CGEM BOSS 6.6.5.i
BESIII Offline Software System
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CgemSim-01-00-40/src/BesCgemDigitizer.cc
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1//-------------------------------------------------------------------------------------//
2// BOOST --- BESIII Object_Oriented Simulation Tool //
3//-------------------------------------------------------------------------------------//
4/*
5 * =====================================================================================
6 *
7 * Filename: BesCgemDigitizer.cc
8 * Description:
9 * Conventions:
10 * f_ : variable used in function parameter list
11 * gv_ : global variable
12 * lv_ : local variable used in function
13 * lvd_ : local variable double
14 * m_* : normal member of class
15 * sm_* : static member of class
16 * m_M_* : class data member, material of each layer
17 * m_N_* : class data member, number of layers (CgemLayer,GemFoil)
18 * m_R_* : class data member, radius of each (material) layer, and so on
19 * m_L_* : class data member, length of each layer or hole pitch
20 * m_T_* : class data member, thickness of each (material) layer
21 * m_A_* : class data member, angle of anode VStrip
22 * Version: CgemSim-01-00-00
23 * Created: 01/05/2014 09:49:21 PM
24 * Revision: CgemSim-00-00-01(in CMT version CgemBoss-0.0.1 written by xiuql)
25 * Compiler: gcc
26 * Author: [email protected]
27 * Organization: DG1,EPC,IHEP
28 * History:
29 * <Num> <Author> <Time> <Version> <remark>
30 * 0 juxd 20140105 01-00-00 created,
31 *
32 * =====================================================================================
33 */
34
35//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
36/* Header file: BOSS */
37#include "BesCgemDigitizer.hh"
38#include "BesCgemHit.hh"
39#include "BesCgemDigi.hh"
40
41#include "GaudiKernel/SmartIF.h"
42#include "GaudiKernel/ISvcLocator.h"
43#include "GaudiKernel/Bootstrap.h"
44#include "GaudiKernel/IDataProviderSvc.h"
45#include "GaudiKernel/SmartDataPtr.h"
46#include "GaudiKernel/IJobOptionsSvc.h"
47#include "GaudiKernel/PropertyMgr.h"
49
50#include "GaudiKernel/INTupleSvc.h"
51#include "Identifier/CgemID.h"
53
54/* Header file: Geant4 */
55#include "G4DigiManager.hh"
56#include "Randomize.hh"
57#include "G4ios.hh"
58#include "globals.hh"
59
60/* Header file: C++ */
61#include <iostream>
62#include <iomanip>
63#include <vector>
64#include <string>
65#include <cmath>
66
67#include "TArrayI.h"
68using namespace std;
69
70//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
72:G4VDigitizerModule(modName)
73{
74 /* Digi collection name handled by BesCgemDigitizer */
75 collectionName.push_back("BesCgemDigisCollection");
76
77 ISvcLocator* svcLocator = Gaudi::svcLocator();
78 ICgemGeomSvc* ISvc;
79 StatusCode sc=svcLocator->service("CgemGeomSvc", ISvc);
80
81 m_cgem_geomsvc=dynamic_cast<CgemGeomSvc *>(ISvc);
82
83 ISvcLocator* svcLocator2 = Gaudi::svcLocator();
84 ICgemDigitizerSvc* ISvc2;
85 StatusCode sc2=svcLocator2->service("CgemDigitizerSvc", ISvc2);
86
87 m_cgemDigiSvc=dynamic_cast<CgemDigitizerSvc *>(ISvc2);
88 m_E_threshold = 0.*eV; /* Energy threshold */
89
90 m_F_lorentz = 1; /* Flag of LorentzDiffusion(): 0-OFF; 1-ON */
91 m_F_smear = 0; /* Flag of Smear(): 0-OFF; 1-ON */
92 m_F_noise = 0; /* Flag of AddNoise(): 0-OFF; 1-ON */
93
94 m_F_printStrip = 0; /* Flag of Print Strip information: 0-OFF; 1-ON */
95 m_F_printHitStrip = 0; /* Flag of Print Hit Strip information: 0-OFF; 1-ON */
96 m_F_printDigi = 0; /* Flag of Print Digi information: 0-OFF; 1-ON */
97 m_F_ntuple = 0; /* Flag of fill ntuple: 0-OFF; 1-ON */
98
99 m_DigitizerVer = 2; /* Flag of Digitizer version: 2: Geo projection, 3: full digitization by CgemDigitizerSvc */
100 static IJobOptionsSvc* jobSvc = 0;
101 sc = svcLocator->service("JobOptionsSvc", jobSvc);
102 if ( sc.isFailure() ) {
103 std::cout << "BesCgemDigitizer: Can't get the JobOptionsSvc " << std::endl;
104 //return sc;
105 }
106 else
107 {
108 const vector<const Property*>* properties = jobSvc->getProperties("BesSim");
109 if ( properties != NULL ) {
110 for ( unsigned int i = 0; i < properties->size(); ++i ) {
111 if ( properties->at(i)->name() == "CgemDigitizer" ) {
112 string strRnd = properties->at(i)->toString();
113 sscanf(strRnd.c_str(), "%i", &m_DigitizerVer);
114 cout<<"BesCgemDigitizer: DigitizerVer is set to "<<m_DigitizerVer<<" by jobOptions"<<endl;
115 break;
116 }
117 }
118 }
119 }
120
121 ISvcLocator* iface = Gaudi::svcLocator();
122
123 if(m_F_ntuple){
124 SmartIF<INTupleSvc> ntupleSvc(iface->service("NTupleSvc"));
125 SmartIF<IDataProviderSvc> eds(iface->service("EventDataSvc"));
126
127 if (!ntupleSvc.isValid()) {
128 std::cout << "###################" << __LINE__ << " ntupleSvc is not valid"<< std::endl;
129 }
130
131 if (ntupleSvc){
132 std::cout << "###################" << __LINE__ << std::endl;
133 m_nt1= ntupleSvc->book("FILE101/hit",CLID_ColumnWiseTuple,"hit");
134 if( m_nt1){
135
136 m_nt1->addItem("nevt",m_evt);
137 m_nt1->addItem("nhit",m_nhit,0,1000000);
138 m_nt1->addIndexedItem("layer",m_nhit,m_layer);
139 m_nt1->addIndexedItem("sheet",m_nhit,m_sheet);
140 m_nt1->addIndexedItem("phi",m_nhit,m_phi);
141 m_nt1->addIndexedItem("v",m_nhit,m_v);
142
143 }
144 std::cout << "###################" << __LINE__ << std::endl;
145 }
146 }
147 std::cout << "###################" << __LINE__ << std::endl;
148}
149
150//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
154
155//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
157{
158 if(m_DigitizerVer==3) Digitize_v3();
159 else if(m_DigitizerVer==2) Digitize_v2();
160}
162{
163 IMessageSvc* msgSvc;
164 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
165 MsgStream log(msgSvc, "BesCgemDigitizer::Digitize()");
166 bool printFlag=false;
167 ISvcLocator* iface = Gaudi::svcLocator();
168 SmartIF<IDataProviderSvc> eds(iface->service("EventDataSvc"));
169 SmartDataPtr<Event::EventHeader> eventHeader(eds,"/Event/EventHeader");
170 if(m_F_ntuple) m_evt = eventHeader->eventNumber();
171 if(printFlag) {
172 log<< MSG::INFO << "|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||" << endreq;
173 log<< MSG::INFO << "INFO : CgemSim::BesCgemDigitizer::Digitize(), Begin !!!" << endreq;
174 }
175
176 /* Flag to check over whether the strip hit before */
177 for (G4int i=0; i<3; i++) /* Layer: 3 */
178 {
179 for (G4int j=0; j<2; j++) /* Sheet: 2 */
180 {
181 for (G4int k=0; k<2; k++) /* Strip Type: 2 */
182 {
183 for (G4int l=0; l<1500; l++) /* StripID: 1419 */
184 {
185 m_F_hit[i][j][k][l] = -1;
186 }
187 }
188 }
189 } /* End of 'for (int i=0; i<3; i++)' */
190
191 /* Digi manager, singleton */
192 G4DigiManager *gv_digi_manager = G4DigiManager::GetDMpointer();
193
194 /* Retrieve Hit Collection ID */
195 G4int lvi_ID_HC = -1;
196 lvi_ID_HC = gv_digi_manager->GetHitsCollectionID("BesCgemHitsCollection");
197
198 /* Retrieve Hit Collection by ID */
199 BesCgemHitsCollection *lv_HC = 0;
200 if (lvi_ID_HC >= 0)
201 {
202 lv_HC = (BesCgemHitsCollection*) (gv_digi_manager->GetHitsCollection(lvi_ID_HC));
203 }
204 else
205 {
206 log<< MSG::ERROR << "ERROR : CgemSim::BesCgemDigitizer::Digitize(), Fail to retrieve HitsCollection!"
207 << endreq;
208 return ;
209 }
210
211 /* Local Variables used by hit and digi in the following */
212 /* Local Variables by hit */
213 G4int lvi_N_hit = 0; /* Number of hits in hit collection */
214 G4int lvi_ID_track = 0; /* Track ID of hit (track, event) */
215 G4int lvi_ID_layer = 0; /* CgemLayer ID of hit */
216 G4double lvd_global_time = 0.; /* Time since the event is created */
217 G4double lvd_E_deposit = 0.; /* Energy deposited */
218 G4double lvd_E_average = 0.; /* Energy average */
219 G4ThreeVector lv3_XYZ_pre (0., 0., 0.); /* Position of pre step point */
220 G4ThreeVector lv3_XYZ_post(0., 0., 0.); /* Position of post step point */
221 //Add by sunxh
222 //G4int lvi_ID_hit = 0;
223 G4int lvi_RdtElectron = 0;
224 //end
225
226 /* Local Variables by CgemLayer */
227 CgemGeoLayer *lv_cgem_layer; /* CgemGeoLayer of the SD belongs to */
228 G4int lvi_N_sheet = 0; /* Number of readout sheet */
229 G4int lvi_N_strip[2]; /* 0-X; 1-V */
230 G4double lvd_R_layer = 0.;
231 G4double lvd_L_layer = 0.;
232 G4double lvd_A_stero = 0.; /* Angle of readout V-X */
233 G4double lvd_W_sheet = 0.; /* Width of readout sheet */
234 G4double lvd_W_pitch_x = 0.; /* Width of readout pitch for x*/
235 G4double lvd_W_pitch_v = 0.; /* Width of readout pitch for v*/
236
237 /* Local Variables by Digi */
238 G4double lvd_x_pre, lvd_x_post;
239 G4double lvd_v_pre, lvd_v_post;
240 G4int lvi_ID_sheet_pre , lvi_ID_x_pre, lvi_ID_x_post;
241 G4int lvi_ID_sheet_post, lvi_ID_v_pre, lvi_ID_v_post;
242 G4int lvi_N_hit_strip_x, lvi_N_hit_strip_v;
243 G4int lvi_ID_x_start , lvi_ID_v_start ;
244 G4int lvi_ID_sheet_mid_pre , lvi_ID_x_mid_pre , lvi_ID_v_mid_pre ;
245 G4int lvi_ID_sheet_mid_post, lvi_ID_x_mid_post, lvi_ID_v_mid_post;
246 G4int lvi_N_hit_strip_x_pre , lvi_N_hit_strip_v_pre , lvi_ID_x_start_pre , lvi_ID_v_start_pre ;
247 G4int lvi_N_hit_strip_x_post, lvi_N_hit_strip_v_post, lvi_ID_x_start_post, lvi_ID_v_start_post;
248 G4int lvi_N_hit_strip[2], lvi_N_hit_strip_pre[2];
249 G4int lvi_ID_strip_start[2], lvi_ID_strip_start_pre[2], lvi_ID_strip_start_post[2];
250
251 G4int lvi_ID_sheet = 0;
252 G4int lvi_ID_strip = 0;
253 G4double lvd_E_strip = 0.;
254
255 G4int lvi_case = 0;
256 /* Create digi collection by hit collection */
257 if(lv_HC)
258 {
259 m_digi_collection = new BesCgemDigisCollection(moduleName, collectionName[0]);
260
261 /* Process hits and get digi */
262 lvi_N_hit = lv_HC->entries();
263 for (G4int ii=0; ii<lvi_N_hit; ii++)
264 {
265 /* Get information from the hit */
266 BesCgemHit *lv_hit = (*lv_HC)[ii];
267
268 if(printFlag)
269 {
270 log<< MSG::INFO << "..............................................................................."
271 << endreq;
272 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Digitize hit " << ii
273 << " of " << lvi_N_hit << endreq;
274 }
275
276 //Add by sunxh
277 lvi_RdtElectron = lv_hit->GetRdtEl ();
278 //lvi_ID_hit = lv_hit->GetHitID ();
279 //end
280
281 lvi_ID_track = lv_hit->GetTrackID ();
282 lvi_ID_layer = lv_hit->GetLayerID ();
283 lvd_global_time = lv_hit->GetGlobalTime ();
284 lvd_E_deposit = lv_hit->GetTotalEnergyDeposit ();
285 lv3_XYZ_pre = lv_hit->GetPositionOfPrePoint ();
286 lv3_XYZ_post = lv_hit->GetPositionOfPostPoint ();
287
288 lv_cgem_layer = m_cgem_geomsvc->getCgemLayer(lvi_ID_layer);
289 lvd_R_layer = lv_cgem_layer->getInnerROfAnode()*mm;
290 lvd_L_layer = lv_cgem_layer->getLengthOfCgemLayer()*mm;
291 lvi_N_sheet = lv_cgem_layer->getNumberOfSheet();
292 lvd_A_stero = lv_cgem_layer->getAngleOfStereo()*deg;
293 lvd_W_sheet = lv_cgem_layer->getWidthOfSheet()*mm;
294 lvd_W_pitch_x = lv_cgem_layer->getWidthOfPitchX()*mm;
295 lvd_W_pitch_v = lv_cgem_layer->getWidthOfPitchV()*mm;
296
297 lvd_W_sheet = lvd_R_layer * twopi / lvi_N_sheet;
298
299 lvi_N_strip[0] = ceil(lvd_W_sheet / lvd_W_pitch_x);
300 lvi_N_strip[1] = ceil((lvd_W_sheet*cos(lvd_A_stero)+lvd_L_layer*fabs(sin(lvd_A_stero))) / lvd_W_pitch_v);
301
302 //Add by sunxh
303 if(lvi_RdtElectron ==1) continue;// 1: close the effect of delta electron
304 //End Add
305
306 /* Print Strip Information! */
307 if (m_F_printStrip ==1)
308 {
309 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Strip information:" << endreq;
310 log<< MSG::INFO << "ID_layer "
311 << "R "
312 << "N_sheet "
313 << "W_sheet "
314 << "N_X_strip "
315 << "N_V_strip "
316 << "A_stero "
317 << endreq;
318 log<< MSG::INFO << left << setw( 9) << lvi_ID_layer
319 << left << setw( 8) << lvd_R_layer
320 << left << setw( 8) << lvi_N_sheet
321 << left << setw( 8) << lvd_W_sheet
322 << left << setw(10) << lvi_N_strip[0]
323 << left << setw(10) << lvi_N_strip[1]
324 << left << setw( 8) << lvd_A_stero
325 << endreq;
326 log<< MSG::INFO <<"lv3_XYZ_pre, lv3_XYZ_post"<<lv3_XYZ_pre<<", "<<lv3_XYZ_post<<endreq;
327 log<< MSG::INFO << " " << endreq;
328 }
329
330 /* Lorentz diffusion */
331 if (m_F_lorentz == 1)
332 {
333 if(printFlag)
334 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Lorentz Diffuse!" << endreq;
335 DoLorentzDiffusion(lvi_ID_layer, lv3_XYZ_pre, lv3_XYZ_post);
336 }
337
338 /* Smear */
339 if (m_F_smear == 1)
340 {
341 if(printFlag)
342 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Smear!" << endreq;
343 Smear();
344 }
345
346 /* Add noise */
347 if (m_F_noise == 1)
348 {
349 if(printFlag)
350 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Add Noise!" << endreq;
351 AddNoise();
352 }
353
354 /* Get ID from position XYZ of readout layer */
355 /* Pre Point of the step */
356 GetIDFromXYZ(lvi_ID_layer, lv3_XYZ_pre,
357 lvd_x_pre, lvd_v_pre,
358 lvi_ID_sheet_pre, lvi_ID_x_pre, lvi_ID_v_pre);
359
360 /* Post Point of the step */
361 GetIDFromXYZ(lvi_ID_layer, lv3_XYZ_post,
362 lvd_x_post, lvd_v_post,
363 lvi_ID_sheet_post, lvi_ID_x_post, lvi_ID_v_post);
364
365 /* Suppose one step cannot cross over one total sheet */
366 /* Segment in the same sheet */
367 if (lvi_ID_sheet_pre == lvi_ID_sheet_post and
368 (abs(lvi_ID_x_post - lvi_ID_x_pre) < (lvi_N_strip[0]-abs(lvi_ID_x_post - lvi_ID_x_pre))) and
369 (abs(lvi_ID_v_post - lvi_ID_v_pre) < (lvi_N_strip[1]-abs(lvi_ID_v_post - lvi_ID_v_pre))))
370 {
371 lvi_case = 0;
372 if(printFlag)
373 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Step in same sheet!" << endreq;
374
375 GetIDFromSegmentInSameSheet(lvi_ID_x_pre , lvi_ID_v_pre , /* Input */
376 lvi_ID_x_post , lvi_ID_v_post , /* Input */
377 lvi_N_hit_strip_x , lvi_N_hit_strip_v , /* Output */
378 lvi_ID_x_start , lvi_ID_v_start ); /* Output */
379
380 lvi_N_hit_strip[0] = lvi_N_hit_strip_x;
381 lvi_N_hit_strip[1] = lvi_N_hit_strip_v;
382
383 lvi_ID_strip_start[0] = lvi_ID_x_start;
384 lvi_ID_strip_start[1] = lvi_ID_v_start;
385
386 m_phi[ii]=(lvi_ID_x_pre+lvi_ID_x_post)/2*lvd_W_pitch_x;
387 m_v[ii] =(lvi_ID_v_pre+lvi_ID_v_post)/2*lvd_W_pitch_v;
388 m_layer[ii]=lvi_ID_layer;
389 m_sheet[ii]=lvi_ID_sheet_pre;
390 }
391 /* Segment in different sheets, split it into two segemnts which are in same sheet */
392 else
393 {
394 if(printFlag)
395 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Step in different sheet!" << endreq;
396
397 lvi_case = 1;
399 lvi_ID_sheet_pre , lvd_x_pre , lvd_v_pre ,
400 lvi_ID_sheet_post, lvd_x_post, lvd_v_post,
401 lvi_ID_sheet_mid_pre , lvi_ID_x_mid_pre , lvi_ID_v_mid_pre,
402 lvi_ID_sheet_mid_post , lvi_ID_x_mid_post , lvi_ID_v_mid_post);
403
404 GetIDFromSegmentInSameSheet(lvi_ID_x_pre , lvi_ID_v_pre , /* Input */
405 lvi_ID_x_mid_pre , lvi_ID_v_mid_pre , /* Input */
406 lvi_N_hit_strip_x_pre , lvi_N_hit_strip_v_pre , /* Output */
407 lvi_ID_x_start_pre , lvi_ID_v_start_pre ); /* Output */
408
409 GetIDFromSegmentInSameSheet(lvi_ID_x_post , lvi_ID_v_post , /* Input */
410 lvi_ID_x_mid_post , lvi_ID_v_mid_post , /* Input */
411 lvi_N_hit_strip_x_post , lvi_N_hit_strip_v_post , /* Output */
412 lvi_ID_x_start_post , lvi_ID_v_start_post ); /* Output */
413
414 if(m_F_ntuple){
415 m_phi[ii]=(lvi_ID_x_pre+lvi_ID_x_mid_pre)/2*0.65;
416 m_v[ii] =(lvi_ID_v_pre+lvi_ID_v_mid_pre)/2*0.65;
417 m_layer[ii]=lvi_ID_layer;
418 m_sheet[ii]=lvi_ID_sheet_mid_pre;
419 }
420
421 lvi_N_hit_strip[0] = lvi_N_hit_strip_x_pre + lvi_N_hit_strip_x_post;
422 lvi_N_hit_strip[1] = lvi_N_hit_strip_v_pre + lvi_N_hit_strip_v_post;
423 lvi_N_hit_strip_pre[0] = lvi_N_hit_strip_x_pre;
424 lvi_N_hit_strip_pre[1] = lvi_N_hit_strip_v_pre;
425 lvi_ID_strip_start_pre[0] = lvi_ID_x_start_pre;
426 lvi_ID_strip_start_pre[1] = lvi_ID_v_start_pre;
427 lvi_ID_strip_start_post[0] = lvi_ID_x_start_post;
428 lvi_ID_strip_start_post[1] = lvi_ID_v_start_post;
429 }
430
431
432 /* Print hit strip information */
433 if (m_F_printHitStrip == 1)
434 {
435 log<< MSG::INFO << " " << endreq;
436 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Hit strip information:"
437 << endreq;
438 log<< MSG::INFO << "PreSheet "
439 << "PostSheet "
440 << "PreX "
441 << "PostX "
442 << "PreV "
443 << "PostV "
444 << "N_X "
445 << "N_V "
446 << "StartX "
447 << "StartV "
448 << endreq;
449 log<< MSG::INFO << left << setw( 9) << lvi_ID_sheet_pre
450 << left << setw(10) << lvi_ID_sheet_post
451 << left << setw( 5) << lvi_ID_x_pre
452 << left << setw( 6) << lvi_ID_x_post
453 << left << setw( 5) << lvi_ID_v_pre
454 << left << setw( 6) << lvi_ID_v_post
455 << left << setw( 4) << lvi_N_hit_strip[0]
456 << left << setw( 4) << lvi_N_hit_strip[1]
457 << left << setw( 7) << lvi_ID_strip_start[0]
458 << left << setw( 7) << lvi_ID_strip_start[1]
459 << endreq;
460 log<< MSG::INFO << " " << endreq;
461 }
462
463 /* uniform energy through sgement pre-post */
464 lvd_E_average = lvd_E_deposit / (lvi_N_hit_strip[0] + lvi_N_hit_strip[1]);
465
466 /* Print Information of Digi */
467 if (m_F_printDigi == 1)
468 {
469 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Digi information:" << endreq;
470 log<< MSG::INFO << left << setw( 8) << "TrackID "
471 << left << setw( 8) << "LayerID "
472 << left << setw( 8) << "SheetID "
473 << left << setw( 8) << "X-0,V-1 "
474 << left << setw( 8) << "StripID "
475 << left << setw(16) << "GlobalTime "
476 << left << setw(16) << "EnergyDeposit "
477 << endreq;
478 }
479
480 /* Add by sunxh */
481 vector<int> ident_tmp;
482 //End Add
483
484 /* Create Digi */
485 for (G4int jj=0; jj<2; jj++) /* 0-X; 1-V */
486 {
487 for (G4int kk=0; kk<lvi_N_hit_strip[jj]; kk++)
488 {
489 if (lvi_case==0)
490 {
491 //G4cout << "### step in same sheet" << G4endl;
492 lvi_ID_sheet = lvi_ID_sheet_pre;
493 lvi_ID_strip = lvi_ID_strip_start[jj] + kk;
494 }
495 else
496 {
497 if (kk < lvi_N_hit_strip_pre[jj])
498 {
499 //G4cout << "*** step in different sheet" << G4endl;
500 lvi_ID_sheet = lvi_ID_sheet_pre;
501 lvi_ID_strip = lvi_ID_strip_start_pre[jj] + kk;
502 }
503 else
504 {
505 //G4cout << "*** step in different sheet" << G4endl;
506 lvi_ID_sheet = lvi_ID_sheet_post;
507 lvi_ID_strip = lvi_ID_strip_start_post[jj] + kk - lvi_N_hit_strip_pre[jj];
508 }
509 }
510
511 /* Compute energy of the hit strip */
512 G4int &idx_digi = m_F_hit[lvi_ID_layer][lvi_ID_sheet][jj][lvi_ID_strip];
513 if (idx_digi == -1)
514 {
515 lvd_E_strip = lvd_E_average ;
516
517 /* Signal should be larger than threshold */
518 if (lvd_E_strip >= m_E_threshold)
519 {
520 BesCgemDigi *lv_new_digi = new BesCgemDigi(); /* Create Digi */
521
522 lv_new_digi->SetTrackID ( lvi_ID_track );
523 lv_new_digi->SetLayerID ( lvi_ID_layer );
524 lv_new_digi->SetSheetID ( lvi_ID_sheet );
525 lv_new_digi->SetStripType ( jj );
526 lv_new_digi->SetStripID ( lvi_ID_strip );
527 lv_new_digi->SetGlobalTime ( lvd_global_time );
528 lv_new_digi->SetEnergyDeposit ( lvd_E_strip );
529
530 m_digi_collection->insert(lv_new_digi);
531
532 idx_digi = m_digi_collection->entries() - 1;
533
534 //Add by sunxh
535 unsigned int ident = CgemID::getIntID(lvi_ID_layer,lvi_ID_sheet,jj,lvi_ID_strip);
536 ident_tmp.push_back(ident);
537 //End Add
538
539 /* Print Digi information! */
540 if (m_F_printDigi == 1)
541 {
542 G4cout << left << setw( 8) << lvi_ID_track
543 << left << setw( 8) << lvi_ID_layer
544 << left << setw( 8) << lvi_ID_sheet
545 << left << setw( 8) << jj
546 << left << setw( 8) << lvi_ID_strip
547 << left << setw(16) << lvd_global_time
548 << left << setw(16) << lvd_E_strip
549 << G4endl;
550 }
551 }
552 }
553 else
554 {
555 lvd_E_strip = (*m_digi_collection)[idx_digi]->GetEnergyDeposit() + lvd_E_average;
556
557
558 //Add by sunxh
559 unsigned int ident = CgemID::getIntID(lvi_ID_layer,lvi_ID_sheet,jj,lvi_ID_strip);
560 ident_tmp.push_back(Identifier(ident));
561 //End Add
562
563 (*m_digi_collection)[idx_digi]->SetEnergyDeposit(lvd_E_strip);
564 }
565
566 } /* End of 'for (G4int kk=0; kk<lvi_N_hit_strip[jj]; kk++)' */
567 } /* End of 'for (G4int jj=0; jj<2; jj++)' */
568
569 /* Add by sunxh */
570 int array_tmp[2000];
571 for(unsigned int hh =0; hh < ident_tmp.size(); hh++){
572 array_tmp[hh] = ident_tmp[hh];
573 }
574 lv_hit->AddIdentifier(array_tmp,ident_tmp.size());
575 /*End Add*/
576
577 } /* End of 'for (G4int ii=0; ii<lvi_N_hit; ii++)' */
578
579 if(m_F_ntuple) m_nhit = lvi_N_hit;
580 StoreDigiCollection(m_digi_collection); /* */
581
582 } /* End of 'if(lv_HC)' */
583 if(m_F_ntuple) m_nt1->write();
584}
585
586
588{
589 IMessageSvc* msgSvc;
590 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
591 MsgStream log(msgSvc, "BesCgemDigitizer::Digitize_v2()");
592 bool printFlag=true;
593
594 /* Flag to check over whether the strip hit before */
595 for (G4int i=0; i<3; i++) /* Layer: 3 */
596 {
597 for (G4int j=0; j<2; j++) /* Sheet: 2 */
598 {
599 for (G4int k=0; k<2; k++) /* Strip Type: 2 */
600 {
601 for (G4int l=0; l<1500; l++) /* StripID: 1419 */
602 {
603 m_F_hit[i][j][k][l] = -1;
604 }
605 }
606 }
607 } /* End of 'for (int i=0; i<3; i++)' */
608
609 /* Digi manager, singleton */
610 G4DigiManager *gv_digi_manager = G4DigiManager::GetDMpointer();
611
612 /* Retrieve Hit Collection ID */
613 G4int lvi_ID_HC = -1;
614 lvi_ID_HC = gv_digi_manager->GetHitsCollectionID("BesCgemHitsCollection");
615
616 /* Retrieve Hit Collection by ID */
617 BesCgemHitsCollection *lv_HC = 0;
618 if (lvi_ID_HC >= 0)
619 {
620 lv_HC = (BesCgemHitsCollection*) (gv_digi_manager->GetHitsCollection(lvi_ID_HC));
621 }
622 else
623 {
624 log<< MSG::ERROR << "CgemSim::BesCgemDigitizer::Digitize(), Fail to retrieve HitsCollection!"
625 << endreq;
626 return ;
627 }
628
629 /* Create digi collection by hit collection */
630 if(lv_HC)
631 {
632 m_digi_collection = new BesCgemDigisCollection(moduleName, collectionName[0]);
633
634 /* Process hits and get digi */
635 G4int lvi_N_hit = lv_HC->entries();
636 for (G4int ii=0; ii<lvi_N_hit; ii++)
637 {
638 /* Get information from the hit */
639 BesCgemHit *lv_hit = (*lv_HC)[ii];
640
641 //Add by sunxh
642 G4int lvi_RdtElectron = lv_hit->GetRdtEl ();
643 if(lvi_RdtElectron ==1) continue;// 1: close the effect of delta electron
644 //End Add
645
646 G4int lvi_ID_track = lv_hit->GetTrackID ();
647 G4int lvi_ID_layer = lv_hit->GetLayerID ();
648 G4int lvi_pdg = lv_hit->GetPDGCode ();
649 //G4int lvi_ID_parent = lv_hit->GetParentID ();
650 //if(lvi_pdg!=13) continue;
651 G4double lvd_global_time = lv_hit->GetGlobalTime ();
652 G4double lvd_E_deposit = lv_hit->GetTotalEnergyDeposit ();
653 G4ThreeVector lv3_XYZ_pre = lv_hit->GetPositionOfPrePoint ();
654 G4ThreeVector lv3_XYZ_post = lv_hit->GetPositionOfPostPoint ();
655 CgemGeoLayer *lv_cgem_layer = m_cgem_geomsvc->getCgemLayer(lvi_ID_layer);
656 G4int lvi_N_sheet = lv_cgem_layer->getNumberOfSheet();
657 if(printFlag) {
658 log<< MSG::INFO << "..............................................................................."
659 << endreq;
660 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Digitize hit " << ii
661 << " of " << lvi_N_hit <<", E="<<lvd_E_deposit<<", layer "<<lvi_ID_layer<<", nsheet="<<lvi_N_sheet<< endreq;
662 log<< MSG::INFO << " lvi_pdg "<<lvi_pdg<<", from "<<lv3_XYZ_pre<<" to "<<lv3_XYZ_post<<endreq;
663 }
664
665 /* Lorentz diffusion */
666 if (m_F_lorentz == 1)
667 {
668 if(printFlag)
669 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Lorentz Diffuse!" << endreq;
670 DoLorentzDiffusion(lvi_ID_layer, lv3_XYZ_pre, lv3_XYZ_post);
671 if(printFlag)
672 log<< MSG::INFO << " after Lorentz Diffuse: from "<<lv3_XYZ_pre<<" to "<<lv3_XYZ_post << endreq;
673 }// lv3_XYZ_pre, lv3_XYZ_post already on readout plane
674
675 /* Smear */
676 if (m_F_smear == 1)
677 {
678 if(printFlag)
679 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Smear!" << endreq;
680 Smear();
681 }
682
683 /* Add noise */
684 if (m_F_noise == 1)
685 {
686 if(printFlag)
687 log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Begin to Add Noise!" << endreq;
688 AddNoise();
689 }
690
691 vector<int> vecID[2][2];// [iSheet][isXV]
692 int Ntot[2]={0,0};// [isXV]
693 for(int i=0; i<lvi_N_sheet; i++)
694 {
695 CgemGeoReadoutPlane* readoutPlane=m_cgem_geomsvc->getReadoutPlane(lvi_ID_layer,i);
696 readoutPlane->getFiredStripID(lv3_XYZ_pre,lv3_XYZ_post,vecID[i][0],vecID[i][1]);
697 Ntot[0]+=vecID[i][0].size();
698 Ntot[1]+=vecID[i][1].size();
699 }
700 if(printFlag)
701 log<< MSG::INFO << " fired "<<Ntot[0]<<" X strips, "<<Ntot[1]<<" V strips" << endreq;
702 double lvd_E_average=lvd_E_deposit/(Ntot[0]+Ntot[1]);
703
704 /* Add by sunxh */
705 vector<int> ident_tmp;
706 //End Add
707
708 for(int i=0; i<lvi_N_sheet; i++)
709 {
710 //cout<<"* sheet "<<i<<endl;
711 for(int j=0;j<2;j++)// isXV
712 {
713 //cout<<" * XV "<<j<<": "<<endl;
714 for(unsigned int iStrip=0; iStrip<vecID[i][j].size(); iStrip++)
715 {
716 int ID=vecID[i][j][iStrip];
717 G4int &idx_digi=m_F_hit[lvi_ID_layer][i][j][ID];
718 BesCgemDigi *lv_new_digi;
719 double lvd_E_strip=lvd_E_average;
720 //cout<<" ID, E="<<ID<<", "<<lvd_E_strip<<endl;
721 if(idx_digi == -1)
722 {
723 lv_new_digi = new BesCgemDigi();
724 lv_new_digi->SetTrackID ( lvi_ID_track );
725 lv_new_digi->SetLayerID ( lvi_ID_layer );
726 lv_new_digi->SetSheetID ( i);
727 lv_new_digi->SetStripType ( j );
728 lv_new_digi->SetStripID ( ID );
729 lv_new_digi->SetGlobalTime ( lvd_global_time );
730 lv_new_digi->SetEnergyDeposit ( lvd_E_strip );
731 m_digi_collection->insert(lv_new_digi);
732 idx_digi = m_digi_collection->entries() - 1;
733
734 //Add by sunxh
735 unsigned int ident = CgemID::getIntID(lvi_ID_layer,i,j,ID);
736 ident_tmp.push_back(ident);
737 //End Add
738
739 }
740 else
741 {
742 lvd_E_strip += (*m_digi_collection)[idx_digi]->GetEnergyDeposit();
743
744 //Add by sunxh
745 unsigned int ident = CgemID::getIntID(lvi_ID_layer,i,j,ID);
746 ident_tmp.push_back(Identifier(ident));
747 //End Add
748
749 (*m_digi_collection)[idx_digi]->SetEnergyDeposit(lvd_E_strip);
750 }
751 }// loop strip
752 }// loop XV
753 }// loop sheet
754
755 /* Add by sunxh */
756 int array_tmp[2000];
757 for(unsigned int hh =0; hh < ident_tmp.size(); hh++){
758 array_tmp[hh] = ident_tmp[hh];
759 }
760 lv_hit->AddIdentifier(array_tmp,ident_tmp.size());
761
762 // TArrayI tmp = lv_hit->GetIdentifier();
763
764 /*End Add*/
765
766 }// loop hits ii
767 StoreDigiCollection(m_digi_collection); /* */
768 }//if(lv_HC)
769}
770
772{
773 IMessageSvc* msgSvc;
774 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
775 MsgStream log(msgSvc, "BesCgemDigitizer::Digitize_v3()");
776 bool printFlag=false; //printFlag=true;
777
778 /* Flag to check over whether the strip hit before */
779 for (G4int i=0; i<3; i++) /* Layer: 3 */
780 {
781 for (G4int j=0; j<2; j++) /* Sheet: 2 */
782 {
783 for (G4int k=0; k<2; k++) /* Strip Type: 2 */
784 {
785 for (G4int l=0; l<1500; l++) /* max StripID: 1395=2790/2 */
786 {
787 m_F_hit[i][j][k][l] = -1;
788 m_cgemHitTimePnt[i][j][k][l] = NULL;
789 }
790 }
791 }
792 } /* End of 'for (int i=0; i<3; i++)' */
793
794 /* Digi manager, singleton */
795 G4DigiManager *gv_digi_manager = G4DigiManager::GetDMpointer();
796
797 /* Retrieve Hit Collection ID */
798 G4int lvi_ID_HC = -1;
799 lvi_ID_HC = gv_digi_manager->GetHitsCollectionID("BesCgemHitsCollection");
800
801 /* Retrieve Hit Collection by ID */
802 BesCgemHitsCollection *lv_HC = 0;
803 if (lvi_ID_HC >= 0)
804 {
805 lv_HC = (BesCgemHitsCollection*) (gv_digi_manager->GetHitsCollection(lvi_ID_HC));
806 }
807 else
808 {
809 log<< MSG::ERROR << "CgemSim::BesCgemDigitizer::Digitize(), Fail to retrieve HitsCollection!"
810 << endreq;
811 return ;
812 }
813
814 /* Create digi collection by hit collection */
815 if(lv_HC)
816 {
817 m_digi_collection = new BesCgemDigisCollection(moduleName, collectionName[0]);
818
819 /* Process hits and get digi */
820 G4int lvi_N_hit = lv_HC->entries();
821 for (G4int ii=0; ii<lvi_N_hit; ii++)
822 {
823 /* Get information from the hit */
824 BesCgemHit *lv_hit = (*lv_HC)[ii];
825
826 //Add by sunxh
827 G4int lvi_RdtElectron = lv_hit->GetRdtEl ();
828 if(lvi_RdtElectron ==1) continue;// 1: close the effect of delta electron
829 //End Add
830
831 G4int lvi_ID_track = lv_hit->GetTrackID ();
832 G4int lvi_ID_layer = lv_hit->GetLayerID ();
833 G4int lvi_pdg = lv_hit->GetPDGCode ();
834 G4ThreeVector lvi_momentum = lv_hit->GetMomentumOfPrePoint();
835 //G4int lvi_ID_parent = lv_hit->GetParentID ();
836 //if(lvi_pdg!=13) continue;
837 //G4double lvd_global_time = lv_hit->GetGlobalTime ();
838 G4double lvd_E_deposit = lv_hit->GetTotalEnergyDeposit ();
839 G4ThreeVector lv3_XYZ_pre = lv_hit->GetPositionOfPrePoint ();
840 G4ThreeVector lv3_XYZ_post = lv_hit->GetPositionOfPostPoint ();
841 CgemGeoLayer *lv_cgem_layer = m_cgem_geomsvc->getCgemLayer(lvi_ID_layer);
842 G4int lvi_N_sheet = lv_cgem_layer->getNumberOfSheet();
843 if(printFlag) {
844 //log<< MSG::INFO << "..............................................................................."
845 // << endreq;
846 //log<< MSG::INFO << "CgemSim::BesCgemDigitizer::Digitize(), Digitize hit " << ii
847 // << " of " << lvi_N_hit <<", E="<<lvd_E_deposit<<", layer "<<lvi_ID_layer<<", nsheet="<<lvi_N_sheet<< endreq;
848 //log<< MSG::INFO << " lvi_pdg "<<lvi_pdg<<", from "<<lv3_XYZ_pre<<" to "<<lv3_XYZ_post<<endreq;
849 cout << "..............................................................................."
850 << endl;
851 cout<< "CgemSim::BesCgemDigitizer::Digitize(), Digitize hit " << ii
852 << " of " << lvi_N_hit <<", E="<<lvd_E_deposit<<", layer "<<lvi_ID_layer<<", nsheet="<<lvi_N_sheet<< endl;
853 cout<< " lvi_pdg "<<lvi_pdg<<", from "<<lv3_XYZ_pre<<" to "<<lv3_XYZ_post<<endl;
854 }
855
856 // if((0==particle)&&(-1==charge)) {particleName = "electron";} add p Lepton e- 11
857 // else if((0==particle)&&(1==charge)) {particleName = "e+";} add p Lepton e+ -11
858 // else if((1==particle)&&(1==charge)) {particleName = "mu+";} add p Lepton mu+ -13
859 // else if((1==particle)&&(-1==charge)) {particleName = "mu-";} add p Lepton mu- 13
860 // else if((2==particle)&&(1==charge)) {particleName = "pi+";} add p Meson pi+ 211
861 // else if((2==particle)&&(-1==charge)) {particleName = "pi-";} add p Meson pi- -211
862 // else if((3==particle)&&(1==charge)) {particleName = "K+";} add p Meson K+ 321
863 // else if((3==particle)&&(-1==charge)) {particleName = "K-";} add p Meson K- -321
864 // else if((4==particle)&&(1==charge)) {particleName = "p";} add p Baryon p+ 2212
865 // else if((4==particle)&&(-1==charge)) {particleName = "p-bar";} add p Baryon anti-p- -2212
866
867 int particle_temp = -1;
868 int charge_temp = 0;
869 if(lvi_pdg == 11){particle_temp=0;charge_temp=-1;}
870 if(lvi_pdg == -11){particle_temp=0;charge_temp=1;}
871 if(lvi_pdg == -13){particle_temp=1;charge_temp=1;}
872 if(lvi_pdg == 13){particle_temp=1;charge_temp=-1;}
873 if(lvi_pdg == 211){particle_temp=2;charge_temp=1;}
874 if(lvi_pdg == -211){particle_temp=2;charge_temp=-1;}
875 if(lvi_pdg == 321){particle_temp=3;charge_temp=1;}
876 if(lvi_pdg == -321){particle_temp=3;charge_temp=-1;}
877 if(lvi_pdg == 2212){particle_temp=4;charge_temp=1;}
878 if(lvi_pdg == -2212){particle_temp=4;charge_temp=-1;}
879 if(lvi_pdg == 1011){particle_temp=5;charge_temp=1;}
880 if(lvi_pdg == 1022){particle_temp=6;charge_temp=2;}
881
882 if(particle_temp==-1) {
883 cout<<"BesCgemDigitizer::Digitize_v3(): no digitization for pdg "<<lvi_pdg<<endl;
884 continue;
885 }
886
887 double posIn[3];
888 double posOut[3];
889 posIn[0] = lv3_XYZ_pre.x();
890 posIn[1] = lv3_XYZ_pre.y();
891 posIn[2] = lv3_XYZ_pre.z();
892 posOut[0] = lv3_XYZ_post.x();
893 posOut[1] = lv3_XYZ_post.y();
894 posOut[2] = lv3_XYZ_post.z();
895
896 //if(sqrt(posIn[0]*posIn[0]+posIn[1]*posIn[1]) < sqrt(posOut[0]*posOut[0]+posOut[1]*posOut[1])){
897
898 /* Get information from digitization service */
899 if(printFlag) { std::cout << "just before m_cgemDigiSvc->setTrack "<<endl;}
900 m_cgemDigiSvc->setTrack(lvi_ID_layer, particle_temp, charge_temp, lvi_momentum.mag()/1000., posIn, posOut);
901 if(printFlag) {
902 std::cout << "layer "<<lvi_ID_layer << ", particle " << particle_temp << ", Q= " << charge_temp << ", p= " << lvi_momentum.mag()/1000.
903 << " GeV/c, (" <<posIn[0] << ", " <<posIn[1]<< ", " <<posIn[2]<< ") to (" <<posOut[0] << ", " <<posOut[1]<< ", " <<posOut[2] <<")"<< std::endl;
904 std::cout << "R_in, R_out = "<< sqrt(posIn[0]*posIn[0]+posIn[1]*posIn[1]) << " " << sqrt(posOut[0]*posOut[0]+posOut[1]*posOut[1]) << std::endl;
905 std::cout << "check--> NXStrips, NVStrips = " << m_cgemDigiSvc->getNXstrips() << m_cgemDigiSvc->getNVstrips()<< std::endl;
906 }
907
908 vector<int> vecID[2][2];// [iSheet][isXV]
909 vector<double> vecQ[2][2]; // [iSheet][isXV]
910 vector<double> vecT[2][2]; // [iSheet][isXV]
911 int Ntot[2]={0,0};// [isXV]
912 //for(int i=0; i<2; i++){
913 // for(int j=0; j<2; j++){
914 // vecID[i][j].clear();
915 // vecQ[i][j].clear();
916 // vecT[i][j].clear();
917 // }
918 //}
919
920 for(int i=0; i<m_cgemDigiSvc->getNXstrips(); i++){
921 //if(m_cgemDigiSvc->getXstripSheet(i)==0) vecID[0][0].push_back(m_cgemDigiSvc->getXstripID(i));
922 //if(m_cgemDigiSvc->getXstripSheet(i)==1) vecID[1][0].push_back(m_cgemDigiSvc->getXstripID(i));
923 //if(m_cgemDigiSvc->getXstripSheet(i)==0) vecQ[0][0].push_back(m_cgemDigiSvc->getXstripQ(i));
924 //if(m_cgemDigiSvc->getXstripSheet(i)==1) vecQ[1][0].push_back(m_cgemDigiSvc->getXstripQ(i));
925 //if(m_cgemDigiSvc->getXstripSheet(i)==0) vecT[0][0].push_back(m_cgemDigiSvc->getXstripT(i));
926 //if(m_cgemDigiSvc->getXstripSheet(i)==1) vecT[1][0].push_back(m_cgemDigiSvc->getXstripT(i));
927 //std::cout << "zhaojy check sheet" << m_cgemDigiSvc->getXstripSheet(i) << std::endl;
928 int sheetID=m_cgemDigiSvc->getXstripSheet(i);
929 vecID[sheetID][0].push_back(m_cgemDigiSvc->getXstripID(i));
930 vecQ[sheetID][0].push_back(m_cgemDigiSvc->getXstripQ(i));
931 vecT[sheetID][0].push_back(m_cgemDigiSvc->getXstripT(i));
932 }
933 for(int i=0; i<m_cgemDigiSvc->getNVstrips(); i++){
934 //if(m_cgemDigiSvc->getVstripSheet(i)==0) vecID[0][1].push_back(m_cgemDigiSvc->getVstripID(i));
935 //if(m_cgemDigiSvc->getVstripSheet(i)==1) vecID[1][1].push_back(m_cgemDigiSvc->getVstripID(i));
936 //if(m_cgemDigiSvc->getVstripSheet(i)==0) vecQ[0][1].push_back(m_cgemDigiSvc->getVstripQ(i));
937 //if(m_cgemDigiSvc->getVstripSheet(i)==1) vecQ[1][1].push_back(m_cgemDigiSvc->getVstripQ(i));
938 //if(m_cgemDigiSvc->getVstripSheet(i)==0) vecT[0][1].push_back(m_cgemDigiSvc->getVstripT(i));
939 //if(m_cgemDigiSvc->getVstripSheet(i)==1) vecT[1][1].push_back(m_cgemDigiSvc->getVstripT(i));
940 int sheetID=m_cgemDigiSvc->getVstripSheet(i);
941 vecID[sheetID][1].push_back(m_cgemDigiSvc->getVstripID(i));
942 vecQ[sheetID][1].push_back(m_cgemDigiSvc->getVstripQ(i));
943 vecT[sheetID][1].push_back(m_cgemDigiSvc->getVstripT(i));
944 }
945
946 for(int i=0; i<lvi_N_sheet; i++)
947 {
948 Ntot[0]+=vecID[i][0].size();
949 Ntot[1]+=vecID[i][1].size();
950 }
951
952 if(printFlag)
953 cout << " fired "<<Ntot[0]<<" X strips, "<<Ntot[1]<<" V strips" << endl;
954 //double lvd_E_average=lvd_E_deposit/(Ntot[0]+Ntot[1]);
955
956 /* Add by sunxh */
957 vector<int> ident_tmp;
958 //End Add
959
960 double Q_saturation= 45.0; //-----Q Satruation
961 for(int i=0; i<lvi_N_sheet; i++)
962 {
963 //cout<<"* sheet "<<i<<endl;
964 for(int j=0;j<2;j++)// isXV
965 {
966 //cout<<" * XV "<<j<<": "<<endl;
967 for(unsigned int iStrip=0; iStrip<vecID[i][j].size(); iStrip++)
968 {
969 int ID=vecID[i][j][iStrip];
970 G4int &idx_digi=m_F_hit[lvi_ID_layer][i][j][ID];
971 BesCgemDigi *lv_new_digi;
972 //double lvd_E_strip=lvd_E_average;
973 //cout<<" ID, E="<<ID<<", "<<lvd_E_strip<<endl;
974 if(idx_digi == -1)
975 {
976 lv_new_digi = new BesCgemDigi();
977 lv_new_digi->SetTrackID ( lvi_ID_track );
978 lv_new_digi->SetLayerID ( lvi_ID_layer );
979 lv_new_digi->SetSheetID ( i);
980 lv_new_digi->SetStripType ( j );
981 lv_new_digi->SetStripID ( ID );
982
983 //if(j==0){ // X strip
984 // if(i==0){ // Sheet 0
985 // for(int k=0; k<vecID[0][0].size(); k++){
986 // if(vecID[0][0][k]==ID){
987 // lv_new_digi->SetGlobalTime ( vecT[0][0][k] );
988 // lv_new_digi->SetEnergyDeposit ( vecQ[0][0][k] );
989 // }
990 // }
991 // }
992 // else if(i==1){ // Sheet 1
993 // for(int k=0; k<vecID[1][0].size(); k++){
994 // if(vecID[1][0][k]==ID){
995 // lv_new_digi->SetGlobalTime ( vecT[1][0][k] );
996 // lv_new_digi->SetEnergyDeposit ( vecQ[1][0][k] );
997 // }
998 // }
999 // }
1000 //}
1001 //else if(j==1){ // V strip
1002 // if(i==0){ // Sheet 0
1003 // for(int k=0; k<vecID[0][1].size(); k++){
1004 // if(vecID[0][1][k]==ID){
1005 // lv_new_digi->SetGlobalTime ( vecT[0][1][k] );
1006 // lv_new_digi->SetEnergyDeposit ( vecQ[0][1][k] );
1007 // }
1008 // }
1009 // }
1010 // else if(i==1){ // Sheet 1
1011 // for(int k=0; k<vecID[1][1].size(); k++){
1012 // if(vecID[1][1][k]==ID){
1013 // lv_new_digi->SetGlobalTime ( vecT[1][1][k] );
1014 // lv_new_digi->SetEnergyDeposit ( vecQ[1][1][k] );
1015 // }
1016 // }
1017 // }
1018 //}
1019 lv_new_digi->SetGlobalTime ( vecT[i][j][iStrip] );
1020 double EnergyDeposit_temp=vecQ[i][j][iStrip];
1021 Q_saturation=m_cgemDigiSvc->getQsaturation(lvi_ID_layer,i,j,ID);
1022 if(EnergyDeposit_temp > Q_saturation) EnergyDeposit_temp = Q_saturation;
1023 lv_new_digi->SetEnergyDeposit ( EnergyDeposit_temp );
1024
1025 m_digi_collection->insert(lv_new_digi);
1026 idx_digi = m_digi_collection->entries() - 1;
1027
1028 // -- update the association between Cgem true hits and digis
1029 lv_hit->AddDigiIdxQ(idx_digi);
1030 lv_hit->SetDigiIdxT(idx_digi);
1031 m_cgemHitTimePnt[lvi_ID_layer][i][j][ID]=lv_hit;
1032
1033 //Add by sunxh
1034 unsigned int ident = CgemID::getIntID(lvi_ID_layer,i,j,ID);
1035 ident_tmp.push_back(ident);
1036 //End Add
1037
1038 } // create a new digi
1039 else
1040 {
1041 //if(j==0){ // X strip
1042 // if(i==0){ // Sheet 0
1043 // for(int k=0; k<vecID[0][0].size(); k++){
1044 // if(vecID[0][0][k]==ID){
1045 // double EnergyDeposit_temp = (*m_digi_collection)[idx_digi]->GetEnergyDeposit()+vecQ[0][0][k];
1046 // double GlobalTime_temp = (*m_digi_collection)[idx_digi]->GetGlobalTime();
1047 // if(GlobalTime_temp > Q_saturation) GlobalTime_temp = Q_saturation;
1048 // (*m_digi_collection)[idx_digi]->SetEnergyDeposit(EnergyDeposit_temp);
1049 // if(vecT[0][0][k]<GlobalTime_temp) (*m_digi_collection)[idx_digi]->SetGlobalTime(vecT[0][0][k]);
1050 // }
1051 // }
1052 // }
1053 // else if(i==1){ // Sheet 1
1054 // for(int k=0; k<vecID[1][0].size(); k++){
1055 // if(vecID[1][0][k]==ID){
1056 // double EnergyDeposit_temp = (*m_digi_collection)[idx_digi]->GetEnergyDeposit()+vecQ[1][0][k];
1057 // double GlobalTime_temp = (*m_digi_collection)[idx_digi]->GetGlobalTime();
1058 // if(GlobalTime_temp > Q_saturation) GlobalTime_temp = Q_saturation;
1059 // (*m_digi_collection)[idx_digi]->SetEnergyDeposit(EnergyDeposit_temp);
1060 // if(vecT[1][0][k]<GlobalTime_temp) (*m_digi_collection)[idx_digi]->SetGlobalTime(vecT[1][0][k]);
1061 // }
1062 // }
1063 // }
1064 //}
1065 //else if(j==1){ // V strip
1066 // if(i==0){ // Sheet 0
1067 // for(int k=0; k<vecID[0][1].size(); k++){
1068 // if(vecID[0][1][k]==ID){
1069 // double EnergyDeposit_temp = (*m_digi_collection)[idx_digi]->GetEnergyDeposit()+vecQ[0][1][k];
1070 // double GlobalTime_temp = (*m_digi_collection)[idx_digi]->GetGlobalTime();
1071 // if(GlobalTime_temp > Q_saturation) GlobalTime_temp = Q_saturation;
1072 // (*m_digi_collection)[idx_digi]->SetEnergyDeposit(EnergyDeposit_temp);
1073 // if(vecT[0][1][k]<GlobalTime_temp) (*m_digi_collection)[idx_digi]->SetGlobalTime(vecT[0][1][k]);
1074 // }
1075 // }
1076 // }
1077 // else if(i==1){ // Sheet 1
1078 // for(int k=0; k<vecID[1][1].size(); k++){
1079 // if(vecID[1][1][k]==ID){
1080 // double EnergyDeposit_temp = (*m_digi_collection)[idx_digi]->GetEnergyDeposit()+vecQ[1][1][k];
1081 // double GlobalTime_temp = (*m_digi_collection)[idx_digi]->GetGlobalTime();
1082 // if(GlobalTime_temp > Q_saturation) GlobalTime_temp = Q_saturation;
1083 // (*m_digi_collection)[idx_digi]->SetEnergyDeposit(EnergyDeposit_temp);
1084 // if(vecT[1][1][k]<GlobalTime_temp) (*m_digi_collection)[idx_digi]->SetGlobalTime(vecT[1][1][k]);
1085 // }
1086 // }
1087 // }
1088 //}
1089
1090 // update energy
1091 double EnergyDeposit_temp = (*m_digi_collection)[idx_digi]->GetEnergyDeposit()+vecQ[i][j][iStrip];
1092 Q_saturation=m_cgemDigiSvc->getQsaturation(lvi_ID_layer,i,j,ID);
1093 if(EnergyDeposit_temp > Q_saturation) EnergyDeposit_temp = Q_saturation;
1094 (*m_digi_collection)[idx_digi]->SetEnergyDeposit(EnergyDeposit_temp);
1095
1096 // update time
1097 double GlobalTime_temp = (*m_digi_collection)[idx_digi]->GetGlobalTime();
1098 if(vecT[i][j][iStrip]<GlobalTime_temp)
1099 {
1100 (*m_digi_collection)[idx_digi]->SetGlobalTime(vecT[i][j][iStrip]);
1101 lv_hit->SetDigiIdxT(idx_digi);
1102 BesCgemHit* lastTCgemHit = m_cgemHitTimePnt[lvi_ID_layer][i][j][ID];
1103 lastTCgemHit->SetDigiIdxT(-1);
1104 m_cgemHitTimePnt[lvi_ID_layer][i][j][ID]=lv_hit;
1105 }
1106 //-----check zhaojy---------------------
1107 //std::cout << "zhaojy check simulation --> layer:" << lvi_ID_layer << " sheet:" << i << " x/v:" << j << " ID:" << ID << " Q:" << (*m_digi_collection)[idx_digi]->GetEnergyDeposit() << " T:" << (*m_digi_collection)[idx_digi]->GetGlobalTime() << std::endl;
1108 //--------------------------------------
1109
1110 // -- update Cgem true Hit
1111 lv_hit->AddDigiIdxQ(idx_digi);
1112
1113 //Add by sunxh
1114 unsigned int ident = CgemID::getIntID(lvi_ID_layer,i,j,ID);
1115 ident_tmp.push_back(Identifier(ident));
1116 //End Add
1117 }// else update an existing digi
1118 }// loop strip
1119 }// loop XV
1120 }// loop sheet
1121
1122 /* Add by sunxh */
1123 int array_tmp[2000];
1124 int size_tmp=ident_tmp.size();
1125 if(size_tmp>2000) size_tmp=2000;
1126 for(unsigned int hh =0; hh < size_tmp; hh++){
1127 array_tmp[hh] = ident_tmp[hh];
1128 }
1129 lv_hit->AddIdentifier(array_tmp,size_tmp);
1130 // TArrayI tmp = lv_hit->GetIdentifier();
1131 /*End Add*/
1132
1133 }// loop hits ii
1134
1135 StoreDigiCollection(m_digi_collection); /* */
1136
1137 //-----check zhaojy---------------------
1138 if(printFlag) {
1139 for(int i=0; i<m_digi_collection->entries(); i++){
1140 std::cout << "check CGEM digitization in simulation --> layer:" << (*m_digi_collection)[i]->GetLayerID()
1141 << " sheet:" << (*m_digi_collection)[i]->GetSheetID()
1142 << " x/v:" << (*m_digi_collection)[i]->GetStripType()
1143 << " ID:" << (*m_digi_collection)[i]->GetStripID()
1144 << " Q:" << (*m_digi_collection)[i]->GetEnergyDeposit()
1145 << " T:" << (*m_digi_collection)[i]->GetGlobalTime() << std::endl;
1146 }
1147 }
1148 //--------------------------------------
1149
1150 }//if(lv_HC)
1151}
1152
1153
1154
1155
1156//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1157void BesCgemDigitizer::DoLorentzDiffusion(const G4int f_ID_layer, G4ThreeVector &f_XYZ_pre, G4ThreeVector &f_XYZ_post, const int f_F_print)
1158{
1159 IMessageSvc* msgSvc;
1160 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
1161 MsgStream log(msgSvc, "BesCgemDigitizer::DoLorentzDiffusion()");
1162 /* !!! Attention! JUST a SIMPLE-TEST-VERSION, it is not a real one!!! */
1163 CgemGeoLayer *f_cgem_layer = m_cgem_geomsvc->getCgemLayer(f_ID_layer);
1164 G4double lvd_R_layer = f_cgem_layer->getInnerROfAnode()*mm;
1165
1166 G4double lvd_A_phi_pre = f_XYZ_pre.phi();
1167 //G4double lvd_A_theta_pre = f_XYZ_pre.theta();
1168 G4double lvd_A_phi_post = f_XYZ_post.phi();
1169 //G4double lvd_A_theta_post = f_XYZ_post.theta();
1170
1171 G4double lvd_XYZ_x_pre = f_XYZ_pre. x() ;
1172 G4double lvd_XYZ_x_post = f_XYZ_post. x() ;
1173 G4double lvd_XYZ_z_pre = f_XYZ_pre. z() ;
1174 G4double lvd_XYZ_z_post = f_XYZ_post. z() ;
1175
1176 /* Print information */
1177 if (f_F_print == 1)
1178 {
1179 log<< MSG::INFO << "Position before Lorentz Diffuse: " << endreq;
1180 log<< MSG::INFO << "PreX=" << f_XYZ_pre.x()
1181 << " PreY=" << f_XYZ_pre.y()
1182 << " PreZ=" << f_XYZ_pre.z()
1183 << " PostX=" << f_XYZ_post.x()
1184 << " PostY=" << f_XYZ_post.y()
1185 << " PostZ=" << f_XYZ_post.z()
1186 << endreq;
1187 log<< MSG::INFO << "" << endreq;
1188 }
1189
1190 f_XYZ_pre.setX ( lvd_R_layer * cos ( lvd_A_phi_pre ));
1191 f_XYZ_pre.setY ( lvd_R_layer * sin ( lvd_A_phi_pre ));
1192 // f_XYZ_pre.setZ ( lvd_R_layer / tan ( lvd_A_theta_pre ));
1193
1194 f_XYZ_post.setX ( lvd_R_layer * cos ( lvd_A_phi_post ));
1195 f_XYZ_post.setY ( lvd_R_layer * sin ( lvd_A_phi_post ));
1196 // f_XYZ_post.setZ ( lvd_R_layer / tan ( lvd_A_theta_post ));
1197
1198 /* Print information */
1199 if (f_F_print == 1)
1200 {
1201 log<< MSG::INFO << "Position after Lorentz Diffuse: " << endreq;
1202 log<< MSG::INFO << "PreX=" << f_XYZ_pre.x()
1203 << " PreY=" << f_XYZ_pre.y()
1204 << " PreZ=" << f_XYZ_pre.z()
1205 << " PostX=" << f_XYZ_post.x()
1206 << " PostY=" << f_XYZ_post.y()
1207 << " PostZ=" << f_XYZ_post.z()
1208 << endreq;
1209 log<< MSG::INFO << "" << endreq;
1210
1211 log<< MSG::INFO << "Postition Delta before and after Lorentz Diffuse: " << endreq;
1212 log<< MSG::INFO << "DXold=" << abs(lvd_XYZ_x_pre - lvd_XYZ_x_post)
1213 << " DXnew=" << abs(f_XYZ_pre.x() - f_XYZ_post.x())
1214 << " DZold=" << abs(lvd_XYZ_z_pre - lvd_XYZ_z_post)
1215 << " DZnew=" << abs(f_XYZ_pre.z() - f_XYZ_post.z())
1216 << endreq;
1217 log<< MSG::INFO << "" << endreq;
1218 }
1219}
1220
1221//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1223{
1224}
1225
1226//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1230
1231//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1232/* Return ID from XYZ of readout layer */
1233void BesCgemDigitizer::GetIDFromXYZ(const G4int f_ID_layer, const G4ThreeVector f_XYZ,
1234 G4double &f_x, G4double &f_v, G4int &f_ID_sheet, G4int &f_ID_x, G4int &f_ID_v)
1235{
1236 IMessageSvc* msgSvc;
1237 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
1238 MsgStream log(msgSvc, "BesCgemDigitizer::GetIDFromXYZ()");
1239 /* CgemLayer information about readout strip */
1240 CgemGeoLayer *lv_cgem_layer = m_cgem_geomsvc->getCgemLayer(f_ID_layer);
1241 G4double lvd_R_layer = lv_cgem_layer->getInnerROfAnode()*mm;
1242 G4double lvd_L_layer = lv_cgem_layer->getLengthOfCgemLayer()*mm;
1243 G4double lvd_A_stero = lv_cgem_layer->getAngleOfStereo()*deg;
1244 G4double lvd_W_sheet = lv_cgem_layer->getWidthOfSheet()*mm;
1245 G4double lvd_W_pitch_x = lv_cgem_layer->getWidthOfPitchX()*mm;
1246 G4double lvd_W_pitch_v = lv_cgem_layer->getWidthOfPitchV()*mm;
1247 G4int lvi_N_sheet = lv_cgem_layer->getNumberOfSheet();
1248
1249 lvd_W_sheet = lvd_R_layer * twopi / lvi_N_sheet;
1250
1251 /* lvd_A_phi should be in (0,twopi) */
1252 G4double lvd_A_phi = f_XYZ.phi();
1253 if (lvd_A_phi < 0)
1254 {
1255 lvd_A_phi += twopi;
1256 }
1257 if (lvd_A_phi >= twopi)
1258 {
1259 lvd_A_phi -= twopi;
1260 }
1261
1262 /* Transfer Cylinder to Rectangle */
1263 G4double lvd_x = f_XYZ.rho() * lvd_A_phi;
1264 G4double lvd_v = f_XYZ.z() + lvd_L_layer/2.;
1265
1266
1267 /* ID of Sheet */
1268 if (lvd_x < 0 or lvd_x > lvi_N_sheet*lvd_W_sheet)
1269 {
1270 log<< MSG::ERROR << "ERROR : CgemSim::BesCgemDigitizer::GetIDFromXYZ(), X overlaps range!" << endreq;
1271 log<< MSG::ERROR << "The overlaps X=" << lvd_x
1272 << " Its range should be < " << lvi_N_sheet*lvd_W_sheet
1273 << " at layerID=" << f_ID_layer
1274 << endreq;
1275 return ;
1276 }
1277 else
1278 {
1279 for (G4int i=0; i<lvi_N_sheet; i++)
1280 {
1281 if (lvd_x >= i*lvd_W_sheet and lvd_x < (i+1)*lvd_W_sheet)
1282 {
1283 f_ID_sheet = i;
1284 }
1285 }
1286 }
1287
1288 /* ID of Strip X and V */
1289 f_x = lvd_x - f_ID_sheet * lvd_W_sheet;
1290 f_v = lvd_v;
1291 f_ID_x = floor( f_x / lvd_W_pitch_x );
1292 f_ID_v = floor((f_x*cos(lvd_A_stero) + f_v*sin(lvd_A_stero)) / lvd_W_pitch_v);
1293}
1294
1295//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1296/* Return XYZ of readout layer from assigned ID */
1297void BesCgemDigitizer::GetIDFromSegmentInSameSheet(const G4int f_ID_x_pre , const G4int f_ID_v_pre ,
1298 const G4int f_ID_x_post, const G4int f_ID_v_post,
1299 G4int &f_N_hit_strip_x , G4int &f_N_hit_strip_v ,
1300 G4int &f_ID_x_start , G4int &f_ID_v_start )
1301{
1302 /* Number of hit strips */
1303 f_N_hit_strip_x = abs(f_ID_x_post - f_ID_x_pre) + 1;
1304 f_N_hit_strip_v = abs(f_ID_v_post - f_ID_v_pre) + 1;
1305
1306 /* Starting strip of hit strip */
1307 f_ID_x_start = (f_ID_x_pre <= f_ID_x_post) ? f_ID_x_pre : f_ID_x_post;
1308 f_ID_v_start = (f_ID_v_pre <= f_ID_v_post) ? f_ID_v_pre : f_ID_v_post;
1309}
1310
1311//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1312/* Return X and V strip ID of the middle point by the segment which crossed the sheet */
1314 const G4int f_ID_sheet_pre , const G4double f_x_pre , const G4double f_v_pre ,
1315 const G4int f_ID_sheet_post, const G4double f_x_post, const G4double f_v_post,
1316 G4int &f_ID_sheet_mid_pre , G4int &f_ID_x_mid_pre , G4int &f_ID_v_mid_pre,
1317 G4int &f_ID_sheet_mid_post , G4int &f_ID_x_mid_post , G4int &f_ID_v_mid_post)
1318{
1319 CgemGeoLayer *lv_cgem_layer = m_cgem_geomsvc->getCgemLayer(f_ID_layer);
1320 G4double lvd_R_layer = lv_cgem_layer->getInnerROfAnode()*mm;
1321 G4double lvd_W_sheet = lv_cgem_layer->getWidthOfSheet()*mm;
1322 G4int lvi_N_sheet = lv_cgem_layer->getNumberOfSheet();
1323 G4double lvd_W_pitch_x = lv_cgem_layer->getWidthOfPitchX()*mm;
1324 G4double lvd_W_pitch_v = lv_cgem_layer->getWidthOfPitchV()*mm;
1325 G4double lvd_A_stero = lv_cgem_layer->getAngleOfStereo()*deg;
1326 G4double lvd_v_mid = 0;
1327
1328 lvd_W_sheet = lvd_R_layer * twopi / lvi_N_sheet;
1329
1330 G4int lvi_N_strip_x = ceil(lvd_W_sheet / lvd_W_pitch_x);
1331
1332 /* Sheet ID of mid point */
1333 f_ID_sheet_mid_pre = f_ID_sheet_pre;
1334 f_ID_sheet_mid_post = f_ID_sheet_post;
1335
1336 /* Strip ID of mid point */
1337 if (f_x_pre > f_x_post)
1338 {
1339 /* X Strip ID of mid point */
1340 f_ID_x_mid_pre = lvi_N_strip_x - 1;
1341 f_ID_x_mid_post = 0;
1342
1343 /* V Strip ID of mid point */
1344 lvd_v_mid = f_x_post*(f_v_pre-f_v_post)/(lvd_W_sheet-f_x_pre+f_x_post) + f_v_post;
1345
1346 f_ID_v_mid_pre = floor((lvd_W_sheet*cos(lvd_A_stero)+lvd_v_mid*sin(lvd_A_stero)) / lvd_W_pitch_v);
1347 f_ID_v_mid_post = floor(lvd_v_mid*sin(lvd_A_stero) / lvd_W_pitch_v);
1348 }
1349 else
1350 {
1351 /* X Strip ID of mid point */
1352 f_ID_x_mid_pre = 0;
1353 f_ID_x_mid_post = lvi_N_strip_x - 1;
1354
1355 /* V Strip ID of mid point */
1356 lvd_v_mid = (lvd_W_sheet-f_x_post)*(f_v_pre-f_v_post)/(lvd_W_sheet-f_x_post+f_x_pre) + f_v_post;
1357
1358 f_ID_v_mid_pre = floor(lvd_v_mid*sin(lvd_A_stero) / lvd_W_pitch_v);
1359 f_ID_v_mid_post = floor((lvd_W_sheet*cos(lvd_A_stero)+lvd_v_mid*sin(lvd_A_stero)) / lvd_W_pitch_v);
1360 }
1361}
1362
1363//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
1364/* Return XYZ of readout layer from assigned ID */
1368
1369//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
double sin(const BesAngle a)
Definition BesAngle.h:210
double cos(const BesAngle a)
Definition BesAngle.h:213
G4TDigiCollection< BesCgemDigi > BesCgemDigisCollection
G4THitsCollection< BesCgemHit > BesCgemHitsCollection
Double_t x[10]
double abs(const EvtComplex &c)
INTupleSvc * ntupleSvc()
IMessageSvc * msgSvc()
void SetLayerID(G4int f_ID_layer)
void SetGlobalTime(G4double f_global_time)
void SetEnergyDeposit(G4double f_E_deposit)
void SetStripID(G4int f_ID_strip)
void SetSheetID(G4int f_ID_sheet)
void SetTrackID(G4int f_ID_track)
void GetIDFromXYZ(const G4int f_ID_layer, const G4ThreeVector f_XYZ, G4double &f_x, G4double &f_v, G4int &f_ID_sheet, G4int &f_ID_x, G4int &f_ID_v)
void DoLorentzDiffusion(const G4int f_ID_layer, G4ThreeVector &f_XYZ_pre, G4ThreeVector &f_XYZ_post, const int f_F_print=0)
void GetIDFromSegmentInSameSheet(const G4int f_ID_x_pre, const G4int f_ID_v_pre, const G4int f_ID_x_post, const G4int f_ID_v_post, G4int &f_N_hit_strip_x, G4int &f_N_hit_strip_v, G4int &f_ID_x_start, G4int &f_ID_v_start)
void GetMiddleIDFromSegmentCrossedSheet(const G4int f_ID_layer, const G4int f_ID_sheet_pre, const G4double f_x_pre, const G4double f_v_pre, const G4int f_ID_sheet_post, const G4double f_x_post, const G4double f_v_post, G4int &f_ID_sheet_mid_pre, G4int &f_ID_x_mid_pre, G4int &f_ID_v_mid_pre, G4int &f_ID_sheet_mid_post, G4int &f_ID_x_mid_post, G4int &f_ID_v_mid_post)
G4ThreeVector GetPositionOfPrePoint() const
void AddIdentifier(G4int f_ID_Identifier[2000], G4int N_dim)
G4ThreeVector GetPositionOfPostPoint() const
G4ThreeVector GetMomentumOfPrePoint() const
double getXstripT(int n) const
double getVstripQ(int n) const
int getVstripSheet(int n) const
int getVstripID(int n) const
double getQsaturation(int layer, int sheet, int view, int id)
int getXstripSheet(int n) const
int getNXstrips() const
StatusCode setTrack(int layer, int particle, int charge, double p, double trkPosIn[], double trkPosOut[])
double getVstripT(int n) const
double getXstripQ(int n) const
int getNVstrips() const
int getXstripID(int n) const
double getWidthOfPitchV() const
double getLengthOfCgemLayer() const
double getInnerROfAnode() const
int getNumberOfSheet() const
double getWidthOfSheet() const
double getAngleOfStereo() const
double getWidthOfPitchX() const
void getFiredStripID(G4ThreeVector pos1, G4ThreeVector pos2, vector< int > &vecXID, vector< int > &vecVID) const
CgemGeoLayer * getCgemLayer(int i) const
Definition CgemGeomSvc.h:48
CgemGeoReadoutPlane * getReadoutPlane(int iLayer, int iSheet) const
static value_type getIntID(unsigned int f_layer, unsigned int f_sheet, unsigned int f_strip_type, unsigned int f_strip)
Definition CgemID.cxx:104