/[PAMELA software]/root2paw/macros/GroundDataConvert.c
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Contents of /root2paw/macros/GroundDataConvert.c

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Revision 1.2 - (show annotations) (download)
Tue Feb 14 15:56:35 2006 UTC (19 years, 8 months ago) by mocchiut
Branch: MAIN
Changes since 1.1: +5 -3 lines
File MIME type: text/plain 
Fixed bug in tracker level2 rootple booking
1 //
2 // Program to convert rootples to ntuples and viceversa for the PAMELA ground data.
3 // Written by Emiliano Mocchiutti.
4 //
5 // Version 3.01 (2006/02/14)
6 //
7 // Changelog:
8 //
9 // 3.00 - 3.01 (2006/02/14): bug in the booking of the level2 tracker rootple (wrong dimension of axv and wrong dereference to image[ntrk]), fixed (thanks to Silvio Orsi).
10 //
11 // 2.00 - 3.00 (2005/11/29): compiled.
12 //
13 // 1.05 - 2.00 (2005/10/07): added TOF and TRIGGER level1 conversion (from PAW to ROOT).
14 //
15 // 1.04 - 1.05 (2005/10/04): tracker version 2.00 conversion.
16 //
17 // 1.03 - 1.04 (2005/09/07): small bug unloading libraries fixed.
18 //
19 // 1.02 - 1.03 (2005/08/03): changes for working on 64 bit machines.
20 //
21 // 1.01 - 1.02 (2005/07/21): don't load yodaUtility.c anymore and use clone routines in CaloFunctions.h
22 //
23 // 1.00 - 1.01 (2005/07/14): small change in the call to getLEVname (changed to be compiled).
24 //
25 // 0.1 - 1.00 (2005/07/05): working, it converts AC level1 rootples to ntuples and TRK level1 and level2 ntuples to rootples.
26 //
27 // v. 0.1 (2005/06/15): created.
28 //
29 //
30 #include <math.h>
31 #include <stdio.h>
32 //
33 #include <fstream>
34 #include <sstream>
35 #include <iostream>
36 #include <iomanip>
37 //
38 //#include <trklev1struct.h>
39 #include <ctrkstruct.h>
40 #include <ctofstruct.h>
41 #include <cacstruct.h>
42 //
43 #if !defined (__CINT__)
44 #include <event/PamelaRun.h>
45 #include <event/physics/trigger/TriggerEvent.h>
46 #include <event/physics/tof/TofEvent.h>
47 #include <event/physics/tracker/TrackerEvent.h>
48 #include <event/physics/anticounter/AnticounterEvent.h>
49 #include <event/CalibCalPedEvent.h>
50 extern const char *pathtocalibration();
51 extern void coptrklev2(const char [], struct Tracklev2 &, int &);
52 extern void cretrklev2(int &, Tracklev2 &);
53 extern void ccltrklev2(struct Tracklev2 &);
54 extern void coptrklev1(const char [], struct Tracklev1 &, int &);
55 extern void cretrklev1(int &, Tracklev1 &);
56 extern void ccltrklev1(struct Tracklev1 &);
57 extern void coptoflev1(const char [], struct Toflev1 &, int &);
58 extern void cretoflev1(int &, Toflev1 &);
59 extern void ccltoflev1(struct Toflev1 &);
60 extern void copaclev1(const char []);
61 extern void cfiaclev1(struct AClev1 &);
62 extern void cclaclev1();
63 #endif
64 //
65 //
66 #include <CaloFunctions.h>
67 //
68 #include <ctrkinclude.h>
69 #include <ctofinclude.h>
70 #include <aclev1class.h>
71
72 int GroundDataConvert(TString filename, TString detector, TString level, TString outDir = "", Int_t FORCE = 0){
73 gROOT->GetListOfCanvases()->Delete();
74 gDirectory->GetList()->Delete();
75 #if defined (__CINT__)
76 emicheckLib();
77 #endif
78 const char* startingdir = gSystem->WorkingDirectory();
79 TString path;
80 stringcopy(path,startingdir);
81 const char *decname = detector;
82 TString level2;
83 stringcopy(level2,level);
84 const char *lev = level2;
85 Int_t lev1 = 0;
86 Int_t lev2 = 0;
87 if ( !strcmp(lev,"1") ){
88 lev1 = 1;
89 };
90 if ( !strcmp(lev,"2") ){
91 lev2 = 1;
92 };
93 Int_t TRK = 0;
94 stringstream bdir;
95 bdir.str("");
96 if ( !strcmp(decname,"tracker") ) {
97 #if defined (__CINT__)
98 const char *sdir=gSystem->Getenv("PAM_LIB");
99 if ( !strcmp(lev,"1") ){
100 bdir << sdir << "/liboptrklev1.so";
101 gSystem->Load(bdir.str().c_str());
102 bdir.str("");
103 bdir << sdir << "/liboptrklev1_C.so";
104 gSystem->Load(bdir.str().c_str());
105 bdir.str("");
106 bdir << sdir << "/libretrklev1.so";
107 gSystem->Load(bdir.str().c_str());
108 bdir.str("");
109 bdir << sdir << "/libretrklev1_C.so";
110 gSystem->Load(bdir.str().c_str());
111 bdir.str("");
112 bdir << sdir << "/libcltrklev1.so";
113 gSystem->Load(bdir.str().c_str());
114 bdir.str("");
115 bdir << sdir << "/libcltrklev1_C.so";
116 gSystem->Load(bdir.str().c_str());
117 bdir.str("");
118 };
119 if ( !strcmp(lev,"2") ){
120 bdir << sdir << "/liboptrklev2.so";
121 gSystem->Load(bdir.str().c_str());
122 bdir.str("");
123 bdir << sdir << "/liboptrklev2_C.so";
124 gSystem->Load(bdir.str().c_str());
125 bdir.str("");
126 bdir << sdir << "/libretrklev2.so";
127 gSystem->Load(bdir.str().c_str());
128 bdir.str("");
129 bdir << sdir << "/libretrklev2_C.so";
130 gSystem->Load(bdir.str().c_str());
131 bdir.str("");
132 bdir << sdir << "/libcltrklev2.so";
133 gSystem->Load(bdir.str().c_str());
134 bdir.str("");
135 bdir << sdir << "/libcltrklev2_C.so";
136 gSystem->Load(bdir.str().c_str());
137 bdir.str("");
138 };
139 #endif
140 TRK = 1;
141 };
142 Int_t AC = 0;
143 if ( !strcmp(decname,"anticounter") ) {
144 if ( strcmp(lev,"1") ) printf("WARNING: this program can convert only LEVEL1 AC rootples!\nWARNING: assuming you are meaning level=1\n");
145 lev="1";
146 lev1 = 1;
147 lev2 = 0;
148 level = "1";
149 #if defined (__CINT__)
150 const char *sdir=gSystem->Getenv("PAM_LIB");
151 bdir << sdir << "/libopaclev1.so";
152 gSystem->Load(bdir.str().c_str());
153 bdir.str("");
154 bdir << sdir << "/libopaclev1_C.so";
155 gSystem->Load(bdir.str().c_str());
156 bdir.str("");
157 bdir << sdir << "/libfiaclev1.so";
158 gSystem->Load(bdir.str().c_str());
159 bdir.str("");
160 bdir << sdir << "/libfiaclev1_C.so";
161 gSystem->Load(bdir.str().c_str());
162 bdir.str("");
163 bdir << sdir << "/libclaclev1.so";
164 gSystem->Load(bdir.str().c_str());
165 bdir.str("");
166 bdir << sdir << "/libclaclev1_C.so";
167 gSystem->Load(bdir.str().c_str());
168 bdir.str("");
169 #endif
170 AC = 1;
171 };
172 Int_t TOF = 0;
173 if ( !strcmp(decname,"tof") ) {
174 if ( strcmp(lev,"1") ) printf("WARNING: this program can convert only LEVEL1 TOF ntuples!\nWARNING: assuming you are meaning level=1\n");
175 lev="1";
176 lev1 = 1;
177 lev2 = 0;
178 level = "1";
179 #if defined (__CINT__)
180 const char *sdir=gSystem->Getenv("PAM_LIB");
181 bdir << sdir << "/liboptoflev1.so";
182 gSystem->Load(bdir.str().c_str());
183 bdir.str("");
184 bdir << sdir << "/liboptoflev1_C.so";
185 gSystem->Load(bdir.str().c_str());
186 bdir.str("");
187 bdir << sdir << "/libretoflev1.so";
188 gSystem->Load(bdir.str().c_str());
189 bdir.str("");
190 bdir << sdir << "/libretoflev1_C.so";
191 gSystem->Load(bdir.str().c_str());
192 bdir.str("");
193 bdir << sdir << "/libcltoflev1.so";
194 gSystem->Load(bdir.str().c_str());
195 bdir.str("");
196 bdir << sdir << "/libcltoflev1_C.so";
197 gSystem->Load(bdir.str().c_str());
198 bdir.str("");
199 #endif
200 TOF = 1;
201 };
202 //
203 printf("\n Check the existence of input data: \n\n");
204 //
205 Int_t isfileinput = 0;
206 stringstream ifile;
207 if ( TRK ){
208 const string fil = (const char*)filename;
209 //
210 Int_t posiz = fil.find(".rz");
211 if ( posiz == -1 ) posiz = fil.find(".RZ");
212 if ( posiz == -1 ){
213 const string fil2 = (const char*)filename;
214 Int_t nposiz = fil2.find("dw_");
215 if ( nposiz == -1 ) nposiz = fil2.find("DW_");
216 if ( nposiz == -1 ) return(5);
217 nposiz = nposiz+3;
218 Int_t nposiz2 = nposiz+10;
219 TString ufile2;
220 stringcopy(ufile2,filename,nposiz,nposiz2);
221 const char *trname = ufile2;
222 //
223 ifile << filename.Data() << "/Physics/Level";
224 ifile << lev << "/DW_";
225 ifile << trname << "_level";
226 ifile << lev << ".rz";
227 } else {
228 if ( outDir == "" ){
229 printf("ERROR: if you give as input the name of the file to convert you must give also the output directory where to store data\n");
230 printf("Exiting...\n");
231 return(6);
232 };
233 TString ufile2;
234 Int_t nposiz = posiz -1;
235 Int_t nposiz2 = posiz;
236 stringcopy(ufile2,filename,nposiz,nposiz2);
237 const char *levname = ufile2;
238 if ( strcmp(lev,levname) ){
239 printf("ERROR: you asked to process LEVEL%s data but the input file contains LEVEL%s data!\n\n Exiting... \n",lev,levname);
240 return(6);
241 };
242 ifile << filename;
243 isfileinput = 1;
244 };
245 ifstream mypawfile;
246 mypawfile.open(ifile.str().c_str());
247 if ( !mypawfile ){
248 printf("ERROR: file %s does not exist \n\n",ifile.str().c_str());
249 printf("Exiting...\n");
250 return(2);
251 };
252 printf(" OK, TRACKER input file exists \n\n");
253 };
254 //
255 if ( TOF ){
256 const string fil = (const char*)filename;
257 //
258 Int_t posiz = fil.find(".rz");
259 if ( posiz == -1 ) posiz = fil.find(".RZ");
260 if ( posiz == -1 ){
261 const string fil2 = (const char*)filename;
262 Int_t nposiz = fil2.find("dw_");
263 if ( nposiz == -1 ) nposiz = fil2.find("DW_");
264 if ( nposiz == -1 ) return(5);
265 nposiz = nposiz+3;
266 Int_t nposiz2 = nposiz+10;
267 TString ufile2;
268 stringcopy(ufile2,filename,nposiz,nposiz2);
269 const char *trname = ufile2;
270 //
271 ifile << filename.Data() << "/Physics/Level";
272 ifile << lev << "/DW_";
273 ifile << trname << "_toftrack.rz";
274 } else {
275 if ( outDir == "" ){
276 printf("ERROR: if you give as input the name of the file to convert you must give also the output directory where to store data\n");
277 printf("Exiting...\n");
278 return(6);
279 };
280 //
281 ifile << filename;
282 isfileinput = 1;
283 };
284 ifstream mypawfile;
285 mypawfile.open(ifile.str().c_str());
286 if ( !mypawfile ){
287 printf("ERROR: file %s does not exist \n\n",ifile.str().c_str());
288 printf("Exiting...\n");
289 return(2);
290 };
291 printf(" OK, TOF input file exists \n\n");
292 };
293 //
294 TFile *headerFile = 0;
295 TTree *tr = 0;
296 TFile *acFile = 0;
297 if ( AC ){
298 headerFile = emigetFile(filename, "Physics", "Header");
299 if ( !headerFile ){
300 headerFile->Close();
301 printf("No header file, exiting...\n");
302 return(1);
303 };
304 tr = (TTree*)headerFile->Get("Pscu");
305 //
306 acFile = emigetFile(filename, "Physics.Level1","Anticounter");
307 if ( !acFile ){
308 printf("ERROR: No AC file! \n Exiting... \n\n");
309 return(2);
310 };
311 printf(" OK, AC file exists \n\n");
312 tr->AddFriend("AcLevel1",acFile);
313 };
314 //
315 if ( !FORCE ) printf(" Not in FORCE mode, check the existence of output data: \n");
316 Int_t nofile = 0;
317 //
318 TString filety = "";
319 TString detc = ""; // detector
320 //
321 if ( TRK ){
322 filety = "root";
323 detc = "Tracker"; // detector
324 };
325 if ( TOF ){
326 filety = "root";
327 detc = "TofTrigger"; // detector
328 };
329 if ( AC ){
330 filety = "rz";
331 detc = "Anticounter"; // detector
332 }
333 char *file;
334 if ( !isfileinput ){
335 file = getLEVname(filename,detc,lev,filety);
336 } else {
337 file = getfileLEVname(filename,detc,lev,filety);
338 };
339 //
340 stringstream file2;
341 file2.str("");
342 stringstream file3;
343 file3.str("");
344 const char *file4 = 0;
345 if ( outDir == "" ){
346 file4 = filename;
347 file3 << file4 << "/Physics/Level";
348 file3 << lev;
349 } else {
350 file4 = outDir;
351 file3 << file4;
352 };
353 file2 << file3.str().c_str() << "/";
354 file2 << file;
355 //
356 printf("\n Filename will be: \n %s \n\n",file2.str().c_str());
357 ifstream mypawfile;
358 mypawfile.open(file2.str().c_str());
359 if ( mypawfile ){
360 nofile = 1;
361 } else {
362 if ( !FORCE ) printf("Error in opening file: file %s does not exist \n",file2.str().c_str());
363 };
364 //
365 if ( !FORCE ){
366 if ( nofile ){
367 printf(" ERROR: file already exists! Use FORCE = 1 to override \n\n");
368 gSystem->ChangeDirectory(path);
369 return(3);
370 } else {
371 printf("\n OK, I will create it!\n\n");
372 };
373 };
374 //
375 //
376 //
377 if ( TRK ){
378 if ( lev1 ){
379 //
380 // create output file:
381 //
382 struct Tracklev1 trklev1;
383 char *type;
384 type = "NEW";
385 if ( FORCE ) type = "RECREATE";
386 TFile *hfile = 0;
387 TTree *tree = 0;
388 hfile = new TFile(file2.str().c_str(),type,"Tracker LEVEL1 data");
389 tree = new TTree("TrkLevel1","PAMELA level1 tracker data");
390 tree->Branch("good1",&trklev1.good1,"good1/O");
391 tree->Branch("nev1",&trklev1.nev1,"nev1/I");
392 tree->Branch("pkt_type1",&trklev1.pkt_type1,"pkt_type1/I");
393 tree->Branch("pkt_num1",&trklev1.pkt_num1,"pkt_num1/I");
394 tree->Branch("obt1",&trklev1.obt1,"obt1/I");
395 tree->Branch("which_calib1",&trklev1.which_calib1,"which_calib1/I");
396 tree->Branch("nclstr1",&trklev1.nclstr1,"nclstr1/I");
397 tree->Branch("view",trklev1.view,"view[nclstr1]/I");
398 tree->Branch("ladder",trklev1.ladder,"ladder[nclstr1]/I");
399 tree->Branch("maxs",trklev1.maxs,"maxs[nclstr1]/I");
400 tree->Branch("mult",trklev1.mult,"mult[nclstr1]/I");
401 tree->Branch("dedx",trklev1.dedx,"dedx[nclstr1]/F");
402 tree->Branch("indstart",trklev1.indstart,"indstart[nclstr1]/I");
403 tree->Branch("indmax",trklev1.indmax,"indmax[nclstr1]/I");
404 tree->Branch("totcllength",&trklev1.totcllength,"totcllength/I");
405 tree->Branch("clsignal",trklev1.clsignal,"clsignal[totcllength]/F");
406 tree->Branch("cnev",trklev1.cnev,"cnev[24][12]/F");
407 //
408 Int_t trnev = 0;
409 coptrklev1(ifile.str().c_str(),trklev1,trnev);
410 printf(" The tracker ntuple contains %i events\n Processing data: \n",trnev );
411 for ( Int_t i = 1; i < trnev+1; i++){
412 if ( i%1000 == 0 ) printf("%iK \n",i/1000);
413 //
414 cretrklev1(i,trklev1);
415 //
416 tree->Fill();
417 };
418 printf(" Finished! Closing ntuple...\n");
419 ccltrklev1(trklev1);
420 //
421 hfile->Write();
422 hfile->Close();
423 //
424 gSystem->ChangeDirectory(path);
425 #if defined (__CINT__)
426 char *sdir=gSystem->Getenv("PAM_LIB");
427 bdir.str("");
428 bdir << sdir << "/libcltrklev1_C.so";
429 gSystem->Unload(bdir.str().c_str());
430 bdir.str("");
431 bdir << sdir << "/libcltrklev1.so";
432 gSystem->Unload(bdir.str().c_str());
433 bdir.str("");
434 bdir << sdir << "/libretrklev1_C.so";
435 gSystem->Unload(bdir.str().c_str());
436 bdir.str("");
437 bdir << sdir << "/libretrklev1.so";
438 gSystem->Unload(bdir.str().c_str());
439 bdir.str("");
440 bdir << sdir << "/liboptrklev1_C.so";
441 gSystem->Unload(bdir.str().c_str());
442 stringstream cdir;
443 cdir.str("");
444 char *sdir=gSystem->Getenv("PAM_LIB");
445 cdir << sdir << "/liboptrklev1.so";
446 gSystem->Unload(cdir.str().c_str());
447 #endif
448 return(0);
449 };
450 if ( lev2 ){
451 struct Tracklev2 trklev2;
452 char *type;
453 type = "NEW";
454 if ( FORCE ) type = "RECREATE";
455 TFile *hfile = 0;
456 TTree *tree = 0;
457 hfile = new TFile(file2.str().c_str(),type,"Tracker LEVEL2 data");
458 tree = new TTree("TrkLevel2","PAMELA level2 tracker data");
459 tree->Branch("good2",&trklev2.good2,"good2/O");
460 tree->Branch("nev2",&trklev2.nev2,"nev2/I");
461 tree->Branch("pkt_type",&trklev2.pkt_type,"pkt_type/I");
462 tree->Branch("pkt_num",&trklev2.pkt_num,"pkt_num/I");
463 tree->Branch("obt",&trklev2.obt,"obt/I");
464 tree->Branch("which_calib",&trklev2.which_calib,"which_calib/I");
465 tree->Branch("ntrk",&trklev2.ntrk,"ntrk/I");
466 tree->Branch("image",trklev2.image,"image[ntrk]/I");
467 tree->Branch("xm",trklev2.xm,"xm[ntrk][6]/F");
468 tree->Branch("ym",trklev2.ym,"ym[ntrk][6]/F");
469 tree->Branch("zm",trklev2.zm,"zm[ntrk][6]/F");
470 tree->Branch("resx",trklev2.resx,"resx[ntrk][6]/F");
471 tree->Branch("resy",trklev2.resy,"resy[ntrk][6]/F");
472 tree->Branch("al",trklev2.al,"al[ntrk][5]/F");
473 tree->Branch("coval",trklev2.coval,"coval[ntrk][5][5]/F");
474 tree->Branch("chi2",trklev2.chi2,"chi2[ntrk]/F");
475 tree->Branch("xgood",trklev2.xgood,"xgood[ntrk][6]/I");
476 tree->Branch("ygood",trklev2.ygood,"ygood[ntrk][6]/I");
477 tree->Branch("xv",trklev2.xv,"xv[ntrk][6]/F");
478 tree->Branch("yv",trklev2.yv,"yv[ntrk][6]/F");
479 tree->Branch("zv",trklev2.zv,"zv[ntrk][6]/F");
480 tree->Branch("axv",trklev2.axv,"axv[ntrk][6]/F");
481 tree->Branch("ayv",trklev2.ayv,"ayv[ntrk][6]/F");
482 tree->Branch("dedxp",trklev2.dedxp,"dedxp[ntrk][6]/F");
483 tree->Branch("nclsx",trklev2.nclsx,"nclsx[6]/I");
484 tree->Branch("nclsy",trklev2.nclsy,"nclsy[6]/I");
485 //
486 Int_t trnev = 0;
487 coptrklev2(ifile.str().c_str(),trklev2,trnev);
488 printf(" The tracker ntuple contains %i events\n Processing data: \n",trnev );
489 for ( Int_t i = 1; i < trnev+1; i++){
490 if ( i%1000 == 0 ) printf("%iK \n",i/1000);
491 //
492 cretrklev2(i,trklev2);
493 //
494 tree->Fill();
495 };
496 printf(" Finished! Closing ntuple...\n");
497 ccltrklev2(trklev2);
498 //
499 hfile->Write();
500 hfile->Close();
501 //
502 gSystem->ChangeDirectory(path);
503 #if defined (__CINT__)
504 char *sdir=gSystem->Getenv("PAM_LIB");
505 bdir.str("");
506 bdir << sdir << "/libcltrklev2_C.so";
507 gSystem->Unload(bdir.str().c_str());
508 bdir.str("");
509 bdir << sdir << "/libcltrklev2.so";
510 gSystem->Unload(bdir.str().c_str());
511 bdir.str("");
512 bdir << sdir << "/libretrklev2_C.so";
513 gSystem->Unload(bdir.str().c_str());
514 bdir.str("");
515 bdir << sdir << "/libretrklev2.so";
516 gSystem->Unload(bdir.str().c_str());
517 bdir.str("");
518 bdir << sdir << "/liboptrklev2_C.so";
519 gSystem->Unload(bdir.str().c_str());
520 stringstream bdir;
521 bdir.str("");
522 char *sdir=gSystem->Getenv("PAM_LIB");
523 bdir << sdir << "/liboptrklev2.so";
524 gSystem->Unload(bdir.str().c_str());
525 bdir.str("");
526 #endif
527 return(0);
528 };
529 };
530 if ( TOF ){
531 if ( lev1 ){
532 //
533 // create output file:
534 //
535 struct Toflev1 toflev1;
536 char *type;
537 type = "NEW";
538 if ( FORCE ) type = "RECREATE";
539 TFile *hfile = 0;
540 TTree *tree = 0;
541 hfile = new TFile(file2.str().c_str(),type,"Tof and Trigger LEVEL1 data");
542 tree = new TTree("TofLevel1","PAMELA level1 tof and trigger data");
543 tree->Branch("good2",&toflev1.good2,"good2/O");
544 tree->Branch("nev2",&toflev1.nev2,"nev2/I");
545 tree->Branch("pkt_type",&toflev1.pkt_type,"pkt_type/I");
546 tree->Branch("pkt_num",&toflev1.pkt_num,"pkt_num/I");
547 tree->Branch("obt",&toflev1.obt,"obt/I");
548 tree->Branch("which_calib",&toflev1.which_calib,"which_calib/I");
549 tree->Branch("tdcid",toflev1.tdcid,"tdcid[12]/I");
550 tree->Branch("evcount",toflev1.evcount,"evcount[12]/I");
551 tree->Branch("tdcmask",toflev1.tdcmask,"tdcmask[12]/I");
552 tree->Branch("adc",toflev1.adc,"adc[12][4]/I");
553 tree->Branch("tdc",toflev1.tdc,"tdc[12][4]/I");
554 tree->Branch("temp1",toflev1.temp1,"temp1[12]/I");
555 tree->Branch("temp2",toflev1.temp2,"temp2[12]/I");
556 tree->Branch("beta",toflev1.beta,"beta[5]/F");
557 tree->Branch("xtof",toflev1.xtof,"xtof[3]/F");
558 tree->Branch("ytof",toflev1.ytof,"ytof[3]/F");
559 tree->Branch("adc_c",toflev1.adc_c,"adc_c[12][4]/F");
560 tree->Branch("iflag",toflev1.iflag,"iflag[6]/I");
561 tree->Branch("jflag",toflev1.jflag,"jflag[6]/I");
562 tree->Branch("xout",toflev1.xout,"xout[3]/F");
563 tree->Branch("yout",toflev1.yout,"yout[3]/F");
564 tree->Branch("trig_evcount",&toflev1.trig_evcount,"trig_evcount/I");
565 tree->Branch("pmtpl",toflev1.pmtpl,"pmtpl[3]/I");
566 tree->Branch("trigrate",toflev1.trigrate,"trigrate[6]/I");
567 tree->Branch("dltime",toflev1.dltime,"dltime[2]/I");
568 tree->Branch("s4calcount",toflev1.s4calcount,"s4calcount[2]/I");
569 tree->Branch("pmtcount1",toflev1.pmtcount1,"pmtcount1[24]/I");
570 tree->Branch("pmtcount2",toflev1.pmtcount2,"pmtcount2[24]/I");
571 tree->Branch("patternbusy",toflev1.patternbusy,"patternbusy[3]/I");
572 tree->Branch("patterntrig",toflev1.patterntrig,"patterntrig[6]/I");
573 tree->Branch("trigconf",&toflev1.trigconf,"trigconf/I");
574 tree->Branch("ntrk",&toflev1.ntrk,"ntrk/I");
575 tree->Branch("image",&toflev1.image,"image[ntrk]/I");
576 tree->Branch("xm",toflev1.xm,"xm[ntrk][6]/F");
577 tree->Branch("ym",toflev1.ym,"ym[ntrk][6]/F");
578 tree->Branch("zm",toflev1.zm,"zm[ntrk][6]/F");
579 tree->Branch("resx",toflev1.resx,"resx[ntrk][6]/F");
580 tree->Branch("resy",toflev1.resy,"resy[ntrk][6]/F");
581 tree->Branch("al",toflev1.al,"al[ntrk][5]/F");
582 tree->Branch("coval",toflev1.coval,"coval[ntrk][5][5]/F");
583 tree->Branch("chi2",toflev1.chi2,"chi2[ntrk]/F");
584 tree->Branch("xgood",toflev1.xgood,"xgood[ntrk][6]/I");
585 tree->Branch("ygood",toflev1.ygood,"ygood[ntrk][6]/I");
586 tree->Branch("xv",toflev1.xv,"xv[ntrk][6]/F");
587 tree->Branch("yv",toflev1.yv,"yv[ntrk][6]/F");
588 tree->Branch("zv",toflev1.zv,"zv[ntrk][6]/F");
589 tree->Branch("axv",toflev1.axv,"axv[ntrk]/F");
590 tree->Branch("ayv",toflev1.ayv,"ayv[ntrk][6]/F");
591 tree->Branch("dedxp",toflev1.dedxp,"dedxp[ntrk][6]/F");
592 tree->Branch("nclsx",toflev1.nclsx,"nclsx[6]/I");
593 tree->Branch("nclsy",toflev1.nclsy,"nclsy[6]/I");
594 //
595 Int_t trnev = 0;
596 coptoflev1(ifile.str().c_str(),toflev1,trnev);
597 printf(" The tof ntuple contains %i events\n Processing data: \n",trnev );
598 for ( Int_t i = 1; i < trnev+1; i++){
599 if ( i%1000 == 0 ) printf("%iK \n",i/1000);
600 //
601 cretoflev1(i,toflev1);
602 //
603 tree->Fill();
604 };
605 printf(" Finished! Closing ntuple...\n");
606 ccltoflev1(toflev1);
607 //
608 hfile->Write();
609 hfile->Close();
610 //
611 gSystem->ChangeDirectory(path);
612 #if defined (__CINT__)
613 char *sdir=gSystem->Getenv("PAM_LIB");
614 bdir.str("");
615 bdir << sdir << "/libcltoflev1_C.so";
616 gSystem->Unload(bdir.str().c_str());
617 bdir.str("");
618 bdir << sdir << "/libcltoflev1.so";
619 gSystem->Unload(bdir.str().c_str());
620 bdir.str("");
621 bdir << sdir << "/libretoflev1_C.so";
622 gSystem->Unload(bdir.str().c_str());
623 bdir.str("");
624 bdir << sdir << "/libretoflev1.so";
625 gSystem->Unload(bdir.str().c_str());
626 bdir.str("");
627 bdir << sdir << "/liboptoflev1_C.so";
628 gSystem->Unload(bdir.str().c_str());
629 stringstream cdir;
630 cdir.str("");
631 char *sdir=gSystem->Getenv("PAM_LIB");
632 cdir << sdir << "/liboptoflev1.so";
633 gSystem->Unload(cdir.str().c_str());
634 #endif
635 return(0);
636 };
637 };
638 if ( AC ){
639 Long64_t nevents = tr->GetEntries();
640 if ( nevents < 1 ) {
641 printf("The file is empty!\n");
642 return(1);
643 };
644 AnticounterLevel1 *ac = new AnticounterLevel1();
645 tr->SetBranchAddress("Event",&ac);
646 //
647 // Open the rz file with a fortran call
648 //
649 struct AClev1 aclev1;
650 copaclev1(file2.str().c_str());
651 //
652 // run over all the events:
653 //
654 for (Int_t i = 0; i < nevents; i++){
655 if ( i%1000 == 0 ) printf("%iK \n",i/1000);
656 //
657 // open the rootple and copy variables values in "evento_"
658 //
659 tr->GetEntry(i);
660 //
661 // here you must run over all your variables and copy them in evento_....
662 //
663 aclev1.obt = ac->obt;
664 aclev1.evfile = ac->evfile;
665 aclev1.headc = ac->headc;
666 for (Int_t j = 0; j<2 ; j++){
667 aclev1.status[j] = (int)ac->status[j];
668 aclev1.hitmap[j] = (int)ac->hitmap[j];
669 aclev1.hitstatus[j] = (int)ac->hitstatus[j];
670 aclev1.trigger[j] = (int)ac->trigger[j];
671 };
672 //
673 // fill the ntuple
674 //
675 cfiaclev1(aclev1);
676 };
677 //
678 // close the rz file
679 //
680 printf("\nClose rz file! \n\n");
681 cclaclev1();
682 printf("File saved in \n\n %s \n\n",file2.str().c_str());
683 gSystem->ChangeDirectory(path);
684 #if defined (__CINT__)
685 char *sdir=gSystem->Getenv("PAM_LIB");
686 bdir.str("");
687 bdir << sdir << "/libclaclev1_C.so";
688 gSystem->Unload(bdir.str().c_str());
689 bdir.str("");
690 bdir << sdir << "/libclaclev1.so";
691 gSystem->Unload(bdir.str().c_str());
692 bdir.str("");
693 bdir << sdir << "/libfiaclev1_C.so";
694 gSystem->Unload(bdir.str().c_str());
695 bdir.str("");
696 bdir << sdir << "/libfiaclev1.so";
697 gSystem->Unload(bdir.str().c_str());
698 bdir.str("");
699 bdir << sdir << "/libopaclev1_C.so";
700 gSystem->Unload(bdir.str().c_str());
701 char *sdir=gSystem->Getenv("PAM_LIB");
702 stringstream bdir;
703 bdir.str("");
704 bdir << sdir << "/libopaclev1.so";
705 gSystem->Unload(bdir.str().c_str());
706 bdir.str("");
707 #endif
708 return(0);
709 };
710 return(0);
711 }
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