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24 // ******************************************* 24 // ********************************************************************
25 // 25 //
26 // G4ScoringProbe <<
27 // 26 //
28 // Author: Makoto Asai << 27
29 // ------------------------------------------- <<
30 #ifndef G4ScoringProbe_h 28 #ifndef G4ScoringProbe_h
31 #define G4ScoringProbe_h 1 29 #define G4ScoringProbe_h 1
32 30
33 #include "globals.hh" 31 #include "globals.hh"
34 #include "G4VScoringMesh.hh" 32 #include "G4VScoringMesh.hh"
35 <<
36 #include <vector> <<
37 <<
38 class G4VPhysicalVolume; 33 class G4VPhysicalVolume;
39 class G4Material; 34 class G4Material;
>> 35 #include <vector>
40 36
41 class G4ScoringProbe : public G4VScoringMesh 37 class G4ScoringProbe : public G4VScoringMesh
42 { 38 {
43 public: 39 public:
44 << 40 G4ScoringProbe(G4String lvName, G4double half_size,
45 G4ScoringProbe(const G4String& lvName, G4dou <<
46 G4bool checkOverlap = false); 41 G4bool checkOverlap = false);
47 ~G4ScoringProbe() override = default; << 42 ~G4ScoringProbe();
>> 43
>> 44 protected:
>> 45 // construct scoring volume
>> 46 virtual void SetupGeometry(G4VPhysicalVolume*);
>> 47
>> 48 protected:
>> 49 G4String logVolName;
>> 50 std::vector<G4ThreeVector> posVec;
>> 51 G4double probeSize;
>> 52 G4bool chkOverlap;
>> 53 G4String layeredMaterialName;
>> 54 G4Material* layeredMaterial;
>> 55 G4String regName;
48 56
>> 57 public:
49 void LocateProbe(G4ThreeVector pos) 58 void LocateProbe(G4ThreeVector pos)
50 { 59 {
51 posVec.push_back(pos); 60 posVec.push_back(pos);
52 G4int nbin[] = { static_cast<G4int>(posVec 61 G4int nbin[] = { static_cast<G4int>(posVec.size()), 1, 1 };
53 SetNumberOfSegments(nbin); 62 SetNumberOfSegments(nbin);
54 } 63 }
55 G4int GetNumberOfProbes() const { return (G4 << 64 G4int GetNumberOfProbes() const { return posVec.size(); }
56 void SetProbeSize(G4double val) { probeSize 65 void SetProbeSize(G4double val) { probeSize = val; }
57 G4double GetProbeSize() const { return probe 66 G4double GetProbeSize() const { return probeSize; }
58 G4bool SetMaterial(G4String val); 67 G4bool SetMaterial(G4String val);
59 68
60 void List() const override; << 69 public:
>> 70 virtual void List() const;
61 71
>> 72 public:
62 //++++++++++ visualization method not yet im 73 //++++++++++ visualization method not yet implemented
63 void Draw(RunScore* /*map*/, G4VScoreColorMa << 74 virtual void Draw(RunScore* /*map*/, G4VScoreColorMap* /*colorMap*/,
64 G4int /*axflg=111*/) override {} << 75 G4int /*axflg=111*/)
65 void DrawColumn(RunScore* /*map*/, G4VScoreC << 76 {
66 G4int /*idxProj*/, G4int /*i << 77 ;
67 << 78 }
68 protected: << 79 virtual void DrawColumn(RunScore* /*map*/, G4VScoreColorMap* /*colorMap*/,
69 << 80 G4int /*idxProj*/, G4int /*idxColumn*/)
70 // construct scoring volume << 81 {
71 void SetupGeometry(G4VPhysicalVolume*) overr << 82 ;
72 << 83 }
73 protected: <<
74 <<
75 G4String logVolName; <<
76 std::vector<G4ThreeVector> posVec; <<
77 G4double probeSize; <<
78 G4bool chkOverlap; <<
79 G4String layeredMaterialName; <<
80 G4Material* layeredMaterial; <<
81 G4String regName; <<
82 }; 84 };
83 85
84 #endif 86 #endif
85 87