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Comparing UserCode/MPIAnalyzer/src/MPIntuple.cc (file contents):
Revision 1.3 by andrey, Sat May 22 00:51:59 2010 UTC vs.
Revision 1.15 by naodell, Tue Oct 12 19:03:10 2010 UTC

# Line 1 | Line 1
1 /*
2 Description: <one line class summary>
3
4 Implementation:
5     n-tuple creator for jet studies
6 */
7 //
1   // Original Author:  "Nathaniel Odell"
2   // Secondary Author: Steven Won
3   // With contributions from: Andrey Pozdnyakov
4   //         Created:  Thurs April 22  2010
5   // $Id$
13 //
14 //
15
6  
7   // system include files
8   #include <memory>
# Line 25 | Line 15
15   #include "FWCore/Framework/interface/EventSetup.h"
16   #include "FWCore/Framework/interface/Event.h"
17   #include "FWCore/Framework/interface/MakerMacros.h"
28
18   #include "FWCore/ParameterSet/interface/ParameterSet.h"
30
19   #include "DataFormats/GeometryVector/interface/GlobalPoint.h"
20   #include "Geometry/Records/interface/CaloGeometryRecord.h"
21 + #include "DataFormats/Math/interface/deltaPhi.h"
22  
23 + // Libraries for objects
24   #include "DataFormats/JetReco/interface/CaloJet.h"
25   #include "DataFormats/JetReco/interface/CaloJetCollection.h"
26   #include "DataFormats/JetReco/interface/PFJet.h"
# Line 40 | Line 30
30   #include "DataFormats/JetReco/interface/Jet.h"
31   #include "DataFormats/VertexReco/interface/Vertex.h"
32   #include "DataFormats/VertexReco/interface/VertexFwd.h"
33 + #include "DataFormats/BTauReco/interface/JetTag.h"
34 + #include "DataFormats/TrackReco/interface/Track.h"
35 + //#include "RecoVertex/PrimaryVertexProducer/interface/VertexHigherPtSquared.h"
36 +
37 + //GenParticles
38 + //#include "DataFormats/HepMCCandidate/interface/GenParticle.h"
39 +
40 + // Need to get correctors
41 + #include "JetMETCorrections/Objects/interface/JetCorrector.h"
42 +
43 + // ntuple storage classes
44 + #include "TCJet.h"
45 + #include "TCPrimaryVtx.h"
46  
47   // Need for HLT trigger info:
48   #include "FWCore/Common/interface/TriggerNames.h"
49   #include "DataFormats/Common/interface/TriggerResults.h"
50   #include "HLTrigger/HLTcore/interface/HLTConfigProvider.h"
48 //
51  
52 + //Root  stuff
53   #include "TROOT.h"
54 + #include "TH1.h"
55 + #include "TProfile.h"
56   #include "TFile.h"
57   #include "TTree.h"
58   #include "TString.h"
# Line 78 | Line 83 | class MPIntuple : public edm::EDAnalyzer
83        virtual void endJob() ;
84  
85    bool triggerDecision(edm::Handle<edm::TriggerResults> &hltR, int iTrigger);
86 +  double sumPtSquared(const Vertex & v);
87  
88        // ----------member data ---------------------------
89  
90    edm::InputTag PFJetHandle_;
85  edm::InputTag CaloJetHandle_;
86  edm::InputTag PFJetHandle_corr;
87  edm::InputTag CaloJetHandle_corr;
91    edm::InputTag GenJetHandle_;
92    edm::InputTag PrimaryVtxHandle_;
93 <
91 <
93 >  edm::InputTag triggerResultsTag_;
94    //  Counting variables   //
95  
96 <  int eventNumber, runNumber, lumiSection;
96 >  int eventNumber, runNumber, lumiSection, bunchCross;
97  
98 <  TTree *sTree;
98 >  TTree* sTree;
99    TFile* ntupleFile;
100  
101 <  TClonesArray* jetP4_ak5PF;
100 <  TClonesArray* jetP4_ak5PF_corr;
101 <  TClonesArray* jetVtx3_ak5PF;
102 <  TClonesArray* jetVtx3_ak5PF_corr;
103 <  TClonesArray* jetP4_ak5Calo;
104 <  TClonesArray* jetP4_ak5Calo_corr;
105 <  TClonesArray* jetVtx3_ak5Calo;
106 <  TClonesArray* jetVtx3_ak5Calo_corr;
101 >  TClonesArray* jet_ak5PF;
102    TClonesArray* jetP4_ak5Gen;
103 <  TClonesArray* jetVtx3_ak5Gen;
109 <  TClonesArray* PrimaryVtx3;
103 >  TClonesArray* primaryVtx;
104  
105    bool doGenJets_;
112  bool doCaloJets_;
106    bool doPFJets_;
107 <
107 >  bool triggerHLT_;
108 >  bool isRealData;
109    string rootfilename;
110  
111    //Triggers
112 <  std::string hlTriggerResults_;
113 <  edm::TriggerNames triggerNames;
120 <  std::string hltName_;
121 <  std::string  triggerName_;
112 >  string hlTriggerResults_, hltName_, triggerName_;
113 >  TriggerNames triggerNames;
114    HLTConfigProvider hltConfig_;
115 <  edm::InputTag triggerResultsTag_;
116 <  std::vector<std::string>  hlNames;
115 >  vector<string>  hlNames;
116 >  unsigned int triggerStatus;
117 >
118 >  //Histograms
119 >  TH1F * h1_trackZ;
120 >  TProfile * p1_nVtcs;
121 >
122  
123  
124   };
# Line 129 | Line 126 | class MPIntuple : public edm::EDAnalyzer
126   MPIntuple::MPIntuple(const edm::ParameterSet& iConfig):
127  
128    PFJetHandle_(iConfig.getUntrackedParameter<edm::InputTag>("PFJetTag")),
132  CaloJetHandle_(iConfig.getUntrackedParameter<edm::InputTag>("CaloJetTag")),
133  PFJetHandle_corr(iConfig.getUntrackedParameter<edm::InputTag>("PFJetTag_corr")),
134  CaloJetHandle_corr(iConfig.getUntrackedParameter<edm::InputTag>("CaloJetTag_corr")),
129    GenJetHandle_(iConfig.getUntrackedParameter<edm::InputTag>("GenJetTag")),
130    PrimaryVtxHandle_(iConfig.getUntrackedParameter<edm::InputTag>("PrimaryVtxTag")),
131    doGenJets_(iConfig.getUntrackedParameter<bool>("doGenJets")),
138  doCaloJets_(iConfig.getUntrackedParameter<bool>("doCaloJets")),
132    doPFJets_(iConfig.getUntrackedParameter<bool>("doPFJets")),
133 +  triggerHLT_(iConfig.getUntrackedParameter<bool>("triggerHLT")),
134    rootfilename(iConfig.getUntrackedParameter<string>("rootfilename")),
135    hlTriggerResults_(iConfig.getUntrackedParameter<string>("HLTriggerResults","TriggerResults")),
136    hltName_(iConfig.getUntrackedParameter<string>("hltName","HLT"))
137   {
138 <  //edm::TriggerNames
145 <  // triggerNames(iConfig);
138 >
139  
140   }
141  
# Line 152 | Line 145 | MPIntuple::~MPIntuple()
145  
146   }
147  
148 + double MPIntuple::sumPtSquared(const Vertex & v)
149 + {
150 +  double sum = 0.;
151 +  double pT;
152 +  for (Vertex::trackRef_iterator it = v.tracks_begin(); it != v.tracks_end(); it++) {
153 +    pT = (**it).pt();
154 +    double epT=(**it).ptError(); pT=pT>epT ? pT-epT : 0;
155 +
156 +    sum += pT*pT;
157 +  }
158 +  return sum;
159 + }
160  
161   //
162   // member functions
# Line 161 | Line 166 | MPIntuple::~MPIntuple()
166   void MPIntuple::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup)
167   {
168  
169 <  eventNumber = iEvent.id().event();
170 <  runNumber   = iEvent.id().run();
169 >
170 >  eventNumber  = iEvent.id().event();
171 >  runNumber    = iEvent.id().run();
172    lumiSection  = (unsigned int)iEvent.getLuminosityBlock().luminosityBlock();
173 <  
174 <  int PFcount = 0;
175 <  int Calocount = 0;
176 <  int PFcount_corr = 0;
177 <  int Calocount_corr = 0;
178 <  int Gencount = 0;
173 <  int Vtxcount = 0;
173 >  bunchCross   = (unsigned int)iEvent.bunchCrossing();
174 >  isRealData   = iEvent.isRealData();
175 >
176 >  int PFcount   = 0;
177 >  int Gencount  = 0;
178 >  int Vtxcount  = 0;
179  
180    if(doPFJets_){
181 <    
181 >
182 >    edm::Handle<reco::JetTagCollection> bTagHandle1;
183 >    iEvent.getByLabel("trackCountingHighEffBJetTags", bTagHandle1);
184 >    const reco::JetTagCollection & bTags1 = *(bTagHandle1.product());
185 >    reco::JetTagCollection::const_iterator jet_it_1;
186 >
187 >    edm::Handle<reco::JetTagCollection> bTagHandle2;
188 >    iEvent.getByLabel("trackCountingHighPurBJetTags", bTagHandle2);
189 >    const reco::JetTagCollection & bTags2 = *(bTagHandle2.product());
190 >    reco::JetTagCollection::const_iterator jet_it_2;
191 >
192 >
193 >    const JetCorrector* correctorL2 = JetCorrector::getJetCorrector ("ak5PFL2Relative",iSetup);
194 >    const JetCorrector* correctorL3 = JetCorrector::getJetCorrector ("ak5PFL3Absolute",iSetup);
195 >
196      Handle<reco::PFJetCollection> PFJets;
197      iEvent.getByLabel(PFJetHandle_, PFJets);
198      
# Line 182 | Line 201 | void MPIntuple::analyze(const edm::Event
201      for(PFJetCollection::const_iterator jet_iter = PFJets->begin(); jet_iter!= PFJets->end(); ++jet_iter){
202        
203        reco::PFJet myJet = reco::PFJet(*jet_iter);
185      
186      if(myJet.et() > 5){
187        
188        new ((*jetP4_ak5PF)[PFcount]) TLorentzVector(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
189        new ((*jetVtx3_ak5PF)[PFcount]) TVector3(myJet.vx(), myJet.vy(), myJet.vz());
190        
191        ++PFcount;
192      }
193      
194    }
195    
196    
197    PFcount_corr = 0;
198    
199    Handle<reco::PFJetCollection> PFJets_corr;
200    iEvent.getByLabel(PFJetHandle_corr, PFJets_corr);
201    
202    for(PFJetCollection::const_iterator jet_iter = PFJets_corr->begin(); jet_iter!= PFJets_corr->end(); ++jet_iter){
203      
204      reco::PFJet myJet = reco::PFJet(*jet_iter);
205      
206      if(myJet.et() > 5){
207        
208        new ((*jetP4_ak5PF_corr)[PFcount_corr]) TLorentzVector(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
209        new ((*jetVtx3_ak5PF_corr)[PFcount_corr]) TVector3(myJet.vx(), myJet.vy(), myJet.vz());
210        
211        ++PFcount_corr;
212      }
213    }
214  }
215  
216  if(doCaloJets_){
217    
218    Calocount = 0;
219    
220    Handle<reco::CaloJetCollection> CaloJets;
221    iEvent.getByLabel(CaloJetHandle_, CaloJets);
222    
223    for(CaloJetCollection::const_iterator jet_iter = CaloJets->begin(); jet_iter!= CaloJets->end(); ++jet_iter){
224      
225      reco::CaloJet myJet = reco::CaloJet(*jet_iter);
226      
204        if(myJet.et() > 5){
205 <        
206 <        new ((*jetP4_ak5Calo)[Calocount]) TLorentzVector(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
207 <        new ((*jetVtx3_ak5Calo)[Calocount]) TVector3(myJet.vx(), myJet.vy(), myJet.vz());
208 <        
209 <        ++Calocount;
210 <        
211 <      }
212 <    }
213 <    
214 <    Handle<reco::CaloJetCollection> CaloJets_corr;
238 <    iEvent.getByLabel(CaloJetHandle_corr, CaloJets_corr);
239 <    
240 <    Calocount_corr = 0;
241 <    
242 <    for(CaloJetCollection::const_iterator jet_iter = CaloJets_corr->begin(); jet_iter!= CaloJets_corr->end(); ++jet_iter){
243 <      
244 <      reco::CaloJet myJet = reco::CaloJet(*jet_iter);
205 >
206 >        for(jet_it_1 = bTags1.begin(); jet_it_1 != bTags1.end(); jet_it_1++) {
207 >           if( (fabs(jet_it_1->first->eta() - myJet.eta()) < .005) && (deltaPhi(jet_it_1->first->phi(),myJet.phi()) < .005)) break;
208 >        }
209 >
210 >        for(jet_it_2 = bTags2.begin(); jet_it_2 != bTags2.end(); jet_it_2++) {
211 >           if( (fabs(jet_it_2->first->eta() - myJet.eta()) < .005) && (deltaPhi(jet_it_2->first->phi(),myJet.phi()) < .005)) break;
212 >        }
213 >                
214 >        TCJet* jetCon = new ((*jet_ak5PF)[PFcount]) TCJet;
215        
216 <      if(myJet.et() > 5){
217 <        
218 <        new ((*jetP4_ak5Calo_corr)[Calocount_corr]) TLorentzVector(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
219 <        new ((*jetVtx3_ak5Calo_corr)[Calocount_corr]) TVector3(myJet.vx(), myJet.vy(), myJet.vz());
220 <        
221 <        ++Calocount_corr;
222 <      }
223 <    }
216 >        jetCon->SetP4(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
217 >        jetCon->SetVtx(-999.0, -999.0, -999.0);
218 >
219 >        jetCon->SetChHadFrac(myJet.chargedHadronEnergyFraction());
220 >        jetCon->SetNeuHadFrac(myJet.neutralHadronEnergyFraction());
221 >        jetCon->SetChEmFrac(myJet.chargedEmEnergyFraction());
222 >        jetCon->SetNeuEmFrac(myJet.neutralEmEnergyFraction());
223 >
224 >        jetCon->SetNumConstit(myJet.chargedMultiplicity() + myJet.neutralMultiplicity());
225 >        jetCon->SetNumChPart(myJet.chargedMultiplicity());
226 >
227 >        jetCon->SetNumChPart(myJet.chargedMultiplicity());
228 >
229 >        if(jet_it_2 != bTags2.end()) jetCon->SetBDiscrTrkCountHiPure(jet_it_2->second);
230 >        if(jet_it_1 != bTags1.end()) jetCon->SetBDiscrTrkCountHiEff(jet_it_1->second);
231 >
232 >        float scale2 = correctorL2->correction(myJet);
233 >        myJet.scaleEnergy(scale2);
234 >        float scale3 = correctorL3->correction(myJet);
235 >        myJet.scaleEnergy(scale3);
236 >
237 >        //more corrections?
238 >
239 >        jetCon->SetJetCorr(2, scale2);
240 >        jetCon->SetJetCorr(3, scale3);
241 >
242 >        //get associated tracks
243 >
244 >        const reco::TrackRefVector &tracks = myJet.getTrackRefs();
245 >
246 >        float sumTrackZ = 0;
247 >        float meanTrackZ = -999;
248 >        int nAssociatedTracks = 0;
249 >
250 >        if(myJet.pt() > 5){
251 >
252 >          for(TrackRefVector::const_iterator iTrack = tracks.begin(); iTrack != tracks.end(); ++iTrack){
253 >
254 >            const reco::Track& myTrack = **iTrack;
255 >
256 >            sumTrackZ += myTrack.vz();
257 >            ++nAssociatedTracks;
258 >
259 >          }
260 >
261 >          meanTrackZ = sumTrackZ/nAssociatedTracks;
262 >
263 >          for(TrackRefVector::const_iterator iTrack = tracks.begin(); iTrack != tracks.end(); ++iTrack){
264 >
265 >            const reco::Track& myTrack = **iTrack;
266 >
267 >            h1_trackZ->Fill(meanTrackZ - myTrack.vz());
268 >
269 >          }
270 >
271 >        }
272 >
273 >        jetCon->SetVtx(0, 0, meanTrackZ);
274 >
275 >        ++PFcount;
276 >      }      
277 >    }  
278    }
279    
280 <  if(doGenJets_){
280 >  if(!isRealData){
281      
282 +
283      Handle<reco::GenJetCollection> GenJets;
284      iEvent.getByLabel(GenJetHandle_, GenJets);
285      
# Line 263 | Line 288 | void MPIntuple::analyze(const edm::Event
288        
289        reco::GenJet myJet = reco::GenJet(*jet_iter);
290        
291 <      if(myJet.et() > 5){
291 >      if(myJet.pt() > 5){
292          
293          new ((*jetP4_ak5Gen)[Gencount]) TLorentzVector(myJet.px(), myJet.py(), myJet.pz(), myJet.energy());
269        new ((*jetVtx3_ak5Gen)[Gencount]) TVector3(myJet.vx(), myJet.vy(), myJet.vz());
294          
295          ++Gencount;
296          
297        }
298 <    }
298 >    }    
299    }
300    
301    
302 <  Handle<reco::VertexCollection> primaryVtx;
303 <  iEvent.getByLabel(PrimaryVtxHandle_, primaryVtx);
304 <
305 <  for(VertexCollection::const_iterator vtx_iter = primaryVtx->begin(); vtx_iter!= primaryVtx->end(); ++vtx_iter){
302 >  Handle<reco::VertexCollection> primaryVtcs;
303 >  iEvent.getByLabel(PrimaryVtxHandle_, primaryVtcs);
304 >  
305 >  for(VertexCollection::const_iterator vtx_iter = primaryVtcs->begin(); vtx_iter!= primaryVtcs->end(); ++vtx_iter){
306      
307      reco::Vertex myVtx = reco::Vertex(*vtx_iter);
308 <    
309 <    new ((*PrimaryVtx3)[Vtxcount]) TVector3(myVtx.x(), myVtx.y(), myVtx.z());
310 <    
308 >    if(!myVtx.isValid() || myVtx.isFake()) continue;
309 >    TCPrimaryVtx* vtxCon = new ((*primaryVtx)[Vtxcount]) TCPrimaryVtx;
310 >      
311 >    vtxCon->SetPosition(myVtx.x(), myVtx.y(), myVtx.z());
312 >    vtxCon->SetNDof(myVtx.ndof());
313 >    vtxCon->SetChi2(myVtx.chi2());
314 >    vtxCon->SetNTrks(myVtx.tracksSize());
315 >    vtxCon->SetSumPt2Trks(sumPtSquared(myVtx));
316      ++Vtxcount;
317      
318    }
290  
291  
292  if(Calocount > 0 || Calocount_corr >0 || PFcount_corr > 0 || PFcount > 0 || Gencount > 0)  sTree -> Fill();
293
294  jetP4_ak5PF->Clear();
295  jetP4_ak5PF_corr->Clear();
296  jetVtx3_ak5PF->Clear();
297  jetP4_ak5Calo->Clear();
298  jetP4_ak5Calo_corr->Clear();
299  jetVtx3_ak5Calo->Clear();
300  jetP4_ak5Gen->Clear();
301  jetVtx3_ak5Gen->Clear();
302  
319  
320 +  p1_nVtcs->Fill(runNumber, Vtxcount);
321  
322 <  //----------  Filling HLT trigger bits!  ------------
322 >  if(triggerHLT_){
323  
324 <  edm::Handle<TriggerResults> hltR;
308 <  triggerResultsTag_ = InputTag(hlTriggerResults_,"",hltName_);
309 <  iEvent.getByLabel(triggerResultsTag_,hltR);
310 <  const edm::TriggerNames & triggerNames = iEvent.triggerNames(*hltR);
311 <  hlNames=triggerNames.triggerNames();
312 <  bool triggerPassed = false;
313 <  
314 <  for (uint iT=0; iT<hlNames.size(); ++iT)
315 <    {
316 <      triggerPassed = triggerDecision(hltR, iT);
324 >    //----------  Filling HLT trigger bits!  ------------
325  
326 < if (hlNames[iT]=="HLT_PixelTracks_Multiplicity70")
327 < {
328 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
329 < //And fill the bit here
330 < }
331 <
332 < if (hlNames[iT]=="HLT_MinBiasBSC_NoBPTX")
333 < {
334 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
335 < //And fill the bit here
336 < }
337 <
338 < if (hlNames[iT]=="HLT_PixelTracks_Multiplicity40")
331 < {
332 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
333 < }
334 < if (hlNames[iT]=="HLT_L1Tech_HCAL_HF")
335 < {
336 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
337 < }
338 < if (hlNames[iT]=="HLT_IsoTrackHB_8E29")
339 < {
340 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
341 < }
342 < if (hlNames[iT]=="HLT_IsoTrackHE_8E29")
343 < {
344 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
345 < }
346 < if (hlNames[iT]=="HLT_L1Tech_RPC_TTU_RBst1_collisions")
347 < {
348 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
349 < }
350 < if (hlNames[iT]=="HLT_L1_BscMinBiasOR_BptxPlusORMinus")
351 < {
352 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
353 < }
354 < if (hlNames[iT]=="HLT_L1Tech_BSC_halo_forPhysicsBackground")
355 < {
356 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
357 < }
358 < if (hlNames[iT]=="HLT_L1Tech_BSC_HighMultiplicity")
359 < {
360 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
361 < }
362 < if (hlNames[iT]=="HLT_MinBiasPixel_DoubleIsoTrack5")
363 < {
364 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
365 < }
366 < if (hlNames[iT]=="HLT_MinBiasPixel_DoubleTrack")
367 < {
368 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
369 < }
370 < if (hlNames[iT]=="HLT_MinBiasPixel_SingleTrack")
371 < {
372 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
373 < }
374 < if (hlNames[iT]=="HLT_ZeroBiasPixel_SingleTrack")
375 < {
376 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
377 < }
378 < if (hlNames[iT]=="HLT_MinBiasBSC")
379 < {
380 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
381 < }
382 < if (hlNames[iT]=="HLT_StoppedHSCP_8E29")
383 < {
384 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
385 < }
386 < if (hlNames[iT]=="HLT_Jet15U_HcalNoiseFiltered")
387 < {
388 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
389 < }
390 < if (hlNames[iT]=="HLT_QuadJet15U")
391 < {
392 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
393 < }
394 < if (hlNames[iT]=="HLT_DiJetAve30U_8E29")
395 < {
396 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
397 < }
398 < if (hlNames[iT]=="HLT_DiJetAve15U_8E29")
399 < {
400 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
401 < }
402 < if (hlNames[iT]=="HLT_FwdJet20U")
403 < {
404 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
405 < }
406 < if (hlNames[iT]=="HLT_Jet50U")
407 < {
408 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
409 < }
410 < if (hlNames[iT]=="HLT_Jet30U")
411 < {
412 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
413 < }
414 < if (hlNames[iT]=="HLT_Jet15U")
415 < {
416 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
417 < }
418 < if (hlNames[iT]=="HLT_BTagMu_Jet10U")
419 < {
420 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
421 < }
422 < if (hlNames[iT]=="HLT_DoubleJet15U_ForwardBackward")
423 < {
424 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
425 < }
426 < if (hlNames[iT]=="HLT_BTagIP_Jet50U")
427 < {
428 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
429 < }
430 < if (hlNames[iT]=="HLT_DoubleLooseIsoTau15")
431 < {
432 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
433 < }
434 < if (hlNames[iT]=="HLT_SingleLooseIsoTau20")
435 < {
436 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
437 < }
438 < if (hlNames[iT]=="HLT_HT100U")
439 < {
440 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
441 < }
442 < if (hlNames[iT]=="HLT_MET100")
443 < {
444 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
445 < }
446 < if (hlNames[iT]=="HLT_MET45")
447 < {
448 <      cout<<"trigger name: "<<hlNames[iT]<<"  status: "<<triggerPassed<<endl;
449 < }
450 <        
326 >    edm::Handle<TriggerResults> hltR;
327 >    triggerResultsTag_ = InputTag(hlTriggerResults_,"",hltName_);
328 >    iEvent.getByLabel(triggerResultsTag_,hltR);
329 >    
330 >    const TriggerNames & triggerNames = iEvent.triggerNames(*hltR);
331 >    hlNames=triggerNames.triggerNames();
332 >    
333 >    string MPI_TriggerNames[] = {"HLT_PixelTracks_Multiplicity70", "HLT_MinBiasBSC_NoBPTX", "HLT_PixelTracks_Multiplicity40","HLT_L1Tech_HCAL_HF", "HLT_IsoTrackHB_8E29", "HLT_IsoTrackHE_8E29", "HLT_L1Tech_RPC_TTU_RBst1_collisions", "HLT_L1_BscMinBiasOR_BptxPlusORMinus", "HLT_L1Tech_BSC_halo_forPhysicsBackground", "HLT_L1Tech_BSC_HighMultiplicity", "HLT_MinBiasPixel_DoubleIsoTrack5", "HLT_MinBiasPixel_DoubleTrack", "HLT_MinBiasPixel_SingleTrack", "HLT_ZeroBiasPixel_SingleTrack", "HLT_MinBiasBSC", "HLT_StoppedHSCP_8E29", "HLT_Jet15U_HcalNoiseFiltered", "HLT_QuadJet15U", "HLT_DiJetAve30U_8E29", "HLT_DiJetAve15U_8E29", "HLT_FwdJet20U", "HLT_Jet50U", "HLT_Jet30U", "HLT_Jet15U", "HLT_BTagMu_Jet10U", "HLT_DoubleJet15U_ForwardBackward", "HLT_BTagIP_Jet50U", "HLT_DoubleLooseIsoTau15", "HLT_SingleLooseIsoTau20", "HLT_HT100U", "HLT_MET100", "HLT_MET45"};
334 >    
335 >    bool triggerPassed = false;
336 >    triggerStatus = 0x0;
337 >    
338 >    for (uint i=0; i<hlNames.size(); ++i) {
339        
340 <      // ----------->> Fill them Here! <<----------------------
341 <    }
342 <  //----------         ------------------   ---------------  
340 >      triggerPassed = triggerDecision(hltR, i);
341 >      
342 >      if(triggerPassed){
343 >        
344 >        for (uint j = 0; j != 32; ++j){
345 >          
346 >          if (hlNames[i] == MPI_TriggerNames[j])
347 >            {
348 >              //            cout<<"trigger name: "<<hlNames[i]<<"list: "<<dec<<j+1<<endl;
349 >              triggerStatus |= 0x01 << j;
350 >              
351 >            }
352 >        }
353 >      }
354 >    }
355 >  }
356 >  //  cout<< "total status: "<<hex<<triggerStatus<<endl;
357 >
358  
359 +
360 +  if((PFcount > 3 || Gencount > 3) && Vtxcount > 0) sTree -> Fill();
361  
362 +  jet_ak5PF->Clear();
363 +  primaryVtx->Clear();
364 +  jetP4_ak5Gen->Clear();
365  
366   }
367  
# Line 463 | Line 371 | void  MPIntuple::beginJob()
371   {
372    
373    ntupleFile           = new TFile(rootfilename.c_str(), "RECREATE");
374 <  sTree                = new TTree("dpsTree", "Tree for Jets");
375 <  
376 <  jetP4_ak5PF          = new TClonesArray("TLorentzVector");
377 <  jetVtx3_ak5PF        = new TClonesArray("TVector3");
378 <  jetP4_ak5Calo        = new TClonesArray("TLorentzVector");
379 <  jetVtx3_ak5Calo      = new TClonesArray("TVector3");
472 <  jetP4_ak5PF_corr     = new TClonesArray("TLorentzVector");
473 <  jetVtx3_ak5PF_corr   = new TClonesArray("TVector3");
474 <  jetP4_ak5Calo_corr   = new TClonesArray("TLorentzVector");
475 <  jetVtx3_ak5Calo_corr = new TClonesArray("TVector3");
374 >  sTree                = new TTree("mpiTree", "Tree for Jets");
375 >
376 >  h1_trackZ            = new TH1F("h1_trackZ", "#Delta z for associated tracks", 50, -0.2, 0.2);
377 >  p1_nVtcs             = new TProfile("p1_nVtcs", "<N> per run", 5200.0, 132300.0, 137500.0, 0.0, 6.0);
378 >
379 >  jet_ak5PF            = new TClonesArray("TCJet");
380    jetP4_ak5Gen         = new TClonesArray("TLorentzVector");
381 <  jetVtx3_ak5Gen       = new TClonesArray("TVector3");
382 <  PrimaryVtx3          = new TClonesArray("TVector3");
381 >  primaryVtx           = new TClonesArray("TCPrimaryVtx");
382 >
383  
384 <  sTree->Branch("jetP4_ak5PF",&jetP4_ak5PF, 6400, 0);
481 <  sTree->Branch("jetP4_ak5PF_corr",&jetP4_ak5PF_corr, 6400, 0);
482 <  sTree->Branch("jetVtx3_ak5PF",&jetVtx3_ak5PF, 6400, 0);
483 <  sTree->Branch("jetVtx3_ak5PF_corr",&jetVtx3_ak5PF, 6400, 0);
484 <  sTree->Branch("jetP4_ak5Calo",&jetP4_ak5Calo, 6400, 0);
485 <  sTree->Branch("jetP4_ak5Calo_corr",&jetP4_ak5Calo_corr, 6400, 0);
486 <  sTree->Branch("jetVtx3_ak5Calo",&jetVtx3_ak5Calo, 6400, 0);
487 <  sTree->Branch("jetVtx3_ak5Calo_corr",&jetVtx3_ak5Calo, 6400, 0);
384 >  sTree->Branch("jet_ak5PF",&jet_ak5PF, 6400, 0);
385    sTree->Branch("jetP4_ak5Gen",&jetP4_ak5Gen, 6400, 0);
386 <  sTree->Branch("jetVtx3_ak5Gen",&jetVtx3_ak5Gen, 6400, 0);
490 <  sTree->Branch("PrimaryVtx",&PrimaryVtx3, 6400, 0);
386 >  sTree->Branch("primaryVtx",&primaryVtx, 6400, 0);
387  
388    sTree->Branch("eventNumber",&eventNumber, "eventNumber/I");
389    sTree->Branch("runNumber",&runNumber, "runNumber/I");
390    sTree->Branch("lumiSection",&lumiSection, "lumiSection/I");
391 +  sTree->Branch("triggerStatus",&triggerStatus, "triggerStatus/i");
392 +  sTree->Branch("isRealData",&isRealData, "isRealData/i");
393 +  sTree->Branch("bunchCross",&bunchCross, "bunchCross/i");
394  
395   }
396  
397   // ------------ method called once each job just after ending the event loop  ------------
398   void MPIntuple::endJob()
399   {
400 +
401 +  h1_trackZ->Write();
402 +  p1_nVtcs->Write();
403 +
404    ntupleFile->Write();
405    ntupleFile->Close();
406  

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