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HistoManager.cc
Go to the documentation of this file. Or view the newest version in sPHENIX GitHub for file HistoManager.cc
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29 //
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32 
33 #include "HistoManager.hh"
34 #include "G4UnitsTable.hh"
35 
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37 
38 HistoManager::HistoManager()
39  : fFileName("rdecay02")
40 {
41  Book();
42 }
43 
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45 
46 HistoManager::~HistoManager()
47 {
48  delete G4AnalysisManager::Instance();
49 }
50 
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52 
53 void HistoManager::Book()
54 {
55  // Create or get analysis manager
56  // The choice of analysis technology is done via selection of a namespace
57  // in HistoManager.hh
58  //
59  G4AnalysisManager* analysis = G4AnalysisManager::Instance();
60 
61  analysis->SetFileName(fFileName);
62  analysis->SetVerboseLevel(1);
63  analysis->SetActivation(true); //enable inactivation of histos, nTuples
64 
65  // Default values (to be reset via /analysis/h1/set command)
66  G4int nbins = 100;
67  G4double vmin = 0.;
68  G4double vmax = 100.;
69 
70  // Create all histograms as inactivated
71  // as we have not yet set nbins, vmin, vmax
72  //
75 
76  G4int id = analysis->CreateH1("H10","Energy deposit (MeV) in the target",
77  nbins, vmin, vmax);
78  analysis->SetH1Activation(id, false);
79 
80  id = analysis->CreateH1("H11","Energy deposit (MeV) in the detector",
81  nbins, vmin, vmax);
82  analysis->SetH1Activation(id, false);
83 
84  id = analysis->CreateH1("H12","Total energy (MeV) in target and detector",
85  nbins, vmin, vmax);
86  analysis->SetH1Activation(id, false);
87 
88  id = analysis->CreateH1("H13",
89  "Coincidence spectrum (MeV) between the target and detector",
90  nbins, vmin, vmax);
91  analysis->SetH1Activation(id, false);
92 
93  id = analysis->CreateH1("H14",
94  "Anti-coincidence spectrum (MeV) in the traget",
95  nbins, vmin, vmax);
96  analysis->SetH1Activation(id, false);
97 
98  id = analysis->CreateH1("H15",
99  "Anti-coincidence spectrum (MeV) in the detector",
100  nbins, vmin, vmax);
101  analysis->SetH1Activation(id, false);
102 
103  id = analysis->CreateH1("H16","Decay emission spectrum (0 - 10 MeV)",
104  nbins, vmin, vmax);
105  analysis->SetH1Activation(id, false);
106 
107  id = analysis->CreateH1("H17","Decay emission spectrum (0 - 1 MeV)",
108  nbins, vmin, vmax);
109  analysis->SetH1Activation(id, false);
110 
111  id = analysis->CreateH1("H18","Decay emission spectrum (0 - 0.1 MeV)",
112  nbins, vmin, vmax);
113  analysis->SetH1Activation(id, false);
114 
115  // nTuples
116  //
119  //
120  analysis->CreateNtuple("T1", "Emitted Particles");
121  analysis->CreateNtupleDColumn("PID"); //column 0
122  analysis->CreateNtupleDColumn("Energy"); //column 1
123  analysis->CreateNtupleDColumn("Time"); //column 2
124  analysis->CreateNtupleDColumn("Weight"); //column 3
125  analysis->FinishNtuple();
126 
127  analysis->CreateNtuple("T2", "RadioIsotopes");
128  analysis->CreateNtupleDColumn("PID"); //column 0
129  analysis->CreateNtupleDColumn("Time"); //column 1
130  analysis->CreateNtupleDColumn("Weight"); //column 2
131  analysis->FinishNtuple();
132 
133  analysis->CreateNtuple("T3", "Energy depositions");
134  analysis->CreateNtupleDColumn("Energy"); //column 0
135  analysis->CreateNtupleDColumn("Time"); //column 1
136  analysis->CreateNtupleDColumn("Weight"); //column 2
137  analysis->FinishNtuple();
138 
139  analysis->CreateNtuple("RDecayProducts", "All Products of RDecay");
140  analysis->CreateNtupleDColumn("PID"); //column 0
141  analysis->CreateNtupleDColumn("Z"); //column 1
142  analysis->CreateNtupleDColumn("A"); //column 2
143  analysis->CreateNtupleDColumn("Energy"); //column 3
144  analysis->CreateNtupleDColumn("Time"); //column 4
145  analysis->CreateNtupleDColumn("Weight"); //column 5
146  analysis->FinishNtuple();
147 
148  analysis->SetNtupleActivation(false);
149 }
150 
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