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Public Member Functions
B5HodoscopeHit Class Reference

#include <B5HodoscopeHit.hh>

Inheritance diagram for B5HodoscopeHit:
G4VHit

Public Member Functions

 B5HodoscopeHit (G4int i, G4double t)
 
 B5HodoscopeHit (const B5HodoscopeHit &right)
 
virtual ~B5HodoscopeHit ()
 
const B5HodoscopeHitoperator= (const B5HodoscopeHit &right)
 
int operator== (const B5HodoscopeHit &right) const
 
voidoperator new (size_t)
 
void operator delete (void *aHit)
 
void Draw ()
 
virtual const std::map
< G4String, G4AttDef > * 		GetAttDefs () const
 
virtual std::vector< G4AttValue > * CreateAttValues () const
 
void Print ()
 
G4int GetID () const
 
void SetTime (G4double val)
 
G4double GetTime () const
 
void SetPos (G4ThreeVector xyz)
 
G4ThreeVector GetPos () const
 
void SetRot (G4RotationMatrix rmat)
 
G4RotationMatrix GetRot () const
 
void SetLogV (G4LogicalVolume *val)
 
const G4LogicalVolumeGetLogV () const
 
- Public Member Functions inherited from G4VHit
 G4VHit ()
 
virtual ~G4VHit ()
 
G4int operator== (const G4VHit &right) const
 

Detailed Description

Hodoscope hit

It records:

Definition at line 52 of file B5HodoscopeHit.hh.

Constructor & Destructor Documentation

B5HodoscopeHit::B5HodoscopeHit ( G4int  i,
G4double  t 
)

Definition at line 51 of file B5HodoscopeHit.cc.

52 : G4VHit(), fId(i), fTime(t), fPos(0), fPLogV(0)
53 {}
G4VHit::G4VHit
G4VHit()
Definition: G4VHit.cc:34
B5HodoscopeHit::B5HodoscopeHit ( const B5HodoscopeHit right)

Definition at line 62 of file B5HodoscopeHit.cc.

63 : G4VHit() {
64  fId = right.fId;
65  fTime = right.fTime;
66  fPos = right.fPos;
67  fRot = right.fRot;
68  fPLogV = right.fPLogV;
69 }
G4VHit::G4VHit
G4VHit()
Definition: G4VHit.cc:34
B5HodoscopeHit::~B5HodoscopeHit ( )
virtual

Definition at line 57 of file B5HodoscopeHit.cc.

58 {}

Member Function Documentation

std::vector< G4AttValue > * B5HodoscopeHit::CreateAttValues ( ) const
virtual

Reimplemented from G4VHit.

Definition at line 137 of file B5HodoscopeHit.cc.

References G4UIcommand::ConvertToString(), G4BestUnit, and G4LogicalVolume::GetName().

138 {
139  std::vector<G4AttValue>* values = new std::vector<G4AttValue>;
140 
141  values
142  ->push_back(G4AttValue("HitType","HodoscopeHit",""));
143  values
144  ->push_back(G4AttValue("ID",G4UIcommand::ConvertToString(fId),""));
145  values
146  ->push_back(G4AttValue("Time",G4BestUnit(fTime,"Time"),""));
147  values
148  ->push_back(G4AttValue("Pos",G4BestUnit(fPos,"Length"),""));
149 
150  if (fPLogV)
151  values->push_back(G4AttValue("LVol",fPLogV->GetName(),""));
152  else
153  values->push_back(G4AttValue("LVol"," ",""));
154 
155  return values;
156 }
G4LogicalVolume::GetName
G4String GetName() const
G4UIcommand::ConvertToString
static G4String ConvertToString(G4bool boolVal)
Definition: G4UIcommand.cc:357
G4BestUnit
#define G4BestUnit(a, b)
#define G4_USE_G4BESTUNIT_FOR_VERBOSE 1
Definition: G4SteppingVerbose.cc:53
void B5HodoscopeHit::Draw ( )
virtual

Reimplemented from G4VHit.

Definition at line 92 of file B5HodoscopeHit.cc.

References G4VVisManager::Draw(), G4VVisManager::GetConcreteInstance(), G4LogicalVolume::GetVisAttributes(), and CLHEP::HepRotation::inverse().

93 {
94  G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();
95  if (pVVisManager)
96  {
97  G4Transform3D trans(fRot.inverse(),fPos);
98  G4VisAttributes attribs;
99  const G4VisAttributes* pVA = fPLogV->GetVisAttributes();
100  if (pVA) attribs = *pVA;
101  G4Colour colour(0.,1.,1.);
102  attribs.SetColour(colour);
103  attribs.SetForceSolid(true);
104  pVVisManager->Draw(*fPLogV,attribs,trans);
105  }
106 }
G4VVisManager::Draw
virtual void Draw(const G4Circle &, const G4Transform3D &objectTransformation=G4Transform3D())=0
G4VVisManager::GetConcreteInstance
static G4VVisManager * GetConcreteInstance()
Definition: G4VVisManager.cc:39
CLHEP::HepRotation::inverse
HepRotation inverse() const
G4LogicalVolume::GetVisAttributes
const G4VisAttributes * GetVisAttributes() const
const std::map< G4String, G4AttDef > * B5HodoscopeHit::GetAttDefs ( ) const
virtual

Reimplemented from G4VHit.

Definition at line 110 of file B5HodoscopeHit.cc.

References G4AttDefStore::GetInstance().

111 {
112  G4bool isNew;
113  std::map<G4String,G4AttDef>* store
114  = G4AttDefStore::GetInstance("B5HodoscopeHit",isNew);
115 
116  if (isNew) {
117  (*store)["HitType"]
118  = G4AttDef("HitType","Hit Type","Physics","","G4String");
119 
120  (*store)["ID"]
121  = G4AttDef("ID","ID","Physics","","G4int");
122 
123  (*store)["Time"]
124  = G4AttDef("Time","Time","Physics","G4BestUnit","G4double");
125 
126  (*store)["Pos"]
127  = G4AttDef("Pos","Position","Physics","G4BestUnit","G4ThreeVector");
128 
129  (*store)["LVol"]
130  = G4AttDef("LVol","Logical Volume","Physics","","G4String");
131  }
132  return store;
133 }
G4bool
bool G4bool
Definition: G4Types.hh:79
G4AttDefStore::GetInstance
std::map< G4String, G4AttDef > * GetInstance(const G4String &storeKey, G4bool &isNew)
Definition: G4AttDefStore.cc:39
G4int B5HodoscopeHit::GetID ( ) const
inline

Definition at line 70 of file B5HodoscopeHit.hh.

70 { return fId; }
const G4LogicalVolume* B5HodoscopeHit::GetLogV ( ) const
inline

Definition at line 82 of file B5HodoscopeHit.hh.

82 { return fPLogV; }
G4ThreeVector B5HodoscopeHit::GetPos ( ) const
inline

Definition at line 76 of file B5HodoscopeHit.hh.

76 { return fPos; }
G4RotationMatrix B5HodoscopeHit::GetRot ( ) const
inline

Definition at line 79 of file B5HodoscopeHit.hh.

79 { return fRot; }
G4double B5HodoscopeHit::GetTime ( ) const
inline

Definition at line 73 of file B5HodoscopeHit.hh.

73 { return fTime; }
void B5HodoscopeHit::operator delete ( void aHit)
inline

Definition at line 103 of file B5HodoscopeHit.hh.

References B5HodoscopeHitAllocator.

104 {
105  B5HodoscopeHitAllocator->FreeSingle((B5HodoscopeHit*) aHit);
106 }
B5HodoscopeHitAllocator
G4ThreadLocal G4Allocator< B5HodoscopeHit > * B5HodoscopeHitAllocator
Definition: B5HodoscopeHit.cc:47
void * B5HodoscopeHit::operator new ( size_t  )
inline

Definition at line 96 of file B5HodoscopeHit.hh.

References B5HodoscopeHitAllocator.

97 {
98  if (!B5HodoscopeHitAllocator)
99  B5HodoscopeHitAllocator = new G4Allocator<B5HodoscopeHit>;
100  return (void*)B5HodoscopeHitAllocator->MallocSingle();
101 }
B5HodoscopeHitAllocator
G4ThreadLocal G4Allocator< B5HodoscopeHit > * B5HodoscopeHitAllocator
Definition: B5HodoscopeHit.cc:47
const B5HodoscopeHit & B5HodoscopeHit::operator= ( const B5HodoscopeHit right)

Definition at line 73 of file B5HodoscopeHit.cc.

74 {
75  fId = right.fId;
76  fTime = right.fTime;
77  fPos = right.fPos;
78  fRot = right.fRot;
79  fPLogV = right.fPLogV;
80  return *this;
81 }
int B5HodoscopeHit::operator== ( const B5HodoscopeHit right) const

Definition at line 85 of file B5HodoscopeHit.cc.

86 {
87  return 0;
88 }
void B5HodoscopeHit::Print ( void  )
virtual

Reimplemented from G4VHit.

Definition at line 160 of file B5HodoscopeHit.cc.

References G4cout, G4endl, and ns.

Referenced by B5EventAction::EndOfEventAction().

161 {
162  G4cout << " Hodoscope[" << fId << "] " << fTime/ns << " (nsec)" << G4endl;
163 }
G4cout
G4GLOB_DLL std::ostream G4cout
G4endl
#define G4endl
Definition: G4ios.hh:61
ns
#define ns
Definition: xmlparse.cc:597
void B5HodoscopeHit::SetLogV ( G4LogicalVolume val)
inline

Definition at line 81 of file B5HodoscopeHit.hh.

Referenced by B5HodoscopeSD::ProcessHits().

81 { fPLogV = val; }
void B5HodoscopeHit::SetPos ( G4ThreeVector  xyz)
inline

Definition at line 75 of file B5HodoscopeHit.hh.

Referenced by B5HodoscopeSD::ProcessHits().

75 { fPos = xyz; }
void B5HodoscopeHit::SetRot ( G4RotationMatrix  rmat)
inline

Definition at line 78 of file B5HodoscopeHit.hh.

Referenced by B5HodoscopeSD::ProcessHits().

78 { fRot = rmat; }
void B5HodoscopeHit::SetTime ( G4double  val)
inline

Definition at line 72 of file B5HodoscopeHit.hh.

72 { fTime = val; }
The documentation for this class was generated from the following files:
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