source: trunk/source/geometry/solids/Boolean/src/G4BooleanSolid.cc@ 1228

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// $Id: G4BooleanSolid.cc,v 1.21 2006/10/19 15:34:49 gcosmo Exp $
// GEANT4 tag $Name: geant4-09-03 $
//
// Implementation for the abstract base class for solids created by boolean 
// operations between other solids
//
// History:
//
// 10.09.98 V.Grichine, created
//
// --------------------------------------------------------------------

#include "G4BooleanSolid.hh"
#include "G4VSolid.hh"
#include "G4Polyhedron.hh"
#include "Randomize.hh"

//////////////////////////////////////////////////////////////////
//
// Constructor

G4BooleanSolid::G4BooleanSolid( const G4String& pName,
                                G4VSolid* pSolidA ,
                                G4VSolid* pSolidB   ) :
  G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
  fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
  fpPolyhedron(0), createdDisplacedSolid(false)
{
  fPtrSolidA = pSolidA ;
  fPtrSolidB = pSolidB ;
}

//////////////////////////////////////////////////////////////////
//
// Constructor

G4BooleanSolid::G4BooleanSolid( const G4String& pName,
                                      G4VSolid* pSolidA ,
                                      G4VSolid* pSolidB ,
                                      G4RotationMatrix* rotMatrix,
                                const G4ThreeVector& transVector    ) :
  G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
  fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
  fpPolyhedron(0), createdDisplacedSolid(true)
{
  fPtrSolidA = pSolidA ;
  fPtrSolidB = new G4DisplacedSolid("placedB",pSolidB,rotMatrix,transVector) ;
}

//////////////////////////////////////////////////////////////////
//
// Constructor

G4BooleanSolid::G4BooleanSolid( const G4String& pName,
                                      G4VSolid* pSolidA ,
                                      G4VSolid* pSolidB ,
                                const G4Transform3D& transform    ) :
  G4VSolid(pName), fStatistics(1000000), fCubVolEpsilon(0.001),
  fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
  fpPolyhedron(0), createdDisplacedSolid(true)
{
  fPtrSolidA = pSolidA ;
  fPtrSolidB = new G4DisplacedSolid("placedB",pSolidB,transform) ;
}

///////////////////////////////////////////////////////////////
//
// Fake default constructor - sets only member data and allocates memory
//                            for usage restricted to object persistency.

G4BooleanSolid::G4BooleanSolid( __void__& a )
  : G4VSolid(a), fPtrSolidA(0), fPtrSolidB(0),
    fStatistics(1000000), fCubVolEpsilon(0.001), 
    fAreaAccuracy(-1.), fCubicVolume(0.), fSurfaceArea(0.),
    fpPolyhedron(0), createdDisplacedSolid(false)
{
}

///////////////////////////////////////////////////////////////
//
// Destructor deletes transformation contents of the created displaced solid

G4BooleanSolid::~G4BooleanSolid() 
{
  if(createdDisplacedSolid)
  {
    ((G4DisplacedSolid*)fPtrSolidB)->CleanTransformations();
  }
  delete fpPolyhedron;
}

///////////////////////////////////////////////////////////////
//
// If Solid is made up from a Boolean operation of two solids,
//   return the corresponding solid (for no=0 and 1)
// If the solid is not a "Boolean", return 0

const G4VSolid* G4BooleanSolid::GetConstituentSolid(G4int no) const
{
  const G4VSolid*  subSolid=0;
  if( no == 0 )  
    subSolid = fPtrSolidA;
  else if( no == 1 ) 
    subSolid = fPtrSolidB;
  else
  {
    DumpInfo();
    G4Exception("G4BooleanSolid::GetConstituentSolid()",
                "WrongArgumentValue", FatalException,
                "Invalid solid index.");
  }

  return subSolid;
}

///////////////////////////////////////////////////////////////
//
// If Solid is made up from a Boolean operation of two solids,
//   return the corresponding solid (for no=0 and 1)
// If the solid is not a "Boolean", return 0

G4VSolid* G4BooleanSolid::GetConstituentSolid(G4int no)
{
  G4VSolid*  subSolid=0;
  if( no == 0 )  
    subSolid = fPtrSolidA;
  else if( no == 1 ) 
    subSolid = fPtrSolidB;
  else
  {
    DumpInfo();
    G4Exception("G4BooleanSolid::GetConstituentSolid()",
                "WrongArgumentValue", FatalException,
                "Invalid solid index.");
  }

  return subSolid;
}

//////////////////////////////////////////////////////////////////////////
//
// Returns entity type

G4GeometryType G4BooleanSolid::GetEntityType() const 
{
  return G4String("G4BooleanSolid");
}

//////////////////////////////////////////////////////////////////////////
//
// Stream object contents to an output stream

std::ostream& G4BooleanSolid::StreamInfo(std::ostream& os) const
{
  os << "-----------------------------------------------------------\n"
     << "    *** Dump for Boolean solid - " << GetName() << " ***\n"
     << "    ===================================================\n"
     << " Solid type: " << GetEntityType() << "\n"
     << " Parameters of constituent solids: \n"
     << "===========================================================\n";
  fPtrSolidA->StreamInfo(os);
  fPtrSolidB->StreamInfo(os);
  os << "===========================================================\n";

  return os;
}

//////////////////////////////////////////////////////////////////////////
//
// Returns a point (G4ThreeVector) randomly and uniformly selected
// on the solid surface
//

G4ThreeVector G4BooleanSolid::GetPointOnSurface() const
{
  G4bool condition = true;
  G4double rand;
  G4ThreeVector p;

  while(condition)
  {
    rand = G4UniformRand();

    if(rand > 0.5) { p = fPtrSolidA->GetPointOnSurface(); }
    else           { p = fPtrSolidB->GetPointOnSurface(); }

    if(Inside(p) == kSurface)  { break; }
  }
  return p;
}

//////////////////////////////////////////////////////////////////////////
//
// Returns polyhedron for visualization

G4Polyhedron* G4BooleanSolid::GetPolyhedron () const
{
  if (!fpPolyhedron ||
      fpPolyhedron->GetNumberOfRotationStepsAtTimeOfCreation() !=
      fpPolyhedron->GetNumberOfRotationSteps())
    {
      delete fpPolyhedron;
      fpPolyhedron = CreatePolyhedron();
    }
  return fpPolyhedron;
}