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/data/refman/pasoursint/CMSSW_6_1_2_SLHC2_patch1/src/DQMOffline/Trigger/src/HLTInclusiveVBFSource.cc

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00001 /*
00002   HLTInclusiveVBFSource
00003   Phat Srimanobhas
00004   To monitor VBF DataParking
00005 */
00006 
00007 #include "DQMOffline/Trigger/interface/HLTInclusiveVBFSource.h"
00008 
00009 #include "FWCore/Common/interface/TriggerNames.h"
00010 #include "FWCore/Framework/interface/EDAnalyzer.h"
00011 #include "FWCore/Framework/interface/Run.h"
00012 #include "FWCore/Framework/interface/MakerMacros.h"
00013 #include "FWCore/Framework/interface/ESHandle.h"
00014 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00015 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00016 #include "FWCore/ServiceRegistry/interface/Service.h"
00017 
00018 #include "DQMServices/Core/interface/MonitorElement.h"
00019 
00020 #include "DataFormats/Common/interface/Handle.h"
00021 #include "DataFormats/Common/interface/TriggerResults.h"
00022 #include "DataFormats/HLTReco/interface/TriggerEvent.h"
00023 #include "DataFormats/HLTReco/interface/TriggerObject.h"
00024 #include "DataFormats/HLTReco/interface/TriggerTypeDefs.h"
00025 #include "DataFormats/Math/interface/deltaR.h"
00026 #include "DataFormats/Math/interface/deltaPhi.h"
00027 #include "DataFormats/VertexReco/interface/Vertex.h"
00028 #include "DataFormats/VertexReco/interface/VertexFwd.h"
00029 
00030 #include "HLTrigger/HLTcore/interface/HLTConfigProvider.h"
00031 
00032 #include "JetMETCorrections/Objects/interface/JetCorrector.h"
00033 
00034 #include "math.h"
00035 #include "TH1F.h"
00036 #include "TProfile.h"
00037 #include "TH2F.h"
00038 #include "TPRegexp.h"
00039 #include "TMath.h"
00040 
00041 using namespace edm;
00042 using namespace reco;
00043 using namespace std;
00044 
00045   
00046 HLTInclusiveVBFSource::HLTInclusiveVBFSource(const edm::ParameterSet& iConfig):
00047   isSetup_(false)
00048 {
00049   LogDebug("HLTInclusiveVBFSource") << "constructor....";
00050   nCount_ = 0;
00051   dbe = Service < DQMStore > ().operator->();
00052   if ( ! dbe ) {
00053     LogDebug("HLTInclusiveVBFSource") << "unabel to get DQMStore service?";
00054   }
00055   if (iConfig.getUntrackedParameter < bool > ("DQMStore", false)) {
00056     dbe->setVerbose(0);
00057   }
00058   
00059   dirname_             = iConfig.getUntrackedParameter("dirname",std::string("HLT/InclusiveVBF"));
00060   processname_         = iConfig.getParameter<std::string>("processname");
00061   triggerSummaryLabel_ = iConfig.getParameter<edm::InputTag>("triggerSummaryLabel");
00062   triggerResultsLabel_ = iConfig.getParameter<edm::InputTag>("triggerResultsLabel");
00063   //path_                = iConfig.getUntrackedParameter<std::vector<std::string> >("paths");
00064   //l1path_              = iConfig.getUntrackedParameter<std::vector<std::string> >("l1paths"); 
00065   
00066   debug_               = iConfig.getUntrackedParameter< bool >("debug", false);
00067   
00068   caloJetsTag_         = iConfig.getParameter<edm::InputTag>("CaloJetCollectionLabel");
00069   caloMETTag_          = iConfig.getParameter<edm::InputTag>("CaloMETCollectionLabel"); 
00070   pfJetsTag_           = iConfig.getParameter<edm::InputTag>("PFJetCollectionLabel");
00071   pfMetTag_            = iConfig.getParameter<edm::InputTag>("PFMETCollectionLabel");
00072   //jetID                = new reco::helper::JetIDHelper(iConfig.getParameter<ParameterSet>("JetIDParams"));
00073   
00074   minPtHigh_           = iConfig.getUntrackedParameter<double>("minPtHigh",40.);
00075   minPtLow_            = iConfig.getUntrackedParameter<double>("minPtLow",40.);
00076   minDeltaEta_         = iConfig.getUntrackedParameter<double>("minDeltaEta",3.5);
00077   deltaRMatch_         = iConfig.getUntrackedParameter<double>("deltaRMatch",0.1);
00078   minInvMass_          = iConfig.getUntrackedParameter<double>("minInvMass",1000.0);
00079   etaOpposite_         = iConfig.getUntrackedParameter<bool>("etaOpposite",true);
00080 
00081   check_mjj650_Pt35_DEta3p5 = false;
00082   check_mjj700_Pt35_DEta3p5 = false;
00083   check_mjj750_Pt35_DEta3p5 = false;
00084   check_mjj800_Pt35_DEta3p5 = false;
00085   check_mjj650_Pt40_DEta3p5 = false; 
00086   check_mjj700_Pt40_DEta3p5 = false;
00087   check_mjj750_Pt40_DEta3p5 = false; 
00088   check_mjj800_Pt40_DEta3p5 = false;
00089 }
00090 
00091 
00092 HLTInclusiveVBFSource::~HLTInclusiveVBFSource() {
00093   //
00094   // do anything here that needs to be done at desctruction time
00095   // (e.g. close files, deallocate resources etc.)
00096 }
00097 
00098 
00099 void
00100 HLTInclusiveVBFSource::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup){
00101   using namespace std;
00102   using namespace edm;
00103   using namespace trigger;
00104   using namespace reco;
00105 
00106   if(debug_) cout<<"DEBUG-0: Start to analyze"<<endl;
00107   
00108   //****************************************************
00109   // Get trigger information. 
00110   //****************************************************
00111   //
00112   //---------- triggerResults ----------
00113   iEvent.getByLabel(triggerResultsLabel_, triggerResults_);
00114   if(!triggerResults_.isValid()) {
00115     edm::InputTag triggerResultsLabelFU(triggerResultsLabel_.label(),triggerResultsLabel_.instance(), "FU");
00116     iEvent.getByLabel(triggerResultsLabelFU,triggerResults_);
00117     if(!triggerResults_.isValid()) {
00118       edm::LogInfo("FourVectorHLTOffline") << "TriggerResults not found, "
00119         "skipping event";
00120       return;
00121     }
00122   }
00123   //
00124   //int npath;
00125   if(&triggerResults_) {
00126     // Check how many HLT triggers are in triggerResults
00127     //npath = triggerResults_->size();
00128     triggerNames_ = iEvent.triggerNames(*triggerResults_);
00129   } 
00130   else {
00131     edm::LogInfo("CaloMETHLTOfflineSource") << "TriggerResults::HLT not found, "
00132       "automatically select events";
00133     return;
00134   }
00135   //
00136   //---------- triggerSummary ----------
00137   iEvent.getByLabel(triggerSummaryLabel_,triggerObj_);
00138   if(!triggerObj_.isValid()) {
00139     edm::InputTag triggerSummaryLabelFU(triggerSummaryLabel_.label(),triggerSummaryLabel_.instance(), "FU");
00140     iEvent.getByLabel(triggerSummaryLabelFU,triggerObj_);
00141     if(!triggerObj_.isValid()) {
00142       edm::LogInfo("FourVectorHLTOffline") << "TriggerEvent not found, "
00143         "skipping event";
00144       return;
00145     }
00146   }
00147   
00148   if(debug_) cout<<"DEBUG-1: Trigger information"<<endl;
00149   
00150   //****************************************************
00151   // Get AOD information
00152   //****************************************************
00153   //
00154   edm::Handle<edm::View<reco::PFMET> > metSrc;
00155   bool ValidPFMET_ = iEvent.getByLabel(pfMetTag_ , metSrc);
00156   if(!ValidPFMET_) return;
00157   
00158   edm::Handle<edm::View<reco::PFJet> > jetSrc;
00159   bool ValidPFJet_ = iEvent.getByLabel(pfJetsTag_ , jetSrc);
00160   if(!ValidPFJet_) return;
00161   
00162   if(!metSrc.isValid()) return;
00163   if(!jetSrc.isValid()) return;
00164   const edm::View<reco::PFMET> & mets = *metSrc;
00165   const edm::View<reco::PFJet> & jets = *jetSrc;
00166   if(jets.size()<=0)    return;
00167   if(mets.size()<=0)    return;
00168 
00169   if(debug_) cout<<"DEBUG-2: AOD Information"<<endl;
00170   
00171   //****************************************************
00172   // Variable setting
00173   //****************************************************
00174   //
00175   pathname   = "dummy";
00176   filtername = "dummy";
00177   
00178   //
00179   reco_ejet1                = 0.; 
00180   //reco_etjet1               = 0.;
00181   reco_pxjet1               = 0.;
00182   reco_pyjet1               = 0.;
00183   reco_pzjet1               = 0.;
00184   reco_ptjet1               = 0.;
00185   reco_etajet1              = 0.;
00186   reco_phijet1              = 0.;
00187   
00188   //
00189   reco_ejet2                = 0.;
00190   //reco_etjet2               = 0.;
00191   reco_pxjet2               = 0.;
00192   reco_pyjet2               = 0.;
00193   reco_pzjet2               = 0.;
00194   reco_ptjet2               = 0.;
00195   reco_etajet2              = 0.;
00196   reco_phijet2              = 0.;
00197   
00198   //
00199   hlt_ejet1                 = 0.;
00200   //hlt_etjet1                = 0.;
00201   hlt_pxjet1                = 0.;
00202   hlt_pyjet1                = 0.;
00203   hlt_pzjet1                = 0.;
00204   hlt_ptjet1                = 0.;
00205   hlt_etajet1               = 0.;
00206   hlt_phijet1               = 0.;
00207   
00208   //
00209   hlt_ejet2                 = 0.;
00210   //hlt_etjet2                = 0.;
00211   hlt_pxjet2                = 0.;
00212   hlt_pyjet2                = 0.;
00213   hlt_pzjet2                = 0.;
00214   hlt_ptjet2                = 0.;
00215   hlt_etajet2               = 0.;
00216   hlt_phijet2               = 0.;
00217   
00218   //
00219   checkOffline              = false;
00220   checkHLT                  = false;
00221   checkHLTIndex             = false;
00222   
00223   //
00224   dR_HLT_RECO_11            = 0.; 
00225   dR_HLT_RECO_22            = 0.;
00226   dR_HLT_RECO_12            = 0.; 
00227   dR_HLT_RECO_21            = 0.;
00228   
00229   //
00230   checkdR_sameOrder         = false;
00231   checkdR_crossOrder        = false;
00232   
00233   //
00234   reco_deltaetajet          = 0.;
00235   reco_deltaphijet          = 0.;
00236   reco_invmassjet           = 0.;
00237   hlt_deltaetajet           = 0.;
00238   hlt_deltaphijet           = 0.;
00239   hlt_invmassjet            = 0.;
00240   
00241   //****************************************************
00242   // Offline analysis
00243   //****************************************************
00244   //
00245   checkOffline  = false;
00246   for(unsigned int ijet1=0; ijet1<jets.size(); ijet1++){
00247     if(jets[ijet1].neutralHadronEnergyFraction()>0.99) continue;
00248     if(jets[ijet1].neutralEmEnergyFraction()>0.99) continue;
00249     for(unsigned int ijet2=ijet1+1; ijet2<jets.size(); ijet2++){ 
00250       if(jets[ijet2].neutralHadronEnergyFraction()>0.99) continue;
00251       if(jets[ijet2].neutralEmEnergyFraction()>0.99) continue;
00252       //
00253       reco_ejet1   = jets[ijet1].energy();
00254       //reco_etjet1  = jets[ijet1].et();
00255       reco_pxjet1  = jets[ijet1].momentum().X();
00256       reco_pyjet1  = jets[ijet1].momentum().Y();
00257       reco_pzjet1  = jets[ijet1].momentum().Z();
00258       reco_ptjet1  = jets[ijet1].pt();
00259       reco_etajet1 = jets[ijet1].eta();
00260       reco_phijet1 = jets[ijet1].phi(); 
00261       //
00262       reco_ejet2   = jets[ijet2].energy();
00263       //reco_etjet2  = jets[ijet2].et();
00264       reco_pxjet2  = jets[ijet2].momentum().X();
00265       reco_pyjet2  = jets[ijet2].momentum().Y();
00266       reco_pzjet2  = jets[ijet2].momentum().Z();
00267       reco_ptjet2  = jets[ijet2].pt();
00268       reco_etajet2 = jets[ijet2].eta();
00269       reco_phijet2 = jets[ijet2].phi();
00270       //
00271       reco_deltaetajet  = reco_etajet1 - reco_etajet2;
00272       reco_deltaphijet  = reco::deltaPhi(reco_phijet1,reco_phijet2);
00273       reco_invmassjet   = sqrt((reco_ejet1  + reco_ejet2)  * (reco_ejet1  + reco_ejet2)  - 
00274                                (reco_pxjet1 + reco_pxjet2) * (reco_pxjet1 + reco_pxjet2) - 
00275                                (reco_pyjet1 + reco_pyjet2) * (reco_pyjet1 + reco_pyjet2) - 
00276                                (reco_pzjet1 + reco_pzjet2) * (reco_pzjet1 + reco_pzjet2));
00277       
00278       //
00279       if(reco_ptjet1 < minPtHigh_) continue; 
00280       if(reco_ptjet2 < minPtLow_) continue;
00281       if(etaOpposite_ == true && reco_etajet1*reco_etajet2 > 0) continue;
00282       if(std::abs(reco_deltaetajet) < minDeltaEta_) continue;
00283       if(std::abs(reco_invmassjet)  < minInvMass_)  continue;
00284       
00285       //
00286       if(debug_) cout<<"DEBUG-3"<<endl;
00287       checkOffline  = true;
00288       break;
00289     }
00290     if(checkOffline == true) break;
00291   }
00292   if(checkOffline == false) return;
00293   
00294   //****************************************************
00295   // Trigger efficiency: Loop for all VBF paths
00296   //****************************************************
00297   //const unsigned int numberOfPaths(hltConfig_.size()); 
00298   const trigger::TriggerObjectCollection & toc(triggerObj_->getObjects()); 
00299   for(PathInfoCollection::iterator v = hltPathsAll_.begin(); v!= hltPathsAll_.end(); ++v ){
00300     checkHLT = false;
00301     checkHLTIndex = false;
00302     
00303     //
00304     v->getMEhisto_RECO_deltaEta_DiJet()->Fill(reco_deltaetajet);
00305     v->getMEhisto_RECO_deltaPhi_DiJet()->Fill(reco_deltaphijet);
00306     v->getMEhisto_RECO_invMass_DiJet()->Fill(reco_invmassjet);
00307     
00308     //
00309     if(debug_) cout<<"DEBUG-4-0: Path loops"<<endl;
00310     
00311     //
00312     if(isHLTPathAccepted(v->getPath())==false) continue;
00313     checkHLT = true;
00314     
00315     //
00316     if(debug_) cout<<"DEBUG-4-1: Path is accepted. Now we are looking for "<<v->getLabel()<<" module."<<endl;
00317     
00318     //
00319     edm::InputTag hltTag(v->getLabel(),"",processname_);
00320     const int hltIndex = triggerObj_->filterIndex(hltTag);
00321     if(hltIndex >= triggerObj_->sizeFilters()) continue;
00322     checkHLT = true;
00323     if(debug_) cout<<"DEBUG-4-2: HLT module "<<v->getLabel()<<" exists"<<endl;
00324     const trigger::Keys & khlt = triggerObj_->filterKeys(hltIndex);
00325     trigger::Keys::const_iterator kj = khlt.begin();
00326     for(; kj != khlt.end(); kj+=2){
00327       if(debug_) cout<<"DEBUG-5"<<endl;
00328       checkdR_sameOrder  = false;
00329       checkdR_crossOrder = false;           //
00330       hlt_ejet1   = toc[*kj].energy();
00331       //hlt_etjet1  = toc[*kj].et();
00332       hlt_pxjet1  = toc[*kj].px();
00333       hlt_pyjet1  = toc[*kj].py();
00334       hlt_pzjet1  = toc[*kj].pz();
00335       hlt_ptjet1  = toc[*kj].pt();
00336       hlt_etajet1 = toc[*kj].eta();
00337       hlt_phijet1 = toc[*kj].phi();  
00338       //
00339       hlt_ejet2   = toc[*(kj+1)].energy();
00340       //hlt_etjet2  = toc[*(kj+1)].et();
00341       hlt_pxjet2  = toc[*(kj+1)].px();
00342       hlt_pyjet2  = toc[*(kj+1)].py();
00343       hlt_pzjet2  = toc[*(kj+1)].pz();
00344       hlt_ptjet2  = toc[*(kj+1)].pt();
00345       hlt_etajet2 = toc[*(kj+1)].eta();
00346       hlt_phijet2 = toc[*(kj+1)].phi(); 
00347       //
00348       dR_HLT_RECO_11 = reco::deltaR(hlt_etajet1,hlt_phijet1,reco_etajet1,reco_phijet1);
00349       dR_HLT_RECO_22 = reco::deltaR(hlt_etajet2,hlt_phijet2,reco_etajet2,reco_phijet2);
00350       dR_HLT_RECO_12 = reco::deltaR(hlt_etajet1,hlt_phijet1,reco_etajet2,reco_phijet2);
00351       dR_HLT_RECO_21 = reco::deltaR(hlt_etajet2,hlt_phijet2,reco_etajet1,reco_phijet1);
00352       if(dR_HLT_RECO_11<deltaRMatch_ && dR_HLT_RECO_22<deltaRMatch_) checkdR_sameOrder = true;
00353       if(dR_HLT_RECO_12<deltaRMatch_ && dR_HLT_RECO_21<deltaRMatch_) checkdR_crossOrder = true;
00354       if(checkdR_sameOrder  == false && checkdR_crossOrder == false) continue; 
00355       checkHLTIndex = true;
00356       //
00357       if(debug_) cout<<"DEBUG-6: Match"<<endl;
00358       hlt_deltaetajet  = hlt_etajet1 - hlt_etajet2;
00359       hlt_deltaphijet  = reco::deltaPhi(hlt_phijet1,hlt_phijet2);
00360       if(checkdR_crossOrder){
00361         hlt_deltaetajet = (-1)*hlt_deltaetajet;
00362         hlt_deltaphijet = reco::deltaPhi(hlt_phijet2,hlt_phijet1);
00363       }
00364       hlt_invmassjet   = sqrt((hlt_ejet1  + hlt_ejet2)  * (hlt_ejet1  + hlt_ejet2)  - 
00365                               (hlt_pxjet1 + hlt_pxjet2) * (hlt_pxjet1 + hlt_pxjet2) - 
00366                               (hlt_pyjet1 + hlt_pyjet2) * (hlt_pyjet1 + hlt_pyjet2) - 
00367                               (hlt_pzjet1 + hlt_pzjet2) * (hlt_pzjet1 + hlt_pzjet2));
00368       v->getMEhisto_HLT_deltaEta_DiJet()->Fill(hlt_deltaetajet);
00369       v->getMEhisto_HLT_deltaPhi_DiJet()->Fill(hlt_deltaphijet);
00370       v->getMEhisto_HLT_invMass_DiJet()->Fill(hlt_invmassjet);
00371       //
00372       v->getMEhisto_RECO_deltaEta_DiJet_Match()->Fill(reco_deltaetajet);
00373       v->getMEhisto_RECO_deltaPhi_DiJet_Match()->Fill(reco_deltaphijet);
00374       v->getMEhisto_RECO_invMass_DiJet_Match()->Fill(reco_invmassjet);
00375       //
00376       v->getMEhisto_RECOHLT_deltaEta()->Fill(reco_deltaetajet,hlt_deltaetajet); 
00377       v->getMEhisto_RECOHLT_deltaPhi()->Fill(reco_deltaphijet,hlt_deltaphijet);
00378       v->getMEhisto_RECOHLT_invMass()->Fill(reco_invmassjet,hlt_invmassjet);
00379       //
00380       if(checkHLTIndex==true) break;
00381     }
00382     
00383     //****************************************************
00384     // Match information
00385     //****************************************************
00386     if(checkHLT==true && checkHLTIndex==true){
00387       if(debug_) cout<<"DEBUG-7: Match"<<endl;
00388       v->getMEhisto_NumberOfMatches()->Fill(1);
00389     }
00390     else{
00391       if(debug_) cout<<"DEBUG-8: Not match"<<endl;
00392       v->getMEhisto_NumberOfMatches()->Fill(0);
00393     }
00394   }
00395   
00396   
00397   //****************************************************
00398   // 
00399   //****************************************************
00400   for(PathInfoCollection::iterator v = hltPathsAll_.begin(); v!= hltPathsAll_.end(); ++v ){
00401     if(isHLTPathAccepted(v->getPath())==false) continue;
00402     if(debug_) cout<<"DEBUG-9: Loop for rate approximation: "<<v->getPath()<<endl;
00403     check_mjj650_Pt35_DEta3p5 = false;
00404     check_mjj700_Pt35_DEta3p5 = false;
00405     check_mjj750_Pt35_DEta3p5 = false;
00406     check_mjj800_Pt35_DEta3p5 = false;
00407     check_mjj650_Pt40_DEta3p5 = false; 
00408     check_mjj700_Pt40_DEta3p5 = false;
00409     check_mjj750_Pt40_DEta3p5 = false; 
00410     check_mjj800_Pt40_DEta3p5 = false;
00411     edm::InputTag hltTag(v->getLabel(),"",processname_);
00412     const int hltIndex = triggerObj_->filterIndex(hltTag);
00413     if(hltIndex >= triggerObj_->sizeFilters()) continue;
00414     const trigger::Keys & khlt = triggerObj_->filterKeys(hltIndex);
00415     trigger::Keys::const_iterator kj = khlt.begin();
00416     for(; kj != khlt.end(); kj+=2){
00417       checkdR_sameOrder  = false;
00418       checkdR_crossOrder = false;
00419       //
00420       hlt_ejet1   = toc[*kj].energy();
00421       //hlt_etjet1  = toc[*kj].et();
00422       hlt_pxjet1  = toc[*kj].px();
00423       hlt_pyjet1  = toc[*kj].py();
00424       hlt_pzjet1  = toc[*kj].pz();
00425       hlt_ptjet1  = toc[*kj].pt();
00426       hlt_etajet1 = toc[*kj].eta();
00427       hlt_phijet1 = toc[*kj].phi();  
00428       //
00429       hlt_ejet2   = toc[*(kj+1)].energy();
00430       //hlt_etjet2  = toc[*(kj+1)].et();
00431       hlt_pxjet2  = toc[*(kj+1)].px();
00432       hlt_pyjet2  = toc[*(kj+1)].py();
00433       hlt_pzjet2  = toc[*(kj+1)].pz();
00434       hlt_ptjet2  = toc[*(kj+1)].pt();
00435       hlt_etajet2 = toc[*(kj+1)].eta();
00436       hlt_phijet2 = toc[*(kj+1)].phi(); 
00437       //
00438       hlt_deltaetajet  = hlt_etajet1 - hlt_etajet2;
00439       hlt_deltaphijet  = reco::deltaPhi(hlt_phijet1,hlt_phijet2);
00440       hlt_invmassjet   = sqrt((hlt_ejet1  + hlt_ejet2)  * (hlt_ejet1  + hlt_ejet2)  - 
00441                               (hlt_pxjet1 + hlt_pxjet2) * (hlt_pxjet1 + hlt_pxjet2) - 
00442                               (hlt_pyjet1 + hlt_pyjet2) * (hlt_pyjet1 + hlt_pyjet2) - 
00443                               (hlt_pzjet1 + hlt_pzjet2) * (hlt_pzjet1 + hlt_pzjet2));
00444       //
00445       if(check_mjj650_Pt35_DEta3p5==false && hlt_ptjet1>35. && hlt_ptjet2>=35. && hlt_invmassjet>650 && std::abs(hlt_deltaetajet)>3.5){
00446         check_mjj650_Pt35_DEta3p5=true;
00447       }
00448       if(check_mjj700_Pt35_DEta3p5==false && hlt_ptjet1>35. && hlt_ptjet2>=35. && hlt_invmassjet>700 && std::abs(hlt_deltaetajet)>3.5){
00449         check_mjj700_Pt35_DEta3p5=true;
00450       } 
00451       if(check_mjj750_Pt35_DEta3p5==false && hlt_ptjet1>35. && hlt_ptjet2>=35. && hlt_invmassjet>750 && std::abs(hlt_deltaetajet)>3.5){
00452         check_mjj750_Pt35_DEta3p5=true;
00453       }
00454       if(check_mjj800_Pt35_DEta3p5==false && hlt_ptjet1>35. && hlt_ptjet2>=35. && hlt_invmassjet>800 && std::abs(hlt_deltaetajet)>3.5){
00455         check_mjj800_Pt35_DEta3p5=true;
00456       }
00457       if(check_mjj650_Pt40_DEta3p5==false && hlt_ptjet1>40. && hlt_ptjet2>=40. && hlt_invmassjet>650 && std::abs(hlt_deltaetajet)>3.5){
00458         check_mjj650_Pt40_DEta3p5=true;
00459       }
00460       if(check_mjj700_Pt40_DEta3p5==false && hlt_ptjet1>40. && hlt_ptjet2>=40. && hlt_invmassjet>700 && std::abs(hlt_deltaetajet)>3.5){
00461         check_mjj700_Pt40_DEta3p5=true;
00462       } 
00463       if(check_mjj750_Pt40_DEta3p5==false && hlt_ptjet1>40. && hlt_ptjet2>=40. && hlt_invmassjet>750 && std::abs(hlt_deltaetajet)>3.5){
00464         check_mjj750_Pt40_DEta3p5=true;
00465       }
00466       if(check_mjj800_Pt40_DEta3p5==false && hlt_ptjet1>40. && hlt_ptjet2>=40. && hlt_invmassjet>800 && std::abs(hlt_deltaetajet)>3.5){
00467         check_mjj800_Pt40_DEta3p5=true;
00468       }
00469     }
00470     if(check_mjj650_Pt35_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(0);
00471     if(check_mjj700_Pt35_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(1);
00472     if(check_mjj750_Pt35_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(2);
00473     if(check_mjj800_Pt35_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(3);
00474     if(check_mjj650_Pt40_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(4);
00475     if(check_mjj700_Pt40_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(5);
00476     if(check_mjj750_Pt40_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(6);
00477     if(check_mjj800_Pt40_DEta3p5==true) v->getMEhisto_NumberOfEvents()->Fill(7);
00478   }
00479 }
00480 
00481 
00482 // -- method called once each job just before starting event loop  --------
00483 void 
00484 HLTInclusiveVBFSource::beginJob(){
00485 }
00486 
00487 // BeginRun
00488 void 
00489 HLTInclusiveVBFSource::beginRun(const edm::Run& run, const edm::EventSetup& c){
00490   if(!isSetup_){
00491     DQMStore *dbe = 0;
00492     dbe = Service<DQMStore>().operator->();
00493     if (dbe) {
00494       dbe->setCurrentFolder(dirname_);
00495       dbe->rmdir(dirname_);
00496     }
00497     if (dbe) {
00498       dbe->setCurrentFolder(dirname_);
00499     }
00500     
00501     //--- htlConfig_
00502     bool changed(true);
00503     if (!hltConfig_.init(run, c, processname_, changed)) {
00504       LogDebug("HLTInclusiveVBFSource") << "HLTConfigProvider failed to initialize.";
00505     }
00506     
00507     const unsigned int numberOfPaths(hltConfig_.size());
00508     for(unsigned int i=0; i!=numberOfPaths; ++i){
00509       bool numFound = false;
00510       pathname      = hltConfig_.triggerName(i);
00511       filtername    = "dummy";
00512       unsigned int usedPrescale = 1;
00513       unsigned int objectType = 0;
00514       std::string triggerType = "";
00515       
00516       if(pathname.find("HLT_Di") == std::string::npos) continue;
00517       if(pathname.find("Jet") == std::string::npos) continue;
00518       if(pathname.find("MJJ") == std::string::npos) continue;
00519       if(pathname.find("VBF_v") == std::string::npos) continue;
00520       
00521       if(debug_){
00522         cout<<" - Startup:Path = "<<pathname<<endl;
00523       //cout<<" - Startup:PS = "<<hltConfig_.prescaleSize()<<endl;
00524       }
00525       
00526       triggerType = "DiJet_Trigger";
00527       objectType = trigger::TriggerJet;
00528       
00529       // Checking if the trigger exist in HLT table or not
00530       for (unsigned int i=0; i!=numberOfPaths; ++i) {
00531         std::string HLTname = hltConfig_.triggerName(i);
00532         if(HLTname == pathname)numFound = true;
00533       }
00534       
00535       if(numFound==false) continue;
00536       std::vector<std::string> numpathmodules = hltConfig_.moduleLabels(pathname);
00537       std::vector<std::string>::iterator numpathmodule = numpathmodules.begin();
00538       for(; numpathmodule!= numpathmodules.end(); ++numpathmodule){
00539         edm::InputTag testTag(*numpathmodule,"",processname_);
00540         if (hltConfig_.moduleType(*numpathmodule) == "HLTCaloJetVBFFilter"
00541             || hltConfig_.moduleType(*numpathmodule) == "HLTPFJetVBFFilter")
00542           {
00543             filtername = *numpathmodule;
00544             if(debug_) cout<<" - Startup:Module = "<<hltConfig_.moduleType(*numpathmodule)<<", FilterName = "<<filtername<<endl;
00545           }
00546         
00547       }
00548       if(debug_) cout<<" - Startup:Final filter = "<<filtername<<endl;
00549       
00550       if(objectType == 0 || numFound==false) continue;
00551       //if(debug_){
00552       //cout<<"Pathname = "<<pathname
00553       //    <<", Filtername = "<<filtername
00554       //    <<", ObjectType = "<<objectType<<endl;
00555       //}
00556       hltPathsAll_.push_back(PathInfo(usedPrescale, pathname, filtername, processname_, objectType, triggerType)); 
00557     }//Loop over paths
00558     
00559     //if(debug_) cout<<"== end hltPathsEff_.push_back ======" << endl;
00560     
00561     std::string dirName = dirname_ + "/MonitorInclusiveVBFTrigger/";
00562     for(PathInfoCollection::iterator v = hltPathsAll_.begin(); v!= hltPathsAll_.end(); ++v ){
00563       if(debug_) cout<<"Storing: "<<v->getPath()<<", Prescale = "<<v->getprescaleUsed()<<endl;
00564       //if(v->getprescaleUsed()!=1) continue;
00565       
00566       std::string subdirName = dirName + v->getPath();
00567       std::string trigPath = "("+v->getPath()+")";
00568       dbe->setCurrentFolder(subdirName);  
00569       
00570       MonitorElement*  RECO_deltaEta_DiJet;
00571       MonitorElement*  RECO_deltaPhi_DiJet;
00572       MonitorElement*  RECO_invMass_DiJet;
00573       MonitorElement*  HLT_deltaEta_DiJet;
00574       MonitorElement*  HLT_deltaPhi_DiJet;
00575       MonitorElement*  HLT_invMass_DiJet;
00576       MonitorElement*  RECO_deltaEta_DiJet_Match;
00577       MonitorElement*  RECO_deltaPhi_DiJet_Match;
00578       MonitorElement*  RECO_invMass_DiJet_Match;
00579       MonitorElement*  RECOHLT_deltaEta;
00580       MonitorElement*  RECOHLT_deltaPhi;
00581       MonitorElement*  RECOHLT_invMass;
00582       MonitorElement*  NumberOfMatches;
00583       MonitorElement*  NumberOfEvents;
00584       
00585       //dummy                     = dbe->bookFloat("dummy");
00586       RECO_deltaEta_DiJet       = dbe->bookFloat("RECO_deltaEta_DiJet");
00587       RECO_deltaPhi_DiJet       = dbe->bookFloat("RECO_deltaPhi_DiJet");
00588       RECO_invMass_DiJet        = dbe->bookFloat("RECO_invMass_DiJet");
00589       HLT_deltaEta_DiJet        = dbe->bookFloat("HLT_deltaEta_DiJet");
00590       HLT_deltaPhi_DiJet        = dbe->bookFloat("HLT_deltaPhi_DiJet ");
00591       HLT_invMass_DiJet         = dbe->bookFloat("HLT_invMass_DiJet");
00592       RECO_deltaEta_DiJet_Match = dbe->bookFloat("RECO_deltaEta_DiJet_Match");
00593       RECO_deltaPhi_DiJet_Match = dbe->bookFloat("RECO_deltaPhi_DiJet_Match");
00594       RECO_invMass_DiJet_Match  = dbe->bookFloat("RECO_invMass_DiJet_Match");
00595       RECOHLT_deltaEta          = dbe->bookFloat("RECOHLT_deltaEta");
00596       RECOHLT_deltaPhi          = dbe->bookFloat("RECOHLT_deltaPhi ");
00597       RECOHLT_invMass           = dbe->bookFloat("RECOHLT_invMass");
00598       NumberOfMatches           = dbe->bookFloat("NumberOfMatches");
00599       NumberOfEvents            = dbe->bookFloat("NumberOfEvents");
00600       
00601       std::string labelname("ME");
00602       std::string histoname(labelname+"");
00603       std::string title(labelname+"");
00604         
00605       //RECO_deltaEta_DiJet
00606       histoname     = labelname+"_RECO_deltaEta_DiJet";
00607       title         = labelname+"_RECO_deltaEta_DiJet "+trigPath;
00608       RECO_deltaEta_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),50,-10.,10.);
00609       RECO_deltaEta_DiJet->getTH1F();
00610 
00611       //RECO_deltaPhi_DiJet
00612       histoname     = labelname+"_RECO_deltaPhi_DiJet";
00613       title         = labelname+"_RECO_deltaPhi_DiJet "+trigPath;
00614       RECO_deltaPhi_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),35,-3.5,3.5);
00615       RECO_deltaPhi_DiJet->getTH1F();
00616 
00617       //RECO_invMass_DiJet
00618       histoname     = labelname+"_RECO_invMass_DiJet";
00619       title         = labelname+"_RECO_invMass_DiJet "+trigPath;
00620       RECO_invMass_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),100,500.,2000.);
00621       RECO_invMass_DiJet->getTH1F(); 
00622 
00623       //HLT_deltaEta_DiJet
00624       histoname     = labelname+"_HLT_deltaEta_DiJet";
00625       title         = labelname+"_HLT_deltaEta_DiJet "+trigPath;
00626       HLT_deltaEta_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),50,-10.,10.);
00627       HLT_deltaEta_DiJet->getTH1F();
00628 
00629       //HLT_deltaPhi_DiJet
00630       histoname     = labelname+"_HLT_deltaPhi_DiJet";
00631       title         = labelname+"_HLT_deltaPhi_DiJet "+trigPath;
00632       HLT_deltaPhi_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),35,-3.5,3.5);
00633       HLT_deltaPhi_DiJet->getTH1F();
00634 
00635       //HLT_invMass_DiJet
00636       histoname     = labelname+"_HLT_invMass_DiJet";
00637       title         = labelname+"_HLT_invMass_DiJet "+trigPath;
00638       HLT_invMass_DiJet = dbe->book1D(histoname.c_str(),title.c_str(),100,500.,2000.);
00639       HLT_invMass_DiJet->getTH1F();
00640 
00641       //RECO_deltaEta_DiJet_Match
00642       histoname     = labelname+"_RECO_deltaEta_DiJet_Match";
00643       title         = labelname+"_RECO_deltaEta_DiJet_Match "+trigPath;
00644       RECO_deltaEta_DiJet_Match = dbe->book1D(histoname.c_str(),title.c_str(),50,-10.,10.);
00645       RECO_deltaEta_DiJet_Match->getTH1F();
00646 
00647       //RECO_deltaPhi_DiJet_Match
00648       histoname     = labelname+"_RECO_deltaPhi_DiJet_Match";
00649       title         = labelname+"_RECO_deltaPhi_DiJet_Match "+trigPath;
00650       RECO_deltaPhi_DiJet_Match = dbe->book1D(histoname.c_str(),title.c_str(),35,-3.5,3.5);
00651       RECO_deltaPhi_DiJet_Match->getTH1F();
00652 
00653       //RECO_invMass_DiJet_Match
00654       histoname     = labelname+"_RECO_invMass_DiJet_Match";
00655       title         = labelname+"_RECO_invMass_DiJet_Match "+trigPath;
00656       RECO_invMass_DiJet_Match = dbe->book1D(histoname.c_str(),title.c_str(),100,500.,2000.);
00657       RECO_invMass_DiJet_Match->getTH1F(); 
00658 
00659       //RECOHLT_deltaEta
00660       histoname     = labelname+"_RECOHLT_deltaEta";
00661       title         = labelname+"_RECOHLT_deltaEta "+trigPath;
00662       RECOHLT_deltaEta = dbe->book2D(histoname.c_str(),title.c_str(),50,-10.,10.,50,-10.,10.);
00663       RECOHLT_deltaEta->getTH2F();
00664 
00665       //RECOHLT_deltaPhi
00666       histoname     = labelname+"_RECOHLT_deltaPhi";
00667       title         = labelname+"_RECOHLT_deltaPhi "+trigPath;
00668       RECOHLT_deltaPhi = dbe->book2D(histoname.c_str(),title.c_str(),35,-3.5,3.5,35,-3.5,3.5);
00669       RECOHLT_deltaPhi->getTH2F();
00670 
00671       //RECOHLT_invMass
00672       histoname     = labelname+"_RECOHLT_invMass";
00673       title         = labelname+"_RECOHLT_invMass "+trigPath;
00674       RECOHLT_invMass = dbe->book2D(histoname.c_str(),title.c_str(),100,500.,2000.,100,500.,2000.);
00675       RECOHLT_invMass->getTH2F(); 
00676       
00677       //NumberOfMatches 
00678       histoname     = labelname+"_NumberOfMatches ";
00679       title         = labelname+"_NumberOfMatches  "+trigPath;
00680       NumberOfMatches = dbe->book1D(histoname.c_str(),title.c_str(),2,0.,2.);
00681       NumberOfMatches->getTH1F();
00682 
00683       //NumberOfEvents
00684       histoname     = labelname+"_NumberOfEvents";
00685       title         = labelname+"_NumberOfEvents "+trigPath;
00686       NumberOfEvents = dbe->book1D(histoname.c_str(),title.c_str(),10,0.,10.);
00687       NumberOfEvents->getTH1F();
00688       
00689       //} 
00690       v->setHistos(
00691                    RECO_deltaEta_DiJet,
00692                    RECO_deltaPhi_DiJet,
00693                    RECO_invMass_DiJet,
00694                    HLT_deltaEta_DiJet,
00695                    HLT_deltaPhi_DiJet,
00696                    HLT_invMass_DiJet,
00697                    RECO_deltaEta_DiJet_Match,
00698                    RECO_deltaPhi_DiJet_Match,
00699                    RECO_invMass_DiJet_Match,
00700                    RECOHLT_deltaEta,
00701                    RECOHLT_deltaPhi,
00702                    RECOHLT_invMass,
00703                    NumberOfMatches,
00704                    NumberOfEvents
00705                    );
00706       //break;//We need only the first unprescale paths
00707     }
00708   }
00709 }
00710 
00711 //--------------------------------------------------------
00712 void HLTInclusiveVBFSource::beginLuminosityBlock(const LuminosityBlock& lumiSeg, 
00713                                                   const EventSetup& context) {
00714 }
00715 
00716 //--------------------------------------------------------
00717 void 
00718 HLTInclusiveVBFSource::endLuminosityBlock(const LuminosityBlock& lumiSeg, 
00719                                                 const EventSetup& context) {
00720 }
00721 
00722 // - method called once each job just after ending the event loop  ------------
00723 void 
00724 HLTInclusiveVBFSource::endJob() {
00725   //delete jetID;
00726 }
00727 
00729 void HLTInclusiveVBFSource::endRun(const edm::Run& run, const edm::EventSetup& c){
00730   //if (debug_) std::cout << "endRun, run " << run.id() << std::endl;
00731 }
00732 
00733 bool HLTInclusiveVBFSource::isBarrel(double eta){
00734   bool output = false;
00735   if (fabs(eta)<=1.3) output=true;
00736   return output;
00737 }
00738 
00739 bool HLTInclusiveVBFSource::isEndCap(double eta){
00740   bool output = false;
00741   if (fabs(eta)<=3.0 && fabs(eta)>1.3) output=true;
00742   return output;
00743 }
00744 
00745 bool HLTInclusiveVBFSource::isForward(double eta){
00746   bool output = false;
00747   if (fabs(eta)>3.0) output=true;
00748   return output;
00749 }
00750 
00751 bool HLTInclusiveVBFSource::validPathHLT(std::string pathname){
00752   // hltConfig_ has to be defined first before calling this method
00753   bool output=false;
00754   for (unsigned int j=0; j!=hltConfig_.size(); ++j) {
00755     if (hltConfig_.triggerName(j) == pathname )
00756       output=true;
00757   }
00758   return output;
00759 }
00760 
00761 bool HLTInclusiveVBFSource::isHLTPathAccepted(std::string pathName){
00762   // triggerResults_, triggerNames_ has to be defined first before calling this method
00763   bool output=false;
00764   if(&triggerResults_) {
00765     unsigned index = triggerNames_.triggerIndex(pathName);
00766     //std::cout<<" -index = "<<index<<endl;
00767     if(index < triggerNames_.size() && triggerResults_->accept(index)) output = true;
00768   }
00769   return output;
00770 }
00771 
00772 bool HLTInclusiveVBFSource::isTriggerObjectFound(std::string objectName){
00773   // processname_, triggerObj_ has to be defined before calling this method
00774   bool output=false;
00775   edm::InputTag testTag(objectName,"",processname_);
00776   const int index = triggerObj_->filterIndex(testTag);
00777   if ( index >= triggerObj_->sizeFilters() ) {    
00778     edm::LogInfo("HLTInclusiveVBFSource") << "no index "<< index << " of that name ";
00779   } else {       
00780     const trigger::Keys & k = triggerObj_->filterKeys(index);
00781     if (k.size()) output=true;
00782   }
00783   return output;
00784 }
00785 
00786