#include <G4EzVolume.hh>

Collaboration diagram for G4EzVolume:

Public Member Functions
	G4EzVolume ()

	G4EzVolume (const G4String &aname)

	~G4EzVolume ()

void	CreateBoxVolume (G4Material *amaterial, G4double dx, G4double dy, G4double dz)

void	CreateTubeVolume (G4Material amaterial, G4double rmin, G4double rmax, G4double dz, G4double phi0=0., G4double dphi=360 deg)

void	CreateConeVolume (G4Material amaterial, G4double rmin1, G4double rmax1, G4double rmin2, G4double rmax2, G4double dz, G4double phi0=0., G4double dphi=360.deg)

void	CreateSphereVolume (G4Material amaterial, G4double rmin, G4double rmax, G4double phi0=0., G4double dphi=360.deg, G4double theta0=0., G4double dtheta=180.*deg)

void	CreateOrbVolume (G4Material *amaterial, G4double rmax)

G4VPhysicalVolume *	PlaceIt (const G4ThreeVector &pos, G4int ncopy=0, G4EzVolume *parent=0)

G4VPhysicalVolume *	PlaceIt (const G4Transform3D &transform, G4int ncopy=0, G4EzVolume *parent=0)

G4VPhysicalVolume *	ReplicateIt (G4EzVolume *parent, EAxis pAxis, G4int nReplicas, G4double width, G4double offset=0)

G4ThreeVector	VoxelizeIt (G4int nx, G4int ny, G4int nz)

void	SetSensitiveDetector (G4VSensitiveDetector *asd)

const G4String &	GetName () const

void	SetSolid (G4VSolid *asolid)

const G4VSolid *	GetSolid () const

void	SetMaterial (G4Material *amaterial)

G4Material *	GetMaterial () const

G4int	GetNofPlacements () const

void	SetVisibility (G4bool qvisible)

void	SetColor (const G4Color &color)

void	SetColor (G4double red, G4double green, G4double blue)

Protected Attributes
G4String	name

G4VSolid *	solid

G4LogicalVolume *	lv

G4LogicalVolume *	lvsub

G4VisAttributes *	va

G4int	nplacement

Detailed Description

Definition at line 52 of file G4EzVolume.hh.

Constructor & Destructor Documentation

G4EzVolume::G4EzVolume ( )

Definition at line 54 of file G4EzVolume.cc.

   : name("MyVolume"),
     solid(0), 
     lv(0), lvsub(0),
     nplacement(0)
 {
 }

G4EzVolume::G4EzVolume ( const G4String & aname )

Definition at line 65 of file G4EzVolume.cc.

   : name(aname), solid(0), lv(0), lvsub(0),
     nplacement(0)
 {
 }

G4EzVolume::~G4EzVolume ( )

Definition at line 74 of file G4EzVolume.cc.

76 {

77 }

Member Function Documentation

void G4EzVolume::CreateBoxVolume	(	G4Material *	amaterial,
		G4double	dx,
		G4double	dy,
		G4double	dz
	)

Definition at line 81 of file G4EzVolume.cc.

 {
   if(lv !=0 ) {
     G4cout << "%%% Warning (G4EzVolume): volume is already created."
        << G4endl;
     return;
   }
 
   solid= new G4Box(name, dx/2., dy/2., dz/2.);
   lv= new G4LogicalVolume(solid, amaterial, name);
 
   // vis. attributes
   va= new G4VisAttributes();
   lv-> SetVisAttributes(va);
 }

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void G4EzVolume::CreateConeVolume	(	G4Material *	amaterial,
		G4double	rmin1,
		G4double	rmax1,
		G4double	rmin2,
		G4double	rmax2,
		G4double	dz,
		G4double	phi0 = `0.`,
		G4double	dphi = `360.*deg`
	)

Definition at line 122 of file G4EzVolume.cc.

 {
   if(lv !=0 ) {
     G4cout << "%%% Warning (G4EzVolume): volume is already created."
        << G4endl;
     return;
   }
 
   solid= new G4Cons(name, rmin1, rmax1, rmin2, rmax2, 
             dz, phi0, dphi);
   lv= new G4LogicalVolume(solid, amaterial, name);
 
   // vis. attributes
   va= new G4VisAttributes();
   lv-> SetVisAttributes(va);
 }

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void G4EzVolume::CreateOrbVolume	(	G4Material *	amaterial,
		G4double	rmax
	)

Definition at line 168 of file G4EzVolume.cc.

 {
   if(lv !=0 ) {
     G4cout << "%%% Warning (G4EzVolume): volume is already created."
        << G4endl;
     return;
   }
 
   solid= new G4Orb(name, rmax);
   lv= new G4LogicalVolume(solid, amaterial, name);
 
   // vis. attributes
   va= new G4VisAttributes();
   lv-> SetVisAttributes(va);
 }

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void G4EzVolume::CreateSphereVolume	(	G4Material *	amaterial,
		G4double	rmin,
		G4double	rmax,
		G4double	phi0 = `0.`,
		G4double	dphi = `360.*deg`,
		G4double	theta0 = `0.`,
		G4double	dtheta = `180.*deg`
	)

Definition at line 146 of file G4EzVolume.cc.

 {
   if(lv !=0 ) {
     G4cout << "%%% Warning (G4EzVolume): volume is already created."
        << G4endl;
     return;
   }
 
   solid= new G4Sphere(name, rmin, rmax, phi0, dphi, theta0, dtheta);
   lv= new G4LogicalVolume(solid, amaterial, name);
 
   // vis. attributes
   va= new G4VisAttributes();
   lv-> SetVisAttributes(va);
 }

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void G4EzVolume::CreateTubeVolume	(	G4Material *	amaterial,
		G4double	rmin,
		G4double	rmax,
		G4double	dz,
		G4double	phi0 = `0.`,
		G4double	dphi = `360*deg`
	)

Definition at line 101 of file G4EzVolume.cc.

 {
   if(lv !=0 ) {
     G4cout << "%%% Warning (G4EzVolume): volume is already created."
        << G4endl;
     return;
   }
 
   solid= new G4Tubs(name, rmin, rmax, dz, phi0, dphi);
   lv= new G4LogicalVolume(solid, amaterial, name);
 
   // vis. attributes
   va= new G4VisAttributes();
   lv-> SetVisAttributes(va);
 }

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G4Material * G4EzVolume::GetMaterial ( ) const

inline

Definition at line 143 of file G4EzVolume.hh.

 { 
   if(lv!=0) return lv-> GetMaterial();
   else return 0;
 }

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const G4String & G4EzVolume::GetName ( ) const

inline

Definition at line 131 of file G4EzVolume.hh.

131 { return name; }

G4EzVolume::name

G4String name

Definition: G4EzVolume.hh:55

G4int G4EzVolume::GetNofPlacements ( ) const

inline

Definition at line 149 of file G4EzVolume.hh.

149 { return nplacement; }

G4EzVolume::nplacement

G4int nplacement

Definition: G4EzVolume.hh:60

const G4VSolid * G4EzVolume::GetSolid ( ) const

inline

Definition at line 135 of file G4EzVolume.hh.

135 { return solid; }

G4EzVolume::solid

G4VSolid * solid

Definition: G4EzVolume.hh:56

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G4VPhysicalVolume * G4EzVolume::PlaceIt	(	const G4ThreeVector &	pos,
		G4int	ncopy = `0`,
		G4EzVolume *	parent = `0`
	)

Definition at line 187 of file G4EzVolume.cc.

 {
   if(lv==0) {
     G4cout << "%%% Warning (G4EzVolume): volume is not yet created."
        << G4endl;
     return 0;
   }
   
   G4PVPlacement* pv;
   if(parent==0) { // place it in the world
     G4VPhysicalVolume* world= G4EzWorld::GetWorldVolume();
     pv= new G4PVPlacement(0, pos, name, lv, world, false, ncopy);
   } else {
     pv= new G4PVPlacement(0, pos, lv, name, parent->lv, false, ncopy);
   }
 
   nplacement++;
   return pv;
 }

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G4VPhysicalVolume * G4EzVolume::PlaceIt	(	const G4Transform3D &	transform,
		G4int	ncopy = `0`,
		G4EzVolume *	parent = `0`
	)

Definition at line 212 of file G4EzVolume.cc.

 {
   if(lv==0) {
     G4cout << "%%% Warning (G4EzVolume): volume is not yet created."
        << G4endl;
     return 0;
   }
 
   G4PVPlacement* pv;
   if(parent==0) { // place it in the world
     G4VPhysicalVolume* world= G4EzWorld::GetWorldVolume();
     pv= new G4PVPlacement(transform, name, lv, world, false, ncopy);
   } else {
     pv= new G4PVPlacement(transform, lv, name, parent->lv, false, ncopy);
   }
 
   nplacement++;
   return pv;
 }

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G4VPhysicalVolume * G4EzVolume::ReplicateIt	(	G4EzVolume *	parent,
		EAxis	pAxis,
		G4int	nReplicas,
		G4double	width,
		G4double	offset = `0`
	)

Definition at line 237 of file G4EzVolume.cc.

 {
   if(lv==0) {
     G4cout << "%%% Warning (G4EzVolume): volume is not yet created."
        << G4endl;
     return 0;
   }
 
   G4PVReplica* pv= 
     new G4PVReplica(name, lv, parent->lv, pAxis, nReplicas, width, offset);
 
   nplacement += nReplicas;
   return pv;
 }

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void G4EzVolume::SetColor ( const G4Color & color )

inline

Definition at line 156 of file G4EzVolume.hh.

 {
   if(va!=0) va-> SetColor(color);
 }

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void G4EzVolume::SetColor	(	G4double	red,
		G4double	green,
		G4double	blue
	)

inline

Definition at line 161 of file G4EzVolume.hh.

 {
   if(va!=0) va-> SetColor(red, green, blue);  
 }

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void G4EzVolume::SetMaterial ( G4Material * amaterial )

inline

Definition at line 137 of file G4EzVolume.hh.

 {
   if(lv!= 0) lv-> SetMaterial(amaterial);
   if(lvsub!= 0) lvsub-> SetMaterial(amaterial);
 }

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void G4EzVolume::SetSensitiveDetector ( G4VSensitiveDetector * asd )

Definition at line 301 of file G4EzVolume.cc.

 {
   if(lvsub!=0) {
     lvsub-> SetSensitiveDetector(asd);
     return;
   }
 
   if(lv!=0) lv-> SetSensitiveDetector(asd);
 
 }

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void G4EzVolume::SetSolid ( G4VSolid * asolid )

inline

Definition at line 133 of file G4EzVolume.hh.

133 { solid= asolid; }

G4EzVolume::solid

G4VSolid * solid

Definition: G4EzVolume.hh:56

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void G4EzVolume::SetVisibility ( G4bool qvisible )

inline

Definition at line 151 of file G4EzVolume.hh.

 {
   if(va!=0) va-> SetVisibility(qvisible);
 }

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G4ThreeVector G4EzVolume::VoxelizeIt	(	G4int	nx,
		G4int	ny,
		G4int	nz
	)

Definition at line 257 of file G4EzVolume.cc.

 {
   // creating voxel volume...
   G4Box* avolume= dynamic_cast<G4Box*>(solid);
   if(avolume ==0 ) {
     G4cout << "%%% Error (G4EzVolume): voxelization is valid " 
        << "only for Box geometry." << G4endl;
     return G4ThreeVector();
   }
 
   if(lvsub !=0) {
     G4cout << "%%% Error (G4EzVolume): already voxelized." << G4endl;
     return G4ThreeVector();
   }
 
   G4double dx= (avolume-> GetXHalfLength())*2.;
   G4double dy= (avolume-> GetYHalfLength())*2.;
   G4double dz= (avolume-> GetZHalfLength())*2.;
 
   // voxel size
   G4double ddx= dx/nx;
   G4double ddy= dy/ny;
   G4double ddz= dz/nz;
 
   G4Box* voxel= new G4Box("voxel", ddx/2., ddy/2., ddz/2.);
   G4Material* voxelMaterial= lv-> GetMaterial();
   lvsub= new G4LogicalVolume(voxel, voxelMaterial, "voxel");
 
   G4VisAttributes* vavoxel= new G4VisAttributes(G4Color(1.,0.,0.));
   lvsub-> SetVisAttributes(vavoxel);
   
   G4EzVoxelParameterization* voxelParam=
     new G4EzVoxelParameterization(ddx, ddy, ddz, nx, ny, nz);
   G4int nvoxel= nx*ny*nz;
   new G4PVParameterised(name+"_voxel", lvsub, lv, kXAxis, 
             nvoxel, voxelParam);
 
   return G4ThreeVector(ddx, ddy, ddz);
 }

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Member Data Documentation

G4LogicalVolume* G4EzVolume::lv

protected

Definition at line 57 of file G4EzVolume.hh.

G4LogicalVolume* G4EzVolume::lvsub

protected

Definition at line 58 of file G4EzVolume.hh.

G4String G4EzVolume::name

protected

Definition at line 55 of file G4EzVolume.hh.

G4int G4EzVolume::nplacement

protected

Definition at line 60 of file G4EzVolume.hh.

G4VSolid* G4EzVolume::solid

protected

Definition at line 56 of file G4EzVolume.hh.

G4VisAttributes* G4EzVolume::va

protected

Definition at line 59 of file G4EzVolume.hh.

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

source/geant4.10.03.p03/environments/g4py/site-modules/geometries/ezgeom/G4EzVolume.hh
source/geant4.10.03.p03/environments/g4py/site-modules/geometries/ezgeom/G4EzVolume.cc

Public Member Functions

Protected Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation