Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G3toG4MANY.hh File Reference
#include <vector>
#include "G3VolTableEntry.hh"
#include "G4Transform3D.hh"

Go to the source code of this file.

Typedefs

typedef std::vector< G3VolTableEntry * > G3VolTableEntryVector
 

Functions

void G3toG4MANY (G3VolTableEntry *curVTE)
 
void MakeBooleanSolids (G3VolTableEntry *curVTE, G3VolTableEntryVector *overlaps, const G4Transform3D &transform)
 
void SubstractSolids (G3VolTableEntry *vte1, G3VolTableEntry *vte2, G4int copy, const G4Transform3D &transform)
 
G4Transform3D GetTransform3D (G3Pos *)
 

Typedef Documentation

◆ G3VolTableEntryVector

typedef std::vector<G3VolTableEntry*> G3VolTableEntryVector

Definition at line 68 of file G3toG4MANY.hh.

Function Documentation

◆ G3toG4MANY()

void G3toG4MANY ( G3VolTableEntry curVTE)

Definition at line 38 of file G3toG4MANY.cc.

39{
40 if (curVTE->GetNoOverlaps() > 0) {
41
42 // check consistency
43 if (!curVTE->HasMANY()) {
44 G4String text = "G3toG4MANY: volume ";
45 text = text + curVTE->GetName() + " has specified overlaps \n";
46 text = text + " but is not defined as MANY.";
47 G4Exception("G3toG4MANY()", "G3toG40009",
48 FatalException, text);
49 return;
50 }
51
52 // only MANY volumes with one position are supported
53 if (curVTE->NPCopies() != 1) {
54 G4String text = "G3toG4MANY: volume ";
55 text = text + curVTE->GetName() + " which has MANY has not just one position.";
56 G4Exception("G3toG4MANY()", "G3toG40010",
57 FatalException, text);
58 return;
59 }
60
61 #ifdef G3G4DEBUG
62 G4cout << "G3toG4MANY " << curVTE->GetName() << " boolean" << G4endl;
63 #endif
64
65 G4Transform3D transform = GetTransform3D(curVTE->GetG3PosCopy(0));
66
67 MakeBooleanSolids(curVTE, curVTE->GetOverlaps(), transform.inverse());
68 }
69
70 // process daughters
71 for (G4int i=0; i<curVTE->GetNoDaughters(); i++)
72 G3toG4MANY(curVTE->GetDaughter(i));
73}
void G3toG4MANY(G3VolTableEntry *curVTE)
Definition: G3toG4MANY.cc:38
G4Transform3D GetTransform3D(G3Pos *g3pos)
Definition: G3toG4MANY.cc:145
void MakeBooleanSolids(G3VolTableEntry *curVTE, G3VolTableEntryVector *overlaps, const G4Transform3D &transform)
Definition: G3toG4MANY.cc:75
@ FatalException
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
Definition: G4Exception.cc:35
int G4int
Definition: G4Types.hh:85
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
std::vector< G3VolTableEntry * > * GetOverlaps()
G3Pos * GetG3PosCopy(G4int copy=0)
G3VolTableEntry * GetDaughter(G4int i)
Transform3D inverse() const
Definition: Transform3D.cc:141

Referenced by G3toG4MANY().

◆ GetTransform3D()

G4Transform3D GetTransform3D ( G3Pos g3pos)

Definition at line 145 of file G3toG4MANY.cc.

146{
147 G4int irot = g3pos->GetIrot();
148 G4RotationMatrix* theMatrix = 0;
149 if (irot>0) theMatrix = G3Rot.Get(irot);
150
151 G4Rotate3D rotation;
152 if (theMatrix) {
153 rotation = G4Rotate3D(*theMatrix);
154 }
155
156 G4Translate3D translation(*(g3pos->GetPos()));
157 G4Transform3D transform3D = translation * (rotation.inverse());
158
159 return transform3D;
160}
G3G4DLL_API G3RotTable G3Rot
Definition: clparse.cc:56
HepGeom::Rotate3D G4Rotate3D
G4ThreeVector * GetPos()
Definition: G3Pos.cc:72
G4int GetIrot()
Definition: G3Pos.cc:62
G4RotationMatrix * Get(G4int id) const
Definition: G3RotTable.cc:43

Referenced by G3toG4MANY(), and SubstractSolids().

◆ MakeBooleanSolids()

void MakeBooleanSolids ( G3VolTableEntry curVTE,
G3VolTableEntryVector overlaps,
const G4Transform3D transform 
)

Definition at line 75 of file G3toG4MANY.cc.

77{
78 // loop over overlap VTEs
79 for (size_t i=0; i<overlaps->size(); i++){
80
81 G3VolTableEntry* overlapVTE = (*overlaps)[i];
82
83 // loop over clone VTEs
84 for (G4int ij=0; ij<overlapVTE->GetMasterClone()->GetNoClones(); ij++){
85
86 G3VolTableEntry* cloneVTE = overlapVTE->GetMasterClone()->GetClone(ij);
87
88 // loop over clone positions
89 for (G4int j=0; j<cloneVTE->NPCopies(); j++){
90
91 #ifdef G3G4DEBUG
92 G4cout << "From '" << curVTE->GetName() << "' "
93 << "cut '" << cloneVTE->GetName() << "' :"
94 << i << "th overlap (from " << overlaps->size() << ") "
95 << ij << "th clone (from " << overlapVTE->GetMasterClone()->GetNoClones() << ") "
96 << j << "th copy (from " << cloneVTE->NPCopies() << ") "
97 << G4endl;
98 #endif
99
100 SubstractSolids(curVTE, cloneVTE, j, transform);
101 }
102 }
103 }
104}
void SubstractSolids(G3VolTableEntry *vte1, G3VolTableEntry *vte2, G4int copy, const G4Transform3D &transform)
Definition: G3toG4MANY.cc:106
G3VolTableEntry * GetMasterClone()
G3VolTableEntry * GetClone(G4int i)

Referenced by G3toG4MANY().

◆ SubstractSolids()

void SubstractSolids ( G3VolTableEntry vte1,
G3VolTableEntry vte2,
G4int  copy,
const G4Transform3D transform 
)

Definition at line 106 of file G3toG4MANY.cc.

108{
109 // vte2 transformation
110 G4Transform3D transform2 = GetTransform3D(vte2->GetG3PosCopy(copy));
111
112 // compose new name
113 G4String newName = vte1->GetSolid()->GetName();
114 newName = newName + "-" + vte2->GetSolid()->GetName();
115
116 #ifdef G3G4DEBUG
117 G4cout << " " << newName << G4endl;
118 #endif
119
120 G4VSolid* newSolid
121 = new G4SubtractionSolid(newName, vte1->GetSolid(), vte2->GetSolid(),
122 transform*transform2);
123
124 // update vte1
125 vte1->SetSolid(newSolid);
126
127 // process daughters
128 for (G4int k=0; k<vte1->GetNoDaughters(); k++){
129
130 G3VolTableEntry* dVTE = vte1->GetDaughter(k);
131
132 if (dVTE->NPCopies() != 1) {
133 G4String text = "G3toG4MANY: volume ";
134 text = text + dVTE->GetName() + " which has MANY has not just one position.";
135 G4Exception("G3toG4MANY()", "G3toG40011",
136 FatalException, text);
137 return;
138 }
139
141 SubstractSolids(dVTE, vte2, copy, dt.inverse()*transform);
142 }
143}
G4VSolid * GetSolid()
void SetSolid(G4VSolid *solid)
G4String GetName() const

Referenced by MakeBooleanSolids(), and SubstractSolids().