G4PartialPhantomParameterisation Class Reference

#include <G4PartialPhantomParameterisation.hh>

Inheritance diagram for G4PartialPhantomParameterisation:

Public Member Functions
	G4PartialPhantomParameterisation ()
	~G4PartialPhantomParameterisation ()
void	ComputeTransformation (const G4int, G4VPhysicalVolume *) const
G4Material *	ComputeMaterial (const G4int repNo, G4VPhysicalVolume *currentVol, const G4VTouchable *parentTouch=0)
G4int	GetReplicaNo (const G4ThreeVector &localPoint, const G4ThreeVector &localDir)
G4ThreeVector	GetTranslation (const G4int copyNo) const
size_t	GetMaterialIndex (size_t nx, size_t ny, size_t nz) const
size_t	GetMaterialIndex (size_t copyNo) const
G4Material *	GetMaterial (size_t nx, size_t ny, size_t nz) const
G4Material *	GetMaterial (size_t copyNo) const
void	SetFilledIDs (std::multimap< G4int, G4int > fid)
void	SetFilledMins (std::map< G4int, std::map< G4int, G4int > > fmins)
void	BuildContainerWalls ()
Public Member Functions inherited from G4PhantomParameterisation
	G4PhantomParameterisation ()
	~G4PhantomParameterisation ()
virtual void	ComputeTransformation (const G4int, G4VPhysicalVolume *) const
virtual G4VSolid *	ComputeSolid (const G4int, G4VPhysicalVolume *)
virtual G4Material *	ComputeMaterial (const G4int repNo, G4VPhysicalVolume *currentVol, const G4VTouchable *parentTouch=0)
void	ComputeDimensions (G4Box &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Tubs &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Trd &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Trap &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Cons &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Orb &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Sphere &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Torus &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Para &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Hype &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Polycone &, const G4int, const G4VPhysicalVolume *) const
void	ComputeDimensions (G4Polyhedra &, const G4int, const G4VPhysicalVolume *) const
void	BuildContainerSolid (G4VPhysicalVolume *pPhysicalVol)
void	BuildContainerSolid (G4VSolid *pMotherSolid)
virtual G4int	GetReplicaNo (const G4ThreeVector &localPoint, const G4ThreeVector &localDir)
void	SetMaterials (std::vector< G4Material * > &mates)
void	SetMaterialIndices (size_t *matInd)
void	SetVoxelDimensions (G4double halfx, G4double halfy, G4double halfz)
void	SetNoVoxel (size_t nx, size_t ny, size_t nz)
G4double	GetVoxelHalfX () const
G4double	GetVoxelHalfY () const
G4double	GetVoxelHalfZ () const
size_t	GetNoVoxelX () const
size_t	GetNoVoxelY () const
size_t	GetNoVoxelZ () const
size_t	GetNoVoxel () const
std::vector< G4Material * >	GetMaterials () const
size_t *	GetMaterialIndices () const
G4VSolid *	GetContainerSolid () const
G4ThreeVector	GetTranslation (const G4int copyNo) const
G4bool	SkipEqualMaterials () const
void	SetSkipEqualMaterials (G4bool skip)
size_t	GetMaterialIndex (size_t nx, size_t ny, size_t nz) const
size_t	GetMaterialIndex (size_t copyNo) const
G4Material *	GetMaterial (size_t nx, size_t ny, size_t nz) const
G4Material *	GetMaterial (size_t copyNo) const
void	CheckVoxelsFillContainer (G4double contX, G4double contY, G4double contZ) const
Public Member Functions inherited from G4VPVParameterisation
	G4VPVParameterisation ()
virtual	~G4VPVParameterisation ()
virtual void	ComputeTransformation (const G4int, G4VPhysicalVolume *) const =0
virtual G4VSolid *	ComputeSolid (const G4int, G4VPhysicalVolume *)
virtual G4Material *	ComputeMaterial (const G4int repNo, G4VPhysicalVolume *currentVol, const G4VTouchable *parentTouch=0)
virtual G4bool	IsNested () const
virtual G4VVolumeMaterialScanner *	GetMaterialScanner ()
virtual void	ComputeDimensions (G4Box &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Tubs &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Trd &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Trap &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Cons &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Sphere &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Orb &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Torus &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Para &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Polycone &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Polyhedra &, const G4int, const G4VPhysicalVolume *) const
virtual void	ComputeDimensions (G4Hype &, const G4int, const G4VPhysicalVolume *) const

Additional Inherited Members
Protected Attributes inherited from G4PhantomParameterisation
G4double	fVoxelHalfX
G4double	fVoxelHalfY
G4double	fVoxelHalfZ
size_t	fNoVoxelX
size_t	fNoVoxelY
size_t	fNoVoxelZ
size_t	fNoVoxelXY
size_t	fNoVoxel
std::vector< G4Material * >	fMaterials
size_t *	fMaterialIndices
G4VSolid *	fContainerSolid
G4double	fContainerWallX
G4double	fContainerWallY
G4double	fContainerWallZ
G4double	kCarTolerance
G4bool	bSkipEqualMaterials

Detailed Description

Definition at line 57 of file G4PartialPhantomParameterisation.hh.

Constructor & Destructor Documentation

G4PartialPhantomParameterisation()

G4PartialPhantomParameterisation::G4PartialPhantomParameterisation

(

)

Definition at line 49 of file G4PartialPhantomParameterisation.cc.

  : G4PhantomParameterisation()
{
}

~G4PartialPhantomParameterisation()

G4PartialPhantomParameterisation::~G4PartialPhantomParameterisation

(

)

Definition at line 56 of file G4PartialPhantomParameterisation.cc.

{
}

Member Function Documentation

BuildContainerWalls()

void G4PartialPhantomParameterisation::BuildContainerWalls

(

)

Definition at line 340 of file G4PartialPhantomParameterisation.cc.

{
  fContainerWallX = fNoVoxelX * fVoxelHalfX;
  fContainerWallY = fNoVoxelY * fVoxelHalfY;
  fContainerWallZ = fNoVoxelZ * fVoxelHalfZ;
}

ComputeMaterial()

G4Material * G4PartialPhantomParameterisation::ComputeMaterial ( const G4int  repNo, G4VPhysicalVolume *  currentVol, const G4VTouchable *  parentTouch = 0  )

virtual

Reimplemented from G4PhantomParameterisation.

Definition at line 90 of file G4PartialPhantomParameterisation.cc.

{ 
  CheckCopyNo( copyNo );
  size_t matIndex = GetMaterialIndex(copyNo);
 
  return fMaterials[ matIndex ];
}

ComputeTransformation()

void G4PartialPhantomParameterisation::ComputeTransformation ( const G4int  copyNo, G4VPhysicalVolume *  physVol  ) const

virtual

Reimplemented from G4PhantomParameterisation.

Definition at line 61 of file G4PartialPhantomParameterisation.cc.

{
  // Voxels cannot be rotated, return translation
  //
  G4ThreeVector trans = GetTranslation( copyNo );
  physVol->SetTranslation( trans );
}

GetMaterial() [1/2]

G4Material * G4PartialPhantomParameterisation::GetMaterial

(

size_t

copyNo

)

const

Definition at line 130 of file G4PartialPhantomParameterisation.cc.

{
  return fMaterials[GetMaterialIndex(copyNo)];
}

GetMaterial() [2/2]

G4Material * G4PartialPhantomParameterisation::GetMaterial	(	size_t	nx,
		size_t	ny,
		size_t	nz
	)		const

Definition at line 122 of file G4PartialPhantomParameterisation.cc.

{
  return fMaterials[GetMaterialIndex(nx,ny,nz)];
}

GetMaterialIndex() [1/2]

size_t G4PartialPhantomParameterisation::GetMaterialIndex

(

size_t

copyNo

)

const

Definition at line 101 of file G4PartialPhantomParameterisation.cc.

{
  CheckCopyNo( copyNo );
 
  if( !fMaterialIndices ) { return 0; }
 
  return *(fMaterialIndices+copyNo);
}

GetMaterialIndex() [2/2]

size_t G4PartialPhantomParameterisation::GetMaterialIndex	(	size_t	nx,
		size_t	ny,
		size_t	nz
	)		const

Definition at line 113 of file G4PartialPhantomParameterisation.cc.

{
  size_t copyNo = nx + fNoVoxelX*ny + fNoVoxelXY*nz;
  return GetMaterialIndex( copyNo );
}

Referenced by ComputeMaterial(), GetMaterial(), and GetMaterialIndex().

GetReplicaNo()

G4int G4PartialPhantomParameterisation::GetReplicaNo ( const G4ThreeVector &  localPoint, const G4ThreeVector &  localDir  )

virtual

Reimplemented from G4PhantomParameterisation.

Definition at line 164 of file G4PartialPhantomParameterisation.cc.

{
  // Check the voxel numbers corresponding to localPoint
  // When a particle is on a surface, it may be between -kCarTolerance and
  // +kCartolerance. By a simple distance as:
  //   G4int nx = G4int( (localPoint.x()+)/fVoxelHalfX/2.);
  // those between -kCartolerance and 0 will be placed on voxel N-1 and those
  // between 0 and kCarTolerance on voxel N.
  // To avoid precision problems place the tracks that are on the surface on
  // voxel N-1 if they have negative direction and on voxel N if they have
  // positive direction.
  // Add +kCarTolerance so that they are first placed on voxel N, and then
  // if the direction is negative substract 1
 
  G4double fx = (localPoint.x()+fContainerWallX+kCarTolerance)/(fVoxelHalfX*2.);
  G4int nx = G4int(fx);
 
  G4double fy = (localPoint.y()+fContainerWallY+kCarTolerance)/(fVoxelHalfY*2.);
  G4int ny = G4int(fy);
 
  G4double fz = (localPoint.z()+fContainerWallZ+kCarTolerance)/(fVoxelHalfZ*2.);
  G4int nz = G4int(fz);
 
  // If it is on the surface side, check the direction: if direction is
  // negative place it on the previous voxel (if direction is positive it is
  // already in the next voxel...). 
  // Correct also cases where n = -1 or n = fNoVoxel. It is always traced to be
  // due to multiple scattering: track is entering a voxel but multiple
  // scattering changes the angle towards outside
  //
  if( fx - nx < kCarTolerance/fVoxelHalfX )
  {
    if( localDir.x() < 0 )
    {
      if( nx != 0 )
      {
        nx -= 1;
      }
    }
    else
    {
      if( nx == G4int(fNoVoxelX) )  
      {
        nx -= 1;       
      }
    }
  }
  if( fy - ny < kCarTolerance/fVoxelHalfY )
  {
    if( localDir.y() < 0 )
    {
      if( ny != 0 )
      {
        ny -= 1;
      }
    }
    else
    {
      if( ny == G4int(fNoVoxelY) )  
      {
        ny -= 1;       
      }
    }
  }
  if( fz - nz < kCarTolerance/fVoxelHalfZ )
  {
    if( localDir.z() < 0 )
    {
      if( nz != 0 )
      {
        nz -= 1;
      }
    }
    else
    {
      if( nz == G4int(fNoVoxelZ) )  
      {
        nz -= 1;       
      }
    }
  }
  
  // Check if there are still errors 
  //
  G4bool isOK = true;
  if( nx < 0 )
  {
    nx = 0;
    isOK = false;
  }
  else if( nx >= G4int(fNoVoxelX) )
  {
    nx = fNoVoxelX-1;
    isOK = false;
  }
  if( ny < 0 )
  {
    ny = 0;
    isOK = false;
  }
  else if( ny >= G4int(fNoVoxelY) )
  {
    ny = fNoVoxelY-1;
    isOK = false;
  }
  if( nz < 0 )
  {
    nz = 0;
    isOK = false;
  }
  else if( nz >= G4int(fNoVoxelZ) )
  {
    nz = fNoVoxelZ-1;
    isOK = false;
  }
  if( !isOK )
  {
    std::ostringstream message;
    message << "Corrected the copy number! It was negative or too big."
            << G4endl
            << "          LocalPoint: " << localPoint << G4endl
            << "          LocalDir: " << localDir << G4endl
            << "          Voxel container size: " << fContainerWallX
            << " " << fContainerWallY << " " << fContainerWallZ << G4endl
            << "          LocalPoint - wall: "
            << localPoint.x()-fContainerWallX << " "
            << localPoint.y()-fContainerWallY << " "
            << localPoint.z()-fContainerWallZ;
    G4Exception("G4PartialPhantomParameterisation::GetReplicaNo()",
                "GeomNav1002", JustWarning, message);
  }
 
  G4int nyz = nz*fNoVoxelY+ny;
  std::multimap<G4int,G4int>::iterator ite = fFilledIDs.begin();
/*
  for( ite = fFilledIDs.begin(); ite != fFilledIDs.end(); ite++ )
  {
    G4cout << " G4PartialPhantomParameterisation::GetReplicaNo filled "
           << (*ite).first << " , " << (*ite).second << std::endl;
  }
*/
  ite = fFilledIDs.begin();
 
  advance(ite,nyz);
  std::multimap<G4int,G4int>::iterator iteant = ite; iteant--;
  G4int copyNo = (*iteant).first + 1 + ( nx - (*ite).second );
/*
  G4cout << " G4PartialPhantomParameterisation::GetReplicaNo getting copyNo "
         << copyNo << "  nyz " << nyz << "  (*iteant).first "
         << (*iteant).first << "  (*ite).second " <<  (*ite).second << G4endl;
 
  G4cout << " G4PartialPhantomParameterisation::GetReplicaNo " << copyNo
         << " nx " << nx << " ny " << ny << " nz " << nz
         << " localPoint " << localPoint << " localDir " << localDir << G4endl;
*/
  return copyNo;
}

GetTranslation()

G4ThreeVector G4PartialPhantomParameterisation::GetTranslation

(

const G4int

copyNo

)

const

Definition at line 72 of file G4PartialPhantomParameterisation.cc.

{
  CheckCopyNo( copyNo );
 
  size_t nx;
  size_t ny;
  size_t nz;
  ComputeVoxelIndices( copyNo, nx, ny, nz );
 
  G4ThreeVector trans( (2*nx+1)*fVoxelHalfX - fContainerWallX,
                       (2*ny+1)*fVoxelHalfY - fContainerWallY,
                       (2*nz+1)*fVoxelHalfZ - fContainerWallZ);
  return trans;
}

Referenced by ComputeTransformation().

SetFilledIDs()

void G4PartialPhantomParameterisation::SetFilledIDs ( std::multimap< G4int, G4int >  fid )

inline

Definition at line 83 of file G4PartialPhantomParameterisation.hh.

                                                       {
      fFilledIDs = fid; 
    }

SetFilledMins()

void G4PartialPhantomParameterisation::SetFilledMins ( std::map< G4int, std::map< G4int, G4int > >  fmins )

inline

Definition at line 87 of file G4PartialPhantomParameterisation.hh.

                                                                     {
      fFilledMins = fmins;
    }

---

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

• G4PartialPhantomParameterisation.hh
• G4PartialPhantomParameterisation.cc