CGEM BOSS 6.6.5.f
BESIII Offline Software System
Loading...
Searching...
No Matches
DQA_MUC.cxx
Go to the documentation of this file.
1#include <vector>
2
3#include "GaudiKernel/MsgStream.h"
4#include "GaudiKernel/SmartDataPtr.h"
5#include "GaudiKernel/PropertyMgr.h"
6#include "GaudiKernel/Bootstrap.h"
7#include "GaudiKernel/Algorithm.h"
8
9#include "GaudiKernel/INTupleSvc.h"
10#include "GaudiKernel/NTuple.h"
11#include "GaudiKernel/ITHistSvc.h"
12
13#include "CLHEP/Vector/ThreeVector.h"
14#include "CLHEP/Vector/LorentzVector.h"
15
16#include "EventModel/EventModel.h"
17#include "EventModel/Event.h"
18
19#include "EvtRecEvent/EvtRecEvent.h"
20#include "EvtRecEvent/EvtRecTrack.h"
21#include "DstEvent/TofHitStatus.h"
22#include "EventModel/EventHeader.h"
23
24#include "ReconEvent/ReconEvent.h"
25#include "MucRawEvent/MucDigi.h"
26#include "MucRecEvent/MucRecHit.h"
27#include "MucRecEvent/RecMucTrack.h"
28#include "MucRecEvent/MucRecHitContainer.h"
29
30#include "DQAEvent/DQAEvent.h"
31#include "DQA_MUC/DQA_MUC.h"
32
33using CLHEP::Hep3Vector;
34/////////////////////////////////////////////////////////////////////////////
35
36DQA_MUC::DQA_MUC(const std::string& name, ISvcLocator* pSvcLocator) :
37 Algorithm(name, pSvcLocator) {
38
39 //Declare the properties
40 declareProperty("EffWindow", m_effWindow = 4);
41}
42
43// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
45 MsgStream log(msgSvc(), name());
46
47 log << MSG::INFO << "in initialize()" << endmsg;
48 StatusCode status;
49
50 // Call Histogram service
51 if(service("THistSvc", m_thsvc).isFailure()) {
52 log << MSG::ERROR << "Couldn't get THistSvc" << endreq;
53 return StatusCode::FAILURE;
54 }
55
56 char name[60];
57 char title[60];
58
59 // Resolution histograms
60 for( int i=0; i<B_LAY_NUM; i++ )
61 {
62 sprintf( name, "BrResDist_All_L%d", i );
63 sprintf( title, "Barrel spacial resolution in L%d",i );
64 m_hBrResDist[i][0] = new TH1F(name,title, 200, -100, 100 );
65 sprintf( name, "/DQAHist/MUC/BrResDist_All_L%d", i );
66 if(m_thsvc->regHist(name, m_hBrResDist[i][0]).isFailure())
67 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
68
69 sprintf( name, "BrResDist_Dimu_L%d", i );
70 m_hBrResDist[i][1] = new TH1F(name,title, 200, -100, 100 );
71 sprintf( name, "/DQAHist/MUC/BrResDist_Dimu_L%d", i );
72 if(m_thsvc->regHist(name, m_hBrResDist[i][1]).isFailure())
73 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
74 }
75
76 for( int i=0; i<E_LAY_NUM; i++ )
77 {
78 sprintf( name, "EcResDist_All_L%d", i );
79 sprintf( title, "Endcap spacial resolution in L%d",i );
80 m_hEcResDist[i][0] = new TH1F(name,title, 200, -100, 100 );
81 sprintf( name, "/DQAHist/MUC/EcResDist_All_L%d", i );
82 if(m_thsvc->regHist(name, m_hEcResDist[i][0]).isFailure())
83 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
84
85 sprintf( name, "EcResDist_Dimu_L%d", i );
86 m_hEcResDist[i][1] = new TH1F(name,title, 200, -100, 100 );
87 sprintf( name, "/DQAHist/MUC/EcResDist_Dimu_L%d", i );
88 if(m_thsvc->regHist(name, m_hEcResDist[i][1]).isFailure())
89 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
90 }
91
92 //m_hBrRes[0] = new TH1F("BrRes_All", "BrResAll", B_LAY_NUM+1, -0.5, B_LAY_NUM+0.5 );
93 //m_hBrRes[0]->GetXaxis()->SetTitle("Layer id");
94 //m_hBrRes[0]->GetXaxis()->CenterTitle();
95 //m_hBrRes[0]->SetStats(0);
96 //m_hBrRes[1] = new TH1F("BrRes_Dimu", "BrResDimu", B_LAY_NUM+1, -0.5, B_LAY_NUM+0.5 );
97 //m_hBrRes[1]->GetXaxis()->SetTitle("Layer id");
98 //m_hBrRes[1]->GetXaxis()->CenterTitle();
99 //m_hBrRes[1]->SetStats(0);
100 //
101 //m_hEcRes[0] = new TH1F("EcRes_All", "EcResAll", E_LAY_NUM+1, -0.5, E_LAY_NUM+0.5 );
102 //m_hEcRes[0]->GetXaxis()->SetTitle("Layer id");
103 //m_hEcRes[0]->GetXaxis()->CenterTitle();
104 //m_hEcRes[0]->SetStats(0);
105 //m_hEcRes[1] = new TH1F("EcRes_Dimu", "EcResDimu", E_LAY_NUM+1, -0.5, E_LAY_NUM+0.5 );
106 //m_hEcRes[1]->GetXaxis()->SetTitle("Layer id");
107 //m_hEcRes[1]->GetXaxis()->CenterTitle();
108 //m_hEcRes[1]->SetStats(0);
109
110 //if(m_thsvc->regHist("/DQAHist/MUC/BrRes_All", m_hBrRes[0]).isFailure())
111 //{ log << MSG::ERROR << "Couldn't register BrRes_All" << endreq; }
112 //if(m_thsvc->regHist("/DQAHist/MUC/BrRes_Dimu", m_hBrRes[1]).isFailure())
113 //{ log << MSG::ERROR << "Couldn't register BrRes_Dimu" << endreq; }
114 //if(m_thsvc->regHist("/DQAHist/MUC/EcRes_All", m_hEcRes[0]).isFailure())
115 //{ log << MSG::ERROR << "Couldn't register EcRes_All" << endreq; }
116 //if(m_thsvc->regHist("/DQAHist/MUC/EcRes_Dimu", m_hEcRes[1]).isFailure())
117 //{ log << MSG::ERROR << "Couldn't register BrRes_Dimu" << endreq; }
118
119 // Efficiency histograms, j=0: numberator, j=1; denominator
120 for(int i=0; i<TAGN; i++)
121 {
122 for(int j=0; j<2; j++)
123 {
124 for(int k=0; k<LVLN; k++)
125 {
126 sprintf( name, "%sEff_%s_%s", LNAME[k], ENAME[i], HTYPE[j] );
127 sprintf( title, "%s efficiency",LNAME[k] );
128
129 if(k==0) {
130 m_hEff[k][i][j] = new TH1F(name,title, LAYER_MAX+1, -0.5, LAYER_MAX+0.5);
131 m_hEff[k][i][j]->GetXaxis()->SetTitle("Layer id");
132 }else if(k==1) {
133 m_hEff[k][i][j] = new TH1F(name,title, BOX_MAX+1, -0.5, BOX_MAX+0.5);
134 m_hEff[k][i][j]->GetXaxis()->SetTitle("Box id [EE:0~31, BR:32~103, WE:104~135]");
135 }else {
136 m_hEff[k][i][j] = new TH1F(name,title, STRIP_MAX+1, -0.5, STRIP_MAX+0.5);
137 m_hEff[k][i][j]->GetXaxis()->SetTitle("Strip id");
138 }
139
140 m_hEff[k][i][j]->GetXaxis()->CenterTitle();
141 //m_hEff[k][i][j]->SetStats(0);
142
143 sprintf( name, "/DQAHist/MUC/%sEff_%s_%s", LNAME[k], ENAME[i], HTYPE[j] );
144 if(m_thsvc->regHist(name, m_hEff[k][i][j]).isFailure())
145 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
146 }
147
148 sprintf( name, "%sNosRatio_%s_%s", LNAME[1], ENAME[i], HTYPE[j] );
149 sprintf( title, "%s noise ratio",LNAME[1] );
150 m_hNosRatio[i][j] = new TH1F(name, title, BOX_MAX+1, -0.5, BOX_MAX+0.5);
151 m_hNosRatio[i][j]->GetXaxis()->SetTitle("Box id [EE:0~31, BR:32~103, WE:104~135]");
152 m_hNosRatio[i][j]->GetXaxis()->CenterTitle();
153 //m_hNosRatio[i][j]->GetYaxis()->SetRangeUser(0., 0.3);
154 //m_hNosRatio[i][j]->SetStats(0);
155
156 sprintf( name, "/DQAHist/MUC/%sNosRatio_%s_%s", LNAME[1], ENAME[i], HTYPE[j] );
157 if(m_thsvc->regHist(name, m_hNosRatio[i][j]).isFailure())
158 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
159 }
160
161 // Costheta and phi
162 sprintf( name, "Costheta_%s", ENAME[i]);
163 sprintf( title, "Costheta");
164 m_hCostheta[i] = new TH1F(name, title, 360, -1.0, 1.0);
165 m_hCostheta[i]->GetXaxis()->SetTitle("cos#theta");
166 m_hCostheta[i]->GetXaxis()->CenterTitle();
167
168 sprintf( name, "Phi_%s", ENAME[i]);
169 sprintf( title, "Phi");
170 m_hPhi[i] = new TH1F(name, title, 360, -PI, PI);
171 m_hPhi[i]->GetXaxis()->SetTitle("#phi");
172 m_hPhi[i]->GetXaxis()->CenterTitle();
173
174 sprintf( name, "/DQAHist/MUC/Costheta_%s", ENAME[i] );
175 if(m_thsvc->regHist(name, m_hCostheta[i]).isFailure())
176 { log << MSG::ERROR << "Couldn't register " << name << endreq; }
177 sprintf( name, "/DQAHist/MUC/Phi_%s", ENAME[i] );
178 if(m_thsvc->regHist(name, m_hPhi[i]).isFailure())
179 { log << MSG::ERROR << "Couldn't register Phi_All" << endreq; }
180 }
181
182 //m_hStripEff[0] = new TH1F("StripEff_All", "Strip efficiency", 101, -0.005, 1.005 );
183 //m_hStripEff[0]->GetXaxis()->SetTitle("Efficiency");
184 //m_hStripEff[0]->GetXaxis()->CenterTitle();
185 //m_hStripEff[1] = new TH1F("StripEff_Dimu", "Strip efficiency", 101, -0.005, 1.005 );
186 //m_hStripEff[1]->GetXaxis()->SetTitle("Efficiency");
187 //m_hStripEff[1]->GetXaxis()->CenterTitle();
188
189 // Parameters
190 for( int i=0; i<PART_MAX; i++ )
191 for( int j=0; j<SEGMENT_MAX; j++ )
192 for( int k=0; k<LAYER_MAX; k++ )
193 for( int n=0; n<STRIP_INBOX_MAX; n++ )
194 {
195 m_recordAll[i][j][k][n][0] = 0;
196 m_recordAll[i][j][k][n][1] = 0;
197 m_recordAll[i][j][k][n][2] = 0;
198 m_recordAll[i][j][k][n][3] = 0;
199 m_recordAll[i][j][k][n][4] = 0;
200
201 m_recordDimu[i][j][k][n][0] = 0;
202 m_recordDimu[i][j][k][n][1] = 0;
203 m_recordDimu[i][j][k][n][2] = 0;
204 m_recordDimu[i][j][k][n][3] = 0;
205 m_recordDimu[i][j][k][n][4] = 0;
206 }
207
208 m_ptrMucMark = new MucMark(0,0,0,0);
209 m_ptrIdTr = new MucIdTransform();
210
211 m_digiCol.resize(0);
212 m_expHitCol.resize(0);
213 m_effHitCol.resize(0);
214 m_nosHitCol.resize(0);
215 m_clusterCol.resize(0);
216
217 for( int i=0; i<PART_MAX; i++ )
218 for( int j=0; j<SEGMENT_MAX; j++ ) {
219 m_segDigiCol[i][j].resize(0);
220 }
221
222 log << MSG::INFO << "Initialize done!" <<endmsg;
223 return StatusCode::SUCCESS;
224}
225
226// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
227StatusCode DQA_MUC::execute() {
228
229 MsgStream log(msgSvc(), name());
230 log << MSG::INFO << "in execute()" << endreq;
231
232 SmartDataPtr<Event::EventHeader> eventHeader(eventSvc(),"/Event/EventHeader");
233 m_run = eventHeader->runNumber();
234 m_event = eventHeader->eventNumber();
235 log << MSG::DEBUG <<"Run " << m_run << "\tEvent " << m_event <<endreq;
236
237 SmartDataPtr<DQAEvent::DQAEvent> dqaevt(eventSvc(), "/Event/DQATag");
238 if ( dqaevt ) {
239 log << MSG::INFO << "success get DQAEvent" << endreq;
240 } else {
241 log << MSG::ERROR << "Error accessing DQAEvent" << endreq;
242 return StatusCode::FAILURE;
243 }
244 log << MSG::DEBUG << "DQA event tag = " << dqaevt->EventTag() << endreq;
245
246 int part, segment, layer, strip;
247 char name[100];
248 bool isDimu = false;
249 if ( dqaevt->Dimu() ) isDimu = true;
250 log << MSG::INFO << "DQADimuTag:\t" << dqaevt->Dimu() << endreq;
251
252 //---> Retrieve MUC digi
253 log << MSG::INFO << "Retrieve digis" << endreq;
254 SmartDataPtr<MucDigiCol> mucDigiCol(eventSvc(),"/Event/Digi/MucDigiCol");
255 if(!mucDigiCol) {
256 log << MSG::FATAL << "Could not find MUC digi" << endreq;
257 return( StatusCode::FAILURE);
258 }
259
260 Identifier mucId;
261 MucDigiCol::iterator digiIter = mucDigiCol->begin();
262 int eventDigi = 0;
263 for ( int digiId =0; digiIter != mucDigiCol->end(); digiIter++, digiId++ )
264 {
265 mucId = (*digiIter)->identify();
266 part = MucID::barrel_ec(mucId); segment = MucID::segment(mucId);
267 layer = MucID::layer(mucId); strip = MucID::channel(mucId);
268 eventDigi ++;
269
270 // Add digi
271 MucMark *aMark = new MucMark( part, segment, layer, strip );
272 m_digiCol.push_back( aMark );
273 m_segDigiCol[part][segment].push_back( aMark );
274 m_recordAll[part][segment][layer][strip][0] ++;
275 if( isDimu ) m_recordDimu[part][segment][layer][strip][0] ++;
276 }
277 log << MSG::INFO << "Total digis in this event: " << eventDigi << endreq;
278 if( eventDigi > 500) cout <<"Run:\t"<< m_run <<"\tEvent:\t"<< m_event << "\tdigits inflation:\t" << eventDigi << endreq;
279
280 // Search cluster in digis
281 m_clusterCol = (*m_ptrMucMark).CreateClusterCol(1, m_digiCol );
282 log << MSG::INFO << "Total clusters in this event: " << m_clusterCol.size() << endreq;
283 //<--- End retrieve digis
284
285 //---> Retrieve rec tracks
286 SmartDataPtr<EvtRecEvent> evtRecEvent(eventSvc(), EventModel::EvtRec::EvtRecEvent);
287 SmartDataPtr<RecMucTrackCol> mucTrackCol(eventSvc(),"/Event/Recon/RecMucTrackCol");
288 if (!mucTrackCol) {
289 log << MSG::FATAL << "Could not find RecMucTrackCol" << endreq;
290 return( StatusCode::FAILURE);
291 }
292
293 RecMucTrackCol *aRecMucTrackCol = mucTrackCol;
294 if (aRecMucTrackCol->size() < 1) {
295 log << MSG::INFO << "No MUC tracks in this event" << endreq;
296 return StatusCode::SUCCESS;
297 }
298 log << MSG::INFO << "Total tracks of this event: " << aRecMucTrackCol->size() << endreq;
299
300 int trackHitNum, expectedHitNum, segNum, lastLayerBR, lastLayerEC;
301 int layerPassNum[3], passMax[TRACK_SEG_MAX][2];
302 bool firedLay[TRACK_SEG_MAX][LAYER_MAX];
303 double costheta, phi;
304 TH1* htmp(0);
305 trackHitNum = expectedHitNum = segNum = lastLayerBR = lastLayerEC = 0;
306 layerPassNum[0] = layerPassNum[1] = layerPassNum[2] = 0;
307 for( int segi=0; segi<TRACK_SEG_MAX; segi++ ) {
308 passMax[segi][0] = passMax[segi][1] = 0;
309 for( int layi=0; layi<LAYER_MAX; layi++ ) firedLay[segi][layi] = 0;
310 }
311
312 vector<MucRecHit*> mucRawHitCol;
313 vector<MucRecHit*> mucExpHitCol;
314 RecMucTrackCol::iterator trackIter = mucTrackCol->begin();
315 for (int trackId = 0; trackIter != mucTrackCol->end(); trackIter++, trackId++)
316 {
317 trackHitNum = (*trackIter)->numHits();
318
319 if( trackHitNum == 0 ) {
320 log << MSG::INFO << "Track " << trackId << " no hits" << endreq;
321 continue;
322 }
323
324 lastLayerBR = (*trackIter)->brLastLayer();
325 lastLayerEC = (*trackIter)->ecLastLayer();
326 // First fit position in MUC
327 CLHEP::Hep3Vector a3Vector((*trackIter)->xPos(),(*trackIter)->yPos(),(*trackIter)->zPos());
328 costheta = a3Vector.cosTheta();
329 phi = a3Vector.phi();
330 if(m_thsvc->getHist("/DQAHist/MUC/Costheta_All", htmp).isSuccess()) {
331 htmp->Fill( costheta );
332 } else {
333 log << MSG::ERROR << "Fail to retrieve Costheta_All" << endreq;
334 }
335 if(m_thsvc->getHist("/DQAHist/MUC/Phi_All", htmp).isSuccess()) {
336 htmp->Fill( phi );
337 } else {
338 log << MSG::ERROR << "Fail to retrieve Phi_All" << endreq;
339 }
340
341 if( isDimu )
342 {
343 if(m_thsvc->getHist("/DQAHist/MUC/Costheta_Dimu", htmp).isSuccess()) {
344 htmp->Fill( costheta );
345 } else {
346 log << MSG::ERROR << "Fail to retrieve Costheta_Dimu" << endreq;
347 }
348 if(m_thsvc->getHist("/DQAHist/MUC/Phi_Dimu", htmp).isSuccess()) {
349 htmp->Fill( phi );
350 } else {
351 log << MSG::ERROR << "Fail to retrieve Phi_Dimu" << endreq;
352 }
353 }
354 log << MSG::INFO << "Fill costheta and phi:\t" << costheta << "\t" << phi << endreq;
355
356 MucRecHit* pMucRawHit;
357 MucRecHit* pMucExpHit;
358
359
360 // Expected hits in this rec track
361 mucExpHitCol = (*trackIter)->GetExpectedHits();
362 //mucExpHitCol = (*trackIter)->getExpHits();
363 expectedHitNum += mucExpHitCol.size();
364 for(unsigned int hitId = 0; hitId < mucExpHitCol.size(); hitId++)
365 {
366 pMucRawHit = mucExpHitCol[ hitId ];
367 part = pMucRawHit->Part(); segment = pMucRawHit->Seg();
368 layer = pMucRawHit->Gap(); strip = pMucRawHit->Strip();
369
370 MucMark* currentMark = new MucMark( part, segment, layer, strip );
371 m_expHitCol.push_back( currentMark );
372
373 // Judge efficiency hit
374 int isInPos = -1;
375 bool isInEffWindow = false;
376 isInPos = currentMark->IsInCol( m_segDigiCol[part][segment] );
377
378 // Avoid bias in outer layers caused by low momentum tracks
379 if( part == BRID && (layer-lastLayerBR>1) ) continue;
380 if( part != BRID && (layer-lastLayerEC>1) ) continue;
381
382 // Avoid bias in both sides of the innermost layer of Barrel
383 if( part==BRID && layer==0 && (strip<2 || strip>45) )
384 {
385 if( isInPos != -1) // expHit is fired
386 {
387 m_recordAll[part][segment][layer][strip][2] ++; // Efficiency hit number
388 m_recordAll[part][segment][layer][strip][1] ++; // Rec track number
389 m_effHitCol.push_back( m_segDigiCol[part][segment][isInPos] );
390
391 if(isDimu) {
392 m_recordDimu[part][segment][layer][strip][2] ++; // Efficiency hit number
393 m_recordDimu[part][segment][layer][strip][1] ++; // Rec track number
394 }
395 }
396 else {
397 m_recordAll[part][segment][layer][strip][1] ++;
398 if(isDimu) m_recordDimu[part][segment][layer][strip][1] ++;
399 }
400 continue; // Judge next hit
401 }
402 // Eff calibration
403 if( isInPos != -1 ) // expHit is fired
404 {
405 m_recordAll[part][segment][layer][strip][2] ++; // Efficiency hit number
406 m_recordAll[part][segment][layer][strip][1] ++; // Rec track number
407 m_effHitCol.push_back( m_segDigiCol[part][segment][isInPos] );
408
409 if(isDimu) {
410 m_recordDimu[part][segment][layer][strip][2] ++; // Efficiency hit number
411 m_recordDimu[part][segment][layer][strip][1] ++; // Rec track number
412 }
413
414 continue; // Judge next hit
415 }
416 else for(int tempStrip=0, hiti=-m_effWindow; hiti<=m_effWindow; hiti++ )
417 {
418 if( hiti == 0 ) continue;
419 tempStrip = strip + hiti;
420 if( tempStrip < 0 || tempStrip > m_ptrIdTr->GetStripMax(part,segment,layer) ) continue;
421
422 isInPos = m_ptrMucMark->IsInCol( part, segment, layer, tempStrip, m_segDigiCol[part][segment] );
423 if( isInPos != -1 )
424 {
425 m_recordAll[part][segment][layer][tempStrip][2] ++; // Efficiency hit number
426 m_recordAll[part][segment][layer][tempStrip][1] ++; // Rec track number
427 m_effHitCol.push_back( m_segDigiCol[part][segment][isInPos] );
428
429 if(isDimu) {
430 m_recordDimu[part][segment][layer][tempStrip][2] ++; // Efficiency hit number
431 m_recordDimu[part][segment][layer][tempStrip][1] ++; // Rec track number
432 }
433
434 isInEffWindow = true;
435 }
436 } // End else
437
438 if( isInEffWindow ) { continue; } // Judge next hit
439 else { // A hit should be fired but not fired and not in the EffWindow
440 m_recordAll[part][segment][layer][strip][1] ++; // Rec track number
441 if(isDimu) m_recordDimu[part][segment][layer][strip][1] ++;
442 }
443
444 } // End expected hits
445
446 // Fill residual, and for the other way of eff calculation
447 log << MSG::INFO << "Fill residual" << endreq;
448 vector<float> m_lineResCol = (*trackIter)->getDistHits();
449 // Digis belong to this rec track
450 mucRawHitCol = (*trackIter)->GetHits(); // Get hit collection of a track
451 //mucRawHitCol = (*trackIter)->getVecHits(); // Get hit collection of a track
452
453 if( trackHitNum > 4 && m_lineResCol[0] != -99) // track is good for res
454 {
455 // Fill res histograms
456 bool firedFlag[PART_MAX][LAYER_MAX][2];
457 for(int iprt=0; iprt<PART_MAX; iprt++)
458 for(int jlay=0; jlay<LAYER_MAX; jlay++)
459 firedFlag[iprt][jlay][0] = firedFlag[iprt][jlay][1] = false;
460
461 for(unsigned int hitId = 0; hitId < mucExpHitCol.size(); hitId++)
462 {
463 pMucExpHit = mucExpHitCol[ hitId ];
464 part = pMucExpHit->Part(); segment = pMucExpHit->Seg(); layer = pMucExpHit->Gap();
465 firedFlag[part][layer][0] = true;
466 }
467
468 for(unsigned int hitId = 0; hitId < mucRawHitCol.size(); hitId++)
469 {
470 pMucRawHit = mucRawHitCol[ hitId ];
471 part = pMucRawHit->Part(); segment = pMucRawHit->Seg(); layer = pMucRawHit->Gap();
472
473 // if exp is true and fired is true, and not filled yet
474 if( firedFlag[part][layer][0] == true && firedFlag[part][layer][1] == false )
475 {
476 if( part == BRID )
477 {
478 sprintf( name, "/DQAHist/MUC/BrResDist_All_L%d", layer );
479 if(m_thsvc->getHist(name, htmp).isSuccess()) {
480 htmp->Fill( m_lineResCol[hitId] );
481 } else {
482 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
483 }
484 //m_hBrResDist[layer][0]->Fill( m_lineResCol[hitId] );
485
486 if( isDimu )
487 {
488 sprintf( name, "/DQAHist/MUC/BrResDist_Dimu_L%d", layer );
489 if(m_thsvc->getHist(name, htmp).isSuccess()) {
490 htmp->Fill( m_lineResCol[hitId] );
491 } else {
492 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
493 }
494 //m_hBrResDist[layer][1]->Fill( m_lineResCol[hitId] );
495 }
496 } else {
497 sprintf( name, "/DQAHist/MUC/EcResDist_All_L%d", layer );
498 if(m_thsvc->getHist(name, htmp).isSuccess()) {
499 htmp->Fill( m_lineResCol[hitId] );
500 } else {
501 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
502 }
503 //m_hEcResDist[layer][0]->Fill( m_lineResCol[hitId] );
504
505 if( isDimu )
506 {
507 sprintf( name, "/DQAHist/MUC/EcResDist_Dimu_L%d", layer );
508 if(m_thsvc->getHist(name, htmp).isSuccess()) {
509 htmp->Fill( m_lineResCol[hitId] );
510 } else {
511 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
512 }
513 //m_hEcResDist[layer][1]->Fill( m_lineResCol[hitId] );
514 }
515 }
516 }
517
518 firedFlag[part][layer][1] = true;
519 }
520 } // End fill residual, if track is good for res
521
522 mucRawHitCol.clear();
523 mucExpHitCol.clear();
524
525 } // End read all tracks
526 //<--- End retrieve rec tracks
527
528 //---> Searching inc/noise hits
529 log << MSG::INFO << "Searching inc/noise hits" << endreq;
530 bool isNosHit;
531 bool hasEffHit;
532 for( unsigned int i=0; i < m_digiCol.size(); i++ )
533 {
534 isNosHit = true;
535
536 if( m_digiCol[i]->IsInCol( m_effHitCol )!=-1 ) continue; // digi in effHitCol
537 else
538 {
539 for( unsigned int j=0; j < m_clusterCol.size(); j++ )
540 {
541 hasEffHit = false;
542 for( unsigned int k=0; k<m_clusterCol[j].size(); k++)
543 {
544 if( m_clusterCol[j][k]->IsInCol(m_effHitCol) != -1)
545 { // Clusters have efficiency hit
546 hasEffHit = true;
547 break; // Out a cluster
548 }
549 }
550
551 if ( hasEffHit && (m_digiCol[i]->IsInCol( m_clusterCol[j] ) != -1) ) {
552 isNosHit = false;
553 break; // Out cluster collection
554 }
555 } // End cluster col
556
557 if( isNosHit ) {
558 part = (*m_digiCol[i]).Part(); segment = (*m_digiCol[i]).Segment();
559 layer = (*m_digiCol[i]).Layer(); strip = (*m_digiCol[i]).Strip();
560
561 //log << MSG::INFO << "Noise hit:\t" << part<<"\t"<<segment<<"\t"<<layer<<"\t"<<strip << endreq;
562 m_recordAll[part][segment][layer][strip][3] ++;
563 if( isDimu ) m_recordDimu[part][segment][layer][strip][3] ++;
564 m_nosHitCol.push_back(m_digiCol[i]);
565 }
566 }// End else
567 } // End digi collection
568 //<--- End searching inc/noise hits
569
570 DQA_MUC::FillHistograms( isDimu );
571
572 // Reset mark collection
573 for( unsigned int i=0; i<m_digiCol.size(); i++ ) {
574 if( m_digiCol[i] != NULL ) delete m_digiCol[i];
575 }
576
577 for( unsigned int i=0; i<m_expHitCol.size(); i++ ) {
578 if( m_expHitCol[i] != NULL ) delete m_expHitCol[i];
579 }
580
581 if( m_effHitCol.size() != 0 ) m_effHitCol.clear();
582 if( m_expHitCol.size() != 0 ) m_expHitCol.clear();
583 if( m_nosHitCol.size() != 0 ) m_nosHitCol.clear();
584 if( m_digiCol.size() != 0 ) m_digiCol.clear();
585 if( m_clusterCol.size() != 0 ) m_clusterCol.clear();
586
587 for( int i=0; i<PART_MAX; i++ ) {
588 for( int j=0; j<SEGMENT_MAX; j++ ) {
589 if( m_segDigiCol[i][j].size() != 0 ) m_segDigiCol[i][j].clear();
590 }
591 }
592
593 return StatusCode::SUCCESS;
594}
595
596// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
597StatusCode DQA_MUC::finalize() {
598
599 MsgStream log(msgSvc(), name());
600 log << MSG::INFO << "in finalize()" << endmsg;
601
602/*
603 TH1 *htmp(0);
604
605 // Fit spacial resolution
606 log << MSG::INFO << "Spacial resolution fitting" << endreq;
607 double resSigma, resSigmaErr;
608 resSigma = resSigmaErr = 0.;
609
610 for( int i=0; i<B_LAY_NUM; i++ )
611 {
612 m_hBrResDist[i][0]->Fit("gaus");
613 resSigma = m_hBrResDist[i][0]->GetFunction("gaus")->GetParameter("Sigma");
614 resSigmaErr = m_hBrResDist[i][0]->GetFunction("gaus")->GetParError(2);
615 if(m_thsvc->getHist("/DQAHist/MUC/BrRes_All", htmp).isSuccess()) {
616 htmp->Fill( i, resSigma );
617 htmp->SetBinError( i+1, resSigmaErr );
618 } else {
619 log << MSG::ERROR << "Fail to retrieve BrRes_All" << endreq;
620 }
621 //log << MSG::INFO << "Barrle layer:\t" << i << "\t" << resSigma << "\t" << resSigmaErr << endreq;
622
623 m_hBrResDist[i][1]->Fit("gaus");
624 resSigma = m_hBrResDist[i][1]->GetFunction("gaus")->GetParameter("Sigma");
625 resSigmaErr = m_hBrResDist[i][1]->GetFunction("gaus")->GetParError(2);
626 if(m_thsvc->getHist("/DQAHist/MUC/BrRes_Dimu", htmp).isSuccess()) {
627 htmp->Fill( i, resSigma );
628 htmp->SetBinError( i+1, resSigmaErr );
629 } else {
630 log << MSG::ERROR << "Fail to retrieve BrRes_Dimu" << endreq;
631 }
632
633 }
634
635 for( int i=0; i<E_LAY_NUM; i++ )
636 {
637 m_hEcResDist[i][0]->Fit("gaus");
638 resSigma = m_hEcResDist[i][0]->GetFunction("gaus")->GetParameter("Sigma");
639 resSigmaErr = m_hEcResDist[i][0]->GetFunction("gaus")->GetParError(2);
640 if(m_thsvc->getHist("/DQAHist/MUC/EcRes_All", htmp).isSuccess()) {
641 htmp->Fill( i, resSigma );
642 htmp->SetBinError( i+1, resSigmaErr );
643 } else {
644 log << MSG::ERROR << "Fail to retrieve EcRes_All" << endreq;
645 }
646 //log << MSG::INFO << "Endcap layer:\t" << i << "\t" << resSigma << "\t" << resSigmaErr << endreq;
647
648 m_hEcResDist[i][1]->Fit("gaus");
649 resSigma = m_hEcResDist[i][1]->GetFunction("gaus")->GetParameter("Sigma");
650 resSigmaErr = m_hEcResDist[i][0]->GetFunction("gaus")->GetParError(2);
651 if(m_thsvc->getHist("/DQAHist/MUC/EcRes_Dimu", htmp).isSuccess()) {
652 htmp->Fill( i, resSigma );
653 htmp->SetBinError( i+1, resSigmaErr );
654 } else {
655 log << MSG::ERROR << "Fail to retrieve EcRes_Dimu" << endreq;
656 }
657 }
658
659
660 // Efficiency and noise ratio
661 int part, segment, layer, stripMax;
662 part = segment = layer = stripMax = 0;
663 double digi[TAGN][3], effHit[TAGN][3], trackNum[TAGN][3], nosHit[TAGN][3];
664 double eff[TAGN], effErr[TAGN], nos[TAGN], nosErr[TAGN];
665 for(int i=0; i<TAGN; i++) {
666 for( int j=0; j<3; j++) {
667 digi[i][j] = effHit[i][j] = trackNum[i][j] = nosHit[i][j] = 0.;
668 }
669
670 eff[i] = effErr[i] = nos[i] = nosErr[i] = 0.;
671 }
672
673 // Layer efficiency
674 for( int i=0; i<LAYER_MAX; i++ )
675 {
676 effHit[0][0] = trackNum[0][0] = 0;
677 effHit[1][0] = trackNum[1][0] = 0;
678
679 for( int j=0; j<PART_MAX; j++ ) {
680 for( int k=0; k<SEGMENT_MAX; k++) {
681 stripMax = m_ptrIdTr->GetStripMax( j, k, i );
682 for( int n=0; n<stripMax; n++ ) {
683 trackNum[0][0] += m_recordAll[j][k][i][n][1];
684 effHit[0][0] += m_recordAll[j][k][i][n][2];
685
686 trackNum[1][0] += m_recordDimu[j][k][i][n][1];
687 effHit[1][0] += m_recordDimu[j][k][i][n][2];
688 }
689 }
690 }
691
692 if( trackNum[0][0] == 0 ) {
693 eff[0] = effErr[0] = 0.0;
694 } else {
695 eff[0] = ( (double)effHit[0][0] )/trackNum[0][0];
696 effErr[0] = sqrt( eff[0]*(1-eff[0])/trackNum[0][0] );
697 }
698 if(m_thsvc->getHist("/DQAHist/MUC/LayerEff_All", htmp).isSuccess()) {
699 htmp->Fill( i, eff[0] );
700 htmp->SetBinError( i+1, effErr[0] );
701 } else {
702 log << MSG::ERROR << "Fail to retrieve LayerEff_All" << endreq;
703 }
704 log << MSG::INFO << "LayerEff:\t" << i << "\t" << eff[0] << "\t" << effErr[0] << endreq;
705
706 if( trackNum[1][0] == 0 ) {
707 eff[1] = effErr[1] = 0.0;
708 } else {
709 eff[1] = ( (double)effHit[1][0] )/trackNum[1][0];
710 effErr[1] = sqrt( eff[1]*(1-eff[1])/trackNum[1][0] );
711 }
712 if(m_thsvc->getHist("/DQAHist/MUC/LayerEff_Dimu", htmp).isSuccess()) {
713 htmp->Fill( i, eff[1] );
714 htmp->SetBinError( i+1, effErr[1] );
715 } else {
716 log << MSG::ERROR << "Fail to retrieve LayerEff_Dimu" << endreq;
717 }
718
719 } // End layer
720
721 // Box efficiency and noise ratio, strip efficiency
722 for( int i=0; i<BOX_MAX; i++ )
723 {
724 m_ptrIdTr->SetBoxPos( i, &part, &segment, &layer );
725 stripMax = m_ptrIdTr->GetStripMax( part, segment, layer );
726
727 digi[0][1] = effHit[0][1] = trackNum[0][1] = nosHit[0][1] = 0;
728 digi[1][1] = effHit[1][1] = trackNum[1][1] = nosHit[1][1] = 0;
729 for( int j=0; j<stripMax; j++ )
730 {
731 // For box
732 digi[0][1] += m_recordAll[part][segment][layer][j][0];
733 trackNum[0][1] += m_recordAll[part][segment][layer][j][1];
734 effHit[0][1] += m_recordAll[part][segment][layer][j][2];
735 nosHit[0][1] += m_recordAll[part][segment][layer][j][3];
736
737 digi[1][1] += m_recordDimu[part][segment][layer][j][0];
738 trackNum[1][1] += m_recordDimu[part][segment][layer][j][1];
739 effHit[1][1] += m_recordDimu[part][segment][layer][j][2];
740 nosHit[1][1] += m_recordDimu[part][segment][layer][j][3];
741
742 // For strip
743 trackNum[0][2] = m_recordAll[part][segment][layer][j][1];
744 effHit[0][2] = m_recordAll[part][segment][layer][j][2];
745 trackNum[1][2] = m_recordDimu[part][segment][layer][j][1];
746 effHit[1][2] = m_recordDimu[part][segment][layer][j][2];
747
748 if( trackNum[0][2] == 0 ) {
749 eff[0] = 0.0;
750 } else {
751 eff[0] = ( (double)effHit[0][2] )/trackNum[0][2];
752 }
753 if(m_thsvc->getHist("/DQAHist/MUC/StripEff_All", htmp).isSuccess()) {
754 htmp->Fill( eff[0] );
755 } else {
756 log << MSG::ERROR << "Fail to retrieve StripEff_All" << endreq;
757 }
758
759 if( trackNum[1][2] == 0 ) {
760 eff[1] = 0.0;
761 } else {
762 eff[1] = ( (double)effHit[1][2] )/trackNum[1][2];
763 }
764 if(m_thsvc->getHist("/DQAHist/MUC/StripEff_Dimu", htmp).isSuccess()) {
765 htmp->Fill( eff[1] );
766 } else {
767 log << MSG::ERROR << "Fail to retrieve StripEff_Dimu" << endreq;
768 }
769 } // End StripMax
770
771 // Box efficiency
772 if( trackNum[0][1] == 0 ) {
773 eff[0] = effErr[0] = 0.0;
774 } else {
775 eff[0] = ( (double)effHit[0][1] )/trackNum[0][1];
776 effErr[0] = sqrt( eff[0]*(1-eff[0])/trackNum[0][1] );
777 }
778 if(m_thsvc->getHist("/DQAHist/MUC/BoxEff_All", htmp).isSuccess()) {
779 htmp->Fill( i, eff[0] );
780 htmp->SetBinError( i+1, effErr[0] );
781 } else {
782 log << MSG::ERROR << "Fail to retrieve BoxEff_All" << endreq;
783 }
784 log << MSG::INFO << "BoxEff:\t" << i << "\t" << eff[0] << "\t" << effErr[0] << endreq;
785
786 if( trackNum[1][1] == 0 ) {
787 eff[1] = effErr[1] = 0.0;
788 } else {
789 eff[1] = ( (double)effHit[1][1] )/trackNum[1][1];
790 effErr[1] = sqrt( eff[1]*(1-eff[1])/trackNum[1][1] );
791 }
792 if(m_thsvc->getHist("/DQAHist/MUC/BoxEff_Dimu", htmp).isSuccess()) {
793 htmp->Fill( i, eff[1] );
794 htmp->SetBinError( i+1, effErr[1] );
795 } else {
796 log << MSG::ERROR << "Fail to retrieve BoxEff_Dimu" << endreq;
797 }
798
799 // Box noise ratio
800 if( digi[0][1] == 0 ) {
801 nos[0] = nosErr[0] = 0.0;
802 } else {
803 nos[0] = ( (double)nosHit[0][1] )/digi[0][1];
804 nosErr[0] = sqrt( nos[0]*(1-nos[0])/digi[0][1] );
805 }
806 if(m_thsvc->getHist("/DQAHist/MUC/BoxNosRatio_All", htmp).isSuccess()) {
807 htmp->Fill( i, nos[0] );
808 htmp->SetBinError( i+1, nosErr[0] );
809 } else {
810 log << MSG::ERROR << "Fail to retrieve BoxNosRatio_All" << endreq;
811 }
812 log << MSG::INFO << "BoxNosRatio:\t" << i << "\t" << nos[0] << "\t" << nosErr[0] << endreq;
813
814 if( digi[1][1] == 0 ) {
815 nos[1] = nosErr[1] = 0.0;
816 } else {
817 nos[1] = ( (double)nosHit[1][1] )/digi[1][1];
818 nosErr[1] = sqrt( nos[1]*(1-nos[1])/digi[1][1] );
819 }
820 if(m_thsvc->getHist("/DQAHist/MUC/BoxNosRatio_Dimu", htmp).isSuccess()) {
821 htmp->Fill( i, nos[1] );
822 htmp->SetBinError( i+1, nosErr[1] );
823 } else {
824 log << MSG::ERROR << "Fail to retrieve BoxNosRatio_Dimu" << endreq;
825 }
826 }// End BOX_MAX
827*/
828
829 log << MSG::INFO << "Finalize successfully! " << endmsg;
830
831 return StatusCode::SUCCESS;
832}
833
834StatusCode DQA_MUC::FillHistograms(bool isDimu) {
835
836 MsgStream log(msgSvc(), name());
837 log << MSG::INFO << "Filling histograms" << endmsg;
838 char name[100];
839 int part, segment, layer, strip, boxId, strId;
840 part = segment = layer = strip = boxId = strId = 0;
841 TH1 *hEff[2][2][3];
842
843 for(int i=0; i<TAGN; i++) {
844 for(int j=0; j<2; j++) {
845 for(int k=0; k<LVLN; k++)
846 {
847 sprintf( name, "/DQAHist/MUC/%sEff_%s_%s", LNAME[k], ENAME[i], HTYPE[j] );
848 if(!m_thsvc->getHist(name, hEff[i][j][k]).isSuccess())
849 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
850 }
851 }
852 }
853
854 // Numberator of eff
855 for(int i=0; i<m_effHitCol.size(); i++)
856 {
857 part = m_effHitCol[i]->Part();
858 segment = m_effHitCol[i]->Segment();
859 layer = m_effHitCol[i]->Layer();
860 strip = m_effHitCol[i]->Strip();
861 boxId = m_ptrIdTr->GetBoxId(part, segment, layer);
862 strId = m_ptrIdTr->GetStripId(part, segment, layer, strip);
863 hEff[0][0][0]->Fill(layer);
864 hEff[0][0][1]->Fill(boxId);
865 hEff[0][0][2]->Fill(strId);
866
867 if( isDimu ) {
868 hEff[1][0][0]->Fill(layer);
869 hEff[1][0][1]->Fill(boxId);
870 hEff[1][0][2]->Fill(strId);
871 }
872 }
873
874 // Denominator of eff
875 for(int i=0; i<m_expHitCol.size(); i++)
876 {
877 part = m_expHitCol[i]->Part();
878 segment = m_expHitCol[i]->Segment();
879 layer = m_expHitCol[i]->Layer();
880 strip = m_expHitCol[i]->Strip();
881 //cout<<"ExpHit:\t"<<part<<"\t"<<segment<<"\t"<<layer<<"\t"<<strip<<endl;
882 boxId = m_ptrIdTr->GetBoxId(part, segment, layer);
883 strId = m_ptrIdTr->GetStripId(part, segment, layer, strip);
884 hEff[0][1][0]->Fill(layer);
885 hEff[0][1][1]->Fill(boxId);
886 hEff[0][1][2]->Fill(strId);
887
888 if( isDimu ) {
889 hEff[1][1][0]->Fill(layer);
890 hEff[1][1][1]->Fill(boxId);
891 hEff[1][1][2]->Fill(strId);
892 }
893
894 }
895
896 TH1 *hNosRatio[2][2];
897 for(int i=0; i<TAGN; i++) {
898 for(int j=0; j<2; j++) {
899 sprintf( name, "/DQAHist/MUC/%sNosRatio_%s_%s", LNAME[1], ENAME[i], HTYPE[j] );
900 if(!m_thsvc->getHist(name, hNosRatio[i][j]).isSuccess())
901 log << MSG::ERROR << "Fail to retrieve " << name << endreq;
902 }
903 }
904
905 // Numberator of box noise ratio
906 for(int i=0; i<m_nosHitCol.size(); i++)
907 {
908 part = m_nosHitCol[i]->Part();
909 segment = m_nosHitCol[i]->Segment();
910 layer = m_nosHitCol[i]->Layer();
911 strip = m_nosHitCol[i]->Strip();
912 boxId = m_ptrIdTr->GetBoxId(part, segment, layer);
913 strId = m_ptrIdTr->GetStripId(part, segment, layer, strip);
914 hNosRatio[0][0]->Fill(boxId);
915
916 if( isDimu ) hNosRatio[1][0]->Fill(boxId);
917 }
918
919 // Denominator of box noise ratio
920 for(int i=0; i<m_digiCol.size(); i++)
921 {
922 part = m_digiCol[i]->Part();
923 segment = m_digiCol[i]->Segment();
924 layer = m_digiCol[i]->Layer();
925 strip = m_digiCol[i]->Strip();
926 boxId = m_ptrIdTr->GetBoxId(part, segment, layer);
927 hNosRatio[0][1]->Fill(boxId);
928
929 if( isDimu ) hNosRatio[1][1]->Fill(boxId);
930 }
931
932 return StatusCode::SUCCESS;
933}
934
935//END
936
const Int_t n
const char ENAME[TAGN][10]
const char LNAME[LVLN][10]
ObjectVector< RecMucTrack > RecMucTrackCol
const double PI
Definition: PipiJpsi.cxx:55
StatusCode execute()
Definition: DQA_MUC.cxx:227
StatusCode initialize()
Definition: DQA_MUC.cxx:44
StatusCode finalize()
Definition: DQA_MUC.cxx:597
DQA_MUC(const std::string &name, ISvcLocator *pSvcLocator)
Definition: DQA_MUC.cxx:36
static int barrel_ec(const Identifier &id)
Values of different levels.
static int layer(const Identifier &id)
static int channel(const Identifier &id)
static int segment(const Identifier &id)
int GetStripId(int part, int segment, int layer, int subid)
int GetStripMax(int part, int segment, int layer)
int GetBoxId(int part, int segment, int layer)
int IsInCol(int part, int segment, int layer, int strip, mark_col &aCol)
Definition: MucMark.cxx:100