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Geant4/persistency/gdml/src/G4GDMLParameterisation.cc

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Differences between /persistency/gdml/src/G4GDMLParameterisation.cc (Version 11.3.0) and /persistency/gdml/src/G4GDMLParameterisation.cc (Version 10.2.p2)


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 25 //                                                 25 //
 26 // G4GDMLParameterisation implementation       <<  26 // $Id: G4GDMLParameterisation.cc 77556 2013-11-26 08:56:14Z gcosmo $
 27 //                                                 27 //
 28 // Author: Zoltan Torzsok, November 2007       <<  28 // class G4GDMLParameterisation Implementation
 29 // ------------------------------------------- <<  29 //
                                                   >>  30 // History:
                                                   >>  31 // - Created.                                  Zoltan Torzsok, November 2007
                                                   >>  32 // -------------------------------------------------------------------------
 30                                                    33 
 31 #include "G4GDMLParameterisation.hh"               34 #include "G4GDMLParameterisation.hh"
 32 #include "G4PolyconeHistorical.hh"                 35 #include "G4PolyconeHistorical.hh"
 33 #include "G4PolyhedraHistorical.hh"                36 #include "G4PolyhedraHistorical.hh"
 34                                                    37 
 35 // ------------------------------------------- << 
 36 G4int G4GDMLParameterisation::GetSize() const      38 G4int G4GDMLParameterisation::GetSize() const
 37 {                                                  39 {
 38   return (G4int) parameterList.size();         <<  40    return (G4int)parameterList.size();
 39 }                                                  41 }
 40                                                    42 
 41 // ------------------------------------------- << 
 42 void G4GDMLParameterisation::AddParameter(cons     43 void G4GDMLParameterisation::AddParameter(const PARAMETER& newParameter)
 43 {                                                  44 {
 44   parameterList.push_back(newParameter);       <<  45    parameterList.push_back(newParameter);
 45 }                                                  46 }
 46                                                    47 
 47 // ------------------------------------------- <<  48 void G4GDMLParameterisation::
 48 void G4GDMLParameterisation::ComputeTransforma <<  49 ComputeTransformation(const G4int index,G4VPhysicalVolume* physvol) const
 49   const G4int index, G4VPhysicalVolume* physvo << 
 50 {                                                  50 {
 51   physvol->SetTranslation(parameterList[index] <<  51    physvol->SetTranslation(parameterList[index].position);
 52   physvol->SetRotation(parameterList[index].pR <<  52    physvol->SetRotation(parameterList[index].pRot);
 53 }                                                  53 }
 54                                                    54 
 55 // ------------------------------------------- <<  55 void G4GDMLParameterisation::
 56 void G4GDMLParameterisation::ComputeDimensions <<  56 ComputeDimensions(G4Box& box,const G4int index,const G4VPhysicalVolume*) const
 57                                                << 
 58 {                                                  57 {
 59   box.SetXHalfLength(parameterList[index].dime <<  58    box.SetXHalfLength(parameterList[index].dimension[0]);
 60   box.SetYHalfLength(parameterList[index].dime <<  59    box.SetYHalfLength(parameterList[index].dimension[1]);
 61   box.SetZHalfLength(parameterList[index].dime <<  60    box.SetZHalfLength(parameterList[index].dimension[2]);
 62 }                                                  61 }
 63                                                    62 
 64 // ------------------------------------------- <<  63 void G4GDMLParameterisation::
 65 void G4GDMLParameterisation::ComputeDimensions <<  64 ComputeDimensions(G4Trd& trd,const G4int index,const G4VPhysicalVolume*) const
 66                                                << 
 67 {                                                  65 {
 68   trd.SetXHalfLength1(parameterList[index].dim <<  66    trd.SetXHalfLength1(parameterList[index].dimension[0]);
 69   trd.SetXHalfLength2(parameterList[index].dim <<  67    trd.SetXHalfLength2(parameterList[index].dimension[1]);
 70   trd.SetYHalfLength1(parameterList[index].dim <<  68    trd.SetYHalfLength1(parameterList[index].dimension[2]);
 71   trd.SetYHalfLength2(parameterList[index].dim <<  69    trd.SetYHalfLength2(parameterList[index].dimension[3]);
 72   trd.SetZHalfLength(parameterList[index].dime <<  70    trd.SetZHalfLength(parameterList[index].dimension[4]);
 73 }                                                  71 }
 74                                                    72 
 75 // ------------------------------------------- <<  73 void G4GDMLParameterisation::
 76 void G4GDMLParameterisation::ComputeDimensions <<  74 ComputeDimensions(G4Trap& trap,const G4int index,const G4VPhysicalVolume*) const
 77                                                << 
 78 {                                                  75 {
 79   trap.SetAllParameters(parameterList[index].d <<  76    trap.SetAllParameters(parameterList[index].dimension[0], // Dz
 80                         parameterList[index].d <<  77                          parameterList[index].dimension[1], // Theta
 81                         parameterList[index].d <<  78                          parameterList[index].dimension[2], // Phi
 82                         parameterList[index].d <<  79                          parameterList[index].dimension[3], // Dy1
 83                         parameterList[index].d <<  80                          parameterList[index].dimension[4], // Dx1
 84                         parameterList[index].d <<  81                          parameterList[index].dimension[5], // Dx2
 85                         parameterList[index].d <<  82                          parameterList[index].dimension[6], // pAlp1,
 86                         parameterList[index].d <<  83                          parameterList[index].dimension[7], // pDy2,
 87                         parameterList[index].d <<  84                          parameterList[index].dimension[8], // pDx3,
 88                         parameterList[index].d <<  85                          parameterList[index].dimension[9], // pDx4,
 89                         parameterList[index].d <<  86                          parameterList[index].dimension[10]); // pAlp2
 90 }                                                  87 }
 91                                                    88 
 92 // ------------------------------------------- <<  89 void G4GDMLParameterisation::
 93 void G4GDMLParameterisation::ComputeDimensions <<  90 ComputeDimensions(G4Tubs& tubs,const G4int index,const G4VPhysicalVolume*) const
 94                                                << 
 95 {                                                  91 {
 96   tubs.SetInnerRadius(parameterList[index].dim <<  92    tubs.SetInnerRadius(parameterList[index].dimension[0]);
 97   tubs.SetOuterRadius(parameterList[index].dim <<  93    tubs.SetOuterRadius(parameterList[index].dimension[1]);
 98   tubs.SetZHalfLength(parameterList[index].dim <<  94    tubs.SetZHalfLength(parameterList[index].dimension[2]);
 99   tubs.SetStartPhiAngle(parameterList[index].d <<  95    tubs.SetStartPhiAngle(parameterList[index].dimension[3]);
100   tubs.SetDeltaPhiAngle(parameterList[index].d <<  96    tubs.SetDeltaPhiAngle(parameterList[index].dimension[4]);
101 }                                                  97 }
102                                                    98 
103 // ------------------------------------------- <<  99 void G4GDMLParameterisation::
104 void G4GDMLParameterisation::ComputeDimensions << 100 ComputeDimensions(G4Cons& cons,const G4int index,const G4VPhysicalVolume*) const
105                                                << 
106 {                                                 101 {
107   cons.SetInnerRadiusMinusZ(parameterList[inde << 102    cons.SetInnerRadiusMinusZ(parameterList[index].dimension[0]);
108   cons.SetOuterRadiusMinusZ(parameterList[inde << 103    cons.SetOuterRadiusMinusZ(parameterList[index].dimension[1]);
109   cons.SetInnerRadiusPlusZ(parameterList[index << 104    cons.SetInnerRadiusPlusZ(parameterList[index].dimension[2]);
110   cons.SetOuterRadiusPlusZ(parameterList[index << 105    cons.SetOuterRadiusPlusZ(parameterList[index].dimension[3]);
111   cons.SetZHalfLength(parameterList[index].dim << 106    cons.SetZHalfLength(parameterList[index].dimension[4]);
112   cons.SetStartPhiAngle(parameterList[index].d << 107    cons.SetStartPhiAngle(parameterList[index].dimension[5]);
113   cons.SetDeltaPhiAngle(parameterList[index].d << 108    cons.SetDeltaPhiAngle(parameterList[index].dimension[6]);
114 }                                                 109 }
115                                                   110 
116 // ------------------------------------------- << 111 void G4GDMLParameterisation::
117 void G4GDMLParameterisation::ComputeDimensions << 112 ComputeDimensions(G4Sphere& sphere,const G4int index,const G4VPhysicalVolume*) const
118                                                << 
119                                                << 
120 {                                                 113 {
121   sphere.SetInnerRadius(parameterList[index].d << 114    sphere.SetInnerRadius(parameterList[index].dimension[0]);
122   sphere.SetOuterRadius(parameterList[index].d << 115    sphere.SetOuterRadius(parameterList[index].dimension[1]);
123   sphere.SetStartPhiAngle(parameterList[index] << 116    sphere.SetStartPhiAngle(parameterList[index].dimension[2]);
124   sphere.SetDeltaPhiAngle(parameterList[index] << 117    sphere.SetDeltaPhiAngle(parameterList[index].dimension[3]);
125   sphere.SetStartThetaAngle(parameterList[inde << 118    sphere.SetStartThetaAngle(parameterList[index].dimension[4]);
126   sphere.SetDeltaThetaAngle(parameterList[inde << 119    sphere.SetDeltaThetaAngle(parameterList[index].dimension[5]);
127 }                                                 120 }
128                                                   121 
129 // ------------------------------------------- << 122 void G4GDMLParameterisation::
130 void G4GDMLParameterisation::ComputeDimensions << 123 ComputeDimensions(G4Orb& orb,const G4int index,const G4VPhysicalVolume*) const
131                                                << 
132 {                                                 124 {
133   orb.SetRadius(parameterList[index].dimension << 125    orb.SetRadius(parameterList[index].dimension[0]);
134 }                                                 126 }
135                                                   127 
136 // ------------------------------------------- << 128 void G4GDMLParameterisation::
137 void G4GDMLParameterisation::ComputeDimensions << 129 ComputeDimensions(G4Ellipsoid& ellipsoid,const G4int index,const G4VPhysicalVolume*) const
138                                                << 
139                                                << 
140 {                                                 130 {
141   ellipsoid.SetSemiAxis(parameterList[index].d << 131    ellipsoid.SetSemiAxis(parameterList[index].dimension[0],
142                         parameterList[index].d << 132                          parameterList[index].dimension[1],
143                         parameterList[index].d << 133                          parameterList[index].dimension[2]);
144   ellipsoid.SetZCuts(parameterList[index].dime << 134    ellipsoid.SetZCuts(parameterList[index].dimension[3],
145                      parameterList[index].dime << 135                       parameterList[index].dimension[4]);
146 }                                                 136 }
147                                                   137 
148 // ------------------------------------------- << 138 void G4GDMLParameterisation::
149 void G4GDMLParameterisation::ComputeDimensions << 139 ComputeDimensions(G4Torus& torus,const G4int index,const G4VPhysicalVolume*) const
150                                                << 
151                                                << 
152 {                                                 140 {
153   torus.SetAllParameters(parameterList[index]. << 141    torus.SetAllParameters(parameterList[index].dimension[0], // pRmin
154                          parameterList[index]. << 142                           parameterList[index].dimension[1], // pRmax
155                          parameterList[index]. << 143         parameterList[index].dimension[2], // pRtor
156                          parameterList[index]. << 144                           parameterList[index].dimension[3], // pSPhi
157                          parameterList[index]. << 145         parameterList[index].dimension[4]); // pDPhi
158 }                                                 146 }
159                                                   147 
160 // ------------------------------------------- << 148 void G4GDMLParameterisation::
161 void G4GDMLParameterisation::ComputeDimensions << 149 ComputeDimensions(G4Para& para,const G4int index,const G4VPhysicalVolume*) const
162                                                << 
163 {                                                 150 {
164   para.SetXHalfLength(parameterList[index].dim << 151    para.SetXHalfLength(parameterList[index].dimension[0]);
165   para.SetYHalfLength(parameterList[index].dim << 152    para.SetYHalfLength(parameterList[index].dimension[1]);
166   para.SetZHalfLength(parameterList[index].dim << 153    para.SetZHalfLength(parameterList[index].dimension[2]);
167   para.SetAlpha(parameterList[index].dimension << 154    para.SetAlpha(parameterList[index].dimension[3]);
168   para.SetTanAlpha(std::tan(parameterList[inde << 155    para.SetTanAlpha(std::tan(parameterList[index].dimension[3]));
169   para.SetThetaAndPhi(parameterList[index].dim << 156    para.SetThetaAndPhi(parameterList[index].dimension[4],parameterList[index].dimension[5]);
170                       parameterList[index].dim << 
171 }                                                 157 }
172                                                   158 
173 // ------------------------------------------- << 159 void G4GDMLParameterisation::
174 void G4GDMLParameterisation::ComputeDimensions << 160 ComputeDimensions(G4Hype& hype,const G4int index,const G4VPhysicalVolume*) const
175                                                << 
176 {                                                 161 {
177   hype.SetInnerRadius(parameterList[index].dim << 162    hype.SetInnerRadius(parameterList[index].dimension[0]);
178   hype.SetOuterRadius(parameterList[index].dim << 163    hype.SetOuterRadius(parameterList[index].dimension[1]);
179   hype.SetZHalfLength(parameterList[index].dim << 164    hype.SetZHalfLength(parameterList[index].dimension[4]);
180   hype.SetInnerStereo(parameterList[index].dim << 165    hype.SetInnerStereo(parameterList[index].dimension[2]);
181   hype.SetOuterStereo(parameterList[index].dim << 166    hype.SetOuterStereo(parameterList[index].dimension[3]);
182 }                                                 167 }
183                                                   168 
184 // ------------------------------------------- << 169 void G4GDMLParameterisation::
185 void G4GDMLParameterisation::ComputeDimensions << 170 ComputeDimensions(G4Polycone& pcone,const G4int index,const G4VPhysicalVolume*) const
186                                                << 
187                                                << 
188 {                                                 171 {
189   G4PolyconeHistorical origparam(*(pcone.GetOr << 172  
190   origparam.Start_angle   = parameterList[inde << 173    G4PolyconeHistorical origparam( *(pcone.GetOriginalParameters()) );
191   origparam.Opening_angle = parameterList[inde << 174    origparam.Start_angle = parameterList[index].dimension[0];
192   origparam.Num_z_planes  = (G4int) parameterL << 175    origparam.Opening_angle = parameterList[index].dimension[1];
193   G4int nZplanes          = origparam.Num_z_pl << 176    origparam.Num_z_planes = (G4int) parameterList[index].dimension[2];
194                                                << 177    G4int nZplanes = origparam.Num_z_planes;
195   for(G4int ii = 0; ii < nZplanes; ++ii)       << 178  
196   {                                            << 179    for( G4int ii = 0; ii < nZplanes; ii++ )
197     origparam.Rmin[ii]     = parameterList[ind << 180    {
198     origparam.Rmax[ii]     = parameterList[ind << 181      origparam.Rmin[ii] = parameterList[index].dimension[3+ii*3] ;
199     origparam.Z_values[ii] = parameterList[ind << 182      origparam.Rmax[ii] = parameterList[index].dimension[4+ii*3] ;
200   }                                            << 183      origparam.Z_values[ii] = parameterList[index].dimension[5+ii*3] ;
                                                   >> 184    }
201                                                   185 
202   pcone.SetOriginalParameters(&origparam);  // << 186    pcone.SetOriginalParameters(&origparam);  // copy values & transfer pointers
203   pcone.Reset();                            // << 187    pcone.Reset();                            // reset to new solid parameters
                                                   >> 188  
204 }                                                 189 }
205                                                   190 
206 // ------------------------------------------- << 191 void G4GDMLParameterisation::
207 void G4GDMLParameterisation::ComputeDimensions << 192 ComputeDimensions(G4Polyhedra& polyhedra,const G4int index,const G4VPhysicalVolume*) const
208                                                << 193 {
209                                                << 194    G4PolyhedraHistorical origparam( *(polyhedra.GetOriginalParameters()) );
210 {                                              << 195    origparam.Start_angle = parameterList[index].dimension[0];
211   G4PolyhedraHistorical origparam(*(polyhedra. << 196    origparam.Opening_angle = parameterList[index].dimension[1];
212   origparam.Start_angle   = parameterList[inde << 197    origparam.Num_z_planes = (G4int) parameterList[index].dimension[2];
213   origparam.Opening_angle = parameterList[inde << 198    origparam.numSide = (G4int) parameterList[index].dimension[3];
214   origparam.Num_z_planes  = (G4int) parameterL << 199    
215   origparam.numSide       = (G4int) parameterL << 200    G4int nZplanes = origparam.Num_z_planes;
216                                                << 201    
217   G4int nZplanes = origparam.Num_z_planes;     << 202    for( G4int ii = 0; ii < nZplanes; ii++ )
218                                                << 203    {
219   for(G4int ii = 0; ii < nZplanes; ++ii)       << 204     
220   {                                            << 205      origparam.Rmin[ii] = parameterList[index].dimension[4+ii*3] ;
221     origparam.Rmin[ii]     = parameterList[ind << 206      origparam.Rmax[ii] = parameterList[index].dimension[5+ii*3] ;
222     origparam.Rmax[ii]     = parameterList[ind << 207      origparam.Z_values[ii] = parameterList[index].dimension[6+ii*3] ;
223     origparam.Z_values[ii] = parameterList[ind << 208    
224   }                                               209   }
225   polyhedra.SetOriginalParameters(             << 210   polyhedra.SetOriginalParameters(&origparam);  // copy values & transfer pointers
226     &origparam);      // copy values & transfe << 211   polyhedra.Reset();                            // reset to new solid parameters
227   polyhedra.Reset();  // reset to new solid pa << 
228 }                                                 212 }
229                                                   213