Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4GDMLWriteDefine.cc
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25//
26// G4GDMLWriteDefine implementation
27//
28// Author: Zoltan Torzsok, November 2007
29// --------------------------------------------------------------------
30
31#include "G4GDMLWriteDefine.hh"
32#include "G4SystemOfUnits.hh"
33
37
38// --------------------------------------------------------------------
40 : G4GDMLWrite()
41{
42}
43
44// --------------------------------------------------------------------
46{
47}
48
49// --------------------------------------------------------------------
51{
52 G4double x, y, z;
53 G4RotationMatrix mat = mtx;
54 mat.rectify(); // Rectify matrix from possible roundoff errors
55
56 // Direction of rotation given by left-hand rule; clockwise rotation
57
58 static const G4double kMatrixPrecision = 10E-10;
59 const G4double cosb = std::sqrt(mtx.xx() * mtx.xx() + mtx.yx() * mtx.yx());
60
61 if(cosb > kMatrixPrecision)
62 {
63 x = std::atan2(mtx.zy(), mtx.zz());
64 y = std::atan2(-mtx.zx(), cosb);
65 z = std::atan2(mtx.yx(), mtx.xx());
66 }
67 else
68 {
69 x = std::atan2(-mtx.yz(), mtx.yy());
70 y = std::atan2(-mtx.zx(), cosb);
71 z = 0.0;
72 }
73
74 return G4ThreeVector(x, y, z);
75}
76
77// --------------------------------------------------------------------
78void G4GDMLWriteDefine::Scale_vectorWrite(xercesc::DOMElement* element,
79 const G4String& tag,
80 const G4String& name,
81 const G4ThreeVector& scl)
82{
83 const G4double x =
84 (std::fabs(scl.x() - 1.0) < kRelativePrecision) ? 1.0 : scl.x();
85 const G4double y =
86 (std::fabs(scl.y() - 1.0) < kRelativePrecision) ? 1.0 : scl.y();
87 const G4double z =
88 (std::fabs(scl.z() - 1.0) < kRelativePrecision) ? 1.0 : scl.z();
89
90 xercesc::DOMElement* scaleElement = NewElement(tag);
91 scaleElement->setAttributeNode(NewAttribute("name", name));
92 scaleElement->setAttributeNode(NewAttribute("x", x));
93 scaleElement->setAttributeNode(NewAttribute("y", y));
94 scaleElement->setAttributeNode(NewAttribute("z", z));
95 element->appendChild(scaleElement);
96}
97
98// --------------------------------------------------------------------
99void G4GDMLWriteDefine::Rotation_vectorWrite(xercesc::DOMElement* element,
100 const G4String& tag,
101 const G4String& name,
102 const G4ThreeVector& rot)
103{
104 const G4double x = (std::fabs(rot.x()) < kAngularPrecision) ? 0.0 : rot.x();
105 const G4double y = (std::fabs(rot.y()) < kAngularPrecision) ? 0.0 : rot.y();
106 const G4double z = (std::fabs(rot.z()) < kAngularPrecision) ? 0.0 : rot.z();
107
108 xercesc::DOMElement* rotationElement = NewElement(tag);
109 rotationElement->setAttributeNode(NewAttribute("name", name));
110 rotationElement->setAttributeNode(NewAttribute("x", x / degree));
111 rotationElement->setAttributeNode(NewAttribute("y", y / degree));
112 rotationElement->setAttributeNode(NewAttribute("z", z / degree));
113 rotationElement->setAttributeNode(NewAttribute("unit", "deg"));
114 element->appendChild(rotationElement);
115}
116
117// --------------------------------------------------------------------
118void G4GDMLWriteDefine::Position_vectorWrite(xercesc::DOMElement* element,
119 const G4String& tag,
120 const G4String& name,
121 const G4ThreeVector& pos)
122{
123 const G4double x = (std::fabs(pos.x()) < kLinearPrecision) ? 0.0 : pos.x();
124 const G4double y = (std::fabs(pos.y()) < kLinearPrecision) ? 0.0 : pos.y();
125 const G4double z = (std::fabs(pos.z()) < kLinearPrecision) ? 0.0 : pos.z();
126
127 xercesc::DOMElement* positionElement = NewElement(tag);
128 positionElement->setAttributeNode(NewAttribute("name", name));
129 positionElement->setAttributeNode(NewAttribute("x", x / mm));
130 positionElement->setAttributeNode(NewAttribute("y", y / mm));
131 positionElement->setAttributeNode(NewAttribute("z", z / mm));
132 positionElement->setAttributeNode(NewAttribute("unit", "mm"));
133 element->appendChild(positionElement);
134}
135
136// --------------------------------------------------------------------
137void G4GDMLWriteDefine::DefineWrite(xercesc::DOMElement* element)
138{
139#ifdef G4VERBOSE
140 G4cout << "G4GDML: Writing definitions..." << G4endl;
141#endif
142 defineElement = NewElement("define");
143 element->appendChild(defineElement);
144}
CLHEP::Hep3Vector G4ThreeVector
double G4double
Definition: G4Types.hh:83
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
double z() const
double x() const
double y() const
double zz() const
double yz() const
double zx() const
double yx() const
double zy() const
double xx() const
double yy() const
virtual void DefineWrite(xercesc::DOMElement *)
void Scale_vectorWrite(xercesc::DOMElement *, const G4String &, const G4String &, const G4ThreeVector &)
xercesc::DOMElement * defineElement
void Position_vectorWrite(xercesc::DOMElement *, const G4String &, const G4String &, const G4ThreeVector &)
void Rotation_vectorWrite(xercesc::DOMElement *, const G4String &, const G4String &, const G4ThreeVector &)
static const G4double kLinearPrecision
static const G4double kAngularPrecision
virtual ~G4GDMLWriteDefine()
G4ThreeVector GetAngles(const G4RotationMatrix &)
static const G4double kRelativePrecision
xercesc::DOMElement * NewElement(const G4String &)
Definition: G4GDMLWrite.cc:192
xercesc::DOMAttr * NewAttribute(const G4String &, const G4String &)
Definition: G4GDMLWrite.cc:155
Definition: xmlparse.c:284
#define DBL_EPSILON
Definition: templates.hh:66