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G4MIRDTrunk.cc
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25 //
26 // Authors: S. Guatelli , M. G. Pia, INFN Genova and F. Ambroglini INFN Perugia, Italy
27 //
28 // Based on code developed by the undergraduate student G. Guerrieri
29 // Note: this is a preliminary beta-version of the code; an improved
30 // version will be distributed in the next Geant4 public release, compliant
31 // with the design in a forthcoming publication, and subject to a
32 // design and code review.
33 //
34 #include "G4MIRDTrunk.hh"
35 
36 #include "globals.hh"
37 #include "G4SystemOfUnits.hh"
38 #include "G4SDManager.hh"
39 #include "G4VisAttributes.hh"
41 #include "G4EllipticalTube.hh"
42 #include "G4RotationMatrix.hh"
43 #include "G4ThreeVector.hh"
44 #include "G4VPhysicalVolume.hh"
45 #include "G4PVPlacement.hh"
46 #include "G4HumanPhantomColour.hh"
47 
49 {
50 }
51 
53 {
54 
55 }
56 
57 
59  const G4String& colourName, G4bool wireFrame,G4bool )
60 {
61 
63 
64  G4cout<<"Construct "<<volumeName<<" with mother volume "<<mother->GetName()<<G4endl;
65 
66  G4Material* soft = material -> GetMaterial("soft_tissue");
67 
68  delete material;
69 
70  // MIRD Male trunk
71 
72  G4double dx = 20. * cm;
73  G4double dy = 10. * cm;
74  G4double dz = 35. * cm;
75 
76  G4EllipticalTube* trunk = new G4EllipticalTube("Trunk",dx, dy, dz);
77 
78  G4LogicalVolume* logicTrunk = new G4LogicalVolume(trunk, soft,
79  "logical" + volumeName,
80  0, 0, 0);
81  // Define rotation and position here!
83  rm->rotateX(180.*degree);
84  rm->rotateY(180.*degree);
85  G4VPhysicalVolume* physTrunk = new G4PVPlacement(rm,
86  //G4ThreeVector(0.* cm, 0. *cm, 28.*cm), //FA
87  G4ThreeVector(0.* cm, 0. *cm, 35.*cm),
88  "physicalTrunk",
89  logicTrunk,
90  mother,
91  false,
92  0, true);
93 
94 
95 
96  // Visualization Attributes
97  G4HumanPhantomColour* colourPointer = new G4HumanPhantomColour();
98  G4Colour colour = colourPointer -> GetColour(colourName);
99  G4VisAttributes* TrunkVisAtt = new G4VisAttributes(colour);
100  TrunkVisAtt->SetForceSolid(wireFrame);
101  logicTrunk->SetVisAttributes(TrunkVisAtt);
102 
103  G4cout << "Trunk created !!!!!!" << G4endl;
104 
105  // Testing Trunk Volume
106  G4double TrunkVol = logicTrunk->GetSolid()->GetCubicVolume();
107  G4cout << "Volume of Trunk = " << TrunkVol/cm3 << " cm^3" << G4endl;
108 
109  // Testing Trunk Material
110  G4String TrunkMat = logicTrunk->GetMaterial()->GetName();
111  G4cout << "Material of Trunk = " << TrunkMat << G4endl;
112 
113  // Testing Density
114  G4double TrunkDensity = logicTrunk->GetMaterial()->GetDensity();
115  G4cout << "Density of Material = " << TrunkDensity*cm3/g << " g/cm^3" << G4endl;
116 
117  // Testing Mass
118  G4double TrunkMass = (TrunkVol)*TrunkDensity;
119  G4cout << "Mass of Trunk = " << TrunkMass/gram << " g" << G4endl;
120 
121 
122  return physTrunk;
123 }
CLHEP::Hep3Vector G4ThreeVector
HepRotation & rotateX(double delta)
Definition: Rotation.cc:66
CLHEP::HepRotation G4RotationMatrix
G4Material * GetMaterial() const
const G4String & GetName() const
Definition: G4Material.hh:176
virtual G4double GetCubicVolume()
Definition: G4VSolid.cc:188
G4double GetDensity() const
Definition: G4Material.hh:178
HepRotation & rotateY(double delta)
Definition: Rotation.cc:79
void SetForceSolid(G4bool)
string material
Definition: eplot.py:19
function g(Y1, Y2, PT2)
Definition: hijing1.383.f:5205
G4VPhysicalVolume * Construct(const G4String &, G4VPhysicalVolume *, const G4String &, G4bool, G4bool)
Definition: G4MIRDTrunk.cc:58
G4GLOB_DLL std::ostream G4cout
const G4String & GetName() const
tuple degree
Definition: hepunit.py:69
bool G4bool
Definition: G4Types.hh:79
#define G4endl
Definition: G4ios.hh:61
double G4double
Definition: G4Types.hh:76
void SetVisAttributes(const G4VisAttributes *pVA)
G4VSolid * GetSolid() const