B5EmCalorimeterHit Class Reference

#include <B5EmCalorimeterHit.hh>

Inheritance diagram for B5EmCalorimeterHit:

Public Member Functions
	B5EmCalorimeterHit ()
	B5EmCalorimeterHit (G4int z)
	B5EmCalorimeterHit (const B5EmCalorimeterHit &right)
virtual	~B5EmCalorimeterHit ()
const B5EmCalorimeterHit &	operator= (const B5EmCalorimeterHit &right)
int	operator== (const B5EmCalorimeterHit &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	SetCellID (G4int z)
G4int	GetCellID () 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
void	SetLogV (G4LogicalVolume *val)
const G4LogicalVolume *	GetLogV () const
Public Member Functions inherited from G4VHit
	G4VHit ()
virtual	~G4VHit ()
G4int	operator== (const G4VHit &right) const

Detailed Description

EM Calorimeter hit

It records:

• the cell ID
• the energy deposit
• the cell logical volume, its position and rotation

Definition at line 52 of file B5EmCalorimeterHit.hh.

Constructor & Destructor Documentation

B5EmCalorimeterHit::B5EmCalorimeterHit

(

)

Definition at line 50 of file B5EmCalorimeterHit.cc.

: G4VHit(), fCellID(-1), fEdep(0.), fPos(0), fPLogV(0)
{}

B5EmCalorimeterHit::B5EmCalorimeterHit

(

G4int

z

)

Definition at line 56 of file B5EmCalorimeterHit.cc.

:  G4VHit(), fCellID(z), fEdep(0.), fPos(0), fPLogV(0)
{}

B5EmCalorimeterHit::B5EmCalorimeterHit

(

const B5EmCalorimeterHit &

right

)

Definition at line 67 of file B5EmCalorimeterHit.cc.

: G4VHit() {
    fCellID = right.fCellID;
    fEdep = right.fEdep;
    fPos = right.fPos;
    fRot = right.fRot;
    fPLogV = right.fPLogV;
}

B5EmCalorimeterHit::~B5EmCalorimeterHit ( )

virtual

Definition at line 62 of file B5EmCalorimeterHit.cc.

{}

Member Function Documentation

void B5EmCalorimeterHit::AddEdep ( G4double  de )

inline

Definition at line 75 of file B5EmCalorimeterHit.hh.

Referenced by B5EmCalorimeterSD::ProcessHits().

{ fEdep += de; }

std::vector< G4AttValue > * B5EmCalorimeterHit::CreateAttValues ( ) const

virtual

Reimplemented from G4VHit.

Definition at line 149 of file B5EmCalorimeterHit.cc.

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

{
    std::vector<G4AttValue>* values = new std::vector<G4AttValue>;
    
    values
      ->push_back(G4AttValue("HitType","EmCalorimeterHit",""));
    values
      ->push_back(G4AttValue("ID",G4UIcommand::ConvertToString(fCellID),""));
    values
      ->push_back(G4AttValue("Energy",G4BestUnit(fEdep,"Energy"),""));
    values
      ->push_back(G4AttValue("Pos",G4BestUnit(fPos,"Length"),""));
    
    if (fPLogV)
        values->push_back(G4AttValue("LVol",fPLogV->GetName(),""));
    else
        values->push_back(G4AttValue("LVol"," ",""));
    
    return values;
}

void B5EmCalorimeterHit::Draw ( )

virtual

Reimplemented from G4VHit.

Definition at line 98 of file B5EmCalorimeterHit.cc.

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

{
    G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();
    if (pVVisManager&&(fEdep>0.))
    {
        // Draw a calorimeter cell with a color corresponding to its energy deposit
        G4Transform3D trans(fRot.inverse(),fPos);
        G4VisAttributes attribs;
        const G4VisAttributes* pVA = fPLogV->GetVisAttributes();
        if (pVA) attribs = *pVA;
        G4double rcol = fEdep/(0.7*GeV);
        if (rcol>1.) rcol = 1.;
        if (rcol<0.4) rcol = 0.4;
        G4Colour colour(rcol,0.,0.);
        attribs.SetColour(colour);
        attribs.SetForceSolid(true);
        pVVisManager->Draw(*fPLogV,attribs,trans);
    }
}

const std::map< G4String, G4AttDef > * B5EmCalorimeterHit::GetAttDefs ( ) const

virtual

Reimplemented from G4VHit.

Definition at line 120 of file B5EmCalorimeterHit.cc.

References G4AttDefStore::GetInstance().

{
    G4bool isNew;
    std::map<G4String,G4AttDef>* store
    = G4AttDefStore::GetInstance("B5EmCalorimeterHit",isNew);

    if (isNew) {
        (*store)["HitType"] 
          = G4AttDef("HitType","Hit Type","Physics","","G4String");
        
        (*store)["ID"] 
          = G4AttDef("ID","ID","Physics","","G4int");
        
        (*store)["Energy"] 
          = G4AttDef("Energy", "Energy Deposited", "Physics", "G4BestUnit", 
                     "G4double");
        
        (*store)["Pos"] 
          = G4AttDef("Pos", "Position", "Physics","G4BestUnit", 
                     "G4ThreeVector");
        
        (*store)["LVol"] 
          = G4AttDef("LVol","Logical Volume","Physics","","G4String");
    }
    return store;
}

G4int B5EmCalorimeterHit::GetCellID ( ) const

inline

Definition at line 72 of file B5EmCalorimeterHit.hh.

{ return fCellID; }

G4double B5EmCalorimeterHit::GetEdep ( ) const

inline

Definition at line 76 of file B5EmCalorimeterHit.hh.

Referenced by B5EventAction::EndOfEventAction().

{ return fEdep; }

const G4LogicalVolume* B5EmCalorimeterHit::GetLogV ( ) const

inline

Definition at line 85 of file B5EmCalorimeterHit.hh.

Referenced by B5EmCalorimeterSD::ProcessHits().

{ return fPLogV; }

G4ThreeVector B5EmCalorimeterHit::GetPos ( ) const

inline

Definition at line 79 of file B5EmCalorimeterHit.hh.

{ return fPos; }

G4RotationMatrix B5EmCalorimeterHit::GetRot ( ) const

inline

Definition at line 82 of file B5EmCalorimeterHit.hh.

{ return fRot; }

void B5EmCalorimeterHit::operator delete ( void *  aHit )

inline

Definition at line 106 of file B5EmCalorimeterHit.hh.

References B5EmCalorimeterHitAllocator.

{
    B5EmCalorimeterHitAllocator->FreeSingle((B5EmCalorimeterHit*) aHit);
}

void * B5EmCalorimeterHit::operator new ( size_t  )

inline

Definition at line 99 of file B5EmCalorimeterHit.hh.

References B5EmCalorimeterHitAllocator.

{
    if (!B5EmCalorimeterHitAllocator)
        B5EmCalorimeterHitAllocator = new G4Allocator<B5EmCalorimeterHit>;
    return (void*)B5EmCalorimeterHitAllocator->MallocSingle();
}

const B5EmCalorimeterHit & B5EmCalorimeterHit::operator=

(

const B5EmCalorimeterHit &

right

)

Definition at line 78 of file B5EmCalorimeterHit.cc.

{
    fCellID = right.fCellID;
    fEdep = right.fEdep;
    fPos = right.fPos;
    fRot = right.fRot;
    fPLogV = right.fPLogV;
    return *this;
}

int B5EmCalorimeterHit::operator==

(

const B5EmCalorimeterHit &

right

)

const

Definition at line 91 of file B5EmCalorimeterHit.cc.

{
    return (fCellID==right.fCellID);
}

void B5EmCalorimeterHit::Print ( void  )

virtual

Reimplemented from G4VHit.

Definition at line 172 of file B5EmCalorimeterHit.cc.

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

{
    G4cout << "  Cell[" << fCellID << "] " << fEdep/MeV << " (MeV)" << G4endl;
}

void B5EmCalorimeterHit::SetCellID ( G4int  z )

inline

Definition at line 71 of file B5EmCalorimeterHit.hh.

References z.

{ fCellID = z; }

void B5EmCalorimeterHit::SetEdep ( G4double  de )

inline

Definition at line 74 of file B5EmCalorimeterHit.hh.

{ fEdep = de; }

void B5EmCalorimeterHit::SetLogV ( G4LogicalVolume *  val )

inline

Definition at line 84 of file B5EmCalorimeterHit.hh.

Referenced by B5EmCalorimeterSD::ProcessHits().

{ fPLogV = val; }

void B5EmCalorimeterHit::SetPos ( G4ThreeVector  xyz )

inline

Definition at line 78 of file B5EmCalorimeterHit.hh.

Referenced by B5EmCalorimeterSD::ProcessHits().

{ fPos = xyz; }

void B5EmCalorimeterHit::SetRot ( G4RotationMatrix  rmat )

inline

Definition at line 81 of file B5EmCalorimeterHit.hh.

Referenced by B5EmCalorimeterSD::ProcessHits().

{ fRot = rmat; }

---

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

• B5EmCalorimeterHit.hh
• B5EmCalorimeterHit.cc