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GenXSecAnalyzer.cc
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2 #include "TMath.h"
3 #include <iostream>
4 #include <iomanip>
5 
6 // analyzer of a summary information product on filter efficiency for a user specified path
7 // meant for the generator filter efficiency calculation
8 
9 // system include files
10 #include <memory>
11 #include <vector>
12 #include <map>
13 
14 // user include files
17 
28 
30 
31 //
32 // class declaration
33 //
34 namespace gxsec {
35  struct LumiCache {};
36  struct RunCache {
38  : product_(-9999),
39  filterOnlyEffRun_(0, 0, 0, 0, 0., 0., 0., 0.),
40  hepMCFilterEffRun_(0, 0, 0, 0, 0., 0., 0., 0.) {}
41  // for weight before GenFilter and HepMCFilter and before matching
43 
44  // for weight after GenFilter and HepMCFilter and after matching
46 
47  // GenLumiInfo before HepMCFilter and GenFilter, this is used
48  // for computation
50 
51  // statistics from additional generator filter, for computation
52  // reset for each run
54 
55  // statistics from HepMC filter, for computation
57 
58  // the following vectors all have the same size
59  // LHE or Pythia/Herwig cross section of previous luminosity block
60  // vector size = number of processes, used for computation
61  CMS_THREAD_GUARD(GenXSecAnalyzer::mutex_) mutable std::map<int, GenLumiInfoProduct::XSec> previousLumiBlockLHEXSec_;
62 
63  // LHE or Pythia/Herwig combined cross section of current luminosity block
64  // updated for each luminosity block, initialized in every run
65  // used for computation
66  CMS_THREAD_GUARD(GenXSecAnalyzer::mutex_) mutable std::map<int, GenLumiInfoProduct::XSec> currentLumiBlockLHEXSec_;
67  };
68 } // namespace gxsec
69 
71  : public edm::global::EDAnalyzer<edm::RunCache<gxsec::RunCache>, edm::LuminosityBlockCache<gxsec::LumiCache>> {
72 public:
73  explicit GenXSecAnalyzer(const edm::ParameterSet &);
74  ~GenXSecAnalyzer() override;
75 
76 private:
77  void beginJob() final;
78  std::shared_ptr<gxsec::RunCache> globalBeginRun(edm::Run const &, edm::EventSetup const &) const final;
79  std::shared_ptr<gxsec::LumiCache> globalBeginLuminosityBlock(edm::LuminosityBlock const &,
80  edm::EventSetup const &) const final;
81  void analyze(edm::StreamID, const edm::Event &, const edm::EventSetup &) const final;
82  void globalEndLuminosityBlock(edm::LuminosityBlock const &, edm::EventSetup const &) const final;
83  void globalEndRun(edm::Run const &, edm::EventSetup const &) const final;
84  void endJob() final;
85  // computation of cross section after matching and before HepcFilter and GenFilter
87  // combination of cross section from different MCs after matching (could be either before or after HepcFilter and GenFilter)
88  void combine(GenLumiInfoProduct::XSec &, double &, const GenLumiInfoProduct::XSec &, const double &) const;
89  void combine(double &, double &, double &, const double &, const double &, const double &) const;
90 
95 
96  // ----------member data --------------------------
97 
98  mutable std::atomic<int> nMCs_;
99 
100  mutable std::atomic<int> hepidwtup_;
101 
103 
104  // for weight before GenFilter and HepMCFilter and before matching
106 
107  // for weight after GenFilter and HepMCFilter and after matching
109 
110  // combined cross sections before HepMCFilter and GenFilter
112 
113  // final combined cross sections
115 
116  // statistics from additional generator filter, for print-out only
118 
119  // statistics from HepMC filter, for print-out only
121 
122  // the vector/map size is the number of LHE processes + 1
123  // needed only for printouts, not used for computation
124  // only printed out when combining the same physics process
125  // uncertainty-averaged cross sections before matching
126  CMS_THREAD_GUARD(mutex_) mutable std::vector<GenLumiInfoProduct::XSec> xsecBeforeMatching_;
127  // uncertainty-averaged cross sections after matching
128  CMS_THREAD_GUARD(mutex_) mutable std::vector<GenLumiInfoProduct::XSec> xsecAfterMatching_;
129  // statistics from jet matching
130  CMS_THREAD_GUARD(mutex_) mutable std::map<int, GenFilterInfo> jetMatchEffStat_;
131 };
132 
134  : nMCs_(0),
135  hepidwtup_(-9999),
136  totalWeightPre_(0),
137  totalWeight_(0),
138  xsecPreFilter_(-1, -1),
139  xsec_(-1, -1),
140  filterOnlyEffStat_(0, 0, 0, 0, 0., 0., 0., 0.),
141  hepMCFilterEffStat_(0, 0, 0, 0, 0., 0., 0., 0.) {
142  genFilterInfoToken_ = consumes<GenFilterInfo, edm::InLumi>(edm::InputTag("genFilterEfficiencyProducer", ""));
143  hepMCFilterInfoToken_ = consumes<GenFilterInfo, edm::InLumi>(edm::InputTag("generator", ""));
144  genLumiInfoToken_ = consumes<GenLumiInfoProduct, edm::InLumi>(edm::InputTag("generator", ""));
145  lheRunInfoToken_ = consumes<LHERunInfoProduct, edm::InRun>(edm::InputTag("externalLHEProducer", ""));
146 }
147 
149 
151 
152 std::shared_ptr<gxsec::RunCache> GenXSecAnalyzer::globalBeginRun(edm::Run const &iRun, edm::EventSetup const &) const {
153  // initialization for every different physics MC
154 
155  nMCs_++;
156 
157  {
158  std::lock_guard l{mutex_};
159  xsecBeforeMatching_.clear();
160  xsecAfterMatching_.clear();
161  jetMatchEffStat_.clear();
162  }
163  return std::make_shared<gxsec::RunCache>();
164 }
165 
166 std::shared_ptr<gxsec::LumiCache> GenXSecAnalyzer::globalBeginLuminosityBlock(edm::LuminosityBlock const &iLumi,
167  edm::EventSetup const &) const {
168  return std::shared_ptr<gxsec::LumiCache>();
169 }
170 
172 
176  if (!genLumiInfo.isValid())
177  return;
178  hepidwtup_ = genLumiInfo->getHEPIDWTUP();
179 
180  std::vector<GenLumiInfoProduct::ProcessInfo> const &theProcesses = genLumiInfo->getProcessInfos();
181 
182  unsigned int theProcesses_size = theProcesses.size();
183 
184  // if it's a pure parton-shower generator, check there should be only one element in thisProcessInfos
185  // the error of lheXSec is -1
186  if (hepidwtup_ == -1) {
187  if (theProcesses_size != 1) {
188  edm::LogError("GenXSecAnalyzer::endLuminosityBlock") << "Pure parton shower has thisProcessInfos size!=1";
189  return;
190  }
191  }
192 
193  for (unsigned int ip = 0; ip < theProcesses_size; ip++) {
194  if (theProcesses[ip].lheXSec().value() < 0) {
195  edm::LogError("GenXSecAnalyzer::endLuminosityBlock")
196  << "cross section of process " << ip << " value = " << theProcesses[ip].lheXSec().value();
197  return;
198  }
199  }
200 
201  auto runC = runCache(iLumi.getRun().index());
202  {
203  std::lock_guard g{mutex_};
204  runC->product_.mergeProduct(*genLumiInfo);
205  }
206  edm::Handle<GenFilterInfo> genFilter;
207  iLumi.getByToken(genFilterInfoToken_, genFilter);
208 
209  if (genFilter.isValid()) {
210  std::lock_guard g{mutex_};
211  filterOnlyEffStat_.mergeProduct(*genFilter);
212  runC->filterOnlyEffRun_.mergeProduct(*genFilter);
213  runC->thisRunWeight_ += genFilter->sumPassWeights();
214  }
215 
216  edm::Handle<GenFilterInfo> hepMCFilter;
217  iLumi.getByToken(hepMCFilterInfoToken_, hepMCFilter);
218 
219  if (hepMCFilter.isValid()) {
220  std::lock_guard g{mutex_};
221  hepMCFilterEffStat_.mergeProduct(*hepMCFilter);
222  runC->hepMCFilterEffRun_.mergeProduct(*hepMCFilter);
223  }
224 
225  std::lock_guard g{mutex_};
226  // doing generic summing for jet matching statistics
227  // and computation of combined LHE information
228  for (unsigned int ip = 0; ip < theProcesses_size; ip++) {
229  int id = theProcesses[ip].process();
231  GenLumiInfoProduct::XSec &y = runC->currentLumiBlockLHEXSec_[id];
232  GenLumiInfoProduct::FinalStat temp_killed = theProcesses[ip].killed();
233  GenLumiInfoProduct::FinalStat temp_selected = theProcesses[ip].selected();
234  double passw = temp_killed.sum();
235  double passw2 = temp_killed.sum2();
236  double totalw = temp_selected.sum();
237  double totalw2 = temp_selected.sum2();
238  GenFilterInfo tempInfo(theProcesses[ip].nPassPos(),
239  theProcesses[ip].nPassNeg(),
240  theProcesses[ip].nTotalPos(),
241  theProcesses[ip].nTotalNeg(),
242  passw,
243  passw2,
244  totalw,
245  totalw2);
246 
247  // matching statistics for all processes
248  jetMatchEffStat_[10000].mergeProduct(tempInfo);
249  double currentValue = theProcesses[ip].lheXSec().value();
250  double currentError = theProcesses[ip].lheXSec().error();
251 
252  // this process ID has occurred before
253  auto &thisRunWeightPre = runC->thisRunWeightPre_;
254  if (y.value() > 0) {
255  x.mergeProduct(tempInfo);
256  double previousValue = runC->previousLumiBlockLHEXSec_[id].value();
257 
258  if (currentValue != previousValue) // transition of cross section
259  {
260  double xsec = y.value();
261  double err = y.error();
262  combine(xsec, err, thisRunWeightPre, currentValue, currentError, totalw);
263  y = GenLumiInfoProduct::XSec(xsec, err);
264  } else // LHE cross section is the same as previous lumiblock
265  thisRunWeightPre += totalw;
266 
267  }
268  // this process ID has never occurred before
269  else {
270  x = tempInfo;
271  y = theProcesses[ip].lheXSec();
272  thisRunWeightPre += totalw;
273  }
274 
275  runC->previousLumiBlockLHEXSec_[id] = theProcesses[ip].lheXSec();
276  } // end
277 
278  return;
279 }
280 
281 void GenXSecAnalyzer::globalEndRun(edm::Run const &iRun, edm::EventSetup const &) const {
282  //xsection before matching
284 
285  if (iRun.getByToken(lheRunInfoToken_, run)) {
286  const lhef::HEPRUP thisHeprup = run->heprup();
287 
288  for (unsigned int iSize = 0; iSize < thisHeprup.XSECUP.size(); iSize++) {
289  std::cout << std::setw(14) << std::fixed << thisHeprup.XSECUP[iSize] << std::setw(14) << std::fixed
290  << thisHeprup.XERRUP[iSize] << std::setw(14) << std::fixed << thisHeprup.XMAXUP[iSize] << std::setw(14)
291  << std::fixed << thisHeprup.LPRUP[iSize] << std::endl;
292  }
293  std::cout << " " << std::endl;
294  }
295 
296  auto runC = runCache(iRun.index());
297  std::lock_guard l{mutex_};
298 
299  // compute cross section for this run first
300  // set the correct combined LHE+filter cross sections
301  unsigned int i = 0;
302  std::vector<GenLumiInfoProduct::ProcessInfo> newInfos;
303  for (std::map<int, GenLumiInfoProduct::XSec>::const_iterator iter = runC->currentLumiBlockLHEXSec_.begin();
304  iter != runC->currentLumiBlockLHEXSec_.end();
305  ++iter, i++) {
306  GenLumiInfoProduct::ProcessInfo temp = runC->product_.getProcessInfos()[i];
307  temp.setLheXSec(iter->second.value(), iter->second.error());
308  newInfos.push_back(temp);
309  }
310  runC->product_.setProcessInfo(newInfos);
311 
312  const GenLumiInfoProduct::XSec thisRunXSecPre = compute(runC->product_);
313  // xsection after matching before filters
314  combine(xsecPreFilter_, totalWeightPre_, thisRunXSecPre, runC->thisRunWeightPre_);
315 
316  double thisHepFilterEff = 1;
317  double thisHepFilterErr = 0;
318 
319  if (runC->hepMCFilterEffRun_.sumWeights2() > 0) {
320  thisHepFilterEff = runC->hepMCFilterEffRun_.filterEfficiency(hepidwtup_);
321  thisHepFilterErr = runC->hepMCFilterEffRun_.filterEfficiencyError(hepidwtup_);
322  if (thisHepFilterEff < 0) {
323  thisHepFilterEff = 1;
324  thisHepFilterErr = 0;
325  }
326  }
327 
328  double thisGenFilterEff = 1;
329  double thisGenFilterErr = 0;
330 
331  if (runC->filterOnlyEffRun_.sumWeights2() > 0) {
332  thisGenFilterEff = runC->filterOnlyEffRun_.filterEfficiency(hepidwtup_);
333  thisGenFilterErr = runC->filterOnlyEffRun_.filterEfficiencyError(hepidwtup_);
334  if (thisGenFilterEff < 0) {
335  thisGenFilterEff = 1;
336  thisGenFilterErr = 0;
337  }
338  }
339  double thisXsec = thisRunXSecPre.value() > 0 ? thisHepFilterEff * thisGenFilterEff * thisRunXSecPre.value() : 0;
340  double thisErr =
341  thisRunXSecPre.value() > 0
342  ? thisXsec * sqrt(pow(TMath::Max(thisRunXSecPre.error(), (double)0) / thisRunXSecPre.value(), 2) +
343  pow(thisHepFilterErr / thisHepFilterEff, 2) + pow(thisGenFilterErr / thisGenFilterEff, 2))
344  : 0;
345  const GenLumiInfoProduct::XSec thisRunXSec = GenLumiInfoProduct::XSec(thisXsec, thisErr);
346  combine(xsec_, totalWeight_, thisRunXSec, runC->thisRunWeight_);
347 }
348 
349 void GenXSecAnalyzer::combine(double &finalValue,
350  double &finalError,
351  double &finalWeight,
352  const double &currentValue,
353  const double &currentError,
354  const double &currentWeight) const {
355  if (finalValue <= 0) {
356  finalValue = currentValue;
357  finalError = currentError;
358  finalWeight += currentWeight;
359  } else {
360  double wgt1 = (finalError <= 0 || currentError <= 0) ? finalWeight : 1 / (finalError * finalError);
361  double wgt2 = (finalError <= 0 || currentError <= 0) ? currentWeight : 1 / (currentError * currentError);
362  double xsec = (wgt1 * finalValue + wgt2 * currentValue) / (wgt1 + wgt2);
363  double err = (finalError <= 0 || currentError <= 0) ? 0 : 1.0 / std::sqrt(wgt1 + wgt2);
364  finalValue = xsec;
365  finalError = err;
366  finalWeight += currentWeight;
367  }
368  return;
369 }
370 
372  double &totalw,
373  const GenLumiInfoProduct::XSec &thisRunXSec,
374  const double &thisw) const {
375  double value = finalXSec.value();
376  double error = finalXSec.error();
377  double thisValue = thisRunXSec.value();
378  double thisError = thisRunXSec.error();
379  combine(value, error, totalw, thisValue, thisError, thisw);
380  finalXSec = GenLumiInfoProduct::XSec(value, error);
381  return;
382 }
383 
385  // sum of cross sections and errors over different processes
386  double sigSelSum = 0.0;
387  double err2SelSum = 0.0;
388  double sigSum = 0.0;
389  double err2Sum = 0.0;
390 
391  std::vector<GenLumiInfoProduct::XSec> tempVector_before;
392  std::vector<GenLumiInfoProduct::XSec> tempVector_after;
393 
394  // loop over different processes for each sample
395  unsigned int vectorSize = iLumiInfo.getProcessInfos().size();
396  for (unsigned int ip = 0; ip < vectorSize; ip++) {
398  double hepxsec_value = proc.lheXSec().value();
399  double hepxsec_error = proc.lheXSec().error() <= 0 ? 0 : proc.lheXSec().error();
400  tempVector_before.push_back(GenLumiInfoProduct::XSec(hepxsec_value, hepxsec_error));
401 
402  sigSelSum += hepxsec_value;
403  err2SelSum += hepxsec_error * hepxsec_error;
404 
405  // skips computation if jet matching efficiency=0
406  if (proc.killed().n() < 1) {
407  tempVector_after.push_back(GenLumiInfoProduct::XSec(0.0, 0.0));
408  continue;
409  }
410 
411  // computing jet matching efficiency for this process
412  double fracAcc = 0;
413  double ntotal = proc.nTotalPos() - proc.nTotalNeg();
414  double npass = proc.nPassPos() - proc.nPassNeg();
415  switch (hepidwtup_) {
416  case 3:
417  case -3:
418  fracAcc = ntotal > 0 ? npass / ntotal : -1;
419  break;
420  default:
421  fracAcc = proc.selected().sum() > 0 ? proc.killed().sum() / proc.selected().sum() : -1;
422  break;
423  }
424 
425  if (fracAcc <= 0) {
426  tempVector_after.push_back(GenLumiInfoProduct::XSec(0.0, 0.0));
427  continue;
428  }
429 
430  // cross section after matching for this particular process
431  double sigmaFin = hepxsec_value * fracAcc;
432 
433  // computing error on jet matching efficiency
434  double relErr = 1.0;
435  double efferr2 = 0;
436  switch (hepidwtup_) {
437  case 3:
438  case -3: {
439  double ntotal_pos = proc.nTotalPos();
440  double effp = ntotal_pos > 0 ? (double)proc.nPassPos() / ntotal_pos : 0;
441  double effp_err2 = ntotal_pos > 0 ? (1 - effp) * effp / ntotal_pos : 0;
442 
443  double ntotal_neg = proc.nTotalNeg();
444  double effn = ntotal_neg > 0 ? (double)proc.nPassNeg() / ntotal_neg : 0;
445  double effn_err2 = ntotal_neg > 0 ? (1 - effn) * effn / ntotal_neg : 0;
446 
447  efferr2 = ntotal > 0
448  ? (ntotal_pos * ntotal_pos * effp_err2 + ntotal_neg * ntotal_neg * effn_err2) / ntotal / ntotal
449  : 0;
450  break;
451  }
452  default: {
453  double denominator = pow(proc.selected().sum(), 4);
454  double passw = proc.killed().sum();
455  double passw2 = proc.killed().sum2();
456  double failw = proc.selected().sum() - passw;
457  double failw2 = proc.selected().sum2() - passw2;
458  double numerator = (passw2 * failw * failw + failw2 * passw * passw);
459 
460  efferr2 = denominator > 0 ? numerator / denominator : 0;
461  break;
462  }
463  }
464  double delta2Veto = efferr2 / fracAcc / fracAcc;
465 
466  // computing total error on cross section after matching efficiency
467 
468  double sigma2Sum, sigma2Err;
469  sigma2Sum = hepxsec_value * hepxsec_value;
470  sigma2Err = hepxsec_error * hepxsec_error;
471 
472  double delta2Sum = delta2Veto + sigma2Err / sigma2Sum;
473  relErr = (delta2Sum > 0.0 ? std::sqrt(delta2Sum) : 0.0);
474  double deltaFin = sigmaFin * relErr;
475 
476  tempVector_after.push_back(GenLumiInfoProduct::XSec(sigmaFin, deltaFin));
477 
478  // sum of cross sections and errors over different processes
479  sigSum += sigmaFin;
480  err2Sum += deltaFin * deltaFin;
481 
482  } // end of loop over different processes
483  tempVector_before.push_back(GenLumiInfoProduct::XSec(sigSelSum, sqrt(err2SelSum)));
484 
485  double total_matcheff = jetMatchEffStat_[10000].filterEfficiency(hepidwtup_);
486  double total_matcherr = jetMatchEffStat_[10000].filterEfficiencyError(hepidwtup_);
487 
488  double xsec_after = sigSelSum * total_matcheff;
489  double xsecerr_after = (total_matcheff > 0 && sigSelSum > 0)
490  ? xsec_after * sqrt(err2SelSum / sigSelSum / sigSelSum +
491  total_matcherr * total_matcherr / total_matcheff / total_matcheff)
492  : 0;
493 
494  GenLumiInfoProduct::XSec result(xsec_after, xsecerr_after);
495  tempVector_after.push_back(result);
496 
497  xsecBeforeMatching_ = tempVector_before;
498  xsecAfterMatching_ = tempVector_after;
499 
500  return result;
501 }
502 
504  edm::LogPrint("GenXSecAnalyzer") << "\n"
505  << "------------------------------------"
506  << "\n"
507  << "GenXsecAnalyzer:"
508  << "\n"
509  << "------------------------------------";
510 
511  if (jetMatchEffStat_.empty()) {
512  edm::LogPrint("GenXSecAnalyzer") << "------------------------------------"
513  << "\n"
514  << "Cross-section summary not available"
515  << "\n"
516  << "------------------------------------";
517  return;
518  }
519 
520  // fraction of negative weights
521  double final_fract_neg_w = 0;
522  double final_fract_neg_w_unc = 0;
523 
524  // below print out is only for combination of same physics MC samples and ME+Pythia MCs
525 
526  if (nMCs_ == 1 && hepidwtup_ != -1) {
527  edm::LogPrint("GenXSecAnalyzer")
528  << "-----------------------------------------------------------------------------------------------------------"
529  "--------------------------------------------------------------- \n"
530  << "Overall cross-section summary \n"
531  << "-----------------------------------------------------------------------------------------------------------"
532  "---------------------------------------------------------------";
533  edm::LogPrint("GenXSecAnalyzer") << "Process\t\txsec_before [pb]\t\tpassed\tnposw\tnnegw\ttried\tnposw\tnnegw "
534  "\txsec_match [pb]\t\t\taccepted [%]\t event_eff [%]";
535 
536  const unsigned sizeOfInfos = jetMatchEffStat_.size();
537  const unsigned last = sizeOfInfos - 1;
538  std::string *title = new std::string[sizeOfInfos];
539  unsigned int i = 0;
540  double jetmatch_eff = 0;
541  double jetmatch_err = 0;
542  double matching_eff = 1;
543  double matching_efferr = 1;
544 
545  for (std::map<int, GenFilterInfo>::const_iterator iter = jetMatchEffStat_.begin(); iter != jetMatchEffStat_.end();
546  ++iter, i++) {
547  GenFilterInfo thisJetMatchStat = iter->second;
548  GenFilterInfo thisEventEffStat =
549  GenFilterInfo(thisJetMatchStat.numPassPositiveEvents() + thisJetMatchStat.numPassNegativeEvents(),
550  0,
551  thisJetMatchStat.numTotalPositiveEvents() + thisJetMatchStat.numTotalNegativeEvents(),
552  0,
553  thisJetMatchStat.numPassPositiveEvents() + thisJetMatchStat.numPassNegativeEvents(),
554  thisJetMatchStat.numPassPositiveEvents() + thisJetMatchStat.numPassNegativeEvents(),
555  thisJetMatchStat.numTotalPositiveEvents() + thisJetMatchStat.numTotalNegativeEvents(),
556  thisJetMatchStat.numTotalPositiveEvents() + thisJetMatchStat.numTotalNegativeEvents());
557 
558  jetmatch_eff = thisJetMatchStat.filterEfficiency(hepidwtup_);
559  jetmatch_err = thisJetMatchStat.filterEfficiencyError(hepidwtup_);
560 
561  if (i == last) {
562  title[i] = "Total";
563 
564  edm::LogPrint("GenXSecAnalyzer")
565  << "-------------------------------------------------------------------------------------------------------"
566  "------------------------------------------------------------------- ";
567 
568  // fill negative fraction of negative weights and uncertainty after matching
569  final_fract_neg_w = thisEventEffStat.numEventsPassed() > 0
570  ? thisJetMatchStat.numPassNegativeEvents() / thisEventEffStat.numEventsPassed()
571  : 0;
572  final_fract_neg_w_unc =
573  thisJetMatchStat.numPassNegativeEvents() > 0
574  ? final_fract_neg_w * final_fract_neg_w / thisEventEffStat.numEventsPassed() *
575  sqrt(thisJetMatchStat.numPassPositiveEvents() * thisJetMatchStat.numPassPositiveEvents() /
576  thisJetMatchStat.numPassNegativeEvents() +
577  thisJetMatchStat.numPassPositiveEvents())
578  : 0;
579  } else {
580  title[i] = Form("%d", i);
581  }
582 
583  edm::LogPrint("GenXSecAnalyzer") << title[i] << "\t\t" << std::scientific << std::setprecision(3)
584  << xsecBeforeMatching_[i].value() << " +/- " << xsecBeforeMatching_[i].error()
585  << "\t\t" << thisEventEffStat.numEventsPassed() << "\t"
586  << thisJetMatchStat.numPassPositiveEvents() << "\t"
587  << thisJetMatchStat.numPassNegativeEvents() << "\t"
588  << thisEventEffStat.numEventsTotal() << "\t"
589  << thisJetMatchStat.numTotalPositiveEvents() << "\t"
590  << thisJetMatchStat.numTotalNegativeEvents() << "\t" << std::scientific
591  << std::setprecision(3) << xsecAfterMatching_[i].value() << " +/- "
592  << xsecAfterMatching_[i].error() << "\t\t" << std::fixed << std::setprecision(1)
593  << (jetmatch_eff * 100) << " +/- " << (jetmatch_err * 100) << "\t" << std::fixed
594  << std::setprecision(1) << (thisEventEffStat.filterEfficiency(+3) * 100)
595  << " +/- " << (thisEventEffStat.filterEfficiencyError(+3) * 100);
596 
597  matching_eff = thisEventEffStat.filterEfficiency(+3);
598  matching_efferr = thisEventEffStat.filterEfficiencyError(+3);
599  }
600  delete[] title;
601 
602  edm::LogPrint("GenXSecAnalyzer")
603  << "-----------------------------------------------------------------------------------------------------------"
604  "---------------------------------------------------------------";
605 
606  edm::LogPrint("GenXSecAnalyzer") << "Before matching: total cross section = " << std::scientific
607  << std::setprecision(3) << xsecBeforeMatching_[last].value() << " +- "
608  << xsecBeforeMatching_[last].error() << " pb";
609 
610  edm::LogPrint("GenXSecAnalyzer") << "After matching: total cross section = " << std::scientific
611  << std::setprecision(3) << xsecAfterMatching_[last].value() << " +- "
612  << xsecAfterMatching_[last].error() << " pb";
613 
614  edm::LogPrint("GenXSecAnalyzer") << "Matching efficiency = " << std::fixed << std::setprecision(1) << matching_eff
615  << " +/- " << matching_efferr << " [TO BE USED IN MCM]";
616 
617  } else if (hepidwtup_ == -1)
618  edm::LogPrint("GenXSecAnalyzer") << "Before Filter: total cross section = " << std::scientific
619  << std::setprecision(3) << xsecPreFilter_.value() << " +- "
620  << xsecPreFilter_.error() << " pb";
621 
622  // hepMC filter efficiency
623  double hepMCFilter_eff = 1.0;
624  double hepMCFilter_err = 0.0;
625  if (hepMCFilterEffStat_.sumWeights2() > 0) {
626  hepMCFilter_eff = hepMCFilterEffStat_.filterEfficiency(-1);
627  hepMCFilter_err = hepMCFilterEffStat_.filterEfficiencyError(-1);
628  edm::LogPrint("GenXSecAnalyzer") << "HepMC filter efficiency (taking into account weights)= "
629  << "(" << hepMCFilterEffStat_.sumPassWeights() << ")"
630  << " / "
631  << "(" << hepMCFilterEffStat_.sumWeights() << ")"
632  << " = " << std::scientific << std::setprecision(3) << hepMCFilter_eff << " +- "
633  << hepMCFilter_err;
634 
635  double hepMCFilter_event_total =
637  double hepMCFilter_event_pass =
639  double hepMCFilter_event_eff = hepMCFilter_event_total > 0 ? hepMCFilter_event_pass / hepMCFilter_event_total : 0;
640  double hepMCFilter_event_err =
641  hepMCFilter_event_total > 0
642  ? sqrt((1 - hepMCFilter_event_eff) * hepMCFilter_event_eff / hepMCFilter_event_total)
643  : -1;
644  edm::LogPrint("GenXSecAnalyzer") << "HepMC filter efficiency (event-level)= "
645  << "(" << hepMCFilter_event_pass << ")"
646  << " / "
647  << "(" << hepMCFilter_event_total << ")"
648  << " = " << std::scientific << std::setprecision(3) << hepMCFilter_event_eff
649  << " +- " << hepMCFilter_event_err;
650  }
651 
652  // gen-particle filter efficiency
653  if (filterOnlyEffStat_.sumWeights2() > 0) {
654  double filterOnly_eff = filterOnlyEffStat_.filterEfficiency(-1);
655  double filterOnly_err = filterOnlyEffStat_.filterEfficiencyError(-1);
656 
657  edm::LogPrint("GenXSecAnalyzer") << "Filter efficiency (taking into account weights)= "
658  << "(" << filterOnlyEffStat_.sumPassWeights() << ")"
659  << " / "
660  << "(" << filterOnlyEffStat_.sumWeights() << ")"
661  << " = " << std::scientific << std::setprecision(3) << filterOnly_eff << " +- "
662  << filterOnly_err;
663 
664  double filterOnly_event_total =
666  double filterOnly_event_pass =
668  double filterOnly_event_eff = filterOnly_event_total > 0 ? filterOnly_event_pass / filterOnly_event_total : 0;
669  double filterOnly_event_err = filterOnly_event_total > 0
670  ? sqrt((1 - filterOnly_event_eff) * filterOnly_event_eff / filterOnly_event_total)
671  : -1;
672  edm::LogPrint("GenXSecAnalyzer") << "Filter efficiency (event-level)= "
673  << "(" << filterOnly_event_pass << ")"
674  << " / "
675  << "(" << filterOnly_event_total << ")"
676  << " = " << std::scientific << std::setprecision(3) << filterOnly_event_eff
677  << " +- " << filterOnly_event_err << " [TO BE USED IN MCM]";
678 
679  // fill negative fraction of negative weights and uncertainty after filter
680  final_fract_neg_w =
681  filterOnly_event_pass > 0 ? filterOnlyEffStat_.numPassNegativeEvents() / (filterOnly_event_pass) : 0;
682  final_fract_neg_w_unc =
684  ? final_fract_neg_w * final_fract_neg_w / filterOnly_event_pass *
688  : 0;
689  }
690 
691  edm::LogPrint("GenXSecAnalyzer") << "\nAfter filter: final cross section = " << std::scientific
692  << std::setprecision(3) << xsec_.value() << " +- " << xsec_.error() << " pb";
693 
694  edm::LogPrint("GenXSecAnalyzer") << "After filter: final fraction of events with negative weights = "
695  << std::scientific << std::setprecision(3) << final_fract_neg_w << " +- "
696  << final_fract_neg_w_unc;
697 
698  // L=[N*(1-2f)^2]/s
699  double lumi_1M_evts =
700  xsec_.value() > 0 ? 1e6 * (1 - 2 * final_fract_neg_w) * (1 - 2 * final_fract_neg_w) / xsec_.value() / 1e3 : 0;
701  double lumi_1M_evts_unc =
702  xsec_.value() > 0 ? (1 - 2 * final_fract_neg_w) * lumi_1M_evts *
703  sqrt(1e-6 + 16 * pow(final_fract_neg_w_unc, 2) / pow(1 - 2 * final_fract_neg_w, 2) +
704  pow(xsec_.error() / xsec_.value(), 2))
705  : 0;
706  edm::LogPrint("GenXSecAnalyzer") << "After filter: final equivalent lumi for 1M events (1/fb) = " << std::scientific
707  << std::setprecision(3) << lumi_1M_evts << " +- " << lumi_1M_evts_unc;
708 }
709 
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