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TB06Tree.cc
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3 #include "TFile.h"
4 #include "TTree.h"
5 
6 #include <iostream>
7 
9  : m_file(nullptr), m_tree(nullptr), m_data(nullptr), m_dataSize(0) {
10  TDirectory *dir = gDirectory;
11  m_file = new TFile(fileName.c_str(), "RECREATE");
12  m_file->cd();
13  m_tree = new TTree(treeName.c_str(), "Analysis tree");
14  m_tree->SetAutoSave(10000000);
15  dir->cd();
16 
17  // m_tree->cd () ;
18  m_data = new TClonesArray(TB06Reco::Class(), 1);
19  m_data->ExpandCreateFast(1);
20 
21  // m_tree->Branch ("EGCO", &m_data, 64000, 2) ;
22  m_tree->Branch("TB06O", &m_data, 64000, 2);
23  m_tree->Print();
24 }
25 
26 // -------------------------------------------------------------------
27 
29  std::cout << "[TB06Tree][dtor] saving TTree " << m_tree->GetName() << " with " << m_tree->GetEntries() << " entries"
30  << " on file: " << m_file->GetName() << std::endl;
31 
32  m_file->Write();
33  delete m_tree;
34  m_file->Close();
35  delete m_file;
36  delete m_data;
37 }
38 
39 // -------------------------------------------------------------------
40 
42 void TB06Tree::store(const int &tableIsMoving,
43  const int &run,
44  const int &event,
45  const int &S6adc,
46  const double &xhodo,
47  const double &yhodo,
48  const double &xslope,
49  const double &yslope,
50  const double &xquality,
51  const double &yquality,
52  const int &icMax,
53  const int &ietaMax,
54  const int &iphiMax,
55  const double &beamEnergy,
56  const double ampl[49]) {
57  m_data->Clear();
58  TB06Reco *entry = static_cast<TB06Reco *>(m_data->AddrAt(0));
59 
60  entry->reset();
61  // reset (entry->myCalibrationMap) ;
62 
63  entry->tableIsMoving = tableIsMoving;
64  entry->run = run;
65  entry->event = event;
66  entry->S6ADC = S6adc;
67 
68  entry->MEXTLindex = icMax;
69  entry->MEXTLeta = ietaMax;
70  entry->MEXTLphi = iphiMax;
71  entry->MEXTLenergy = ampl[24];
72  entry->beamEnergy = beamEnergy;
73 
74  for (int eta = 0; eta < 7; ++eta)
75  for (int phi = 0; phi < 7; ++phi) {
76  // FIXME capire l'orientamento di phi!
77  // FIXME capire se eta, phi iniziano da 1 o da 0
78  entry->localMap[eta][phi] = ampl[eta * 7 + phi];
79  }
80 
81  entry->xHodo = xhodo;
82  entry->yHodo = yhodo;
83  entry->xSlopeHodo = xslope;
84  entry->ySlopeHodo = yslope;
85  entry->xQualityHodo = xquality;
86  entry->yQualityHodo = yquality;
87 
88  entry->convFactor = 0.;
89 
90  /*
91  // loop over the 5x5 see (1)
92  for (int xtal=0 ; xtal<25 ; ++xtal)
93  {
94  int ieta = xtal/5 + 3 ;
95  int iphi = xtal%5 + 8 ;
96  entry->myCalibrationMap[ieta][iphi] = ampl[xtal] ;
97  } // loop over the 5x5
98 
99  entry->electron_Tr_Pmag_ = beamEnergy ;
100 
101  entry->centralCrystalEta_ = ietaMax ;
102  entry->centralCrystalPhi_ = iphiMax ;
103  entry->centralCrystalEnergy_ = ampl[12] ;
104 
105  // this is a trick
106  entry->electron_Tr_Peta_ = xhodo ;
107  entry->electron_Tr_Pphi_ = yhodo ;
108  */
109  m_tree->Fill();
110 }
111 
112 // -------------------------------------------------------------------
113 
114 void TB06Tree::reset(float crystal[11][21]) {
115  for (int eta = 0; eta < 11; ++eta) {
116  for (int phi = 0; phi < 21; ++phi) {
117  crystal[eta][phi] = -999.;
118  }
119  }
120 }
121 
122 // -------------------------------------------------------------------
123 
125  TB06Reco *entry = static_cast<TB06Reco *>(m_data->AddrAt(0));
126 
127  std::cout << "[TB06Tree][check]reading . . . \n";
128  std::cout << "[TB06Tree][check] entry->run: " << entry->run << "\n";
129  std::cout << "[TB06Tree][check] entry->event: " << entry->event << "\n";
130  std::cout << "[TB06Tree][check] entry->tableIsMoving: " << entry->tableIsMoving << "\n";
131  std::cout << "[TB06Tree][check] entry->MEXTLeta: " << entry->MEXTLeta << "\n";
132  std::cout << "[TB06Tree][check] entry->MEXTLphi: " << entry->MEXTLphi << "\n";
133  std::cout << "[TB06Tree][check] entry->MEXTLenergy: " << entry->MEXTLenergy << "\n";
134 
135  for (int eta = 0; eta < 7; ++eta)
136  for (int phi = 0; phi < 7; ++phi)
137  std::cout << "[TB06Tree][check] entry->localMap[" << eta << "][" << phi << "]: " << entry->localMap[eta][phi]
138  << "\n";
139 
140  std::cout << "[TB06Tree][check] entry->xHodo: " << entry->xHodo << "\n";
141  std::cout << "[TB06Tree][check] entry->yHodo: " << entry->yHodo << "\n";
142  std::cout << "[TB06Tree][check] entry->xSlopeHodo: " << entry->xSlopeHodo << "\n";
143  std::cout << "[TB06Tree][check] entry->ySlopeHodo: " << entry->ySlopeHodo << "\n";
144  std::cout << "[TB06Tree][check] entry->xQualityHodo: " << entry->xQualityHodo << "\n";
145  std::cout << "[TB06Tree][check] entry->yQualityHodo: " << entry->yQualityHodo << "\n";
146  std::cout << "[TB06Tree][check] entry->convFactor: " << entry->convFactor << "\n";
147 
148  /* to be implemented with the right variables
149  std::cout << "[TB06Tree][check] ------------------------" << std::endl ;
150  std::cout << "[TB06Tree][check] " << entry->variable_name << std::endl ;
151  */
152 }
153 
154 /* (1) to fill the 25 crystals vector
155 
156  for (UInt_t icry=0 ; icry<25 ; ++icry)
157  {
158  UInt_t row = icry / 5 ;
159  Int_t column = icry % 5 ;
160  try
161  {
162  EBDetId tempo (maxHitId.ieta()+column-2,
163  maxHitId.iphi()+row-2,
164  EBDetId::ETAPHIMODE) ;
165 
166  Xtals5x5.push_back (tempo) ;
167  amplitude [icry] = hits->find (Xtals5x5[icry])->energy () ;
168 
169  }
170  catch ( std::runtime_error &e )
171  {
172  std::cout << "Cannot construct 5x5 matrix around EBDetId "
173  << maxHitId << std::endl ;
174  return ;
175  }
176  } // loop over the 5x5 matrix
177 
178 
179 */
HLT_FULL_cff.Class
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Definition: HLT_FULL_cff.py:8427
mps_splice.entry
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Definition: mps_splice.py:68
gather_cfg.cout
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Definition: gather_cfg.py:144
TB06Tree::store
void store(const int &tableIsMoving, const int &run, const int &event, const int &S6adc, const double &xhodo, const double &yhodo, const double &xslope, const double &yslope, const double &xquality, const double &yquality, const int &icMax, const int &ietaMax, const int &iphiMax, const double &beamEnergy, const double ampl[49])
to be called at each loop
Definition: TB06Tree.cc:42
MillePedeFileConverter_cfg.fileName
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Definition: MillePedeFileConverter_cfg.py:32
TB06Tree::reset
void reset(float crystal[11][21])
Definition: TB06Tree.cc:114
TB06Analysis_cfi.beamEnergy
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Definition: TB06Analysis_cfi.py:13
TB06Tree::TB06Tree
TB06Tree(const std::string &fileName="TB06Tree.root", const std::string &treeName="Analysis")
ctor
Definition: TB06Tree.cc:8
TB06Tree.h
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Definition: PVValidationHelpers.h:70
AlCaHLTBitMon_QueryRunRegistry.string
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Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
TB06Tree::check
void check()
Definition: TB06Tree.cc:124
TB06Tree::m_tree
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Definition: TB06Tree.h:43
edmPickEvents.event
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Definition: edmPickEvents.py:273
TB06Reco
Definition: TB06Reco.h:10
TB06Tree::m_data
TClonesArray * m_data
Definition: TB06Tree.h:45
DDAxes::phi
writedatasetfile.run
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Definition: writedatasetfile.py:27
TB06Reco.h
TB06Tree::~TB06Tree
~TB06Tree()
dtor
Definition: TB06Tree.cc:28
TB06Tree::m_file
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Definition: TB06Tree.h:42
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Definition: event.py:1
DeadROC_duringRun.dir
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Definition: DeadROC_duringRun.py:23