#include <B5HadCalorimeterHit.hh>

Inheritance diagram for B5HadCalorimeterHit:

Public Member Functions
	B5HadCalorimeterHit ()

	B5HadCalorimeterHit (G4int iCol, G4int iRow)

	B5HadCalorimeterHit (const B5HadCalorimeterHit &right)

virtual	~B5HadCalorimeterHit ()

const B5HadCalorimeterHit &	operator= (const B5HadCalorimeterHit &right)

int	operator== (const B5HadCalorimeterHit &right) const

void *	operator new (size_t)

void	operator delete (void *aHit)

virtual void	Draw ()

virtual const std::map < G4String, G4AttDef > *	GetAttDefs () const

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

virtual void	Print ()

void	SetColumnID (G4int z)

G4int	GetColumnID () const

void	SetRowID (G4int z)

G4int	GetRowID () const

void	SetEdep (G4double de)

void	AddEdep (G4double de)

G4double	GetEdep () const

void	SetPos (G4ThreeVector xyz)

G4ThreeVector	GetPos () const

void	SetRot (G4RotationMatrix rmat)

G4RotationMatrix	GetRot () const

Public Member Functions inherited from G4VHit
	G4VHit ()

virtual	~G4VHit ()

G4int	operator== (const G4VHit &right) const

Detailed Description

Hadron Calorimeter hit

It records:

the cell column ID and row ID
the energy deposit
the cell position and rotation

Definition at line 52 of file B5HadCalorimeterHit.hh.

Constructor & Destructor Documentation

B5HadCalorimeterHit::B5HadCalorimeterHit ( )

Definition at line 52 of file B5HadCalorimeterHit.cc.

53 : G4VHit(), fColumnID(-1), fRowID(-1), fEdep(0.), fPos(0)

54 {}

G4VHit::G4VHit

G4VHit()

Definition: G4VHit.cc:34

B5HadCalorimeterHit::B5HadCalorimeterHit	(	G4int	iCol,
		G4int	iRow
	)

Definition at line 58 of file B5HadCalorimeterHit.cc.

59 : G4VHit(), fColumnID(iCol), fRowID(iRow), fEdep(0.), fPos(0)

60 {}

G4VHit::G4VHit

G4VHit()

Definition: G4VHit.cc:34

B5HadCalorimeterHit::B5HadCalorimeterHit ( const B5HadCalorimeterHit & right )

Definition at line 69 of file B5HadCalorimeterHit.cc.

 : G4VHit() {
     fColumnID = right.fColumnID;
     fRowID = right.fRowID;
     fEdep = right.fEdep;
     fPos = right.fPos;
     fRot = right.fRot;
 }

B5HadCalorimeterHit::~B5HadCalorimeterHit ( )

virtual

Definition at line 64 of file B5HadCalorimeterHit.cc.

65 {}

Member Function Documentation

void B5HadCalorimeterHit::AddEdep ( G4double de )

inline

Definition at line 78 of file B5HadCalorimeterHit.hh.

Referenced by B5HadCalorimeterSD::ProcessHits().

78 { fEdep += de; }

std::vector< G4AttValue > * B5HadCalorimeterHit::CreateAttValues ( ) const

virtual

Reimplemented from G4VHit.

Definition at line 147 of file B5HadCalorimeterHit.cc.

References G4UIcommand::ConvertToString(), and G4BestUnit.

 {
     std::vector<G4AttValue>* values = new std::vector<G4AttValue>;
     
     values
       ->push_back(G4AttValue("HitType","HadCalorimeterHit",""));
     values
       ->push_back(G4AttValue("Column",G4UIcommand::ConvertToString(fColumnID),
                              ""));
     values
       ->push_back(G4AttValue("Row",G4UIcommand::ConvertToString(fRowID),""));
     values
       ->push_back(G4AttValue("Energy",G4BestUnit(fEdep,"Energy"),""));
     values
       ->push_back(G4AttValue("Pos",G4BestUnit(fPos,"Length"),""));
     
     return values;
 }

void B5HadCalorimeterHit::Draw ( )

virtual

Reimplemented from G4VHit.

Definition at line 100 of file B5HadCalorimeterHit.cc.

References python.hepunit::cm, G4VVisManager::Draw(), G4VVisManager::GetConcreteInstance(), python.hepunit::GeV, CLHEP::HepRotation::inverse(), and python.hepunit::m.

 {
     G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();
     if (pVVisManager&&(fEdep>0.))
     {
         // Draw a calorimeter cell with depth propotional to the energy deposition
         G4Transform3D trans(fRot.inverse(),fPos);
         G4VisAttributes attribs;
         G4Colour colour(1.,0.,0.);
         attribs.SetColour(colour);
         attribs.SetForceSolid(true);
         G4Box box("dummy",15.*cm,15.*cm,1.*m*fEdep/(0.1*GeV));
         pVVisManager->Draw(box,attribs,trans);
     }
 }

const std::map< G4String, G4AttDef > * B5HadCalorimeterHit::GetAttDefs ( ) const

virtual

Reimplemented from G4VHit.

Definition at line 118 of file B5HadCalorimeterHit.cc.

References G4AttDefStore::GetInstance().

 {
     G4bool isNew;
     std::map<G4String,G4AttDef>* store
     = G4AttDefStore::GetInstance("B5HadCalorimeterHit",isNew);
 
     if (isNew) {
         (*store)["HitType"] 
           = G4AttDef("HitType","Hit Type","Physics","","G4String");
         
         (*store)["Column"] 
           = G4AttDef("Column","Column ID","Physics","","G4int");
         
         (*store)["Row"] 
           = G4AttDef("Row","Row ID","Physics","","G4int");
         
         (*store)["Energy"] 
           = G4AttDef("Energy","Energy Deposited","Physics","G4BestUnit",
                      "G4double");
         
         (*store)["Pos"] 
           = G4AttDef("Pos", "Position", "Physics","G4BestUnit",
                      "G4ThreeVector");
     }
     return store;
 }

G4int B5HadCalorimeterHit::GetColumnID ( ) const

inline

Definition at line 72 of file B5HadCalorimeterHit.hh.

Referenced by B5HadCalorimeterSD::ProcessHits().

72 { return fColumnID; }

G4double B5HadCalorimeterHit::GetEdep ( ) const

inline

Definition at line 79 of file B5HadCalorimeterHit.hh.

Referenced by B5EventAction::EndOfEventAction().

79 { return fEdep; }

G4ThreeVector B5HadCalorimeterHit::GetPos ( ) const

inline

Definition at line 82 of file B5HadCalorimeterHit.hh.

82 { return fPos; }

G4RotationMatrix B5HadCalorimeterHit::GetRot ( ) const

inline

Definition at line 85 of file B5HadCalorimeterHit.hh.

85 { return fRot; }

G4int B5HadCalorimeterHit::GetRowID ( ) const

inline

Definition at line 75 of file B5HadCalorimeterHit.hh.

75 { return fRowID; }

void B5HadCalorimeterHit::operator delete ( void * aHit )

inline

Definition at line 106 of file B5HadCalorimeterHit.hh.

References B5HadCalorimeterHitAllocator.

 {
     B5HadCalorimeterHitAllocator->FreeSingle((B5HadCalorimeterHit*) aHit);
 }

void * B5HadCalorimeterHit::operator new ( size_t )

inline

Definition at line 99 of file B5HadCalorimeterHit.hh.

References B5HadCalorimeterHitAllocator.

 {
     if (!B5HadCalorimeterHitAllocator)
         B5HadCalorimeterHitAllocator = new G4Allocator<B5HadCalorimeterHit>;
     return (void*)B5HadCalorimeterHitAllocator->MallocSingle();
 }

const B5HadCalorimeterHit & B5HadCalorimeterHit::operator= ( const B5HadCalorimeterHit & right )

Definition at line 80 of file B5HadCalorimeterHit.cc.

 {
     fColumnID = right.fColumnID;
     fRowID = right.fRowID;
     fEdep = right.fEdep;
     fPos = right.fPos;
     fRot = right.fRot;
     return *this;
 }

int B5HadCalorimeterHit::operator== ( const B5HadCalorimeterHit & right ) const

Definition at line 93 of file B5HadCalorimeterHit.cc.

 {
     return (fColumnID==right.fColumnID&&fRowID==right.fRowID);
 }

void B5HadCalorimeterHit::Print ( void )

virtual

Reimplemented from G4VHit.

Definition at line 168 of file B5HadCalorimeterHit.cc.

References G4cout, G4endl, and python.hepunit::MeV.

 {
     G4cout << "  Cell[" << fRowID << ", " << fColumnID << "] "
     << fEdep/MeV << " (MeV) " << fPos << G4endl;
 }

void B5HadCalorimeterHit::SetColumnID ( G4int z )

inline

Definition at line 71 of file B5HadCalorimeterHit.hh.

References z.

Referenced by B5HadCalorimeterSD::ProcessHits().

71 { fColumnID = z; }

z

G4double z

Definition: TRTMaterials.hh:39

void B5HadCalorimeterHit::SetEdep ( G4double de )

inline

Definition at line 77 of file B5HadCalorimeterHit.hh.

77 { fEdep = de; }

void B5HadCalorimeterHit::SetPos ( G4ThreeVector xyz )

inline

Definition at line 81 of file B5HadCalorimeterHit.hh.

Referenced by B5HadCalorimeterSD::ProcessHits().

81 { fPos = xyz; }

void B5HadCalorimeterHit::SetRot ( G4RotationMatrix rmat )

inline

Definition at line 84 of file B5HadCalorimeterHit.hh.

Referenced by B5HadCalorimeterSD::ProcessHits().

84 { fRot = rmat; }

void B5HadCalorimeterHit::SetRowID ( G4int z )

inline

Definition at line 74 of file B5HadCalorimeterHit.hh.

References z.

Referenced by B5HadCalorimeterSD::ProcessHits().

74 { fRowID = z; }

z

G4double z

Definition: TRTMaterials.hh:39

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

Public Member Functions

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation