[ViewVC] Diff of: cvsroot/UserCode/CmsHi/JetAnalysis/src/RecHitTreeProducer.cc

Comparing UserCode/CmsHi/JetAnalysis/src/RecHitTreeProducer.cc (file contents):
Revision 1.4 by yilmaz, Fri Oct 22 14:06:15 2010 UTC vs.
Revision 1.9 by yilmaz, Tue Nov 9 22:54:45 2010 UTC

#	Line 57 \| Line 57
57		#include "DataFormats/HcalRecHit/interface/HcalRecHitCollections.h"
58		#include "DataFormats/HcalDetId/interface/HcalDetId.h"
59		#include "DataFormats/EcalDetId/interface/EcalDetIdCollections.h"
60	+	#include "DataFormats/EgammaReco/interface/BasicClusterFwd.h"
61		#include "DataFormats/DetId/interface/DetId.h"
62
63
#	Line 67 \| Line 68 \| using namespace std;
68		#define MAXHITS 1000000
69
70		struct MyRecHit{
71	<
71	>	int depth[MAXHITS];
72		int n;
73
74		float e[MAXHITS];
#	Line 76 \| Line 77 \| struct MyRecHit{
77		float phi[MAXHITS];
78		bool isjet[MAXHITS];
79
80	+	float jtpt;
81	+	float jteta;
82	+	float jtphi;
83	+
84		};
85
86
87	+	struct MyBkg{
88	+	int n;
89	+	float rho[50];
90	+	float sigma[50];
91	+	};
92	+
93
94		//
95		// class declaration
#	Line 110 \| Line 121 \| class RecHitTreeProducer : public edm::E
121		edm::Handle<HFRecHitCollection> hfHits;
122		edm::Handle<HBHERecHitCollection> hbheHits;
123
124	+	edm::Handle<reco::BasicClusterCollection> bClusters;
125	+	edm::Handle<CaloTowerCollection> towers;
126	+
127	+
128		typedef vector<EcalRecHit>::const_iterator EcalIterator;
129
130		edm::Handle<reco::CaloJetCollection> jets;
131	+
132	+	edm::Handle<std::vector<double> > rhos;
133	+	edm::Handle<std::vector<double> > sigmas;
134
135		MyRecHit hbheRecHit;
136		MyRecHit hfRecHit;
137		MyRecHit ebRecHit;
138		MyRecHit eeRecHit;
139	+	MyRecHit myBC;
140	+	MyRecHit myTowers;
141	+	MyBkg bkg;
142
143	+	TNtuple* nt;
144		TTree* hbheTree;
145		TTree* hfTree;
146		TTree* ebTree;
147		TTree* eeTree;
148	+	TTree* bcTree;
149	+	TTree* towerTree;
150	+	TTree* bkgTree;
151	+
152		double cone;
153	+	double hfTowerThreshold_;
154	+	double hfLongThreshold_;
155	+	double hfShortThreshold_;
156	+	double hbheThreshold_;
157	+	double ebThreshold_;
158	+	double eeThreshold_;
159
160		edm::Service<TFileService> fs;
161		const CentralityBins * cbins_;
#	Line 133 \| Line 165 \| class RecHitTreeProducer : public edm::E
165		edm::InputTag HcalRecHitHBHESrc_;
166		edm::InputTag EBSrc_;
167		edm::InputTag EESrc_;
168	+	edm::InputTag BCSrc_;
169	+	edm::InputTag TowerSrc_;
170	+
171		edm::InputTag JetSrc_;
137	–	bool excludeJets_;
172
173	+	edm::InputTag FastJetTag_;
174	+
175	+	bool useJets_;
176	+	bool doBasicClusters_;
177	+	bool doTowers_;
178	+	bool doEcal_;
179	+	bool doHcal_;
180	+
181	+	bool doFastJet_;
182	+
183	+	bool doEbyEonly_;
184		};
185
186		//
#	Line 155 \| Line 200 \| RecHitTreeProducer::RecHitTreeProducer(c
200		cone(0.5)
201		{
202		//now do what ever initialization is needed
158	–
203		EBSrc_ = iConfig.getUntrackedParameter<edm::InputTag>("EBRecHitSrc",edm::InputTag("ecalRecHit","EcalRecHitsEB"));
204		EESrc_ = iConfig.getUntrackedParameter<edm::InputTag>("EERecHitSrc",edm::InputTag("ecalRecHit","EcalRecHitsEE"));
205		HcalRecHitHFSrc_ = iConfig.getUntrackedParameter<edm::InputTag>("hcalHFRecHitSrc",edm::InputTag("hfreco"));
206		HcalRecHitHBHESrc_ = iConfig.getUntrackedParameter<edm::InputTag>("hcalHBHERecHitSrc",edm::InputTag("hbhereco"));
207	+	BCSrc_ = iConfig.getUntrackedParameter<edm::InputTag>("BasicClusterSrc1",edm::InputTag("ecalRecHit","EcalRecHitsEB","RECO"));
208	+	TowerSrc_ = iConfig.getUntrackedParameter<edm::InputTag>("towersSrc",edm::InputTag("towerMaker"));
209		JetSrc_ = iConfig.getUntrackedParameter<edm::InputTag>("JetSrc",edm::InputTag("iterativeCone5CaloJets"));
210	<	excludeJets_ = iConfig.getUntrackedParameter<bool>("excludeJets",false);
210	>	useJets_ = iConfig.getUntrackedParameter<bool>("useJets",true);
211	>	doBasicClusters_ = iConfig.getUntrackedParameter<bool>("doBasicClusters",false);
212	>	doTowers_ = iConfig.getUntrackedParameter<bool>("doTowers",true);
213	>	doEcal_ = iConfig.getUntrackedParameter<bool>("doEcal",true);
214	>	doHcal_ = iConfig.getUntrackedParameter<bool>("doHcal",true);
215	>	doFastJet_ = iConfig.getUntrackedParameter<bool>("doFastJet",true);
216	>	FastJetTag_ = iConfig.getUntrackedParameter<edm::InputTag>("FastJetTag",edm::InputTag("kt4CaloJets"));
217	>	doEbyEonly_ = iConfig.getUntrackedParameter<bool>("doEbyEonly",false);
218	>	hfTowerThreshold_ = iConfig.getUntrackedParameter<double>("HFtowerMin",3.);
219	>	hfLongThreshold_ = iConfig.getUntrackedParameter<double>("HFlongMin",3.);
220	>	hfShortThreshold_ = iConfig.getUntrackedParameter<double>("HFshortMin",3.);
221		}
222
223
#	Line 187 \| Line 243 \| RecHitTreeProducer::analyze(const edm::E
243		hbheRecHit.n = 0;
244		ebRecHit.n = 0;
245		eeRecHit.n = 0;
246	+	myBC.n = 0;
247	+	myTowers.n = 0;
248	+	bkg.n = 0;
249
250	+	if(doEcal_){
251		ev.getByLabel(EBSrc_,ebHits);
252		ev.getByLabel(EESrc_,eeHits);
253	<
253	>	}
254	>	if(doHcal_){
255		ev.getByLabel(HcalRecHitHFSrc_,hfHits);
256		ev.getByLabel(HcalRecHitHBHESrc_,hbheHits);
257	+	}
258	+	if(useJets_) {
259	+	ev.getByLabel(JetSrc_,jets);
260	+	}
261
262	+	if(doBasicClusters_){
263	+	ev.getByLabel(BCSrc_,bClusters);
264	+	}
265
266	<	if(!excludeJets_) {
267	<	ev.getByLabel(JetSrc_,jets);
266	>	if(doTowers_){
267	>	ev.getByLabel(TowerSrc_,towers);
268	>	}
269	>
270	>	if(doFastJet_){
271	>	ev.getByLabel(edm::InputTag(FastJetTag_.label(),"rhos",FastJetTag_.process()),rhos);
272	>	ev.getByLabel(edm::InputTag(FastJetTag_.label(),"sigmas",FastJetTag_.process()),sigmas);
273	>	bkg.n = rhos->size();
274	>	for(unsigned int i = 0; i < rhos->size(); ++i){
275	>	bkg.rho[i] = (*rhos)[i];
276	>	bkg.sigma[i] = (*sigmas)[i];
277	>	}
278		}
279
280	<	if(0 && !cbins_) cbins_ = getCentralityBinsFromDB(iSetup);
280	>	if(0 && !cbins_) cbins_ = getCentralityBinsFromDB(iSetup);
281
282		if(!geo){
283		edm::ESHandle<CaloGeometry> pGeo;
284		iSetup.get<CaloGeometryRecord>().get(pGeo);
285		geo = pGeo.product();
286		}
287	+
288	+	int nHFlong = 0;
289	+	int nHFshort = 0;
290	+	int nHFtower = 0;
291
292	+	if(doHcal_){
293		for(unsigned int i = 0; i < hfHits->size(); ++i){
294		const HFRecHit & hit= (*hfHits)[i];
295		hfRecHit.e[hfRecHit.n] = hit.energy();
#	Line 214 \| Line 297 \| RecHitTreeProducer::analyze(const edm::E
297		hfRecHit.eta[hfRecHit.n] = getEta(hit.id());
298		hfRecHit.phi[hfRecHit.n] = getPhi(hit.id());
299		hfRecHit.isjet[hfRecHit.n] = false;
300	<	if(!excludeJets_){
300	>	hfRecHit.depth[hfRecHit.n] = hit.id().depth();
301	>	if(hit.energy() > hfShortThreshold_ && hit.id().depth() != 1) nHFshort++;
302	>	if(hit.energy() > hfLongThreshold_ && hit.id().depth() == 1) nHFlong++;
303	>
304	>	if(useJets_){
305		for(unsigned int j = 0 ; j < jets->size(); ++j){
306		const reco::Jet& jet = (*jets)[j];
307		double dr = reco::deltaR(hfRecHit.eta[hfRecHit.n],hfRecHit.phi[hfRecHit.n],jet.eta(),jet.phi());
#	Line 223 \| Line 310 \| RecHitTreeProducer::analyze(const edm::E
310		}
311		hfRecHit.n++;
312		}
313	<
313	>	if(!doEbyEonly_){
314		for(unsigned int i = 0; i < hbheHits->size(); ++i){
315		const HBHERecHit & hit= (*hbheHits)[i];
316		hbheRecHit.e[hbheRecHit.n] = hit.energy();
#	Line 231 \| Line 318 \| RecHitTreeProducer::analyze(const edm::E
318		hbheRecHit.eta[hbheRecHit.n] = getEta(hit.id());
319		hbheRecHit.phi[hbheRecHit.n] = getPhi(hit.id());
320		hbheRecHit.isjet[hbheRecHit.n] = false;
321	<	if(!excludeJets_){
321	>	if(useJets_){
322		for(unsigned int j = 0 ; j < jets->size(); ++j){
323		const reco::Jet& jet = (*jets)[j];
324		double dr = reco::deltaR(hbheRecHit.eta[hbheRecHit.n],hbheRecHit.phi[hbheRecHit.n],jet.eta(),jet.phi());
#	Line 240 \| Line 327 \| RecHitTreeProducer::analyze(const edm::E
327		}
328		hbheRecHit.n++;
329		}
330	<
330	>	}
331	>	}
332	>	if(doEcal_ && !doEbyEonly_){
333		for(unsigned int i = 0; i < ebHits->size(); ++i){
334		const EcalRecHit & hit= (*ebHits)[i];
335		ebRecHit.e[ebRecHit.n] = hit.energy();
#	Line 248 \| Line 337 \| RecHitTreeProducer::analyze(const edm::E
337		ebRecHit.eta[ebRecHit.n] = getEta(hit.id());
338		ebRecHit.phi[ebRecHit.n] = getPhi(hit.id());
339		ebRecHit.isjet[ebRecHit.n] = false;
340	<	if(!excludeJets_){
340	>	if(useJets_){
341		for(unsigned int j = 0 ; j < jets->size(); ++j){
342		const reco::Jet& jet = (*jets)[j];
343		double dr = reco::deltaR(ebRecHit.eta[ebRecHit.n],ebRecHit.phi[ebRecHit.n],jet.eta(),jet.phi());
#	Line 265 \| Line 354 \| RecHitTreeProducer::analyze(const edm::E
354		eeRecHit.eta[eeRecHit.n] = getEta(hit.id());
355		eeRecHit.phi[eeRecHit.n] = getPhi(hit.id());
356		eeRecHit.isjet[eeRecHit.n] = false;
357	<	if(!excludeJets_){
357	>	if(useJets_){
358		for(unsigned int j = 0 ; j < jets->size(); ++j){
359		const reco::Jet& jet = (*jets)[j];
360		double dr = reco::deltaR(eeRecHit.eta[eeRecHit.n],eeRecHit.phi[eeRecHit.n],jet.eta(),jet.phi());
#	Line 274 \| Line 363 \| RecHitTreeProducer::analyze(const edm::E
363		}
364		eeRecHit.n++;
365		}
366	<
367	<	eeTree->Fill();
368	<	ebTree->Fill();
369	<
370	<	hbheTree->Fill();
371	<	hfTree->Fill();
366	>	}
367	>
368	>	if(doTowers_){
369	>
370	>	for(unsigned int i = 0; i < towers->size(); ++i){
371	>	const CaloTower & hit= (*towers)[i];
372	>	myTowers.e[myTowers.n] = hit.energy();
373	>	myTowers.et[myTowers.n] = getEt(hit.id(),hit.energy());
374	>	myTowers.eta[myTowers.n] = getEta(hit.id());
375	>	myTowers.phi[myTowers.n] = getPhi(hit.id());
376	>	myTowers.isjet[myTowers.n] = false;
377	>
378	>	if(hit.ieta() > 29 && hit.energy() > hfTowerThreshold_) nHFtower++;
379	>
380	>	if(useJets_){
381	>	for(unsigned int j = 0 ; j < jets->size(); ++j){
382	>	const reco::Jet& jet = (*jets)[j];
383	>	double dr = reco::deltaR(myTowers.eta[myTowers.n],myTowers.phi[myTowers.n],jet.eta(),jet.phi());
384	>	if(dr < cone){ myTowers.isjet[myTowers.n] = true; }
385	>	}
386	>	}
387	>	myTowers.n++;
388	>	}
389	>
390	>	}
391	>
392	>	if(doBasicClusters_ && !doEbyEonly_){
393	>	for(unsigned int j = 0 ; j < jets->size(); ++j){
394	>	const reco::Jet& jet = (*jets)[j];
395	>	myBC.n = 0;
396	>	myBC.jtpt = jet.pt();
397	>	myBC.jteta = jet.eta();
398	>	myBC.jtphi = jet.phi();
399	>
400	>	for(unsigned int i = 0; i < bClusters->size(); ++i){
401	>	const reco::BasicCluster & bc= (*bClusters)[i];
402	>	double dr = reco::deltaR(bc.eta(),bc.phi(),jet.eta(),jet.phi());
403	>	if(dr < cone){
404	>	myBC.e[myBC.n] = bc.energy();
405	>	myBC.et[myBC.n] = bc.energy()*sin(bc.position().theta());
406	>	myBC.eta[myBC.n] = bc.eta();
407	>	myBC.phi[myBC.n] = bc.phi();
408	>	myBC.n++;
409	>	}
410	>	}
411	>	bcTree->Fill();
412	>	}
413	>	}
414	>
415	>	if(!doEbyEonly_){
416	>	towerTree->Fill();
417	>
418	>	eeTree->Fill();
419	>	ebTree->Fill();
420	>
421	>	hbheTree->Fill();
422	>	hfTree->Fill();
423	>
424	>	if (doFastJet_) {
425	>	bkgTree->Fill();
426	>	}
427	>	}
428	>
429	>	nt->Fill(nHFtower,nHFlong,nHFshort);
430
431		}
432
#	Line 295 \| Line 442 \| RecHitTreeProducer::beginJob()
442		hbheTree->Branch("et",hbheRecHit.et,"et[n]/F");
443		hbheTree->Branch("eta",hbheRecHit.eta,"eta[n]/F");
444		hbheTree->Branch("phi",hbheRecHit.phi,"phi[n]/F");
445	<	hbheTree->Branch("isjet",hbheRecHit.isjet,"isjet[n]/I");
445	>	hbheTree->Branch("isjet",hbheRecHit.isjet,"isjet[n]/O");
446
447		hfTree = fs->make<TTree>("hf","");
448		hfTree->Branch("n",&hfRecHit.n,"n/I");
#	Line 303 \| Line 450 \| RecHitTreeProducer::beginJob()
450		hfTree->Branch("et",hfRecHit.et,"et[n]/F");
451		hfTree->Branch("eta",hfRecHit.eta,"eta[n]/F");
452		hfTree->Branch("phi",hfRecHit.phi,"phi[n]/F");
453	<	hfTree->Branch("isjet",hfRecHit.isjet,"isjet[n]/I");
453	>	hfTree->Branch("depth",hfRecHit.depth,"depth[n]/I");
454	>	hfTree->Branch("isjet",hfRecHit.isjet,"isjet[n]/O");
455
456		eeTree = fs->make<TTree>("ee","");
457		eeTree->Branch("n",&eeRecHit.n,"n/I");
#	Line 311 \| Line 459 \| RecHitTreeProducer::beginJob()
459		eeTree->Branch("et",eeRecHit.et,"et[n]/F");
460		eeTree->Branch("eta",eeRecHit.eta,"eta[n]/F");
461		eeTree->Branch("phi",eeRecHit.phi,"phi[n]/F");
462	<	eeTree->Branch("isjet",eeRecHit.isjet,"isjet[n]/I");
462	>	eeTree->Branch("isjet",eeRecHit.isjet,"isjet[n]/O");
463
464		ebTree = fs->make<TTree>("eb","");
465		ebTree->Branch("n",&ebRecHit.n,"n/I");
#	Line 321 \| Line 469 \| RecHitTreeProducer::beginJob()
469		ebTree->Branch("phi",ebRecHit.phi,"phi[n]/F");
470		ebTree->Branch("isjet",ebRecHit.isjet,"isjet[n]/O");
471
472	+	towerTree = fs->make<TTree>("tower","");
473	+	towerTree->Branch("n",&myTowers.n,"n/I");
474	+	towerTree->Branch("e",myTowers.e,"e[n]/F");
475	+	towerTree->Branch("et",myTowers.et,"et[n]/F");
476	+	towerTree->Branch("eta",myTowers.eta,"eta[n]/F");
477	+	towerTree->Branch("phi",myTowers.phi,"phi[n]/F");
478	+	towerTree->Branch("isjet",myTowers.isjet,"isjet[n]/O");
479	+
480	+
481	+	if(doBasicClusters_){
482	+	bcTree = fs->make<TTree>("bc","");
483	+	bcTree->Branch("n",&myBC.n,"n/I");
484	+	bcTree->Branch("e",myBC.e,"e[n]/F");
485	+	bcTree->Branch("et",myBC.et,"et[n]/F");
486	+	bcTree->Branch("eta",myBC.eta,"eta[n]/F");
487	+	bcTree->Branch("phi",myBC.phi,"phi[n]/F");
488	+	bcTree->Branch("jtpt",&myBC.jtpt,"jtpt/F");
489	+	bcTree->Branch("jteta",&myBC.jteta,"jteta/F");
490	+	bcTree->Branch("jtphi",&myBC.jtphi,"jtphi/F");
491	+	// bcTree->Branch("isjet",bcRecHit.isjet,"isjet[n]/O");
492	+	}
493	+
494	+	if(doFastJet_){
495	+	bkgTree = fs->make<TTree>("bkg","");
496	+	bkgTree->Branch("n",&bkg.n,"n/I");
497	+	bkgTree->Branch("rho",bkg.rho,"rho[n]/F");
498	+	bkgTree->Branch("sigma",bkg.sigma,"sigma[n]/F");
499	+	}
500	+
501	+	nt = fs->make<TNtuple>("ntEvent","","nHF:nHFlong:nHFshort");
502	+
503		}
504
505		// ------------ method called once each job just after ending the event loop ------------

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Comparing UserCode/CmsHi/JetAnalysis/src/RecHitTreeProducer.cc (file contents): Revision 1.4 by yilmaz, Fri Oct 22 14:06:15 2010 UTC vs. Revision 1.9 by yilmaz, Tue Nov 9 22:54:45 2010 UTC

Diff Legend

Comparing UserCode/CmsHi/JetAnalysis/src/RecHitTreeProducer.cc (file contents):
Revision 1.4 by yilmaz, Fri Oct 22 14:06:15 2010 UTC vs.
Revision 1.9 by yilmaz, Tue Nov 9 22:54:45 2010 UTC