
5011 if (ND && !ND__ok) {
5012 cout << "File: " << f->GetName() << " discarded ---- Missing ND tree" << endl;
5013 return false;
5014 };
5015 if (TRG && !TRG__ok) {
5016 cout << "File: " << f->GetName() << " discarded ---- Missing Trigger tree" << endl;
5017 return false;
5018 };
5019 if (GP && !GP__ok) {
5020 cout << "File: " << f->GetName() << " discarded ---- Missing h20 tree" << endl;
5021 return false;
5022 };
5023
5024 // lk->Delete();
5025 // delete lk;
5026 f->Close();
5027
5028 // cout<< "CheckLevel2File(TString): detector list --> ";
5029 // if(TRK1)cout<<"TRK1 ";
5030 // if(TRK2)cout<<"TRK2 ";
5031 // if(TRKh)cout<<"TRKH ";
5032 // if(CAL1)cout<<"CAL1 ";
5033 // if(CAL2)cout<<"CAL2 ";
5034 // if(TOF)cout<<"TOF ";
5035 // if(TRG)cout<<"TRG ";
5036 // if(AC)cout<<"AC ";
5037 // if(ND)cout<<"ND ";
5038 // if(S4)cout<<"S4 ";
5039 // if(ORB)cout<<"ORB ";
5040 // if(GP)cout<<"GP ";
5041 // cout << endl;
5042
5043 return true;
5044
5045 }
5046 ;
5047
5048 /**
5049 * Create clone-trees
5050 */
5051 void PamLevel2::CreateCloneTrees0(TChain *fChain, TFile *ofile) {
5052
5053 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5054 cout << "Create clones of PAMELA trees " << endl;
5055
5056 Int_t i = 0;
5057 pam_tree_clone[i] = fChain->GetTree()->CloneTree(0);
5058 TString name = pam_tree_clone[i]->GetName();
5059 name.Append("_clone");
5060 // pam_tree_clone[i]->SetName(name.Data());
5061 cout << pam_tree_clone[i]->GetName() << endl;
5062 i++;
5063
5064 TList *li = fChain->GetListOfFriends();
5065 TIter next(li);
5066 TFriendElement* T_friend = 0;
5067 ofile->cd();
5068 while ((T_friend = (TFriendElement*) next())) {
5069 // cout<<T_friend->IsA()->GetName()<<" "<<T_friend->GetName()<<hex << T_friend->GetTree() << dec<<endl;
5070 // cout<<T_friend->GetTree()->GetName()<< endl;
5071 pam_tree_clone[i] = T_friend->GetTree()->CloneTree(0);
5072 pam_tree_clone[i]->SetAutoSave(1000000);
5073 name = pam_tree_clone[i]->GetName();
5074 name.Append("_clone");
5075 // pam_tree_clone[i]->SetName(name.Data());
5076 cout << pam_tree_clone[i]->GetName() << endl;
5077 i++;
5078 }
5079
5080 delete li;
5081
5082 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5083
5084 }
5085
5086 /**
5087 * Create clone-trees
5088 */
5089 void PamLevel2::CreateCloneTrees(TFile *ofile) {
5090
5091 // if the pointer is null, create a default file
5092 if (!run_tree)
5093 return;
5094
5095 if (!ofile) {
5096 cout << "void PamLevel2::CreateCloneTrees(TFile*) -- WARNING -- Creating file: clone-tree.root " << endl;
5097 ofile = new TFile("clone-tree.root", "recreate");
5098 }
5099
5100 ofile->cd();
5101
5102 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5103 cout << "Create new PAMELA trees " << endl;
5104
5105 run_tree_clone = new TTree("Run", "PAMELA Level2 data from the GL_RUN table ");
5106 run_tree_clone->Branch("RunInfo", "GL_RUN", GetPointerTo("RunInfo"));
5107 cout << "Run : branch RunInfo" << endl;
5108 run_tree_clone->Branch("SoftInfo", "SoftInfo", GetPointerTo("SoftInfo"));
5109 cout << "Run : branch SoftInfo" << endl;
5110 // ------------------
5111 // replicate run tree
5112 // ------------------
5113 // cout << "----------------------------------------------------"<<endl;
5114 // cout << "irun\t | RUN\t NEVENTS\t absolute time"<<endl;
5115 for (Int_t i = 0; i < run_tree->GetEntries(); i++) {
5116 run_tree->GetEntry(i);
5117 // cout << i<< "\t | "<<GetRunInfo()->ID<<"\t "<<GetRunInfo()->NEVENTS<< "\t "<<GetRunInfo()->RUNHEADER_TIME<<" <---> "<<GetRunInfo()->RUNTRAILER_TIME<<endl;
5118 run_tree_clone->Fill();
5119 }
5120 cout << "----------------------------------------------------" << endl;
5121
5122 // ------------------------------------
5123 // add branch with dead and live times
5124 // ------------------------------------
5125 if (SELLI != 2) { // EMILIANO
5126 run_tree_clone->Branch("DeadLiveTime", totdltime, "dltime[3]/l");
5127 cout << "Run : branch DeadLiveTime" << endl;
5128
5129 sel_tree_clone = new TTree("SelectionList", "List of selected events ");
5130 // sel_tree_clone->Branch("RunEntry",&irun,"runentry/L");
5131 sel_tree_clone->Branch("RunEntry", &irunt, "runentry/L");//NEWNEW
5132 sel_tree_clone->Branch("EventEntry", &irunentry, "eventry/L");
5133 // if ( hasL0EE ) sel_tree_clone->Branch("L0EventEntry", &il0entry, "l0eventry/L");
5134 };
5135
5136 Int_t i = 0;
5137 if (TRK1 || TRK2 || TRKh) {
5138 pam_tree_clone[i] = new TTree("Tracker", "PAMELA tracker level2 data ");
5139 if (TRK1) {
5140 pam_tree_clone[i]->Branch("TrkLevel1", "TrkLevel1", GetPointerTo("TrkLevel1"));
5141 pam_tree_clone[i]->BranchRef();
5142 cout << "Tracker : branch TrkLevel1" << endl;
5143 // cout << "CreateCloneTrees " << GetTrkLevel1()<<endl;
5144 };
5145 if (TRK2) {
5146 pam_tree_clone[i]->Branch("TrkLevel2", "TrkLevel2", GetPointerTo("TrkLevel2"));
5147 cout << "Tracker : branch TrkLevel2" << endl;
5148 };
5149 if (TRKh) {
5150 pam_tree_clone[i]->Branch("TrkHough", "TrkHough", GetPointerTo("TrkHough"));
5151 cout << "Tracker : branch TrkHough" << endl;
5152 };
5153 if(NUC){
5154 pam_tree_clone[i]->Branch("TrackNuclei","TClonesArray",&trk_nuc_obj);
5155 cout << "Tracker : branch TrackNuclei" << endl;
5156 }
5157 if(EXT){
5158 pam_tree_clone[i]->Branch("extAlgFlag",&extAlgFlag,"extAlgFlag/I");
5159 pam_tree_clone[i]->Branch("RecoveredTrack","TClonesArray",&trk_ext_obj);
5160 cout << "Tracker : branch RecoveredTrack" << endl;
5161 if(NUC){
5162 pam_tree_clone[i]->Branch("RecoveredTrackNuclei","TClonesArray",&trk_ext_nuc_obj);
5163 cout << "Tracker : branch RecoveredTrackNuclei" << endl;
5164 }
5165 }
5166
5167 i++;
5168 }
5169
5170 // Calorimeter
5171 if (CAL1 || CAL2) {
5172 pam_tree_clone[i] = new TTree("Calorimeter", "PAMELA calorimeter level2 data ");
5173 if (CAL1) {
5174 pam_tree_clone[i]->Branch("CaloLevel1", "CaloLevel1", GetPointerTo("CaloLevel1"));
5175 cout << "Calorimeter : branch CaloLevel1" << endl;
5176 };
5177 if (CAL2) {
5178 pam_tree_clone[i]->Branch("CaloLevel2", "CaloLevel2", GetPointerTo("CaloLevel2"));
5179 cout << "Calorimeter : branch CaloLevel2" << endl;
5180 };
5181 if(NUC){
5182 pam_tree_clone[i]->Branch("TrackNuclei","TClonesArray",&calo_nuc_obj);
5183 cout << "Calorimeter : branch TrackNuclei" << endl;
5184 }
5185 if(EXT){
5186 pam_tree_clone[i]->Branch("RecoveredTrack","TClonesArray",&calo_ext_obj);
5187 cout << "Calorimeter : branch RecoveredTrack" << endl;
5188 if(NUC){
5189 pam_tree_clone[i]->Branch("RecoveredTrackNuclei","TClonesArray",&calo_ext_nuc_obj);
5190 cout << "Calorimeter : branch RecoveredTrackNuclei" << endl;
5191 }
5192 }
5193 i++;
5194 }
5195
5196 // ToF
5197 if (TOF) {
5198 pam_tree_clone[i] = new TTree("ToF", "PAMELA ToF level2 data ");
5199 pam_tree_clone[i]->Branch("ToFLevel2", "ToFLevel2", GetPointerTo("ToFLevel2"));
5200 cout << "ToF : branch ToFLevel2" << endl;
5201 if(NUC){
5202 pam_tree_clone[i]->Branch("TrackNuclei","TClonesArray",&tof_nuc_obj);
5203 cout << "ToF : branch TrackNuclei" << endl;
5204 }
5205 if(EXT){
5206 pam_tree_clone[i]->Branch("RecoveredTrack","TClonesArray",&tof_ext_obj);
5207 cout << "ToF : branch RecoveredTrack" << endl;
5208 if(NUC){
5209 pam_tree_clone[i]->Branch("RecoveredTrackNuclei","TClonesArray",&tof_ext_nuc_obj);
5210 cout << "ToF : branch RecoveredTrackNuclei" << endl;
5211 }
5212 }
5213 i++;
5214 };
5215 // Trigger
5216 if (TRG) {
5217 pam_tree_clone[i] = new TTree("Trigger", "PAMELA trigger level2 data ");
5218 pam_tree_clone[i]->Branch("TrigLevel2", "TrigLevel2", GetPointerTo("TrigLevel2"));
5219 cout << "Trigger : branch TrigLevel2" << endl;
5220 i++;
5221 };
5222 // S4
5223 if (S4) {
5224 pam_tree_clone[i] = new TTree("S4", "PAMELA S4 level2 data ");
5225 pam_tree_clone[i]->Branch("S4Level2", "S4Level2", GetPointerTo("S4Level2"));
5226 cout << "S4 : branch S4Level2" << endl;
5227 i++;
5228 };
5229 // Neutron Detector
5230 if (ND) {
5231 pam_tree_clone[i] = new TTree("NeutronD", "PAMELA neutron detector level2 data ");
5232 pam_tree_clone[i]->Branch("NDLevel2", "NDLevel2", GetPointerTo("NDLevel2"));
5233 cout << "NeutronD : branch NDLevel2" << endl;
5234 i++;
5235 };
5236 // Anticounters
5237 if (AC) {
5238 pam_tree_clone[i] = new TTree("Anticounter", "PAMELA anticounter detector level2 data ");
5239 pam_tree_clone[i]->Branch("AcLevel2", "AcLevel2", GetPointerTo("AcLevel2"));
5240 cout << "Anticounter : branch AcLevel2" << endl;
5241 i++;
5242 };
5243 // OrbitalInfo
5244 if (ORB) {
5245 pam_tree_clone[i] = new TTree("OrbitalInfo", "PAMELA orbital info ");
5246 pam_tree_clone[i]->Branch("OrbitalInfo", "OrbitalInfo", GetPointerTo("OrbitalInfo"));
5247 cout << "OrbitalInfo : branch OrbitalInfo" << endl;
5248 if(NUC){
5249 pam_tree_clone[i]->Branch("TrackNuclei","TClonesArray",&orb_nuc_obj);
5250 cout << "OrbitalInfo : branch TrackNuclei" << endl;
5251 }
5252 if(EXT){
5253 pam_tree_clone[i]->Branch("RecoveredTrack","TClonesArray",&orb_ext_obj);
5254 cout << "OrbitalInfo : branch RecoveredTrack" << endl;
5255 if(NUC){
5256 pam_tree_clone[i]->Branch("RecoveredTrackNuclei","TClonesArray",&orb_ext_nuc_obj);
5257 cout << "OrbitalInfo : branch RecoveredTrackNuclei" << endl;
5258 }
5259 }
5260 i++;
5261 };
5262 // GPamela
5263 if (GP) {
5264 pam_tree_clone[i] = new TTree("h20", "GPAMELA info ");
5265 pam_tree_clone[i]->Branch("GPamela", "GPamela", GetPointerTo("GPamela"), 32000, 1);//split
5266 cout << "GPamela : branch GPamela" << endl;
5267 i++;
5268 };
5269
5270
5271 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5272
5273 }
5274
5275 /**
5276 * Fill tree (created with CreateCloneTrees)
5277 *
5278 */
5279 //void PamLevel2::FillNewPamTree(TTree *T){
5280 void PamLevel2::FillCloneTrees() {
5281
5282 // cout << "PamLevel2::FillCloneTrees()" << irunentry << endl;
5283
5284 for (Int_t i = 0; i < NCLONES; i++) {
5285 if (pam_tree_clone[i])
5286 pam_tree_clone[i]->Fill();
5287 }
5288 if (sel_tree_clone)
5289 sel_tree_clone->Fill();
5290
5291 }
5292
5293 TTree* PamLevel2::GetCloneTree(TString name) {
5294
5295 for (Int_t i = 0; i < NCLONES; i++) {
5296 if (pam_tree_clone[i]) {
5297 TString na = pam_tree_clone[i]->GetName();
5298 if (!name.CompareTo(na))
5299 return pam_tree_clone[i];
5300 };
5301 }
5302 if (run_tree_clone) {
5303 TString na = run_tree_clone->GetName();
5304 if (!name.CompareTo(na))
5305 return run_tree_clone;
5306 }
5307 if (sel_tree_clone) {
5308 TString na = sel_tree_clone->GetName();
5309 if (!name.CompareTo(na))
5310 return sel_tree_clone;
5311 }
5312 return NULL;
5313
5314 }
5315 void PamLevel2::WriteCloneTrees() {
5316 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5317 cout << "Write clones of PAMELA trees " << endl;
5318 cout << run_tree_clone->GetName() << endl;
5319 if (SELLI != 2) {// Emiliano
5320 if (run_tree_clone->GetBranch("DeadLiveTime")->GetEntries() < run_tree->GetEntries())
5321 run_tree_clone->GetBranch("DeadLiveTime")->Fill();
5322 };
5323 run_tree_clone->Write();
5324 if (SELLI != 2) { //Emiliano
5325 cout << sel_tree_clone->GetName() << endl;
5326 sel_tree_clone->Write();
5327 };
5328 for (Int_t i = 0; i < NCLONES; i++) {
5329 if (pam_tree_clone[i]) {
5330 cout << pam_tree_clone[i]->GetName() << endl;
5331 pam_tree_clone[i]->Write();
5332 };
5333 }
5334 cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" << endl;
5335
5336 }
5337
5338 /**
5339 * Method to get level2-trees entry, the corresponding run entry and (if required) the level0 entry.
5340 */
5341 Int_t PamLevel2::GetEntry(Long64_t iee) {
5342
5343 if (!pam_tree) {
5344 cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- level2 trees not loaded" << endl;
5345 return 0;
5346 }
5347
5348 //
5349 // This is a sort of bug: if you don't have the run tree you don't want to exit here you want to have loaded the event anyway...
5350 //
5351 // if(!run_tree ){
5352 // cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- run tree not loeaded"<<endl;
5353 // return 0;
5354 // }
5355
5356 //-------------------------------
5357 if (!pam_tree->GetEntry(iee)) {
5358 cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- error reading pam tree" << endl;
5359 return 0;
5360 }
5361 //
5362 // ... that's way I put it here. Notice that nothing change in the code (is backward compatible) since in any case you return with 0.
5363 // in theory one would like to return 1 if run is not loaded but now I don't have the will to add that 2 lines of code and it is not
5364 // a problem if you don't check the return code of getentry.
5365 //
5366 if (!RUN || !run_tree) {
5367 if (TRK0 || CAL0 || TOF0 || RUN) { //forse cosi` va bene per tornare 1?
5368 cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- run tree not loaded" << endl;
5369 return 0;
5370 }
5371 else {
5372 return 1; //cosi` se non c'e` run esce qua...
5373 }
5374 }
5375
5376 //-------------------------------
5377 //
5378 if ( fUpdateRunInfo ) UpdateRunInfo(iee); // Emiliano
5379 if (SELLI == 0 || SELLI == 2) irunentry = iee - runfirstentry;
5380
5381 return 1;
5382
5383 }
5384
5385 TrkLevel0 *PamLevel2::GetTrkLevel0() {
5386 if (!TRK0)
5387 return NULL;
5388 if (!GetYodaEntry()) {
5389 cout << " Int_t PamLevel2::GetTrkLevel0() -- ERROR -- error reading level0 tree" << endl;
5390 return 0;
5391 }
5392 return trk0_obj;
5393 }
5394 ;
5395 CaloLevel0 *PamLevel2::GetCaloLevel0() {
5396 if (!CAL0)
5397 return NULL;
5398 if (!GetYodaEntry()) {
5399 cout << " Int_t PamLevel2::GetCaloLevel0() -- ERROR -- error reading level0 tree" << endl;
5400 return 0;
5401 }
5402 return calo0_obj;
5403 }
5404 ;
5405
5406 /**
5407 * Method to retrieve the level0 tree (YODA tree) that contains the current event.
5408 * Given the run ID (...), if needed it query the DB and load the proper file.
5409 * @return Pointer to the tree
5410 */
5411
5412 TTree* PamLevel2::GetYodaTree() {
5413
5414 // cout << "TTree* PamLevel2::GetYodaTree( )"<<endl;
5415 //===================================
5416 // check if iroot has changed
5417 //===================================
5418 if (irun < 0) {
5419 cout << "PamLevel2::GetYodaTree() -- ERROR -- irun = " << irun << endl;
5420 if (DBG) cout << "In order to use this method you have to first load the RunInfo tree "<<endl;
5421 return NULL;
5422 }
5423 Int_t irootnew = GetRunInfo()->ID_ROOT_L0;
5424 if (DBG){
5425 cout << "iroot "<<iroot<<endl;
5426 cout << "irootnew "<<irootnew<<endl;
5427 }
5428
5429 //===================================
5430 // load the level0 file
5431 // (if not already loaded)
5432 //===================================
5433 if (iroot != irootnew || !l0_tree) {
5434 iroot = irootnew;
5435 //===================================
5436 // open the DB connection
5437 // (if not already opened)
5438 //===================================
5439 if (!dbc || (dbc && !dbc->IsConnected()))
5440 SetDBConnection();
5441 GL_ROOT glroot = GL_ROOT();
5442 if (glroot.Query_GL_ROOT(iroot, dbc)) {
5443 cout << "TTree* PamLevel2::GetYodaTree( ) -- ERROR -- level0 file iroot = " << iroot << " does not exists"
5444 << endl;
5445 return NULL;
5446 };
5447 TString filename = glroot.PATH + glroot.NAME;
5448 if (l0_file) {
5449 l0_file->Close();
5450 l0_file->Delete();
5451 }
5452 cout << "Opening LEVEL0 file: " << filename << endl;
5453 FileStat_t t;
5454 if (gSystem->GetPathInfo(filename.Data(), t)) {
5455 cout << " PamLevel2::GetYodaTree() -- ERROR opening file " << endl;
5456 return NULL;
5457 }
5458 l0_file = new TFile(filename);
5459 if (!l0_file)
5460 return NULL;
5461 l0_tree = (TTree*) l0_file->Get("Physics");
5462 if (!h0_obj)
5463 h0_obj = new EventHeader();
5464 l0_tree->SetBranchAddress("Header", &h0_obj);
5465 yprevshift = 0; // yes, yprevshift is the shift in the level0, prevshift is the shift in the level2
5466 //---------------------------------------------------
5467 // TRACKER:
5468 if (TRK0) {
5469 if (!trk0_obj) {
5470 trk0_obj = new TrkLevel0();
5471 trk0_obj->Set();
5472 };
5473 l0_tree->SetBranchAddress("Tracker", trk0_obj->GetPointerToTrackerEvent());
5474 }
5475 //--------------------------------------------------
5476 // CALORIMETER:
5477 if (CAL0) {
5478 if (!calo0_obj) {
5479 calo0_obj = new CaloLevel0();
5480 calo0_obj->Set();
5481 };
5482 l0_tree->SetBranchAddress("Calorimeter", calo0_obj->GetPointerToCalorimeterEvent());
5483 }
5484 //---------------------------------------------------
5485 // TOF:
5486 if (TOF0) {
5487 cout << "PamLevel2::GetYodaTree() --- level0 TOF not implemented " << endl;
5488 }
5489
5490 dbc->Close(); // EMILIANO, do not leave open connections, open only when needed
5491 delete dbc;
5492 dbc=0;
5493
5494 };
5495
5496 if (TRK0) {
5497 if(!dbc || (dbc && !dbc->IsConnected()))SetDBConnection();
5498 TrkParams::SetCalib(run_obj, dbc);
5499 TrkParams::LoadCalib();
5500 if (!TrkParams::CalibIsLoaded()) {
5501 cout << " TTree* PamLevel2::GetYodaTree( ) -- WARNING -- Calibration not loaded" << endl;
5502 };
5503 if(dbc){
5504 dbc->Close(); // EMILIANO, do not leave open connections, open only when needed
5505 delete dbc;
5506 dbc=0;
5507 };
5508 }
5509 return l0_tree;
5510 }
5511
5512 /**
5513 * Method to retrieve the level0 tree (YODA tree) that contains the current event.
5514 */
5515 Int_t PamLevel2::GetYodaEntry() {
5516
5517 Long64_t iev = this->GetReadEntry();
5518
5519 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
5520 // if it is a full file (not preselected)
5521 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-
5522 // if (SELLI == 0 || SELLI == 2 || !hasL0EE) {
5523
5524 if (!GetYodaTree()){
5525 printf(" PamLevel2::GetYodaEntry() : ERROR no level0 file loaded!\n");
5526 return 0;
5527 }
5528
5529 if (irunentry < 0) {
5530 if (DBG) cout << "Int_t PamLevel2::GetYodaEntry() -- ATTENZIONE -- irunentry negativo?!?! "<<(Int_t)irunentry<<endl;
5531 // cout << "Int_t PamLevel2::GetYodaEntry() -- ATTENZIONE -- irunentry negativo?!?! "<<(Int_t)irunentry<<endl; // TOGLITOGLI
5532 irunentry = 0LL;
5533 }
5534 // ---------------------------------
5535 // if file is NOT a preselected file
5536 // ---------------------------------
5537 Long64_t quellagiusta = irunentry + (Long64_t)(run_obj->EV_FROM); // prevshift already included in irunentry
5538
5539 if (DBG){
5540 cout << " irun "<< irun << " irunentry "<< irunentry<<" run_obj->EV_FROM "<<run_obj->EV_FROM <<" quella giusta "<<quellagiusta << endl;
5541 cout << " iroot "<<iroot<<" run_obj->ID_ROOT_L0 "<<run_obj->ID_ROOT_L0<<endl;
5542 cout << " time "<< abstime << endl;
5543 }
5544
5545 ULong64_t obt = 0;
5546 ULong64_t pktn = 0;
5547 if (GetOrbitalInfo()) {
5548 obt = GetOrbitalInfo()->OBT;
5549 pktn = GetOrbitalInfo()->pkt_num;
5550 }
5551
5552 if (!GetOrbitalInfo() && !ISGP) {
5553 cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- missing OrbitalInfo " << endl;
5554 return 0;
5555 }
5556 if (obt == 0 && pktn == 0 && !ISGP) {
5557 cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- level2 event corrupted ?? " << endl;
5558 return 0;
5559 }
5560
5561 // ---------------------------------------------------------------------
5562 // ATTENTION!!!
5563 // If data are not pre-processed with cleaner, the level0 tree may contain
5564 // spurious nested physics packets.
5565 // The GL_RUN variables EV_FROM, EV_TO and NEVENTS counts also these entries
5566 // while level2 tree DOES NOT!!
5567 // This means that "quellagiusta" in these cases is not correct.
5568 // In order to retrieve the correct level0 event, I implemented a check
5569 // of the OBT and pkt-number. In case of mismatch, the level0 entry number
5570 // is shift forward until when the packets match.
5571 // ---------------------------------------------------------------------
5572 Long64_t shift = 0LL;
5573 Long64_t answer = quellagiusta + shift + yprevshift;
5574 Int_t readl0 = 0;
5575 readl0 = l0_tree->GetEntry(answer); // prevshift already included in irunentry
5576
5577 if (DBG){
5578 printf(" siamo qui shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);
5579 }
5580
5581
5582 if (ISGP) {
5583 obt = (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()); //BARBATRUCCO
5584 pktn = (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()); //BARBATRUCCO
5585 }
5586
5587 while ( (obt != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) || pktn != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter())) && (quellagiusta + (Long64_t) shift) < GetYodaTree()->GetEntries() && shift < maxshift ){
5588 if ( isSync && shift == 0LL ){
5589 printf(" PamLevel2::GetYodaEntry() ERROR! sync file but the level0 entry not found in place!!! \n");
5590 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5591 cout << "\nFor bug reporting instructions, please see for example:\n";
5592 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5593 cout << " " << endl;
5594 }
5595 if (shift > 0) {
5596 if (DBG) cout << " PKTNUM L2 --- " << pktn << " --- L0 --- " << GetEventHeader()->GetPscuHeader()->GetCounter() << endl;
5597 if (DBG)
5598 cout << " RUN: ID " << GetRunInfo()->ID << " ID_ROOT_L0 " << run_obj->ID_ROOT_L0 << " ID_RUN_FRAG "
5599 << GetRunInfo()->ID_RUN_FRAG << " EV_FROM " << GetRunInfo()->EV_FROM << endl;
5600 if (DBG)
5601 cout << " L2 <--> L0 mismatch ( irun " << irun << " irunentry " << irunentry << " shift " << shift
5602 << " prevshift " << prevshift << " )" << endl;
5603 }
5604 answer = quellagiusta + shift+ yprevshift;
5605 readl0 = l0_tree->GetEntry(answer);
5606 // printf(" inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);//TOGLITOGLI
5607
5608 if (!GetEventHeader()) {
5609 cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- missing EventHeader " << endl;
5610 return 0;
5611 }
5612
5613 //
5614 if (yprevshift != 0 && (quellagiusta + (Long64_t) shift) == GetYodaTree()->GetEntries()) {
5615 if (DBG) printf(" reset inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);
5616 // printf(" reset inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);//TOGLITOGLI
5617 yprevshift = 0LL;
5618 shift = -1LL;
5619 };
5620
5621 shift++;
5622 }
5623
5624
5625 if ( obt != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) || pktn != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()) ){
5626 if ( isSync ){
5627 printf(" PamLevel2::GetYodaEntry() ERROR! sync file but the level0 entry not found AT ALL!!! \n");
5628 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5629 cout << "\nFor bug reporting instructions, please see for example:\n";
5630 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5631 cout << " " << endl;
5632 }
5633 cout << "Int_t PamLevel2::GetYodaEntry() -- WARNING -- " << endl;
5634 cout << " Big trouble here, no such event in Level0 data! (NB maxshift set to " << maxshift << " )" << endl;
5635 cout << " Nested and/or DarthVader skipped packets in fragmented run? checking and trying to fix " <<endl;
5636 // query the DB for runs containing the event, loop over LEVEL0 files which could contain the level0 event and try to find it
5637 // ma nel mezzo del cammin per ogni run che pesco devo vedere la posizione relativa di iev rispetto al runheader nel livello2 per andare a cercare nel posto giusto
5638 // connect to db
5639 if (!dbc || (dbc && !dbc->IsConnected())) SetDBConnection(); //Emiliano
5640 //
5641 if (GetOrbitalInfo()){
5642 abstime = GetOrbitalInfo()->absTime;
5643 } else {
5644 printf(" PamLevel2::GetYodaEntry() ERROR! no OrbitalInfo, cannot get the absolute time for event \n");
5645 return 0;
5646 }
5647 // query DB looking for runs containing the processed event
5648 TSQLResult *pResult;
5649 TSQLRow *Row = NULL;
5650 TString myquery = Form("select ID,NEVENTS from GL_RUN where RUNHEADER_TIME<=%lld and RUNTRAILER_TIME>=%lld;",abstime,abstime);
5651 if ( DBG ) printf(" query is %s \n",myquery.Data());
5652 // printf(" query is %s \n",myquery.Data());// TOGLITOGLI
5653 pResult = dbc->Query(myquery.Data());
5654 if (!pResult->GetRowCount()){
5655 printf(" PamLevel2::GetYodaEntry() ERROR! event is not included in any run!!! \n");
5656 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5657 cout << "\nFor bug reporting instructions, please see for example:\n";
5658 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5659 cout << " " << endl;
5660 return 0;
5661 }
5662 if ( pResult->GetRowCount() == 1 ){
5663 if (DBG) printf(" PamLevel2::GetYodaEntry() - WARNING - YodaEntry not found but only one run containing the event, it should not happen \n");
5664 // printf(" PamLevel2::GetYodaEntry() - WARNING - YodaEntry not found but only one run containing the event, it should not happen \n");//TOGLITOGLI
5665 }
5666 for( Int_t ru=0; ru < pResult->GetRowCount(); ru++){ // loop over runs containing the event
5667 if (Row) delete Row;
5668 Row = pResult->Next();
5669 if( Row == NULL ) break;
5670 UInt_t idrun = (UInt_t)atoll(Row->GetField(0));
5671 UInt_t nev = (UInt_t)atoll(Row->GetField(1));
5672 if (DBG) printf(" inside loop over runs: ru %i idrun %i nev %i \n",ru,idrun,nev);
5673 // printf(" inside loop over runs: ru %i idrun %i nev %i \n",ru,idrun,nev);//TOGLITOGLI
5674
5675 // now look for this run in the level2 file, it must be present! code is taken from updateruninfo of course
5676 Bool_t rfound = false;
5677 totrunentry = 0LL;
5678 runfirstentry = 0LL;
5679 for (Int_t r=0; r< run_tree->GetEntries();r++){
5680 run_tree->GetEntry(r);//update runinfo
5681 if ( r > 0 ){
5682 totrunentrymin = totrunentrymax+1;
5683 } else {
5684 totrunentrymin = 0LL;
5685 }
5686 totrunentry += GetRunInfo()->NEVENTS;
5687 totrunentrymax = totrunentry - 1 - prevshift; // prevshift is needed to handle nested+DV_skipped packets
5688 irun = r;
5689
5690 if (idrun == GetRunInfo()->ID){
5691 if ( totrunentrymin > iev ){ // there is a shift (nested+DV_skipped packets)
5692 if (DBG) printf("PamLevel2::GetYodaEntry - unconsistent iev - nevents, probable DBL0-L2 async\n");
5693 if (DBG) printf("PamLevel2::GetYodaEntry - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);
5694 // printf("PamLevel2::GetYodaEntry - unconsistent iev - nevents, probable DBL0-L2 async\n");
5695 // printf("PamLevel2::GetYodaEntry - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);//TOGLITOGLI
5696 prevshift += (totrunentrymin-iev); // add the new shift to total shift
5697 totrunentrymin -= (totrunentrymin-iev); // shift run position min
5698 totrunentrymax -= (totrunentrymin-iev); // shift run position max
5699 if (DBG) printf("PamLevel2::GetYodaEntry - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);
5700 // printf("PamLevel2::GetYodaEntry - totrunentrymin %lld iev %lld prevshift %lld totrunentrymax %lld \n",totrunentrymin,iev,prevshift,totrunentrymax);//TOGLITOGLI
5701 }
5702 runfirstentry = totrunentrymin; // first entry of the run in the level2
5703
5704
5705 //
5706 if (gltsync)
5707 delete gltsync; // Emiliano
5708 if (!dbc || (dbc && !dbc->IsConnected()))
5709 SetDBConnection(); //Emiliano
5710 gltsync = new GL_TIMESYNC(GetRunInfo()->ID_ROOT_L0, "ID", dbc, false); // Emiliano
5711 if (dbc){
5712 dbc->Close(); // Emiliano
5713 delete dbc;
5714 dbc=0;
5715 }
5716 if (gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT) > gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT)) { // Emiliano
5717 cout << "Bool_t PamLevel2::UpdateRunInfo(Long64_t iev) -- WARNING -- irun " << irun
5718 << " has RUNHEADER_OBT>=RUNTRAILER_OBT " << endl;
5719 cout
5720 << " (NB!! in this case some events could be assigned to a wrong run)"
5721 << endl;
5722 }
5723 //
5724 if (DBG) printf(" found \n");
5725 // printf(" found \n");//TOGLITOGLI
5726 rfound = true;
5727 //
5728 break;
5729 }
5730 } // loop over run
5731 if ( !rfound ){
5732 printf(" PamLevel2::GetYodaEntry() ERROR! run is not present in the level2 file!!! \n");
5733 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5734 cout << "\nFor bug reporting instructions, please see for example:\n";
5735 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5736 cout << " " << endl;
5737 return 0;
5738 }
5739
5740 // here we got the first run and we can check if it contains the level0 event
5741 if (!GetYodaTree()){
5742 printf(" PamLevel2::GetYodaEntry() : ERROR no level0 file loaded!\n");
5743 return 0;
5744 }
5745
5746 // get the current run entry
5747 irunentry = iev - runfirstentry;
5748 if (irunentry < 0) {
5749 if (DBG) cout << "Int_t PamLevel2::GetYodaEntry() -- ATTENZIONE -- irunentry negativo?!?! "<<(Int_t)irunentry<<endl;
5750 // cout << "Int_t PamLevel2::GetYodaEntry() -- ATTENZIONE -- irunentry negativo?!?! "<<(Int_t)irunentry<<endl; // TOGLITOGLI
5751 irunentry = 0LL;
5752 }
5753 // ---------------------------------
5754 // if file is NOT a preselected file
5755 // ---------------------------------
5756 quellagiusta = irunentry + (Long64_t)(run_obj->EV_FROM); // prevshift already included in irunentry
5757
5758 if (DBG){
5759 cout << " irun "<< irun << " irunentry "<< irunentry<<" run_obj->EV_FROM "<<run_obj->EV_FROM <<" quella giusta "<<quellagiusta << endl;
5760 cout << " iroot "<<iroot<<" run_obj->ID_ROOT_L0 "<<run_obj->ID_ROOT_L0<<endl;
5761 cout << " time "<< abstime << endl;
5762 }
5763 // cout << " irun "<< irun << " irunentry "<< irunentry<<" run_obj->EV_FROM "<<run_obj->EV_FROM <<" quella giusta "<<quellagiusta << endl;
5764 // cout << " iroot "<<iroot<<" run_obj->ID_ROOT_L0 "<<run_obj->ID_ROOT_L0<<endl;
5765 // cout << " time "<< abstime << endl; // TOGLITOGLI
5766
5767 shift = 0;
5768 answer = quellagiusta + shift + yprevshift; // prevshift already included in irunentry
5769 readl0 = l0_tree->GetEntry(answer); // prevshift already included in irunentry
5770
5771 if (DBG){
5772 printf(" siamo qua shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);
5773 }
5774 // printf(" siamo qua shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);//TOGLITOGLI
5775
5776 while ( (obt != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) || pktn != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter())) && (quellagiusta + (Long64_t) shift) < GetYodaTree()->GetEntries() && shift < maxshift ){
5777 if (shift > 0) {
5778 if (DBG) cout << " PKTNUM L2 --- " << pktn << " --- L0 --- " << GetEventHeader()->GetPscuHeader()->GetCounter() << endl;
5779 if (DBG)
5780 cout << " RUN: ID " << GetRunInfo()->ID << " ID_ROOT_L0 " << run_obj->ID_ROOT_L0 << " ID_RUN_FRAG "
5781 << GetRunInfo()->ID_RUN_FRAG << " EV_FROM " << GetRunInfo()->EV_FROM << endl;
5782 if (DBG)
5783 cout << " L2 <--> L0 mismatch ( irun " << irun << " irunentry " << irunentry << " shift " << shift
5784 << " prevshift " << prevshift << " )" << endl;
5785 }
5786 answer = quellagiusta + shift+ yprevshift;
5787 readl0 = l0_tree->GetEntry(answer);
5788 // printf(" inside inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);//TOGLITOGLI
5789
5790 if (!GetEventHeader()) {
5791 cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- missing EventHeader " << endl;
5792 return 0;
5793 }
5794 //
5795 if (yprevshift != 0 && (quellagiusta + (Long64_t) shift) == GetYodaTree()->GetEntries()) {
5796 if (DBG) printf(" reset inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);
5797 // printf(" reset inside while shift %lld yprevshift %lld answer %lld \n",shift,yprevshift,answer);//TOGLITOGLI
5798 yprevshift = 0;
5799 shift = -1;
5800 };
5801
5802 shift++;
5803 }
5804
5805 if ( obt != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) || pktn != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()) ){
5806 //still not the good run... continue with the nex one!
5807 printf("still not the good run... continue with the nex one!\n");
5808 } else {
5809 if (DBG) cout << "LA ENTRY GIUSTA E`: "<<quellagiusta<<" (spero...)"<<endl;
5810 // cout << "LA ENTRY GIUSTA E`: "<<answer<<" (spero...)"<<endl;//TOGLITOGLI
5811 if (shift > 1) yprevshift = (shift - 1);
5812 if (Row) delete Row;
5813 delete pResult;
5814 if (dbc){
5815 dbc->Close(); // Emiliano
5816 delete dbc;
5817 dbc=0;
5818 }
5819 il0entry = answer;
5820 return readl0;
5821 }
5822 // perhaps it is all
5823 }// loop over runs containing the event
5824 if (Row) delete Row;
5825 delete pResult;
5826 if (dbc){
5827 dbc->Close(); // Emiliano
5828 delete dbc;
5829 dbc=0;
5830 }
5831 // arriving here it means no run found, cannot be! error!
5832 printf(" PamLevel2::GetYodaEntry() ERROR! run is not present in the level0 files!!! \n");
5833 cout << " OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5834 cout << "\nFor bug reporting instructions, please see for example:\n";
5835 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5836 cout << " " << endl;
5837 return 0;
5838 } else {
5839 if (DBG) cout << "=> LA ENTRY GIUSTA E`: "<<answer<<" (spero...)"<<endl;
5840 // cout << "=> LA ENTRY GIUSTA E`: "<<answer<<" (spero...)"<<endl;
5841 // printf("obt %lld (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) %i pktn %lld (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter() %i \n",obt,(UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()), pktn, (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()) );
5842 if (shift > 1) yprevshift = (shift - 1);
5843 il0entry = answer;
5844 return readl0;
5845 }
5846
5847 /* } // if selli 0 || 2
5848 if ( SELLI == 1 && hasL0EE ){
5849 sel_tree->GetEntry(iev);
5850 Long64_t answer = il0entry;
5851 Int_t readl0 = 0;
5852 readl0 = l0_tree->GetEntry(answer);
5853 return readl0;
5854 }*/
5855 printf(" PamLevel2::GetYodaEntry() ERROR! \n");
5856 cout << " Entry not found! OK this is a bug, write to Emiliano, Emiliano.Mocchiutti@ts.infn.it " << endl;
5857 cout << "\nFor bug reporting instructions, please see for example:\n";
5858 cout << " <http://www.ts.infn.it/~mocchiut/bugs/bugs.html>.\n";
5859 cout << " " << endl;
5860 return 0;
5861 }
5862
5863 /**
5864 * \Brief Set DB connection
5865 */
5866 Bool_t PamLevel2::SetDBConnection() {
5867
5868 // cout << "PamLevel2::SetDBConnection()" << endl;
5869 if (DBG) {
5870 cout << "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~" << endl;
5871 cout << "Connecting to DB" << endl;
5872 cout << "HOST " << host << endl;
5873 cout << "USER " << user << endl;
5874 cout << "PSW " << psw << endl;
5875 }
5876 Bool_t notconn = true;
5877 Int_t trials = 0;
5878 while ( notconn && trials < 10 ){
5879 // gSystem->Sleep(500);
5880 dbc = TSQLServer::Connect(host.Data(), user.Data(), psw.Data());
5881 //dbc->Connect(host.Data(), user.Data(), psw.Data());
5882 if ( dbc ) notconn = false;
5883 if (DBG) printf("<%i> test connection...\n ",trials);
5884 if (!dbc){
5885 if (DBG) printf(" :( failed, no pointer \n");
5886 notconn = true;
5887 // return false;
5888 };
5889 if (dbc && !dbc->IsConnected()){
5890 if (DBG) printf(" :( failed, no connection \n");
5891 notconn = true;
5892 // return false;
5893 };
5894 trials++;
5895 };
5896 if ( notconn ) return false;
5897 //
5898 if (DBG) printf("=connected!\n");
5899 stringstream myquery; // EMILIANO
5900 myquery.str(""); // EMILIANO
5901 myquery << "SET time_zone='+0:00'"; // EMILIANO
5902 dbc->Query(myquery.str().c_str()); // EMILIANO
5903 if ( DBG ) printf("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
5904 return true;
5905
5906 }
5907
5908 /**
5909 * \Brief Add a friend to the pamela chain.
5910 * @param cname name of the chain to be added
5911 */
5912
5913 TChain* PamLevel2::AddFriend(TString cname) {
5914
5915 if (!GetPamTree()) {
5916 cout << " TChain* PamLevel2::AddFriend(TString cname) --- a pamela tree must be created first" << endl;
5917 return NULL;
5918 }
5919
5920 TChain *c = new TChain(cname.Data());
5921
5922 TIter next(GetPamTree()->GetListOfFiles());
5923 Int_t nf = 0;
5924 TChainElement* element = 0;
5925 while ((element = (TChainElement*) next())) {
5926 c->Add(element->GetTitle());
5927 nf++;
5928 }
5929
5930 GetPamTree()->AddFriend(cname.Data());
5931
5932 cout << "external chain created and added to pamela friends :" << cname << endl;
5933 cout << "n.files " << nf << endl;
5934
5935 return c;
5936
5937 }
5938
5939 /**
5940 * Returns the current read entry. This method simply returns the result of the call to
5941 * pam_tree->GetReadEntry(), so it is entirely handled by ROOT.
5942 */
5943 Long64_t PamLevel2::GetReadEntry() {
5944 return pam_tree->GetReadEntry();
5945 }
5946
5947 /**
5948 * Sets the sorting method. If the new method is different from the previous, the issorted
5949 * flag is set to false, forcing a new sort the next time GetTrack is called.
5950 * @see GetTrack
5951 */
5952 void PamLevel2::SetSortingMethod(TString how) {
5953 if (howtosort != how) {
5954 issorted = false;
5955 issorted_new = false;
5956 }
5957 howtosort = how;
5958 }
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