CGEM BOSS 6.6.5.i
BESIII Offline Software System
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TofShower.cxx
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1#include "GaudiKernel/MsgStream.h"
2#include "GaudiKernel/Bootstrap.h"
3#include "GaudiKernel/ISvcLocator.h"
4#include "GaudiKernel/PropertyMgr.h"
5#include "GaudiKernel/IJobOptionsSvc.h"
6#include "GaudiKernel/INTupleSvc.h"
9#include "Identifier/TofID.h"
15#include "globals.hh"
16#include <G4String.hh>
17#include <iostream>
18#include <fstream>
19#include <math.h>
20#include <string>
24
25
26
27
28TofShower::TofShower():m_output(false),m_isData(true) // m_output wird auf false und m_isData auf true gesetzt
29{
30 IJobOptionsSvc* jobSvc;
31 Gaudi::svcLocator()->service("JobOptionsSvc", jobSvc);
32 jobSvc->setMyProperties("TofShower", &m_propMgr);
33
34}
35
36void TofShower::BookNtuple(NTuple::Tuple*& tuple, NTuple::Tuple*& tuple1, NTuple::Tuple*& tuple2)
37{
38 m_output = true;
39 m_tuple = tuple;
40 if(!m_tuple) {
41 std::cerr << "Invalid ntuple in TofEnergyRec!" << std::endl;
42 } else {
43 m_tuple->addItem ("part", m_part);
44 m_tuple->addItem ("layer", m_layer);
45 m_tuple->addItem ("im", m_im);
46 m_tuple->addItem ("end", m_end);
47 m_tuple->addItem ("zpos", m_zpos);
48 m_tuple->addItem ("adc1", m_adc1);
49 m_tuple->addItem ("adc2", m_adc2);
50 m_tuple->addItem ("tdc1", m_tdc1);
51 m_tuple->addItem ("tdc2", m_tdc2);
52 m_tuple->addItem ("energy", m_energy);
53 }
54
55 m_tuple1 = tuple1;
56 if(!m_tuple1) {
57 std::cerr << "Invalid ntuple1 in TofEnergyRec!" << std::endl;
58 } else {
59 m_tuple1->addItem ("part", m_shower_part);
60 m_tuple1->addItem ("layer", m_shower_layer);
61 m_tuple1->addItem ("im", m_shower_im);
62 m_tuple1->addItem ("zpos", m_shower_zpos);
63 m_tuple1->addItem ("energy", m_shower_energy);
64 }
65
66 m_tuple2 = tuple2;
67 if(!m_tuple2) {
68 std::cerr << "Invalid ntuple2 in TofEnergyRec!" << std::endl;
69 } else {
70 m_tuple2->addItem ("dist", m_seed_dist);
71 }
72}
73
74void TofShower::energyCalib(vector<TofData*>& tofDataVec, RecTofTrackCol* recTofTrackCol)
75{
76 //Get TOF Calibtration Service
77 ISvcLocator* svcLocator = Gaudi::svcLocator();
79 StatusCode sc = svcLocator->service("TofCaliSvc", tofCaliSvc);
80 if (sc != StatusCode::SUCCESS) {
81 cout << "TofEnergyRec Get Calibration Service Failed !! " << endl;
82 }
83
85 sc = svcLocator->service("TofQCorrSvc", tofQCorrSvc);
86 if (sc != StatusCode::SUCCESS) {
87 cout << "TofEnergyRec Get QCorr Service Failed !! " << endl;
88 }
89
91 sc = svcLocator->service("TofQElecSvc", tofQElecSvc);
92 if (sc != StatusCode::SUCCESS) {
93 cout << "TofEnergyRec Get QElec Service Failed !! " << endl;
94 }
95
96 vector<TofData*>::iterator it;
97 for(it=tofDataVec.begin();
98 it!=tofDataVec.end();
99 it++) {
100
101 Identifier id((*it)->identify());
102 int barrel_ec = TofID::barrel_ec(id);
103 int layer = TofID::layer(id);
104 int im = TofID::phi_module(id);
105 int end = TofID::end(id);
106 bool is_mrpc = TofID::is_mymrpc(id);
107
108
109 if(m_output) {
110 m_part = barrel_ec;
111 m_layer = layer;
112 m_im = im;
113 m_end = end;
114 }
115
116 if((*it)->barrel()) {
117 TofData* bTofData = (*it);
118 bTofData->setZpos(99.);
119 bTofData->setEnergy(0.);
120 if(bTofData->tdc1()<=0||bTofData->tdc1()>8000||bTofData->tdc2()<=0||bTofData->tdc2()>8000) continue;
121
122 double adc1,adc2,tdc1,tdc2;
123 tdc1 = bTofData->tdc1();
124 tdc2 = bTofData->tdc2();
125 adc1 = bTofData->adc1();
126 adc2 = bTofData->adc2();
127
128 //from data CalibSvc
129 double zpos = tofCaliSvc->ZTDC( tdc1, tdc2, bTofData->tofId() );
130 if(fabs(zpos)>115) continue;
131 double tofq = tofCaliSvc->BPh( adc1, adc2, zpos, bTofData->tofId());
132 if(tofq<100||tofq>10000) continue;
133 //double energy = q*0.0036;
134 double energy = tofq*m_calibConst; //new calibration result in 2009.9.27
135 //cout<< "TofShower Barrel energy " << energy << endl;
136 zpos /= 100.; //cm->m
137
138 bTofData->setZpos(zpos);
139 bTofData->setEnergy(energy);
140
141 if(m_output) {
142 m_part = barrel_ec;
143 m_layer = layer;
144 m_im = im;
145 m_end = end;
146 m_adc1 = bTofData->adc1();
147 m_adc2 = bTofData->adc2();
148 m_tdc1 = bTofData->tdc1();
149 m_tdc2 = bTofData->tdc2();
150 m_zpos = zpos;
151 m_energy = energy;
152 m_tuple->write();
153 }
154
155 } else {
156
157 if(!is_mrpc)
158 {
159 //cout<<"endcap"<<endl;
160 //ETofData* eTofData = dynamic_cast<ETofData*>(*it);
161 //TofData* bTofData = (*it);
162 //double energy = 2*eTofData->adcChannel()/140;
163 //eTofData->setEnergy(energy);
164 }
165 else if(is_mrpc)
166 {
167
168 TofData* eTofData = (*it);
169 double charge_ns = eTofData->adc(); // time over threshold in ns
170
171 //The next step is to determine the energy deposit in the module. We have three different cases: Neutral tracks, Charged tracks with neighbour, charged track without neighbour
172 bool neutral =true;
173 bool neighborhood = false; //Are more than two cells fired?
174
175 int partId_all = barrel_ec;
176 int module_all = im/25;
177 int strip_all = im%25;
178
179 int partId_charged =-9999;
180 int module_charged =-9999;
181 int strip_charged =-9999;
182
183
184
185
186
187 RecTofTrackCol::iterator rec_charged;
188
189
190 for( rec_charged = recTofTrackCol->begin(); rec_charged != recTofTrackCol->end();rec_charged++)
191 {
192
193
194
195
196
197 TofHitStatus *status = new TofHitStatus;
198 status->setStatus((*rec_charged)->status());
199 if((status->is_barrel())) continue; //Consider only endcap tracks
200 if((*rec_charged)->tofID()<=125) continue;
201
202 if(status->is_east())
203 {
204 if((*rec_charged)->tofID()>=600) {partId_charged=3; module_charged = ((*rec_charged)->tofID()-574)/25; strip_charged =((*rec_charged)->tofID()-574)%25; }
205 else {partId_charged=4; module_charged = ((*rec_charged)->tofID()-100)/25; strip_charged =((*rec_charged)->tofID()-100)%25; }
206 }
207 else
208 {
209 if((*rec_charged)->tofID()>=600) {partId_charged=6; module_charged = ((*rec_charged)->tofID()-574)/25; strip_charged =((*rec_charged)->tofID()-574)%25; }
210 else {partId_charged=5;module_charged = ((*rec_charged)->tofID()-100)/25; strip_charged =((*rec_charged)->tofID()-100)%25;}
211 }
212
213 delete status;
214
215
216 //Determine wether a track is neutral or not:
217 if( (partId_all==3 || partId_all==4) && (partId_charged==3 || partId_charged==4 ) )
218 {
219 if( partId_all==partId_charged && module_charged == module_all && abs(strip_charged-strip_all)<3) neutral =false;
220 if( partId_all==partId_charged && module_charged == module_all)
221 {
222 if(strip_all%2==0 && strip_charged%2!=0 && strip_charged<strip_all && abs(strip_charged-strip_all)<4) neutral =false;
223 if(strip_all%2!=0 && strip_charged%2==0 && strip_charged>strip_all && abs(strip_charged-strip_all)<4) neutral =false;
224 }
225
226
227 if( partId_all!=partId_charged && abs(module_charged-module_all)<2)
228 {
229 if(strip_all%2==0 && strip_charged%2!=0 && abs(strip_charged-strip_all)<3 ) neutral =false;
230 if(strip_all%2==0 && strip_charged%2!=0 && strip_charged<strip_all && abs(strip_charged-strip_all)<4) neutral =false;
231
232 if(strip_all%2!=0 && strip_charged%2==0 && abs(strip_charged-strip_all)<3 ) neutral =false;
233 if(strip_all%2!=0 && strip_charged%2==0 && strip_charged>strip_all && abs(strip_charged-strip_all)<4) neutral =false;
234 }
235
236 }
237 else if ( (partId_all==5 || partId_all==6) && (partId_charged==5 || partId_charged==6 ) )
238 {
239 if( partId_all==partId_charged && module_charged ==module_all && abs(strip_charged-strip_all)<3) neutral =false;
240
241 if( partId_all==partId_charged && module_charged == module_all)
242 {
243 if(strip_all%2==0 && strip_charged%2!=0 && strip_charged<strip_all && abs(strip_charged-strip_all)<4) neutral =false;
244 if(strip_all%2!=0 && strip_charged%2==0 && strip_charged>strip_all && abs(strip_charged-strip_all)<4) neutral =false;
245 }
246
247
248 if( partId_all!=partId_charged && abs(module_charged-module_all)<2)
249 {
250 if(strip_all%2==0 && strip_charged%2!=0 && abs(strip_charged-strip_all)<3 ) neutral =false;
251 if(strip_all%2==0 && strip_charged%2!=0 && strip_charged<strip_all && abs(strip_charged-strip_all)<4) neutral =false;
252
253 if(strip_all%2!=0 && strip_charged%2==0 && abs(strip_charged-strip_all)<3 ) neutral =false;
254 if(strip_all%2!=0 && strip_charged%2==0 && strip_charged>strip_all && abs(strip_charged-strip_all)<4) neutral =false;
255 }
256 }
257
258 }//Close for rec charegd Track
259
260 //Yet we do know wether the track is neutral or not
261
262 //Next step: Determine wether the track has neighborhood (Have two strips in a neighborhood fired?)
263 vector<TofData*>::iterator it_temp;
264 for(it_temp=tofDataVec.begin();it_temp!=tofDataVec.end();it_temp++)
265 {
266
267 Identifier id_temp((*it_temp)->identify());
268 int partId_temp = TofID::barrel_ec(id_temp);
269 int im_temp = TofID::phi_module(id_temp);
270 int module_temp = im_temp/25;
271 int strip_temp = im_temp%25;
272 bool is_mrpc_temp = TofID::is_mymrpc(id_temp);
273
274 if( partId_temp==1 ) continue;
275 if(!is_mrpc_temp) continue;
276
277 if( (partId_all==3 || partId_all==4) && (partId_temp==3 || partId_temp==4 ) )
278 {
279 if( partId_all==partId_temp && module_temp == module_all && abs(strip_temp-strip_all)!=0 && abs(strip_temp-strip_all)<3) neighborhood =true;
280 if( partId_all==partId_temp && module_temp == module_all)
281 {
282 if(strip_all%2==0 && strip_temp%2!=0 && strip_temp<strip_all && abs(strip_temp-strip_all)<4 && abs(strip_temp-strip_all)!=0) neighborhood =true;
283 if(strip_all%2!=0 && strip_temp%2==0 && strip_temp>strip_all && abs(strip_temp-strip_all)<4 && abs(strip_temp-strip_all)!=0) neighborhood =true;
284 }
285
286 if( partId_all!=partId_temp && abs(module_temp-module_all)<2)
287 {
288 if(strip_all%2==0 && strip_temp%2!=0 && abs(strip_temp-strip_all)<3 ) neighborhood =true;
289 if(strip_all%2==0 && strip_temp%2!=0 && strip_temp<strip_all && abs(strip_temp-strip_all)<4) neighborhood =true;
290
291 if(strip_all%2!=0 && strip_temp%2==0 && abs(strip_temp-strip_all)<3 ) neighborhood =true;
292 if(strip_all%2!=0 && strip_temp%2==0 && strip_temp>strip_all && abs(strip_temp-strip_all)<4) neighborhood =true;
293 }
294
295 }//close if partid 3 & 4
296 else if( (partId_all==5 || partId_all==6) && (partId_temp==5 || partId_temp==6 ) )
297 {
298 if( partId_all==partId_temp && module_temp == module_all && abs(strip_temp-strip_all)!=0 && abs(strip_temp-strip_all)<3) neighborhood =true;
299 if( partId_all==partId_temp && module_temp == module_all)
300 {
301 if(strip_all%2==0 && strip_temp%2!=0 && strip_temp<strip_all && abs(strip_temp-strip_all)<4 && abs(strip_temp-strip_all)!=0) neighborhood =true;
302 if(strip_all%2!=0 && strip_temp%2==0 && strip_temp>strip_all && abs(strip_temp-strip_all)<4 && abs(strip_temp-strip_all)!=0) neighborhood =true;
303 }
304
305 if( partId_all!=partId_temp && abs(module_temp-module_all)<2)
306 {
307 if(strip_all%2==0 && strip_temp%2!=0 && abs(strip_temp-strip_all)<3 ) neighborhood =true;
308 if(strip_all%2==0 && strip_temp%2!=0 && strip_temp<strip_all && abs(strip_temp-strip_all)<4) neighborhood =true;
309
310 if(strip_all%2!=0 && strip_temp%2==0 && abs(strip_temp-strip_all)<3 ) neighborhood =true;
311 if(strip_all%2!=0 && strip_temp%2==0 && strip_temp>strip_all && abs(strip_temp-strip_all)<4) neighborhood =true;
312 }
313
314 }//close if partid 5 & 6
315
316 }
317
318
319 double energy =0; // in MeV
320
321 energy = mrpcCaliSvc->GetEnergyCalibration(charge_ns,neutral,neighborhood);
322 eTofData->setEnergy(energy);//set the energy loss in MeV
323
324
325
326 }//close if(is_mrpc)
327
328 }//close else (endcap)
329 }
330}
331
332vector<Identifier> TofShower::getNeighbors(const Identifier& id)
333{
334 vector<int> NeighborVec;
335 vector<Identifier> NeighborIdVec;
336 NeighborVec.clear();
337 NeighborIdVec.clear();
338
339 int barrel_ec = TofID::barrel_ec(id);
340 int layer = TofID::layer(id);
341 int im = TofID::phi_module(id);
342 int end = TofID::end(id);
343
344 if(barrel_ec==1) { //barrel
345 int num = im+layer*88;
346 if(num<88) { //layer1
347 if(num==0) {
348 NeighborVec.push_back(1);
349 NeighborVec.push_back(87);
350 NeighborVec.push_back(88);
351 NeighborVec.push_back(89);
352 } else if(num==87) {
353 NeighborVec.push_back(0);
354 NeighborVec.push_back(86);
355 NeighborVec.push_back(88);
356 NeighborVec.push_back(175);
357 } else {
358 NeighborVec.push_back(num+1);
359 NeighborVec.push_back(num-1);
360 NeighborVec.push_back(num+88);
361 NeighborVec.push_back(num+88+1);
362 }
363 } else {
364 if(num==88) {
365 NeighborVec.push_back(89);
366 NeighborVec.push_back(175);
367 NeighborVec.push_back(0);
368 NeighborVec.push_back(87);
369 } else if(num==175) {
370 NeighborVec.push_back(88);
371 NeighborVec.push_back(174);
372 NeighborVec.push_back(86);
373 NeighborVec.push_back(87);
374 } else {
375 NeighborVec.push_back(num+1);
376 NeighborVec.push_back(num-1);
377 NeighborVec.push_back(num-88);
378 NeighborVec.push_back(num-88-1);
379 }
380 }
381
382 int size=NeighborVec.size();
383 for(int i=0;i<size;i++) {
384 layer = NeighborVec[i]/88;
385 im = NeighborVec[i]%88;
386 NeighborIdVec.push_back(TofID::cell_id(barrel_ec,layer,im,end));
387 }
388 }
389
390 else { //endcap
391 if(im==0) {
392 NeighborVec.push_back(1);
393 NeighborVec.push_back(47);
394 } else if(im==47) {
395 NeighborVec.push_back(0);
396 NeighborVec.push_back(46);
397 } else {
398 NeighborVec.push_back(im-1);
399 NeighborVec.push_back(im+1);
400 }
401
402 int size=NeighborVec.size();
403 for(int i=0;i<size;i++) {
404 im = NeighborVec[i];
405 NeighborIdVec.push_back(TofID::cell_id(barrel_ec,layer,im,end));
406 }
407 }
408
409 return NeighborIdVec;
410}
411
412vector<Identifier> TofShower::getNextNeighbors(const Identifier& id)
413{
414 vector<Identifier> NeighborVec,tmpNeighborVec,tmpNextNeighborVec;
415 vector<Identifier>::iterator ci_NV,ci_tmpNV,ci_tmpNNV;
416 NeighborVec=getNeighbors(id);
417 tmpNeighborVec=getNeighbors(id);
418 bool flag=false; //whether NeighborVec already includes this crystal
419 bool flagNeighbor=false; //whether this crystal belongs to NeighborVec
420
421 //------------------------------------------------------------------
422 for(ci_tmpNV=tmpNeighborVec.begin();
423 ci_tmpNV!=tmpNeighborVec.end();
424 ci_tmpNV++){
425 tmpNextNeighborVec=getNeighbors(*ci_tmpNV);
426 //================================================================
427 for(ci_tmpNNV=tmpNextNeighborVec.begin();
428 ci_tmpNNV!=tmpNextNeighborVec.end();
429 ci_tmpNNV++){
430
431 for(ci_NV=NeighborVec.begin();
432 ci_NV!=NeighborVec.end();
433 ci_NV++){
434 if(*ci_tmpNNV==*ci_NV){ //this crystal is already included
435 flag=true;
436 break;
437 }
438 }
439
440 if(!flag){ //find a new crystal
441 //for(ci_tmpNV1=tmpNeighborVec.begin();
442 // ci_tmpNV1!=tmpNeighborVec.end();
443 // ci_tmpNV1++){
444 // if(*ci_tmpNNV==*ci_tmpNV1){ //this crystal belongs to NeighborVec
445 // flagNeighbor=true;
446 // break;
447 // }
448 //}
449
450 if(*ci_tmpNNV==id)
451 flagNeighbor=true;
452
453 if(!flagNeighbor)
454 NeighborVec.push_back(*ci_tmpNNV);
455 else
456 flagNeighbor=false;
457 }
458 else
459 flag=false;
460 }
461 //================================================================
462 }
463 //------------------------------------------------------------------
464
465 return NeighborVec;
466}
467
468
469vector<Identifier> TofShower::getMRPC_neighbours(const Identifier& id)
470{
471 //This function returns the following neigbours (x=base)
472 // - - -
473 // - - -
474 // - x -
475 // - - -
476 // - - -
477
478
479 vector<Identifier> NeighborVec;
480
481 int partid_it = TofID::barrel_ec(id);
482 int tofid_it = TofID::phi_module(id);
483
484
485 //int module= BesTofDigitizerEcV4::Get_module_mrpc_from_unique_identifier(partid_it);
486
487 int tofid_l = get_mrpc_stripid_neighbour("l",tofid_it,partid_it);
488 int partid_l = get_mrpc_partid_neighbour("l",tofid_it,partid_it);
489 int tofid_r = get_mrpc_stripid_neighbour("r",tofid_it,partid_it);
490 int partid_r = get_mrpc_partid_neighbour("r",tofid_it,partid_it);
491 int tofid_u = get_mrpc_stripid_neighbour("u",tofid_it,partid_it);
492 int partid_u =get_mrpc_partid_neighbour("u",tofid_it,partid_it);
493 int tofid_b = get_mrpc_stripid_neighbour("b",tofid_it,partid_it);
494 int partid_b = get_mrpc_partid_neighbour("b",tofid_it,partid_it);
495
496 int tofid_lu = get_mrpc_stripid_neighbour("u",tofid_l,partid_l);
497 int partid_lu = get_mrpc_partid_neighbour("u",tofid_l,partid_l);
498 int tofid_lb = get_mrpc_stripid_neighbour("b",tofid_l,partid_l);
499 int partid_lb = get_mrpc_partid_neighbour("b",tofid_l,partid_l);
500 int tofid_ru = get_mrpc_stripid_neighbour("u",tofid_r,partid_r);
501 int partid_ru = get_mrpc_partid_neighbour("u",tofid_r,partid_r);
502 int tofid_rb = get_mrpc_stripid_neighbour("b",tofid_r,partid_r);
503 int partid_rb = get_mrpc_partid_neighbour("b",tofid_r,partid_r);
504
505 int tofid_luu = get_mrpc_stripid_neighbour("u",tofid_lu,partid_lu);
506 int partid_luu =get_mrpc_partid_neighbour("u",tofid_lu,partid_lu);
507 int tofid_lbb = get_mrpc_stripid_neighbour("b",tofid_lb,partid_lb);
508 int partid_lbb = get_mrpc_partid_neighbour("b",tofid_lb,partid_lb);
509 int tofid_ruu = get_mrpc_stripid_neighbour("u",tofid_ru,partid_ru);
510 int partid_ruu = get_mrpc_partid_neighbour("u",tofid_ru,partid_ru);
511 int tofid_rbb = get_mrpc_stripid_neighbour("b",tofid_rb,partid_rb);
512 int partid_rbb = get_mrpc_partid_neighbour("b",tofid_rb,partid_rb);
513 int tofid_uu = get_mrpc_stripid_neighbour("u",tofid_u,partid_u);
514 int partid_uu = get_mrpc_partid_neighbour("u",tofid_u,partid_u);
515 int tofid_bb = get_mrpc_stripid_neighbour("b",tofid_b,partid_b);
516 int partid_bb = get_mrpc_partid_neighbour("b",tofid_b,partid_b);
517
518
519
520
521
522
523 //if(tofid_it%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_it,tofid_it));
524 if(tofid_l%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_l,tofid_l));
525 if(tofid_r%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_r,tofid_r));
526 if(tofid_u%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_u,tofid_u));
527 if(tofid_b%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_b,tofid_b));
528
529 if(tofid_lu%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_lu,tofid_lu));
530 if(tofid_lb%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_lb,tofid_lb));
531 if(tofid_ru%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_ru,tofid_ru));
532 if(tofid_rb%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_rb,tofid_rb));
533
534 if(tofid_luu%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_luu,tofid_luu));
535 if(tofid_lbb%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_lbb,tofid_lbb));
536 if(tofid_ruu%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_ruu,tofid_ruu));
537 if(tofid_rbb%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_rbb,tofid_rbb));
538 if(tofid_uu%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_uu,tofid_uu));
539 if(tofid_bb%25!=0) NeighborVec.push_back(TofID::cell_id_mrpc(partid_bb,tofid_bb));
540
541
542 return NeighborVec;
543
544}//close getMRPC Neighbours
545
546
547void TofShower::findSeed(vector<TofData*>& tofDataVec)
548{
549 bool max=false;
550 m_seedVec.clear();
551
552 vector<TofData*>::iterator it;
553 for(it=tofDataVec.begin();
554 it!=tofDataVec.end();
555 it++) {
556 if((*it)->barrel()) { //barrel
557 TofData* bTofData = (*it);
558
559
560
561 //cout << "Identifier(bTofData->identify()) " << Identifier(bTofData->identify()) << endl;
562 //std::cout << "TofShower bTofData->energy() = " << bTofData->energy() << std::endl;
563 if(bTofData->energy()<5.) continue; //seed energy cut = 6MeV
564
565 max=true;
566 vector<Identifier> NeighborVec=getNextNeighbors(Identifier(bTofData->identify()));
567
568 //const Identifier & help = Identifier(bTofData->identify());
569 //cout << "TofShower::findSeed Barrel Track base "<<TofID::layer(help) << " " << TofID::phi_module(help) << endl;
570
571 vector<Identifier>::iterator iNeigh;
572 for(iNeigh=NeighborVec.begin();
573 iNeigh!=NeighborVec.end();
574 iNeigh++) {
575
576 //const Identifier & help2 = Identifier(*iNeigh);
577 //cout << "TofShower::findSeed Barrel Track neigh "<<TofID::layer(help2) << " " << TofID::phi_module(help2) << endl;
578
579 vector<TofData*>::iterator it2;
580 for(it2=tofDataVec.begin();
581 it2!=tofDataVec.end();
582 it2++) {
583 if((*it2)->identify()==*iNeigh) {
584 TofData* bTofData2 = (*it2);
585 if(bTofData2->energy()>bTofData->energy()) {
586 max=false;
587 }
588 break;
589 }
590 }
591
592 }
593 }
594 else { //endcap
595
596 //cout << "TofShower::findSeed Endcap Track" << endl;
597 TofData* eTofData = (*it);
598
599 Identifier id((*it)->identify());
600 bool is_mrpc = TofID::is_mymrpc(id);
601
602
603 if(!is_mrpc)
604 {
605 if(eTofData->energy()<5.) continue; //seed energy cut = 5MeV
606 max=true;
607 vector<Identifier> NeighborVec=getNextNeighbors(Identifier(eTofData->identify()));
608 vector<Identifier>::iterator iNeigh;
609 for(iNeigh=NeighborVec.begin(); iNeigh!=NeighborVec.end(); iNeigh++)
610 {
611
612 vector<TofData*>::iterator it2;
613 for(it2=tofDataVec.begin(); it2!=tofDataVec.end(); it2++)
614 {
615 if((*it2)->identify()==*iNeigh) {
616 TofData* eTofData2 = (*it2);
617 if(eTofData2->energy()>eTofData->energy()) {
618 max=false;
619 }
620 break;
621 }
622 }//close for
623 }//Close for
624 }//close if(!is_mrpc)
625 else if(is_mrpc)
626 {
627
628 //cout << "TofShower::findSeed MRPC Track "<< Identifier(eTofData->identify()) << endl;
629 if(eTofData->energy()<2.) continue; //Seed energy cut = 2 MeV
630 max=true;
631
632 vector<Identifier> NeighborVec=getMRPC_neighbours(Identifier(eTofData->identify()));
633
634 //cout << "TofShower::findSeed getMRPC_neighbours OK" << endl;
635 vector<Identifier>::iterator iNeigh;
636
637 for(iNeigh=NeighborVec.begin(); iNeigh!=NeighborVec.end(); iNeigh++)
638 {
639 //cout << "TofShower::findSeed Phimodule MRPC " << TofID::phi_module(*iNeigh) <<endl;
640 vector<TofData*>::iterator it2;
641 for(it2=tofDataVec.begin(); it2!=tofDataVec.end(); it2++)
642 {
643 if((*it2)->identify()==*iNeigh) {
644 TofData* eTofData2 = (*it2);
645 if(eTofData2->energy()>eTofData->energy()) {
646 max=false;
647 }
648 break;
649 }
650 }//close for
651 }//Close for
652 //cout << "TofShower::findSeed Both forloops done" << endl;
653
654 }//Close else if(is_mrpc)
655
656 } //close else endcap
657
658
659 if(max) {
660 m_seedVec.push_back(Identifier((*it)->identify()));
661 }
662
663 }//close loop over tofdata
664}//close find seed
665
666void TofShower::findShower(vector<TofData*>& tofDataVec, RecTofTrackCol* recTofTrackCol, double t0)
667{
668
669 energyCalib(tofDataVec, recTofTrackCol);
670 //cout << "TofShower::findShower energycalib OK" << endl;
671 findSeed(tofDataVec);
672 //cout << "TofShower::findShower findseed OK" << endl;
673
674 vector<Identifier>::iterator iSeed;
675
676 for(iSeed=m_seedVec.begin(); iSeed!=m_seedVec.end(); iSeed++)
677 {
678
679 bool is_mrpc = TofID::is_mymrpc(*iSeed);
680
681
682 if(!is_mrpc) //Old TofDetector + barrel
683 {
684 int barrel_ec = TofID::barrel_ec(*iSeed);
685 int layer = TofID::layer(*iSeed);
686 int im = TofID::phi_module(*iSeed);
687 im += layer * 88;
688
689 bool neutral=true;
690 //match with Tof charged track
691 int dphi=999;
692 RecTofTrackCol::iterator iTrack, iMatch;
693 for(iTrack=recTofTrackCol->begin(); iTrack!=recTofTrackCol->end(); iTrack++)
694 {
695 if(barrel_ec==1) {
696 dphi=abs(im-(*iTrack)->tofID());
697 dphi = dphi>=44 ? 88-dphi : dphi;
698 } else if(barrel_ec==2) {
699 dphi=abs(im-(*iTrack)->tofID()+48);
700 dphi = dphi>=24 ? 48-dphi : dphi;
701 } else {
702 dphi=abs(im-(*iTrack)->tofID());
703 dphi = dphi>=24 ? 48-dphi : dphi;
704 }
705 if(abs(dphi)<=2) {
706 iMatch = iTrack;
707 neutral=false;
708 break;
709 }
710 }
711
712 //energy sum of seed and its neighbors
713 //use avarage mean to calculation position
714 double zpos=0;
715 double energy=0;
716 double seedPos=0;
717
718
719 //cout << "Energhy =0 " << endl;
720 vector<TofData*>::iterator it;
721 for(it=tofDataVec.begin(); it!=tofDataVec.end(); it++)
722 {
723 if((*it)->identify()==*iSeed) {
724 //cout<<"iSeed="<<*iSeed<<endl;
725 if((*it)->barrel()) {
726 TofData* bTofData = (*it);
727 zpos+=bTofData->zpos()*bTofData->energy();
728 energy+=bTofData->energy();
729 seedPos=bTofData->zpos();
730
731 //cout << "Add energy barrel seed "<< TofID::layer(*iSeed) <<" " << TofID::phi_module(*iSeed) << " " << bTofData->energy() << " ---> "<< energy <<endl;
732 } else {
733 TofData* eTofData = (*it);
734 energy+=eTofData->energy();
735
736 //cout << "Add energy" << endl;
737 }
738 break;
739 }
740 }
741
742 vector<Identifier> NeighborVec=getNextNeighbors(*iSeed);
743 vector<Identifier>::iterator iNeigh;
744 for(iNeigh=NeighborVec.begin(); iNeigh!=NeighborVec.end(); iNeigh++)
745 {
746
747 vector<TofData*>::iterator it2;
748 for(it2=tofDataVec.begin(); it2!=tofDataVec.end(); it2++)
749 {
750 if((*it2)->identify()==*iNeigh) {
751 //cout<<"iNeigh="<<*iNeigh<<endl;
752 if((*it)->barrel()) {
753 TofData* bTofData2 = (*it2);
754
755 if(fabs(bTofData2->zpos())>2) continue;
756 if(m_output) {
757 m_seed_dist = seedPos-bTofData2->zpos();
758 m_tuple2->write();
759 }
760 if(fabs(seedPos-bTofData2->zpos())>0.3) continue;
761 zpos+=bTofData2->zpos()*bTofData2->energy();
762 energy+=bTofData2->energy();
763 //cout << "Add energy barrel neig " << TofID::layer(*iNeigh) <<" " << TofID::phi_module(*iNeigh) << " " << bTofData2->energy() << " ---> "<< energy <<endl;
764 } else {
765 TofData* eTofData2 = (*it2);
766 energy+=eTofData2->energy();
767 }
768 break;
769 }
770 }
771 }
772 if(energy>0) zpos/=energy;
773
774 //for charged track, set energy
775 if(neutral==false) {
776 if(fabs(zpos)<1.15&&energy>5.&&energy<1000) {
777 (*iMatch)->setEnergy(energy/1000);
778 }
779 continue;
780 }
781
782 //for neutral track
783 if(fabs(zpos)<1.15&&energy>5.&&energy<1000) { //shower energy cut = 10MeV
784 RecTofTrack* tof = new RecTofTrack;
785 tof->setTofID(*iSeed);
786 tof->setZrHit(zpos);
787 tof->setEnergy(energy/1000); //MeV-->GeV
788 recTofTrackCol->push_back(tof);
789
790 if(m_output) {
791 m_shower_part = barrel_ec;
792 m_shower_layer = layer;
793 m_shower_im = im;
794 m_shower_zpos = zpos;
795 m_shower_energy = energy;
796 m_tuple1->write();
797 }
798 }
799 }//close if(!is_mrpc)
800 else // mrpc_case
801 {
802 //Determine wether the track is a neutral one or not:(Compare with charged tracks)
803
804 //cout << "TofShower::findShower Seed is mrpc" << endl;
805
806 bool neutral =true;
807 int partId_seed = TofID::barrel_ec(*iSeed);
808 int module_seed = TofID::phi_module(*iSeed)/25;
809 int strip_seed = TofID::phi_module(*iSeed)%25;
810
811
812
813 RecTofTrackCol::iterator rec_charged,iMatch;
814 for( rec_charged = recTofTrackCol->begin(); rec_charged != recTofTrackCol->end();rec_charged++)
815 {
816
817 TofHitStatus *status = new TofHitStatus;
818 status->setStatus((*rec_charged)->status());
819 if((status->is_barrel())) continue; //Consider only endcap tracks
820 if((*rec_charged)->tofID()<=125) continue;
821
822 int partId_charged =-1;
823 int module_charged =-1;
824 int strip_charged =-1;
825
826 if(status->is_east())
827 {
828 if((*rec_charged)->tofID()>=600) {partId_charged=3; module_charged = ((*rec_charged)->tofID()-574)/25; strip_charged =((*rec_charged)->tofID()-574)%25; }
829 else {partId_charged=4; module_charged = ((*rec_charged)->tofID()-100)/25; strip_charged =((*rec_charged)->tofID()-100)%25; }
830 }
831 else
832 {
833 if((*rec_charged)->tofID()>=600) {partId_charged=6; module_charged = ((*rec_charged)->tofID()-574)/25; strip_charged =((*rec_charged)->tofID()-574)%25; }
834 else {partId_charged=5;module_charged = ((*rec_charged)->tofID()-100)/25; strip_charged =((*rec_charged)->tofID()-100)%25;}
835 }
836
837 delete status;
838
839 if( (partId_seed==3 || partId_seed==4) && (partId_charged==3 || partId_charged==4 ) )
840 {
841 if( partId_seed==partId_charged && module_charged == module_seed && abs(strip_charged-strip_seed)<3) {iMatch=rec_charged; neutral =false; break;}
842 if( partId_seed==partId_charged && module_charged == module_seed)
843 {
844 if(strip_seed%2==0 && strip_charged%2!=0 && strip_charged<strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
845 if(strip_seed%2!=0 && strip_charged%2==0 && strip_charged>strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
846 }
847
848
849 if( partId_seed!=partId_charged && abs(module_charged-module_seed)<2)
850 {
851 if(strip_seed%2==0 && strip_charged%2!=0 && abs(strip_charged-strip_seed)<3 ) {iMatch=rec_charged; neutral =false; break;}
852 if(strip_seed%2==0 && strip_charged%2!=0 && strip_charged<strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
853
854 if(strip_seed%2!=0 && strip_charged%2==0 && abs(strip_charged-strip_seed)<3 ) {iMatch=rec_charged; neutral =false; break;}
855 if(strip_seed%2!=0 && strip_charged%2==0 && strip_charged>strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
856 }
857
858 }
859 else if ( (partId_seed==5 || partId_seed==6) && (partId_charged==5 || partId_charged==6 ) )
860 {
861 if( partId_seed==partId_charged && module_charged ==module_seed && abs(strip_charged-strip_seed)<3) {iMatch=rec_charged; neutral =false; break;}
862
863 if( partId_seed==partId_charged && module_charged == module_seed)
864 {
865 if(strip_seed%2==0 && strip_charged%2!=0 && strip_charged<strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
866 if(strip_seed%2!=0 && strip_charged%2==0 && strip_charged>strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
867 }
868
869 if( partId_seed!=partId_charged && abs(module_charged-module_seed)<2)
870 {
871 if(strip_seed%2==0 && strip_charged%2!=0 && abs(strip_charged-strip_seed)<3 ) {iMatch=rec_charged; neutral =false; break;}
872 if(strip_seed%2==0 && strip_charged%2!=0 && strip_charged<strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
873
874 if(strip_seed%2!=0 && strip_charged%2==0 && abs(strip_charged-strip_seed)<3 ) {iMatch=rec_charged; neutral =false; break;}
875 if(strip_seed%2!=0 && strip_charged%2==0 && strip_charged>strip_seed && abs(strip_charged-strip_seed)<4) {iMatch=rec_charged; neutral =false; break;}
876 }
877 }
878
879 }//Close for rec charegd Track
880
881 //cout << "TofShower::findShower Charged/Neutral ? -> OK" << endl;
882
883
884
885 //Now sum up the energy of the seed and its neighbours:
886
887 double energy=0;
888 double timeinfo_neutral=0;
889 double charge_neutral=0;
890 vector<TofData*>::iterator it;
891 for(it=tofDataVec.begin();it!=tofDataVec.end();it++)
892 {
893 if((*it)->barrel()) continue; //We sum up only endcap data
894
895 if((*it)->identify()==*iSeed)
896 {
897 TofData *eTofData = (*it);
898 energy+=eTofData->energy();
899 timeinfo_neutral= eTofData->tdc();
900 charge_neutral= eTofData->adc();// time over threshold in ns.
901
902 //cout<< "TofShower::findShower : Summing up energy " << endl;
903 //cout << " Seed " << (int)(TofID::phi_module(*iSeed)/25)<< " | " << (int)(TofID::phi_module(*iSeed)%25) << " | " << energy <<endl;
904
905 break;
906 }
907 }
908 //Now add the energy from the neighbours
909
910
911 vector<Identifier> NeighborVec=getMRPC_neighbours(*iSeed);
912 vector<Identifier>::iterator iNeigh;
913 for(iNeigh=NeighborVec.begin(); iNeigh!=NeighborVec.end(); iNeigh++)
914 {
915
916 vector<TofData*>::iterator it2;
917 for(it2=tofDataVec.begin();it2!=tofDataVec.end();it2++)
918 {
919 if((*it2)->identify()==(*iNeigh))
920 {
921 TofData * eTofData2 = (*it2);
922 energy+=eTofData2->energy();
923 //cout << " Neigh " << (int)(TofID::phi_module(*iNeigh)/25)<< " | " << (int)(TofID::phi_module(*iNeigh)%25) << " | " << energy <<endl;
924 break;
925 }
926 }//Close for it2
927
928 }//close for i neigh.,
929
930
931
932 if(neutral==false) // set energy for charged Tracks!
933 {
934 if(energy<1000) (*iMatch)->setEnergy(energy/1000.); //MeV->GeV
935
936 continue;
937 }
938
939
940 if(neutral == true)
941 {
942
943
944 double tof= timeinfo_neutral-t0;
945 if(tof<0) tof=0;
946
947
948 RecTofTrack* tof_track =new RecTofTrack;
949 tof_track->setTofID(*iSeed);
950 tof_track->setTof(tof);//time of flight in ns
951 tof_track->setPh(charge_neutral);//collected ADC charge
952 tof_track->setEnergy(energy/1000.); //MeV->GeV ; Energyloss for the seed and its neighborhood for the whole tof module!!!!
953 recTofTrackCol->push_back(tof_track);
954
955 }
956
957
958 }//close else mrpc_case
959
960 }//close for over seeed
961}//close find shower!
962
964{
965 string paraPath = getenv("TOFENERGYRECROOT");
966 paraPath += "/share/peak.dat";
967 ifstream in;
968 in.open(paraPath.c_str());
969 assert(in);
970 for(int i=0;i<176;i++) {
971 in>>m_ecalib[i];
972 }
973 in.close();
974
975 paraPath = getenv("TOFENERGYRECROOT");
976 paraPath += "/share/calib.dat";
977 ifstream in1;
978 in1.open(paraPath.c_str());
979 assert(in1);
980 for(int i=0;i<176;i++) {
981 in1>>m_calib[i][0]>>m_calib[i][1]>>m_calib[i][2]>>m_calib[i][3];
982 }
983 in1.close();
984}
985
986double TofShower::ecalib(const int nsci) const
987{
988 if(nsci<176) {
989 return m_ecalib[nsci];
990 } else {
991 return 0;
992 }
993}
994
995void TofShower::setEcalib(const int nsci, const double ecalib)
996{
997 if(nsci<176) {
998 m_ecalib[nsci]=ecalib;
999 }
1000}
1001
1002double TofShower::calib(const int n, const int m) const
1003{
1004 if(n<176&&m<4) {
1005 return m_calib[n][m];
1006 } else {
1007 return 0;
1008 }
1009}
1010
1011void TofShower::setCalib(const int n, const int m, const double ecalib)
1012{
1013 if(n<176&&m<4) {
1014 m_calib[n][m]=ecalib;
1015 }
1016}
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027//Be carefull: As I did have problems with the linking, the following function does
1028//exist in TofTrack.cxx in TofRec, too.
1029int TofShower::get_mrpc_partid_neighbour(string which,int stripid,int layer)
1030{
1031
1033
1034 int returnvalue=0;
1035
1036 if(which=="l")
1037 {
1038 if(strip%2==0) returnvalue = layer;
1039 else
1040 {
1041 if(layer==3) returnvalue = 4;
1042 if(layer==4) returnvalue = 3;
1043 if(layer==5) returnvalue = 6;
1044 if(layer==6) returnvalue = 5;
1045 }
1046 }
1047
1048 if(which=="r")
1049 {
1050 if(strip%2!=0) returnvalue = layer;
1051 else
1052 {
1053 if(layer==3) returnvalue = 4;
1054 if(layer==4) returnvalue = 3;
1055 if(layer==5) returnvalue = 6;
1056 if(layer==6) returnvalue = 5;
1057 }
1058 }
1059
1060 if(which=="u")returnvalue = layer;
1061 if(which=="b")returnvalue = layer;
1062
1063 return returnvalue;
1064
1065}
1066
1067
1068//Be carefull: As I did have problems with the linking, the following function does
1069//exist in TofTrack.cxx in TofRec, too.
1070int TofShower::get_mrpc_stripid_neighbour(string which,int stripid,int layer)
1071{
1074
1075 int neighbourstrip=0;
1076 int neighbourmodule=0;
1077
1078 int returnvalue=0;
1079
1080 if(strip==0) return 0; //Falls vorher schon strip 1,2 oder 23,24 gibt die Funtion 0 zurück, diese vlt. nochmalige Eingabe wird hier abgefangen und wieder eine 0 zureuckgegebn!
1081
1082 if(which=="l")
1083 {
1084 if(strip%2==0) //gerade Stripnummer
1085 {
1086 neighbourstrip=strip-1; //linke Nachbar ist dann immer -1
1087 if(layer==3 || layer== 6)
1088 {neighbourmodule=module;}//Nachbarmodul ist selbes Modul
1089 else
1090 {neighbourmodule=module;}//Nachbarmodul ist selbes Modul
1091 }
1092 else //ungerade stripnummer
1093 {
1094 neighbourstrip=strip+1;
1095
1096 if(layer==3 || layer== 5)
1097 {
1098 neighbourmodule=module; //In diesem Fall sind die Nachbarschaftsmodule immer gleich
1099 }
1100 else
1101 {
1102 neighbourmodule=module+1;
1103 if(neighbourmodule==19){neighbourmodule=1;}
1104 }
1105
1106 }
1107
1108 returnvalue= BesTofDigitizerEcV4::Produce_unique_identifier(neighbourmodule, neighbourstrip);
1109 } //close if which==l
1110
1111 else if(which=="r")
1112 {
1113 if(strip%2==0) //gerade Stripnummer
1114 {
1115 neighbourstrip=strip-1; //rechte Nachbar ist dann immer -1
1116
1117 if(layer==4 || layer== 6)
1118 {neighbourmodule=module;}//In diesem Fall ist das rechte Nachbarmodul immer die gleiche modulnummer
1119 else
1120 {neighbourmodule=module-1;
1121 if(neighbourmodule==0){neighbourmodule=18;}
1122 }
1123 }
1124 else //ungerade stripnummer
1125 {
1126 neighbourstrip=strip+1;
1127 if(layer==3 || layer== 6)
1128 {neighbourmodule=module;}//Nachbarmodul ist selbes Modul
1129 else
1130 {neighbourmodule=module;} //Nachbarmodul ist selbes Modul
1131
1132 }
1133
1134 returnvalue=BesTofDigitizerEcV4::Produce_unique_identifier(neighbourmodule, neighbourstrip);//geaendert: neighbourmodule=module in dieser und unter Funktionen entfernt..
1135 } //close if which==r
1136
1137 else if(which=="u")
1138 {
1139 if(strip==23 || strip==24) {neighbourmodule=0; neighbourstrip=0;}
1140 else
1141 {
1142 neighbourstrip=strip+2;
1143 neighbourmodule=module;
1144 }
1145
1146 returnvalue= BesTofDigitizerEcV4::Produce_unique_identifier(neighbourmodule, neighbourstrip);
1147 } //close if which==u
1148
1149 else if(which=="b")
1150 {
1151 if(strip==1 || strip==2) {neighbourmodule=0; neighbourstrip=0;}
1152 else
1153 {
1154 neighbourstrip=strip-2;
1155 neighbourmodule=module;
1156 }
1157
1158 returnvalue=BesTofDigitizerEcV4::Produce_unique_identifier(neighbourmodule, neighbourstrip);
1159 } //close if which==b
1160
1161
1162 return returnvalue;
1163}
1164
1165
1166
const Int_t n
double abs(const EvtComplex &c)
************Class m_ypar INTEGER m_KeyWgt INTEGER m_nphot INTEGER m_KeyGPS INTEGER m_IsBeamPolarized INTEGER m_EvtGenInterface DOUBLE PRECISION m_Emin DOUBLE PRECISION m_sphot DOUBLE PRECISION m_Xenph DOUBLE PRECISION m_q2 DOUBLE PRECISION m_PolBeam2 DOUBLE PRECISION m_xErrPb *COMMON c_KK2f $ !CMS energy average $ !Spin Polarization vector first beam $ !Spin Polarization vector second beam $ !Beam energy spread[GeV] $ !minimum hadronization energy[GeV] $ !input READ never touch them !$ !debug facility $ !maximum weight $ !inverse alfaQED $ !minimum real photon energy
Definition KK2f.h:50
ObjectVector< RecTofTrack > RecTofTrackCol
Definition RecTofTrack.h:33
ITofQElecSvc * tofQElecSvc
ITofQCorrSvc * tofQCorrSvc
ITofCaliSvc * tofCaliSvc
static G4int Produce_unique_identifier(G4int module_mrpc_f, G4int readoutstripnumber_f)
static G4int Get_module_mrpc_from_unique_identifier(G4int unique_identifier_f)
static G4int Get_stripnumber_from_unique_identifier(G4int unique_identifier_f)
void setEnergy(double energy)
void setPh(double ph)
Definition DstTofTrack.h:96
void setZrHit(double zrhit)
Definition DstTofTrack.h:95
void setTof(double tof)
Definition DstTofTrack.h:97
void setTofID(int tofID)
Definition DstTofTrack.h:91
virtual const double BPh(double ADC1, double ADC2, double zHit, unsigned int id)=0
virtual const double ZTDC(double tleft, double tright, unsigned id)=0
double GetEnergyCalibration(double, bool, bool)
int tofId()
Definition TofData.cxx:494
void setEnergy(double energy)
Definition TofData.h:212
double adc2()
Definition TofData.cxx:580
double energy() const
Definition TofData.h:197
void setZpos(double zpos)
Definition TofData.h:211
double adc()
Definition TofData.cxx:598
double tdc2()
Definition TofData.cxx:589
unsigned int identify() const
Definition TofData.h:131
double zpos() const
Definition TofData.h:196
double tdc1()
Definition TofData.cxx:571
double adc1()
Definition TofData.cxx:562
double tdc()
Definition TofData.cxx:607
bool is_barrel() const
void setStatus(unsigned int status)
bool is_east() const
static Identifier cell_id(int barrel_ec, int layer, int phi_module, int end)
For a single crystal.
Definition TofID.cxx:156
static int end(const Identifier &id)
Definition TofID.cxx:129
static Identifier cell_id_mrpc(int partID, int scinNum)
Definition TofID.cxx:177
static int phi_module(const Identifier &id)
Definition TofID.cxx:117
static int barrel_ec(const Identifier &id)
Values of different levels (failure returns 0)
Definition TofID.cxx:95
static bool is_mymrpc(const Identifier &id)
Definition TofID.cxx:58
static int layer(const Identifier &id)
Definition TofID.cxx:109
double calib(const int n, const int m) const
double ecalib(const int nsci) const
void readCalibPar()
void findSeed(vector< TofData * > &tofDataVec)
void BookNtuple(NTuple::Tuple *&tuple, NTuple::Tuple *&tuple1, NTuple::Tuple *&tuple2)
Definition TofShower.cxx:36
void setEcalib(const int nsci, const double ecalib)
int get_mrpc_stripid_neighbour(string which, int stripid, int layer)
vector< Identifier > getMRPC_neighbours(const Identifier &id)
void energyCalib(vector< TofData * > &tofDataVec, RecTofTrackCol *recTofTrackCol)
Definition TofShower.cxx:74
vector< Identifier > getNextNeighbors(const Identifier &id)
void setCalib(const int n, const int m, const double ecalib)
vector< Identifier > getNeighbors(const Identifier &id)
void findShower(vector< TofData * > &tofDataVec, RecTofTrackCol *recTofTrackCol, double)
int get_mrpc_partid_neighbour(string which, int stripid, int layer)
int num[96]
Definition ranlxd.c:373