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HepPolyhedronSphere Class Reference
#include <HepPolyhedron.h>
Inheritance diagram for HepPolyhedronSphere:
Additional Inherited Members | |
| Static Public Member Functions inherited from HepPolyhedron | |
| static G4int | GetNumberOfRotationSteps () |
| static void | SetNumberOfRotationSteps (G4int n) |
| static void | ResetNumberOfRotationSteps () |
| Protected Member Functions inherited from HepPolyhedron | |
| void | AllocateMemory (G4int Nvert, G4int Nface) |
| G4int | FindNeighbour (G4int iFace, G4int iNode, G4int iOrder) const |
| G4Normal3D | FindNodeNormal (G4int iFace, G4int iNode) const |
| void | CreatePrism () |
| void | RotateEdge (G4int k1, G4int k2, G4double r1, G4double r2, G4int v1, G4int v2, G4int vEdge, G4bool ifWholeCircle, G4int ns, G4int &kface) |
| void | SetSideFacets (G4int ii[4], G4int vv[4], G4int *kk, G4double *r, G4double dphi, G4int ns, G4int &kface) |
| void | RotateAroundZ (G4int nstep, G4double phi, G4double dphi, G4int np1, G4int np2, const G4double *z, G4double *r, G4int nodeVis, G4int edgeVis) |
| void | RotateContourAroundZ (G4int nstep, G4double phi, G4double dphi, const std::vector< G4TwoVector > &rz, G4int nodeVis, G4int edgeVis) |
| G4bool | TriangulatePolygon (const std::vector< G4TwoVector > &polygon, std::vector< G4int > &result) |
| G4bool | CheckSnip (const std::vector< G4TwoVector > &contour, G4int a, G4int b, G4int c, G4int n, const G4int *V) |
| Protected Attributes inherited from HepPolyhedron | |
| G4int | nvert |
| G4int | nface |
| G4Point3D * | pV |
| G4Facet * | pF |
| Static Protected Attributes inherited from HepPolyhedron | |
| static G4ThreadLocal G4int | fNumberOfRotationSteps = DEFAULT_NUMBER_OF_STEPS |
Detailed Description
Definition at line 567 of file HepPolyhedron.h.
Constructor & Destructor Documentation
◆ HepPolyhedronSphere()
| HepPolyhedronSphere::HepPolyhedronSphere | ( | G4double | rmin, |
| G4double | rmax, | ||
| G4double | phi, | ||
| G4double | dphi, | ||
| G4double | the, | ||
| G4double | dthe ) |
Definition at line 2495 of file HepPolyhedron.cc.
2513{
2514 // C H E C K I N P U T P A R A M E T E R S
2515
2516 if (dphi <= 0. || dphi > twopi) {
2517 std::cerr
2518 << "HepPolyhedronSphere: wrong delta phi = " << dphi
2519 << std::endl;
2520 return;
2521 }
2522
2523 if (the < 0. || the > pi) {
2524 std::cerr
2525 << "HepPolyhedronSphere: wrong theta = " << the
2526 << std::endl;
2527 return;
2528 }
2529
2530 if (dthe <= 0. || dthe > pi) {
2531 std::cerr
2532 << "HepPolyhedronSphere: wrong delta theta = " << dthe
2533 << std::endl;
2534 return;
2535 }
2536
2537 if (the+dthe > pi) {
2538 std::cerr
2539 << "HepPolyhedronSphere: wrong theta + delta theta = "
2540 << the << " " << dthe
2541 << std::endl;
2542 return;
2543 }
2544
2545 if (rmin < 0. || rmin >= rmax) {
2546 std::cerr
2547 << "HepPolyhedronSphere: error in radiuses"
2548 << " rmin=" << rmin << " rmax=" << rmax
2549 << std::endl;
2550 return;
2551 }
2552
2553 // P R E P A R E T W O P O L Y L I N E S
2554
2557 if (np1 <= 1) np1 = 2;
2559
2560 G4double *zz, *rr;
2563
2564 G4double a = dthe/(np1-1);
2565 G4double cosa, sina;
2567 cosa = std::cos(the+i*a);
2568 sina = std::sin(the+i*a);
2569 zz[i] = rmax*cosa;
2570 rr[i] = rmax*sina;
2571 if (np2 > 1) {
2572 zz[i+np1] = rmin*cosa;
2573 rr[i+np1] = rmin*sina;
2574 }
2575 }
2576 if (np2 == 1) {
2577 zz[np1] = 0.;
2578 rr[np1] = 0.;
2579 }
2580
2581 // R O T A T E P O L Y L I N E S
2582
2583 RotateAroundZ(0, phi, dphi, np1, np2, zz, rr, -1, -1);
2584 SetReferences();
2585
2586 delete [] zz;
2587 delete [] rr;
2588}
void RotateAroundZ(G4int nstep, G4double phi, G4double dphi, G4int np1, G4int np2, const G4double *z, G4double *r, G4int nodeVis, G4int edgeVis)
Definition HepPolyhedron.cc:553
static G4int GetNumberOfRotationSteps()
Definition HepPolyhedron.cc:269
◆ ~HepPolyhedronSphere()
|
overridedefault |
The documentation for this class was generated from the following files:
