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PHG4ForwardEcalDetector.h
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1 // Tell emacs that this is a C++ source
2 // -*- C++ -*-.
3 #ifndef G4DETECTORS_PHG4FORWARDECALDETECTOR_H
4 #define G4DETECTORS_PHG4FORWARDECALDETECTOR_H
5 
6 #include <g4main/PHG4Detector.h>
7 
8 #include <Geant4/G4Material.hh>
9 #include <Geant4/G4SystemOfUnits.hh>
10 
11 #include <cassert>
12 #include <map>
13 #include <set>
14 #include <string>
15 #include <utility> // for pair, make_pair
16 
17 class G4LogicalVolume;
18 class G4VPhysicalVolume;
19 class PHCompositeNode;
21 class PHG4Subsystem;
22 class PHG4GDMLConfig;
23 class PHParameters;
24 
32 {
33  public:
35  PHG4ForwardEcalDetector(PHG4Subsystem *subsys, PHCompositeNode *Node, PHParameters *parameters, const std::string &dnam);
36 
39 
41  virtual void ConstructMe(G4LogicalVolume *world);
42 
45 
46  void SetTowerDimensions(double dx, double dy, double dz, int type);
47 
48  void DoFullLightProp(bool doProp) { m_doLightProp = doProp; }
49 
50  void SetPlace(double place_in_x, double place_in_y, double place_in_z)
51  {
52  m_PlaceX = place_in_x;
53  m_PlaceY = place_in_y;
54  m_PlaceZ = place_in_z;
55  }
56  void SetPlaceX(double place_x) { m_PlaceX = place_x; }
57  void SetPlaceY(double place_y) { m_PlaceY = place_y; }
58  void SetPlaceZ(double place_z) { m_PlaceZ = place_z; }
59 
60  double GetPlaceX() const { return m_PlaceX; }
61  double GetPlaceY() const { return m_PlaceY; }
62  double GetPlaceZ() const { return m_PlaceZ; }
63 
64  void SetXRot(double rot_in_x) { m_XRot = rot_in_x; }
65  void SetYRot(double rot_in_y) { m_YRot = rot_in_y; }
66  void SetZRot(double rot_in_z) { m_ZRot = rot_in_z; }
67 
68  double GetXRot() const { return m_XRot; }
69  double GetYRot() const { return m_YRot; }
70  double GetZRot() const { return m_ZRot; }
71 
72  double GetRMin(int i) const
73  {
74  assert(i >= 0 && i <= 1);
75  return m_RMin[i];
76  }
77  double GetRMax(int i) const
78  {
79  assert(i >= 0 && i <= 1);
80  return m_RMax[i];
81  }
82 
83  void SetRMin(int i, double val)
84  {
85  assert(i >= 0 && i <= 1);
86  m_RMin[i] = val;
87  }
88  void SetRMax(int i, double val)
89  {
90  assert(i >= 0 && i <= 1);
91  m_RMax[i] = val;
92  }
93 
94  double GetdZ() const { return m_dZ; }
95 
96  void SetdZ(double val) { m_dZ = val; }
97 
98  void SuperDetector(const std::string &name) { m_SuperDetector = name; }
99  const std::string SuperDetector() const { return m_SuperDetector; }
100 
101  int get_Layer() const { return m_Layer; }
102  int get_TowerType() const { return m_TowerType; }
103 
105 
106  private:
107  G4LogicalVolume *ConstructTower(int type);
110  int PlaceTower(G4LogicalVolume *envelope, G4LogicalVolume *tower[6]);
115  void SurfaceTable(G4LogicalVolume *vol);
117  {
118  double x;
119  double y;
120  double z;
121  int type;
122  int idx_j;
123  int idx_k;
124  };
125 
127  PHParameters *m_Params = nullptr;
130 
131  /* ECAL tower geometry */
132  double m_TowerDx[7];
133  double m_TowerDy[7];
134  double m_TowerDz[7];
135 
136  double m_XRot = 0.;
137  double m_YRot = 0.;
138  double m_ZRot = 0.;
139 
140  double m_PlaceX = 0.0 * mm;
141  double m_PlaceY = 0.0 * mm;
142  double m_PlaceZ = 3150.0 * mm;
143 
144  double m_RMin[2];
145  double m_RMax[2];
146 
147  double m_dZ = 170 * mm;
148 
149  int m_ActiveFlag = 0;
151  int m_Layer = 0;
152  int m_TowerType = 0;
153 
154  std::string m_SuperDetector = "NONE";
155  std::string m_TowerLogicNamePrefix = "hEcalTower";
156 
157  std::map<std::string, towerposition> m_TowerPositionMap;
158  std::map<std::string, double> m_GlobalParameterMap;
159 
160  std::set<G4LogicalVolume *> m_AbsorberLogicalVolSet;
161  std::set<G4LogicalVolume *> m_ScintiLogicalVolSet;
162 
163  protected:
164  const std::string TowerLogicNamePrefix() const { return m_TowerLogicNamePrefix; }
165  PHParameters *GetParams() const { return m_Params; }
167  {
168  m_AbsorberLogicalVolSet.insert(logvol);
169  }
171  {
172  m_ScintiLogicalVolSet.insert(logvol);
173  }
174  std::map<std::string, double>::const_iterator FindIter(const std::string &name) { return m_GlobalParameterMap.find(name); }
175  std::map<std::string, double>::const_iterator EndIter() { return m_GlobalParameterMap.end(); }
176  void InsertParam(const std::string &parname, double parval) { m_GlobalParameterMap.insert(make_pair(parname, parval)); }
177 
179 };
180 
181 #endif