ViewVC Help

View File | Revision Log | Show Annotations | Root Listing

root/cvsroot/UserCode/L1RpcTriggerAnalysis/plugins/L1RpcTreeAnalysis.cc

Comparing UserCode/L1RpcTriggerAnalysis/plugins/L1RpcTreeAnalysis.cc (file contents):
Revision 1.3 by konec, Mon Oct 8 07:09:24 2012 UTC vs.
Revision 1.28 by akalinow, Thu Jul 11 11:26:52 2013 UTC

#	Line 16 | Line 16
16
17		#include "UserCode/L1RpcTriggerAnalysis/interface/L1Obj.h"
18		#include "UserCode/L1RpcTriggerAnalysis/interface/EventObj.h"
19	+	#include "UserCode/L1RpcTriggerAnalysis/interface/EventObjBXExtra.h"
20		#include "UserCode/L1RpcTriggerAnalysis/interface/TrackObj.h"
21		#include "UserCode/L1RpcTriggerAnalysis/interface/MuonObj.h"
22		#include "UserCode/L1RpcTriggerAnalysis/interface/L1ObjColl.h"
23		#include "UserCode/L1RpcTriggerAnalysis/interface/SynchroCountsObj.h"
24	+	#include "UserCode/L1RpcTriggerAnalysis/interface/DetCluDigiObj.h"
25	+	#include "UserCode/L1RpcTriggerAnalysis/interface/TriggerMenuResultObj.h"
26	+	#include "UserCode/L1RpcTriggerAnalysis/interface/HitSpecObj.h"
27	+
28
29		#include "UserCode/L1RpcTriggerAnalysis/interface/ConverterRPCRawSynchroSynchroCountsObj.h"
30
31	+	L1RpcTreeAnalysis::L1RpcTreeAnalysis(const edm::ParameterSet & cfg)
32	+	: theConfig(cfg),
33	+	theAnaMuonDistribution(0),
34	+	theAnaRpcVsOth(0),
35	+	theAnaRpcMisc(0),
36	+	theAnaEff(0),
37	+	theAnaDet(0),
38	+	theAnaEmu(0),
39	+	theAnaSynch(0),
40	+	theAnaClu(0),
41	+	theAnaTimingL1(0),
42	+	theAnaMenu(0),
43	+	theAnaEvent(0),
44	+	theAnaDigiSpec(0),
45	+	theAnaHitSpec(0),
46	+	thePatternProducer(0),
47	+	thePatternProvider(0),
48	+	theAnaSiMuDistribution(0),
49	+	theAnaOtfEff(0)
50	+	{
51	+	if (theConfig.exists("anaMuonDistribution")) theAnaMuonDistribution = new AnaMuonDistribution( cfg.getParameter<edm::ParameterSet>("anaMuonDistribution"));
52	+	if (theConfig.exists("anaMenu")) theAnaMenu = new AnaMenu(theConfig.getParameter<edm::ParameterSet>("anaMenu"));
53	+	if (theConfig.exists("anaTimingL1")) theAnaTimingL1 = new AnaTimingL1( theConfig.getParameter<edm::ParameterSet>("anaTimingL1") );
54	+	if (theConfig.exists("anaEvent")) theAnaEvent = new   AnaEvent(cfg.getParameter<edm::ParameterSet>("anaEvent") );
55	+	if (theConfig.exists("anaDigiSpec")) theAnaDigiSpec = new AnaDigiSpec(cfg.getParameter<edm::ParameterSet>("anaDigiSpec"));
56	+	if (theConfig.exists("anaHitSpec")) theAnaHitSpec = new AnaHitSpec(cfg.getParameter<edm::ParameterSet>("anaHitSpec"));
57	+	if (theConfig.exists("patternProducer")) thePatternProducer = new PatternManager(cfg.getParameter<edm::ParameterSet>("patternProducer"));
58	+	if (theConfig.exists("patternProvider")) thePatternProvider = new PatternManager(cfg.getParameter<edm::ParameterSet>("patternProvider"));
59	+	if (theConfig.exists("anaSiMuDistribution")) theAnaSiMuDistribution = new AnaSiMuDistribution( cfg.getParameter<edm::ParameterSet>("anaSiMuDistribution"));
60	+	if (theConfig.exists("anaOtfEff")) theAnaOtfEff = new AnaOtfEff( cfg.getParameter<edm::ParameterSet>("anaOtfEff"));
61	+	if (theConfig.exists("anaEff")) theAnaEff = new   AnaEff(cfg.getParameter<edm::ParameterSet>("anaEff") );
62	+	if (theConfig.exists("anaRpcVsOth")) theAnaRpcVsOth = new   AnaRpcVsOth(cfg.getParameter<edm::ParameterSet>("anaRpcVsOth") );
63	+
64	+	}
65
66		void L1RpcTreeAnalysis::beginJob()
67		{
68		theHistos.SetOwner();
69
70	<	theAnaMuonDistribution.init(theHistos);
71	<	theAnaRpcVsOth.init(theHistos);
72	<	theAnaRpcMisc.init(theHistos);
73	<	theAnaEff.init(theHistos);
74	<	theAnaDet.init(theHistos);
75	<	theAnaEmu.init(theHistos);
76	<	theAnaSynch.init(theHistos);
77	<	theAnaClu.init(theHistos);
70	>	if (theAnaMuonDistribution) theAnaMuonDistribution->init(theHistos);
71	>	if (theAnaRpcVsOth)         theAnaRpcVsOth->init(theHistos);
72	>	if (theAnaRpcMisc)          theAnaRpcMisc->init(theHistos);
73	>	if (theAnaEff)              theAnaEff->init(theHistos);
74	>	if (theAnaDet)              theAnaDet->init(theHistos);
75	>	if (theAnaEmu)              theAnaEmu->init(theHistos);
76	>	if (theAnaSynch)            theAnaSynch->init(theHistos);
77	>	if (theAnaClu)              theAnaClu->init(theHistos);
78	>	if (theAnaTimingL1)         theAnaTimingL1->init(theHistos);
79	>	if (theAnaEvent)            theAnaEvent->init(theHistos);
80	>	if (theAnaMenu)             theAnaMenu->init(theHistos);
81	>	if (theAnaDigiSpec)         theAnaDigiSpec->init(theHistos);
82	>	if (theAnaHitSpec)          theAnaHitSpec->init(theHistos);
83	>	if (theAnaSiMuDistribution) theAnaSiMuDistribution->init(theHistos);
84	>	if (theAnaOtfEff)           theAnaOtfEff->init(theHistos);
85
86	+	if (thePatternProvider)     thePatternProvider->beginJob();
87		}
88
89		void L1RpcTreeAnalysis::beginRun(const edm::Run& ru, const edm::EventSetup& es)
90		{
91	<	theAnaSynch.beginRun(ru,es);
91	>	if (theAnaSynch) theAnaSynch->beginRun(ru,es);
92		}
93
94		void L1RpcTreeAnalysis::analyze(const edm::Event&, const edm::EventSetup&)
#	Line 70 | Line 117 | void L1RpcTreeAnalysis::analyze(const ed
117		std::vector<SynchroCountsObj> *counts= 0;
118		std::vector<uint32_t> *detsCrossedByMuon = 0;
119		std::vector<uint32_t> *detsCrossedByMuonDeepInside = 0;
120	<	std::vector<uint32_t> *detsHitsCompatibleWithMuon = 0;
120	>	std::vector<DetCluDigiObj> *detsHitsCompatibleWithMuon = 0;
121		std::vector<uint32_t> *detsSIMU = 0;
122	<	std::vector<uint32_t> *nDigisCompDets = 0;
76	<	std::vector<uint32_t> *clSizeCompDets = 0;
122	>	std::vector<std::pair<uint32_t, uint32_t> > *digSpec = 0;
123
124		EventObj * event = 0;
125		MuonObj * muon = 0;
126	+	TrackObj * simu = 0;
127	+
128	+	TriggerMenuResultObj *bitsL1  = 0;
129	+	TriggerMenuResultObj *bitsHLT = 0;
130
131		TBranch *bcounts=0;
132		TBranch *bdetsCrossedByMuon =0;
133		TBranch *bdetsCrossedByMuonDeepInside =0;
134		TBranch *bdetsHitsCompatibleWithMuon = 0;
135		TBranch *bdetsSIMU =0;
136	<	TBranch *bnDigisCompDets =0;
87	<	TBranch *bclSizeCompDets =0;
136	>	TBranch *bdigSpec = 0;
137
138	<	L1ObjColl* l1RpcColl = 0;
139	<	L1ObjColl* l1OtherColl = 0;
140	<	L1ObjColl* l1RpcCollEmu = 0;
138	>	L1ObjColl* l1ObjColl = 0;
139	>	HitSpecObj* hitSpec = 0;
140	>
141
142		chain.SetBranchAddress("event",&event);
143		chain.SetBranchAddress("muon",&muon);
144	+	chain.SetBranchAddress("simu",&simu);
145
146	+	chain.SetBranchAddress("bitsL1",&bitsL1);
147	+	chain.SetBranchAddress("bitsHLT",&bitsHLT);
148	+
149		chain.SetBranchAddress("counts",&counts,&bcounts);
150		chain.SetBranchAddress("detsCrossedByMuon",&detsCrossedByMuon,&bdetsCrossedByMuon);
151		chain.SetBranchAddress("detsCrossedByMuonDeepInside",&detsCrossedByMuonDeepInside,&bdetsCrossedByMuonDeepInside);
152		chain.SetBranchAddress("detsHitsCompatibleWithMuon",&detsHitsCompatibleWithMuon,&bdetsHitsCompatibleWithMuon);
153		chain.SetBranchAddress("detsSIMU",&detsSIMU,&bdetsSIMU);
154	<	chain.SetBranchAddress("nDigisCompDets",&nDigisCompDets, &bnDigisCompDets);
102	<	chain.SetBranchAddress("clSizeCompDets",&clSizeCompDets, &bclSizeCompDets);
154	>	chain.SetBranchAddress("digSpec",&digSpec,&bdigSpec);
155
156	<	chain.SetBranchAddress("l1RpcColl",&l1RpcColl);
157	<	chain.SetBranchAddress("l1OtherColl",&l1OtherColl);
106	<	chain.SetBranchAddress("l1RpcCollEmu",&l1RpcCollEmu);
156	>	chain.SetBranchAddress("l1ObjColl",&l1ObjColl);
157	>	chain.SetBranchAddress("hitSpec",&hitSpec);
158
159
160		//
161	<	// number of efents
161	>	// number of events
162		//
163		Int_t nentries = (Int_t) chain.GetEntries();
164		std::cout <<" ENTRIES: " << nentries << std::endl;
114	–
115	–
165		//
166		// main loop
167		//
168		unsigned int lastRun = 0;
169	<	for (int ev=0; ev<nentries; ev++) {
169	>	for (int ev=0; ev<nentries; ev+=1) {
170		chain.GetEntry(ev);
171	+	if (theAnaMenu) theAnaMenu->updateMenu(bitsL1->names, bitsHLT->names);
172
173	<	if (lastRun != (*event).run) {
173	>	if ( (lastRun != (*event).run) || (ev%1000000==0) ) {
174		lastRun = (*event).run;
175		std::cout <<"RUN:"    << std::setw(7) << (*event).run
176		<<" event:" << std::setw(8) << ev
177	<	<<" done:"  << std::setw(6)<< std::setiosflags(std::ios::fixed) << std::setprecision(2) << ev*100./nentries<<"%"<<std::endl;
177	>	<<" done:"  << std::setw(6)<< std::setiosflags(std::ios::fixed) << std::setprecision(2) << ev*100./nentries<<"%";
178	>	std::cout<<std::endl;
179		}
180
181	<	//    if (ev > 10) break;
182	<
183	<	//    if (event->run != 178854) continue;
184	<	//    if (lastLumi != (*event).lumi) { lastLumi = (*event).lumi; std::cout <<"lumi: " << (*event).lumi<<std::endl; }
185	<	//   theAnaDet.debug = false;
186	<	//    if ((*event).id==60422922)theAnaRpcMisc.debug = true;
187	<
188	<	theAnaMuonDistribution.run(muon);
189	<	theAnaRpcVsOth.run(muon,l1RpcColl,l1OtherColl);
190	<	theAnaEff.run(muon,l1RpcColl,l1OtherColl);
191	<	theAnaRpcMisc.run(event,muon,l1RpcColl,l1OtherColl);
192	<	theAnaDet.run( muon, *detsHitsCompatibleWithMuon,  *detsCrossedByMuon, *detsCrossedByMuonDeepInside);
193	<	theAnaEmu.run ( event, muon, l1RpcCollEmu, l1RpcColl);
194	<	theAnaSynch.run( event, muon, ConverterRPCRawSynchroSynchroCountsObj::toRawSynchro( *counts));
195	<	theAnaClu.run( event, muon, l1RpcColl, *detsHitsCompatibleWithMuon, *nDigisCompDets, *clSizeCompDets);
196	<
197	<	//   theAnaEmu.debug =theAnaDet.debug;
198	<	//    std::cout <<"----------"<<std::endl;
199	<	//   theAnaDet.debug =theAnaEmu.debug;
200	<	//    if (anaDet.debug) std::cout <<" Event: "<<(*event).id <<" Lumi: "<<(*event).lumi<< std::endl;
201	<
181	>	// EVENT NUMBER, BX structure etc.
182	>	EventObjBXExtra eventBx(*event);
183	>	if ( theAnaEvent && !theAnaEvent->filter(&eventBx) && theConfig.getParameter<bool>("filterByAnaEvent") ) continue;
184	>	// ANALYSE AND FILTER KINEMCTICS
185	>	if ( theAnaMuonDistribution && !theAnaMuonDistribution->filter(muon) && theConfig.getParameter<bool>("filterByAnaMuonDistribution") ) continue;
186	>	// ANALYSE AND FILTER TRIGGER MENU
187	>	if ( theAnaMenu && !theAnaMenu->filter(event, muon, bitsL1, bitsHLT) && theConfig.getParameter<bool>("filterByAnaMenu") ) continue;
188	>	// ANALYSE AND FILTER SIMU KONEMATICs
189	>	if ( theAnaSiMuDistribution && !theAnaSiMuDistribution->filter(event, simu, hitSpec) && theConfig.getParameter<bool>("filterByAnaSiMuDistribution") ) continue;
190	>
191	>	const TrackObj * refTrack = theConfig.getParameter<bool>("useSiMuReference") ? simu : muon;
192	>
193	>	// ANALYSES
194	>	if (theAnaRpcVsOth) theAnaRpcVsOth->run(refTrack,l1ObjColl);
195	>
196	>	//   std::cout <<"refTrack: "<< *refTrack<<std::endl;
197	>	//   std::cout <<"l1ObjColl: "<< *l1ObjColl << std::endl;
198	>
199	>	if (theAnaRpcMisc)  theAnaRpcMisc->run(event,muon,l1ObjColl);
200	>	if (theAnaDet)      theAnaDet->run( muon, *detsHitsCompatibleWithMuon,  *detsCrossedByMuon, *detsCrossedByMuonDeepInside);
201	>	if (theAnaEmu)      theAnaEmu->run ( event, muon, l1ObjColl);
202	>	if (theAnaSynch)    theAnaSynch->run( event, muon, ConverterRPCRawSynchroSynchroCountsObj::toRawSynchro( *counts));
203	>	if (theAnaClu)      theAnaClu->run( event, muon, l1ObjColl, *detsHitsCompatibleWithMuon);
204	>	if (theAnaTimingL1) theAnaTimingL1->run( &eventBx, muon, l1ObjColl);
205	>
206	>	// HITPATTERN ANALYSES & OTF EFFICIENCY
207	>	if (theAnaHitSpec) theAnaHitSpec->run(event, simu, hitSpec);
208	>	if (theAnaDigiSpec) theAnaDigiSpec->run(event, simu, hitSpec, *digSpec);
209	>	if (thePatternProducer) thePatternProducer->run(event, simu, hitSpec, *digSpec);
210	>	L1Obj l1otf;
211	>	if (thePatternProvider) l1otf=thePatternProvider->check(event, simu, hitSpec, *digSpec);
212	>	if (theAnaOtfEff) theAnaOtfEff->run(event,simu,l1otf);
213	>	L1ObjColl myL1ObjColl = *l1ObjColl;
214	>	myL1ObjColl.push_back(l1otf, false, 0.);
215	>	if (theAnaEff)      theAnaEff->run(refTrack, &myL1ObjColl, hitSpec);
216		}
217		}
218
219		void L1RpcTreeAnalysis::endJob()
220		{
221		std::cout <<"ENDJOB, summaries:"<<std::endl;
222	<	TGraph* hGraph_DetEff = theAnaDet.resume();
223	<	theAnaRpcMisc.resume(theHistos);
224	<	TGraph* hGraph_RunClu = theAnaClu.resume();
225	<
226	<	theAnaSynch.endJob();
222	>	TGraph* hGraph_DetEff = (theAnaDet) ? theAnaDet->resume() : 0;
223	>	TGraph* hGraph_RunClu = (theAnaClu) ? theAnaClu->resume(): 0;
224	>	if (theAnaRpcMisc) theAnaRpcMisc->resume(theHistos);
225	>	if (theAnaTimingL1)  theAnaTimingL1->resume(theHistos);
226	>	if (theAnaMenu)     theAnaMenu->resume(theHistos);
227	>	if (theAnaMenu) theAnaEvent->resume(theHistos);
228	>	if (theAnaHitSpec) theAnaHitSpec->resume(theHistos);
229	>	if (theAnaDigiSpec) theAnaDigiSpec->resume(theHistos);
230	>
231	>	if (theAnaSynch) theAnaSynch->endJob();
232	>	if (thePatternProducer) thePatternProducer->endJob();
233	>	if (thePatternProvider) thePatternProvider->endJob();
234
235		std::string histoFile = theConfig.getParameter<std::string>("histoFileName");
236		TFile f(histoFile.c_str(),"RECREATE");
237		theHistos.Write();
238	<	hGraph_DetEff->Write("hGraph_DetEff");
239	<	hGraph_RunClu->Write("hGraph_RunClu");
238	>	if (hGraph_DetEff) hGraph_DetEff->Write("hGraph_DetEff");
239	>	if (hGraph_RunClu) hGraph_RunClu->Write("hGraph_RunClu");
240		f.Close();
241		std::cout <<"END"<<std::endl;
242	+
243	+	delete theAnaMuonDistribution;
244	+	delete theAnaRpcVsOth;
245	+	delete theAnaRpcMisc;
246	+	delete theAnaEff;
247	+	delete theAnaDet;
248	+	delete theAnaEmu;
249	+	delete theAnaSynch;
250	+	delete theAnaClu;
251	+	delete theAnaTimingL1;
252	+	delete theAnaMenu;
253	+	delete theAnaEvent;
254	+	delete theAnaDigiSpec;
255	+	delete theAnaHitSpec;
256	+	delete thePatternProducer;
257	+	delete thePatternProvider;
258	+	delete theAnaSiMuDistribution;
259	+	delete theAnaOtfEff;
260		}

Diff Legend

–	Removed lines
+	Added lines
<	Changed lines
>	Changed lines