Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4ParameterisationPara.cc
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25//
26// class G4ParameterisationPara[X,Y,Z] implementation
27//
28// 26.05.03 - P.Arce, Initial version
29// 08.04.04 - I.Hrivnacova, Implemented reflection
30// 21.04.10 - M.Asai, Added gaps
31// --------------------------------------------------------------------
32
34
35#include <iomanip>
36
38#include "G4ThreeVector.hh"
39#include "G4Transform3D.hh"
40#include "G4RotationMatrix.hh"
41#include "G4VPhysicalVolume.hh"
42#include "G4ReflectedSolid.hh"
43#include "G4Para.hh"
44
45//--------------------------------------------------------------------------
48 G4double offset, G4VSolid* msolid,
49 DivisionType divType )
50 : G4VDivisionParameterisation( axis, nDiv, width, offset, divType, msolid )
51{
52 G4Para* msol = (G4Para*)(msolid);
53 if (msolid->GetEntityType() == "G4ReflectedSolid")
54 {
55 // Get constituent solid
56 G4VSolid* mConstituentSolid
57 = ((G4ReflectedSolid*)msolid)->GetConstituentMovedSolid();
58 msol = (G4Para*)(mConstituentSolid);
59 fmotherSolid = msol;
60
61 // Create a new solid with inversed parameters
62 G4Para* newSolid
63 = new G4Para(msol->GetName(),
64 msol->GetXHalfLength(),
65 msol->GetYHalfLength(),
66 msol->GetZHalfLength(),
67 std::atan(msol->GetTanAlpha()),
68 pi - msol->GetSymAxis().theta(),
69 msol->GetSymAxis().phi());
70
71 msol = newSolid;
72 fmotherSolid = newSolid;
73 fReflectedSolid = true;
74 fDeleteSolid = true;
75 }
76}
77
78//------------------------------------------------------------------------
80{
81}
82
83//------------------------------------------------------------------------
86 G4double width, G4double offset,
87 G4VSolid* msolid, DivisionType divType )
88 : G4VParameterisationPara( axis, nDiv, width, offset, msolid, divType )
89{
91 SetType( "DivisionParaX" );
92
93 G4Para* mpara = (G4Para*)(fmotherSolid);
94 if( divType == DivWIDTH )
95 {
96 fnDiv = CalculateNDiv( 2*mpara->GetXHalfLength(), width, offset );
97 }
98 else if( divType == DivNDIV )
99 {
100 fwidth = CalculateWidth( 2*mpara->GetXHalfLength(), nDiv, offset );
101 }
102
103#ifdef G4DIVDEBUG
104 if( verbose >= 1 )
105 {
106 G4cout << " G4ParameterisationParaX - # divisions " << fnDiv
107 << " = " << nDiv << G4endl
108 << " Offset " << foffset << " = " << offset << G4endl
109 << " Width " << fwidth << " = " << width << G4endl;
110 }
111#endif
112}
113
114//------------------------------------------------------------------------
116{
117 G4Para* msol = (G4Para*)(fmotherSolid);
118 return 2*msol->GetXHalfLength();
119}
120
121//------------------------------------------------------------------------
123{
124}
125
126//------------------------------------------------------------------------
127void
129ComputeTransformation( const G4int copyNo, G4VPhysicalVolume *physVol ) const
130{
131 G4Para* msol = (G4Para*)(fmotherSolid );
132 G4double mdx = msol->GetXHalfLength( );
133
134 //----- translation
135 G4ThreeVector origin(0.,0.,0.);
136 G4double posi = -mdx + foffset+(copyNo+0.5)*fwidth;
137 origin.setX( posi );
138
139#ifdef G4DIVDEBUG
140 if( verbose >= 2 )
141 {
142 G4cout << std::setprecision(8) << " G4ParameterisationParaX "
143 << copyNo << G4endl
144 << " Position: " << origin << " - Axis: " << faxis << G4endl;
145 }
146#endif
147
148 //----- set translation
149 physVol->SetTranslation( origin );
150}
151
152//--------------------------------------------------------------------------
153void
155ComputeDimensions(G4Para& para, const G4int,
156 const G4VPhysicalVolume*) const
157{
158 //---- The division along X of a Para will result a Para
159 G4Para* msol = (G4Para*)(fmotherSolid);
160
161 //---- Get
162 G4double pDx = fwidth/2. - fhgap;
163 G4double pDy = msol->GetYHalfLength();
164 G4double pDz = msol->GetZHalfLength();
165 G4double pAlpha = std::atan(msol->GetTanAlpha());
166 G4double pTheta = msol->GetSymAxis().theta();
167 G4double pPhi = msol->GetSymAxis().phi();
168
169 para.SetAllParameters ( pDx, pDy, pDz, pAlpha, pTheta, pPhi );
170
171#ifdef G4DIVDEBUG
172 if( verbose >= 1 )
173 {
174 G4cout << " G4ParameterisationParaX::ComputeDimensions()"
175 << " - Mother PARA " << G4endl;
176 msol->DumpInfo();
177 G4cout << " - Parameterised PARA: " << G4endl;
178 para.DumpInfo();
179 }
180#endif
181}
182
183//------------------------------------------------------------------------
186 G4double width, G4double offset,
187 G4VSolid* msolid, DivisionType divType )
188 : G4VParameterisationPara( axis, nDiv, width, offset, msolid, divType )
189{
191 SetType( "DivisionParaY" );
192
193 G4Para* mpara = (G4Para*)(fmotherSolid);
194 if( divType == DivWIDTH )
195 {
196 fnDiv = CalculateNDiv( 2*mpara->GetYHalfLength(), width, offset );
197 }
198 else if( divType == DivNDIV )
199 {
200 fwidth = CalculateWidth( 2*mpara->GetYHalfLength(), nDiv, offset );
201 }
202
203#ifdef G4DIVDEBUG
204 if( verbose >= 1 )
205 {
206 G4cout << " G4ParameterisationParaY - # divisions " << fnDiv
207 << " = " << nDiv << G4endl
208 << " Offset " << foffset << " = " << offset << G4endl
209 << " Width " << fwidth << " = " << width << G4endl;
210 }
211#endif
212}
213
214//------------------------------------------------------------------------
216{
217}
218
219//------------------------------------------------------------------------
221{
222 G4Para* msol = (G4Para*)(fmotherSolid);
223 return 2*msol->GetYHalfLength();
224}
225
226//------------------------------------------------------------------------
227void
229ComputeTransformation( const G4int copyNo, G4VPhysicalVolume *physVol ) const
230{
231 G4Para* msol = (G4Para*)(fmotherSolid );
232 G4double mdy = msol->GetYHalfLength( );
233
234 //----- translation
235 G4ThreeVector origin(0.,0.,0.);
236 G4double posiY = -mdy + foffset+(copyNo+0.5)*fwidth;
237 origin.setY( posiY );
238 G4double posiX = posiY * msol->GetTanAlpha();
239 origin.setX( posiX );
240
241#ifdef G4DIVDEBUG
242 if( verbose >= 2 )
243 {
244 G4cout << std::setprecision(8) << " G4ParameterisationParaY "
245 << copyNo << G4endl
246 << " Position: " << origin << " - Axis: " << faxis << G4endl;
247 }
248#endif
249
250 //----- set translation
251 physVol->SetTranslation( origin );
252}
253
254//--------------------------------------------------------------------------
255void
257ComputeDimensions(G4Para& para, const G4int,
258 const G4VPhysicalVolume*) const
259{
260 //---- The division along Y of a Para will result a Para
261 G4Para* msol = (G4Para*)(fmotherSolid);
262
263 //---- Get
264 G4double pDx = msol->GetXHalfLength();
265 G4double pDy = fwidth/2. - fhgap;
266 G4double pDz = msol->GetZHalfLength();
267 G4double pAlpha = std::atan(msol->GetTanAlpha());
268 G4double pTheta = msol->GetSymAxis().theta();
269 G4double pPhi = msol->GetSymAxis().phi();
270
271 para.SetAllParameters ( pDx, pDy, pDz, pAlpha, pTheta, pPhi );
272
273#ifdef G4DIVDEBUG
274 if( verbose >= -1 )
275 {
276 G4cout << " G4ParameterisationParaY::ComputeDimensions()"
277 << " - Mother PARA " << G4endl;
278 msol->DumpInfo();
279 G4cout << " - Parameterised PARA: " << G4endl;
280 para.DumpInfo();
281 }
282#endif
283}
284
285//------------------------------------------------------------------------
288 G4double width, G4double offset,
289 G4VSolid* msolid, DivisionType divType )
290 : G4VParameterisationPara( axis, nDiv, width, offset, msolid, divType )
291{
293 SetType( "DivisionParaZ" );
294
295 G4Para* mpara = (G4Para*)(fmotherSolid);
296 if( divType == DivWIDTH )
297 {
298 fnDiv = CalculateNDiv( 2*mpara->GetZHalfLength(), width, offset );
299 }
300 else if( divType == DivNDIV )
301 {
302 fwidth = CalculateWidth( 2*mpara->GetZHalfLength(), nDiv, offset );
303 }
304
305#ifdef G4DIVDEBUG
306 if( verbose >= -1 )
307 {
308 G4cout << " G4ParameterisationParaZ - # divisions " << fnDiv
309 << " = " << nDiv << G4endl
310 << " Offset " << foffset << " = " << offset << G4endl
311 << " Width " << fwidth << " = " << width << G4endl;
312 }
313#endif
314}
315
316//------------------------------------------------------------------------
318{
319}
320
321//------------------------------------------------------------------------
323{
324 G4Para* msol = (G4Para*)(fmotherSolid);
325 return 2*msol->GetZHalfLength();
326}
327
328//------------------------------------------------------------------------
329void
331ComputeTransformation( const G4int copyNo, G4VPhysicalVolume *physVol ) const
332{
333 G4Para* msol = (G4Para*)(fmotherSolid );
334 G4double mdz = msol->GetZHalfLength( );
335
336 //----- translation
337 G4double posi = -mdz + OffsetZ() + (copyNo+0.5)*fwidth;
338 G4ThreeVector symAxis = msol->GetSymAxis();
339 G4ThreeVector origin( symAxis * posi / symAxis.z() );
340
341#ifdef G4DIVDEBUG
342 if( verbose >= 2 )
343 {
344 G4cout << std::setprecision(8) << " G4ParameterisationParaZ "
345 << copyNo << G4endl
346 << " Position: " << origin << " - Axis: " << faxis << G4endl;
347 }
348#endif
349
350 //----- set translation
351 physVol->SetTranslation( origin );
352}
353
354//--------------------------------------------------------------------------
355void
357ComputeDimensions(G4Para& para, const G4int,
358 const G4VPhysicalVolume*) const
359{
360 //---- The division along Z of a Para will result a Para
361 G4Para* msol = (G4Para*)(fmotherSolid);
362
363 //---- Get
364 G4double pDx = msol->GetXHalfLength();
365 G4double pDy = msol->GetYHalfLength();
366 G4double pDz = fwidth/2. - fhgap;
367 G4double pAlpha = std::atan(msol->GetTanAlpha());
368 G4double pTheta = msol->GetSymAxis().theta();
369 G4double pPhi = msol->GetSymAxis().phi();
370
371 para.SetAllParameters ( pDx, pDy, pDz, pAlpha, pTheta, pPhi );
372
373#ifdef G4DIVDEBUG
374 if( verbose >= -1 )
375 {
376 G4cout << " G4ParameterisationParaZ::ComputeDimensions()"
377 << " - Mother PARA " << G4endl;
378 msol->DumpInfo();
379 G4cout << " - Parameterised PARA: " << G4endl;
380 para.DumpInfo();
381 }
382#endif
383}
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
double phi() const
double theta() const
void setY(double)
void setX(double)
Definition: G4Para.hh:79
G4double GetTanAlpha() const
G4ThreeVector GetSymAxis() const
void SetAllParameters(G4double pDx, G4double pDy, G4double pDz, G4double pAlpha, G4double pTheta, G4double pPhi)
Definition: G4Para.cc:185
G4double GetYHalfLength() const
G4double GetZHalfLength() const
G4double GetXHalfLength() const
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
void ComputeDimensions(G4Para &para, const G4int copyNo, const G4VPhysicalVolume *pv) const
G4ParameterisationParaX(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *msolid, DivisionType divType)
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
void ComputeDimensions(G4Para &para, const G4int copyNo, const G4VPhysicalVolume *pv) const
G4ParameterisationParaY(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *msolid, DivisionType divType)
void ComputeDimensions(G4Para &para, const G4int copyNo, const G4VPhysicalVolume *pv) const
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
G4ParameterisationParaZ(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *msolid, DivisionType divType)
void SetType(const G4String &type)
G4double CalculateWidth(G4double motherDim, G4int nDiv, G4double offset) const
G4int CalculateNDiv(G4double motherDim, G4double width, G4double offset) const
G4VParameterisationPara(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *msolid, DivisionType divType)
void SetTranslation(const G4ThreeVector &v)
G4String GetName() const
void DumpInfo() const
virtual G4GeometryType GetEntityType() const =0
EAxis
Definition: geomdefs.hh:54