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1 // 1 2 // ******************************************* 3 // * License and Disclaimer 4 // * 5 // * The Geant4 software is copyright of th 6 // * the Geant4 Collaboration. It is provided 7 // * conditions of the Geant4 Software License 8 // * LICENSE and available at http://cern.ch/ 9 // * include a list of copyright holders. 10 // * 11 // * Neither the authors of this software syst 12 // * institutes,nor the agencies providing fin 13 // * work make any representation or warran 14 // * regarding this software system or assum 15 // * use. Please see the license in the file 16 // * for the full disclaimer and the limitatio 17 // * 18 // * This code implementation is the result 19 // * technical work of the GEANT4 collaboratio 20 // * By using, copying, modifying or distri 21 // * any work based on the software) you ag 22 // * use in resulting scientific publicati 23 // * acceptance of all terms of the Geant4 Sof 24 // ******************************************* 25 // 26 // Implementation of G4UGenericPolycone wrappe 27 // 28 // 30.10.13 G.Cosmo, CERN 29 // ------------------------------------------- 30 31 #include "G4GenericPolycone.hh" 32 #include "G4UGenericPolycone.hh" 33 34 #if ( defined(G4GEOM_USE_USOLIDS) || defined(G 35 36 #include "G4GeomTools.hh" 37 #include "G4AffineTransform.hh" 38 #include "G4VPVParameterisation.hh" 39 #include "G4BoundingEnvelope.hh" 40 41 #include "G4Polyhedron.hh" 42 43 using namespace CLHEP; 44 45 ////////////////////////////////////////////// 46 // 47 // Constructor (generic parameters) 48 // 49 G4UGenericPolycone::G4UGenericPolycone(const G 50 G 51 G 52 G 53 const G 54 const G 55 : Base_t(name, phiStart, phiTotal, numRZ, r, 56 { 57 wrStart = phiStart; while (wrStart < 0) wrSt 58 wrDelta = phiTotal; 59 if (wrDelta <= 0 || wrDelta >= twopi*(1-DBL_ 60 { 61 wrStart = 0; 62 wrDelta = twopi; 63 } 64 rzcorners.resize(0); 65 for (G4int i=0; i<numRZ; ++i) 66 { 67 rzcorners.emplace_back(r[i],z[i]); 68 } 69 std::vector<G4int> iout; 70 G4GeomTools::RemoveRedundantVertices(rzcorne 71 } 72 73 74 ////////////////////////////////////////////// 75 // 76 // Fake default constructor - sets only member 77 // for usage restri 78 // 79 G4UGenericPolycone::G4UGenericPolycone(__void_ 80 : Base_t(a) 81 { 82 } 83 84 85 ////////////////////////////////////////////// 86 // 87 // Destructor 88 // 89 G4UGenericPolycone::~G4UGenericPolycone() = de 90 91 92 ////////////////////////////////////////////// 93 // 94 // Copy constructor 95 // 96 G4UGenericPolycone::G4UGenericPolycone(const G 97 : Base_t(source) 98 { 99 wrStart = source.wrStart; 100 wrDelta = source.wrDelta; 101 rzcorners = source.rzcorners; 102 } 103 104 105 ////////////////////////////////////////////// 106 // 107 // Assignment operator 108 // 109 G4UGenericPolycone& 110 G4UGenericPolycone::operator=(const G4UGeneric 111 { 112 if (this == &source) return *this; 113 114 Base_t::operator=( source ); 115 wrStart = source.wrStart; 116 wrDelta = source.wrDelta; 117 rzcorners = source.rzcorners; 118 119 return *this; 120 } 121 122 G4double G4UGenericPolycone::GetStartPhi() con 123 { 124 return wrStart; 125 } 126 G4double G4UGenericPolycone::GetEndPhi() const 127 { 128 return (wrStart + wrDelta); 129 } 130 G4double G4UGenericPolycone::GetSinStartPhi() 131 { 132 if (IsOpen()) return 0.; 133 G4double phi = GetStartPhi(); 134 return std::sin(phi); 135 } 136 G4double G4UGenericPolycone::GetCosStartPhi() 137 { 138 if (IsOpen()) return 1.; 139 G4double phi = GetStartPhi(); 140 return std::cos(phi); 141 } 142 G4double G4UGenericPolycone::GetSinEndPhi() co 143 { 144 if (IsOpen()) return 0.; 145 G4double phi = GetEndPhi(); 146 return std::sin(phi); 147 } 148 G4double G4UGenericPolycone::GetCosEndPhi() co 149 { 150 if (IsOpen()) return 1.; 151 G4double phi = GetEndPhi(); 152 return std::cos(phi); 153 } 154 G4bool G4UGenericPolycone::IsOpen() const 155 { 156 return (wrDelta < twopi); 157 } 158 G4int G4UGenericPolycone::GetNumRZCorner() con 159 { 160 return rzcorners.size(); 161 } 162 G4PolyconeSideRZ G4UGenericPolycone::GetCorner 163 { 164 G4TwoVector rz = rzcorners.at(index); 165 G4PolyconeSideRZ psiderz = { rz.x(), rz.y() 166 167 return psiderz; 168 } 169 170 ////////////////////////////////////////////// 171 // 172 // Make a clone of the object 173 174 G4VSolid* G4UGenericPolycone::Clone() const 175 { 176 return new G4UGenericPolycone(*this); 177 } 178 179 ////////////////////////////////////////////// 180 // 181 // Get bounding box 182 183 void 184 G4UGenericPolycone::BoundingLimits(G4ThreeVect 185 G4ThreeVect 186 { 187 G4double rmin = kInfinity, rmax = -kInfinity 188 G4double zmin = kInfinity, zmax = -kInfinity 189 190 for (G4int i=0; i<GetNumRZCorner(); ++i) 191 { 192 G4PolyconeSideRZ corner = GetCorner(i); 193 if (corner.r < rmin) rmin = corner.r; 194 if (corner.r > rmax) rmax = corner.r; 195 if (corner.z < zmin) zmin = corner.z; 196 if (corner.z > zmax) zmax = corner.z; 197 } 198 199 if (IsOpen()) 200 { 201 G4TwoVector vmin,vmax; 202 G4GeomTools::DiskExtent(rmin,rmax, 203 GetSinStartPhi(),G 204 GetSinEndPhi(),Get 205 vmin,vmax); 206 pMin.set(vmin.x(),vmin.y(),zmin); 207 pMax.set(vmax.x(),vmax.y(),zmax); 208 } 209 else 210 { 211 pMin.set(-rmax,-rmax, zmin); 212 pMax.set( rmax, rmax, zmax); 213 } 214 215 // Check correctness of the bounding box 216 // 217 if (pMin.x() >= pMax.x() || pMin.y() >= pMax 218 { 219 std::ostringstream message; 220 message << "Bad bounding box (min >= max) 221 << GetName() << " !" 222 << "\npMin = " << pMin 223 << "\npMax = " << pMax; 224 G4Exception("G4UGenericPolycone::BoundingL 225 JustWarning, message); 226 StreamInfo(G4cout); 227 } 228 } 229 230 ////////////////////////////////////////////// 231 // 232 // Calculate extent under transform and specif 233 234 G4bool 235 G4UGenericPolycone::CalculateExtent(const EAxi 236 const G4Vo 237 const G4Af 238 G4do 239 { 240 G4ThreeVector bmin, bmax; 241 G4bool exist; 242 243 // Check bounding box (bbox) 244 // 245 BoundingLimits(bmin,bmax); 246 G4BoundingEnvelope bbox(bmin,bmax); 247 #ifdef G4BBOX_EXTENT 248 return bbox.CalculateExtent(pAxis,pVoxelLimi 249 #endif 250 if (bbox.BoundingBoxVsVoxelLimits(pAxis,pVox 251 { 252 return exist = pMin < pMax; 253 } 254 255 // To find the extent, RZ contour of the pol 256 // in triangles. The extent is calculated as 257 // all sub-polycones formed by rotation of t 258 // 259 G4TwoVectorList contourRZ; 260 G4TwoVectorList triangles; 261 G4double eminlim = pVoxelLimit.GetMinExtent( 262 G4double emaxlim = pVoxelLimit.GetMaxExtent( 263 264 // get RZ contour, ensure anticlockwise orde 265 for (G4int i=0; i<GetNumRZCorner(); ++i) 266 { 267 G4PolyconeSideRZ corner = GetCorner(i); 268 contourRZ.emplace_back(corner.r,corner.z); 269 } 270 G4double area = G4GeomTools::PolygonArea(con 271 if (area < 0.) std::reverse(contourRZ.begin( 272 273 // triangulate RZ countour 274 if (!G4GeomTools::TriangulatePolygon(contour 275 { 276 std::ostringstream message; 277 message << "Triangulation of RZ contour ha 278 << GetName() << " !" 279 << "\nExtent has been calculated u 280 G4Exception("G4UGenericPolycone::Calculate 281 "GeomMgt1002", JustWarning, me 282 return bbox.CalculateExtent(pAxis,pVoxelLi 283 } 284 285 // set trigonometric values 286 const G4int NSTEPS = 24; // numbe 287 G4double astep = twopi/NSTEPS; // max a 288 289 G4double sphi = GetStartPhi(); 290 G4double ephi = GetEndPhi(); 291 G4double dphi = IsOpen() ? ephi-sphi : two 292 G4int ksteps = (dphi <= astep) ? 1 : (G4i 293 G4double ang = dphi/ksteps; 294 295 G4double sinHalf = std::sin(0.5*ang); 296 G4double cosHalf = std::cos(0.5*ang); 297 G4double sinStep = 2.*sinHalf*cosHalf; 298 G4double cosStep = 1. - 2.*sinHalf*sinHalf; 299 300 G4double sinStart = GetSinStartPhi(); 301 G4double cosStart = GetCosStartPhi(); 302 G4double sinEnd = GetSinEndPhi(); 303 G4double cosEnd = GetCosEndPhi(); 304 305 // define vectors and arrays 306 std::vector<const G4ThreeVectorList *> polyg 307 polygons.resize(ksteps+2); 308 G4ThreeVectorList pols[NSTEPS+2]; 309 for (G4int k=0; k<ksteps+2; ++k) pols[k].res 310 for (G4int k=0; k<ksteps+2; ++k) polygons[k] 311 G4double r0[6],z0[6]; // contour with origin 312 G4double r1[6]; // shifted radii of ex 313 314 // main loop along triangles 315 pMin = kInfinity; 316 pMax =-kInfinity; 317 G4int ntria = triangles.size()/3; 318 for (G4int i=0; i<ntria; ++i) 319 { 320 G4int i3 = i*3; 321 for (G4int k=0; k<3; ++k) 322 { 323 G4int e0 = i3+k, e1 = (k<2) ? e0+1 : i3; 324 G4int k2 = k*2; 325 // set contour with original edges of tr 326 r0[k2+0] = triangles[e0].x(); z0[k2+0] = 327 r0[k2+1] = triangles[e1].x(); z0[k2+1] = 328 // set shifted radii 329 r1[k2+0] = r0[k2+0]; 330 r1[k2+1] = r0[k2+1]; 331 if (z0[k2+1] - z0[k2+0] <= 0) continue; 332 r1[k2+0] /= cosHalf; 333 r1[k2+1] /= cosHalf; 334 } 335 336 // rotate countour, set sequence of 6-side 337 G4double sinCur = sinStart*cosHalf + cosSt 338 G4double cosCur = cosStart*cosHalf - sinSt 339 for (G4int j=0; j<6; ++j) 340 { 341 pols[0][j].set(r0[j]*cosStart,r0[j]*sinS 342 } 343 for (G4int k=1; k<ksteps+1; ++k) 344 { 345 for (G4int j=0; j<6; ++j) 346 { 347 pols[k][j].set(r1[j]*cosCur,r1[j]*sinC 348 } 349 G4double sinTmp = sinCur; 350 sinCur = sinCur*cosStep + cosCur*sinStep 351 cosCur = cosCur*cosStep - sinTmp*sinStep 352 } 353 for (G4int j=0; j<6; ++j) 354 { 355 pols[ksteps+1][j].set(r0[j]*cosEnd,r0[j] 356 } 357 358 // set sub-envelope and adjust extent 359 G4double emin,emax; 360 G4BoundingEnvelope benv(polygons); 361 if (!benv.CalculateExtent(pAxis,pVoxelLimi 362 if (emin < pMin) pMin = emin; 363 if (emax > pMax) pMax = emax; 364 if (eminlim > pMin && emaxlim < pMax) retu 365 } 366 return (pMin < pMax); 367 } 368 369 ////////////////////////////////////////////// 370 // 371 // CreatePolyhedron 372 373 G4Polyhedron* G4UGenericPolycone::CreatePolyhe 374 { 375 return new G4PolyhedronPcon(wrStart, wrDelta 376 } 377 378 #endif // G4GEOM_USE_USOLIDS 379