Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4PartialPhantomParameterisation.hh
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1//
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25//
26// class G4PartialPhantomParameterisation
27//
28// Class description:
29//
30// Describes partial regular parameterisations, i.e. the voxels do not
31// completely fill the container in the three dimensions
32
33// History:
34// - Created: P.Arce, September 2010
35// --------------------------------------------------------------------
36#ifndef G4PartialPhantomParameterisation_HH
37#define G4PartialPhantomParameterisation_HH
38
39#include <map>
40#include <set>
41#include <utility>
42#include <vector>
43
44#include "G4Types.hh"
45#include "G4PhantomParameterisation.hh"
46#include "G4AffineTransform.hh"
47#include "G4VTouchable.hh"
48
49class G4VPhysicalVolume;
50class G4VSolid;
51class G4Material;
52
53class G4PartialPhantomParameterisation : public G4PhantomParameterisation
54{
55 public: // with description
56
57 G4PartialPhantomParameterisation();
58 ~G4PartialPhantomParameterisation() override;
59
60 void ComputeTransformation(const G4int, G4VPhysicalVolume *) const override;
61
62 G4Material* ComputeMaterial(const G4int repNo,
63 G4VPhysicalVolume *currentVol,
64 const G4VTouchable *parentTouch = nullptr) override;
65
66 G4int GetReplicaNo( const G4ThreeVector& localPoint,
67 const G4ThreeVector& localDir ) override;
68 // Get the voxel number corresponding to the point in the container
69 // frame. Use 'localDir' to avoid precision problems at the surfaces.
70
71 G4ThreeVector GetTranslation(const G4int copyNo ) const;
72
73 std::size_t GetMaterialIndex( std::size_t nx, std::size_t ny, std::size_t nz) const;
74 std::size_t GetMaterialIndex( std::size_t copyNo) const;
75
76 G4Material* GetMaterial( std::size_t nx, std::size_t ny, std::size_t nz) const;
77 G4Material* GetMaterial( std::size_t copyNo ) const;
78
79 void SetFilledIDs( std::multimap<G4int,G4int> fid )
80 {
81 fFilledIDs = std::move(fid);
82 }
83
84 void SetFilledMins( std::map< G4int, std::map<G4int,G4int> > fmins )
85 {
86 fFilledMins = std::move(fmins);
87 }
88
89 void BuildContainerWalls();
90
91 private:
92
93 void ComputeVoxelIndices(const G4int copyNo, std::size_t& nx,
94 std::size_t& ny, std::size_t& nz ) const;
95 // Convert the copyNo to voxel numbers in x, y and z.
96
97 void CheckCopyNo( const G4long copyNo ) const;
98 // Check that the copy number is within limits.
99
100 private:
101
102 std::multimap<G4int,G4int> fFilledIDs;
103 std::map< G4int, std::map<G4int,G4int> > fFilledMins;
104};
105
106#endif
G4long
long G4long
Definition G4Types.hh:87
G4int
int G4int
Definition G4Types.hh:85
G4PartialPhantomParameterisation::SetFilledIDs
void SetFilledIDs(std::multimap< G4int, G4int > fid)
Definition G4PartialPhantomParameterisation.hh:79
G4PartialPhantomParameterisation::SetFilledMins
void SetFilledMins(std::map< G4int, std::map< G4int, G4int > > fmins)
Definition G4PartialPhantomParameterisation.hh:84
G4PartialPhantomParameterisation::GetMaterialIndex
std::size_t GetMaterialIndex(std::size_t nx, std::size_t ny, std::size_t nz) const
Definition G4PartialPhantomParameterisation.cc:104
G4PartialPhantomParameterisation::ComputeTransformation
void ComputeTransformation(const G4int, G4VPhysicalVolume *) const override
Definition G4PartialPhantomParameterisation.cc:54
G4PartialPhantomParameterisation::GetMaterial
G4Material * GetMaterial(std::size_t nx, std::size_t ny, std::size_t nz) const
Definition G4PartialPhantomParameterisation.cc:113
G4PartialPhantomParameterisation::GetReplicaNo
G4int GetReplicaNo(const G4ThreeVector &localPoint, const G4ThreeVector &localDir) override
Definition G4PartialPhantomParameterisation.cc:157
G4PartialPhantomParameterisation::ComputeMaterial
G4Material * ComputeMaterial(const G4int repNo, G4VPhysicalVolume *currentVol, const G4VTouchable *parentTouch=nullptr) override
Definition G4PartialPhantomParameterisation.cc:81
G4PartialPhantomParameterisation::GetTranslation
G4ThreeVector GetTranslation(const G4int copyNo) const
Definition G4PartialPhantomParameterisation.cc:65