RE05CalorimeterHit Class Reference

#include <Doxymodules_runAndEvent.h>

Inheritance diagram for RE05CalorimeterHit:

Public Member Functions
	RE05CalorimeterHit ()
	RE05CalorimeterHit (G4LogicalVolume *logVol, G4int z, G4int phi)
virtual	~RE05CalorimeterHit ()
	RE05CalorimeterHit (const RE05CalorimeterHit &right)
const RE05CalorimeterHit &	operator= (const RE05CalorimeterHit &right)
G4bool	operator== (const RE05CalorimeterHit &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 phi)
G4int	GetZ ()
G4int	GetPhi ()
void	SetEdep (G4double de)
void	AddEdep (G4double de)
G4double	GetEdep ()
void	SetPos (G4ThreeVector xyz)
G4ThreeVector	GetPos ()
void	SetRot (G4RotationMatrix rmat)
G4RotationMatrix	GetRot ()
const G4LogicalVolume *	GetLogV ()

Private Attributes
G4int	fZCellID
G4int	fPhiCellID
G4double	fEdep
G4ThreeVector	fPos
G4RotationMatrix	fRot
const G4LogicalVolume *	fLogV

Static Private Attributes
static std::map< G4String, G4AttDef >	fAttDefs

Detailed Description

Definition at line 103 of file Doxymodules_runAndEvent.h.

Constructor & Destructor Documentation

RE05CalorimeterHit() [1/3]

RE05CalorimeterHit::RE05CalorimeterHit

(

)

Definition at line 49 of file RE05CalorimeterHit.cc.

: G4VHit(),
  fZCellID(-1),fPhiCellID(-1),fEdep(0.),fPos(),fRot(),fLogV(0)
{}

RE05CalorimeterHit() [2/3]

RE05CalorimeterHit::RE05CalorimeterHit	(	G4LogicalVolume *	logVol,
		G4int	z,
		G4int	phi
	)

Definition at line 56 of file RE05CalorimeterHit.cc.

: G4VHit(),
  fZCellID(z), fPhiCellID(phi),fEdep(0.),fPos(),fRot(),fLogV(logVol)
{}

~RE05CalorimeterHit()

RE05CalorimeterHit::~RE05CalorimeterHit ( )

virtual

Definition at line 63 of file RE05CalorimeterHit.cc.

{}

RE05CalorimeterHit() [3/3]

RE05CalorimeterHit::RE05CalorimeterHit

(

const RE05CalorimeterHit &

right

)

Definition at line 68 of file RE05CalorimeterHit.cc.

  : G4VHit()
{
  fZCellID = right.fZCellID;
  fPhiCellID = right.fPhiCellID;
  fEdep = right.fEdep;
  fPos = right.fPos;
  fRot = right.fRot;
  fLogV = right.fLogV;
}

Member Function Documentation

operator=()

const RE05CalorimeterHit & RE05CalorimeterHit::operator=

(

const RE05CalorimeterHit &

right

)

Definition at line 81 of file RE05CalorimeterHit.cc.

{
  fZCellID = right.fZCellID;
  fPhiCellID = right.fPhiCellID;
  fEdep = right.fEdep;
  fPos = right.fPos;
  fRot = right.fRot;
  fLogV = right.fLogV;
  return *this;
}

operator==()

G4bool RE05CalorimeterHit::operator==

(

const RE05CalorimeterHit &

right

)

const

Definition at line 94 of file RE05CalorimeterHit.cc.

{
  return ((fZCellID==right.fZCellID)&&(fPhiCellID==right.fPhiCellID));
}

operator new()

void * RE05CalorimeterHit::operator new ( size_t  )

inline

Definition at line 104 of file RE05CalorimeterHit.hh.

{
  if(!RE05CalorimeterHitAllocator)
    RE05CalorimeterHitAllocator = new G4Allocator<RE05CalorimeterHit>;
  return (void*) RE05CalorimeterHitAllocator->MallocSingle();
}

operator delete()

void RE05CalorimeterHit::operator delete ( void *  aHit )

inline

Definition at line 111 of file RE05CalorimeterHit.hh.

{
  RE05CalorimeterHitAllocator->FreeSingle((RE05CalorimeterHit*) aHit);
}

Draw()

void RE05CalorimeterHit::Draw ( )

virtual

Definition at line 101 of file RE05CalorimeterHit.cc.

{
  G4VVisManager* pVVisManager = G4VVisManager::GetConcreteInstance();
  if(pVVisManager)
  {
    G4Transform3D trans(fRot,fPos);
    G4VisAttributes attribs;
    const G4VisAttributes* pVA = fLogV->GetVisAttributes();
    if(pVA) attribs = *pVA;
    G4Colour colour(1.,0.,0.);
    attribs.SetColour(colour);
    attribs.SetForceSolid(true);
    pVVisManager->Draw(*fLogV,attribs,trans);
  }
}

GetAttDefs()

const std::map< G4String, G4AttDef > * RE05CalorimeterHit::GetAttDefs ( ) const

virtual

Definition at line 119 of file RE05CalorimeterHit.cc.

{
  // G4AttDefs have to have long life.  Use static member...
  if (fAttDefs.empty()) {
    fAttDefs["HitType"] =
      G4AttDef("HitType","Type of hit","Physics","","G4String");
    fAttDefs["ZID"] = G4AttDef("ZID","Z Cell ID","Physics","","G4int");
    fAttDefs["PhiID"] = G4AttDef("PhiID","Phi Cell ID","Physics","","G4int");
    fAttDefs["EDep"] =
      G4AttDef("EDep","Energy defPosited","Physics","G4BestUnit","G4double");
  }
  return &fAttDefs;
}

CreateAttValues()

std::vector< G4AttValue > * RE05CalorimeterHit::CreateAttValues ( ) const

virtual

Definition at line 135 of file RE05CalorimeterHit.cc.

{
  // Create expendable G4AttsValues for picking...
  std::vector<G4AttValue>* attValues = new std::vector<G4AttValue>;
  attValues->push_back
    (G4AttValue("HitType","RE05CalorimeterHit",""));
  attValues->push_back
    (G4AttValue("ZID",G4UIcommand::ConvertToString(fZCellID),""));
  attValues->push_back
    (G4AttValue("PhiID",G4UIcommand::ConvertToString(fPhiCellID),""));
  attValues->push_back
    (G4AttValue("EDep",G4BestUnit(fEdep,"Energy"),""));
  //G4cout << "Checking...\n" << G4AttCheck(attValues, GetAttDefs());
  return attValues;
}

Print()

void RE05CalorimeterHit::Print ( )

virtual

Definition at line 153 of file RE05CalorimeterHit.cc.

{}

SetCellID()

void RE05CalorimeterHit::SetCellID ( G4int  z, G4int  phi  )

inline

Definition at line 74 of file RE05CalorimeterHit.hh.

      {
        fZCellID = z;
        fPhiCellID = phi;
      }

GetZ()

G4int RE05CalorimeterHit::GetZ ( )

inline

Definition at line 79 of file RE05CalorimeterHit.hh.

{ return fZCellID; }

GetPhi()

G4int RE05CalorimeterHit::GetPhi ( )

inline

Definition at line 80 of file RE05CalorimeterHit.hh.

{ return fPhiCellID; }

SetEdep()

void RE05CalorimeterHit::SetEdep ( G4double  de )

inline

Definition at line 81 of file RE05CalorimeterHit.hh.

      { fEdep = de; }

AddEdep()

void RE05CalorimeterHit::AddEdep ( G4double  de )

inline

Definition at line 83 of file RE05CalorimeterHit.hh.

      { fEdep += de; }

GetEdep()

G4double RE05CalorimeterHit::GetEdep ( )

inline

Definition at line 85 of file RE05CalorimeterHit.hh.

      { return fEdep; }

SetPos()

void RE05CalorimeterHit::SetPos ( G4ThreeVector  xyz )

inline

Definition at line 87 of file RE05CalorimeterHit.hh.

      { fPos = xyz; }

GetPos()

G4ThreeVector RE05CalorimeterHit::GetPos ( )

inline

Definition at line 89 of file RE05CalorimeterHit.hh.

      { return fPos; }

SetRot()

void RE05CalorimeterHit::SetRot ( G4RotationMatrix  rmat )

inline

Definition at line 91 of file RE05CalorimeterHit.hh.

      { fRot = rmat; }

GetRot()

G4RotationMatrix RE05CalorimeterHit::GetRot ( )

inline

Definition at line 93 of file RE05CalorimeterHit.hh.

      { return fRot; }

GetLogV()

const G4LogicalVolume * RE05CalorimeterHit::GetLogV ( )

inline

Definition at line 95 of file RE05CalorimeterHit.hh.

      { return fLogV; }

Member Data Documentation

fZCellID

G4int RE05CalorimeterHit::fZCellID

private

Definition at line 65 of file RE05CalorimeterHit.hh.

fPhiCellID

G4int RE05CalorimeterHit::fPhiCellID

private

Definition at line 66 of file RE05CalorimeterHit.hh.

fEdep

G4double RE05CalorimeterHit::fEdep

private

Definition at line 67 of file RE05CalorimeterHit.hh.

fPos

G4ThreeVector RE05CalorimeterHit::fPos

private

Definition at line 68 of file RE05CalorimeterHit.hh.

fRot

G4RotationMatrix RE05CalorimeterHit::fRot

private

Definition at line 69 of file RE05CalorimeterHit.hh.

fLogV

const G4LogicalVolume* RE05CalorimeterHit::fLogV

private

Definition at line 70 of file RE05CalorimeterHit.hh.

fAttDefs

std::map< G4String, G4AttDef > RE05CalorimeterHit::fAttDefs

staticprivate

Definition at line 71 of file RE05CalorimeterHit.hh.

---

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

• .doxygen/Doxymodules_runAndEvent.h
• extended/runAndEvent/RE05/include/RE05CalorimeterHit.hh
• extended/runAndEvent/RE05/src/RE05CalorimeterHit.cc