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TofRec Class Reference
#include <TofRec.h>
Inheritance diagram for TofRec:
Public Member Functions | |
| TofRec (const std::string &name, ISvcLocator *pSvcLocator) | |
| StatusCode | initialize () |
| StatusCode | beginRun () |
| StatusCode | execute () |
| StatusCode | finalize () |
| void | clearTofTrackVec (std::vector< TofTrack * > *&tofTrackVec) |
Detailed Description
Constructor & Destructor Documentation
◆ TofRec()
| TofRec::TofRec | ( | const std::string & | name, |
| ISvcLocator * | pSvcLocator ) |
Definition at line 52 of file TofRec.cxx.
52 :
53 Algorithm(name, pSvcLocator)
54{
55 declareProperty( "AcceleratorStatus", m_acceleratorStatus );
56 declareProperty( "MagneticField", m_magneticField );
57 declareProperty( "ForCalibration", m_forCalibration );
58 declareProperty( "Data", m_data );
59 declareProperty( "CalibData", m_calibData );
60 // declareProperty( "CalibDataBarrel", m_calibDataBarrel );
61 declareProperty( "FirstIteration", m_firstIteration );
62 declareProperty( "CheckTrigger", m_checkTrigger );
63 declareProperty( "SaveRootFile4Rec", m_saveRootFile );
64 declareProperty( "PrintOutInfo", m_printOutInfo );
65 declareProperty( "CheckDigi", m_checkDigi );
66 declareProperty( "CheckDigiRaw", m_checkDigiRaw );
67 declareProperty( "CheckDigiExt", m_checkDigiExt );
68 declareProperty( "CheckMcTruth", m_checkMcTruth );
69}
Member Function Documentation
◆ beginRun()
| StatusCode TofRec::beginRun | ( | ) |
Definition at line 183 of file TofRec.cxx.
183 {
184 MsgStream log(msgSvc(), name());
185 log << MSG::INFO <<"TofRec begin_run!"<< endreq;
186 return StatusCode::SUCCESS;
187}
◆ clearTofTrackVec()
| void TofRec::clearTofTrackVec | ( | std::vector< TofTrack * > *& | tofTrackVec | ) |
Definition at line 745 of file TofRec.cxx.
745 {
746 if( tofTrackVec ) {
747 std::vector<TofTrack*>::iterator iter = tofTrackVec->begin();
749 delete (*iter);
750 }
751 tofTrackVec->clear();
752 delete tofTrackVec;
753 }
754 return;
755}
EvtStreamInputIterator< typename Generator::result_type > iter(Generator gen, int N=0)
Definition EvtStreamInputIterator.hh:100
Referenced by execute().
◆ execute()
| StatusCode TofRec::execute | ( | ) |
Definition at line 191 of file TofRec.cxx.
191 {
192
193 MsgStream log(msgSvc(), name());
194 log << MSG::INFO << "TofRec in execute()!" << endreq;
195
196 SmartDataPtr<Event::EventHeader> eventHeader(eventSvc(),"/Event/EventHeader");
197 if( !eventHeader ) {
198 log << MSG::FATAL << "TofRec could not find Event Header!" << endreq;
199 return StatusCode::FAILURE;
200 }
201 int run = eventHeader->runNumber();
202 int event = eventHeader->eventNumber();
203 if( ( event % 1000 == 0 ) && m_printOutInfo ) {
204 std::cout << "run:" << run << " event: " << event << std::endl;
205 }
206 log << MSG::INFO << "run= " << run << " event= " << event << endreq;
207 if( tofCaliSvc->chooseConstants(run, event) == StatusCode:: FAILURE ) { return StatusCode:: FAILURE; }
208
209 TofRecTDS tds;
210 tds.RegisterNullRecTofTrackCol();
211
212 // Magnetic Field: Colliding data and Cosmic Ray
213 if( m_acceleratorStatus == "Colliding" ) {
214 // Retrieve Event Start Time
215 SmartDataPtr<RecEsTimeCol> estimeCol(eventSvc(),"/Event/Recon/RecEsTimeCol");
216 if( !estimeCol || ( estimeCol->size() == 0 ) ) {
217 log << MSG::WARNING << "TofRec Could not find RecEsTimeCol! Run = " << run << " Event = " << event << endreq;
218 return StatusCode::SUCCESS;
219 }
220 RecEsTimeCol::iterator iter_ESTime=estimeCol->begin();
221 double t0 = (*iter_ESTime)->getTest();
222 int t0Stat = (*iter_ESTime)->getStat();
223 log << MSG::INFO << "t0= " << t0 << " t0Stat= " << t0Stat << endreq;
224
225 // Read Offset of barrel and endcap for Event Start Time
226 IDataProviderSvc* m_pCalibDataSvc;
227 StatusCode sc = service("CalibDataSvc", m_pCalibDataSvc, true);
228 std::string fullpath = "/Calib/EsTimeCal";
229 SmartDataPtr<CalibData::EsTimeCalibData> Est( m_pCalibDataSvc, fullpath );
230
231 if( ( event % 1000 == 0 ) && m_printOutInfo ) {
232 if( !Est ) {
233 std::cout << " t0 = " << t0 << " t0stat = " << t0Stat << std::endl;
234 }
235 else {
236 std::cout << " t0 = " << t0 << " t0stat = " << t0Stat << " bunch = " << Est->getBunchTime() << " offset_b = " << Est->getToffsetb() << " offset_e = " << Est->getToffsete() << std::endl;
237 }
238 }
239
240
241 // Kalman Filter Track
242 SmartDataPtr<RecMdcKalTrackCol> mdcKalTrackCol(eventSvc(),"/Event/Recon/RecMdcKalTrackCol");
243 if( !mdcKalTrackCol ) {
244 log << MSG::WARNING << "No MdcKalTrackCol in TDS! Run = " << run << " Event = " << event << endreq;
245 return StatusCode::SUCCESS;
246 }
247 SmartDataPtr<RecMdcTrackCol> mdcTrackCol(eventSvc(),"/Event/Recon/RecMdcTrackCol");
248 if( !mdcTrackCol ) {
249 log << MSG::FATAL << "Could NOT find RecMdcTrackCol in TDS! Run = " << run << " Event = " << event << endreq;
250 return StatusCode::SUCCESS;
251 }
252
253 // Tof Get Extrapolated Track
254 SmartDataPtr<RecExtTrackCol> extTrackCol(eventSvc(),"/Event/Recon/RecExtTrackCol");
255 if( !extTrackCol ) {
256 log << MSG::WARNING << "No ExtTrackCol in TDS! Run = " << run << " Event = " << event << endreq;
257 return StatusCode::SUCCESS;
258 }
259 else {
261 if( m_checkDigi && m_checkDigiExt ) { m_checkdigi_tuple->FillCol( *eventHeader, mdcTrackCol, mdcKalTrackCol, extTrackCol ); }
262 }
263
264 //sunss add 08/9/17
265 if( m_forCalibration ) { // Bhabha Events Selection
267 // if( t0Stat != 111 && t0Stat != 121 ) return StatusCode::SUCCESS;
268 if( t0Stat%10 != 1 ) return StatusCode::SUCCESS;
270
271 if( extTrackCol->size() != 2 ) return StatusCode::SUCCESS;
273
274 if( mdcTrackCol->size() != 2 ) return StatusCode::SUCCESS;
276
277 SmartDataPtr<RecEmcShowerCol> emcShowerCol(eventSvc(),"/Event/Recon/RecEmcShowerCol");
278 if( !emcShowerCol ) {
279 log << MSG::FATAL << "Could NOT find EmcRecShowerCol in TDS! Run = " << run << " Event = " << event << endreq;
280 return StatusCode::SUCCESS;
281 }
283
284 if( emcShowerCol->size() < 2 ) return StatusCode::SUCCESS;
286
287 RecMdcTrackCol::iterator iter_mdc1 = mdcTrackCol->begin();
288 RecMdcTrackCol::iterator iter_mdc2 = mdcTrackCol->begin() + 1;
289
290 RecMdcKalTrackCol::iterator iter_kal1 = mdcKalTrackCol->begin();
291 RecMdcKalTrackCol::iterator iter_kal2 = mdcKalTrackCol->begin() + 1;
292
293 RecExtTrackCol::iterator iter_ext1 = extTrackCol->begin();
294 RecExtTrackCol::iterator iter_ext2 = extTrackCol->begin() + 1;
295 Hep3Vector extPos1 = (*iter_ext1)->emcPosition();
296 Hep3Vector extPos2 = (*iter_ext2)->emcPosition();
297
298 RecEmcShowerCol::iterator iter_emc1 = emcShowerCol->begin();
299 RecEmcShowerCol::iterator iter_emc2 = emcShowerCol->begin() + 1;
300 Hep3Vector emcPos1((*iter_emc1)->x(),(*iter_emc1)->y(),(*iter_emc1)->z());
301 Hep3Vector emcPos2((*iter_emc2)->x(),(*iter_emc2)->y(),(*iter_emc2)->z());
302
303 Hep3Vector pep = (*iter_mdc1)->p3();
304 Hep3Vector pem = (*iter_mdc2)->p3();
307
308 Hep3Vector distant1 = extPos1 - emcPos1;
309 Hep3Vector distant2 = extPos2 - emcPos1;
310 if( distant1.r() > distant2.r() ) {
311 RecEmcShowerCol::iterator iter_tmp = iter_emc1;
312 iter_emc1 = iter_emc2;
313 iter_emc2 = iter_tmp;
314 Hep3Vector emc_tmp = emcPos1;
315 emcPos1 = emcPos2;
316 emcPos2 = emc_tmp;
317 }
318 distant1 = extPos1 - emcPos1;
319 distant2 = extPos2 - emcPos2;
320
326 RecEmcShowerCol::iterator iter_emc = emcShowerCol->begin();
327 for( ; iter_emc != emcShowerCol->end(); iter_emc++ ) {
328 etot += (*iter_emc)->energy();
329 }
330
331 if( m_checkDigi ) { m_checkdigi_tuple->FillCol( *eventHeader, extTrackCol, mdcTrackCol, emcShowerCol, mdcKalTrackCol ); }
332
333 if( ( (*iter_mdc1)->charge() + (*iter_mdc2)->charge() )!= 0 ) return StatusCode::SUCCESS;
335
336 if( delta_angle > 10.0 ) return StatusCode::SUCCESS;
338
339 if( (*iter_kal1)->getStat(1,0)!=0 || (*iter_kal2)->getStat(1,0)!=0 ) return StatusCode::SUCCESS;
341
342 if( distant1.r()>6.0 || distant2.r()>6.0 ) return StatusCode::SUCCESS;
344
345 // Jpsi data taken in 2009
346 if( m_data == "jpsi09" ) {
347 if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.5 || (*iter_mdc1)->y()>0.1 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
349 if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.5 || (*iter_mdc2)->y()>0.1 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
351 if( delta_phi<174.0 || delta_phi>186.0 ) return StatusCode::SUCCESS;
353 if( m_calibData == "Bhabha" ) {
356 }
357 }
358 // Psi prime data taken in 2009
359 else if( m_data == "psip09" ) {
360 if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.5 || (*iter_mdc1)->y()>0.1 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
362 if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.5 || (*iter_mdc2)->y()>0.1 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
364 if( delta_phi<174.0 || delta_phi>183.0 ) return StatusCode::SUCCESS;
366 if( m_calibData == "Bhabha" ) {
369 }
370 }
371 // Psi double prime data taken in first half of 2010
372 else if( m_data == "psipp10" ) {
373 if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>1.2 || (*iter_mdc1)->y()<-0.9 || (*iter_mdc1)->y()>0.5 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;
375 if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>1.2 || (*iter_mdc2)->y()<-0.9 || (*iter_mdc2)->y()>0.5 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;
377 if( delta_phi<174.0 || delta_phi>186.0 ) return StatusCode::SUCCESS;
379 if( m_calibData == "Bhabha" ) {
382 }
383 }
384 // Psi double prime data taken in end of 2010 and 2011
385 else if( m_data == "psipp11" ) {
386 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.3 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;
388 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.3 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;
390 if( delta_phi<174.0 || delta_phi>184.0 ) return StatusCode::SUCCESS;
392 if( m_calibData == "Bhabha" ) {
395 }
396 }
397 // Psi prime data taken in end of 2011 and 2012
398 else if( m_data == "psip12" ) {
399 if( (*iter_mdc1)->x()<-0.25 || (*iter_mdc1)->x()>0.3 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;
401 if( (*iter_mdc2)->x()<-0.25 || (*iter_mdc2)->x()>0.3 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;
403 if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;
405 if( m_calibData == "Bhabha" ) {
408 }
409 }
410 // Jpsi data taken in 2012
411 else if( m_data == "jpsi12" ) {
412 if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.4 || (*iter_mdc1)->y()>0.2 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
414 if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.4 || (*iter_mdc2)->y()>0.2 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
416 if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;
418 if( m_calibData == "Bhabha" ) {
421 }
422 }
423 // Y(4260) and Y(4360) taken in 2013
424 else if( m_data == "psi13" ) {
425 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
427 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
429 if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;
431 if( m_calibData == "Bhabha" ) {
434 }
435 }
436 else if( m_data == "rxyz14" ) {
437 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
439 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
441 if( delta_phi<175.0 || delta_phi>185.0 ) return StatusCode::SUCCESS;
443 if( m_calibData == "Bhabha" ) {
446 }
447 }
448 else if( m_data == "r15" ) {
449 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
451 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
453 if( delta_phi<175.0 || delta_phi>185.0 ) return StatusCode::SUCCESS;
455 if( m_calibData == "Bhabha" ) {
458 }
459 }
460 else if( m_data == "data16" ) {
461 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.2 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;
463 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.2 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;
465 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
467 if( m_calibData == "Bhabha" ) {
470 }
471 }
472 else if( m_data == "data17" ) {
473 if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.5 ) return StatusCode::SUCCESS;
475 if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.5 ) return StatusCode::SUCCESS;
477 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
479 if( m_calibData == "Bhabha" ) {
482 }
483 }
484 else if( m_data == "jpsi18" ) {
485 if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;
487 if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;
489 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
491 if( m_calibData == "Bhabha" ) {
494 }
495 }
496 else if( m_data == "jpsi19" ) {
497 if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;
499 if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;
501 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
503 if( m_calibData == "Bhabha" ) {
506 }
507 }
508 else if( m_data == "data20" ) {
509 if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;
511 if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;
513 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
515 if( m_calibData == "Bhabha" ) {
518 }
519 }
520 else if( m_data == "data21" ) {
521 if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;
523 if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;
525 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
527 if( m_calibData == "Bhabha" ) {
530 }
531 }
532 else if( m_data == "data22" ) {
533 if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;
535 if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;
537 if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;
539 if( m_calibData == "Bhabha" ) {
542 }
543 }
544
545 if( m_calibData == "Bhabha" ) {
548 }
549 else if( m_calibData == "Dimu" ) {
552 }
553 }
554 //sunss add 08/9/17
555
557 RecExtTrackCol::iterator iter_track = extTrackCol->begin();
558 for( ; iter_track < extTrackCol->end(); iter_track++ ) {
559 RecMdcTrackCol::iterator iter_mdc = mdcTrackCol->begin();
560 for( ; iter_mdc != mdcTrackCol->end(); iter_mdc++ ) {
561 if( (*iter_mdc)->trackId() == (*iter_track)->trackId() ) break;
562 }
564 RecMdcKalTrackCol::iterator iter_kal = mdcKalTrackCol->begin();
565 for( ; iter_kal != mdcKalTrackCol->end(); iter_kal++ ) {
566 if( (*iter_kal)->trackId() == (*iter_track)->trackId() ) break;
567 }
568 double p[5] = {-1.0};
569 int kal[5] = {-1};
570 if( iter_kal != mdcKalTrackCol->end() ) {
571 for( unsigned int i=0; i<5; i++ ) {
577 p[i] = (*iter_kal)->p3().mag();
578 kal[i] = (*iter_kal)->getStat(0,i);
579 }
580 }
583
584 if( tofTrackVec->size()>0 ) {
585 std::vector<TofTrack*>::iterator iterExt = tofTrackVec->begin();
586 for( ; iterExt < tofTrackVec->end(); iterExt++ ) {
587 if( (*iterExt)->isNoHit() ) continue;
588 tof->getMultiHit( *iterExt );
589 }
590 }
591
592 tofTrackVec->push_back( tof );
593 }
594
595 if( m_printOutInfo ) {
596 m_printOut->setTrack1Col( tofTrackVec );
597 }
598
599 // Retrieve Tof Digi Data
601 if( tofDataMap.empty() ) {
602 log << MSG::WARNING << "No Tof Data Map in RawDataProviderSvc! Run=" << run << " Event=" << event << endreq;
603 }
604
605 if( m_checkDigi && m_checkDigiRaw ) {
606 SmartDataPtr<TofDigiCol> tofDigiCol(eventSvc(),"/Event/Digi/TofDigiCol");
607 if( !tofDigiCol ) {
608 log << MSG::ERROR << "TofRec could not find Tof digi! Event = " << event << endreq;
609 }
611
612 m_checkdigi_tuple->FillCol( *eventHeader, tofDataMap, t0, t0Stat );
613 }
614
615 std::vector<int> deadId;
616 if( m_forCalibration ) {
617 for( unsigned int i=0; i<5; i++ ) {
619 if( identmp != 0x2fffffff ) {
620 deadId.push_back( identmp );
621 }
623 if( identmp != 0x2fffffff ) {
624 deadId.push_back( identmp );
625 }
626 }
627 for( unsigned int i=0; i<500; i++ ) {
629 if( identmp == 0x2fffffff ) break; // -1
630 else { deadId.push_back( identmp ); }
631 }
632 }
633
634 std::vector<TofTrack*>::iterator iter = tofTrackVec->begin();
636 if( (*iter)->isNoHit() ) continue;
637 (*iter)->setTofData( tofDataMap );
639 if( (*iter)->isNoHit() ) continue;
640 (*iter)->match( m_forCalibration, deadId, tofTrackVec );
642 }
643
644 iter = tofTrackVec->begin();
646
647 (*iter)->setCalibration();
648
649 if( m_checkDigi ) {
650 if( m_checkTrigger ) {
651 // retrieve trigger data for physics analysis
652 SmartDataPtr<TrigData> trigData(eventSvc(), "/Event/Trig/TrigData");
653 if (!trigData) {
654 log << MSG::FATAL << "Could not find Trigger Data for physics analysis" << endreq;
656 }
657 else {
659 }
660 }
661 else {
662 if( ( run < 0 ) && m_checkMcTruth ) {
663 SmartDataPtr<TofMcHitCol> tofMcCol(eventSvc(),"/Event/MC/TofMcHitCol");
664 SmartDataPtr<McParticleCol> mcParticleCol(eventSvc(),"/Event/MC/McParticleCol");
665 if ( !tofMcCol || !mcParticleCol ) {
667 }
668 else {
669 m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat, mdcKalTrackCol, tofMcCol, mcParticleCol, m_calibData );
670 }
671 }
672 else {
674 }
675 }
676 }
677 }
678
679 tds.RegisterTDS( eventHeader->runNumber(), eventHeader->eventNumber(), tofTrackVec, m_forCalibration, m_calibData );
680
681 clearTofTrackVec( tofTrackVec );
682
683// Check RecTofTrackCol Registered
684 SmartDataPtr<RecTofTrackCol> tofTrackCol(eventSvc(),"/Event/Recon/RecTofTrackCol");
685 if (!tofTrackCol) {
686 log << MSG::FATAL << "TofRec could not find RecTofTrackCol!" << endreq;
687 return StatusCode::FAILURE;
688 }
689 else{
690 if( m_saveRootFile ) {
691 m_checkdata_tuple->FillCol( *eventHeader, tofTrackCol, mdcKalTrackCol );
692 }
693 }
694
695 if( m_forCalibration ) {
696 SmartDataPtr<RecBTofCalHitCol> bhitCol(eventSvc(),"/Event/Recon/RecBTofCalHitCol");
697 if (!bhitCol) {
698 log << MSG::WARNING << "TofRec could not find RecBTofCalHitCol!" << endreq;
699 }
700 else {
701 if( m_saveRootFile ) {
702 m_checkdata_tuple->FillCol( *eventHeader, bhitCol );
703 }
704 }
705
706 SmartDataPtr<RecETofCalHitCol> ehitCol(eventSvc(),"/Event/Recon/RecETofCalHitCol");
707 if (!ehitCol) {
708 log << MSG::WARNING << "TofRec could not find RecETofCalHitCol!" << endreq;
709 }
710 else {
711 if( m_saveRootFile ) {
712 m_checkdata_tuple->FillCol( *eventHeader, ehitCol );
713 }
714 }
715 }
716
717 }
718 else {
719 log << MSG::FATAL << "In TofRec: AcceleratorStatus is NOT correct! m_acceleratorStatus = " << m_acceleratorStatus << endreq;
720 return StatusCode::FAILURE;
721 }
722
723 return StatusCode::SUCCESS;
724
725}
virtual TofDataMap & tofDataMapTof(double estime=0)=0
virtual const int BrWest(unsigned int No)=0
virtual const int BrEast(unsigned int No)=0
virtual StatusCode chooseConstants(int run, int event)=0
virtual const int Endcap(unsigned int No)=0
void FillCol(Event::EventHeader &, RecTofTrackCol &, RecMdcKalTrackCol &)
Definition TofCheckData.cxx:286
void Fill_TofTrack(Event::EventHeader &, TofTrack *&, double, int)
Definition TofCheckDigi.cxx:819
void FillCol(Event::EventHeader &, TofDigiCol &, double, int)
Definition TofCheckDigi.cxx:427
void setTrack1Col(std::vector< TofTrack * > *&tofTrackVec)
Definition TofCount.cxx:111
Definition TofRecTDS.h:7
StatusCode RegisterTDS(int runNumber, int eventNumber, std::vector< TofTrack * > *&tofTrackVec, bool m_forCalibration, std::string m_calibData)
Definition TofRecTDS.cxx:58
StatusCode RegisterNullRecTofTrackCol()
Definition TofRecTDS.cxx:22
void clearTofTrackVec(std::vector< TofTrack * > *&tofTrackVec)
Definition TofRec.cxx:745
Definition TofTrack.h:22
void setExtTrack(RecExtTrack *extTrack, double costheta, double p[5], int kal[5], double t0, int t0Stat)
Definition TofTrack.cxx:157
◆ finalize()
| StatusCode TofRec::finalize | ( | ) |
Definition at line 729 of file TofRec.cxx.
729 {
730 if( m_printOutInfo ) {
731 if( m_forCalibration ) {
732 m_printOut->finalBhabha( m_calibData );
733 }
734 m_printOut->final();
735 delete m_printOut;
736 }
737 if( m_checkDigi ) delete m_checkdigi_tuple;
738 if( m_saveRootFile ) delete m_checkdata_tuple;
739 return StatusCode::SUCCESS;
740}
◆ initialize()
| StatusCode TofRec::initialize | ( | ) |
Definition at line 73 of file TofRec.cxx.
73 {
74
75 MsgStream log(msgSvc(), name());
76 log << MSG::INFO << "TofRec in initialize()" << endreq;
77
78 //Get TOF Geomertry Service
80 if (scg== StatusCode::SUCCESS) {
81 log << MSG::INFO << "TofRec Get Geometry Service Sucessfully!" << endreq;
82 }else {
83 log << MSG::ERROR << "TofRec Get Geometry Service Failed !" << endreq;
84 return StatusCode::FAILURE;
85 }
86
87 //Get TOF Calibtration Service
89 if (scc == StatusCode::SUCCESS) {
90 log << MSG::INFO << "TofRec Get Calibration Service Sucessfully!" << endreq;
91 } else {
92 log << MSG::ERROR << "TofRec Get Calibration Service Failed !" << endreq;
93 return StatusCode::FAILURE;
94 }
95
96 //Get TOF Raw Data Provider Service
98 if (scd == StatusCode::SUCCESS) {
99 log << MSG::INFO << "TofRec Get Tof Raw Data Service Sucessfully!" << endreq;
100 } else {
101 log << MSG::ERROR << "TofRec Get Tof Raw Data Service Failed !" << endreq;
102 return StatusCode::FAILURE;
103 }
104
105 if( m_checkDigi ) {
113
114 if( nt11 || nt12 || nt13 || nt14 || nt15 || nt16 || nt17) {
115 m_tuple_digi = nt11;
116 m_tuple_barrel = nt12;
117 m_tuple_endcap = nt13;
118 m_tuple_endcap = nt14;
119 m_tuple_ext = nt15;
120 m_tuple_tof = nt16;
121 m_tuple_bb = nt17;
122 }
123 else {
131
132 if( m_tuple_digi || m_tuple_barrel || m_tuple_endcap || m_tuple_mrpc || m_tuple_ext || m_tuple_tof || m_tuple_bb ) {
133 m_checkdigi_tuple = new TofCheckDigi( m_tuple_digi, m_tuple_barrel, m_tuple_endcap, m_tuple_mrpc, m_tuple_ext, m_tuple_tof, m_tuple_bb );
134 }
135 else {
136 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_digi) <<endmsg;
137 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_barrel) <<endmsg;
138 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_endcap) <<endmsg;
139 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_mrpc) <<endmsg;
140 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_ext) <<endmsg;
141 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_tof) <<endmsg;
142 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_bb) <<endmsg;
143 return StatusCode::FAILURE;
144 }
145 }
146 }
147
148 if( m_saveRootFile ) {
153
154 if( nt21 || nt22 || nt23 || nt24 ) {
155 m_tuple_trk = nt21;
156 m_tuple_cbtrk = nt22;
157 m_tuple_cetrk = nt23;
158 m_tuple_cetftrk = nt24;
159 }
160 else {
165 if( m_tuple_trk || m_tuple_cbtrk || m_tuple_cetrk || m_tuple_cetftrk) {
166 m_checkdata_tuple = new TofCheckData( m_tuple_trk, m_tuple_cbtrk, m_tuple_cetrk, m_tuple_cetftrk );
167 }
168 else {
169 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_trk) <<endmsg;
170 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cbtrk) <<endmsg;
171 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cetrk) <<endmsg;
172 log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cetftrk) <<endmsg;
173 return StatusCode::FAILURE;
174 }
175 }
176 }
177
179
180 return StatusCode::SUCCESS;
181}
Definition TofCheckData.h:11
Definition TofCheckDigi.h:21
Definition TofCount.h:9
The documentation for this class was generated from the following files:
