G4FieldManager.cc

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// $Id$
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// -------------------------------------------------------------------
 
#include "G4FieldManager.hh"
#include "G4Field.hh"
#include "G4MagneticField.hh"
#include "G4ChordFinder.hh"
#include "G4FieldManagerStore.hh"
 
G4FieldManager::G4FieldManager(G4Field       *detectorField, 
                   G4ChordFinder *pChordFinder, 
                   G4bool        fieldChangesEnergy
                  )
   : fDetectorField(detectorField), 
     fChordFinder(pChordFinder), 
     fAllocatedChordFinder(false),
     fEpsilonMinDefault(5.0e-5), 
     fEpsilonMaxDefault(0.001),
     fDefault_Delta_One_Step_Value(0.01),    // mm
     fDefault_Delta_Intersection_Val(0.001), // mm
     fEpsilonMin( fEpsilonMinDefault ),
     fEpsilonMax( fEpsilonMaxDefault)
{ 
   fDelta_One_Step_Value= fDefault_Delta_One_Step_Value;
   fDelta_Intersection_Val= fDefault_Delta_Intersection_Val;
   if ( detectorField )
     fFieldChangesEnergy= detectorField->DoesFieldChangeEnergy();
   else
     fFieldChangesEnergy= fieldChangesEnergy;
 
   // Add to store
   G4FieldManagerStore::Register(this);
}
 
G4FieldManager::G4FieldManager(G4MagneticField *detectorField)
   : fDetectorField(detectorField), fAllocatedChordFinder(true),
     fEpsilonMinDefault(5.0e-5), 
     fEpsilonMaxDefault(0.001),
     fFieldChangesEnergy(false), 
     fDefault_Delta_One_Step_Value(0.01),    // mm
     fDefault_Delta_Intersection_Val(0.001), // mm
     fEpsilonMin( fEpsilonMinDefault ),
     fEpsilonMax( fEpsilonMaxDefault)
{
   fChordFinder= new G4ChordFinder( detectorField );
   fDelta_One_Step_Value= fDefault_Delta_One_Step_Value;
   fDelta_Intersection_Val= fDefault_Delta_Intersection_Val;
   // Add to store
   G4FieldManagerStore::Register(this);
}
 
void G4FieldManager::ConfigureForTrack( const G4Track * ) 
{
   // Default is to do nothing!
   ;
}
 
G4FieldManager::~G4FieldManager()
{
   if( fAllocatedChordFinder ){
      delete fChordFinder;
   }
   G4FieldManagerStore::DeRegister(this);
}
 
void
G4FieldManager::CreateChordFinder(G4MagneticField *detectorMagField)
{
   if ( fAllocatedChordFinder )
      delete fChordFinder;
   fChordFinder= new G4ChordFinder( detectorMagField );
   fAllocatedChordFinder= true;
}
 
G4bool G4FieldManager::SetDetectorField(G4Field *pDetectorField)
{
   fDetectorField= pDetectorField;
 
   if ( pDetectorField )
     fFieldChangesEnergy= pDetectorField->DoesFieldChangeEnergy();
   else
     fFieldChangesEnergy= false;   //  No field 
 
   return false;
}