Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4tgrSolid.cc
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1//
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25//
26// G4tgrSolid implementation
27//
28// Author: P.Arce, CIEMAT (November 2007)
29// --------------------------------------------------------------------
30
31#include <map>
32#include <set>
33
34#include "G4tgrSolid.hh"
35
36#include "G4SystemOfUnits.hh"
37#include "G4tgrUtils.hh"
38#include "G4tgrMessenger.hh"
39#include "G4tgrVolumeMgr.hh"
40
41// --------------------------------------------------------------------
43{
44}
45
46// --------------------------------------------------------------------
48{
49}
50
51// --------------------------------------------------------------------
52G4tgrSolid::G4tgrSolid(const std::vector<G4String>& wl)
53{
54 //---------- set name
56
57 //---------- set solid type
59
60 //---------- create only vector<double> of theSolidParams
61 FillSolidParams(wl);
62
64
65#ifdef G4VERBOSE
67 {
68 G4cout << " Created " << *this << G4endl;
69 }
70#endif
71}
72
73// --------------------------------------------------------------------
74const std::vector<std::vector<G4double>*> G4tgrSolid::GetSolidParams() const
75{
76 return theSolidParams;
77}
78
79// --------------------------------------------------------------------
81{
82 return theName; // Dummy ...
83}
84
85// --------------------------------------------------------------------
87{
88 return G4ThreeVector(0, 0, 0); // Dummy...
89}
90
91// --------------------------------------------------------------------
92void G4tgrSolid::FillSolidParams(const std::vector<G4String>& wl)
93{
94 //---- Setting which are angle parameters (for dimensions...)
95 std::map<G4String, std::set<G4int>> angleParams;
96 std::set<G4int> apar;
97 apar.clear();
98 apar.insert(3);
99 apar.insert(4);
100 angleParams["TUBS"] = apar;
101 apar.clear();
102 apar.insert(5);
103 apar.insert(6);
104 angleParams["CONS"] = apar;
105 apar.clear();
106 apar.insert(3);
107 apar.insert(4);
108 apar.insert(5);
109 angleParams["PARA"] = apar;
110 apar.clear();
111 apar.insert(1);
112 apar.insert(2);
113 apar.insert(6);
114 apar.insert(10);
115 angleParams["TRAP"] = apar;
116 apar.clear();
117 apar.insert(2);
118 apar.insert(3);
119 apar.insert(4);
120 apar.insert(5);
121 angleParams["SPHERE"] = apar;
122 apar.clear();
123 apar.insert(3);
124 apar.insert(4);
125 angleParams["TORUS"] = apar;
126 apar.clear();
127 apar.insert(0);
128 apar.insert(1);
129 angleParams["POLYCONE"] = apar;
130 apar.clear();
131 apar.insert(0);
132 apar.insert(1);
133 angleParams["POLYHEDRA"] = apar;
134 apar.clear();
135 apar.insert(2);
136 apar.insert(3);
137 angleParams["HYPE"] = apar;
138 apar.clear();
139 apar.insert(0);
140 angleParams["TWISTED_BOX"] = apar;
141 apar.clear();
142 apar.insert(0);
143 apar.insert(2);
144 apar.insert(3);
145 apar.insert(10);
146 angleParams["TWISTED_TRAP"] = apar;
147 apar.clear();
148 apar.insert(5);
149 angleParams["TWISTED_TRD"] = apar;
150 apar.clear();
151 apar.insert(0);
152 apar.insert(4);
153 angleParams["TWISTED_TUBS"] = apar;
154
155 std::vector<G4double>* vd = new std::vector<G4double>;
156 theSolidParams.push_back(vd);
157 std::size_t noParRead = wl.size() - 3;
158
159 G4String solidType = wl[2];
160 //--- Default unit (mm) if length, deg if angle
161 for(std::size_t ii = 0; ii < noParRead; ++ii)
162 {
163 G4bool isAngle = 0;
164 std::map<G4String, std::set<G4int>>::const_iterator ite =
165 angleParams.find(solidType);
166 if(ite != angleParams.cend())
167 {
168 std::set<G4int> apar2 = (*ite).second;
169 if(apar2.find(ii) != apar2.cend())
170 {
171 isAngle = 1;
172 vd->push_back(G4tgrUtils::GetDouble(wl[3 + ii], deg));
173#ifdef G4VERBOSE
175 {
176 G4cout << " G4tgrSolid::FillSolidParams() - Angle param found "
177 << solidType << " " << ii << G4endl;
178 }
179#endif
180 }
181 }
182 if(!isAngle)
183 {
184 vd->push_back(G4tgrUtils::GetDouble(wl[3 + ii]));
185 }
186 }
187}
188
189// --------------------------------------------------------------------
190std::ostream& operator<<(std::ostream& os, const G4tgrSolid& sol)
191{
192 os << "G4tgrSolid= " << sol.theName << " of type " << sol.theType
193 << " PARAMS: ";
194 if(sol.theSolidParams.size() != 0)
195 {
196 std::vector<G4double> solpar = *(sol.theSolidParams[0]);
197 for(std::size_t ii = 0; ii < solpar.size(); ++ii)
198 {
199 os << solpar[ii] << " ";
200 }
201 }
202 os << G4endl;
203
204 return os;
205}
CLHEP::Hep3Vector G4ThreeVector
bool G4bool
Definition: G4Types.hh:86
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
std::ostream & operator<<(std::ostream &os, const G4tgrSolid &sol)
Definition: G4tgrSolid.cc:190
static G4int GetVerboseLevel()
virtual ~G4tgrSolid()
Definition: G4tgrSolid.cc:47
G4String theType
Definition: G4tgrSolid.hh:68
virtual const G4String & GetRelativeRotMatName() const
Definition: G4tgrSolid.cc:80
virtual G4ThreeVector GetRelativePlace() const
Definition: G4tgrSolid.cc:86
G4String theName
Definition: G4tgrSolid.hh:66
const std::vector< std::vector< G4double > * > GetSolidParams() const
Definition: G4tgrSolid.cc:74
std::vector< std::vector< G4double > * > theSolidParams
Definition: G4tgrSolid.hh:70
static G4String GetString(const G4String &str)
Definition: G4tgrUtils.cc:173
static G4double GetDouble(const G4String &str, G4double unitval=1.)
Definition: G4tgrUtils.cc:198
void RegisterMe(G4tgrSolid *vol)
static G4tgrVolumeMgr * GetInstance()