HepPolyhedronTorus Class Reference

#include <HepPolyhedron.h>

Inheritance diagram for HepPolyhedronTorus:

Public Member Functions
	HepPolyhedronTorus (G4double rmin, G4double rmax, G4double rtor, G4double phi, G4double dphi)
	~HepPolyhedronTorus () override
Public Member Functions inherited from HepPolyhedron
	HepPolyhedron ()
	HepPolyhedron (G4int Nvert, G4int Nface)
	HepPolyhedron (const HepPolyhedron &from)
	HepPolyhedron (HepPolyhedron &&from)
virtual	~HepPolyhedron ()
HepPolyhedron &	operator= (const HepPolyhedron &from)
HepPolyhedron &	operator= (HepPolyhedron &&from)
G4int	GetNoVertices () const
G4int	GetNoVerteces () const
G4int	GetNoFacets () const
HepPolyhedron &	Transform (const G4Transform3D &t)
G4bool	GetNextVertexIndex (G4int &index, G4int &edgeFlag) const
G4Point3D	GetVertex (G4int index) const
G4bool	GetNextVertex (G4Point3D &vertex, G4int &edgeFlag) const
G4bool	GetNextVertex (G4Point3D &vertex, G4int &edgeFlag, G4Normal3D &normal) const
G4bool	GetNextEdgeIndices (G4int &i1, G4int &i2, G4int &edgeFlag, G4int &iface1, G4int &iface2) const
G4bool	GetNextEdgeIndeces (G4int &i1, G4int &i2, G4int &edgeFlag, G4int &iface1, G4int &iface2) const
G4bool	GetNextEdgeIndices (G4int &i1, G4int &i2, G4int &edgeFlag) const
G4bool	GetNextEdgeIndeces (G4int &i1, G4int &i2, G4int &edgeFlag) const
G4bool	GetNextEdge (G4Point3D &p1, G4Point3D &p2, G4int &edgeFlag) const
G4bool	GetNextEdge (G4Point3D &p1, G4Point3D &p2, G4int &edgeFlag, G4int &iface1, G4int &iface2) const
void	GetFacet (G4int iFace, G4int &n, G4int *iNodes, G4int *edgeFlags=nullptr, G4int *iFaces=nullptr) const
void	GetFacet (G4int iFace, G4int &n, G4Point3D *nodes, G4int *edgeFlags=nullptr, G4Normal3D *normals=nullptr) const
G4bool	GetNextFacet (G4int &n, G4Point3D *nodes, G4int *edgeFlags=nullptr, G4Normal3D *normals=nullptr) const
G4Normal3D	GetNormal (G4int iFace) const
G4Normal3D	GetUnitNormal (G4int iFace) const
G4bool	GetNextNormal (G4Normal3D &normal) const
G4bool	GetNextUnitNormal (G4Normal3D &normal) const
HepPolyhedron	add (const HepPolyhedron &p) const
HepPolyhedron	subtract (const HepPolyhedron &p) const
HepPolyhedron	intersect (const HepPolyhedron &p) const
G4double	GetSurfaceArea () const
G4double	GetVolume () const
void	SetVertex (G4int index, const G4Point3D &v)
void	SetFacet (G4int index, G4int iv1, G4int iv2, G4int iv3, G4int iv4=0)
void	SetReferences ()
void	JoinCoplanarFacets (G4double tolerance)
void	InvertFacets ()
G4int	createTwistedTrap (G4double Dz, const G4double xy1[][2], const G4double xy2[][2])
G4int	createPolyhedron (G4int Nnodes, G4int Nfaces, const G4double xyz[][3], const G4int faces[][4])
G4Point3D	vertexUnweightedMean () const

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 576 of file HepPolyhedron.h.

Constructor & Destructor Documentation

HepPolyhedronTorus()

HepPolyhedronTorus::HepPolyhedronTorus	(	G4double	rmin,
		G4double	rmax,
		G4double	rtor,
		G4double	phi,
		G4double	dphi )

Definition at line 2592 of file HepPolyhedron.cc.

{
  //   C H E C K   I N P U T   P A R A M E T E R S
 
  if (dphi <= 0. || dphi > twopi) {
    std::cerr
      << "HepPolyhedronTorus: wrong delta phi = " << dphi
      << std::endl;
    return;
  }
 
  if (rmin < 0. || rmin >= rmax || rmax >= rtor) {
    std::cerr
      << "HepPolyhedronTorus: error in radiuses"
      << " rmin=" << rmin << " rmax=" << rmax << " rtorus=" << rtor
      << std::endl;
    return;
  }
 
  //   P R E P A R E   T W O   P O L Y L I N E S
 
  G4int np1 = GetNumberOfRotationSteps();
  G4int np2 = rmin < spatialTolerance ? 1 : np1;
 
  G4double *zz, *rr;
  zz = new G4double[np1+np2];
  rr = new G4double[np1+np2];
 
  G4double a = twopi/np1;
  G4double cosa, sina;
  for (G4int i=0; i<np1; i++) {
    cosa  = std::cos(i*a);
    sina  = std::sin(i*a);
    zz[i] = rmax*cosa;
    rr[i] = rtor+rmax*sina;
    if (np2 > 1) {
      zz[i+np1] = rmin*cosa;
      rr[i+np1] = rtor+rmin*sina;
    }
  }
  if (np2 == 1) {
    zz[np1] = 0.;
    rr[np1] = rtor;
    np2 = -1;
  }
 
  //   R O T A T E    P O L Y L I N E S
 
  RotateAroundZ(0, phi, dphi, -np1, -np2, zz, rr, -1,-1);
  SetReferences();
 
  delete [] zz;
  delete [] rr;
}

~HepPolyhedronTorus()

HepPolyhedronTorus::~HepPolyhedronTorus ( )

overridedefault

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The documentation for this class was generated from the following files:

• HepPolyhedron.h
• HepPolyhedron.cc