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CaloTowersClient.cc
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3 
8 
10 
11 CaloTowersClient::CaloTowersClient(const edm::ParameterSet& iConfig) : conf_(iConfig) {
12  outputFile_ = iConfig.getUntrackedParameter<std::string>("outputFile", "myfile.root");
13 
14  debug_ = false;
15  verbose_ = false;
16  dirName_ = iConfig.getParameter<std::string>("DQMDirName");
17 }
18 
20 
22 
24  igetter.setCurrentFolder(dirName_);
25 
26  if (verbose_)
27  std::cout << "\nrunClient" << std::endl;
28 
29  std::vector<MonitorElement*> hcalMEs;
30 
31  // Since out folders are fixed to three, we can just go over these three folders
32  // i.e., CaloTowersV/CaloTowersTask, HcalRecHitsV/HcalRecHitTask, NoiseRatesV/NoiseRatesTask.
33  std::vector<std::string> fullPathHLTFolders = igetter.getSubdirs();
34  for (unsigned int i = 0; i < fullPathHLTFolders.size(); i++) {
35  if (verbose_)
36  std::cout << "\nfullPath: " << fullPathHLTFolders[i] << std::endl;
37  igetter.setCurrentFolder(fullPathHLTFolders[i]);
38 
39  std::vector<std::string> fullSubPathHLTFolders = igetter.getSubdirs();
40  for (unsigned int j = 0; j < fullSubPathHLTFolders.size(); j++) {
41  if (verbose_)
42  std::cout << "fullSub: " << fullSubPathHLTFolders[j] << std::endl;
43 
44  if (strcmp(fullSubPathHLTFolders[j].c_str(), "CaloTowersV/CaloTowersTask") == 0) {
45  hcalMEs = igetter.getContents(fullSubPathHLTFolders[j]);
46  if (verbose_)
47  std::cout << "hltMES size : " << hcalMEs.size() << std::endl;
48  if (!CaloTowersEndjob(hcalMEs))
49  std::cout << "\nError in CaloTowersEndjob!" << std::endl << std::endl;
50  }
51  }
52  }
53 }
54 
55 // called after entering the CaloTowersV/CaloTowersTask directory
56 // hcalMEs are within that directory
57 int CaloTowersClient::CaloTowersEndjob(const std::vector<MonitorElement*>& hcalMEs) {
58  int useAllHistos = 0;
59  MonitorElement* Ntowers_vs_ieta = nullptr;
60  MonitorElement *mapEnergy_N = nullptr, *mapEnergy_E = nullptr, *mapEnergy_H = nullptr, *mapEnergy_EH = nullptr;
61  MonitorElement *occupancy_map = nullptr, *occupancy_vs_ieta = nullptr;
62  for (unsigned int ih = 0; ih < hcalMEs.size(); ih++) {
63  if (strcmp(hcalMEs[ih]->getName().c_str(), "Ntowers_per_event_vs_ieta") == 0) {
64  Ntowers_vs_ieta = hcalMEs[ih];
65  }
66  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_map_Nentries") == 0) {
67  mapEnergy_N = hcalMEs[ih];
68  }
69  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_map_energy_H") == 0) {
70  useAllHistos++;
71  mapEnergy_H = hcalMEs[ih];
72  }
73  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_map_energy_E") == 0) {
74  useAllHistos++;
75  mapEnergy_E = hcalMEs[ih];
76  }
77  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_map_energy_EH") == 0) {
78  useAllHistos++;
79  mapEnergy_EH = hcalMEs[ih];
80  }
81  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_map_occupancy") == 0) {
82  occupancy_map = hcalMEs[ih];
83  }
84  if (strcmp(hcalMEs[ih]->getName().c_str(), "CaloTowersTask_occupancy_vs_ieta") == 0) {
85  occupancy_vs_ieta = hcalMEs[ih];
86  }
87  }
88  if (useAllHistos != 0 && useAllHistos != 3)
89  return 0;
90 
91  double nevent = mapEnergy_N->getEntries();
92  if (verbose_)
93  std::cout << "nevent : " << nevent << std::endl;
94 
95  // mean number of towers per ieta
96  int nx = Ntowers_vs_ieta->getNbinsX();
97  float cont;
98  float econt;
99  float fev = float(nevent);
100 
101  for (int i = 1; i <= nx; i++) {
102  cont = Ntowers_vs_ieta->getBinContent(i) / fev;
103  econt = Ntowers_vs_ieta->getBinError(i) / fev;
104  Ntowers_vs_ieta->setBinContent(i, cont);
105  Ntowers_vs_ieta->setBinError(i, econt);
106  }
107 
108  // mean energies & occupancies evaluation
109 
110  nx = mapEnergy_N->getNbinsX();
111  int ny = mapEnergy_N->getNbinsY();
112  float cnorm;
113  float enorm;
114  float phi_factor;
115 
116  for (int i = 1; i <= nx; i++) {
117  float sumphi = 0.;
118  float sumphie = 0.;
119 
120  for (int j = 1; j <= ny; j++) {
121  // Emean
122  cnorm = mapEnergy_N->getBinContent(i, j);
123  //Phi histos are not used in the macros
124  if (cnorm > 0.000001 && useAllHistos) {
125  cont = mapEnergy_E->getBinContent(i, j) / cnorm;
126  econt = mapEnergy_E->getBinError(i, j) / cnorm;
127  mapEnergy_E->setBinContent(i, j, cont);
128  mapEnergy_E->setBinError(i, j, econt);
129 
130  cont = mapEnergy_H->getBinContent(i, j) / cnorm;
131  econt = mapEnergy_H->getBinError(i, j) / cnorm;
132  mapEnergy_H->setBinContent(i, j, cont);
133  mapEnergy_H->setBinError(i, j, econt);
134 
135  cont = mapEnergy_EH->getBinContent(i, j) / cnorm;
136  econt = mapEnergy_EH->getBinError(i, j) / cnorm;
137  mapEnergy_EH->setBinContent(i, j, cont);
138  mapEnergy_EH->setBinError(i, j, econt);
139  }
140 
141  // Occupancy (needed for occupancy vs ieta)
142  cnorm = occupancy_map->getBinContent(i, j) / fev;
143  enorm = occupancy_map->getBinError(i, j) / fev;
144  if (cnorm > 1.e-30)
145  occupancy_map->setBinContent(i, j, cnorm);
146 
147  sumphi += cnorm;
148  sumphie += enorm * enorm;
149 
150  } // end of iphy cycle (j)
151 
152  //Occupancy vs ieta histo is drawn
153  // phi-factor evaluation for occupancy_vs_ieta calculation
154  int ieta = i - 42; // -41,-1,1,41
155  if (ieta >= -20 && ieta <= 20) {
156  phi_factor = 72.;
157  } else {
158  if (ieta >= 40 || ieta <= -40) {
159  phi_factor = 18.;
160  } else
161  phi_factor = 36.;
162  }
163 
164  cnorm = sumphi / phi_factor;
165  enorm = sqrt(sumphie) / phi_factor;
166  occupancy_vs_ieta->setBinContent(i, cnorm);
167  occupancy_vs_ieta->setBinError(i, enorm);
168 
169  } // end of ieta cycle (i)
170 
171  return 1;
172 }
173 
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