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PhotonPostprocessing.cc
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1 #include <iostream>
2 //
3 
5 
6 
7 //#define TWOPI 6.283185308
8 //
9 
22 using namespace std;
23 
24 
26 {
27 
28  dbe_ = 0;
30  dbe_->setVerbose(0);
31  parameters_ = pset;
32 
33 
34  analyzerName_ = pset.getParameter<std::string>("analyzerName");
35  standAlone_ = pset.getParameter<bool>("standAlone");
36  batch_ = pset.getParameter<bool>("batch");
37  outputFileName_ = pset.getParameter<string>("OutputFileName");
38  inputFileName_ = pset.getParameter<std::string>("InputFileName");
39  isRunCentrally_= pset.getParameter<bool>("isRunCentrally");
40  fastSim_ = pset.getParameter<bool>("fastSim");
41 
42  etMin = parameters_.getParameter<double>("etMin");
43  etMax = parameters_.getParameter<double>("etMax");
44  etBin = parameters_.getParameter<int>("etBin");
45 
46 
47  etaMin = parameters_.getParameter<double>("etaMin");
48  etaMax = parameters_.getParameter<double>("etaMax");
49  etaBin = parameters_.getParameter<int>("etaBin");
50  etaBin2 = parameters_.getParameter<int>("etaBin2");
51 
52  phiMin = parameters_.getParameter<double>("phiMin");
53  phiMax = parameters_.getParameter<double>("phiMax");
54  phiBin = parameters_.getParameter<int>("phiBin");
55 
56  rMin = parameters_.getParameter<double>("rMin");
57  rMax = parameters_.getParameter<double>("rMax");
58  rBin = parameters_.getParameter<int>("rBin");
59 
60  zMin = parameters_.getParameter<double>("zMin");
61  zMax = parameters_.getParameter<double>("zMax");
62  zBin = parameters_.getParameter<int>("zBin");
63 
64 
65 
66 }
67 
68 
69 
71 {}
72 
74 {
75 
76 }
77 
79 {}
80 
81 
83 
84 if(standAlone_) runPostprocessing();
85 
86 }
87 
89 
90  if(!standAlone_) runPostprocessing();
91 
92 }
93 
94 
96 {
97 
98 
99  std::string simInfoPathName = "EgammaV/"+ analyzerName_+"/SimulationInfo/";
100  std::string convPathName = "EgammaV/"+ analyzerName_+"/ConversionInfo/";
101  std::string effPathName = "EgammaV/"+ analyzerName_+"/Efficiencies/";
102  std::string photonPathName = "EgammaV/"+ analyzerName_+"/Photons/";
103 
104  if(batch_) dbe_->open(inputFileName_);
105 
106 
107  dbe_->setCurrentFolder(simInfoPathName);
108  // Numerators for Total efficiency
109  string histname = "h_simConvEtaMTotal";
110  h_simConvEtaMTotal_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
111  histname = "h_simConvPhiMTotal";
112  h_simConvPhiMTotal_ = dbe_->book1D(histname,histname,phiBin,phiMin,phiMax);
113  histname = "h_simConvRMTotal";
114  h_simConvRMTotal_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
115  histname = "h_simConvZMTotal";
116  h_simConvZMTotal_ = dbe_->book1D(histname,histname,zBin,zMin, zMax);
117  histname = "h_simConvEtMTotal";
118  h_simConvEtMTotal_ = dbe_->book1D(histname,histname,etBin,etMin, etMax);
119 
120  dbe_->setCurrentFolder(effPathName);
121  // Photon reconstruction efficiencies
122  histname = "recoEffVsEta";
123  phoRecoEffEta_ = dbe_->book1D(histname,"Photon reconstruction efficiency vs simulated #eta",etaBin,etaMin, etaMax);
124  histname = "recoEffVsPhi";
125  phoRecoEffPhi_ = dbe_->book1D(histname,"Photon reconstruction efficiency vs simulated #phi",phiBin,phiMin, phiMax);
126  histname = "recoEffVsEt";
127  phoRecoEffEt_ = dbe_->book1D(histname,"Photon reconstruction efficiency vs simulated Et",etBin,etMin, etMax) ;
128  // Fraction of photons with at least one dead channel
129  histname = "deadChVsEta";
130  phoDeadChEta_ = dbe_->book1D(histname,"Fraction of photons with >=1 dead Xtal vs simulated #eta",etaBin,etaMin, etaMax);
131  histname = "deadChVsPhi";
132  phoDeadChPhi_ = dbe_->book1D(histname,"Fraction of photons with >=1 dead Xtal vs simulated #phi",phiBin,phiMin, phiMax);
133  histname = "deadChVsEt";
134  phoDeadChEt_ = dbe_->book1D(histname,"Fraction of photons with >=1 dead Xtal vs simulated Et",etBin,etMin, etMax) ;
135 
136  if ( ! isRunCentrally_ ) {
137  histname = "convVsEt";
138  convVsEt_[0] = dbe_->book1D(histname+"Barrel","Fraction of good conversions in R9<0.93 vs Et ",etBin,etMin, etMax) ;
139  convVsEt_[1] = dbe_->book1D(histname+"Endcap","Fraction of good conversions in R9<0.93 vs Et ",etBin,etMin, etMax) ;
140  }
141 
142 
143 
144  // Conversion reconstruction efficiency
145  histname = "convEffVsEtaTwoTracks";
146  convEffEtaTwoTracks_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
147 
148  histname = "convEffVsPhiTwoTracks";
149  convEffPhiTwoTracks_ = dbe_->book1D(histname,histname,phiBin,phiMin,phiMax);
150 
151  histname = "convEffVsRTwoTracks";
152  convEffRTwoTracks_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
153 
154  histname = "convEffVsZTwoTracks";
155  convEffZTwoTracks_ = dbe_->book1D(histname,histname,zBin,zMin,zMax);
156 
157  histname = "convEffVsEtTwoTracks";
158  convEffEtTwoTracks_ = dbe_->book1D(histname,histname,etBin,etMin, etMax);
159  //
160  histname = "convEffVsEtaTwoTracksAndVtxProbGT0";
161  convEffEtaTwoTracksAndVtxProbGT0_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
162  histname = "convEffVsEtaTwoTracksAndVtxProbGT0005";
163  convEffEtaTwoTracksAndVtxProbGT0005_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
164  histname = "convEffVsRTwoTracksAndVtxProbGT0";
165  convEffRTwoTracksAndVtxProbGT0_ = dbe_->book1D(histname,histname,rBin,rMin,rMax);
166  histname = "convEffVsRTwoTracksAndVtxProbGT0005";
167  convEffRTwoTracksAndVtxProbGT0005_ = dbe_->book1D(histname,histname,rBin,rMin,rMax);
168  //
169  histname = "convEffVsEtaOneTrack";
170  convEffEtaOneTrack_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
171  histname = "convEffVsROneTrack";
172  convEffROneTrack_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
173  histname = "convEffVsZOneTrack";
174  convEffZOneTrack_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
175  histname = "convEffVsEtOneTrack";
176  convEffEtOneTrack_ = dbe_->book1D(histname,histname,etBin,etMin, etMax);
177  histname = "convEffVsPhiOneTrack";
178  convEffPhiOneTrack_ = dbe_->book1D(histname,histname,phiBin,phiMin,phiMax);
179  //
180  histname = "convEffVsEtaTotal";
181  convEffEtaTotal_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
182  histname = "convEffVsRTotal";
183  convEffRTotal_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
184  histname = "convEffVsZTotal";
185  convEffZTotal_ = dbe_->book1D(histname,histname,zBin,zMin, zMax);
186  histname = "convEffVsEtTotal";
187  convEffEtTotal_ = dbe_->book1D(histname,histname,etBin,etMin, etMax);
188  histname = "convEffVsPhiTotal";
189  convEffPhiTotal_ = dbe_->book1D(histname,histname,phiBin,phiMin,phiMax);
190  // Fake rate
191  histname = "convFakeRateVsEtaTwoTracks";
192  convFakeRateEtaTwoTracks_ = dbe_->book1D(histname,histname,etaBin2,etaMin, etaMax);
193  histname = "convFakeRateVsPhiTwoTracks";
194  convFakeRatePhiTwoTracks_ = dbe_->book1D(histname,histname,phiBin,phiMin,phiMax);
195  histname = "convFakeRateVsRTwoTracks";
196  convFakeRateRTwoTracks_ = dbe_->book1D(histname,histname,rBin,rMin, rMax);
197  histname = "convFakeRateVsZTwoTracks";
198  convFakeRateZTwoTracks_ = dbe_->book1D(histname,histname,zBin,zMin,zMax);
199  histname = "convFakeRateVsEtTwoTracks";
200  convFakeRateEtTwoTracks_ = dbe_->book1D(histname,histname,etBin,etMin, etMax);
201 
202  histname = "bkgEffVsEta";
203  bkgRecoEffEta_ = dbe_->book1D(histname,"Bkg reconstruction efficiency vs simulated #eta",etaBin,etaMin, etaMax);
204  histname = "bkgEffVsPhi";
205  bkgRecoEffPhi_ = dbe_->book1D(histname,"Bkg reconstruction efficiency vs simulated #phi",phiBin,phiMin, phiMax);
206  histname = "bkgEffVsEt";
207  bkgRecoEffEt_ = dbe_->book1D(histname,"Bkg reconstruction efficiency vs simulated Et",etBin,etMin, etMax) ;
208  // Fraction of photons with at least one dead channel
209  histname = "deadChVsEtaBkg";
210  bkgDeadChEta_ = dbe_->book1D(histname,"Fraction of bkg with >=1 dead Xtal vs simulated #eta",etaBin,etaMin, etaMax);
211  histname = "deadChVsPhiBkg";
212  bkgDeadChPhi_ = dbe_->book1D(histname,"Fraction of bkg with >=1 dead Xtal vs simulated #phi",phiBin,phiMin, phiMax);
213  histname = "deadChVsEtBkg";
214  bkgDeadChEt_ = dbe_->book1D(histname,"Fraction of bkg with >=1 dead Xtal vs simulated Et",etBin,etMin, etMax) ;
215 
216  //
217  h_simConvEtaMTotal_->getTH1F()->Add(dbe_->get(simInfoPathName+"h_SimConvOneMTracksEta")->getTH1F(),dbe_->get(convPathName+"h_RecoConvTwoMTracksEta")->getTH1F());
218  h_simConvPhiMTotal_->getTH1F()->Add(dbe_->get(simInfoPathName+"h_SimConvOneMTracksPhi")->getTH1F(),dbe_->get(convPathName+"h_RecoConvTwoMTracksPhi")->getTH1F());
219  h_simConvRMTotal_ ->getTH1F()->Add(dbe_->get(simInfoPathName+"h_SimConvOneMTracksR")->getTH1F(),dbe_->get(convPathName+"h_RecoConvTwoMTracksR")->getTH1F());
220  h_simConvZMTotal_ ->getTH1F()->Add(dbe_->get(simInfoPathName+"h_SimConvOneMTracksZ")->getTH1F(),dbe_->get(convPathName+"h_RecoConvTwoMTracksZ")->getTH1F());
221  h_simConvEtMTotal_ ->getTH1F()->Add(dbe_->get(simInfoPathName+"h_SimConvOneMTracksEt")->getTH1F(),dbe_->get(convPathName+"h_RecoConvTwoMTracksEt")->getTH1F());
222 
223 
224  // efficiencies
225  if ( ! isRunCentrally_ ) {
226  dividePlots(dbe_->get(effPathName+"convVsEtBarrel"),dbe_->get(photonPathName+"EtR9Less093ConvBarrel"),dbe_->get(photonPathName+"EtR9Less093Barrel"), "effic");
227  dividePlots(dbe_->get(effPathName+"convVsEtEndcap"),dbe_->get(photonPathName+"EtR9Less093ConvEndcap"),dbe_->get(photonPathName+"EtR9Less093Endcap"), "effic");
228  }
229 
230  dividePlots(dbe_->get(effPathName+"recoEffVsEta"),dbe_->get(simInfoPathName+"h_MatchedSimPhoEta"),dbe_->get(simInfoPathName+"h_SimPhoEta"), "effic");
231  dividePlots(dbe_->get(effPathName+"recoEffVsPhi"),dbe_->get(simInfoPathName+"h_MatchedSimPhoPhi"),dbe_->get(simInfoPathName+"h_SimPhoPhi"),"effic");
232  dividePlots(dbe_->get(effPathName+"recoEffVsEt"),dbe_->get(simInfoPathName+"h_MatchedSimPhoEt"),dbe_->get(simInfoPathName+"h_SimPhoEt"),"effic");
233  // fraction of photons with at least one dead channel
234  dividePlots(dbe_->get(effPathName+"deadChVsEta"),dbe_->get(simInfoPathName+"h_MatchedSimPhoBadChEta"),dbe_->get(simInfoPathName+"h_MatchedSimPhoEta"), "effic");
235  dividePlots(dbe_->get(effPathName+"deadChVsPhi"),dbe_->get(simInfoPathName+"h_MatchedSimPhoBadChPhi"),dbe_->get(simInfoPathName+"h_MatchedSimPhoPhi"),"effic");
236  dividePlots(dbe_->get(effPathName+"deadChVsEt"), dbe_->get(simInfoPathName+"h_MatchedSimPhoBadChEt"),dbe_->get(simInfoPathName+"h_MatchedSimPhoEt"),"effic");
237  //
238  if ( ! fastSim_ ) {
239  dividePlots(dbe_->get(effPathName+"convEffVsEtaTwoTracks"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEta"),dbe_->get(simInfoPathName+"h_VisSimConvEta"),"effic");
240  dividePlots(dbe_->get(effPathName+"convEffVsPhiTwoTracks"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksPhi"),dbe_->get(simInfoPathName+"h_VisSimConvPhi"),"effic");
241  dividePlots(dbe_->get(effPathName+"convEffVsRTwoTracks"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksR"),dbe_->get(simInfoPathName+"h_VisSimConvR"),"effic");
242  dividePlots(dbe_->get(effPathName+"convEffVsZTwoTracks"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksZ"),dbe_->get(simInfoPathName+"h_VisSimConvZ"),"effic");
243  dividePlots(dbe_->get(effPathName+"convEffVsEtTwoTracks"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEt"),dbe_->get(simInfoPathName+"h_VisSimConvEt"),"effic");
244  dividePlots(dbe_->get(effPathName+"convEffVsEtaTwoTracksAndVtxProbGT0"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEtaAndVtxPGT0"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEta"),"effic");
245  dividePlots(dbe_->get(effPathName+"convEffVsEtaTwoTracksAndVtxProbGT0005"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEtaAndVtxPGT0005"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksEta"),"effic");
246  dividePlots(dbe_->get(effPathName+"convEffVsRTwoTracksAndVtxProbGT0"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksRAndVtxPGT0"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksR"),"effic");
247  dividePlots(dbe_->get(effPathName+"convEffVsRTwoTracksAndVtxProbGT0005"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksRAndVtxPGT0005"),dbe_->get(simInfoPathName+"h_SimConvTwoMTracksR"),"effic");
248  //
249  dividePlots(dbe_->get(effPathName+"convEffVsEtaOneTrack"),dbe_->get(simInfoPathName+"h_SimConvOneMTracksEta"),dbe_->get(simInfoPathName+"h_VisSimConvEta"),"effic");
250  dividePlots(dbe_->get(effPathName+"convEffVsPhiOneTrack"),dbe_->get(simInfoPathName+"h_SimConvOneMTracksPhi"),dbe_->get(simInfoPathName+"h_VisSimConvPhi"),"effic");
251  dividePlots(dbe_->get(effPathName+"convEffVsROneTrack"),dbe_->get(simInfoPathName+"h_SimConvOneMTracksR"),dbe_->get(simInfoPathName+"h_VisSimConvR"),"effic");
252  dividePlots(dbe_->get(effPathName+"convEffVsZOneTrack"),dbe_->get(simInfoPathName+"h_SimConvOneMTracksZ"),dbe_->get(simInfoPathName+"h_VisSimConvZ"),"effic");
253  dividePlots(dbe_->get(effPathName+"convEffVsEtOneTrack"),dbe_->get(simInfoPathName+"h_SimConvOneMTracksEt"),dbe_->get(simInfoPathName+"h_VisSimConvEt"),"effic");
254  //
255  dividePlots(dbe_->get(effPathName+"convEffVsEtaTotal"),dbe_->get(simInfoPathName+"h_simConvEtaMTotal"),dbe_->get(simInfoPathName+"h_VisSimConvEta"),"effic");
256  dividePlots(dbe_->get(effPathName+"convEffVsPhiTotal"),dbe_->get(simInfoPathName+"h_simConvPhiMTotal"),dbe_->get(simInfoPathName+"h_VisSimConvPhi"),"effic");
257  dividePlots(dbe_->get(effPathName+"convEffVsRTotal"),dbe_->get(simInfoPathName+"h_simConvRMTotal"),dbe_->get(simInfoPathName+"h_VisSimConvR"),"effic");
258  dividePlots(dbe_->get(effPathName+"convEffVsZTotal"),dbe_->get(simInfoPathName+"h_simConvZMTotal"),dbe_->get(simInfoPathName+"h_VisSimConvZ"),"effic");
259  dividePlots(dbe_->get(effPathName+"convEffVsEtTotal"),dbe_->get(simInfoPathName+"h_simConvEtMTotal"),dbe_->get(simInfoPathName+"h_VisSimConvEt"),"effic");
260  // fake rate
261  dividePlots(dbe_->get(effPathName+"convFakeRateVsEtaTwoTracks"),dbe_->get(convPathName+"h_RecoConvTwoMTracksEta"),dbe_->get(convPathName+"h_RecoConvTwoTracksEta"),"fakerate");
262  dividePlots(dbe_->get(effPathName+"convFakeRateVsPhiTwoTracks"),dbe_->get(convPathName+"h_RecoConvTwoMTracksPhi"),dbe_->get(convPathName+"h_RecoConvTwoTracksPhi"),"fakerate");
263  dividePlots(dbe_->get(effPathName+"convFakeRateVsRTwoTracks"),dbe_->get(convPathName+"h_RecoConvTwoMTracksR"),dbe_->get(convPathName+"h_RecoConvTwoTracksR"),"fakerate");
264  dividePlots(dbe_->get(effPathName+"convFakeRateVsZTwoTracks"),dbe_->get(convPathName+"h_RecoConvTwoMTracksZ"),dbe_->get(convPathName+"h_RecoConvTwoTracksZ"),"fakerate");
265  dividePlots(dbe_->get(effPathName+"convFakeRateVsEtTwoTracks"),dbe_->get(convPathName+"h_RecoConvTwoMTracksEt"),dbe_->get(convPathName+"h_RecoConvTwoTracksEt"),"fakerate");
266  }
267  // Background efficiency
268  dividePlots(dbe_->get(effPathName+"bkgEffVsEta"),dbe_->get(simInfoPathName+"h_MatchedSimJetEta"),dbe_->get(simInfoPathName+"h_SimJetEta"), "effic");
269  dividePlots(dbe_->get(effPathName+"bkgEffVsPhi"),dbe_->get(simInfoPathName+"h_MatchedSimJetPhi"),dbe_->get(simInfoPathName+"h_SimJetPhi"),"effic");
270  dividePlots(dbe_->get(effPathName+"bkgEffVsEt"),dbe_->get(simInfoPathName+"h_MatchedSimJetEt"),dbe_->get(simInfoPathName+"h_SimJetEt"),"effic");
271  // fraction of photons with at least one dead channel
272  dividePlots(dbe_->get(effPathName+"deadChVsEtaBkg"),dbe_->get(simInfoPathName+"h_MatchedSimJetBadChEta"),dbe_->get(simInfoPathName+"h_MatchedSimJetEta"), "effic");
273  dividePlots(dbe_->get(effPathName+"deadChVsPhiBkg"),dbe_->get(simInfoPathName+"h_MatchedSimJetBadChPhi"),dbe_->get(simInfoPathName+"h_MatchedSimJetPhi"),"effic");
274  dividePlots(dbe_->get(effPathName+"deadChVsEtBkg"), dbe_->get(simInfoPathName+"h_MatchedSimJetBadChEt"),dbe_->get(simInfoPathName+"h_MatchedSimJetEt"),"effic");
275 
276 
277 
278  if(standAlone_) dbe_->save(outputFileName_);
279  else if(batch_) dbe_->save(inputFileName_);
280 
281 
282 
283 }
284 
285 
287 {
288 
289 
290 }
291 
292 
293 
295  double value,err;
296  for (int j=1; j<=numerator->getNbinsX(); j++){
297  dividend->setEfficiencyFlag();
298 
299  if (denominator->getBinContent(j)!=0){
300  if (type=="effic")
301  value = ((double) numerator->getBinContent(j))/((double) denominator->getBinContent(j));
302  else if (type=="fakerate")
303  value = 1-((double) numerator->getBinContent(j))/((double) denominator->getBinContent(j));
304  else return;
305  err = sqrt( value*(1-value) / ((double) denominator->getBinContent(j)) );
306  dividend->setBinContent(j, value);
307  if ( err !=0 ) dividend->setBinError(j,err);
308  }
309  else {
310  dividend->setBinContent(j, 0);
311  dividend->setBinError(j,0);
312  }
313 
314  }
315 
316 
317 }
318 
319 
321  double value,err;
322 
323  for (int j=1; j<=numerator->getNbinsX(); j++){
324  if (denominator!=0){
325  value = ((double) numerator->getBinContent(j))/denominator;
326  err = sqrt( value*(1-value) / denominator);
327  dividend->setBinContent(j, value);
328  dividend->setBinError(j,err);
329  }
330  else {
331  dividend->setBinContent(j, 0);
332  }
333  }
334 
335 }
336 
type
Definition: HCALResponse.h:21
T getParameter(std::string const &) const
void setBinContent(int binx, double content)
set content of bin (1-D)
list numerator
Definition: cuy.py:483
MonitorElement * book1D(const char *name, const char *title, int nchX, double lowX, double highX)
Book 1D histogram.
Definition: DQMStore.cc:954
tuple lumi
Definition: fjr2json.py:35
list denominator
Definition: cuy.py:484
T sqrt(T t)
Definition: SSEVec.h:48
int j
Definition: DBlmapReader.cc:9
void setBinError(int binx, double error)
set uncertainty on content of bin (1-D)
void setVerbose(unsigned level)
Definition: DQMStore.cc:631
MonitorElement * get(const std::string &path) const
get ME from full pathname (e.g. &quot;my/long/dir/my_histo&quot;)
Definition: DQMStore.cc:1708
PhotonPostprocessing(const edm::ParameterSet &pset)
DQMStore * dbe_
virtual void runPostprocessing()
TH1F * getTH1F(void) const
double getBinContent(int binx) const
get content of bin (1-D)
void save(const std::string &filename, const std::string &path="", const std::string &pattern="", const std::string &rewrite="", const uint32_t run=0, const uint32_t lumi=0, SaveReferenceTag ref=SaveWithReference, int minStatus=dqm::qstatus::STATUS_OK, const std::string &fileupdate="RECREATE", const bool resetMEsAfterWriting=false)
Definition: DQMStore.cc:2540
void dividePlots(MonitorElement *dividend, MonitorElement *numerator, MonitorElement *denominator, std::string type)
int getNbinsX(void) const
get # of bins in X-axis
bool open(const std::string &filename, bool overwrite=false, const std::string &path="", const std::string &prepend="", OpenRunDirs stripdirs=KeepRunDirs, bool fileMustExist=true)
Definition: DQMStore.cc:2895
virtual void endRun(const edm::Run &, const edm::EventSetup &)
void setEfficiencyFlag(void)
virtual void endLuminosityBlock(const edm::LuminosityBlock &, const edm::EventSetup &)
void setup(std::vector< TH2F > &depth, std::string name, std::string units="")
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:667
virtual void analyze(const edm::Event &, const edm::EventSetup &)
Definition: Run.h:41