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25 // 25 //
26 // G4tgbVolumeMgr << 26 //
>> 27 // $Id: G4tgbVolumeMgr.hh 66872 2013-01-15 01:25:57Z japost $
>> 28 //
>> 29 //
>> 30 // class G4tgbVolume
27 // 31 //
28 // Class description: 32 // Class description:
29 // 33 //
30 // Class to manage volumes: G4VSolids, G4Logic 34 // Class to manage volumes: G4VSolids, G4LogicalVolumes, G4VPhysicalVolumes.
31 // It is a singleton, accesed always through c 35 // It is a singleton, accesed always through calls to GetInstance().
32 36
33 // Author: P.Arce, CIEMAT (November 2007) << 37 // History:
34 // ------------------------------------------- << 38 // - Created. P.Arce, CIEMAT (November 2007)
35 #ifndef G4tgbVolumeMgr_hh << 39 // -------------------------------------------------------------------------
36 #define G4tgbVolumeMgr_hh 1 << 40
>> 41 #ifndef G4tgbVolumeMgr_h
>> 42 #define G4tgbVolumeMgr_h
37 43
38 #include "globals.hh" 44 #include "globals.hh"
39 45
40 #include <string> 46 #include <string>
41 #include <vector> 47 #include <vector>
42 #include <map> 48 #include <map>
43 49
44 #include "G4VSolid.hh" 50 #include "G4VSolid.hh"
45 #include "G4LogicalVolume.hh" 51 #include "G4LogicalVolume.hh"
46 #include "G4VPhysicalVolume.hh" 52 #include "G4VPhysicalVolume.hh"
47 53
48 class G4tgbVolume; 54 class G4tgbVolume;
49 class G4tgrVolume; 55 class G4tgrVolume;
50 class G4tgbDetectorBuilder; 56 class G4tgbDetectorBuilder;
51 57
52 using G4mssvol = std::map<G4String, G4tgbVolum << 58 typedef std::map< G4String, G4tgbVolume* > G4mssvol;
53 using G4mmssol = std::multimap<G4String, G4VSo << 59 typedef std::multimap< G4String, G4VSolid* > G4mmssol;
54 using G4mmslv = std::multimap<G4String, G4Logi << 60 typedef std::multimap< G4String, G4LogicalVolume* > G4mmslv;
55 using G4mmspv = std::multimap<G4String, G4VPhy << 61 typedef std::multimap< G4String, G4VPhysicalVolume* > G4mmspv;
56 using G4mlvlv = std::map<G4LogicalVolume*, G4L << 62 typedef std::map< G4LogicalVolume*, G4LogicalVolume* > G4mlvlv;
57 using G4mpvpv = std::map<G4VPhysicalVolume*, G << 63 typedef std::map< G4VPhysicalVolume*, G4VPhysicalVolume* > G4mpvpv;
58 << 64
59 class G4tgbVolumeMgr << 65 //----------------------------------------------------------------------------
60 { << 66 class G4tgbVolumeMgr
61 public: << 67 {
>> 68 public: // with description
62 69
63 G4tgbVolumeMgr(); 70 G4tgbVolumeMgr();
64 ~G4tgbVolumeMgr(); << 71 ~G4tgbVolumeMgr();
65 72
66 static G4tgbVolumeMgr* GetInstance(); << 73 static G4tgbVolumeMgr* GetInstance();
67 // Get the only instance << 74 // Get the only instance
68 75
69 void AddTextFile(const G4String& fname); << 76 void AddTextFile( const G4String& fname );
70 G4VPhysicalVolume* ReadAndConstructDetecto 77 G4VPhysicalVolume* ReadAndConstructDetector();
71 78
72 void CopyVolumes(); 79 void CopyVolumes();
73 // Build a G4tgbVolume per each G4tgbVol 80 // Build a G4tgbVolume per each G4tgbVolume
74 81
75 G4tgbVolume* FindVolume(const G4String& vo << 82 G4tgbVolume* FindVolume( const G4String& volname);
76 // Find a G4tgbVolume by name 83 // Find a G4tgbVolume by name
77 84
78 void RegisterMe(const G4tgbVolume* vol); << 85 void RegisterMe( const G4tgbVolume* vol );
79 // Register a G4tgbVolume 86 // Register a G4tgbVolume
80 void RegisterMe(const G4VSolid* solid); << 87 void RegisterMe( const G4VSolid* solid );
81 // Register a G4VSolid 88 // Register a G4VSolid
82 void RegisterMe(const G4LogicalVolume* lv) << 89 void RegisterMe( const G4LogicalVolume* lv );
83 // Register a G4LogicalVolume 90 // Register a G4LogicalVolume
84 void RegisterMe(const G4VPhysicalVolume* p << 91 void RegisterMe( const G4VPhysicalVolume* pv );
85 // Register a G4VPhysicalVolume 92 // Register a G4VPhysicalVolume
86 void RegisterChildParentLVs(const G4Logica << 93 void RegisterChildParentLVs( const G4LogicalVolume* logvol,
87 const G4Logica << 94 const G4LogicalVolume* parentLV );
88 // Register a child and its parent LV 95 // Register a child and its parent LV
89 96
90 G4VSolid* FindG4Solid(const G4String& name << 97 G4VSolid* FindG4Solid( const G4String& name );
91 // Find if solid already exists, compari << 98 // Find if solid already exists, comparing the name and all parameters
92 // (could be checked before creating it, 99 // (could be checked before creating it, but it would be quite
93 // complicated, because it would have to 100 // complicated, because it would have to compare the parameters, and
94 // they depend on the type of solid) 101 // they depend on the type of solid)
95 102
96 G4LogicalVolume* FindG4LogVol(const G4Stri << 103 G4LogicalVolume* FindG4LogVol( const G4String& theName,
97 const G4bool << 104 const G4bool bExists = 0 );
98 // Find a G4LogicalVolume if it already 105 // Find a G4LogicalVolume if it already exists
99 106
100 G4VPhysicalVolume* FindG4PhysVol(const G4S << 107 G4VPhysicalVolume* FindG4PhysVol( const G4String& theName,
101 const G4b << 108 const G4bool bExists = 0 );
102 // Find a G4VPhysicalVolume if it alread 109 // Find a G4VPhysicalVolume if it already exists
103 110
104 G4VPhysicalVolume* GetTopPhysVol(); 111 G4VPhysicalVolume* GetTopPhysVol();
105 // Get the top PV in the hierarchy tree: 112 // Get the top PV in the hierarchy tree: calls topLV, because
106 // physicalvolumes are not placed until 113 // physicalvolumes are not placed until geometry is initialized
107 114
108 G4LogicalVolume* GetTopLogVol(); 115 G4LogicalVolume* GetTopLogVol();
109 // Get the top LV in the hierarchy tree 116 // Get the top LV in the hierarchy tree
110 117
111 void BuildPhysVolTree(); 118 void BuildPhysVolTree();
112 119
113 // Dumping methods 120 // Dumping methods
114 121
115 void DumpSummary(); 122 void DumpSummary();
116 void DumpG4LogVolTree(); 123 void DumpG4LogVolTree();
117 void DumpG4LogVolLeaf(const G4LogicalVolum 124 void DumpG4LogVolLeaf(const G4LogicalVolume* lv, unsigned int leafDepth);
118 void DumpG4PhysVolTree(); 125 void DumpG4PhysVolTree();
119 void DumpG4PhysVolLeaf(const G4VPhysicalVo 126 void DumpG4PhysVolLeaf(const G4VPhysicalVolume* pv, unsigned int leafDepth);
120 void DumpG4SolidList(); 127 void DumpG4SolidList();
121 128
122 const std::multimap<G4String, G4VSolid*>& << 129 public: // without description
123 { << 130
124 return theSolids; << 131 const std::multimap< G4String, G4VSolid* >& GetSolids() const
125 } << 132 { return theSolids; }
126 void SetDetectorBuilder(G4tgbDetectorBuild << 133 void SetDetectorBuilder( G4tgbDetectorBuilder* db )
127 { << 134 { theDetectorBuilder = db; }
128 theDetectorBuilder = db; <<
129 } <<
130 G4tgbDetectorBuilder* GetDetectorBuilder() 135 G4tgbDetectorBuilder* GetDetectorBuilder() const
131 { << 136 { return theDetectorBuilder; }
132 return theDetectorBuilder; <<
133 } <<
134 137
135 private: 138 private:
136 139
137 static G4ThreadLocal G4tgbVolumeMgr* theIn 140 static G4ThreadLocal G4tgbVolumeMgr* theInstance;
138 141
139 G4mssvol theVolumeList; 142 G4mssvol theVolumeList;
140 // Map of G4tgbVolume's: G4String is the 143 // Map of G4tgbVolume's: G4String is the G4tgbVolume name,
141 // G4tgbVolume* the pointer to it. 144 // G4tgbVolume* the pointer to it.
142 145
143 G4mmssol theSolids; 146 G4mmssol theSolids;
144 // Solids container 147 // Solids container
145 148
146 G4mmslv theLVs; 149 G4mmslv theLVs;
147 // Logical volume container 150 // Logical volume container
148 G4mmspv thePVs; 151 G4mmspv thePVs;
149 // Physical volume container 152 // Physical volume container
150 153
151 G4mlvlv theLVTree; 154 G4mlvlv theLVTree;
152 // Logical volume tree for navigation (f 155 // Logical volume tree for navigation (from parent to children):
153 // first is parent, then child 156 // first is parent, then child
154 G4mlvlv theLVInvTree; 157 G4mlvlv theLVInvTree;
155 // Logical volume tree for inverse navig 158 // Logical volume tree for inverse navigation (from children to parent):
156 // first is child, then parent 159 // first is child, then parent
157 160
158 G4mpvpv thePVTree; 161 G4mpvpv thePVTree;
159 // Physical volume tree for navigation ( 162 // Physical volume tree for navigation (from parent to children):
160 // first is parent, then child 163 // first is parent, then child
161 G4mpvpv thePVInvTree; 164 G4mpvpv thePVInvTree;
162 // Physical volume tree for inverse navi 165 // Physical volume tree for inverse navigation (from children to parents):
163 // first is child, then parent 166 // first is child, then parent
164 167
165 G4tgbDetectorBuilder* theDetectorBuilder = << 168 G4tgbDetectorBuilder* theDetectorBuilder;
166 }; 169 };
167 170
168 #endif 171 #endif
169 172