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00020
00021 # include "HLTriggerOffline/Top/interface/TopValidation.h"
00022 #include "FWCore/Common/interface/TriggerNames.h"
00023
00024
00025
00026 TopValidation::TopValidation(const edm::ParameterSet& iConfig)
00027
00028 {
00029
00030
00031 inputTag_ = iConfig.getParameter<edm::InputTag>("TriggerResultsCollection");
00032 hlt_bitnames = iConfig.getParameter<std::vector<std::string> >("hltPaths");
00033 hlt_bitnamesMu = iConfig.getParameter<std::vector<std::string> >("hltMuonPaths");
00034 hlt_bitnamesEg = iConfig.getParameter<std::vector<std::string> >("hltEgPaths");
00035 hlt_bitnamesJet = iConfig.getParameter<std::vector<std::string> >("hltJetPaths");
00036
00037 outputFileName = iConfig.getParameter<std::string>("OutputFileName");
00038 outputMEsInRootFile = iConfig.getParameter<bool>("OutputMEsInRootFile");
00039 FolderName_ = iConfig.getParameter<std::string>("FolderName");
00040
00041 topFolder << FolderName_ ;
00042
00043
00044
00045 }
00046
00047
00048 TopValidation::~TopValidation()
00049 {
00050
00051
00052
00053
00054 }
00055
00056
00057
00058
00059
00060
00061
00062
00063 void
00064 TopValidation::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup)
00065 {
00066 using namespace edm;
00067
00068
00069
00070 Handle<reco::MuonCollection> muonsH;
00071 iEvent.getByLabel("muons", muonsH);
00072
00073
00074 Handle<reco::TrackCollection> tracks;
00075 iEvent.getByLabel("ctfWithMaterialTracks", tracks);
00076
00077
00078
00079 Handle<reco::CaloJetCollection> jetsHandle;
00080 iEvent.getByLabel("iterativeCone5CaloJets", jetsHandle);
00081
00082
00083
00084 Handle<reco::GsfElectronCollection> electronsH;
00085
00086 iEvent.getByLabel("gsfElectrons",electronsH);
00087
00088
00089 Handle<TriggerResults> trh;
00090 iEvent.getByLabel(inputTag_,trh);
00091 if( ! trh.isValid() ) {
00092 LogDebug("") << "HL TriggerResults with label ["+inputTag_.encode()+"] not found!";
00093 return;
00094 }
00095
00096
00097
00098 const edm::TriggerNames & triggerNames = iEvent.triggerNames(*trh);
00099
00101
00103
00104 bool topevent = false;
00105
00106 int ntop = 0;
00107 int ngenel = 0;
00108 int ngenmu = 0;
00109 int ngentau = 0;
00110 int ngenlep = 0;
00111 int nmuaccept= 0;
00112 int nelaccept= 0;
00113
00114
00115 Handle <reco::GenParticleCollection> genParticles;
00116 iEvent.getByLabel("genParticles", genParticles);
00117
00118 for (size_t i=0; i < genParticles->size(); ++i){
00119 const reco::Candidate & p = (*genParticles)[i];
00120 int id = p.pdgId();
00121 int st = p.status();
00122
00123 if (abs(id) == 6 && st == 3) ntop++;
00124
00125 if (st==3 && abs(id)==11) {
00126 ngenel++;
00127 if ( p.pt()>10 && fabs(p.eta())<2.4) nelaccept++;
00128 }
00129
00130 if (st==3 && abs(id)==13) {
00131 ngenmu++;
00132 if ( p.pt()>10 && fabs(p.eta())<2.4) nmuaccept++;
00133 }
00134
00135 if (st==3 && abs(id)==15) ngentau++;
00136 if (st==3 && ( abs(id)==11 || abs(id)==13 || abs(id)==15)) ngenlep++;
00137
00138 }
00139
00140 if (ntop == 2) topevent = true;
00141
00142
00143
00144
00145
00149
00150
00151 std::map<double,reco::Muon> muonMap;
00152
00153 for (size_t i = 0; i< muonsH->size(); ++i){
00154 if ( (*muonsH)[i].isGlobalMuon() && (*muonsH)[i].pt()>15 && fabs((*muonsH)[i].eta())<2.1){
00155 muonMap[(*muonsH)[i].pt()] = (*muonsH)[i];
00156 }
00157 }
00158
00159
00160 bool TwoMuonsAccepted = false;
00161
00162 std::vector<reco::Muon> selected_muons;
00163 reco::Muon muon1,muon2;
00164
00165 for( std::map<double,reco::Muon>::reverse_iterator rit=muonMap.rbegin(); rit!=muonMap.rend(); ++rit){
00166 selected_muons.push_back( (*rit).second );
00167 }
00168
00169 if (selected_muons.size()==1) muon1 = selected_muons[0];
00170
00171 if (selected_muons.size()>1){
00172 muon1 = selected_muons[0];
00173 muon2 = selected_muons[1];
00174 }
00175
00176
00177 if( selected_muons.size()>1 && muon1.pt() >20 && muon1.charge()*muon2.charge()<0 ) TwoMuonsAccepted = true;
00178
00179
00183
00184
00185 std::map<double,reco::GsfElectron> electronMap;
00186
00187 for (size_t i = 0; i<electronsH->size();++i){
00188 if( (*electronsH)[i].pt()>15 && fabs( (*electronsH)[i].eta() )<2.4) {
00189 electronMap[(*electronsH)[i].pt()] = (*electronsH)[i];
00190 }
00191 }
00192
00193
00194 bool TwoElectronsAccepted = false;
00195
00196 std::vector<reco::GsfElectron> selected_electrons;
00197 reco::GsfElectron electron1, electron2;
00198
00199 for( std::map<double,reco::GsfElectron>::reverse_iterator rit=electronMap.rbegin(); rit!=electronMap.rend(); ++rit){
00200 selected_electrons.push_back( (*rit).second );
00201 }
00202
00203 if (selected_electrons.size()==1) electron1 = selected_electrons[0];
00204
00205 if (selected_electrons.size()>1){
00206
00207 electron1 = selected_electrons[0];
00208 electron2 = selected_electrons[1];
00209 }
00210
00211
00212 if( selected_electrons.size()>1 && electron1.pt() >20 && electron1.charge()*electron2.charge()<0 ) TwoElectronsAccepted = true;
00213
00214
00215
00219
00220
00221
00222
00223 const reco::CaloJetCollection *jets = jetsHandle.product();
00224 reco::CaloJetCollection::const_iterator jet;
00225
00226 int n_jets_20=0;
00227
00228 for (jet = jets->begin(); jet != jets->end(); jet++){
00229
00230
00231 if (fabs(jet->eta()) <2.4 && jet->et() > 13) n_jets_20++;
00232 }
00233
00234
00236
00237
00238
00239
00240
00241
00242
00243
00244
00245
00246
00247
00248
00249
00250
00251
00252
00253
00254
00255
00256
00257
00258
00259
00265
00266
00267
00268 bool offline_mu = false;
00269 bool offline_dimu = false;
00270 bool offline_el = false;
00271 bool offline_diel = false;
00272 bool offline_emu = false;
00273
00274
00275 if ( selected_muons.size()>0 && muon1.pt()>20 && n_jets_20>1) offline_mu=true;
00276 if ( TwoMuonsAccepted && n_jets_20>1) offline_dimu=true;
00277 if ( selected_electrons.size()>0 && electron1.pt()>20 && n_jets_20>1) offline_el=true;
00278 if ( TwoElectronsAccepted && n_jets_20>1) offline_diel=true;
00279 if ( selected_muons.size()>0 && selected_electrons.size()>0 && (muon1.pt()>20 || electron1.pt()>20) && (muon1.charge()!= electron1.charge()) && n_jets_20>1) offline_emu=true;
00280
00281
00282
00283
00285
00287
00288 int wtrig_[100] ={0};
00289 int wtrig_m[100] ={0};
00290 int wtrig_eg[100]={0};
00291 int wtrig_jet[100]={0};
00292
00293 bool HLTQuadJet30 = false;
00294 bool HLTMu9 = false;
00295
00296
00297 int n_hlt_bits = hlt_bitnames.size();
00298 int n_hlt_bits_mu = hlt_bitnamesMu.size();
00299 int n_hlt_bits_eg = hlt_bitnamesEg.size();
00300 int n_hlt_bits_jet= hlt_bitnamesJet.size();
00301
00302 const unsigned int n_TriggerResults( trh.product()->size());
00303
00304 for (unsigned int itrig=0; itrig< n_TriggerResults; ++itrig) {
00305
00307 if (triggerNames.triggerName(itrig) == "HLT_QuadJet30"){
00308 if ( trh.product()->accept( itrig ) ) HLTQuadJet30=true;
00309 }
00310 if (triggerNames.triggerName(itrig) == "HLT_Mu9"){
00311 if ( trh.product()->accept( itrig ) ) HLTMu9=true;
00312 }
00314 if (trh.product()->accept(itrig)) {
00315
00316 for (int i=0;i<n_hlt_bits;i++) {
00317 if ( triggerNames.triggerName(itrig)== hlt_bitnames[i]) {
00318 wtrig_[i]=1;
00319 }
00320 }
00321 for (int j=0;j<n_hlt_bits_mu;j++) {
00322 if ( triggerNames.triggerName(itrig)== hlt_bitnamesMu[j]) {
00323 wtrig_m[j]=1;
00324 }
00325 }
00326 for (int k=0;k<n_hlt_bits_eg;k++) {
00327 if ( triggerNames.triggerName(itrig)== hlt_bitnamesEg[k]) {
00328 wtrig_eg[k]=1;
00329 }
00330 }
00331
00332 for (int l=0;l<n_hlt_bits_jet;l++) {
00333 if ( triggerNames.triggerName(itrig)== hlt_bitnamesJet[l]) {
00334 wtrig_jet[l]=1;
00335 }
00336 }
00337
00338 }
00339 }
00340
00341
00342
00346
00347 events_acc_off_muon->Fill(1,1);
00348 if (ngenlep==1 && ngenmu==1) events_acc_off_muon->Fill(2,1);
00349 events_acc_off_electron->Fill(1,1);
00350 if (ngenlep==1 && ngenel==1) events_acc_off_electron->Fill(2,1);
00351
00353
00354
00355
00356 if ( ngenlep==1 && ngenmu==1 && nmuaccept==1){
00357
00358 events_acc_off_muon->Fill(3,1);
00359
00360 for (int j=0;j<n_hlt_bits_mu;j++) {
00361 h_mu_gen->Fill(j+1);
00362 if (wtrig_m[j]==1) {
00363 hlt_bitmu_hist_gen->Fill(j+1);
00364 }
00365 }
00366
00367 for (int it=0; it<n_hlt_bits_jet;it++){
00368 h_jet_gen->Fill(it+1);
00369 if (wtrig_jet[it]==1) {
00370 hlt_bitjet_hist_gen->Fill(it+1);
00371 }
00372 }
00373
00374
00375
00376 if (offline_mu){
00377
00378 events_acc_off_muon->Fill(4,1);
00379
00380
00381
00382
00383 for (int it=0; it<n_hlt_bits_jet;it++){
00384 h_jet_reco->Fill(it+1);
00385 if (wtrig_jet[it]==1) {
00386 hlt_bitjet_hist_reco->Fill(it+1);
00387
00388
00389
00390
00391 }
00392
00393 }
00394
00395 eta_off_mu->Fill(muon1.eta());
00396 pt_off_mu-> Fill(muon1.pt());
00397
00398 for (int j=0;j<n_hlt_bits_mu;j++) {
00399 h_mu_reco->Fill(j+1);
00400 if (wtrig_m[j]==1) {
00401 h_ptmu1_trig[j]->Fill(muon1.pt());
00402 h_etamu1_trig[j]->Fill(muon1.eta());
00403 hlt_bitmu_hist_reco->Fill(j+1);
00404 }
00405 }
00406
00407 }
00408 }
00409
00410
00411
00413
00414 if (HLTQuadJet30){
00415
00416 if (offline_mu){
00417
00418 ptmuon_4jet1muSel->Fill(muon1.pt());
00419 etamuon_4jet1muSel->Fill(muon1.eta());
00420 Njets_4jet1muSel->Fill(n_jets_20);
00421
00422 if (HLTMu9){
00423
00424 ptmuon_4jet1muSel_hltmu9->Fill(muon1.pt());
00425 etamuon_4jet1muSel_hltmu9->Fill(muon1.eta());
00426 Njets_4jet1muSel_hltmu9->Fill(n_jets_20);
00427 }
00428 }
00429 }
00430
00431
00433
00434
00435
00436 if ( ngenlep==1 && ngenel==1 && nelaccept==1){
00437
00438 events_acc_off_electron->Fill(3,1);
00439
00440 for (int j=0;j<n_hlt_bits_eg;j++) {
00441 h_el_gen->Fill(j+1);
00442 if (wtrig_eg[j]==1) {
00443 hlt_bitel_hist_gen->Fill(j+1);
00444 }
00445 }
00446
00447 for (int it=0; it<n_hlt_bits_jet;it++){
00448 h_jet_gen_el->Fill(it+1);
00449 if (wtrig_jet[it]==1) {
00450 hlt_bitjet_hist_gen_el->Fill(it+1);
00451 }
00452 }
00453
00454
00455 if (offline_el){
00456
00457 events_acc_off_electron->Fill(4,1);
00458
00459
00460
00461
00462
00463 for (int it=0; it<n_hlt_bits_jet;it++){
00464 h_jet_reco_el->Fill(it+1);
00465 if (wtrig_jet[it]==1) {
00466 hlt_bitjet_hist_reco_el->Fill(it+1);
00467
00468
00469 }
00470
00471 }
00472
00473
00475 eta_off_el->Fill(electron1.eta());
00476 pt_off_el->Fill(electron1.pt());
00477
00478 for (int k=0;k<n_hlt_bits_eg;k++) {
00479 h_el_reco->Fill(k+1);
00480
00481 if (wtrig_eg[k]==1) {
00482 h_ptel1_trig[k]->Fill(electron1.pt());
00483 h_etael1_trig[k]->Fill(electron1.eta());
00484 hlt_bitel_hist_reco->Fill(k+1);
00485 }
00486 }
00487
00488 }
00489 }
00490
00491
00492
00493
00494 if ( ngenlep==2 && ngenmu==2 && nmuaccept==2){
00495
00496
00497
00498 if (offline_dimu){
00499
00500 eta_off_dimu1->Fill(muon1.eta());
00501 eta_off_dimu2->Fill(muon2.eta());
00502 pt_off_dimu1->Fill(muon1.pt());
00503 pt_off_dimu2->Fill(muon2.pt());
00504
00505 for (int j=0;j<n_hlt_bits_mu;j++) {
00506
00507 if (wtrig_m[j]==1) {
00508
00509 h_ptmu1_trig_dimu[j]->Fill(muon1.pt());
00510 h_etamu1_trig_dimu[j]->Fill(muon1.eta());
00511 }
00512 }
00513 }
00514 }
00515
00516
00517
00518
00519 if ( ngenlep==2 && ngenel==2 && nelaccept==2){
00520
00521
00522
00523 if (offline_diel){
00524
00525 eta_off_diel1->Fill(electron1.eta());
00526 eta_off_diel2->Fill(electron2.eta());
00527 pt_off_diel1->Fill(electron1.pt());
00528 pt_off_diel2->Fill(electron2.pt());
00529
00530 for (int k=0;k<n_hlt_bits_eg;k++) {
00531
00532 if (wtrig_eg[k]==1) {
00533
00534 h_ptel1_trig_diel[k]->Fill(electron1.pt());
00535 h_etael1_trig_diel[k]->Fill(electron1.eta());
00536 }
00537 }
00538
00539 }
00540 }
00541
00542
00543
00544 if ( ngenlep==2 && ngenel==1 && ngenmu==1 && nmuaccept==1 && nelaccept==1){
00545
00546
00547
00548 if (offline_emu){
00549
00550 eta_off_emu_muon->Fill(muon1.eta());
00551 pt_off_emu_muon->Fill(muon1.pt());
00552 eta_off_emu_electron->Fill(electron1.eta());
00553 pt_off_emu_electron->Fill(electron1.pt());
00554
00555 for (int i=0;i<n_hlt_bits;i++) {
00556
00557 if (wtrig_[i]==1) {
00558
00559 h_ptel1_trig_em[i]->Fill(electron1.pt());
00560 h_etael1_trig_em[i]->Fill(electron1.eta());
00561 h_ptmu1_trig_em[i]->Fill(muon1.pt());
00562 h_etamu1_trig_em[i]->Fill(muon1.eta());
00563 }
00564 }
00565
00566 }
00567 }
00568
00569
00571
00572
00573 }
00574
00575
00576
00577
00578 void
00579 TopValidation::beginJob()
00580 {
00581
00582 dbe = edm::Service<DQMStore>().operator->();
00583
00584
00585
00586
00587
00588
00589
00593
00594
00595 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_muon");
00596
00597 hlt_bitmu_hist_reco = dbe->book1D("muHLT","muHLT",hlt_bitnamesMu.size(),0.5,hlt_bitnamesMu.size()+0.5);
00598 h_mu_reco = dbe->book1D("MuonEvents","MuonEvents",hlt_bitnamesMu.size(),0.5,hlt_bitnamesMu.size()+0.5);
00599
00600 hlt_bitmu_hist_gen = dbe->book1D("genmuHLT","genmuHLT",hlt_bitnamesMu.size(),0.5,hlt_bitnamesMu.size()+0.5);
00601 h_mu_gen = dbe->book1D("genMuonEvents","genMuonEvents",hlt_bitnamesMu.size(),0.5,hlt_bitnamesMu.size()+0.5);
00602
00603 events_acc_off_muon = dbe->book1D("NEvents_acc_off","NEvents_acc_off",4,0.5,4.5);
00604 events_acc_off_muon -> setBinLabel(1,"Total Events");
00605 events_acc_off_muon -> setBinLabel(2,"Gen semimuon");
00606 events_acc_off_muon -> setBinLabel(3,"Acceptance");
00607 events_acc_off_muon -> setBinLabel(4,"Acceptance+offline");
00608
00609
00610 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_electron");
00611
00612 hlt_bitel_hist_reco = dbe->book1D("elHLT","elHLT",hlt_bitnamesEg.size(),0.5,hlt_bitnamesEg.size()+0.5);
00613 h_el_reco = dbe->book1D("ElectronEvents","ElectronEvents",hlt_bitnamesEg.size(),0.5,hlt_bitnamesEg.size()+0.5);
00614
00615
00616 hlt_bitel_hist_gen = dbe->book1D("genelHLT","genelHLT",hlt_bitnamesEg.size(),0.5,hlt_bitnamesEg.size()+0.5);
00617 h_el_gen = dbe->book1D("genElectronEvents","genElectronEvents",hlt_bitnamesEg.size(),0.5,hlt_bitnamesEg.size()+0.5);
00618
00619
00620 events_acc_off_electron = dbe->book1D("NEvents_acc_off","NEvents_acc_off",4,0.5,4.5);
00621 events_acc_off_electron -> setBinLabel(1,"Total Events");
00622 events_acc_off_electron -> setBinLabel(2,"Gen semielectron");
00623 events_acc_off_electron -> setBinLabel(3,"Acceptance");
00624 events_acc_off_electron -> setBinLabel(4,"Acceptance+offline");
00625
00626
00627 dbe->setCurrentFolder(topFolder.str()+"Jets");
00628
00629 h_jet_reco = dbe->book1D("denom","denom",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00630 hlt_bitjet_hist_reco = dbe->book1D("numer","numer",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00631
00632 h_jet_reco_el = dbe->book1D("denom_el","denom_el",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00633 hlt_bitjet_hist_reco_el = dbe->book1D("numer_el","numer_el",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00634
00636 h_jet_gen = dbe->book1D("denom_gen","denom_gen",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00637 hlt_bitjet_hist_gen = dbe->book1D("numer_gen","numer_gen",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00638
00639 h_jet_gen_el = dbe->book1D("denom_el_gen","denom_el_gen",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00640 hlt_bitjet_hist_gen_el = dbe->book1D("numer_el_gen","numer_el_gen",hlt_bitnamesJet.size(),0.5,hlt_bitnamesJet.size()+0.5);
00641
00642
00644
00645
00646
00647
00648
00649
00650
00651
00652
00653
00654
00655
00656
00657
00658
00659
00660
00661
00662
00663
00664
00665
00666
00667
00668
00669
00670
00671
00672
00673
00674 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_emu");
00675
00676
00677 for (size_t j=0;j<hlt_bitnames.size();j++) {
00678 std::string histname_ptmu_em = "Muon1Pt_EM_"+hlt_bitnames[j];
00679 std::string histname_etamu_em = "Muon1Eta_EM_"+hlt_bitnames[j];
00680 std::string histname_ptel_em = "Electron1Pt_EM_"+hlt_bitnames[j];
00681 std::string histname_etael_em = "Electron1Eta_EM_"+hlt_bitnames[j];
00682
00683 h_ptmu1_trig_em[j] = dbe->book1D((histname_ptmu_em).c_str(),(hlt_bitnames[j]+"_muonPt_EM").c_str(),40,0.0,150.);
00684 h_etamu1_trig_em[j] = dbe->book1D((histname_etamu_em).c_str(),(hlt_bitnames[j]+"_muonEta_EM").c_str(),51,-2.5,2.5);
00685
00686 h_ptel1_trig_em[j] = dbe->book1D((histname_ptel_em).c_str(),(hlt_bitnames[j]+"_electronPt_EM").c_str(),40,0.0,150.);
00687 h_etael1_trig_em[j] = dbe->book1D((histname_etael_em).c_str(),(hlt_bitnames[j]+"_electronEta_EM").c_str(),51,-2.5,2.5);
00688
00689 }
00690
00691
00692
00693
00694 for (size_t jj=0;jj<hlt_bitnamesMu.size();jj++) {
00695 std::string histname_ptmu = "Muon1Pt_M_"+hlt_bitnamesMu[jj];
00696 std::string histname_etamu = "Muon1Eta_M_"+hlt_bitnamesMu[jj];
00697 std::string histname_ptmu_dimu = "Muon1Pt_MM_"+hlt_bitnamesMu[jj];
00698 std::string histname_etamu_dimu = "Muon1Eta_MM_"+hlt_bitnamesMu[jj];
00699
00700 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_muon");
00701 h_ptmu1_trig[jj] = dbe->book1D((histname_ptmu).c_str(),(hlt_bitnamesMu[jj]+"muonPt_M").c_str(),40,0.0,150.);
00702 h_etamu1_trig[jj] = dbe->book1D((histname_etamu).c_str(),(hlt_bitnamesMu[jj]+"muonEta_M").c_str(),51,-2.5,2.5);
00703
00704 hlt_bitmu_hist_reco -> setBinLabel(jj+1,hlt_bitnamesMu[jj].c_str());
00705 h_mu_reco -> setBinLabel(jj+1,hlt_bitnamesMu[jj].c_str());
00706
00707 hlt_bitmu_hist_gen -> setBinLabel(jj+1,hlt_bitnamesMu[jj].c_str());
00708 h_mu_gen -> setBinLabel(jj+1,hlt_bitnamesMu[jj].c_str());
00709
00710 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_muon");
00711 h_ptmu1_trig_dimu[jj] = dbe->book1D((histname_ptmu_dimu).c_str(),(hlt_bitnamesMu[jj]+"muon1Pt_MM").c_str(),40,0.0,150.);
00712 h_etamu1_trig_dimu[jj] = dbe->book1D((histname_etamu_dimu).c_str(),(hlt_bitnamesMu[jj]+"muon1Pt_MM").c_str(),51,-2.5,2.5);
00713
00714
00715
00716
00717 }
00718
00719
00720
00721
00722
00723
00724 for (size_t k=0;k<hlt_bitnamesEg.size();k++) {
00725
00726
00727 std::string histname_ptel = "Electron1Pt_E_"+hlt_bitnamesEg[k];
00728 std::string histname_etael = "Electron1Eta_E_"+hlt_bitnamesEg[k];
00729 std::string histname_ptel_diel = "Electron1Pt_EE_"+hlt_bitnamesEg[k];
00730 std::string histname_etael_diel = "Electron1Eta_EE_"+hlt_bitnamesEg[k];
00731
00732
00733 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_electron");
00734
00735 h_ptel1_trig[k] = dbe->book1D((histname_ptel).c_str(),(hlt_bitnamesEg[k]+"electronPt_E").c_str(),40,0.0,150.);
00736 h_etael1_trig[k] = dbe->book1D((histname_etael).c_str(),(hlt_bitnamesEg[k]+"electronEta_E").c_str(),51,-2.5,2.5);
00737
00738 hlt_bitel_hist_reco -> setBinLabel(k+1,hlt_bitnamesEg[k].c_str());
00739 h_el_reco -> setBinLabel(k+1,hlt_bitnamesEg[k].c_str());
00740
00741 hlt_bitel_hist_gen -> setBinLabel(k+1,hlt_bitnamesEg[k].c_str());
00742 h_el_gen -> setBinLabel(k+1,hlt_bitnamesEg[k].c_str());
00743
00744
00745 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_electron");
00746 h_ptel1_trig_diel[k] = dbe->book1D((histname_ptel_diel).c_str(),(hlt_bitnamesEg[k]+"electron1Pt_EE").c_str(),40,0.0,150.);
00747 h_etael1_trig_diel[k] = dbe->book1D((histname_etael_diel).c_str(),(hlt_bitnamesEg[k]+"electron1Eta_EE").c_str(),51,-2.5,2.5);
00748
00749
00750
00751
00752
00753 }
00754
00755
00756
00760
00761
00762
00763
00764 dbe->setCurrentFolder(topFolder.str()+"4JetsPlus1MuonToCompareWithData");
00765
00766 ptmuon_4jet1muSel = dbe->book1D ("Muon1Pt_4Jets1MuonMon", "Muon1Pt_4Jets1MuonMon",40, 0.0,150.0);
00767 etamuon_4jet1muSel = dbe->book1D ("Muon1Eta_4Jets1MuonMon","Muon1Eta_4Jets1MuonMon",51, -2.5,2.5);
00768 Njets_4jet1muSel = dbe->book1D ("NJets_4Jets1MuonMon", "NJets_4Jets1MuonMon",11, -0.5,10.5);
00769
00770 ptmuon_4jet1muSel_hltmu9 = dbe->book1D ("Muon1Pt_4Jets1MuonHLTMu9Mon", "Muon1Pt_4Jets1MuonHLTMu9Mon",40, 0.0,150.0);
00771 etamuon_4jet1muSel_hltmu9 = dbe->book1D ("Muon1Eta_4Jets1MuonHLTMu9Mon","Muon1Eta_4Jets1MuonHLTMu9Mon",51, -2.5,2.5);
00772 Njets_4jet1muSel_hltmu9 = dbe->book1D ("NJets_4Jets1MuonHLTMu9Mon", "NJets_4Jets1MuonHLTMu9Mon",11, -0.5,10.5);
00773
00774
00775
00776
00777 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_muon");
00778
00779
00780
00781 eta_off_mu = dbe->book1D ("Muon1Eta_M","Muon1Eta_M",51,-2.5,2.5);
00782 pt_off_mu = dbe->book1D ("Muon1Pt_M","Muon1Pt_M",40,0.0,150.0);
00783
00784
00785
00786 dbe->setCurrentFolder(topFolder.str()+"Semileptonic_electron");
00787
00788 eta_off_el = dbe->book1D ("Electron1Eta_E","Electron1Eta_E",51,-2.5,2.5);
00789 pt_off_el = dbe->book1D ("Electron1Pt_E","Electron1Pt_E",40,0.0,150.0);
00790
00791
00792
00793
00794 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_muon");
00795
00796
00797 eta_off_dimu1 = dbe->book1D ("Muon1Eta_MM","Muon1Eta_MM",51,-2.5,2.5);
00798 pt_off_dimu1 = dbe->book1D ("Muon1Pt_MM","Muon1Pt_MM",40,0.0,150.0);
00799 eta_off_dimu2 = dbe->book1D ("Muon2Eta_MM","Muon2Eta_MM",51,-2.5,2.5);
00800 pt_off_dimu2 = dbe->book1D ("Muon2Pt_MM","Muon2Pt_MM",40,0.0,150.0);
00801
00802
00803
00804
00805 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_electron");
00806
00807
00808 eta_off_diel1 = dbe->book1D ("Electron1Eta_EE","Electron1Eta_EE",51,-2.5,2.5);
00809 pt_off_diel1 = dbe->book1D ("Electron1Pt_EE","Electron1Pt_EE",40,0.0,150.0);
00810 eta_off_diel2 = dbe->book1D ("Electron2Eta_EE","Electron2Eta_EE",51,-2.5,2.5);
00811 pt_off_diel2 = dbe->book1D ("Electron2Pt_EE","Electron2Pt_EE",40,0.0,150.0);
00812
00813
00814
00815 dbe->setCurrentFolder(topFolder.str()+"Dileptonic_emu");
00816
00817
00818
00819 eta_off_emu_muon = dbe->book1D ("Muon1Eta_EM","Muon1Eta_EM",51,-2.5,2.5);
00820 pt_off_emu_muon = dbe->book1D ("Muon1Pt_EM","Muon1Pt_EM",40,0.0,150.0);
00821
00822 eta_off_emu_electron = dbe->book1D ("Electron1Eta_EM","Electron1Eta_EM",51,-2.5,2.5);
00823 pt_off_emu_electron = dbe->book1D ("Electron1Pt_EM","Electron1Pt_EM",40,0.0,150.0);
00824
00825
00826
00827
00828 return ;
00829
00830
00831 }
00832
00833
00834 void
00835 TopValidation::endJob() {
00836
00837
00838
00839
00840
00841
00842 if(outputMEsInRootFile){
00843 dbe->showDirStructure();
00844 dbe->save(outputFileName);
00845 }
00846
00847
00848
00849
00850
00851 return ;
00852 }
00853
00854
00855 DEFINE_FWK_MODULE(TopValidation);