G4Hype.hh

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// G4Hype
//
// Class description:
//
//   This class implements a tube with hyperbolic profile.
//
//   It describes an hyperbolic volume with curved sides parallel to
//   the z-axis. The solid has a specified half-length along the z axis,
//   about which it is centered, and a given minimum and maximum radius.
//   A minimum radius of 0 signifies a filled Hype (with hyperbolical
//   inner surface). To have a filled Hype the user must specify
//   inner radius = 0 AND inner stereo angle = 0.
//
//   The inner and outer hyperbolical surfaces can have different
//   stereo angles. A stereo angle of 0 gives a cylindrical surface.
 
// Authors:
//      Ernesto Lamanna (Ernesto.Lamanna@roma1.infn.it) &
//      Francesco Safai Tehrani (Francesco.SafaiTehrani@roma1.infn.it)
//      Rome, INFN & University of Rome "La Sapienza",  9 June 1998.
// --------------------------------------------------------------------
#ifndef G4HYPE_HH
#define G4HYPE_HH
 
#include "G4GeomTypes.hh"
 
#if defined(G4GEOM_USE_USOLIDS)
#define G4GEOM_USE_UHYPE 1
#endif
 
#if (defined(G4GEOM_USE_UHYPE) && defined(G4GEOM_USE_SYS_USOLIDS))
  #define G4UHype G4Hype
  #include "G4UHype.hh"
#else
 
#include "G4VSolid.hh"
#include "G4ThreeVector.hh"
#include "G4Polyhedron.hh"
 
class G4SolidExtentList;
class G4ClippablePolygon;
 
class G4Hype : public G4VSolid
{
 public:  // with description
 
  G4Hype(const G4String& pName,
               G4double  newInnerRadius,
               G4double  newOuterRadius,
               G4double  newInnerStereo,
               G4double  newOuterStereo,
               G4double  newHalfLenZ);
 
  virtual ~G4Hype();
 
  void ComputeDimensions(G4VPVParameterisation* p,
                         const G4int n,
                         const G4VPhysicalVolume* pRep);
 
  void BoundingLimits(G4ThreeVector& pMin, G4ThreeVector& pMax) const;
 
  G4bool CalculateExtent(const EAxis pAxis,
                         const G4VoxelLimits& pVoxelLimit,
                         const G4AffineTransform& pTransform,
                               G4double& pMin, G4double& pMax) const;
 
  inline G4double GetInnerRadius () const;
  inline G4double GetOuterRadius () const;
  inline G4double GetZHalfLength () const;
  inline G4double GetInnerStereo () const;
  inline G4double GetOuterStereo () const;
 
  inline void SetInnerRadius (G4double newIRad);
  inline void SetOuterRadius (G4double newORad);
  inline void SetZHalfLength (G4double newHLZ);
  inline void SetInnerStereo (G4double newISte);
  inline void SetOuterStereo (G4double newOSte);
 
  EInside Inside(const G4ThreeVector& p) const;
 
  G4ThreeVector SurfaceNormal(const G4ThreeVector& p) const;
 
  G4double DistanceToIn(const G4ThreeVector& p, const G4ThreeVector& v) const;
  G4double DistanceToIn(const G4ThreeVector& p) const;
  G4double DistanceToOut(const G4ThreeVector& p, const G4ThreeVector& v,
                         const G4bool calcNorm = false,
                               G4bool* validNorm = nullptr,
                               G4ThreeVector* n = nullptr) const;
  G4double DistanceToOut(const G4ThreeVector& p) const;
 
  G4GeometryType  GetEntityType() const;
 
  G4VSolid* Clone() const;
 
  std::ostream& StreamInfo(std::ostream& os) const;
 
  G4double GetCubicVolume();
  G4double GetSurfaceArea();
 
  G4ThreeVector GetPointOnSurface() const;
 
  void          DescribeYourselfTo (G4VGraphicsScene& scene) const;
  G4VisExtent   GetExtent          () const;
  G4Polyhedron* CreatePolyhedron   () const;
  G4Polyhedron* GetPolyhedron      () const;
 
 public:  // without description
 
  G4Hype(__void__&);
    // Fake default constructor for usage restricted to direct object
    // persistency for clients requiring preallocation of memory for
    // persistifiable objects.
 
  G4Hype(const G4Hype& rhs);
  G4Hype& operator=(const G4Hype& rhs);
    // Copy constructor and assignment operator.
 
 protected:  // without description
 
  inline G4bool InnerSurfaceExists() const;
    // whether we have an inner surface or not
 
  static G4double ApproxDistOutside( G4double pr, G4double pz,
                                     G4double r0, G4double tanPhi );
  static G4double ApproxDistInside( G4double pr, G4double pz,
                                    G4double r0, G4double tan2Phi );
    // approximate isotropic distance to hyperbolic surface
 
  inline G4double HypeInnerRadius2(G4double zVal) const;
  inline G4double HypeOuterRadius2(G4double zVal) const;
    // values of hype radius at a given Z
 
  static G4int IntersectHype( const G4ThreeVector &p, const G4ThreeVector &v,
                              G4double r2, G4double tan2Phi, G4double s[2] );
    // intersection with hyperbolic surface
 
 protected:
 
  G4double innerRadius;
  G4double outerRadius;
  G4double halfLenZ;
  G4double innerStereo;
  G4double outerStereo;
 
  // precalculated parameters, squared quantities
 
  G4double tanInnerStereo;
  G4double tanOuterStereo;
  G4double tanInnerStereo2; // squared tan of Inner Stereo angle
  G4double tanOuterStereo2; // squared tan of Outer Stereo angle
  G4double innerRadius2;    // squared Inner Radius
  G4double outerRadius2;    // squared Outer Radius
  G4double endInnerRadius2; // squared endcap Inner Radius
  G4double endOuterRadius2; // squared endcap Outer Radius
  G4double endInnerRadius; // endcap Inner Radius
  G4double endOuterRadius; // endcap Outer Radius
 
  // Used by distanceToOut
 
  enum ESide {outerFace,innerFace,leftCap, rightCap};
 
 private:
 
  G4double asinh(G4double arg);
 
 private:
 
  G4double fCubicVolume = 0.0;
  G4double fSurfaceArea = 0.0;
 
  G4double fHalfTol;
 
  mutable G4bool fRebuildPolyhedron = false;
  mutable G4Polyhedron* fpPolyhedron = nullptr;
};
 
#include "G4Hype.icc"
 
#endif  // defined(G4GEOM_USE_UHYPE) && defined(G4GEOM_USE_SYS_USOLIDS)
 
#endif // G4HYPE_HH