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root/cvsroot/UserCode/VHbbAnalysis/VHbbDataFormats/bin/Ntupler.cc
Revision: 1.111
Committed: Tue Oct 9 09:30:46 2012 UTC (12 years, 7 months ago) by arizzi
Content type: text/plain
Branch: MAIN
CVS Tags: hbbsubstructDev_4, hbbsubstructDev_3, hbbsubstructDev_2, hbbsubstructDev_1, hbbsubstructDev, EDMV42_Step2_V4a
Branch point for: hbbsubstructDevPostHCP
Changes since 1.110: +16 -5 lines
Log Message: 
protect against printout. add PU systematic weights

File Contents

# Content
1 #include <TH1F.h>
2 #include <TH3F.h>
3 #include "PhysicsTools/Utilities/interface/LumiReWeighting.h"
4 //#include "PhysicsTools/Utilities/interface/Lumi3DReWeighting.h"
5 #include <TH2F.h>
6 #include <TROOT.h>
7 #include <TFile.h>
8 #include <TTree.h>
9 #include <TSystem.h>
10 #include "DataFormats/FWLite/interface/Event.h"
11 #include "DataFormats/FWLite/interface/Handle.h"
12 #include "FWCore/FWLite/interface/AutoLibraryLoader.h"
13 #include "DataFormats/MuonReco/interface/Muon.h"
14 #include "DataFormats/PatCandidates/interface/Muon.h"
15 #include "PhysicsTools/FWLite/interface/TFileService.h"
16 #include "FWCore/ParameterSet/interface/ProcessDesc.h"
17 #include "FWCore/PythonParameterSet/interface/PythonProcessDesc.h"
18 #include "DataFormats/Math/interface/deltaR.h"
19 #include "DataFormats/Math/interface/deltaPhi.h"
20
21 #include "DataFormats/FWLite/interface/LuminosityBlock.h"
22 #include "DataFormats/FWLite/interface/Run.h"
23 #include "DataFormats/Luminosity/interface/LumiSummary.h"
24
25 #include "VHbbAnalysis/VHbbDataFormats/interface/HbbCandidateFinderAlgo.h"
26 #include "VHbbAnalysis/VHbbDataFormats/src/HbbCandidateFinderAlgo.cc"
27
28 #include "VHbbAnalysis/VHbbDataFormats/interface/VHbbEvent.h"
29 #include "VHbbAnalysis/VHbbDataFormats/interface/VHbbEventAuxInfo.h"
30 #include "VHbbAnalysis/VHbbDataFormats/interface/VHbbCandidate.h"
31 #include "VHbbAnalysis/VHbbDataFormats/interface/TriggerReader.h"
32 #include "VHbbAnalysis/VHbbDataFormats/interface/TopMassReco.h"
33 #include "VHbbAnalysis/VHbbDataFormats/interface/JECFWLite.h"
34
35 //for IVF
36 #include "RecoBTag/SecondaryVertex/interface/SecondaryVertex.h"
37 #include "DataFormats/GeometryCommonDetAlgo/interface/Measurement1D.h"
38 #include "DataFormats/GeometryVector/interface/GlobalVector.h"
39 #include "DataFormats/GeometryVector/interface/VectorUtil.h"
40 #include <DataFormats/GeometrySurface/interface/Surface.h>
41 #include "Math/SMatrix.h"
42
43 //for LHE info
44 #include "SimDataFormats/GeneratorProducts/interface/LHEEventProduct.h"
45
46 //Move class definition to Ntupler.h ?
47 //#include "VHbbAnalysis/VHbbDataFormats/interface/Ntupler.h"
48
49 #include "ZSV/BAnalysis/interface/SimBHadron.h"
50 //btagging
51 #include "VHbbAnalysis/VHbbDataFormats/interface/BTagWeight.h"
52 #include "VHbbAnalysis/VHbbDataFormats/interface/BTagReshaping.h"
53 //trigger
54 #include "VHbbAnalysis/VHbbDataFormats/interface/TriggerWeight.h"
55
56 #include <sstream>
57 #include <string>
58
59 #define MAXJ 130
60 #define MAXL 110
61 #define MAXB 110
62 #define MAXT 160
63 #define nMetUnc 24
64 //eleEnDown/Up, muEn, tauEn, JES, JER, Unclustered for type1 MET [0-11] and than type1p2 MET [12-23]
65
66 struct CompareDeltaR {
67 CompareDeltaR(TLorentzVector p4dir_): p4dir(p4dir_) {}
68 bool operator()( const VHbbEvent::SimpleJet& j1, const VHbbEvent::SimpleJet& j2 ) const {
69 return j1.p4.DeltaR(p4dir) > j2.p4.DeltaR(p4dir);
70 }
71 TLorentzVector p4dir;
72 };
73
74 const GlobalVector flightDirection(const TVector3 pv, const reco::Vertex &sv){
75 GlobalVector fdir(sv.position().X() - pv.X(),
76 sv.position().Y() - pv.Y(),
77 sv.position().Z() - pv.Z());
78 return fdir;
79 }
80
81 bool jsonContainsEvent (const std::vector< edm::LuminosityBlockRange > &jsonVec,
82 const edm::EventBase &event)
83 {
84 // if the jsonVec is empty, then no JSON file was provided so all
85 // events should pass
86 if (jsonVec.empty())
87 {
88 return true;
89 }
90 bool (* funcPtr) (edm::LuminosityBlockRange const &,
91 edm::LuminosityBlockID const &) = &edm::contains;
92 edm::LuminosityBlockID lumiID (event.id().run(),
93 event.id().luminosityBlock());
94 std::vector< edm::LuminosityBlockRange >::const_iterator iter =
95 std::find_if (jsonVec.begin(), jsonVec.end(),
96 boost::bind(funcPtr, _1, lumiID) );
97 return jsonVec.end() != iter;
98
99 }
100
101 float resolutionBias(float eta)
102 {
103 // return 0;//Nominal!
104 if(eta< 1.1) return 0.05;
105 if(eta< 2.5) return 0.10;
106 if(eta< 5) return 0.30;
107 return 0;
108 }
109
110
111 typedef struct
112 {
113 void set(const SimBHadron & sbhc, int i){
114 mass[i] = sbhc.mass();
115 pt[i] = sbhc.pt();
116 eta[i] = sbhc.eta();
117 phi[i] = sbhc.phi();
118 vtx_x[i] = sbhc.decPosition.x();
119 vtx_y[i] = sbhc.decPosition.y();
120 vtx_z[i] = sbhc.decPosition.z();
121 pdgId[i] = sbhc.pdgId();
122 status[i] = sbhc.status();
123 };
124 void reset(){
125 for(int i=0; i < MAXB; ++i){
126 mass[i] = -99; pt[i] = -99; eta[i] = -99; phi[i] = -99; vtx_x[i] = -99; vtx_y[i] = -99; vtx_z[i] = -99; pdgId[i] = -99; status[i] = -99;
127 }
128 };
129 float mass[MAXB];
130 float pt[MAXB];
131 float eta[MAXB];
132 float phi[MAXB];
133 float vtx_x[MAXB];
134 float vtx_y[MAXB];
135 float vtx_z[MAXB];
136 int pdgId[MAXB];
137 int status[MAXB];
138 // int quarkStatus[MAXB];
139 // int brotherStatus[MAXB];
140 // int otherId[MAXB];
141 // bool etaOk[MAXB];
142 // bool simOk[MAXB];
143 // bool trackOk[MAXB];
144 // bool cutOk[MAXB];
145 // bool cutNewOk[MAXB];
146 // bool mcMatchOk[MAXB];
147 // bool matchOk[MAXB];
148 } SimBHadronInfo;
149
150
151 typedef struct
152 {
153 void set( const reco::SecondaryVertex & recoSv, const TVector3 recoPv, int isv){
154 pt[isv] = recoSv.p4().Pt();
155 eta[isv] = flightDirection(recoPv,recoSv).eta();
156 phi[isv] = flightDirection(recoPv,recoSv).phi();
157 massBcand[isv] = recoSv.p4().M();
158 massSv[isv] = recoSv.p4().M();
159 dist3D[isv] = recoSv.dist3d().value();
160 distSig3D[isv] = recoSv.dist3d().significance();
161 dist2D[isv] = recoSv.dist2d().value();
162 distSig2D[isv] = recoSv.dist2d().significance();
163 dist3D_norm[isv] = recoSv.dist3d().value()/recoSv.p4().Gamma();
164 };
165 void reset(){
166 for(int i = 0; i < MAXB; ++i){
167 massBcand[i] = -99; massSv[i]= -99; pt[i] = -99; eta[i] = -99; phi[i] = -99; dist3D[i] = -99; distSig3D[i] = -99; dist2D[i] = -99; distSig2D[i] = -99; dist3D_norm[i] = -99;
168 }
169 };
170 float massBcand[MAXB];
171 float massSv[MAXB];
172 float pt[MAXB];
173 float eta[MAXB];
174 float phi[MAXB];
175 float dist3D[MAXB];
176 float distSig3D[MAXB];
177 float dist2D[MAXB];
178 float distSig2D[MAXB];
179 float dist3D_norm[MAXB];
180 } IVFInfo;
181
182
183 typedef struct
184 {
185 int HiggsFlag;
186 float mass;
187 float pt;
188 float eta;
189 float phi;
190 float dR;
191 float dPhi;
192 float dEta;
193 } HiggsInfo;
194
195 typedef struct
196 {
197 int FatHiggsFlag;
198 float mass;
199 float pt;
200 float eta;
201 float phi;
202 float filteredmass;
203 float filteredpt;
204 float filteredeta;
205 float filteredphi;
206 // float dR;
207 // float dPhi;
208 // float dEta;
209 } FatHiggsInfo;
210
211
212
213 typedef struct
214 {
215 float mass;
216 float pt;
217 float eta;
218 float phi;
219 float status;
220 float charge;
221 float momid;
222 } genParticleInfo;
223
224
225
226 typedef struct
227
228 {
229 float bmass;
230 float bpt;
231 float beta;
232 float bphi;
233 float bstatus;
234 float wdau1mass;
235 float wdau1pt;
236 float wdau1eta;
237 float wdau1phi;
238 float wdau1id;
239 float wdau2mass;
240 float wdau2pt;
241 float wdau2eta;
242 float wdau2phi;
243 float wdau2id;
244
245
246 } genTopInfo;
247
248
249
250
251 typedef struct
252 {
253 bool HiggsCSVtkSharing;
254 bool HiggsIPtkSharing;
255 bool HiggsSVtkSharing;
256 bool FatHiggsCSVtkSharing;
257 bool FatHiggsIPtkSharing;
258 bool FatHiggsSVtkSharing;
259 } TrackSharingInfo;
260
261 typedef struct
262 {
263 float mass; //MT in case of W
264 float pt;
265 float eta;
266 float phi;
267 } TrackInfo;
268
269
270 struct LeptonInfo
271 {
272 void reset()
273 {
274 for(int i =0; i < MAXL;i++){
275 mass[i]=-99; pt[i]=-99; eta[i]=-99; phi[i]=-99; aodCombRelIso[i]=-99; pfCombRelIso[i]=-99; photonIso[i]=-99; neutralHadIso[i]=-99; chargedHadIso[i]=-99; chargedPUIso[i]=-99; particleIso[i]=-99; dxy[i]=-99; dz[i]=-99; type[i]=-99; genPt[i]=-99; genEta[i]=-99; genPhi[i]=-99;
276 id80[i]=-99; id95[i]=-99; vbtf[i]=-99; id80NoIso[i]=-99;
277 charge[i]=-99;wp70[i]=-99; wp80[i]=-99;wp85[i]=-99;wp90[i]=-99;wp95[i]=-99;wpHWW[i]=-99;
278 pfCorrIso[i]=-99.; id2012tight[i]=-99; idMVAnotrig[i]=-99; idMVAtrig[i]=-99;innerHits[i]=-99.;
279
280 }
281 }
282
283 template <class Input> void set(const Input & i, int j,int t,const VHbbEventAuxInfo & aux)
284 {
285 type[j]=t;
286 pt[j]=i.p4.Pt();
287 mass[j]=i.p4.M();
288 eta[j]=i.p4.Eta();
289 phi[j]=i.p4.Phi();
290 aodCombRelIso[j]=(i.hIso+i.eIso+i.tIso)/i.p4.Pt();
291 pfCombRelIso[j]=(i.pfChaIso+i.pfPhoIso+i.pfNeuIso)/i.p4.Pt();
292 photonIso[j]=i.pfPhoIso;
293 neutralHadIso[j]=i.pfNeuIso;
294 chargedHadIso[j]=i.pfChaIso;
295 chargedPUIso[j]=i.pfChaPUIso;
296 charge[j]=i.charge;
297 if(i.mcFourMomentum.Pt() > 0)
298 {
299 genPt[j]=i.mcFourMomentum.Pt();
300 genEta[j]=i.mcFourMomentum.Eta();
301 genPhi[j]=i.mcFourMomentum.Phi();
302 }
303 setSpecific(i,j,aux);
304 }
305 template <class Input> void setSpecific(const Input & i, int j,const VHbbEventAuxInfo & aux)
306 {
307 }
308
309
310
311
312 float mass[MAXL]; //MT in case of W
313 float pt[MAXL];
314 float eta[MAXL];
315 float phi[MAXL];
316 float aodCombRelIso[MAXL];
317 float pfCombRelIso[MAXL];
318 float photonIso[MAXL];
319 float neutralHadIso[MAXL];
320 float chargedHadIso[MAXL];
321 float chargedPUIso[MAXL];
322 float particleIso[MAXL];
323 float genPt[MAXL];
324 float genEta[MAXL];
325 float genPhi[MAXL];
326 float dxy[MAXL];
327 float dz[MAXL];
328 int type[MAXL];
329 float id80[MAXL];
330 float id95[MAXL];
331 float vbtf[MAXL];
332 float id80NoIso[MAXL];
333 float charge[MAXL];
334 float pfCorrIso[MAXL];
335 float id2012tight[MAXL];
336 float idMVAnotrig[MAXL];
337 float idMVAtrig[MAXL];
338 float idMVApresel[MAXL];
339 float wp70[MAXL];
340 float wp80[MAXL];
341 float wp85[MAXL];
342 float wp90[MAXL];
343 float wp95[MAXL];
344 float wpHWW[MAXL];
345 float innerHits[MAXL];
346 float photonIsoDoubleCount[MAXL];
347 };
348
349 template <> void LeptonInfo::setSpecific<VHbbEvent::ElectronInfo>(const VHbbEvent::ElectronInfo & i, int j,const VHbbEventAuxInfo & aux){
350 photonIsoDoubleCount[j]=i.pfPhoIsoDoubleCounted;
351 id80[j]=i.id80;
352 id95[j]=i.id95;
353 id80NoIso[j]=(i.innerHits ==0 && !(fabs(i.convDist)<0.02 && fabs(i.convDcot)<0.02) &&
354 ((i.isEB && i.sihih<0.01 && fabs(i.Dphi)<0.06 && fabs(i.Deta)<0.004) || (i.isEE && i.sihih<0.03 && fabs(i.Dphi)<0.03 && fabs(i.Deta)<0.007)));
355 innerHits[j]=i.innerHits;
356 float mincor=0.0;
357 float minrho=0.0;
358 float rho = std::max(aux.puInfo.rho25Iso,minrho);
359 float eta=i.p4.Eta();
360 float areagamma=0.5;
361 float areaNH=0.5;
362 float areaComb=0.5;
363
364 if(fabs(eta) <= 1.0 ) {areagamma=0.14; areaNH=0.044; areaComb=0.18;}
365 if(fabs(eta) > 1.0 && fabs(eta) <= 1.479 ) {areagamma=0.13; areaNH=0.065; areaComb=0.20;}
366 if(fabs(eta) > 1.479 && fabs(eta) <= 2.0 ) {areagamma=0.079; areaNH=0.068; areaComb=0.15;}
367 if(fabs(eta) > 2.0 && fabs(eta) <= 2.2 ) {areagamma=0.13; areaNH=0.057; areaComb=0.19;}
368 if(fabs(eta) > 2.2 && fabs(eta) <= 2.3 ) {areagamma=0.15; areaNH=0.058; areaComb=0.21;}
369 if(fabs(eta) > 2.3 && fabs(eta) <= 2.4 ) {areagamma=0.16; areaNH=0.061; areaComb=0.22;}
370 if(fabs(eta) > 2.4 ) {areagamma=0.18; areaNH=0.11; areaComb=0.29;}
371 /*
372 if(fabs(eta) <= 1.0 ) {areagamma=0.081; areaNH=0.024; areaComb=0.10;}
373 if(fabs(eta) > 1.0 && fabs(eta) <= 1.479 ) {areagamma=0.084; areaNH=0.037; areaComb=0.12;}
374 if(fabs(eta) > 1.479 && fabs(eta) <= 2.0 ) {areagamma=0.048; areaNH=0.037; areaComb=0.085;}
375 if(fabs(eta) > 2.0 && fabs(eta) <= 2.2 ) {areagamma=0.089; areaNH=0.023; areaComb=0.11;}
376 if(fabs(eta) > 2.2 && fabs(eta) <= 2.3 ) {areagamma=0.092; areaNH=0.023; areaComb=0.12;}
377 if(fabs(eta) > 2.3 && fabs(eta) <= 2.4 ) {areagamma=0.097; areaNH=0.021; areaComb=0.12;}
378 if(fabs(eta) > 2.4 ) {areagamma=0.11; areaNH=0.021; areaComb=0.13;}
379 */
380
381 float pho=i.pfPhoIso;
382 if(i.innerHits>0)
383 {
384 pho-=i.pfPhoIsoDoubleCounted;
385 }
386
387 pfCorrIso[j] = (i.pfChaIso+ std::max(pho-rho*areagamma,mincor )+std::max(i.pfNeuIso-rho*areaNH,mincor))/i.p4.Pt();
388
389 id2012tight[j] = fabs(i.dxy) < 0.02 &&fabs(i.dz) < 0.1 &&(
390 (i.isEE &&fabs(i.Deta) < 0.005 &&fabs(i.Dphi) < 0.02 &&i.sihih < 0.03 &&i.HoE < 0.10 &&fabs(i.fMVAVar_IoEmIoP) < 0.05
391 ) ||
392 (i.isEB &&fabs(i.Deta) < 0.004 &&fabs(i.Dphi) < 0.03 &&i.sihih < 0.01 &&i.HoE < 0.12 &&fabs(i.fMVAVar_IoEmIoP) < 0.05
393 ));
394
395 bool mvaPreSel = (
396 (i.isEE &&
397 //fabs(electrons[it].Deta) < 0.009 &&
398 //fabs(electrons[it].Dphi) < 0.1 &&
399 i.sihih < 0.03 &&
400 i.HoE < 0.10 &&
401 i.innerHits == 0 &&
402 i.tIso/i.p4.Pt() < 0.2 &&
403 i.eIso/i.p4.Pt() < 0.2 &&
404 i.hIso/i.p4.Pt() < 0.2)
405 ||
406 (i.isEB &&
407 //fabs(electrons[it].Deta) < 0.007 &&
408 //fabs(electrons[it].Dphi) < 0.015 &&
409 i.sihih < 0.01 &&
410 i.HoE < 0.12 &&
411 i.innerHits == 0 &&
412 i.tIso/i.p4.Pt() < 0.2 &&
413 i.eIso/i.p4.Pt() < 0.2 &&
414 i.hIso/i.p4.Pt() < 0.2)
415 );
416
417 float id=i.mvaOutTrig;
418 if(!mvaPreSel) id=0;
419 float iso=pfCorrIso[j];
420 wp70[j]=((fabs(eta) < 0.8 && id>0.977 && iso < 0.093) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.956 && iso < 0.095) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.966 && iso < 0.171));
421 wp80[j]=((fabs(eta) < 0.8 && id>0.913 && iso < 0.105) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.964 && iso < 0.178) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.899 && iso < 0.150));
422 wp85[j]=((fabs(eta) < 0.8 && id>0.929 && iso < 0.135) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.931 && iso < 0.159) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.805 && iso < 0.155));
423 wp90[j]=((fabs(eta) < 0.8 && id>0.877 && iso < 0.177) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.794 && iso < 0.180) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.846 && iso < 0.244));
424 wp95[j]=((fabs(eta) < 0.8 && id>0.858 && iso < 0.253) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.425 && iso < 0.225) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.759 && iso < 0.308));
425 wpHWW[j]=((fabs(eta) < 0.8 && id>0.94 && iso < 0.15) || (fabs(eta) >= 0.8 && fabs(eta) < 1.479 && id>0.85 && iso < 0.15) || (fabs(eta) >= 1.479 && fabs(eta) < 2.5 && id>0.92 && iso < 0.15));
426
427 idMVAnotrig[j]=i.mvaOut;
428 idMVAtrig[j]=i.mvaOutTrig;
429 idMVApresel[j]=mvaPreSel;
430
431 }
432 template <> void LeptonInfo::setSpecific<VHbbEvent::MuonInfo>(const VHbbEvent::MuonInfo & i, int j,const VHbbEventAuxInfo & aux){
433 dxy[j]=i.ipDb;
434 dz[j]=i.zPVPt;
435 vbtf[j]=( i.globChi2<10 && i.nPixelHits>= 1 && i.globNHits != 0 && i.nHits > 10 && i.cat & 0x1 && i.cat & 0x2 && i.nMatches >=2 && i.ipDb<.2 &&
436 (i.pfChaIso+i.pfPhoIso+i.pfNeuIso)/i.p4.Pt()<.15 && fabs(i.p4.Eta())<2.4 && i.p4.Pt()>20 ) ;
437 float mincor=0.0;
438 float minrho=0.0;
439 float rhoN = std::max(aux.puInfo.rhoNeutral,minrho);
440 float eta=i.p4.Eta();
441 float area=0.5;
442 if(fabs(eta)>0.0 && fabs(eta) <= 1.0) {area=0.674;}
443 if(fabs(eta)>1.0 && fabs(eta) <= 1.5) {area=0.565;}
444 if(fabs(eta)>1.5 && fabs(eta) <= 2.0) {area=0.442;}
445 if(fabs(eta)>2.0 && fabs(eta) <= 2.2) {area=0.515;}
446 if(fabs(eta)>2.2 && fabs(eta) <= 2.3) {area=0.821;}
447 if(fabs(eta)>2.3 && fabs(eta) <= 2.4) {area=0.660;}
448 pfCorrIso[j] = (i.pfChaIso+ std::max(i.pfPhoIso+i.pfNeuIso-rhoN*area,mincor))/i.p4.Pt();
449 id2012tight[j]= i.isPF && i. globChi2<10 && i.nPixelHits>= 1 && i.globNHits != 0 && i.nValidLayers > 5 && (i.cat & 0x2) && i.nMatches >=2 && i.ipDb<.2;
450
451
452 }
453
454
455 typedef struct
456 {
457 float et;
458 float sumet;
459 float sig;
460 float phi;
461 } METInfo;
462
463
464 typedef struct
465 {
466
467 float et[nMetUnc]; float phi[nMetUnc]; float sumet[nMetUnc];
468 template <class Input> void set(const Input & i, int j)
469 {
470 et[j]=i.p4.Pt();
471 phi[j]=i.p4.Phi();
472 sumet[j]=i.sumEt;
473
474 }
475 } METUncInfo ;
476
477
478 typedef struct
479 {
480 float mht;
481 float ht;
482 float sig;
483 float phi;
484 } MHTInfo;
485
486 typedef struct
487 {
488 float mass;
489 float pt;
490 float wMass;
491 } TopInfo;
492
493 typedef struct
494 {
495 int run;
496 int lumi;
497 int event;
498 int json;
499 } EventInfo;
500
501
502 BTagShapeInterface * nominalShape=0;
503 BTagShapeInterface * downBCShape=0;
504 BTagShapeInterface * upBCShape=0;
505 BTagShapeInterface * downLShape=0;
506 BTagShapeInterface * upLShape=0;
507
508 BTagShapeInterface * nominalShape4p=0;
509 BTagShapeInterface * downBCShape4p=0;
510 BTagShapeInterface * upBCShape4p=0;
511 typedef struct
512 {
513 void set(const VHbbEvent::SimpleJet & j, int i)
514 {
515 pt[i]=j.p4.Pt();
516 eta[i]=j.p4.Eta();
517 phi[i]=j.p4.Phi();
518 e[i]=j.p4.E();
519 csv[i]=j.csv;
520 if(nominalShape)
521 {
522 csv_nominal[i]=nominalShape->reshape(eta[i],pt[i],j.csv,j.flavour);
523 csv_upBC[i]=upBCShape->reshape(eta[i],pt[i],j.csv,j.flavour);
524 csv_downBC[i]=downBCShape->reshape(eta[i],pt[i],j.csv,j.flavour);
525 csv_upL[i]=upLShape->reshape(eta[i],pt[i],j.csv,j.flavour);
526 csv_downL[i]=downLShape->reshape(eta[i],pt[i],j.csv,j.flavour);
527 csv_nominal4p[i]=nominalShape4p->reshape(eta[i],pt[i],j.csv,j.flavour);
528 csv_upBC4p[i]=upBCShape4p->reshape(eta[i],pt[i],j.csv,j.flavour);
529 csv_downBC4p[i]=downBCShape4p->reshape(eta[i],pt[i],j.csv,j.flavour);
530 }
531 else
532 {
533 csv_nominal[i]=csv[i];
534 csv_downBC[i]=csv[i];
535 csv_upBC[i]=csv[i];
536 csv_downL[i]=csv[i];
537 csv_upL[i]=csv[i];
538 csv_nominal4p[i]=csv[i];
539 csv_downBC4p[i]=csv[i];
540 csv_upBC4p[i]=csv[i];
541 }
542 csvivf[i]=j.csvivf;
543 cmva[i]=j.cmva;
544 numTracksSV[i] = j.vtxNTracks;
545 vtxMass[i]= j.vtxMass;
546 vtxPt[i]= j.vtxP4.Pt();
547 if(j.vtxP4.Pt() > 0) vtxEta[i]= j.vtxP4.Eta(); else vtxEta[i]=-99;
548 vtxPhi[i]= j.vtxP4.Phi();
549 vtxE[i]= j.vtxP4.E();
550 vtx3dL[i] = j.vtx3dL;
551 vtx3deL[i] = j.vtx3deL;
552 chf[i]=j.chargedHadronEFraction;
553 nhf[i] =j.neutralHadronEFraction;
554 cef[i] =j.chargedEmEFraction;
555 nef[i] =j.neutralEmEFraction;
556 nconstituents[i] =j.nConstituents;
557 nch[i]=j.ntracks;
558 SF_CSVL[i]=j.SF_CSVL;
559 SF_CSVM[i]=j.SF_CSVM;
560 SF_CSVT[i]=j.SF_CSVT;
561 SF_CSVLerr[i]=j.SF_CSVLerr;
562 SF_CSVMerr[i]=j.SF_CSVMerr;
563 SF_CSVTerr[i]=j.SF_CSVTerr;
564
565 flavour[i]=j.flavour;
566 isSemiLeptMCtruth[i]=j.isSemiLeptMCtruth;
567 isSemiLept[i]=j.isSemiLept;
568 SoftLeptpdgId[i] = j.SoftLeptpdgId;
569 SoftLeptIdlooseMu[i] = j.SoftLeptIdlooseMu;
570 SoftLeptId95[i] = j.SoftLeptId95;
571 SoftLeptPt[i] = j.SoftLeptPt;
572 SoftLeptdR[i] = j.SoftLeptdR;
573 SoftLeptptRel[i] = j.SoftLeptptRel;
574 SoftLeptRelCombIso[i] = j.SoftLeptRelCombIso;
575 if(j.bestMCp4.Pt() > 0)
576 {
577 genPt[i]=j.bestMCp4.Pt();
578 genEta[i]=j.bestMCp4.Eta();
579 genPhi[i]=j.bestMCp4.Phi();
580 }
581 JECUnc[i]=j.jecunc;
582 id[i]=jetId(i);
583 ptRaw[i]=j.ptRaw;
584 ptLeadTrack[i]=j.ptLeadTrack;
585 puJetIdL[i]=j.puJetIdL;
586 puJetIdM[i]=j.puJetIdM;
587 puJetIdT[i]=j.puJetIdT;
588 puJetIdMva[i]=j.puJetIdMva;
589 charge[i]=j.charge;
590 jetArea[i]=j.jetArea;
591
592 }
593
594 bool jetId(int i)
595 {
596 if(nhf[i] > 0.99) return false;
597 if(nef[i] > 0.99) return false;
598 if(nconstituents[i] <= 1) return false;
599 if(fabs(eta[i])<2.5) {
600 if(cef[i] > 0.99) return false;
601 if(chf[i] == 0) return false;
602 if(nch[i]== 0) return false;
603 }
604 return true;
605 }
606 void reset()
607 {
608 for(int i=0;i<MAXJ;i++) {
609 pt[i]=-99; eta[i]=-99; phi[i]=-99;e[i]=-99;csv[i]=-99;csv_nominal[i]=-99.;csv_upBC[i]=-99.;csv_downBC[i]=-99.;csv_upL[i]=-99.;csv_downL[i]=-99.;
610 csvivf[i]=-99; cmva[i]=-99;
611 cosTheta[i]=-99; numTracksSV[i]=-99; chf[i]=-99; nhf[i]=-99; cef[i]=-99; nef[i]=-99; nch[i]=-99; nconstituents[i]=-99; flavour[i]=-99; isSemiLeptMCtruth[i]=-99; isSemiLept[i]=-99;
612 SoftLeptpdgId[i] = -99; SoftLeptIdlooseMu[i] = -99; SoftLeptId95[i] = -99; SoftLeptPt[i] = -99; SoftLeptdR[i] = -99; SoftLeptptRel[i] = -99; SoftLeptRelCombIso[i] = -99;
613 genPt[i]=-99; genEta[i]=-99; genPhi[i]=-99; JECUnc[i]=-99; ptRaw[i]=-99.; ptLeadTrack[i]=-99.; puJetIdL[i]=-99; puJetIdM[i]=-99; puJetIdT[i]=-99; puJetIdMva[i]=-99; charge[i]=-99; jetArea[i]=-99;
614 }
615 }
616 float pt[MAXJ];
617 float eta[MAXJ];
618 float phi[MAXJ];
619 float e[MAXJ];
620 float csv[MAXJ];
621 float csv_nominal[MAXJ];
622 float csv_upBC[MAXJ];
623 float csv_downBC[MAXJ];
624 float csv_upL[MAXJ];
625 float csv_downL[MAXJ];
626 float csv_nominal4p[MAXJ];
627 float csv_upBC4p[MAXJ];
628 float csv_downBC4p[MAXJ];
629 float csvivf[MAXJ];
630 float cmva[MAXJ];
631 float cosTheta[MAXJ];
632 int numTracksSV[MAXJ];
633 float chf[MAXJ];
634 float nhf[MAXJ];
635 float cef[MAXJ];
636 float nef[MAXJ];
637 float nch[MAXJ];
638 float nconstituents[MAXJ];
639 float flavour[MAXJ];
640 int isSemiLept[MAXJ];
641 int isSemiLeptMCtruth[MAXJ];
642 int SoftLeptpdgId[MAXJ] ;
643 int SoftLeptIdlooseMu[MAXJ] ;
644 int SoftLeptId95[MAXJ] ;
645 float SoftLeptPt[MAXJ] ;
646 float SoftLeptdR[MAXJ] ;
647 float SoftLeptptRel[MAXJ] ;
648 float SoftLeptRelCombIso[MAXJ];
649 float genPt[MAXJ];
650 float genEta[MAXJ];
651 float genPhi[MAXJ];
652 float JECUnc[MAXJ];
653 float vtxMass[MAXJ];
654 float vtxPt[MAXJ];
655 float vtxEta[MAXJ];
656 float vtxPhi[MAXJ];
657 float vtxE[MAXJ];
658 float vtx3dL [MAXJ];
659 float vtx3deL[MAXJ];
660 bool id[MAXJ];
661 float SF_CSVL[MAXJ];
662 float SF_CSVM[MAXJ];
663 float SF_CSVT[MAXJ];
664 float SF_CSVLerr[MAXJ];
665 float SF_CSVMerr[MAXJ];
666 float SF_CSVTerr[MAXJ];
667 float ptRaw[MAXJ];
668 float ptLeadTrack[MAXJ];
669 float puJetIdL[MAXJ];
670 float puJetIdM[MAXJ];
671 float puJetIdT[MAXJ];
672 float puJetIdMva[MAXJ];
673 float charge[MAXJ];
674 float jetArea[MAXJ];
675 } JetInfo;
676
677 int main(int argc, char* argv[])
678 {
679 gROOT->Reset();
680
681 TTree *_outTree;
682 IVFInfo IVF;
683 SimBHadronInfo SimBs;
684 float rho,rho25,rhoN;
685 int nPVs;
686 METInfo MET;
687 METInfo fakeMET;
688 METInfo METnoPU;
689 METInfo METnoPUCh;
690 METInfo METtype1corr;
691 METInfo METtype1p2corr;
692 METInfo METnoPUtype1corr;
693 METInfo METnoPUtype1p2corr;
694
695 MHTInfo MHT;
696
697 METUncInfo metUnc;
698
699
700 TopInfo top;
701 EventInfo EVENT;
702 // JetInfo jet1,jet2, addJet1, addJet2;
703 // lepton1,lepton2;
704 JetInfo hJets, aJets, fathFilterJets, aJetsFat;
705 LeptonInfo vLeptons, aLeptons;
706 int naJets=0, nhJets=0, nfathFilterJets=0, naJetsFat=0;
707 HiggsInfo H,SVH,SimBsH;
708 FatHiggsInfo FatH;
709 genParticleInfo genZ, genZstar, genWstar, genW, genH, genB, genBbar; //add here the fatjet higgs
710 genTopInfo genTop, genTbar;
711 TrackInfo V;
712 int nvlep=0,nalep=0;
713 float lheV_pt=0; //for the Madgraph sample stitching
714 float lheHT=0; //for the Madgraph sample stitching
715 float lheNj=0; //for the Madgraph sample stitching
716 TrackSharingInfo TkSharing; // track sharing info;
717
718 float HVdPhi,HVMass,HMETdPhi,VMt,deltaPullAngle,deltaPullAngleAK7,deltaPullAngle2,deltaPullAngle2AK7,gendrcc,gendrbb, genZpt, genWpt, genHpt, weightTrig, weightTrigMay,weightTrigV4, weightTrigMET, weightTrigOrMu30, minDeltaPhijetMET, jetPt_minDeltaPhijetMET , PUweight, PUweightP,PUweightM, PUweightAB, PUweight2011B,PUweight1DObs;
719 float PU0,PUp1,PUm1;
720
721 float weightEleRecoAndId,weightEleTrigJetMETPart, weightEleTrigElePart,weightEleTrigEleAugPart;
722 float weightTrigMET80, weightTrigMET100, weightTrig2CJet20 , weightTrigMET150 , weightTrigMET802CJet, weightTrigMET1002CJet, weightTrigMETLP ;
723
724 float weightTrig2012A, weightTrig2012ADiMuon, weightTrig2012ADiEle, weightTrig2012ASingleMuon, weightTrig2012AMuonPlusWCandPt, weightTrig2012ASingleEle;
725 float weightTrig2012AB, weightTrig2012ABDiMuon, weightTrig2012ABDiEle, weightTrig2012ABSingleMuon, weightTrig2012ABMuonPlusWCandPt, weightTrig2012ABSingleEle;
726 float weightTrig2012, weightTrig2012DiMuon, weightTrig2012DiEle, weightTrig2012SingleMuon, weightTrig2012MuonPlusWCandPt, weightTrig2012SingleEle;
727
728 float weightTrig2012DiJet30MHT80,weightTrig2012PFMET150,weightTrig2012SumpT100MET100;
729 float weightTrig2012APFMET150orDiJetMET, weightTrig2012BPFMET150orDiJetMET, weightTrig2012CPFMET150orDiJetMET;
730
731
732 int WplusMode,WminusMode;
733 int Vtype,nSvs=0;
734 int nSimBs=0;
735 int numJets,numBJets,eventFlav;
736 // bool isMET80_CJ80, ispfMHT150, isMET80_2CJ20,isMET65_2CJ20, isJETID,isIsoMu17;
737 bool triggerFlags[500],hbhe,ecalFlag,totalKinematics, cschaloFlag, hcallaserFlag, trackingfailureFlag , eebadscFlag ;
738
739
740 float btag1T2CSF=1.,btag2TSF=1.,btag1TSF=1.,btagA0CSF=1., btagA0TSF=1., btag2CSF=1., btag1TA1C=1.;
741 // ----------------------------------------------------------------------
742 // First Part:
743 //
744 // * enable the AutoLibraryLoader
745 // * book the histograms of interest
746 // * open the input file
747 // ----------------------------------------------------------------------
748
749 // load framework libraries
750 gSystem->Load("libFWCoreFWLite");
751 gSystem->Load("libDataFormatsFWLite");
752 AutoLibraryLoader::enable();
753
754 // parse arguments
755 if ( argc < 2 ) {
756 return 0;
757 }
758
759 std::vector<VHbbCandidate> * candZlocal = new std::vector<VHbbCandidate>;
760 std::vector<VHbbCandidate> * candWlocal = new std::vector<VHbbCandidate>;
761
762 // get the python configuration
763 PythonProcessDesc builder(argv[1]);
764 const edm::ParameterSet& in = builder.processDesc()->getProcessPSet()->getParameter<edm::ParameterSet>("fwliteInput" );
765 const edm::ParameterSet& out = builder.processDesc()->getProcessPSet()->getParameter<edm::ParameterSet>("fwliteOutput");
766 const edm::ParameterSet& ana = builder.processDesc()->getProcessPSet()->getParameter<edm::ParameterSet>("Analyzer");
767
768 std::vector<edm::LuminosityBlockRange> jsonVector;
769 if ( in.exists("lumisToProcess") )
770 {
771 std::vector<edm::LuminosityBlockRange> const & lumisTemp =
772 in.getUntrackedParameter<std::vector<edm::LuminosityBlockRange> > ("lumisToProcess");
773 jsonVector.resize( lumisTemp.size() );
774 copy( lumisTemp.begin(), lumisTemp.end(), jsonVector.begin() );
775 }
776
777 // now get each parameter
778 int maxEvents_( in.getParameter<int>("maxEvents") );
779 int skipEvents_( in.getParameter<int>("skipEvents") );
780 int runMin_( in.getParameter<int>("runMin") );
781 int runMax_( in.getParameter<int>("runMax") );
782 unsigned int outputEvery_( in.getParameter<unsigned int>("outputEvery") );
783 std::string outputFile_( out.getParameter<std::string>("fileName" ) );
784 std::vector<std::string> triggers( ana.getParameter<std::vector<std::string> >("triggers") );
785 double btagThr = ana.getParameter<double>("bJetCountThreshold" );
786 bool fromCandidate = ana.getParameter<bool>("readFromCandidates");
787 bool useHighestPtHiggsZ = ana.getParameter<bool>("useHighestPtHiggsZ");
788 bool useHighestPtHiggsW = ana.getParameter<bool>("useHighestPtHiggsW");
789 HbbCandidateFinderAlgo * algoZ = new HbbCandidateFinderAlgo(ana.getParameter<bool>("verbose"), ana.getParameter<double>("jetPtThresholdZ"),useHighestPtHiggsZ);
790 HbbCandidateFinderAlgo * algoW = new HbbCandidateFinderAlgo(ana.getParameter<bool>("verbose"), ana.getParameter<double>("jetPtThresholdW"),useHighestPtHiggsW );
791 HbbCandidateFinderAlgo * algoRecoverLowPt = new HbbCandidateFinderAlgo(ana.getParameter<bool>("verbose"), 15, true);
792
793 TriggerWeight triggerWeight(ana);
794
795 const edm::ParameterSet& anaAB = builder.processDesc()->getProcessPSet()->getParameter<edm::ParameterSet>("Analyzer2012ABOnly");
796 TriggerWeight triggerWeightAB(anaAB);
797
798 BTagWeight btag(2); // 2 operating points "Custom" = 0.5 and "Tight = 0.898"
799 BTagSampleEfficiency btagEff( ana.getParameter<std::string>("btagEffFileName" ).c_str() );
800
801 std::vector<std::string> inputFiles_( in.getParameter<std::vector<std::string> >("fileNames") );
802 // std::string inputFile( in.getParameter<std::string> ("fileName") );
803
804 std::string PUmcfileName_ = in.getParameter<std::string> ("PUmcfileName") ;
805 std::string PUmcfileName2011B_ = in.getParameter<std::string> ("PUmcfileName2011B") ;
806
807 std::string PUdatafileNameAB = in.getParameter<std::string> ("PUdatafileNameAB") ;
808 std::string PUdatafileName_ = in.getParameter<std::string> ("PUdatafileName") ;
809 std::string PUdatafileName_plusOneSigma = in.getParameter<std::string> ("PUdatafileNamePlus") ;
810 std::string PUdatafileName_minusOneSigma = in.getParameter<std::string> ("PUdatafileNameMinus") ;
811 std::string PUdatafileName2011B_ = in.getParameter<std::string> ("PUdatafileName2011B") ;
812 std::string Weight3DfileName_ = in.getParameter<std::string> ("Weight3DfileName") ;
813
814 JECFWLite jec(ana.getParameter<std::string>("jecFolder"));
815
816 bool isMC_( ana.getParameter<bool>("isMC") );
817 TriggerReader trigger(false);
818 TriggerReader patFilters(false);
819 if(isMC_)
820 {
821 nominalShape = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, 0.0);
822 upBCShape = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 1.5, 0.0);
823 downBCShape = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), -1.5, 0.0);
824 upLShape = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, 1.0);
825 downLShape = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, -1.0);
826 nominalShape4p = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, 0.0,true,1.003,1.003);
827 upBCShape4p = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, 0.0,true,1.001,1.001);
828 downBCShape4p = new BTagShapeInterface(ana.getParameter<std::string>("csvDiscr").c_str(), 0.0, 0.0,true,1.005,1.005);
829 }
830 edm::LumiReWeighting lumiWeights,lumiWeightsPl,lumiWeightsMi,lumiWeightsAB;
831 edm::LumiReWeighting lumiWeights1DObs;
832 // edm::Lumi3DReWeighting lumiWeights2011B;
833 if(isMC_)
834 {
835 lumiWeights = edm::LumiReWeighting(PUmcfileName_,PUdatafileName_ , "pileup", "pileup");
836 lumiWeightsPl = edm::LumiReWeighting(PUmcfileName_,PUdatafileName_plusOneSigma , "pileup", "pileup");
837 lumiWeightsMi = edm::LumiReWeighting(PUmcfileName_,PUdatafileName_minusOneSigma , "pileup", "pileup");
838 lumiWeightsAB = edm::LumiReWeighting(PUmcfileName_,PUdatafileNameAB , "pileup", "pileup");
839 lumiWeights1DObs = edm::LumiReWeighting(PUmcfileName2011B_,PUdatafileName2011B_ , "pileup", "pileup");
840
841 // lumiWeights2011B = edm::Lumi3DReWeighting(PUmcfileName2011B_,PUdatafileName2011B_ , "pileup", "pileup");
842 // if(Weight3DfileName_!="")
843 // { lumiWeights2011B.weight3D_init(Weight3DfileName_.c_str()); }
844 // else
845 // {
846 // lumiWeights2011B.weight3D_init(1.0); // generate the weights the fisrt time;
847 // }
848
849 }
850
851 // TFile *_outPUFile = new TFile((outputFile_+"_PU").c_str(), "recreate");
852 TFile *_outFile = new TFile(outputFile_.c_str(), "recreate");
853 TH1F * count = new TH1F("Count","Count", 1,0,2 );
854 TH1F * countWithPU = new TH1F("CountWithPU","CountWithPU", 1,0,2 );
855 TH1F * countWithPUP = new TH1F("CountWithPUP","CountWithPU plus one sigma", 1,0,2 );
856 TH1F * countWithPUM = new TH1F("CountWithPUM","CountWithPU minus one sigma", 1,0,2 );
857 TH1F * countWithPUAB = new TH1F("CountWithPUAB","CountWithPU 2012AB", 1,0,2 );
858
859 TH1F * countWithPU2011B = new TH1F("CountWithPU2011B","CountWithPU2011B", 1,0,2 );
860 TH3F * input3DPU = new TH3F("Input3DPU","Input3DPU", 36,-0.5,35.5,36,-0.5,35.5, 36,-0.5,35.5 );
861
862 TH1F * pu = new TH1F("pileup","",51,-0.5,50.5);
863 _outTree = new TTree("tree", "myTree");
864
865 _outTree->Branch("H" , &H , "HiggsFlag/I:mass/F:pt/F:eta:phi/F:dR/F:dPhi/F:dEta/F");
866 _outTree->Branch("V" , &V , "mass/F:pt/F:eta:phi/F");
867 _outTree->Branch("FatH" , &FatH , "FatHiggsFlag/I:mass/F:pt/F:eta:phi/F:filteredmass/F:filteredpt/F:filteredeta/F:filteredphi/F");
868 _outTree->Branch("lheV_pt" , &lheV_pt , "lheV_pt/F");
869 _outTree->Branch("lheHT" , &lheHT , "lheHT/F");
870 _outTree->Branch("lheNj" , &lheNj , "lheNj/F");
871 _outTree->Branch("genZ" , &genZ , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
872 _outTree->Branch("genZstar" , &genZstar , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
873 _outTree->Branch("genW" , &genW , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
874 _outTree->Branch("genWstar" , &genWstar , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
875 _outTree->Branch("genH" , &genH , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
876 _outTree->Branch("genB" , &genB , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
877 _outTree->Branch("genBbar" , &genBbar , "mass/F:pt/F:eta:phi/F:status/F:charge:momid/F");
878
879 _outTree->Branch("genTop" , &genTop , "bmass/F:bpt/F:beta:bphi/F:bstatus/F:wdau1mass/F:wdau1pt/F:wdau1eta:wdau1phi/F:wdau1id/F:wdau2mass/F:wdau2pt/F:wdau2eta:wdau2phi/F:wdau2id/F");
880 _outTree->Branch("genTbar" , &genTbar , "bmass/F:bpt/F:beta:bphi/F:bstatus/F:wdau1mass/F:wdau1pt/F:wdau1eta:wdau1phi/F:wdau1id/F:wdau2mass/F:wdau2pt/F:wdau2eta:wdau2phi/F:wdau2id/F");
881
882 _outTree->Branch("TkSharing", &TkSharing, "HiggsCSVtkSharing/b:HiggsIPtkSharing:HiggsSVtkSharing:FatHiggsCSVtkSharing:FatHiggsIPtkSharing:FatHiggsSVtkSharing");
883
884 _outTree->Branch("nhJets" , &nhJets , "nhJets/I");
885 _outTree->Branch("nfathFilterJets", &nfathFilterJets, "nfathFilterJets/I");
886 _outTree->Branch("naJets" , &naJets , "naJets/I");
887
888
889
890 _outTree->Branch("hJet_pt",hJets.pt ,"pt[nhJets]/F");
891 _outTree->Branch("hJet_eta",hJets.eta ,"eta[nhJets]/F");
892 _outTree->Branch("hJet_phi",hJets.phi ,"phi[nhJets]/F");
893 _outTree->Branch("hJet_e",hJets.e ,"e[nhJets]/F");
894 _outTree->Branch("hJet_csv",hJets.csv ,"csv[nhJets]/F");
895 _outTree->Branch("hJet_csv_nominal",hJets.csv_nominal ,"csv_nominal[nhJets]/F");
896 _outTree->Branch("hJet_csv_upBC",hJets.csv_upBC ,"csv_upBC[nhJets]/F");
897 _outTree->Branch("hJet_csv_downBC",hJets.csv_downBC ,"csv_downBC[nhJets]/F");
898 _outTree->Branch("hJet_csv_upL",hJets.csv_upL ,"csv_upL[nhJets]/F");
899 _outTree->Branch("hJet_csv_downL",hJets.csv_downL ,"csv_downL[nhJets]/F");
900 _outTree->Branch("hJet_csv_nominal4p",hJets.csv_nominal4p ,"csv_nominal4p[nhJets]/F");
901 _outTree->Branch("hJet_csv_upBC4p",hJets.csv_upBC4p ,"csv_upBC4p[nhJets]/F");
902 _outTree->Branch("hJet_csv_downBC4p",hJets.csv_downBC4p ,"csv_downBC4p[nhJets]/F");
903
904 _outTree->Branch("hJet_csvivf",hJets.csvivf ,"csvivf[nhJets]/F");
905 _outTree->Branch("hJet_cmva",hJets.cmva ,"cmva[nhJets]/F");
906 _outTree->Branch("hJet_cosTheta",hJets.cosTheta ,"cosTheta[nhJets]/F");
907 _outTree->Branch("hJet_numTracksSV",hJets.numTracksSV ,"numTracksSV[nhJets]/I");
908 _outTree->Branch("hJet_chf",hJets.chf ,"chf[nhJets]/F");
909 _outTree->Branch("hJet_nhf",hJets.nhf ,"nhf[nhJets]/F");
910 _outTree->Branch("hJet_cef",hJets.cef ,"cef[nhJets]/F");
911 _outTree->Branch("hJet_nef",hJets.nef ,"nef[nhJets]/F");
912 _outTree->Branch("hJet_nch",hJets.nch ,"nch[nhJets]/F");
913 _outTree->Branch("hJet_nconstituents",hJets.nconstituents ,"nconstituents[nhJets]");
914 _outTree->Branch("hJet_flavour",hJets.flavour ,"flavour[nhJets]/F");
915 _outTree->Branch("hJet_isSemiLept",hJets.isSemiLept ,"isSemiLept[nhJets]/I");
916 _outTree->Branch("hJet_isSemiLeptMCtruth",hJets.isSemiLeptMCtruth ,"isSemiLeptMCtruth[nhJets]/I");
917 _outTree->Branch("hJet_SoftLeptpdgId", hJets.SoftLeptpdgId , "SoftLeptpdgId[nhJets]/I");
918 _outTree->Branch("hJet_SoftLeptIdlooseMu", hJets.SoftLeptIdlooseMu , "SoftLeptIdlooseMu[nhJets]/I");
919 _outTree->Branch("hJet_SoftLeptId95", hJets.SoftLeptId95 , "SoftLeptId95[nhJets]/I");
920 _outTree->Branch("hJet_SoftLeptPt", hJets.SoftLeptPt , "SoftLeptPt[nhJets]/F");
921 _outTree->Branch("hJet_SoftLeptdR", hJets.SoftLeptdR , "SoftLeptdR[nhJets]/F");
922 _outTree->Branch("hJet_SoftLeptptRel", hJets.SoftLeptptRel , "SoftLeptptRel[nhJets]/F");
923 _outTree->Branch("hJet_SoftLeptRelCombIso", hJets.SoftLeptRelCombIso , "SoftLeptRelCombIso[nhJets]/F");
924 _outTree->Branch("hJet_genPt",hJets.genPt ,"genPt[nhJets]/F");
925 _outTree->Branch("hJet_genEta",hJets.genEta ,"genEta[nhJets]/F");
926 _outTree->Branch("hJet_genPhi",hJets.genPhi ,"genPhi[nhJets]/F");
927 _outTree->Branch("hJet_JECUnc",hJets.JECUnc ,"JECUnc[nhJets]/F");
928 _outTree->Branch("hJet_vtxMass",hJets.vtxMass ,"vtxMass[nhJets]/F");
929 _outTree->Branch("hJet_vtxPt",hJets.vtxPt ,"vtxPt[nhJets]/F");
930 _outTree->Branch("hJet_vtxEta",hJets.vtxEta ,"vtxEta[nhJets]/F");
931 _outTree->Branch("hJet_vtxPhi",hJets.vtxPhi ,"vtxPhi[nhJets]/F");
932 _outTree->Branch("hJet_vtxE",hJets.vtxE ,"vtxE[nhJets]/F");
933 _outTree->Branch("hJet_vtx3dL",hJets.vtx3dL ,"vtx3dL[nhJets]/F");
934 _outTree->Branch("hJet_vtx3deL",hJets.vtx3deL ,"vtx3deL[nhJets]/F");
935 _outTree->Branch("hJet_id",hJets.id ,"id[nhJets]/b");
936 _outTree->Branch("hJet_SF_CSVL",hJets.SF_CSVL ,"SF_CSVL[nhJets]/b");
937 _outTree->Branch("hJet_SF_CSVM",hJets.SF_CSVM ,"SF_CSVM[nhJets]/b");
938 _outTree->Branch("hJet_SF_CSVT",hJets.SF_CSVT ,"SF_CSVT[nhJets]/b");
939 _outTree->Branch("hJet_SF_CSVLerr",hJets.SF_CSVLerr ,"SF_CSVLerr[nhJets]/b");
940 _outTree->Branch("hJet_SF_CSVMerr",hJets.SF_CSVMerr ,"SF_CSVMerr[nhJets]/b");
941 _outTree->Branch("hJet_SF_CSVTerr",hJets.SF_CSVTerr ,"SF_CSVTerr[nhJets]/b");
942 _outTree->Branch("hJet_ptRaw",hJets.ptRaw ,"ptRaw[nhJets]/F");
943 _outTree->Branch("hJet_ptLeadTrack",hJets.ptLeadTrack ,"ptLeadTrack[nhJets]/F");
944 _outTree->Branch("hJet_puJetIdL",hJets.puJetIdL ,"puJetIdL[nhJets]/F");
945 _outTree->Branch("hJet_puJetIdM",hJets.puJetIdM ,"puJetIdM[nhJets]/F");
946 _outTree->Branch("hJet_puJetIdT",hJets.puJetIdT ,"puJetIdT[nhJets]/F");
947 _outTree->Branch("hJet_puJetIdMva",hJets.puJetIdMva ,"puJetIdMva[nhJets]/F");
948 _outTree->Branch("hJet_charge",hJets.charge ,"charge[nhJets]/F");
949
950 _outTree->Branch("fathFilterJets_pt",fathFilterJets.pt ,"pt[nfathFilterJets]/F");
951 _outTree->Branch("fathFilterJets_eta",fathFilterJets.eta ,"eta[nfathFilterJets]/F");
952 _outTree->Branch("fathFilterJets_phi",fathFilterJets.phi ,"phi[nfathFilterJets]/F");
953 _outTree->Branch("fathFilterJets_e",fathFilterJets.e ,"e[nfathFilterJets]/F");
954 _outTree->Branch("fathFilterJets_csv",fathFilterJets.csv ,"csv[nfathFilterJets]/F");
955 _outTree->Branch("fathFilterJets_chf",fathFilterJets.chf ,"chf[nfathFilterJets]/F");
956 _outTree->Branch("fathFilterJets_ptRaw",fathFilterJets.ptRaw ,"ptRaw[nfathFilterJets]/F");
957 _outTree->Branch("fathFilterJets_ptLeadTrack",fathFilterJets.ptLeadTrack ,"ptLeadTrack[nfathFilterJets]/F");
958 _outTree->Branch("fathFilterJets_flavour",fathFilterJets.flavour ,"flavour[nfathFilterJets]/F");
959 _outTree->Branch("fathFilterJets_isSemiLept",fathFilterJets.isSemiLept ,"isSemiLept[nfathFilterJets]/F");
960 _outTree->Branch("fathFilterJets_isSemiLeptMCtruth",fathFilterJets.isSemiLeptMCtruth ,"isSemiLeptMCtruth[nfathFilterJets]/F");
961 _outTree->Branch("fathFilterJets_genPt",fathFilterJets.genPt ,"genPt[nfathFilterJets]/F");
962 _outTree->Branch("fathFilterJets_genEta",fathFilterJets.genEta ,"genEta[nfathFilterJets]/F");
963 _outTree->Branch("fathFilterJets_genPhi",fathFilterJets.genPhi ,"genPhi[nfathFilterJets]/F");
964 _outTree->Branch("fathFilterJets_vtxMass",fathFilterJets.vtxMass ,"vtxMass[nfathFilterJets]/F");
965 _outTree->Branch("fathFilterJets_vtx3dL",fathFilterJets.vtx3dL ,"vtx3dL[nfathFilterJets]/F");
966 _outTree->Branch("fathFilterJets_vtx3deL",fathFilterJets.vtx3deL ,"vtx3deL[nfathFilterJets]/F");
967 _outTree->Branch("fathFilterJets_vtxPt",fathFilterJets.vtxPt ,"vtxPt[nfathFilterJets]/F");
968 _outTree->Branch("fathFilterJets_vtxEta",fathFilterJets.vtxEta ,"vtxEta[nfathFilterJets]/F");
969 _outTree->Branch("fathFilterJets_vtxPhi",fathFilterJets.vtxPhi ,"vtxPhi[nfathFilterJets]/F");
970 _outTree->Branch("fathFilterJets_vtxE",fathFilterJets.vtxE ,"vtxE[nfathFilterJets]/F");
971
972
973 // _outTree->Branch("fathFilterJets_pt",fathFilterJets.pt ,"pt[nfathFilterJets]/F");
974 // _outTree->Branch("fathFilterJets_eta",fathFilterJets.eta ,"eta[nfathFilterJets]/F");
975 // _outTree->Branch("fathFilterJets_phi",fathFilterJets.phi ,"phi[nfathFilterJets]/F");
976 // _outTree->Branch("fathFilterJets_e",fathFilterJets.e ,"e[nfathFilterJets]/F");
977 // _outTree->Branch("fathFilterJets_csv",fathFilterJets.csv ,"csv[nfathFilterJets]/F");
978 _outTree->Branch("fathFilterJets_csvivf",fathFilterJets.csvivf ,"csvivf[nfathFilterJets]/F");
979 _outTree->Branch("fathFilterJets_cmva",fathFilterJets.cmva ,"cmva[nfathFilterJets]/F");
980 // _outTree->Branch("fathFilterJets_flavour",fathFilterJets.flavour ,"flavour[nfathFilterJets]/F");
981 _outTree->Branch("fathFilterJets_cosTheta",fathFilterJets.cosTheta ,"cosTheta[nfathFilterJets]/F");
982 _outTree->Branch("fathFilterJets_jetArea",fathFilterJets.jetArea ,"jetArea[nfathFilterJets]/F");
983
984 _outTree->Branch("aJet_pt",aJets.pt ,"pt[naJets]/F");
985 _outTree->Branch("aJet_eta",aJets.eta ,"eta[naJets]/F");
986 _outTree->Branch("aJet_phi",aJets.phi ,"phi[naJets]/F");
987 _outTree->Branch("aJet_e",aJets.e ,"e[naJets]/F");
988 _outTree->Branch("aJet_csv",aJets.csv ,"csv[naJets]/F");
989 _outTree->Branch("aJet_csv_nominal",aJets.csv_nominal ,"csv_nominal[naJets]/F");
990 _outTree->Branch("aJet_csv_upBC",aJets.csv_upBC ,"csv_upBC[naJets]/F");
991 _outTree->Branch("aJet_csv_downBC",aJets.csv_downBC ,"csv_downBC[naJets]/F");
992 _outTree->Branch("aJet_csv_upL",aJets.csv_upL ,"csv_upL[naJets]/F");
993 _outTree->Branch("aJet_csv_downL",aJets.csv_downL ,"csv_downL[naJets]/F");
994 _outTree->Branch("aJet_csv_nominal4p",aJets.csv_nominal4p ,"csv_nominal4p[naJets]/F");
995 _outTree->Branch("aJet_csv_upBC4p",aJets.csv_upBC4p ,"csv_upBC4p[naJets]/F");
996 _outTree->Branch("aJet_csv_downBC4p",aJets.csv_downBC4p ,"csv_downBC4p[naJets]/F");
997
998 _outTree->Branch("aJet_csvivf",aJets.csvivf ,"csvivf[naJets]/F");
999 _outTree->Branch("aJet_cmva",aJets.cmva ,"cmva[naJets]/F");
1000 _outTree->Branch("aJet_cosTheta",aJets.cosTheta ,"cosTheta[naJets]/F");
1001 _outTree->Branch("aJet_numTracksSV",aJets.numTracksSV ,"numTracksSV[naJets]/I");
1002 _outTree->Branch("aJet_chf",aJets.chf ,"chf[naJets]/F");
1003 _outTree->Branch("aJet_nhf",aJets.nhf ,"nhf[naJets]/F");
1004 _outTree->Branch("aJet_cef",aJets.cef ,"cef[naJets]/F");
1005 _outTree->Branch("aJet_nef",aJets.nef ,"nef[naJets]/F");
1006 _outTree->Branch("aJet_nch",aJets.nch ,"nch[naJets]/F");
1007 _outTree->Branch("aJet_nconstituents",aJets.nconstituents ,"nconstituents[naJets]");
1008 _outTree->Branch("aJet_flavour",aJets.flavour ,"flavour[naJets]/F");
1009 _outTree->Branch("aJet_isSemiLept",aJets.isSemiLept ,"isSemiLept[naJets]/I");
1010 _outTree->Branch("aJet_isSemiLeptMCtruth",aJets.isSemiLeptMCtruth ,"isSemiLeptMCtruth[naJets]/I");
1011 _outTree->Branch("aJet_SoftLeptpdgId",aJets.SoftLeptpdgId , "SoftLeptpdgId[naJets]/I");
1012 _outTree->Branch("aJet_SoftLeptIdlooseMu", aJets.SoftLeptIdlooseMu , "SoftLeptIdlooseMu[naJets]/I");
1013 _outTree->Branch("aJet_SoftLeptId95", aJets.SoftLeptId95 , "SoftLeptId95[naJets]/I");
1014 _outTree->Branch("aJet_SoftLeptPt", aJets.SoftLeptPt , "SoftLeptPt[naJets]/F");
1015 _outTree->Branch("aJet_SoftLeptdR", aJets.SoftLeptdR , "SoftLeptdR[naJets]/F");
1016 _outTree->Branch("aJet_SoftLeptptRel", aJets.SoftLeptptRel , "SoftLeptptRel[naJets]/F");
1017 _outTree->Branch("aJet_SoftLeptRelCombIso", aJets.SoftLeptRelCombIso , "SoftLeptRelCombIso[naJets]/F");
1018 _outTree->Branch("aJet_puJetIdL", aJets.puJetIdL , "puJetIdL[naJets]/F");
1019 _outTree->Branch("aJet_puJetIdM", aJets.puJetIdM , "puJetIdM[naJets]/F");
1020 _outTree->Branch("aJet_puJetIdT", aJets.puJetIdT , "puJetIdT[naJets]/F");
1021 _outTree->Branch("aJet_puJetIdMva", aJets.puJetIdMva , "puJetIdMva[naJets]/F");
1022 _outTree->Branch("aJet_charge",aJets.charge ,"charge[naJets]/F");
1023
1024 _outTree->Branch("aJet_genPt",aJets.genPt ,"genPt[naJets]/F");
1025 _outTree->Branch("aJet_genEta",aJets.genEta ,"genEta[naJets]/F");
1026 _outTree->Branch("aJet_genPhi",aJets.genPhi ,"genPhi[naJets]/F");
1027 _outTree->Branch("aJet_JECUnc",aJets.JECUnc ,"JECUnc[naJets]/F");
1028 _outTree->Branch("aJet_vtxMass",aJets.vtxMass ,"vtxMass[naJets]/F");
1029 _outTree->Branch("aJet_vtx3dL",aJets.vtx3dL ,"vtx3dL[naJets]/F");
1030 _outTree->Branch("aJet_vtx3deL",aJets.vtx3deL ,"vtx3deL[naJets]/F");
1031 _outTree->Branch("aJet_id",aJets.id ,"id[naJets]/b");
1032 _outTree->Branch("aJet_SF_CSVL",aJets.SF_CSVL ,"SF_CSVL[naJets]/b");
1033 _outTree->Branch("aJet_SF_CSVM",aJets.SF_CSVM ,"SF_CSVM[naJets]/b");
1034 _outTree->Branch("aJet_SF_CSVT",aJets.SF_CSVT ,"SF_CSVT[naJets]/b");
1035 _outTree->Branch("aJet_SF_CSVLerr",aJets.SF_CSVLerr ,"SF_CSVLerr[naJets]/b");
1036 _outTree->Branch("aJet_SF_CSVMerr",aJets.SF_CSVMerr ,"SF_CSVMerr[naJets]/b");
1037 _outTree->Branch("aJet_SF_CSVTerr",aJets.SF_CSVTerr ,"SF_CSVTerr[naJets]/b");
1038
1039 _outTree->Branch("naJetsFat" , &naJetsFat , "naJetsFat/I");
1040 _outTree->Branch("aJetFat_pt",aJetsFat.pt ,"pt[naJetsFat]/F");
1041 _outTree->Branch("aJetFat_eta",aJetsFat.eta ,"eta[naJetsFat]/F");
1042 _outTree->Branch("aJetFat_phi",aJetsFat.phi ,"phi[naJetsFat]/F");
1043 _outTree->Branch("aJetFat_e",aJetsFat.e ,"e[naJetsFat]/F");
1044 _outTree->Branch("aJetFat_csv",aJetsFat.csv ,"csv[naJetsFat]/F");
1045
1046
1047 _outTree->Branch("numJets" , &numJets , "numJets/I" );
1048 _outTree->Branch("numBJets" , &numBJets , "numBJets/I" );
1049 _outTree->Branch("deltaPullAngle", &deltaPullAngle , "deltaPullAngle/F");
1050 _outTree->Branch("deltaPullAngle2", &deltaPullAngle2 , "deltaPullAngle2/F");
1051 _outTree->Branch("gendrcc" , &gendrcc , "gendrcc/F");
1052 _outTree->Branch("gendrbb" , &gendrbb , "gendrbb/F");
1053 _outTree->Branch("genZpt" , &genZpt , "genZpt/F");
1054 _outTree->Branch("genWpt" , &genWpt , "genWpt/F");
1055 _outTree->Branch("genHpt" , &genHpt , "genHpt/F");
1056 _outTree->Branch("weightTrig" , &weightTrig , "weightTrig/F");
1057 _outTree->Branch("weightTrigMay" , &weightTrigMay , "weightTrigMay/F");
1058 _outTree->Branch("weightTrigV4" , &weightTrigV4 , "weightTrigV4/F");
1059 _outTree->Branch("weightTrigMET" , &weightTrigMET , "weightTrigMET/F");
1060 _outTree->Branch("weightTrigOrMu30" , &weightTrigOrMu30 , "weightTrigOrMu30/F");
1061 _outTree->Branch("weightEleRecoAndId" , &weightEleRecoAndId , "weightEleRecoAndId/F");
1062 _outTree->Branch("weightEleTrigJetMETPart" , &weightEleTrigJetMETPart , "weightEleTrigJetMETPart/F");
1063 _outTree->Branch("weightEleTrigElePart" , &weightEleTrigElePart , "weightEleTrigElePart/F");
1064 _outTree->Branch("weightEleTrigEleAugPart" , &weightEleTrigEleAugPart , "weightEleTrigEleAugPart/F");
1065
1066
1067 _outTree->Branch("weightTrigMET80" , &weightTrigMET80 , "weightTrigMET80/F");
1068 _outTree->Branch("weightTrigMET100" , &weightTrigMET100 , "weightTrigMET100/F");
1069 _outTree->Branch("weightTrig2CJet20" , &weightTrig2CJet20 , "weightTrig2CJet20/F");
1070 _outTree->Branch("weightTrigMET150" , &weightTrigMET150 , "weightTrigMET150/F");
1071 _outTree->Branch("weightTrigMET802CJet" , &weightTrigMET802CJet , "weightTrigMET802CJet/F");
1072 _outTree->Branch("weightTrigMET1002CJet" , &weightTrigMET1002CJet , "weightTrigMET1002CJet/F");
1073 _outTree->Branch("weightTrigMETLP" , &weightTrigMETLP , "weightTrigMETLP/F");
1074
1075 _outTree->Branch("weightTrig2012A", &weightTrig2012A,"weightTrig2012A/F");
1076 _outTree->Branch("weightTrig2012ADiMuon", &weightTrig2012ADiMuon,"weightTrig2012ADiMuon/F");
1077 _outTree->Branch("weightTrig2012ADiEle", &weightTrig2012ADiEle,"weightTrig2012ADiEle/F");
1078 _outTree->Branch("weightTrig2012ASingleMuon", &weightTrig2012ASingleMuon,"weightTrig2012ASingleMuon/F");
1079 _outTree->Branch("weightTrig2012ASingleEle", &weightTrig2012ASingleEle,"weightTrig2012ASingleEle/F");
1080 _outTree->Branch("weightTrig2012AMuonPlusWCandPt", &weightTrig2012AMuonPlusWCandPt,"weightTrig2012AMuonPlusWCandPt/F");
1081
1082
1083 _outTree->Branch("weightTrig2012", &weightTrig2012,"weightTrig2012/F");
1084 _outTree->Branch("weightTrig2012DiMuon", &weightTrig2012DiMuon,"weightTrig2012DiMuon/F");
1085 _outTree->Branch("weightTrig2012DiEle", &weightTrig2012DiEle,"weightTrig2012DiEle/F");
1086 _outTree->Branch("weightTrig2012SingleMuon", &weightTrig2012SingleMuon,"weightTrig2012SingleMuon/F");
1087 _outTree->Branch("weightTrig2012SingleEle", &weightTrig2012SingleEle,"weightTrig2012SingleEle/F");
1088 _outTree->Branch("weightTrig2012MuonPlusWCandPt", &weightTrig2012MuonPlusWCandPt,"weightTrig2012MuonPlusWCandPt/F");
1089
1090
1091 _outTree->Branch("weightTrig2012AB", &weightTrig2012AB,"weightTrig2012AB/F");
1092 _outTree->Branch("weightTrig2012ABDiMuon", &weightTrig2012ABDiMuon,"weightTrig2012ABDiMuon/F");
1093 _outTree->Branch("weightTrig2012ABDiEle", &weightTrig2012ABDiEle,"weightTrig2012ABDiEle/F");
1094 _outTree->Branch("weightTrig2012ABSingleMuon", &weightTrig2012ABSingleMuon,"weightTrig2012ABSingleMuon/F");
1095 _outTree->Branch("weightTrig2012ABSingleEle", &weightTrig2012ABSingleEle,"weightTrig2012ABSingleEle/F");
1096 _outTree->Branch("weightTrig2012ABMuonPlusWCandPt", &weightTrig2012ABMuonPlusWCandPt,"weightTrig2012ABMuonPlusWCandPt/F");
1097
1098 _outTree->Branch("weightTrig2012DiJet30MHT80", &weightTrig2012DiJet30MHT80,"weightTrig2012DiJet30MHT80/F");
1099 _outTree->Branch("weightTrig2012PFMET150", &weightTrig2012PFMET150,"weightTrig2012PFMET150/F");
1100 _outTree->Branch("weightTrig2012SumpT100MET100", &weightTrig2012SumpT100MET100,"weightTrig2012SumpT100MET100/F");
1101 _outTree->Branch("weightTrig2012APFMET150orDiJetMET", &weightTrig2012APFMET150orDiJetMET,"weightTrig2012APFMET150orDiJetMET/F");
1102 _outTree->Branch("weightTrig2012BPFMET150orDiJetMET", &weightTrig2012BPFMET150orDiJetMET,"weightTrig2012BPFMET150orDiJetMET/F");
1103 _outTree->Branch("weightTrig2012CPFMET150orDiJetMET", &weightTrig2012CPFMET150orDiJetMET,"weightTrig2012CPFMET150orDiJetMET/F");
1104
1105
1106
1107
1108 _outTree->Branch("deltaPullAngleAK7", &deltaPullAngleAK7 , "deltaPullAngleAK7/F");
1109 _outTree->Branch("deltaPullAngle2AK7", &deltaPullAngle2AK7 , "deltaPullAngle2AK7/F");
1110 _outTree->Branch("PU0", &PU0 , "PU0/F");
1111 _outTree->Branch("PUm1", &PUm1 , "PUm1/F");
1112 _outTree->Branch("PUp1", &PUp1 , "PUp1/F");
1113 _outTree->Branch("PUweight", &PUweight , "PUweight/F");
1114 _outTree->Branch("PUweightP", &PUweightP , "PUweightP/F");
1115 _outTree->Branch("PUweightM", &PUweightM , "PUweightM/F");
1116 _outTree->Branch("PUweightAB", &PUweightAB , "PUweightAB/F");
1117 _outTree->Branch("PUweight2011B", &PUweight2011B , "PUweight2011B/F");
1118 _outTree->Branch("PUweight1DObs", &PUweight1DObs , "PUweight1DObs/F");
1119 _outTree->Branch("eventFlav", &eventFlav , "eventFlav/I");
1120
1121
1122
1123
1124 _outTree->Branch("Vtype" , &Vtype , "Vtype/I" );
1125 _outTree->Branch("HVdPhi" , &HVdPhi , "HVdPhi/F" );
1126 _outTree->Branch("HVMass" , &HVMass , "HVMass/F" );
1127 _outTree->Branch("HMETdPhi" , &HMETdPhi , "HMETdPhi/F" );
1128 _outTree->Branch("VMt" , &VMt , "VMt/F" );
1129
1130 _outTree->Branch("nvlep" , &nvlep , "nvlep/I");
1131 _outTree->Branch("nalep" , &nalep , "nalep/I");
1132
1133 _outTree->Branch("vLepton_mass",vLeptons.mass ,"mass[nvlep]/F");
1134 _outTree->Branch("vLepton_pt",vLeptons.pt ,"pt[nvlep]/F");
1135 _outTree->Branch("vLepton_eta",vLeptons.eta ,"eta[nvlep]");
1136 _outTree->Branch("vLepton_phi",vLeptons.phi ,"phi[nvlep]/F");
1137 _outTree->Branch("vLepton_aodCombRelIso",vLeptons.aodCombRelIso ,"aodCombRelIso[nvlep]/F");
1138 _outTree->Branch("vLepton_pfCombRelIso",vLeptons.pfCombRelIso ,"pfCombRelIso[nvlep]/F");
1139 _outTree->Branch("vLepton_photonIso",vLeptons.photonIso ,"photonIso[nvlep]/F");
1140 _outTree->Branch("vLepton_neutralHadIso",vLeptons.neutralHadIso ,"neutralHadIso[nvlep]/F");
1141 _outTree->Branch("vLepton_chargedHadIso",vLeptons.chargedHadIso ,"chargedHadIso[nvlep]/F");
1142 _outTree->Branch("vLepton_chargedPUIso",vLeptons.chargedPUIso ,"chargedPUIso[nvlep]/F");
1143 _outTree->Branch("vLepton_particleIso",vLeptons.particleIso ,"particleIso[nvlep]/F");
1144 _outTree->Branch("vLepton_dxy",vLeptons.dxy ,"dxy[nvlep]/F");
1145 _outTree->Branch("vLepton_dz",vLeptons.dz ,"dz[nvlep]/F");
1146 _outTree->Branch("vLepton_type",vLeptons.type ,"type[nvlep]/I");
1147 _outTree->Branch("vLepton_id80",vLeptons.id80 ,"id80[nvlep]/F");
1148 _outTree->Branch("vLepton_id95",vLeptons.id95 ,"id95[nvlep]/F");
1149 _outTree->Branch("vLepton_vbtf",vLeptons.vbtf ,"vbtf[nvlep]/F");
1150 _outTree->Branch("vLepton_id80NoIso",vLeptons.id80NoIso ,"id80NoIso[nvlep]/F");
1151 _outTree->Branch("vLepton_genPt",vLeptons.genPt ,"genPt[nvlep]/F");
1152 _outTree->Branch("vLepton_genEta",vLeptons.genEta ,"genEta[nvlep]");
1153 _outTree->Branch("vLepton_genPhi",vLeptons.genPhi ,"genPhi[nvlep]/F");
1154 _outTree->Branch("vLepton_charge",vLeptons.charge ,"charge[nvlep]/F");
1155 _outTree->Branch("vLepton_pfCorrIso",vLeptons.pfCorrIso,"pfCorrIso[nvlep]/F");
1156 _outTree->Branch("vLepton_id2012tight",vLeptons.id2012tight,"id2012tight[nvlep]/F");
1157 _outTree->Branch("vLepton_idMVAnotrig",vLeptons.idMVAnotrig,"idMVAnotrig[nvlep]/F");
1158 _outTree->Branch("vLepton_idMVAtrig",vLeptons.idMVAtrig,"idMVAtrig[nvlep]/F");
1159 _outTree->Branch("vLepton_idMVApresel",vLeptons.idMVApresel,"idMVApresel[nvlep]/F");
1160 _outTree->Branch("vLepton_innerHits",vLeptons.innerHits,"innerHits[nvlep]/F");
1161 _outTree->Branch("vLepton_photonIsoDoubleCount",vLeptons.photonIsoDoubleCount,"photonIsoDoubleCount[nvlep]/F");
1162 _outTree->Branch("vLepton_wpHWW",vLeptons.wpHWW,"wpHWW[nvlep]/F");
1163 _outTree->Branch("vLepton_wp95",vLeptons.wp95,"wp95[nvlep]/F");
1164 _outTree->Branch("vLepton_wp90",vLeptons.wp90,"wp90[nvlep]/F");
1165 _outTree->Branch("vLepton_wp85",vLeptons.wp85,"wp85[nvlep]/F");
1166 _outTree->Branch("vLepton_wp80",vLeptons.wp80,"wp80[nvlep]/F");
1167 _outTree->Branch("vLepton_wp70",vLeptons.wp70,"wp70[nvlep]/F");
1168
1169 _outTree->Branch("aLepton_mass",aLeptons.mass ,"mass[nalep]/F");
1170 _outTree->Branch("aLepton_pt",aLeptons.pt ,"pt[nalep]/F");
1171 _outTree->Branch("aLepton_eta",aLeptons.eta ,"eta[nalep]");
1172 _outTree->Branch("aLepton_phi",aLeptons.phi ,"phi[nalep]/F");
1173 _outTree->Branch("aLepton_aodCombRelIso",aLeptons.aodCombRelIso ,"aodCombRelIso[nalep]/F");
1174 _outTree->Branch("aLepton_pfCombRelIso",aLeptons.pfCombRelIso ,"pfCombRelIso[nalep]/F");
1175 _outTree->Branch("aLepton_photonIso",aLeptons.photonIso ,"photonIso[nalep]/F");
1176 _outTree->Branch("aLepton_neutralHadIso",aLeptons.neutralHadIso ,"neutralHadIso[nalep]/F");
1177 _outTree->Branch("aLepton_chargedHadIso",aLeptons.chargedHadIso ,"chargedHadIso[nalep]/F");
1178 _outTree->Branch("aLepton_chargedPUIso",aLeptons.chargedPUIso ,"chargedPUIso[nalep]/F");
1179 _outTree->Branch("aLepton_particleIso",aLeptons.particleIso ,"particleIso[nalep]/F");
1180 _outTree->Branch("aLepton_dxy",aLeptons.dxy ,"dxy[nalep]/F");
1181 _outTree->Branch("aLepton_dz",aLeptons.dz ,"dz[nalep]/F");
1182 _outTree->Branch("aLepton_type",aLeptons.type ,"type[nalep]/I");
1183 _outTree->Branch("aLepton_id80",aLeptons.id80 ,"id80[nalep]/F");
1184 _outTree->Branch("aLepton_id95",aLeptons.id95 ,"id95[nalep]/F");
1185 _outTree->Branch("aLepton_vbtf",aLeptons.vbtf ,"vbtf[nalep]/F");
1186 _outTree->Branch("aLepton_id80NoIso",aLeptons.id80NoIso ,"id80NoIso[nalep]/F");
1187 _outTree->Branch("aLepton_genPt",aLeptons.genPt ,"genPt[nalep]/F");
1188 _outTree->Branch("aLepton_genEta",aLeptons.genEta ,"genEta[nalep]");
1189 _outTree->Branch("aLepton_genPhi",aLeptons.genPhi ,"genPhi[nalep]/F");
1190 _outTree->Branch("aLepton_charge",aLeptons.charge ,"charge[nalep]/F");
1191 _outTree->Branch("aLepton_pfCorrIso",aLeptons.pfCorrIso,"pfCorrIso[nalep]/F");
1192 _outTree->Branch("aLepton_id2012tight",aLeptons.id2012tight,"id2012tight[nalep]/F");
1193 _outTree->Branch("aLepton_idMVAnotrig",aLeptons.idMVAnotrig,"idMVAnotrig[nalep]/F");
1194 _outTree->Branch("aLepton_idMVAtrig",aLeptons.idMVAtrig,"idMVAtrig[nalep]/F");
1195 _outTree->Branch("aLepton_idMVApresel",aLeptons.idMVApresel,"idMVApresel[nalep]/F");
1196 _outTree->Branch("aLepton_innerHits",aLeptons.innerHits,"innerHits[nalep]/F");
1197 _outTree->Branch("aLepton_photonIsoDoubleCount",aLeptons.photonIsoDoubleCount,"photonIsoDoubleCount[nalep]/F");
1198 _outTree->Branch("aLepton_wpHWW",aLeptons.wpHWW,"wpHWW[nalep]/F");
1199 _outTree->Branch("aLepton_wp95",aLeptons.wp95,"wp95[nalep]/F");
1200 _outTree->Branch("aLepton_wp90",aLeptons.wp90,"wp90[nalep]/F");
1201 _outTree->Branch("aLepton_wp85",aLeptons.wp85,"wp85[nalep]/F");
1202 _outTree->Branch("aLepton_wp80",aLeptons.wp80,"wp80[nalep]/F");
1203 _outTree->Branch("aLepton_wp70",aLeptons.wp70,"wp70[nalep]/F");
1204
1205
1206 _outTree->Branch("top" , &top , "mass/F:pt/F:wMass/F");
1207 _outTree->Branch("WplusMode" , &WplusMode , "WplusMode/I");
1208 _outTree->Branch("WminusMode" , &WminusMode , "WminusMode/I");
1209
1210 //IVF
1211 _outTree->Branch("nSvs",&nSvs ,"nSvs/I");
1212 _outTree->Branch("Sv_massBCand", &IVF.massBcand,"massBcand[nSvs]/F");
1213 _outTree->Branch("Sv_massSv", &IVF.massSv,"massSv[nSvs]/F");
1214 _outTree->Branch("Sv_pt", &IVF.pt,"pt[nSvs]/F");
1215 _outTree->Branch("Sv_eta", &IVF.eta,"eta[nSvs]/F");
1216 _outTree->Branch("Sv_phi", &IVF.phi,"phi[nSvs]/F");
1217 _outTree->Branch("Sv_dist3D", &IVF.dist3D,"dist3D[nSvs]/F");
1218 _outTree->Branch("Sv_dist2D", &IVF.dist2D,"dist2D[nSvs]/F");
1219 _outTree->Branch("Sv_distSim2D", &IVF.distSig2D,"distSig2D[nSvs]/F");
1220 _outTree->Branch("Sv_distSig3D", &IVF.distSig3D,"distSig3D[nSvs]/F");
1221 _outTree->Branch("Sv_dist3D_norm", &IVF.dist3D_norm,"dist3D_norm[nSvs]/F");
1222 //IVF higgs candidate
1223 _outTree->Branch("SVH" , &SVH , "mass/F:pt/F:eta:phi/F:dR/F:dPhi/F:dEta/F");
1224
1225
1226
1227 // //SimBHadron
1228 _outTree->Branch("nSimBs",&nSimBs ,"nSimBs/I");
1229 _outTree->Branch("SimBs_mass", &SimBs.mass,"mass[nSimBs]/F");
1230 _outTree->Branch("SimBs_pt", &SimBs.pt,"pt[nSimBs]/F");
1231 _outTree->Branch("SimBs_eta", &SimBs.eta,"eta[nSimBs]/F");
1232 _outTree->Branch("SimBs_phi", &SimBs.phi,"phi[nSimBs]/F");
1233 _outTree->Branch("SimBs_vtx_x", &SimBs.vtx_x,"vtx_x[nSimBs]/F");
1234 _outTree->Branch("SimBs_vtx_y", &SimBs.vtx_y,"vtx_y[nSimBs]/F");
1235 _outTree->Branch("SimBs_vtx_z", &SimBs.vtx_z,"vtx_z[nSimBs]/F");
1236 _outTree->Branch("SimBs_pdgId", &SimBs.pdgId,"pdgId[nSimBs]/F");
1237 _outTree->Branch("SimBs_status", &SimBs.status,"status[nSimBs]/F");
1238 //SimBHadron Higgs Candidate
1239 _outTree->Branch("SimBsH" , &SimBsH , "mass/F:pt/F:eta:phi/F:dR/F:dPhi/F:dEta/F");
1240
1241 _outTree->Branch("rho" , &rho , "rho/F");
1242 _outTree->Branch("rho25" , &rho25 , "rho25/F");
1243 _outTree->Branch("rhoN" , &rhoN , "rhoN/F");
1244 _outTree->Branch("nPVs" , &nPVs , "nPVs/I");
1245 _outTree->Branch("METnoPU" , &METnoPU , "et/F:sumet:sig/F:phi/F");
1246 _outTree->Branch("METnoPUCh" , &METnoPUCh , "et/F:sumet:sig/F:phi/F");
1247 _outTree->Branch("MET" , &MET , "et/F:sumet:sig/F:phi/F");
1248 _outTree->Branch("METtype1corr" , &METtype1corr , "et/F:sumet:sig/F:phi/F");
1249 _outTree->Branch("METtype1p2corr" , &METtype1p2corr , "et/F:sumet:sig/F:phi/F");
1250 _outTree->Branch("METnoPUtype1corr" , &METnoPUtype1corr , "et/F:sumet:sig/F:phi/F");
1251 _outTree->Branch("METnoPUtype1p2corr" , &METnoPUtype1p2corr , "et/F:sumet:sig/F:phi/F");
1252
1253 _outTree->Branch("metUnc_et",&metUnc.et ,"et[24]/F");
1254 _outTree->Branch("metUnc_phi",&metUnc.phi ,"phi[24]/F");
1255 _outTree->Branch("metUnc_sumet",&metUnc.sumet ,"sumet[24]/F");
1256
1257
1258
1259 _outTree->Branch("fakeMET" , &fakeMET , "et/F:sumet:sig/F:phi/F");
1260 _outTree->Branch("MHT" , &MHT , "mht/F:ht:sig/F:phi/F");
1261 _outTree->Branch("minDeltaPhijetMET" , &minDeltaPhijetMET , "minDeltaPhijetMET/F");
1262 _outTree->Branch("jetPt_minDeltaPhijetMET" , &jetPt_minDeltaPhijetMET , "jetPt_minDeltaPhijetMET/F");
1263
1264 std::stringstream s;
1265 s << "triggerFlags[" << triggers.size() << "]/b";
1266 _outTree->Branch("triggerFlags", triggerFlags, s.str().c_str());
1267
1268 _outTree->Branch("EVENT" , &EVENT , "run/I:lumi/I:event/I:json/I");
1269 _outTree->Branch("hbhe" , &hbhe , "hbhe/b");
1270 _outTree->Branch("totalKinematics" , &totalKinematics , "totalKinematics/b");
1271 _outTree->Branch("ecalFlag" , &ecalFlag , "ecalFlag/b");
1272 _outTree->Branch("cschaloFlag" , &cschaloFlag , "cschaloFlag/b");
1273 _outTree->Branch("hcallaserFlag" , &hcallaserFlag , "hcallaserFlag/b");
1274 _outTree->Branch("trackingfailureFlag" , &trackingfailureFlag , "trackingfailureFlag/b");
1275 _outTree->Branch("eebadscFlag" , &eebadscFlag , "eebadscFlag/b");
1276 _outTree->Branch("btag1TSF" , &btag1TSF , "btag1TSF/F");
1277 _outTree->Branch("btag2TSF" , &btag2TSF , "btag2TSF/F");
1278 _outTree->Branch("btag1T2CSF" , &btag1T2CSF , "btag1T2CSF/F");
1279 _outTree->Branch("btag2CSF" , &btag2CSF , "btag2CSF/F");
1280 _outTree->Branch("btagA0CSF" , &btagA0CSF , "btagA0CSF/F");
1281 _outTree->Branch("btagA0TSF" , &btagA0TSF , "btagA0TSF/F");
1282 _outTree->Branch("btag1TA1C" , &btag1TA1C , "btag1TA1C/F");
1283
1284 int ievt=0;
1285 int totalcount=0;
1286
1287 // TFile* inFile = new TFile(inputFile.c_str(), "read");
1288 for(unsigned int iFile=0; iFile<inputFiles_.size(); ++iFile) {
1289 std::cout << iFile << std::endl;
1290 TFile* inFile = TFile::Open(inputFiles_[iFile].c_str());
1291 if(inFile==0) { std::cout << "FAILED " << inputFiles_[iFile] << std::endl; continue; }
1292
1293 // loop the events
1294
1295 fwlite::Event ev(inFile);
1296 fwlite::Handle< VHbbEventAuxInfo > vhbbAuxHandle;
1297 for(ev.toBegin(); !ev.atEnd() ; ++ev, ++ievt)
1298 {
1299 if (ievt <= skipEvents_) continue;
1300 if (maxEvents_ >= 0){
1301 if (ievt > maxEvents_ + skipEvents_) break;
1302 }
1303 const char * lab = "HbbAnalyzerNew";
1304 vhbbAuxHandle.getByLabel(ev,lab,0,0);
1305 const VHbbEventAuxInfo & aux = *vhbbAuxHandle.product();
1306 EVENT.run = ev.id().run();
1307 EVENT.lumi = ev.id().luminosityBlock();
1308 EVENT.event = ev.id().event();
1309 EVENT.json = jsonContainsEvent (jsonVector, ev);
1310
1311 if(EVENT.run < runMin_ && runMin_ > 0) continue;
1312 if(EVENT.run > runMax_ && runMax_ > 0) continue;
1313
1314 count->Fill(1.);
1315
1316
1317
1318 /*
1319 Handle<std::vector< PileupSummaryInfo > > PupInfo;
1320 event.getByLabel(edm::InputTag("addPileupInfo"), PupInfo);
1321 std::vector<PileupSummaryInfo>::const_iterator PVI;
1322 float Tnpv = -1;
1323 for(PVI = PupInfo->begin(); PVI != PupInfo->end(); ++PVI) {
1324 int BX = PVI->getBunchCrossing();
1325 if(BX == 0) {
1326 Tnpv = PVI->getTrueNumInteractions();
1327 continue;
1328 }
1329
1330 }
1331 double MyWeight = LumiWeights_.weight( Tnpv );
1332 double MyWeight = LumiWeights_.weight( (*iEventB) );
1333 */
1334
1335
1336 PUweight=1.;
1337 PUweightP=1.;
1338 PUweightM=1.;
1339 PUweightAB=1.;
1340 PUweight2011B=1.;
1341 PUweight1DObs=1.;
1342 if(isMC_){
1343
1344 // PU weights // Run2011A
1345 std::map<int, unsigned int>::const_iterator puit = aux.puInfo.pus.find(0);
1346 int npu =puit->second ;
1347 PUweight = lumiWeights.weight( (int) aux.puInfo.truePU ); //use new method with "true PU"
1348 PUweightP = lumiWeightsPl.weight( (int) aux.puInfo.truePU ); //use new method with "true PU"
1349 PUweightM = lumiWeightsMi.weight( (int) aux.puInfo.truePU ); //use new method with "true PU"
1350 PUweightAB = lumiWeightsAB.weight( (int) aux.puInfo.truePU ); //use new method with "true PU"
1351 pu->Fill(puit->second);
1352 // PU weight Run2011B
1353 // PU weight Run2011B
1354 std::map<int, unsigned int>::const_iterator puit0 = aux.puInfo.pus.find(0);
1355 std::map<int, unsigned int>::const_iterator puitm1 = aux.puInfo.pus.find(-1);
1356 std::map<int, unsigned int>::const_iterator puitp1 = aux.puInfo.pus.find(+1);
1357 PU0=puit0->second;
1358 PUp1=puitp1->second;
1359 PUm1=puitm1->second;
1360 input3DPU->Fill(PUm1,PU0,PUp1);
1361 // PUweight2011B = lumiWeights2011B.weight3D( puitm1->second, puit0->second,puitp1->second);
1362 PUweight1DObs = lumiWeights1DObs.weight( npu);
1363
1364 }
1365 countWithPU->Fill(1,PUweight);
1366 countWithPUP->Fill(1,PUweightP);
1367 countWithPUM->Fill(1,PUweightM);
1368 countWithPUAB->Fill(1,PUweightAB);
1369 countWithPU2011B->Fill(1,PUweight2011B);
1370
1371 //LHE Infos
1372 fwlite::Handle<LHEEventProduct> evt;
1373
1374 // std::cout << "Label for lhe = " << evt.getBranchNameFor(ev,"source") << std::endl;
1375 if( !((evt.getBranchNameFor(ev,"source")).empty()) ){
1376 evt.getByLabel(ev,"source");
1377 //std::cout << "LHEEventProduct found!" << std::endl;
1378 bool lCheck=false;
1379 bool lbarCheck=false;
1380 bool vlCheck=false;
1381 bool vlbarCheck=false;
1382 int idl, idlbar;
1383 lheHT=0.;
1384 lheNj=0;
1385 TLorentzVector l,lbar,vl,vlbar,V_tlv;
1386 const lhef::HEPEUP hepeup_ = evt->hepeup();
1387 const std::vector<lhef::HEPEUP::FiveVector> pup_ = hepeup_.PUP; // px, py, pz, E, M
1388 for(unsigned int i=0; i<pup_.size(); ++i){
1389 int id=hepeup_.IDUP[i]; //pdgId
1390 int status = hepeup_.ISTUP[i];
1391 int idabs=TMath::Abs(id);
1392 if( status == 1 && ( ( idabs == 21 ) || (idabs > 0 && idabs < 7) ) ){ // gluons and quarks
1393 lheHT += TMath::Sqrt( TMath::Power(hepeup_.PUP[i][0],2) + TMath::Power(hepeup_.PUP[i][1],2) ); // first entry is px, second py
1394 lheNj++;
1395 }
1396
1397 if(id==11){ l.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lCheck=true;}
1398 if(id==-11){ lbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lbarCheck=true;}
1399 if(id==12){ vl.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlCheck=true;}
1400 if(id==-12){ vlbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlbarCheck=true;}
1401
1402 if(id==13){ l.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lCheck=true;}
1403 if(id==-13){ lbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lbarCheck=true;}
1404 if(id==14){ vl.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlCheck=true;}
1405 if(id==-14){ vlbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlbarCheck=true;}
1406
1407 if(id==15){ l.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lCheck=true;}
1408 if(id==-15){ lbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); lbarCheck=true;}
1409 if(id==16){ vl.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlCheck=true;}
1410 if(id==-16){ vlbar.SetPxPyPzE(hepeup_.PUP[i][0],hepeup_.PUP[i][1],hepeup_.PUP[i][2],hepeup_.PUP[i][3]); vlbarCheck=true;}
1411
1412 }
1413 if( lCheck && lbarCheck ) V_tlv = l + lbar; // ZtoLL
1414 if( vlCheck && vlbarCheck ) V_tlv = vl + vlbar; // ZtoNuNu
1415 if( lCheck && vlbarCheck ) V_tlv = l + vlbar; // WToLNu
1416 if( lbarCheck && vlCheck ) V_tlv = lbar + vl; // WToLNu
1417 lheV_pt = V_tlv.Pt();
1418 }
1419
1420 //std::cout << "lhe V pt = " << lheV_pt << std::endl;
1421
1422 //Write event info
1423
1424 // simBHadrons
1425 const SimBHadronCollection *sbhc;
1426 if(isMC_){
1427 fwlite::Handle<SimBHadronCollection> SBHC;
1428 SBHC.getByLabel(ev, "bhadrons");
1429 sbhc = SBHC.product();
1430 }
1431
1432 const std::vector<VHbbCandidate> * candZ ;
1433 const std::vector<VHbbCandidate> * candW ;
1434 VHbbEvent modifiedEvent;;
1435 const VHbbEvent * iEvent =0;
1436 if(fromCandidate)
1437 {
1438 fwlite::Handle< std::vector<VHbbCandidate> > vhbbCandHandleZ;
1439 vhbbCandHandleZ.getByLabel(ev,"hbbBestCSVPt20Candidates");
1440 candZ = vhbbCandHandleZ.product();
1441
1442 fwlite::Handle< std::vector<VHbbCandidate> > vhbbCandHandle;
1443 vhbbCandHandle.getByLabel(ev,"hbbHighestPtHiggsPt30Candidates");
1444 candW = vhbbCandHandle.product();
1445 }
1446 else
1447 {
1448 candZlocal->clear();
1449 candWlocal->clear();
1450 fwlite::Handle< VHbbEvent > vhbbHandle;
1451 vhbbHandle.getByLabel(ev,"HbbAnalyzerNew");
1452 modifiedEvent = *vhbbHandle.product();
1453 if(isMC_)
1454 {
1455 iEvent= &modifiedEvent;
1456
1457 for(size_t j=0; j< modifiedEvent.simpleJets2.size() ; j++)
1458 {
1459 // VHbbEvent::SimpleJet orig=modifiedEvent.simpleJets2[j];
1460 // VHbbEvent::SimpleJet origRemade = jec.correct( modifiedEvent.simpleJets2[j],aux.puInfo.rho,true,true); // do ref check, can be commented out
1461 // VHbbEvent::SimpleJet corr2011 = jec.correctRight( modifiedEvent.simpleJets2[j],aux.puInfo.rho,true,true); // do ref check, can be commented out
1462 //REMOVE JEC modifiedEvent.simpleJets2[j] = jec.correct( modifiedEvent.simpleJets2[j],aux.puInfo.rho,true);
1463 // std::cout << "Original " << orig.p4.Pt() << " == " << origRemade.p4.Pt() << " using CHS2011 " << corr2011.p4.Pt() << " final: " << modifiedEvent.simpleJets2[j].p4.Pt() << std::endl;
1464 TLorentzVector & p4 = modifiedEvent.simpleJets2[j].p4;
1465 TLorentzVector & mcp4 = modifiedEvent.simpleJets2[j].bestMCp4;
1466 if ((fabs(p4.Pt() - mcp4.Pt())/ p4.Pt())<0.5) { //Limit the effect to the core
1467 float cor = (p4.Pt()+resolutionBias(fabs(p4.Eta()))*(p4.Pt()-mcp4.Pt()))/p4.Pt();
1468 p4.SetPtEtaPhiE(p4.Pt()*cor,p4.Eta(), p4.Phi(), p4.E()*cor);
1469 }
1470 }
1471 } else
1472 {
1473 // iEvent = vhbbHandle.product();
1474 // modify also the real data now to apply JEC 2012
1475 iEvent= &modifiedEvent;
1476
1477 for(size_t j=0; j< modifiedEvent.simpleJets2.size() ; j++)
1478 {
1479 // jec.correct( modifiedEvent.simpleJets2[j],aux.puInfo.rho,false,true); // do ref check, can be commented out
1480 //REMOVE JEC modifiedEvent.simpleJets2[j] = jec.correct( modifiedEvent.simpleJets2[j],aux.puInfo.rho,false);
1481 }
1482
1483 }
1484
1485 algoZ->run(iEvent,*candZlocal,aux);
1486 algoW->run(iEvent,*candWlocal,aux);
1487
1488
1489 if(candZlocal->size() == 0 or candZlocal->at(0).H.jets.size() < 2) //recover low pt
1490 {
1491 candZlocal->clear();
1492 candWlocal->clear();
1493 algoRecoverLowPt->run(iEvent,*candZlocal,aux);
1494 algoRecoverLowPt->run(iEvent,*candWlocal,aux);
1495 }
1496
1497 candZ= candZlocal;
1498 candW= candWlocal;
1499 /* for(size_t m=0;m<iEvent->muInfo.size();m++)
1500 {
1501
1502 if( fabs(iEvent->muInfo[m].p4.Pt()-28.118684) < 0.0001 ||
1503 fabs(iEvent->muInfo[m].p4.Pt()-34.853199) < 0.0001 )
1504 {
1505 std::cout << "FOUND " << iEvent->muInfo[m].p4.Pt() << " " << EVENT.event << " " << candW->size() << " " << candZ->size() << std::endl;
1506 }
1507 }
1508 */
1509
1510 }
1511
1512 const std::vector<VHbbCandidate> * cand = candZ;
1513
1514
1515
1516 /* fwlite::Handle< VHbbEvent > vhbbHandle;
1517 vhbbHandle.getByLabel(ev,"HbbAnalyzerNew");
1518 const VHbbEvent iEvent = *vhbbHandle.product();
1519 */
1520
1521 // std::clog << "Filling tree "<< std::endl;
1522 bool isW=false;
1523
1524 // to check how much we gain with jets subtraction
1525
1526
1527
1528 genHpt=aux.mcH.size() > 0 ? aux.mcH[0].p4.Pt():-99;
1529
1530 // if(cand->size() == 0 or cand->at(0).H.jets.size() < 2) continue;
1531 if(cand->size() == 0 ) continue;
1532 //std::cout << "cand->size() " << cand->size() << std::endl;
1533 //std::cout << "cand->at(0).H.jets.size() " << cand->at(0).H.jets.size() << std::endl;
1534 if(cand->size() > 1 )
1535 {
1536 std::cout << "MULTIPLE CANDIDATES: " << cand->size() << std::endl;
1537 }
1538 if(cand->at(0).candidateType == VHbbCandidate::Wmun || cand->at(0).candidateType == VHbbCandidate::Wen ) { cand=candW; isW=true; }
1539 if(cand->size() == 0)
1540 {
1541 // std::cout << "W event loss due to tigther cuts" << std::endl;
1542 continue;
1543 }
1544
1545
1546 // secondary vtxs
1547 fwlite::Handle<std::vector<reco::Vertex> > SVC;
1548 SVC.getByLabel(ev,"bcandidates");
1549 const std::vector<reco::Vertex> svc = *(SVC.product());
1550
1551 const VHbbCandidate & vhCand = cand->at(0);
1552 patFilters.setEvent(&ev,"VH");
1553 hbhe = patFilters.accept("hbhe");
1554 ecalFlag = patFilters.accept("ecalFilter");
1555 totalKinematics = patFilters.accept("totalKinematics");
1556 cschaloFlag = patFilters.accept("cschaloFilter");
1557 hcallaserFlag = patFilters.accept("hcallaserFilter");
1558 trackingfailureFlag = patFilters.accept("trackingfailureFilter");
1559 eebadscFlag = patFilters.accept("eebadscFilter");
1560
1561 trigger.setEvent(&ev);
1562 for(size_t j=0;j < triggers.size();j++)
1563 triggerFlags[j]=trigger.accept(triggers[j]);
1564
1565 eventFlav=0;
1566
1567
1568
1569 if(aux.mcBbar.size() > 0 || aux.mcB.size() > 0) eventFlav=5;
1570 else if(aux.mcC.size() > 0) eventFlav=4;
1571
1572
1573 Vtype = vhCand.candidateType;
1574
1575 if(vhCand.H.HiggsFlag) H.HiggsFlag=1; else H.HiggsFlag=0;
1576
1577 if(vhCand.H.HiggsFlag){
1578 H.mass = vhCand.H.p4.M();
1579 H.pt = vhCand.H.p4.Pt();
1580
1581
1582 H.eta = vhCand.H.p4.Eta();
1583 H.phi = vhCand.H.p4.Phi();
1584 }
1585
1586 if(vhCand.FatH.FatHiggsFlag) FatH.FatHiggsFlag =1; else FatH.FatHiggsFlag=0;
1587 fathFilterJets.reset();
1588 aJetsFat.reset();
1589 if(vhCand.FatH.FatHiggsFlag){
1590 FatH.mass= vhCand.FatH.p4.M();
1591 FatH.pt = vhCand.FatH.p4.Pt();
1592 if(FatH.pt!=0)
1593 {
1594 FatH.eta = vhCand.FatH.p4.Eta();
1595 }
1596 else {
1597 FatH.eta = -99.;
1598 }
1599 FatH.phi = vhCand.FatH.p4.Phi();
1600
1601
1602 // if(vhCand.FatH.FatHiggsFlag) vhCand.FatH.subjetsSize;
1603 nfathFilterJets=vhCand.FatH.subjetsSize;
1604 for( int j=0; j < nfathFilterJets; j++ ){
1605 fathFilterJets.set(vhCand.FatH.jets[j],j);
1606 }
1607
1608 if(nfathFilterJets==2){
1609 FatH.filteredmass=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4).M();
1610 FatH.filteredpt=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4).Pt();
1611 FatH.filteredeta=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4).Eta();
1612 FatH.filteredphi=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4).Phi();
1613 fathFilterJets.cosTheta[0]= vhCand.FatH.helicities[0];
1614 fathFilterJets.cosTheta[1]= vhCand.FatH.helicities[1];
1615 }
1616 else if(nfathFilterJets==3){
1617 FatH.filteredmass=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4+vhCand.FatH.jets[2].p4).M();
1618 FatH.filteredpt=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4+vhCand.FatH.jets[2].p4).Pt();
1619 FatH.filteredeta=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4+vhCand.FatH.jets[2].p4).Eta();
1620 FatH.filteredphi=(vhCand.FatH.jets[0].p4+vhCand.FatH.jets[1].p4+vhCand.FatH.jets[2].p4).Phi();
1621 fathFilterJets.cosTheta[0]= vhCand.FatH.helicities[0];
1622 fathFilterJets.cosTheta[1]= vhCand.FatH.helicities[1];
1623 fathFilterJets.cosTheta[2]= vhCand.FatH.helicities[2];
1624 }
1625
1626 naJetsFat=vhCand.additionalJetsFat.size();
1627 for( int j=0; j < naJetsFat && j < MAXJ; j++ )
1628 {
1629 aJetsFat.set(vhCand.additionalJetsFat[j],j);
1630 }
1631
1632
1633 } // FatHiggsFlag
1634
1635 hJets.reset();
1636 aJets.reset();
1637 if(vhCand.H.HiggsFlag){
1638
1639 nhJets=2;
1640 hJets.set(vhCand.H.jets[0],0);
1641 hJets.set(vhCand.H.jets[1],1);
1642
1643
1644 aJets.reset();
1645
1646 naJets=vhCand.additionalJets.size();
1647 numBJets=0;
1648 if(vhCand.H.jets[0].csv> btagThr) numBJets++;
1649 if(vhCand.H.jets[1].csv> btagThr) numBJets++;
1650 for( int j=0; j < naJets && j < MAXJ; j++ )
1651 {
1652 aJets.set(vhCand.additionalJets[j],j);
1653 if(vhCand.additionalJets[j].csv> btagThr) numBJets++;
1654 }
1655 numJets = vhCand.additionalJets.size()+2;
1656 H.dR = deltaR(vhCand.H.jets[0].p4.Eta(),vhCand.H.jets[0].p4.Phi(),vhCand.H.jets[1].p4.Eta(),vhCand.H.jets[1].p4.Phi());
1657 H.dPhi = deltaPhi(vhCand.H.jets[0].p4.Phi(),vhCand.H.jets[1].p4.Phi());
1658 H.dEta= TMath::Abs( vhCand.H.jets[0].p4.Eta() - vhCand.H.jets[1].p4.Eta() );
1659 HVdPhi = fabs( deltaPhi(vhCand.H.p4.Phi(),vhCand.V.p4.Phi()) ) ;
1660 HVMass = (vhCand.H.p4 + vhCand.V.p4).M() ;
1661 HMETdPhi = fabs( deltaPhi(vhCand.H.p4.Phi(),vhCand.V.mets.at(0).p4.Phi()) ) ;
1662 //eltaPullAngle = vhCand.H.deltaTheta;
1663
1664 deltaPullAngle = VHbbCandidateTools::getDeltaTheta(vhCand.H.jets[0],vhCand.H.jets[1]);
1665 deltaPullAngle2 = VHbbCandidateTools::getDeltaTheta(vhCand.H.jets[1],vhCand.H.jets[0]);
1666 hJets.cosTheta[0]= vhCand.H.helicities[0];
1667 hJets.cosTheta[1]= vhCand.H.helicities[1];
1668 } // Higgs Flag
1669
1670 V.mass = vhCand.V.p4.M();
1671 if(isW) V.mass = vhCand.Mt();
1672 V.pt = vhCand.V.p4.Pt();
1673 V.eta = vhCand.V.p4.Eta();
1674 V.phi = vhCand.V.p4.Phi();
1675 VMt = vhCand.Mt() ;
1676
1677
1678 // METInfo calomet; METInfo tcmet; METInfo pfmet; METInfo mht; METInfo metNoPU
1679 MET.et = vhCand.V.mets.at(0).p4.Pt();
1680 MET.phi = vhCand.V.mets.at(0).p4.Phi();
1681 MET.sumet = vhCand.V.mets.at(0).sumEt;
1682 MET.sig = vhCand.V.mets.at(0).metSig;
1683
1684
1685 fakeMET.sumet = 0;
1686 fakeMET.sig = 0;
1687 fakeMET.et = 0;
1688 fakeMET.phi = 0;
1689 if( Vtype == VHbbCandidate::Zmumu) {
1690 TVector3 mu1 = vhCand.V.muons[0].p4.Vect();
1691 TVector3 mu2 = vhCand.V.muons[1].p4.Vect();
1692 // Not needed with PFMET
1693 // mu1.SetMag( mu1.Mag() - vhCand.V.muons[0].emEnergy - vhCand.V.muons[0].hadEnergy);
1694 // mu2.SetMag( mu2.Mag() - vhCand.V.muons[1].emEnergy - vhCand.V.muons[1].hadEnergy);
1695 TVector3 sum = vhCand.V.mets.at(0).p4.Vect() + mu1 + mu2;
1696 fakeMET.et = sum.Pt();
1697 fakeMET.phi = sum.Phi();
1698 fakeMET.sumet = vhCand.V.mets.at(0).sumEt - mu1.Pt() - mu2.Pt();
1699 }
1700
1701
1702
1703 METnoPU.et = iEvent->metNoPU.p4.Pt();
1704 METnoPU.phi = iEvent->metNoPU.p4.Phi();
1705 METnoPU.sumet = iEvent->metNoPU.sumEt;
1706 METnoPU.sig = iEvent->metNoPU.metSig;
1707 METnoPUCh.et = iEvent->metCh.p4.Pt();
1708 METnoPUCh.phi = iEvent->metCh.p4.Phi();
1709 METnoPUCh.sumet = iEvent->metCh.sumEt;
1710 METnoPUCh.sig = iEvent->metCh.metSig;
1711
1712 METnoPUCh.et = iEvent->metCh.p4.Pt();
1713 METnoPUCh.phi = iEvent->metCh.p4.Phi();
1714 METnoPUCh.sumet = iEvent->metCh.sumEt;
1715 METnoPUCh.sig = iEvent->metCh.metSig;
1716
1717
1718 METtype1corr.et = iEvent->pfmetType1corr.p4.Pt();
1719 METtype1corr.phi = iEvent->pfmetType1corr.p4.Phi();
1720 METtype1corr.sumet = iEvent->pfmetType1corr.sumEt;
1721 METtype1corr.sig = iEvent->pfmetType1corr.metSig;
1722
1723
1724 METtype1p2corr.et = iEvent->pfmetType1p2corr.p4.Pt();
1725 METtype1p2corr.phi = iEvent->pfmetType1p2corr.p4.Phi();
1726 METtype1p2corr.sumet = iEvent->pfmetType1p2corr.sumEt;
1727 METtype1p2corr.sig = iEvent->pfmetType1p2corr.metSig;
1728
1729
1730 METnoPUtype1corr.et = iEvent->pfmetNoPUType1corr.p4.Pt();
1731 METnoPUtype1corr.phi = iEvent->pfmetNoPUType1corr.p4.Phi();
1732 METnoPUtype1corr.sumet = iEvent->pfmetNoPUType1corr.sumEt;
1733 METnoPUtype1corr.sig = iEvent->pfmetNoPUType1corr.metSig;
1734
1735
1736 METnoPUtype1p2corr.et = iEvent->pfmetNoPUType1p2corr.p4.Pt();
1737 METnoPUtype1p2corr.phi = iEvent->pfmetNoPUType1p2corr.p4.Phi();
1738 METnoPUtype1p2corr.sumet = iEvent->pfmetNoPUType1p2corr.sumEt;
1739 METnoPUtype1p2corr.sig = iEvent->pfmetNoPUType1p2corr.metSig;
1740
1741 // std::cout << " iEvent->metUncInfo.size() " << iEvent->metUncInfo.size() << std::endl;
1742 for(size_t m=0;m<iEvent->metUncInfo.size();m++)
1743 {
1744 metUnc.set(iEvent->metUncInfo[m], m );
1745 // std::cout << "metUncInfo[" << m <<" ].et = " << metUnc.et[m] << std::endl;
1746 }
1747
1748
1749 rho = aux.puInfo.rho;
1750 rho25 = aux.puInfo.rho25;
1751 rhoN = aux.puInfo.rhoNeutral;
1752 nPVs=aux.pvInfo.nVertices;
1753
1754 if(!fromCandidate) {
1755 MHT.mht = iEvent->mht.p4.Pt();
1756 MHT.phi = iEvent->mht.p4.Phi();
1757 MHT.ht = iEvent->mht.sumEt;
1758 MHT.sig = iEvent->mht.metSig;
1759 }
1760
1761
1762 /////////
1763 // track sharing flags:
1764 ////////
1765 TkSharing.HiggsCSVtkSharing = TkSharing.HiggsIPtkSharing = TkSharing.HiggsSVtkSharing = TkSharing.FatHiggsCSVtkSharing = TkSharing.FatHiggsIPtkSharing = TkSharing.FatHiggsSVtkSharing = false;
1766
1767 // csv tracks
1768 if(vhCand.H.HiggsFlag){
1769
1770 if (vhCand.H.jets[0].csvNTracks > 0 && vhCand.H.jets[1].csvNTracks > 0){
1771 for (int t=0;t!=vhCand.H.jets[0].csvNTracks;t++){
1772 for (int ti=0;ti!=vhCand.H.jets[1].csvNTracks;ti++){
1773 if ((int)vhCand.H.jets[0].csvTrackIds[t] == (int)vhCand.H.jets[1].csvTrackIds[ti]){
1774 TkSharing.HiggsCSVtkSharing = true;
1775 }// same trackID
1776 }// loop tracks in second hjet
1777 }// loop tracks in first hjet
1778 }// if tracks in jet
1779
1780 // ip tracks
1781 if (vhCand.H.jets[0].btagNTracks > 0 && vhCand.H.jets[1].btagNTracks > 0){
1782 for (int t=0;t!=vhCand.H.jets[0].btagNTracks;t++){
1783 for (int ti=0;ti!=vhCand.H.jets[1].btagNTracks;ti++){
1784 if ((int)vhCand.H.jets[0].btagTrackIds[t] == (int)vhCand.H.jets[1].btagTrackIds[ti]){
1785 TkSharing.HiggsIPtkSharing = true;
1786 }// same trackID
1787 }// loop tracks in second hjet
1788 }// loop tracks in first hjet
1789 }// if tracks in jet
1790
1791 // sv tracks
1792 if (vhCand.H.jets[0].vtxNTracks > 0 && vhCand.H.jets[1].vtxNTracks > 0){
1793 for (int t=0;t!=vhCand.H.jets[0].vtxNTracks;t++){
1794 for (int ti=0;ti!=vhCand.H.jets[1].vtxNTracks;ti++){
1795 if ((int)vhCand.H.jets[0].vtxTrackIds[t] == (int)vhCand.H.jets[1].vtxTrackIds[ti]){
1796 TkSharing.HiggsSVtkSharing = true;
1797 }// same trackID
1798 }// loop tracks in second hjet
1799 }// loop tracks in first hjet
1800 }// if tracks in jet
1801
1802 } // Di-jet Higgs Flag
1803
1804 // tracksharing for Filtered jets:
1805 if(vhCand.FatH.FatHiggsFlag && nfathFilterJets > 1){
1806
1807 // csv tracks
1808 if (vhCand.FatH.jets[0].csvNTracks > 0 && vhCand.FatH.jets[1].csvNTracks > 0){
1809 for (int t=0;t!=vhCand.FatH.jets[0].csvNTracks;t++){
1810 for (int ti=0;ti!=vhCand.FatH.jets[1].csvNTracks;ti++){
1811 if ((int)vhCand.FatH.jets[0].csvTrackIds[t] == (int)vhCand.FatH.jets[1].csvTrackIds[ti]){
1812 TkSharing.FatHiggsCSVtkSharing = true;
1813 }// same trackID
1814 }// loop tracks in second hjet
1815 }// loop tracks in first hjet
1816 }// if tracks in jet
1817
1818 // ip tracks
1819 if (vhCand.FatH.jets[0].btagNTracks > 0 && vhCand.FatH.jets[1].btagNTracks > 0){
1820 for (int t=0;t!=vhCand.FatH.jets[0].btagNTracks;t++){
1821 for (int ti=0;ti!=vhCand.FatH.jets[1].btagNTracks;ti++){
1822 if ((int)vhCand.FatH.jets[0].btagTrackIds[t] == (int)vhCand.FatH.jets[1].btagTrackIds[ti]){
1823 TkSharing.FatHiggsIPtkSharing = true;
1824 }// same trackID
1825 }// loop tracks in second hjet
1826 }// loop tracks in first hjet
1827 }// if tracks in jet
1828
1829 // sv tracks
1830 if (vhCand.FatH.jets[0].vtxNTracks > 0 && vhCand.FatH.jets[1].vtxNTracks > 0){
1831 for (int t=0;t!=vhCand.FatH.jets[0].vtxNTracks;t++){
1832 for (int ti=0;ti!=vhCand.FatH.jets[1].vtxNTracks;ti++){
1833 if ((int)vhCand.FatH.jets[0].vtxTrackIds[t] == (int)vhCand.FatH.jets[1].vtxTrackIds[ti]){
1834 TkSharing.FatHiggsSVtkSharing = true;
1835 }// same trackID
1836 }// loop tracks in second hjet
1837 }// loop tracks in first hjet
1838 }// if tracks in jet
1839
1840 }// fatH
1841
1842 ////////
1843 ////////
1844
1845 //Secondary Vertices
1846 IVF.reset();
1847 nSvs = svc.size();
1848 const TVector3 recoPv = aux.pvInfo.firstPVInPT2;
1849 const math::XYZPoint myPv(recoPv);
1850
1851 //FAKE ERROR MATRIX
1852 // //look here for Matrix filling info http://project-mathlibs.web.cern.ch/project-mathlibs/sw/html/SMatrixDoc.html
1853 // std::vector<double> fillMatrix(6);
1854 // for (int i = 0; i<6; ++i) fillMatrix[i] = 0.;
1855 // fillMatrix[0] = TMath::Power(0.002,2);
1856 // fillMatrix[2] = TMath::Power(0.002,2);
1857 // fillMatrix[5] = TMath::Power(0.002,2);
1858 // const ROOT::Math::SMatrix<double, 3, 3, ROOT::Math::MatRepSym<double, 3> > myFakeMatrixError(fillMatrix.begin(),fillMatrix.end());
1859 // const reco::Vertex recoVtxPv(myPv, myFakeMatrixError);
1860
1861 // REAL ERROR MATRIX
1862 const reco::Vertex recoVtxPv(myPv, aux.pvInfo.efirstPVInPT2);
1863 for( int j=0; j < nSvs && j < MAXB; ++j ) {
1864 const GlobalVector flightDir = flightDirection(recoPv,svc[j]);
1865 reco::SecondaryVertex recoSv(recoVtxPv, svc[j], flightDir ,true);
1866 IVF.set( recoSv, recoPv ,j);
1867 }
1868 if(nSvs > 1){
1869 TLorentzVector BCands_H1, BCands_H2, BCands_H;
1870 BCands_H1.SetPtEtaPhiM(IVF.pt[0], IVF.eta[0], IVF.phi[0], IVF.massBcand[0]);
1871 BCands_H2.SetPtEtaPhiM(IVF.pt[1], IVF.eta[1], IVF.phi[1], IVF.massBcand[1]);
1872 BCands_H = BCands_H1 + BCands_H2;
1873 SVH.dR = deltaR(IVF.eta[0], IVF.phi[0], IVF.eta[1], IVF.phi[1] );
1874 SVH.dPhi = deltaPhi(IVF.phi[0], IVF.phi[1] );
1875 SVH.dEta = TMath::Abs(IVF.eta[0] - IVF.eta[1] );
1876 SVH.mass = BCands_H.M();
1877 SVH.pt = BCands_H.Pt();
1878 SVH.eta = BCands_H.Eta();
1879 SVH.phi = BCands_H.Phi();
1880 }
1881
1882 //SimBhadron
1883 SimBs.reset();
1884 if(isMC_){
1885 nSimBs = sbhc->size();
1886 for( int j=0; j < nSimBs && j < MAXB; ++j )
1887 SimBs.set( sbhc->at(j), j);
1888 if(nSimBs > 1){
1889 TLorentzVector SimBs_H1, SimBs_H2, SimBs_H;
1890 SimBs_H1.SetPtEtaPhiM(SimBs.pt[0], SimBs.eta[0], SimBs.phi[0], SimBs.mass[0]);
1891 SimBs_H2.SetPtEtaPhiM(SimBs.pt[1], SimBs.eta[1], SimBs.phi[1], SimBs.mass[1]);
1892 SimBs_H = SimBs_H1 + SimBs_H2;
1893 SimBsH.dR = deltaR(SimBs.eta[0], SimBs.phi[0], SimBs.eta[1], SimBs.phi[1] );
1894 SimBsH.dPhi = deltaPhi(SimBs.phi[0], SimBs.phi[1] );
1895 SimBsH.dEta = TMath::Abs(SimBs.eta[0] - SimBs.eta[1] );
1896 SimBsH.mass = SimBs_H.M();
1897 SimBsH.pt = SimBs_H.Pt();
1898 SimBsH.eta = SimBs_H.Eta();
1899 SimBsH.phi = SimBs_H.Phi();
1900 }
1901 }
1902
1903 //Loop on jets
1904 double maxBtag=-99999;
1905 minDeltaPhijetMET = 999;
1906 TLorentzVector bJet;
1907 std::vector<std::vector<BTagWeight::JetInfo> > btagJetInfos;
1908 std::vector<float> jet10eta;
1909 std::vector<float> jet10pt;
1910 std::vector<float> jet30eta;
1911 std::vector<float> jet30pt;
1912 if(fromCandidate)
1913 {
1914 //Loop on Higgs Jets
1915 for(unsigned int j=0; j < vhCand.H.jets.size(); j++ ){
1916 if (vhCand.H.jets[j].csv > maxBtag) { bJet=vhCand.H.jets[j].p4 ; maxBtag =vhCand.H.jets[j].csv; }
1917 if (fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), vhCand.H.jets[j].p4.Phi())) < minDeltaPhijetMET)
1918 {
1919 minDeltaPhijetMET=fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), vhCand.H.jets[j].p4.Phi()));
1920 jetPt_minDeltaPhijetMET=vhCand.H.jets[j].p4.Pt();
1921 }
1922 btagJetInfos.push_back(btagEff.jetInfo(vhCand.H.jets[j]));
1923 }
1924 //Loop on Additional Jets
1925 for(unsigned int j=0; j < vhCand.additionalJets.size(); j++ ){
1926 if (vhCand.additionalJets[j].csv > maxBtag) { bJet=vhCand.additionalJets[j].p4 ; maxBtag =vhCand.additionalJets[j].csv; }
1927 /* if (fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), vhCand.additionalJets[j].p4.Phi())) < minDeltaPhijetMET)
1928 {
1929 minDeltaPhijetMET=fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), vhCand.additionalJets[j].p4.Phi()));
1930 jetPt_minDeltaPhijetMET=vhCand.additionalJets[j].p4.Pt();
1931 }*/
1932 if( ( isW && ! useHighestPtHiggsW ) || ( ! isW && ! useHighestPtHiggsZ ) ) // btag SF computed using only H-jets if best-H made with dijetPt rather than best CSV
1933 {
1934 if(vhCand.additionalJets[j].p4.Pt() > 20)
1935 btagJetInfos.push_back(btagEff.jetInfo(vhCand.additionalJets[j]));
1936 }
1937 }
1938 }
1939 else
1940 {
1941 //Loop on all jets
1942 for(unsigned int j=0; j < iEvent->simpleJets2.size(); j++ ){
1943 if (iEvent->simpleJets2[j].csv > maxBtag) { bJet=iEvent->simpleJets2[j].p4 ; maxBtag =iEvent->simpleJets2[j].csv; }
1944 if ( iEvent->simpleJets2[j].p4.Pt() > 20 && fabs(iEvent->simpleJets2[j].p4.Eta()) < 2.5&& fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), iEvent->simpleJets2[j].p4.Phi())) < minDeltaPhijetMET)
1945 {
1946 minDeltaPhijetMET=fabs(deltaPhi( vhCand.V.mets.at(0).p4.Phi(), iEvent->simpleJets2[j].p4.Phi()));
1947 jetPt_minDeltaPhijetMET=iEvent->simpleJets2[j].p4.Pt();
1948 }
1949 if(iEvent->simpleJets2[j].p4.Pt() > 10)
1950 {
1951 jet10eta.push_back(iEvent->simpleJets2[j].p4.Eta());
1952 jet10pt.push_back(iEvent->simpleJets2[j].p4.Pt());
1953 }
1954 if(iEvent->simpleJets2[j].p4.Pt() > 30)
1955 {
1956 jet30eta.push_back(iEvent->simpleJets2[j].p4.Eta());
1957 jet30pt.push_back(iEvent->simpleJets2[j].p4.Pt());
1958 }
1959
1960 //For events made with highest CSV, all jets in the event should be taken into account for "tagging" SF (anti tagging is a mess)
1961 // because for example a light jet not used for the Higgs can have in reality a higher CSV due to SF > 1 and become a higgs jet
1962 if( ( isW && ! useHighestPtHiggsW ) || ( ! isW && ! useHighestPtHiggsZ ) )
1963 {
1964 if(iEvent->simpleJets2[j].p4.Pt() > 20 && fabs(iEvent->simpleJets2[j].p4.Eta()) < 2.5)
1965 btagJetInfos.push_back(btagEff.jetInfo(iEvent->simpleJets2[j]));
1966 }
1967 }
1968
1969 //Loop on Higgs jets
1970
1971 if(vhCand.H.HiggsFlag){
1972 for(unsigned int j=0; j < vhCand.H.jets.size(); j++ ) {
1973
1974 //if we use the highest pt pair, only the two higgs jet should be used to compute the SF because the other jets are excluded
1975 // by a criteria (pt of the dijet) that is not btag SF dependent
1976 if(!( ( isW && ! useHighestPtHiggsW ) || ( ! isW && ! useHighestPtHiggsZ ) )) {
1977 btagJetInfos.push_back(btagEff.jetInfo(vhCand.H.jets[j]));
1978 }
1979 }
1980 }// HiggsFlag
1981
1982 }
1983 vLeptons.reset();
1984 weightTrig = 1.; // better to default to 1
1985 weightTrigMay = -1.;
1986 weightTrigV4 = -1.;
1987 weightTrigOrMu30 = 1.;
1988 TLorentzVector leptonForTop;
1989 size_t firstAddMu=0;
1990 size_t firstAddEle=0;
1991 if(Vtype == VHbbCandidate::Zmumu ){
1992 vLeptons.set(vhCand.V.muons[0],0,13,aux);
1993 vLeptons.set(vhCand.V.muons[1],1,13,aux);
1994 float cweightID = triggerWeight.scaleMuID(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.scaleMuID(vLeptons.pt[1],vLeptons.eta[1]) ;
1995 float weightTrig1 = triggerWeight.scaleMuIsoHLT(vLeptons.pt[0],vLeptons.eta[0]);
1996 float weightTrig2 = triggerWeight.scaleMuIsoHLT(vLeptons.pt[1],vLeptons.eta[1]);
1997 float cweightTrig = weightTrig1 + weightTrig2 - weightTrig1*weightTrig2;
1998 //2011
1999 weightTrig = cweightID * cweightTrig;
2000
2001
2002 weightTrig2012DiMuon = triggerWeight.doubleMuon2012A(vLeptons.pt[0],vLeptons.eta[0],vLeptons.pt[1],vLeptons.eta[1]);
2003 float weightTrig2012SingleMuonMu1 = triggerWeight.singleMuon2012A(vLeptons.pt[0],vLeptons.eta[0]);
2004 float weightTrig2012SingleMuonMu2 = triggerWeight.singleMuon2012A(vLeptons.pt[1],vLeptons.eta[1]);
2005 weightTrig2012SingleMuon = weightTrig2012SingleMuonMu1+weightTrig2012SingleMuonMu2-weightTrig2012SingleMuonMu1*weightTrig2012SingleMuonMu2;
2006 weightTrig2012= weightTrig2012SingleMuon * triggerWeight.muId2012A(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.muId2012A(vLeptons.pt[1],vLeptons.eta[1]) ;
2007
2008 weightTrig2012ABDiMuon = triggerWeightAB.doubleMuon2012A(vLeptons.pt[0],vLeptons.eta[0],vLeptons.pt[1],vLeptons.eta[1]);
2009 float weightTrig2012ABSingleMuonMu1 = triggerWeightAB.singleMuon2012A(vLeptons.pt[0],vLeptons.eta[0]);
2010 float weightTrig2012ABSingleMuonMu2 = triggerWeightAB.singleMuon2012A(vLeptons.pt[1],vLeptons.eta[1]);
2011 weightTrig2012ABSingleMuon = weightTrig2012ABSingleMuonMu1+weightTrig2012ABSingleMuonMu2-weightTrig2012ABSingleMuonMu1*weightTrig2012ABSingleMuonMu2;
2012 weightTrig2012AB = weightTrig2012ABSingleMuon * triggerWeightAB.muId2012A(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeightAB.muId2012A(vLeptons.pt[1],vLeptons.eta[1]) ;
2013
2014 weightTrig2012A=weightTrig2012;
2015 weightTrig2012ADiMuon=weightTrig2012DiMuon;
2016 weightTrig2012ASingleMuon=weightTrig2012SingleMuon;
2017
2018 nvlep=2;
2019 firstAddMu=2;
2020 }
2021 if( Vtype == VHbbCandidate::Zee ){
2022 vLeptons.set(vhCand.V.electrons[0],0,11,aux);
2023 vLeptons.set(vhCand.V.electrons[1],1,11,aux);
2024 nvlep=2;
2025 firstAddEle=2;
2026 std::vector<float> pt,eta;
2027 pt.push_back(vLeptons.pt[0]); eta.push_back(vLeptons.eta[0]);
2028 pt.push_back(vLeptons.pt[1]); eta.push_back(vLeptons.eta[1]);
2029 weightEleRecoAndId=triggerWeight.scaleID95Ele(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.scaleRecoEle(vLeptons.pt[0],vLeptons.eta[0]) *
2030 triggerWeight.scaleID95Ele(vLeptons.pt[1],vLeptons.eta[1]) * triggerWeight.scaleRecoEle(vLeptons.pt[1],vLeptons.eta[1]);
2031 weightEleTrigElePart = triggerWeight.scaleDoubleEle17Ele8(pt,eta);
2032 weightEleTrigEleAugPart = triggerWeight.scaleDoubleEle17Ele8Aug(pt,eta);
2033 weightTrig = (weightEleTrigElePart*1.14+weightEleTrigEleAugPart*0.98 )/2.12 * weightEleRecoAndId;
2034
2035 weightTrig2012ADiEle = triggerWeight.doubleEle2012A(vLeptons.pt[0],vLeptons.eta[0],vLeptons.pt[1],vLeptons.eta[1]);
2036 float weightTrig2012ASingleEle1 = triggerWeight.singleEle2012Awp95(vLeptons.pt[0],vLeptons.eta[0]);
2037 float weightTrig2012ASingleEle2 = triggerWeight.singleEle2012Awp95(vLeptons.pt[1],vLeptons.eta[1]);
2038 weightTrig2012ASingleEle = weightTrig2012ASingleEle1+weightTrig2012ASingleEle2-weightTrig2012ASingleEle1*weightTrig2012ASingleEle2;
2039 weightTrig2012A = weightTrig2012ADiEle * triggerWeight.eleId2012A(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.eleId2012A(vLeptons.pt[1],vLeptons.eta[1]) ;
2040
2041 weightTrig2012DiEle = triggerWeight.doubleEle2012A(vLeptons.pt[0],vLeptons.eta[0],vLeptons.pt[1],vLeptons.eta[1]);
2042 float weightTrig2012SingleEle1 = triggerWeight.singleEle2012Awp95(vLeptons.pt[0],vLeptons.eta[0]);
2043 float weightTrig2012SingleEle2 = triggerWeight.singleEle2012Awp95(vLeptons.pt[1],vLeptons.eta[1]);
2044 weightTrig2012SingleEle = weightTrig2012SingleEle1+weightTrig2012SingleEle2-weightTrig2012SingleEle1*weightTrig2012SingleEle2;
2045 weightTrig2012 = weightTrig2012DiEle * triggerWeight.eleId2012A(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.eleId2012A(vLeptons.pt[1],vLeptons.eta[1]) ;
2046
2047 weightTrig2012ABDiEle = triggerWeightAB.doubleEle2012A(vLeptons.pt[0],vLeptons.eta[0],vLeptons.pt[1],vLeptons.eta[1]);
2048 float weightTrig2012ABSingleEle1 = triggerWeightAB.singleEle2012Awp95(vLeptons.pt[0],vLeptons.eta[0]);
2049 float weightTrig2012ABSingleEle2 = triggerWeightAB.singleEle2012Awp95(vLeptons.pt[1],vLeptons.eta[1]);
2050 weightTrig2012ABSingleEle = weightTrig2012ABSingleEle1+weightTrig2012ABSingleEle2-weightTrig2012ABSingleEle1*weightTrig2012ABSingleEle2;
2051 weightTrig2012AB = weightTrig2012ABDiEle * triggerWeightAB.eleId2012A(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeightAB.eleId2012A(vLeptons.pt[1],vLeptons.eta[1]) ;
2052 }
2053 if(Vtype == VHbbCandidate::Wmun ){
2054 leptonForTop=vhCand.V.muons[0].p4;
2055 vLeptons.set(vhCand.V.muons[0],0,13,aux);
2056 float cweightID = triggerWeight.scaleMuID(vLeptons.pt[0],vLeptons.eta[0]);
2057 float weightTrig1 = triggerWeight.scaleMuIsoHLT(vLeptons.pt[0],vLeptons.eta[0]);
2058 float cweightTrig = weightTrig1;
2059 weightTrig = cweightID * cweightTrig;
2060 float weightTrig1OrMu30 = triggerWeight.scaleMuOr30IsoHLT(vLeptons.pt[0],vLeptons.eta[0]);
2061 weightTrigOrMu30 = cweightID*weightTrig1OrMu30;
2062 weightTrig2012ASingleMuon = triggerWeight.singleMuon2012A(vLeptons.pt[0],vLeptons.eta[0]);
2063 weightTrig2012AMuonPlusWCandPt = weightTrig2012ASingleMuon +
2064 triggerWeight.muPlusWCandPt2012A_legMu(vLeptons.pt[0],vLeptons.eta[0])*triggerWeight.muPlusWCandPt2012A_legW(vhCand.V.p4.Pt(),0);
2065 weightTrig2012A = weightTrig2012ASingleMuon * triggerWeight.muId2012A(vLeptons.pt[0],vLeptons.eta[0]) ;
2066
2067
2068 weightTrig2012SingleMuon = weightTrig2012ASingleMuon;
2069 weightTrig2012MuonPlusWCandPt = weightTrig2012AMuonPlusWCandPt;
2070 weightTrig2012 = weightTrig2012A;
2071
2072
2073
2074 weightTrig2012ABSingleMuon = triggerWeightAB.singleMuon2012A(vLeptons.pt[0],vLeptons.eta[0]);
2075 weightTrig2012ABMuonPlusWCandPt = weightTrig2012ABSingleMuon +
2076 triggerWeightAB.muPlusWCandPt2012A_legMu(vLeptons.pt[0],vLeptons.eta[0])*triggerWeightAB.muPlusWCandPt2012A_legW(vhCand.V.p4.Pt(),0);
2077 weightTrig2012AB = weightTrig2012ABSingleMuon * triggerWeightAB.muId2012A(vLeptons.pt[0],vLeptons.eta[0]) ;
2078
2079
2080
2081 nvlep=1;
2082 firstAddMu=1;
2083 }
2084 if( Vtype == VHbbCandidate::Wen ){
2085 leptonForTop=vhCand.V.electrons[0].p4;
2086 vLeptons.set(vhCand.V.electrons[0],0,11,aux);
2087 nvlep=1;
2088 firstAddEle=1;
2089 weightTrigMay = triggerWeight.scaleSingleEleMay(vLeptons.pt[0],vLeptons.eta[0]);
2090 weightTrigV4 = triggerWeight.scaleSingleEleV4(vLeptons.pt[0],vLeptons.eta[0]);
2091 weightEleRecoAndId=triggerWeight.scaleID80Ele(vLeptons.pt[0],vLeptons.eta[0]) * triggerWeight.scaleRecoEle(vLeptons.pt[0],vLeptons.eta[0]);
2092 weightEleTrigJetMETPart=triggerWeight.scaleJet30Jet25(jet30pt,jet30eta)*triggerWeight.scalePFMHTEle(MET.et);
2093 weightEleTrigElePart= weightTrigV4; //this is for debugging only, checking only the V4 part
2094
2095 weightTrigMay*=weightEleRecoAndId;
2096 weightTrigV4*=weightEleRecoAndId;
2097 weightTrigV4*=weightEleTrigJetMETPart;
2098 // weightTrig = weightTrigMay * 0.187 + weightTrigV4 * (1.-0.187); //FIXME: use proper lumi if we reload 2.fb
2099 weightTrig = (weightTrigMay * 0.215 + weightTrigV4 * 1.915)/ 2.13; //FIXME: use proper lumi if we reload 2.fb
2100
2101
2102 weightTrig2012ASingleEle = triggerWeight.singleEle2012Awp80(vLeptons.pt[0],vLeptons.eta[0]);
2103 weightTrig2012A = weightTrig2012ASingleEle * triggerWeight.eleId2012Awp80(vLeptons.pt[0],vLeptons.eta[0]) ;
2104
2105 weightTrig2012SingleEle = weightTrig2012ASingleEle;
2106 weightTrig2012 = weightTrig2012A;
2107
2108 weightTrig2012ABSingleEle = triggerWeightAB.singleEle2012Awp80(vLeptons.pt[0],vLeptons.eta[0]);
2109 weightTrig2012AB = weightTrig2012ABSingleEle * triggerWeightAB.eleId2012Awp80(vLeptons.pt[0],vLeptons.eta[0]) ;
2110
2111 }
2112
2113 if(isMC_)
2114 {
2115 weightTrigMET80 = triggerWeight.scaleMET80(MET.et);
2116 weightTrigMET100 = triggerWeight.scaleMET80(MET.et);
2117 weightTrig2CJet20 = triggerWeight.scale2CentralJet( jet10pt, jet10eta);
2118 weightTrigMET150 = triggerWeight.scaleMET150(MET.et);
2119 weightTrigMET802CJet= weightTrigMET80 * weightTrig2CJet20;
2120 weightTrigMET1002CJet= weightTrigMET100 * weightTrig2CJet20;
2121 weightTrig2012DiJet30MHT80=triggerWeight.scaleDiJet30MHT80_2012A(vhCand.V.mets.at(0).p4.Pt());
2122 weightTrig2012PFMET150=triggerWeight.scalePFMET150_2012AB(vhCand.V.mets.at(0).p4.Pt()); // demonstrated to hold also for RunC (used averaged efficiency)
2123 weightTrig2012SumpT100MET100=triggerWeight.scaleSumpT100MET100_2012B(vhCand.V.mets.at(0).p4.Pt()); // demonstrated to hold also for RunC (used averaged efficiency)
2124 weightTrig2012APFMET150orDiJetMET=triggerWeight.scalePFMET150orDiJetMET_2012A(vhCand.V.mets.at(0).p4.Pt());
2125 weightTrig2012BPFMET150orDiJetMET=triggerWeight.scalePFMET150orDiJetMET_2012B(vhCand.V.mets.at(0).p4.Pt());
2126 weightTrig2012CPFMET150orDiJetMET=triggerWeight.scalePFMET150orDiJetMET_2012C(vhCand.V.mets.at(0).p4.Pt());
2127
2128
2129 }
2130 if( Vtype == VHbbCandidate::Znn ){
2131 nvlep=0;
2132 float weightTrig1 = triggerWeight.scaleMetHLT(vhCand.V.mets.at(0).p4.Pt());
2133 weightTrigMETLP = weightTrig1;
2134 weightTrig = weightTrigMET150 + weightTrigMET802CJet - weightTrigMET802CJet*weightTrigMET150;
2135
2136 // weightTrig2012A =
2137 }
2138
2139 if(weightTrigMay < 0) weightTrigMay=weightTrig;
2140 if(weightTrigV4 < 0) weightTrigV4=weightTrig;
2141 if(!isMC_)
2142 {
2143 weightTrig = 1.;
2144 weightTrigMay = 1.;
2145 weightTrigV4 = 1.;
2146 weightEleRecoAndId= 1.;
2147 weightEleTrigJetMETPart= 1.;
2148 weightEleTrigElePart= 1.;
2149 weightEleTrigEleAugPart=1.;
2150 weightTrigMET80= 1.;
2151 weightTrigMET100= 1.;
2152 weightTrig2CJet20= 1.;
2153 weightTrigMET150= 1.;
2154 weightTrigMET802CJet= 1.;
2155 weightTrigMET1002CJet= 1.;
2156 weightTrigMETLP = 1.;
2157
2158 }
2159 aLeptons.reset();
2160 nalep=0;
2161 if(fromCandidate)
2162 {
2163 for(size_t j=firstAddMu;j< vhCand.V.muons.size();j++) aLeptons.set(vhCand.V.muons[j],nalep++,13,aux);
2164 for(size_t j=firstAddEle;j< vhCand.V.electrons.size();j++) aLeptons.set(vhCand.V.electrons[j],nalep++,11,aux);
2165 }
2166 else
2167 {
2168 for(size_t j=0;j< iEvent->muInfo.size();j++)
2169 {
2170 if((j!= vhCand.V.firstLepton && j!= vhCand.V.secondLepton) || ((Vtype != VHbbCandidate::Wmun ) && (Vtype != VHbbCandidate::Zmumu )) )
2171 aLeptons.set(iEvent->muInfo[j],nalep++,13,aux);
2172 }
2173 for(size_t j=0;j< iEvent->eleInfo.size();j++)
2174 {
2175 if((j!= vhCand.V.firstLepton && j!= vhCand.V.secondLepton) || ((Vtype != VHbbCandidate::Wen ) && (Vtype != VHbbCandidate::Zee )))
2176 aLeptons.set(iEvent->eleInfo[j],nalep++,11,aux);
2177 }
2178
2179 }
2180
2181
2182 if(isMC_)
2183 {
2184 //std::cout << "BTAGSF " << btagJetInfos.size() << " " << btag.weight<BTag1Tight2CustomFilter>(btagJetInfos) << std::endl;
2185 if ( btagJetInfos.size()< 10)
2186 {
2187 btag1T2CSF = btag.weight<BTag1Tight2CustomFilter>(btagJetInfos);
2188 btag2TSF = btag.weight<BTag2TightFilter>(btagJetInfos);
2189 btag1TSF = btag.weight<BTag1TightFilter>(btagJetInfos);
2190 btagA0CSF = btag.weight<BTagAntiMax0CustomFilter>(btagJetInfos);
2191 btagA0TSF = btag.weight<BTagAntiMax0TightFilter>(btagJetInfos);
2192 btag2CSF = btag.weight<BTag2CustomFilter>(btagJetInfos);
2193 btag1TA1C = btag.weight<BTag1TightAndMax1CustomFilter>(btagJetInfos);
2194 }
2195 else
2196 {
2197 std::cout << "WARNING: combinatorics for " << btagJetInfos.size() << " jets is too high (>=10). use SF=1 " << std::endl;
2198 //TODO: revert to random throw for this cases
2199 btag1T2CSF = 1.;
2200 btag2TSF = 1.;
2201 btag1TSF = 1.;
2202 btagA0CSF = 1.;
2203 btagA0TSF = 1.;
2204 btag2CSF = 1.;
2205 btag1TA1C = 1.;
2206 }
2207 }
2208
2209 if(maxBtag > -99999)
2210 {
2211 TopHypo topQuark = TopMassReco::topMass(leptonForTop,bJet,vhCand.V.mets.at(0).p4);
2212 top.mass = topQuark.p4.M();
2213 top.pt = topQuark.p4.Pt();
2214 top.wMass = topQuark.p4W.M();
2215 } else {
2216 top.mass = -99;
2217 top.pt = -99;
2218 top.wMass = -99;
2219 }
2220
2221
2222
2223 //FIXME: too much warnings... figure out why
2224 // gendrcc=aux.genCCDeltaR();
2225 // gendrbb=aux.genBBDeltaR();
2226
2227
2228
2229 genZpt=aux.mcZ.size() > 0 ? aux.mcZ[0].p4.Pt():-99;
2230 genWpt=aux.mcW.size() > 0 ? aux.mcW[0].p4.Pt():-99;
2231
2232 // Z* is status=3 and Nmother=2 (q and qbar)
2233 // Z is status=2 and Ndau=2 (mup and mum)
2234 for (unsigned int i=0; i<aux.mcZ.size(); i++){
2235 if (aux.mcZ[i].status==3) {
2236 genZstar.mass = aux.mcZ[i].p4.M();
2237 genZstar.pt = aux.mcZ[i].p4.Pt();
2238 // genZstar.eta = aux.mcZ[i].p4.Eta();
2239 if(genZstar.pt>0.1) genZstar.eta = aux.mcZ[i].p4.Eta(); else genZstar.eta=-99;
2240
2241 genZstar.phi = aux.mcZ[i].p4.Phi();
2242 genZstar.status = aux.mcZ[i].status;
2243 genZstar.charge = aux.mcZ[i].charge;
2244 if (aux.mcZ[i].momid!=-99) genZstar.momid = aux.mcZ[i].momid ;
2245 }
2246
2247
2248
2249 if (aux.mcZ[i].dauid.size()>1) {
2250 if ( abs(aux.mcZ[i].dauid[0])==13 || abs(aux.mcZ[i].dauid[0])==11 ) {
2251 genZ.mass = aux.mcZ[i].p4.M();
2252 genZ.pt = aux.mcZ[i].p4.Pt();
2253 // genZ.eta = aux.mcZ[i].p4.Eta();
2254 if(genZ.pt>0.1) genZ.eta = aux.mcZ[i].p4.Eta(); else genZ.eta=-99;
2255 genZ.phi = aux.mcZ[i].p4.Phi();
2256 genZ.status = aux.mcZ[i].status;
2257 genZ.charge = aux.mcZ[i].charge;
2258 if ( aux.mcZ[i].momid!=-99) genZ.momid = aux.mcZ[i].momid;
2259 }
2260 }
2261 }
2262
2263
2264
2265 for (unsigned int i=0; i<aux.mcW.size(); i++){
2266 if ( aux.mcW[i].momid==6 && aux.mcW[i].dauid.size()>1 ){
2267 genTop.wdau1mass= aux.mcW[i].dauFourMomentum[0].M();
2268 genTop.wdau1pt= aux.mcW[i].dauFourMomentum[0].Pt();
2269 genTop.wdau1eta= aux.mcW[i].dauFourMomentum[0].Eta();
2270 genTop.wdau1phi= aux.mcW[i].dauFourMomentum[0].Phi();
2271 genTop.wdau1id= aux.mcW[i].dauid[0];
2272
2273 genTop.wdau2mass= aux.mcW[i].dauFourMomentum[1].M();
2274 genTop.wdau2pt= aux.mcW[i].dauFourMomentum[1].Pt();
2275 genTop.wdau2eta= aux.mcW[i].dauFourMomentum[1].Eta();
2276 genTop.wdau2phi= aux.mcW[i].dauFourMomentum[1].Phi();
2277 genTop.wdau2id= aux.mcW[i].dauid[1];
2278
2279 }
2280
2281
2282 if ( aux.mcW[i].momid==-6 && aux.mcW[i].dauid.size()>1 ){
2283 genTbar.wdau1mass= aux.mcW[i].dauFourMomentum[0].M();
2284 genTbar.wdau1pt= aux.mcW[i].dauFourMomentum[0].Pt();
2285 genTbar.wdau1eta= aux.mcW[i].dauFourMomentum[0].Eta();
2286 genTbar.wdau1phi= aux.mcW[i].dauFourMomentum[0].Phi();
2287 genTbar.wdau1id= aux.mcW[i].dauid[0];
2288
2289 genTbar.wdau2mass= aux.mcW[i].dauFourMomentum[1].M();
2290 genTbar.wdau2pt= aux.mcW[i].dauFourMomentum[1].Pt();
2291 genTbar.wdau2eta= aux.mcW[i].dauFourMomentum[1].Eta();
2292 genTbar.wdau2phi= aux.mcW[i].dauFourMomentum[1].Phi();
2293 genTbar.wdau2id= aux.mcW[i].dauid[1];
2294
2295 }
2296
2297 if (aux.mcW[i].status==3 ) {
2298 genWstar.mass = aux.mcW[i].p4.M();
2299 genWstar.pt = aux.mcW[i].p4.Pt();
2300 genWstar.eta = aux.mcW[i].p4.Eta();
2301 genWstar.phi = aux.mcW[i].p4.Phi();
2302 genWstar.status = aux.mcW[i].status;
2303 genWstar.charge = aux.mcW[i].charge;
2304 if ( aux.mcW[i].momid!=-99) genWstar.momid = aux.mcW[i].momid;
2305 }
2306 if (aux.mcW[i].dauid.size()>1 && (abs(aux.mcW[i].dauid[0])==13 || abs(aux.mcW[i].dauid[0])==11 )) {
2307 genW.mass = aux.mcW[i].p4.M();
2308 genW.pt = aux.mcW[i].p4.Pt();
2309 genW.eta = aux.mcW[i].p4.Eta();
2310 genW.phi = aux.mcW[i].p4.Phi();
2311 genW.status = aux.mcW[i].status;
2312 genW.charge = aux.mcW[i].charge;
2313 if (aux.mcW[i].momid!=-99) genW.momid = aux.mcW[i].momid;
2314 }
2315 }
2316 // b coming from Higgs
2317 for (unsigned int i=0; i<aux.mcB.size(); i++){
2318 if (abs(aux.mcB[i].momid)!=5) {
2319 genB.mass = aux.mcB[i].p4.M();
2320 genB.pt = aux.mcB[i].p4.Pt();
2321 genB.eta = aux.mcB[i].p4.Eta();
2322 genB.phi = aux.mcB[i].p4.Phi();
2323 genB.status = aux.mcB[i].status;
2324 genB.charge = aux.mcB[i].charge;
2325 if (aux.mcB[i].momid!=-99) genB.momid = aux.mcB[i].momid;
2326 }
2327
2328 if ( aux.mcB[i].momid==6 ){
2329 genTop.bmass = aux.mcB[i].p4.M();
2330 genTop.bpt = aux.mcB[i].p4.Pt();
2331 genTop.beta = aux.mcB[i].p4.Eta();
2332 genTop.bphi = aux.mcB[i].p4.Phi();
2333 genTop.bstatus = aux.mcB[i].status;
2334
2335 }
2336 }
2337
2338 for (unsigned int i=0; i<aux.mcBbar.size(); i++){
2339 if (abs(aux.mcBbar[i].momid)!=5 ) {
2340 genBbar.mass = aux.mcBbar[i].p4.M();
2341 genBbar.pt = aux.mcBbar[i].p4.Pt();
2342 genBbar.eta = aux.mcBbar[i].p4.Eta();
2343 genBbar.phi = aux.mcBbar[i].p4.Phi();
2344 genBbar.status = aux.mcBbar[i].status;
2345 if (aux.mcBbar[i].momid!=-99) genBbar.momid = aux.mcBbar[i].momid;
2346 }
2347 if ( aux.mcBbar[i].momid==-6 ){
2348 genTbar.bmass = aux.mcBbar[i].p4.M();
2349 genTbar.bpt = aux.mcBbar[i].p4.Pt();
2350 genTbar.beta = aux.mcBbar[i].p4.Eta();
2351 genTbar.bphi = aux.mcBbar[i].p4.Phi();
2352 genTbar.bstatus = aux.mcBbar[i].status;
2353
2354
2355 }
2356
2357 }
2358
2359
2360
2361
2362 if (aux.mcH.size()>0) {
2363 genH.mass = aux.mcH[0].p4.M();
2364 genH.pt = aux.mcH[0].p4.Pt();
2365 genH.eta = aux.mcH[0].p4.Eta();
2366 genH.phi = aux.mcH[0].p4.Phi();
2367 genH.status = aux.mcH[0].status;
2368 genH.charge = aux.mcH[0].charge;
2369 if (aux.mcH[0].momid!=-99) genH.momid = aux.mcH[0].momid;
2370 }
2371
2372
2373
2374
2375 WminusMode=-99;
2376 WplusMode=-99;
2377 for(unsigned int j=0; j< aux.mcW.size();j++)
2378 {
2379 for(unsigned int k=0;k< aux.mcW[j].dauid.size();k++)
2380 {
2381 int idd=abs(aux.mcW[j].dauid[k]);
2382 if(idd==11 || idd==13 || idd==15|| (idd<=5 && idd >=1))
2383 {
2384 if(WminusMode==-99 && aux.mcW[j].charge ==-1) WminusMode = idd;
2385 if(WplusMode==-99 && aux.mcW[j].charge ==+1) WplusMode = idd;
2386 }
2387 }
2388 /*
2389 /// now check if a semileptonic W is also in a bjets....
2390 if ( ( (WminusMode==11 || WminusMode==13 || WminusMode==15 ) || (WplusMode==11 || WplusMode==13 || WplusMode==15 )) && deltaR(vhCand.H.jets[0].p4.Eta(),vhCand.H.jets[0].p4.Phi(), aux.mcW[j].p4.Eta(), aux.mcW[j].p4.Phi())<0.3 ) hJets.isSemiLeptMCtruth[0]=1;
2391 if ( ( (WminusMode==11 || WminusMode==13 || WminusMode==15 ) || (WplusMode==11 || WplusMode==13 || WplusMode==15 )) && deltaR(vhCand.H.jets[1].p4.Eta(),vhCand.H.jets[1].p4.Phi(), aux.mcW[j].p4.Eta(), aux.mcW[j].p4.Phi())<0.3 ) hJets.isSemiLeptMCtruth[1]=1;
2392
2393 for( int j=0; j < naJets && j < MAXJ; j++ )
2394 {
2395 if ((idd==11 || idd==13 || idd==15 ) && deltaR(vhCand.additionalJets[j].p4.Eta(),vhCand.additionalJets[j].p4.Phi(), aux.mcW[j].p4.Eta(), aux.mcW[j].p4.Phi()) <0.3) aJets.isSemiLept[j]=1;
2396
2397 }
2398 */
2399
2400 }
2401 /// Compute pull angle from AK7
2402 if(vhCand.H.HiggsFlag){
2403 if(!fromCandidate){
2404 std::vector<VHbbEvent::SimpleJet> ak7wrt1(iEvent->simpleJets3);
2405 std::vector<VHbbEvent::SimpleJet> ak7wrt2(iEvent->simpleJets3);
2406 if(ak7wrt1.size() > 1){
2407 CompareDeltaR deltaRComparatorJ1(vhCand.H.jets[0].p4);
2408 CompareDeltaR deltaRComparatorJ2(vhCand.H.jets[1].p4);
2409 std::sort( ak7wrt1.begin(),ak7wrt1.end(),deltaRComparatorJ1 );
2410 std::sort( ak7wrt2.begin(),ak7wrt2.end(),deltaRComparatorJ2 );
2411 std::vector<VHbbEvent::SimpleJet> ak7_matched;
2412 // if the matched are different save them
2413 if(ak7wrt1[0].p4.DeltaR(ak7wrt2[0].p4) > 0.1) {
2414 ak7_matched.push_back(ak7wrt1[0]);
2415 ak7_matched.push_back(ak7wrt2[0]);
2416 }
2417 // else look at the second best
2418 else{
2419 // ak7wrt1 is best
2420 if( ak7wrt1[1].p4.DeltaR(vhCand.H.jets[0].p4) < ak7wrt2[1].p4.DeltaR(vhCand.H.jets[1].p4))
2421 {
2422 ak7_matched.push_back(ak7wrt1[1]);
2423 ak7_matched.push_back(ak7wrt2[0]);
2424 }
2425 else
2426 {
2427 ak7_matched.push_back(ak7wrt1[0]);
2428 ak7_matched.push_back(ak7wrt2[1]);
2429 }
2430 }
2431 CompareJetPt ptComparator;
2432 std::sort( ak7_matched.begin(),ak7_matched.end(),ptComparator );
2433 if(ak7_matched[0].p4.DeltaR(vhCand.H.jets[0].p4) < 0.5
2434 and ak7_matched[1].p4.DeltaR(vhCand.H.jets[1].p4) < 0.5)
2435 {
2436 deltaPullAngleAK7 = VHbbCandidateTools::getDeltaTheta(ak7_matched[0],ak7_matched[1]);
2437 deltaPullAngle2AK7 = VHbbCandidateTools::getDeltaTheta(ak7_matched[1],ak7_matched[0]);
2438 }
2439 }
2440 }
2441 }//HiggsFlag
2442
2443 _outTree->Fill();
2444
2445 }// closed event loop
2446
2447 std::cout << "closing the file: " << inputFiles_[iFile] << std::endl;
2448 inFile->Close();
2449 // close input file
2450 } // loop on files
2451
2452
2453 std::cout << "Events: " << ievt <<std::endl;
2454 std::cout << "TotalCount: " << totalcount <<std::endl;
2455
2456
2457
2458 _outFile->cd();
2459
2460 _outTree->Write();
2461 _outFile->Write();
2462 _outFile->Close();
2463 return 0;
2464 }
2465
2466