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HcalDigiTester.cc
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4 
11 
15 
19 
20 #include <vector>
21 #include <utility>
22 #include <ostream>
23 #include <string>
24 #include <algorithm>
25 #include <cmath>
26 
31 
32 template<class Digi >
33 
35 
36 
39 
40  // ADC2fC
41  HcalCalibrations calibrations;
42  CaloSamples tool;
43 
44 
45  iEvent.getByToken (tok, digiCollection);
46 
47  int subdet = 0;
48  if (hcalselector_ == "HB" ) subdet = 1;
49  if (hcalselector_ == "HE" ) subdet = 2;
50  if (hcalselector_ == "HO" ) subdet = 3;
51  if (hcalselector_ == "HF" ) subdet = 4;
52 
53  if(subdet == 1) nevent1++;
54  if(subdet == 2) nevent2++;
55  if(subdet == 3) nevent3++;
56  if(subdet == 4) nevent4++;
57 
58  int zsign = 0;
59  if (zside_ == "+") zsign = 1;
60  if (zside_ == "-") zsign = -1;
61 
62  int ndigis = 0;
63  // amplitude for signal cell at diff. depths
64  double ampl1_c = 0.;
65  double ampl2_c = 0.;
66  double ampl3_c = 0.;
67  double ampl4_c = 0.;
68  double ampl_c = 0.;
69 
70  // is set to 1 if "seed" SimHit is found
71  int seedSimHit = 0;
72 
73  // std::cout << " HcalDigiTester::reco : "
74  // << "subdet=" << subdet << " noise="<< noise_ << std::endl;
75 
76  int ieta_Sim = 9999;
77  int iphi_Sim = 9999;
78  double emax_Sim = -9999.;
79 
80 
81  // SimHits MC only
82  if( mc_ == "yes") {
84  iEvent.getByToken(tok_mc_,hcalHits);
85  const edm::PCaloHitContainer * simhitResult = hcalHits.product () ;
86 
87 
88  if ( subdet != 0 && noise_ == 0) { // signal only SimHits
89 
90  for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin (); simhits != simhitResult->end () ; ++simhits) {
91 
92  HcalDetId cell(simhits->id());
93  double en = simhits->energy();
94  int sub = cell.subdet();
95  int ieta = cell.ieta();
96  if(ieta > 0) ieta--;
97  int iphi = cell.iphi()-1;
98 
99 
100  if(en > emax_Sim && sub == subdet) {
101  emax_Sim = en;
102  ieta_Sim = ieta;
103  iphi_Sim = iphi;
104  // to limit "seed" SimHit energy in case of "multi" event
105  if (mode_ == "multi" &&
106  ((sub == 4 && en < 100. && en > 1.)
107  || ((sub !=4) && en < 1. && en > 0.02)))
108  {
109  seedSimHit = 1;
110  break;
111  }
112  }
113 
114  } // end of SimHits cycle
115 
116 
117  // found highest-energy SimHit for single-particle
118  if(mode_ != "multi" && emax_Sim > 0.) seedSimHit = 1;
119  } // end of SimHits
120 
121  } // end of mc_ == "yes"
122 
123  // CYCLE OVER CELLS ========================================================
124  int Ndig = 0;
125 
126  /*
127  std::cout << " HcalDigiTester::reco : nevent 1,2,3,4 = "
128  << nevent1 << " " << nevent2 << " " << nevent3 << " "
129  << nevent4 << std::endl;
130  */
131 
132  for (digiItr=digiCollection->begin();digiItr!=digiCollection->end();digiItr++) {
133 
134  HcalDetId cell(digiItr->id());
135  int depth = cell.depth();
136  int iphi = cell.iphi()-1;
137  int ieta = cell.ieta();
138  if(ieta > 0) ieta--;
139  int sub = cell.subdet();
140 
141 
142  // amplitude for signal cell at diff. depths
143  double ampl = 0.;
144  double ampl1 = 0.;
145  double ampl2 = 0.;
146  double ampl3 = 0.;
147  double ampl4 = 0.;
148 
149  // Gains, pedestals (once !) and only for "noise" case
150  if ( ((nevent1 == 1 && subdet == 1) ||
151  (nevent2 == 1 && subdet == 2) ||
152  (nevent3 == 1 && subdet == 3) ||
153  (nevent4 == 1 && subdet == 4)) && noise_ == 1 && sub == subdet) {
154 
155  HcalGenericDetId hcalGenDetId(digiItr->id());
156  const HcalPedestal* pedestal = conditions->getPedestal(hcalGenDetId);
157  const HcalGain* gain = conditions->getGain(hcalGenDetId);
158  const HcalGainWidth* gainWidth =
159  conditions->getGainWidth(hcalGenDetId);
160  const HcalPedestalWidth* pedWidth =
161  conditions-> getPedestalWidth(hcalGenDetId);
162 
163  double gainValue0 = gain->getValue(0);
164  double gainValue1 = gain->getValue(1);
165  double gainValue2 = gain->getValue(2);
166  double gainValue3 = gain->getValue(3);
167 
168  double gainWidthValue0 = gainWidth->getValue(0);
169  double gainWidthValue1 = gainWidth->getValue(1);
170  double gainWidthValue2 = gainWidth->getValue(2);
171  double gainWidthValue3 = gainWidth->getValue(3);
172 
173 
174 
175  // some printout
176  /*
177  std::cout << " subdet = " << sub << " ieta, iphi, depth : "
178  << ieta << " " << iphi << " " << depth
179  << " gain0 " << gainValue0 << " gainWidth0 "
180  << gainWidthValue0
181  << std::endl;
182  */
183 
184  double pedValue0 = pedestal->getValue(0);
185  double pedValue1 = pedestal->getValue(1);
186  double pedValue2 = pedestal->getValue(2);
187  double pedValue3 = pedestal->getValue(3);
188 
189  double pedWidth0 = pedWidth->getWidth(0);
190  double pedWidth1 = pedWidth->getWidth(1);
191  double pedWidth2 = pedWidth->getWidth(2);
192  double pedWidth3 = pedWidth->getWidth(3);
193 
194  if (depth == 1) {
195 
196  // std::cout << " depth = " << depth << std::endl;
197 
198  monitor()->fillmeGain0Depth1(gainValue0);
199  monitor()->fillmeGain1Depth1(gainValue1);
200  monitor()->fillmeGain2Depth1(gainValue2);
201  monitor()->fillmeGain3Depth1(gainValue3);
202 
203  monitor()->fillmeGainWidth0Depth1(gainWidthValue0);
204  monitor()->fillmeGainWidth1Depth1(gainWidthValue1);
205  monitor()->fillmeGainWidth2Depth1(gainWidthValue2);
206  monitor()->fillmeGainWidth3Depth1(gainWidthValue3);
207 
208  monitor()->fillmePed0Depth1(pedValue0);
209  monitor()->fillmePed1Depth1(pedValue1);
210  monitor()->fillmePed2Depth1(pedValue2);
211  monitor()->fillmePed3Depth1(pedValue3);
212 
213  monitor()->fillmePedWidth0Depth1(pedWidth0);
214  monitor()->fillmePedWidth1Depth1(pedWidth1);
215  monitor()->fillmePedWidth2Depth1(pedWidth2);
216  monitor()->fillmePedWidth3Depth1(pedWidth3);
217 
218  monitor()->fillmeGainMap1 (double(ieta), double(iphi), gainValue0);
219  monitor()->fillmePwidthMap1(double(ieta), double(iphi), pedWidth0) ;
220  }
221 
222  if (depth == 2) {
223 
224  // std::cout << " depth = " << depth << std::endl;
225 
226  monitor()->fillmeGain0Depth2(gainValue0);
227  monitor()->fillmeGain1Depth2(gainValue1);
228  monitor()->fillmeGain2Depth2(gainValue2);
229  monitor()->fillmeGain3Depth2(gainValue3);
230 
231  monitor()->fillmeGainWidth0Depth2(gainWidthValue0);
232  monitor()->fillmeGainWidth1Depth2(gainWidthValue1);
233  monitor()->fillmeGainWidth2Depth2(gainWidthValue2);
234  monitor()->fillmeGainWidth3Depth2(gainWidthValue3);
235 
236  monitor()->fillmePed0Depth2(pedValue0);
237  monitor()->fillmePed1Depth2(pedValue1);
238  monitor()->fillmePed2Depth2(pedValue2);
239  monitor()->fillmePed3Depth2(pedValue3);
240 
241  monitor()->fillmePedWidth0Depth2(pedWidth0);
242  monitor()->fillmePedWidth1Depth2(pedWidth1);
243  monitor()->fillmePedWidth2Depth2(pedWidth2);
244  monitor()->fillmePedWidth3Depth2(pedWidth3);
245 
246  monitor()->fillmeGainMap2 (double(ieta), double(iphi), gainValue0);
247  monitor()->fillmePwidthMap2(double(ieta), double(iphi), pedWidth0) ;
248  }
249 
250  if (depth == 3) {
251 
252  // std::cout << " depth = " << depth << std::endl;
253 
254  monitor()->fillmeGain0Depth3(gainValue0);
255  monitor()->fillmeGain1Depth3(gainValue1);
256  monitor()->fillmeGain2Depth3(gainValue2);
257  monitor()->fillmeGain3Depth3(gainValue3);
258 
259  monitor()->fillmeGainWidth0Depth3(gainWidthValue0);
260  monitor()->fillmeGainWidth1Depth3(gainWidthValue1);
261  monitor()->fillmeGainWidth2Depth3(gainWidthValue2);
262  monitor()->fillmeGainWidth3Depth3(gainWidthValue3);
263 
264  monitor()->fillmePed0Depth3(pedValue0);
265  monitor()->fillmePed1Depth3(pedValue1);
266  monitor()->fillmePed2Depth3(pedValue2);
267  monitor()->fillmePed3Depth3(pedValue3);
268 
269  monitor()->fillmePedWidth0Depth3(pedWidth0);
270  monitor()->fillmePedWidth1Depth3(pedWidth1);
271  monitor()->fillmePedWidth2Depth3(pedWidth2);
272  monitor()->fillmePedWidth3Depth3(pedWidth3);
273 
274  monitor()->fillmeGainMap3 (double(ieta), double(iphi), gainValue0);
275  monitor()->fillmePwidthMap3(double(ieta), double(iphi), pedWidth0) ;
276  }
277 
278  if (depth == 4) {
279 
280  // std::cout << " depth = " << depth << std::endl;
281 
282  monitor()->fillmeGain0Depth4(gainValue0);
283  monitor()->fillmeGain1Depth4(gainValue1);
284  monitor()->fillmeGain2Depth4(gainValue2);
285  monitor()->fillmeGain3Depth4(gainValue3);
286 
287  monitor()->fillmeGainWidth0Depth4(gainWidthValue0);
288  monitor()->fillmeGainWidth1Depth4(gainWidthValue1);
289  monitor()->fillmeGainWidth2Depth4(gainWidthValue2);
290  monitor()->fillmeGainWidth3Depth4(gainWidthValue3);
291 
292  monitor()->fillmePed0Depth4(pedValue0);
293  monitor()->fillmePed1Depth4(pedValue1);
294  monitor()->fillmePed2Depth4(pedValue2);
295  monitor()->fillmePed3Depth4(pedValue3);
296 
297  monitor()->fillmePedWidth0Depth4(pedWidth0);
298  monitor()->fillmePedWidth1Depth4(pedWidth1);
299  monitor()->fillmePedWidth2Depth4(pedWidth2);
300  monitor()->fillmePedWidth3Depth4(pedWidth3);
301 
302  monitor()->fillmeGainMap4 (double(ieta), double(iphi), gainValue0);
303  monitor()->fillmePwidthMap4(double(ieta), double(iphi), pedWidth0) ;
304 
305  }
306 
307  } // end of event #1
308  //std::cout << "==== End of event noise block in cell cycle" << std::endl;
309 
310 
311 
312  if ( sub == subdet) Ndig++; // subdet number of digi
313 
314 // No-noise case, only single subdet selected ===========================
315 
316  if ( sub == subdet && noise_ == 0 ) {
317 
318 
319  HcalCalibrations calibrations = conditions->getHcalCalibrations(cell);
320 
321  const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
322  const HcalQIEShape* shape = conditions->getHcalShape(channelCoder);
323  HcalCoderDb coder (*channelCoder, *shape);
324  coder.adc2fC(*digiItr,tool);
325 
326  double noiseADC = (*digiItr)[0].adc();
327  double noisefC = tool[0];
328 
329  // noise evaluations from "pre-samples"
330  if(depth == 1) {
331  monitor()->fillmeADC0_depth1 (noiseADC);
332  monitor()->fillmeADC0fC_depth1(noisefC);
333  }
334  if(depth == 2) {
335  monitor()->fillmeADC0_depth2 (noiseADC);
336  monitor()->fillmeADC0fC_depth2(noisefC);
337  }
338  if(depth == 3) {
339  monitor()->fillmeADC0_depth3 (noiseADC);
340  monitor()->fillmeADC0fC_depth3(noisefC);
341  }
342  if(depth == 4) {
343  monitor()->fillmeADC0_depth4 (noiseADC);
344  monitor()->fillmeADC0fC_depth4(noisefC);
345  }
346 
347  // OCCUPANCY maps filling
348  double deta = double(ieta);
349  double dphi = double(iphi);
350  if(depth == 1)
351  monitor()->fillmeOccupancy_map_depth1(deta, dphi);
352  if(depth == 2)
353  monitor()->fillmeOccupancy_map_depth2(deta, dphi);
354  if(depth == 3)
355  monitor()->fillmeOccupancy_map_depth3(deta, dphi);
356  if(depth == 4)
357  monitor()->fillmeOccupancy_map_depth4(deta, dphi);
358 
359  // Cycle on time slices
360  // - for each Digi
361  // - for one Digi with max SimHits E in subdet
362 
363  int closen = 0; // =1 if 1) seedSimHit = 1 and 2) the cell is the same
364  if(ieta == ieta_Sim && iphi == iphi_Sim ) closen = seedSimHit;
365 
366  for (int ii=0;ii<tool.size();ii++) {
367  int capid = (*digiItr)[ii].capid();
368  // single ts amplitude
369  double val = (tool[ii]-calibrations.pedestal(capid));
370 
371  if (val > 10.) {
372  if (depth == 1)
373  monitor()->fillmeAll10slices_depth1(double(ii), val);
374  else
375  monitor()->fillmeAll10slices_depth2(double(ii), val);
376  }
377  if (val > 100.) {
378  if (depth == 1)
379  monitor()->fillmeAll10slices1D_depth1(double(ii), val);
380  else
381  monitor()->fillmeAll10slices1D_depth2(double(ii), val);
382  }
383 
384  if( closen == 1 &&( ieta * zsign >= 0 )) {
385  monitor()->fillmeSignalTimeSlice(double(ii), val);
386  }
387 
388 
389  // HB/HE/HO
390  if (subdet != 4 && ii>=4 && ii<=7) {
391  ampl += val;
392  if(depth == 1) ampl1 += val;
393  if(depth == 2) ampl2 += val;
394  if(depth == 3) ampl3 += val;
395  if(depth == 4) ampl4 += val;
396 
397  if( closen == 1 && ( ieta * zsign >= 0 )) {
398  ampl_c += val;
399  if(depth == 1) ampl1_c += val;
400  if(depth == 2) ampl2_c += val;
401  if(depth == 3) ampl3_c += val;
402  if(depth == 4) ampl4_c += val;
403 
404  }
405  }
406 
407  // HF
408  if (subdet == 4 && ii==3 ) {
409  ampl += val;
410  if(depth == 1) ampl1 += val;
411  if(depth == 2) ampl2 += val;
412  if(depth == 3) ampl3 += val;
413  if(depth == 4) ampl4 += val;
414  if( closen == 1 && ( ieta * zsign >= 0 )) {
415  ampl_c += val;
416  if(depth == 1) ampl1_c += val;
417  if(depth == 2) ampl2_c += val;
418  if(depth == 3) ampl3_c += val;
419  if(depth == 4) ampl4_c += val;
420 
421  }
422  }
423  }
424  // end of time bucket sample
425 
426  monitor()->fillmeAmplIetaIphi1(double(ieta),double(iphi), ampl1);
427  monitor()->fillmeAmplIetaIphi2(double(ieta),double(iphi), ampl2);
428  monitor()->fillmeAmplIetaIphi3(double(ieta),double(iphi), ampl3);
429  monitor()->fillmeAmplIetaIphi4(double(ieta),double(iphi), ampl4);
430  monitor()->fillmeSumAmp (ampl);
431 
432 
433  if(ampl1 > 10. || ampl2 > 10. || ampl3 > 10. || ampl4 > 10. ) ndigis++;
434 
435  // fraction 5,6 bins if ampl. is big.
436  if(ampl1 > 30. && depth == 1 && closen == 1 ) {
437  double fBin5 = tool[4] - calibrations.pedestal((*digiItr)[4].capid());
438  double fBin67 = tool[5] + tool[6]
439  - calibrations.pedestal((*digiItr)[5].capid())
440  - calibrations.pedestal((*digiItr)[6].capid());
441  fBin5 /= ampl1;
442  fBin67 /= ampl1;
443  monitor()->fillmeBin5Frac (fBin5);
444  monitor()->fillmeBin67Frac(fBin67);
445  }
446 
447  monitor()->fillmeSignalAmp (ampl);
448  monitor()->fillmeSignalAmp1(ampl1);
449  monitor()->fillmeSignalAmp2(ampl2);
450  monitor()->fillmeSignalAmp3(ampl3);
451  monitor()->fillmeSignalAmp4(ampl4);
452 
453 
454  }
455  } // End of CYCLE OVER CELLS =============================================
456 
457 
458  if ( subdet != 0 && noise_ == 0) { // signal only, once per event
459 
460  monitor()->fillmenDigis(ndigis);
461 
462  // SimHits once again !!!
463  double eps = 1.e-3;
464  double ehits = 0.;
465  double ehits1 = 0.;
466  double ehits2 = 0.;
467  double ehits3 = 0.;
468  double ehits4 = 0.;
469 
470  if(mc_ == "yes") {
472  iEvent.getByToken(tok_mc_,hcalHits);
473  const edm::PCaloHitContainer * simhitResult = hcalHits.product () ;
474  for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin (); simhits != simhitResult->end () ; ++simhits) {
475 
476  HcalDetId cell(simhits->id());
477  int ieta = cell.ieta();
478  if(ieta > 0) ieta--;
479  int iphi = cell.iphi()-1;
480  int sub = cell.subdet();
481 
482  // take cell already found to be max energy in a particular subdet
483  if (sub == subdet && ieta == ieta_Sim && iphi == iphi_Sim){
484  int depth = cell.depth();
485  double en = simhits->energy();
486 
487  ehits += en;
488  if(depth == 1) ehits1 += en;
489  if(depth == 2) ehits2 += en;
490  if(depth == 3) ehits3 += en;
491  if(depth == 4) ehits4 += en;
492  }
493  }
494 
495  if(ehits > eps) monitor()->fillmeDigiSimhit (ehits, ampl_c );
496  if(ehits1 > eps) monitor()->fillmeDigiSimhit1(ehits1, ampl1_c);
497  if(ehits2 > eps) monitor()->fillmeDigiSimhit2(ehits2, ampl2_c);
498  if(ehits3 > eps) monitor()->fillmeDigiSimhit3(ehits3, ampl3_c);
499  if(ehits4 > eps) monitor()->fillmeDigiSimhit4(ehits4, ampl4_c);
500 
501  if(ehits > eps) monitor()->fillmeDigiSimhitProfile (ehits, ampl_c );
502  if(ehits1 > eps) monitor()->fillmeDigiSimhitProfile1(ehits1, ampl1_c);
503  if(ehits2 > eps) monitor()->fillmeDigiSimhitProfile2(ehits2, ampl2_c);
504  if(ehits3 > eps) monitor()->fillmeDigiSimhitProfile3(ehits3, ampl3_c);
505  if(ehits4 > eps) monitor()->fillmeDigiSimhitProfile4(ehits4, ampl4_c);
506 
507  if(ehits > eps) monitor()->fillmeRatioDigiSimhit (ampl_c / ehits);
508  if(ehits1 > eps) monitor()->fillmeRatioDigiSimhit1(ampl1_c / ehits1);
509  if(ehits2 > eps) monitor()->fillmeRatioDigiSimhit2(ampl2_c / ehits2);
510  if(ehits3 > eps) monitor()->fillmeRatioDigiSimhit3(ampl3_c / ehits3);
511  if(ehits4 > eps) monitor()->fillmeRatioDigiSimhit4(ampl4_c / ehits4);
512  } // end of if(mc_ == "yes")
513 
514  monitor()->fillmeNdigis(double(Ndig));
515 
516  } // end of if( subdet != 0 && noise_ == 0) // signal only
517 
518 } // end reco method
519 
520 
522  inputTag_(iConfig.getParameter<edm::InputTag>("digiLabel")),
523  outputFile_(iConfig.getUntrackedParameter<std::string>("outputFile", "")),
524  hcalselector_(iConfig.getUntrackedParameter<std::string>("hcalselector", "all")),
525  zside_(iConfig.getUntrackedParameter<std::string>("zside", "*")),
526  mode_(iConfig.getUntrackedParameter<std::string>("mode", "multi")),
527  mc_(iConfig.getUntrackedParameter<std::string>("mc", "no")),
528  monitors_()
529 {
530 
531  // register for data access
532  tok_mc_ = consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits","HcalHits"));
533  tok_hbhe_ = consumes<edm::SortedCollection<HBHEDataFrame> >(edm::InputTag(inputTag_));
534  tok_ho_ = consumes<edm::SortedCollection<HODataFrame> >(edm::InputTag(inputTag_));
535  tok_hf_ = consumes<edm::SortedCollection<HFDataFrame> >(edm::InputTag(inputTag_));
536 
537  nevent1 = 0;
538  nevent2 = 0;
539  nevent3 = 0;
540  nevent4 = 0;
541 
542  nevtot = 0;
543 
544  if ( outputFile_.size() != 0 ) {
545  edm::LogInfo("OutputInfo") << " Hcal Digi Task histograms will be saved to '" << outputFile_.c_str() << "'";
546  } else {
547  edm::LogInfo("OutputInfo") << " Hcal Digi Task histograms will NOT be saved";
548  }
549 
550 
551 }
552 
553 
555 {
556  std::map<std::string, HcalSubdetDigiMonitor*>::iterator itr = monitors_.begin();
557  std::map<std::string, HcalSubdetDigiMonitor*>::iterator itrEnd = monitors_.end();
558 
559  while ( itr != itrEnd ) {
560  delete (*itr).second;
561  itr++;
562  }
563 
564 
565 }
566 
568 {
569 
570  // This is the only opportunity to call the constructors for HcalSubdetDigiMonitor
571  //
572  if( hcalselector_ != "all") {
573  noise_ = 0;
574  if (hcalselector_ == "noise") {
575  noise_ = 1;
576 
577  hcalselector_ = "HB";
578  constructMonitor(ibooker);
579  hcalselector_ = "HE";
580  constructMonitor(ibooker);
581  hcalselector_ = "HO";
582  constructMonitor(ibooker);
583  hcalselector_ = "HF";
584  constructMonitor(ibooker);
585  hcalselector_ = "noise";
586  } else {
587  noise_ = 0;
588  constructMonitor(ibooker);
589  }
590  }
591  // all subdetectors
592  else {
593  noise_ = 0;
594 
595  hcalselector_ = "HB";
596  constructMonitor(ibooker);
597  hcalselector_ = "HE";
598  constructMonitor(ibooker);
599  hcalselector_ = "HO";
600  constructMonitor(ibooker);
601  hcalselector_ = "HF";
602  constructMonitor(ibooker);
603  hcalselector_ = "all";
604  }
605 
606 }
607 
608 
610 
611  if(noise_ != 1) {
612 
613  if( hcalselector_ == "all") {
614  hcalselector_ = "HB";
615  eval_occupancy();
616  hcalselector_ = "HE";
617  eval_occupancy();
618  hcalselector_ = "HO";
619  eval_occupancy();
620  hcalselector_ = "HF";
621  eval_occupancy();
622  }
623  else // one of subsystem only
624  eval_occupancy();
625  }
626 
627 }
628 
629 
630 
631 
632  //occupancies evaluation
634 
635  int nx = 82;
636  int ny = 72;
637  float cnorm;
638  float fev = float (nevtot);
639  // std::cout << "*** nevtot " << nevtot << std::endl;
640 
641  float sumphi_1, sumphi_2, sumphi_3, sumphi_4;
642  float phi_factor;
643 
644  for (int i = 1; i <= nx; i++) {
645  sumphi_1 = 0.;
646  sumphi_2 = 0.;
647  sumphi_3 = 0.;
648  sumphi_4 = 0.;
649 
650  for (int j = 1; j <= ny; j++) {
651 
652  // occupancies
653  cnorm = monitor()->getBinContent_depth1(i,j) / fev;
654  monitor()->setBinContent_depth1(i,j,cnorm);
655  cnorm = monitor()->getBinContent_depth2(i,j) / fev;
656  monitor()->setBinContent_depth2(i,j,cnorm);
657  cnorm = monitor()->getBinContent_depth3(i,j) / fev;
658  monitor()->setBinContent_depth3(i,j,cnorm);
659  cnorm = monitor()->getBinContent_depth4(i,j) / fev;
660  monitor()->setBinContent_depth4(i,j,cnorm);
661 
662  sumphi_1 += monitor()->getBinContent_depth1(i,j);
663  sumphi_2 += monitor()->getBinContent_depth2(i,j);
664  sumphi_3 += monitor()->getBinContent_depth3(i,j);
665  sumphi_4 += monitor()->getBinContent_depth4(i,j);
666 
667  }
668 
669  int ieta = i - 42; // -41 -1, 0 40
670  if(ieta >=0 ) ieta +=1; // -41 -1, 1 41 - to make it detector-like
671 
672  if(ieta >= -20 && ieta <= 20 )
673  {phi_factor = 72.;}
674  else {
675  if(ieta >= 40 || ieta <= -40 ) {phi_factor = 18.;}
676  else
677  phi_factor = 36.;
678  }
679 
680 
681  if(ieta >= 0) ieta -= 1; // -41 -1, 0 40 - to bring back to histo num !!!
682  double deta = double(ieta);
683 
684  cnorm = sumphi_1 / phi_factor;
685  monitor() -> fillmeOccupancy_vs_ieta_depth1(deta, cnorm);
686  cnorm = sumphi_2 / phi_factor;
687  monitor() -> fillmeOccupancy_vs_ieta_depth2(deta, cnorm);
688  cnorm = sumphi_3 / phi_factor;
689  monitor() -> fillmeOccupancy_vs_ieta_depth3(deta, cnorm);
690  cnorm = sumphi_4 / phi_factor;
691  monitor() -> fillmeOccupancy_vs_ieta_depth4(deta, cnorm);
692 
693 
694  } // end of i-loop
695 
696 }
697 
698 
700 {
701  std::map<std::string, HcalSubdetDigiMonitor*>::iterator monitorItr
702  = monitors_.find(hcalselector_);
703 
704  /*if(monitorItr == monitors_.end())
705  {
706  HcalSubdetDigiMonitor* m = new HcalSubdetDigiMonitor(dbe_, hcalselector_, noise_);
707  std::pair<std::string, HcalSubdetDigiMonitor*> mapElement(
708  hcalselector_, m);
709  monitorItr = monitors_.insert(mapElement).first;
710  }*/
711 
712  return monitorItr->second;
713 }
714 
716 {
717 
718  std::map<std::string, HcalSubdetDigiMonitor*>::iterator monitorItr
719  = monitors_.find(hcalselector_);
720 
721  if(monitorItr == monitors_.end())
722  {
724  std::pair<std::string, HcalSubdetDigiMonitor*> mapElement(
725  hcalselector_, m);
726  monitorItr = monitors_.insert(mapElement).first;
727  }
728 
729 }
730 
731 void
733 {
734 
735 
736  iSetup.get<CaloGeometryRecord>().get (geometry);
737  iSetup.get<HcalDbRecord>().get(conditions);
738 
739 
740  // std::cout << " >>>>> HcalDigiTester::analyze hcalselector = "
741  // << hcalselector_ << std::endl;
742 
743  if( hcalselector_ != "all") {
744  noise_ = 0;
745 
746 
747 
748  if (hcalselector_ == "HB" ) reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
749  if (hcalselector_ == "HE" ) reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
750  if (hcalselector_ == "HO" ) reco<HODataFrame>(iEvent,iSetup,tok_ho_);
751  if (hcalselector_ == "HF" ) reco<HFDataFrame>(iEvent,iSetup,tok_hf_);
752 
753  if (hcalselector_ == "noise") {
754  noise_ = 1;
755 
756  // std::cout << " >>>>> HcalDigiTester::analyze entering noise "
757  // << std::endl;
758 
759 
760  hcalselector_ = "HB";
761  reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
762  hcalselector_ = "HE";
763  reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
764  hcalselector_ = "HO";
765  reco<HODataFrame>(iEvent,iSetup,tok_ho_);
766  hcalselector_ = "HF";
767  reco<HFDataFrame>(iEvent,iSetup,tok_hf_);
768  hcalselector_ = "noise";
769  }
770  }
771  // all subdetectors
772  else {
773  noise_ = 0;
774 
775  hcalselector_ = "HB";
776  reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
777  hcalselector_ = "HE";
778  reco<HBHEDataFrame>(iEvent,iSetup,tok_hbhe_);
779  hcalselector_ = "HO";
780  reco<HODataFrame>(iEvent,iSetup,tok_ho_);
781  hcalselector_ = "HF";
782  reco<HFDataFrame>(iEvent,iSetup,tok_hf_);
783  hcalselector_ = "all";
784  }
785 
786  nevtot++;
787 
788 }
789 
790 double HcalDigiTester::dR(double eta1, double phi1, double eta2, double phi2) {
791  double PI = 3.1415926535898;
792  double deltaphi= phi1 - phi2;
793  if( phi2 > phi1 ) { deltaphi= phi2 - phi1;}
794  if(deltaphi > PI) { deltaphi = 2.*PI - deltaphi;}
795  double deltaeta = eta2 - eta1;
796  double tmp = sqrt(deltaeta* deltaeta + deltaphi*deltaphi);
797  return tmp;
798 }
799 
800 
void fillmePed0Depth1(double v1)
void fillmeGain0Depth4(double v1)
void fillmeGainWidth0Depth2(double v1)
void setBinContent_depth2(int i, int j, double v)
void fillmePedWidth2Depth1(double v1)
void fillmeGain2Depth2(double v1)
void fillmeGain1Depth1(double v1)
void fillmePedWidth1Depth3(double v1)
void fillmeGainWidth2Depth1(double v1)
virtual void analyze(const edm::Event &, const edm::EventSetup &)
int i
Definition: DBlmapReader.cc:9
void fillmeAmplIetaIphi4(double v1, double v2, double v3)
void fillmeADC0_depth1(double v1)
void fillmeDigiSimhitProfile3(double v1, double v2)
std::vector< PCaloHit > PCaloHitContainer
edm::EDGetTokenT< edm::SortedCollection< HODataFrame > > tok_ho_
void fillmeGainWidth0Depth4(double v1)
HcalSubdetDigiMonitor * monitor()
void fillmePed2Depth4(double v1)
void fillmePedWidth1Depth1(double v1)
void fillmeGainWidth2Depth4(double v1)
edm::EDGetTokenT< edm::SortedCollection< HBHEDataFrame > > tok_hbhe_
virtual void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &)
HcalSubdetector subdet() const
get the subdetector
Definition: HcalDetId.h:49
void fillmeGainMap2(double v1, double v2, double v3)
void fillmePwidthMap3(double v1, double v2, double v3)
void fillmeDigiSimhit4(double v1, double v2)
void fillmePed1Depth4(double v1)
edm::ESHandle< CaloGeometry > geometry
std::string hcalselector_
#define PI
void fillmeOccupancy_map_depth2(double v1, double v2)
void fillmeGainWidth3Depth4(double v1)
void fillmeGain2Depth4(double v1)
void fillmeDigiSimhit3(double v1, double v2)
double getBinContent_depth4(int i, int j)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:462
void reco(const edm::Event &, const edm::EventSetup &, const edm::EDGetTokenT< edm::SortedCollection< Digi > > &)
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
void fillmeADC0fC_depth2(double v1)
void fillmeGainWidth1Depth1(double v1)
void fillmeRatioDigiSimhit4(double v1)
edm::EDGetTokenT< edm::PCaloHitContainer > tok_mc_
void constructMonitor(DQMStore::IBooker &)
void fillmeDigiSimhit2(double v1, double v2)
void fillmeRatioDigiSimhit(double v1)
void fillmePedWidth1Depth4(double v1)
std::vector< T >::const_iterator const_iterator
void fillmeGainWidth1Depth4(double v1)
void setBinContent_depth3(int i, int j, double v)
void fillmeAll10slices1D_depth1(double v1, double v2)
void fillmeGain3Depth2(double v1)
std::string mode_
void fillmePed1Depth2(double v1)
void fillmeAll10slices_depth2(double v1, double v2)
double pedestal(int fCapId) const
get pedestal for capid=0..3
void fillmeRatioDigiSimhit2(double v1)
std::string mc_
void fillmeAmplIetaIphi2(double v1, double v2, double v3)
void fillmePwidthMap1(double v1, double v2, double v3)
HcalDigiTester(const edm::ParameterSet &)
std::map< std::string, HcalSubdetDigiMonitor * > monitors_
float getValue(int fCapId) const
get value for capId = 0..3
Definition: HcalGain.h:22
int ii
Definition: cuy.py:588
void fillmeGainWidth1Depth2(double v1)
double getBinContent_depth2(int i, int j)
void fillmeGainWidth2Depth2(double v1)
edm::ESHandle< HcalDbService > conditions
float getValue(int fCapId) const
get value for capId = 0..3
Definition: HcalGainWidth.h:21
double dR(double eta1, double phi1, double eta2, double phi2)
void fillmeGainWidth3Depth2(double v1)
void fillmeSignalAmp4(double v1)
void fillmeAll10slices1D_depth2(double v1, double v2)
void fillmeDigiSimhitProfile2(double v1, double v2)
void fillmePed0Depth4(double v1)
virtual void endRun()
void fillmeGain3Depth3(double v1)
void fillmePed0Depth3(double v1)
void fillmeGainMap4(double v1, double v2, double v3)
int iEvent
Definition: GenABIO.cc:230
void fillmePed3Depth3(double v1)
void fillmeDigiSimhit(double v1, double v2)
void fillmeRatioDigiSimhit1(double v1)
void fillmeOccupancy_map_depth1(double v1, double v2)
void fillmeGain1Depth2(double v1)
void fillmeGain1Depth3(double v1)
void fillmeGainWidth0Depth1(double v1)
void fillmeGainWidth2Depth3(double v1)
void fillmeSignalAmp1(double v1)
edm::InputTag inputTag_
void fillmeGain3Depth4(double v1)
double getBinContent_depth1(int i, int j)
void fillmeADC0_depth2(double v1)
virtual void adc2fC(const HBHEDataFrame &df, CaloSamples &lf) const
Definition: HcalCoderDb.cc:60
T sqrt(T t)
Definition: SSEVec.h:18
void fillmeGain3Depth1(double v1)
void fillmeDigiSimhitProfile4(double v1, double v2)
void fillmeAmplIetaIphi3(double v1, double v2, double v3)
int ieta() const
get the cell ieta
Definition: HcalDetId.h:56
void fillmeADC0_depth4(double v1)
void fillmePedWidth2Depth2(double v1)
void fillmeGainMap1(double v1, double v2, double v3)
void fillmeGainWidth0Depth3(double v1)
int j
Definition: DBlmapReader.cc:9
void fillmePedWidth2Depth4(double v1)
void fillmePedWidth1Depth2(double v1)
edm::EDGetTokenT< edm::SortedCollection< HFDataFrame > > tok_hf_
void fillmePedWidth2Depth3(double v1)
void fillmeSignalTimeSlice(double v1, double v2)
void fillmePedWidth0Depth1(double v1)
void fillmePedWidth3Depth2(double v1)
void setBinContent_depth4(int i, int j, double v)
void fillmePedWidth3Depth4(double v1)
void fillmeADC0fC_depth4(double v1)
void setBinContent_depth1(int i, int j, double v)
void fillmeSignalAmp(double v1)
std::string zside_
T const * product() const
Definition: Handle.h:81
void fillmeGainMap3(double v1, double v2, double v3)
void fillmePedWidth3Depth1(double v1)
int size() const
get the size
Definition: CaloSamples.h:24
void fillmeDigiSimhitProfile(double v1, double v2)
double getBinContent_depth3(int i, int j)
const T & get() const
Definition: EventSetup.h:56
void fillmePed3Depth2(double v1)
void fillmeGain2Depth1(double v1)
float getWidth(int fCapId) const
get width (sqrt(sigma_i_i)) for capId = 0..3
void fillmeOccupancy_map_depth4(double v1, double v2)
void fillmePed2Depth2(double v1)
void fillmePed3Depth4(double v1)
void fillmePedWidth0Depth4(double v1)
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
void fillmeSignalAmp3(double v1)
void fillmePed0Depth2(double v1)
void fillmePwidthMap4(double v1, double v2, double v3)
void fillmeDigiSimhit1(double v1, double v2)
void fillmeADC0fC_depth1(double v1)
void fillmeGain0Depth2(double v1)
void fillmeADC0_depth3(double v1)
void fillmePed2Depth3(double v1)
void fillmeGainWidth3Depth1(double v1)
void fillmePed2Depth1(double v1)
void fillmeRatioDigiSimhit3(double v1)
void fillmeGain2Depth3(double v1)
void fillmePedWidth3Depth3(double v1)
void fillmeGain0Depth1(double v1)
void fillmeDigiSimhitProfile1(double v1, double v2)
void fillmeOccupancy_map_depth3(double v1, double v2)
void fillmePed1Depth1(double v1)
void fillmePedWidth0Depth2(double v1)
void fillmeSignalAmp2(double v1)
void fillmeGainWidth1Depth3(double v1)
void fillmePwidthMap2(double v1, double v2, double v3)
void fillmePedWidth0Depth3(double v1)
void fillmeAll10slices_depth1(double v1, double v2)
std::string outputFile_
void fillmeADC0fC_depth3(double v1)
void fillmeGain1Depth4(double v1)
void fillmeAmplIetaIphi1(double v1, double v2, double v3)
Definition: Run.h:43
void fillmePed3Depth1(double v1)
void fillmePed1Depth3(double v1)
void fillmeGain0Depth3(double v1)
void fillmeGainWidth3Depth3(double v1)