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Field.cc
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3 
5 #include "G4Mag_UsualEqRhs.hh"
6 
7 #include "CLHEP/Units/GlobalSystemOfUnits.h"
8 
9 using namespace sim;
10 
11 Field::Field(const MagneticField * f, double d)
12  : G4MagneticField(), theCMSMagneticField(f), theDelta(d)
13 {
14  for(int i=0; i<3; ++i) {
15  oldx[i] = 1.0e12;
16  oldb[i] = 0.0;
17  }
18 }
19 
21 
22 void Field::GetFieldValue(const G4double xyz[4], G4double bfield[3]) const
23 {
24  if (std::abs(oldx[0]-xyz[0])>theDelta ||
25  std::abs(oldx[1]-xyz[1])>theDelta ||
26  std::abs(oldx[2]-xyz[2])>theDelta)
27  {
28  static const float lunit = (float)(1.0/CLHEP::cm);
29  GlobalPoint ggg((float)(xyz[0])*lunit,(float)(xyz[1])*lunit,(float)(xyz[2])*lunit);
31 
32  static const float btesla = (float)CLHEP::tesla;
33  oldb[0] = (G4double)(v.x()*btesla);
34  oldb[1] = (G4double)(v.y()*btesla);
35  oldb[2] = (G4double)(v.z()*btesla);
36  oldx[0] = xyz[0];
37  oldx[1] = xyz[1];
38  oldx[2] = xyz[2];
39  }
40 
41  bfield[0] = oldb[0];
42  bfield[1] = oldb[1];
43  bfield[2] = oldb[2];
44 }
45 
const MagneticField * theCMSMagneticField
Definition: Field.h:17
int i
Definition: DBlmapReader.cc:9
virtual ~Field()
Definition: Field.cc:20
T y() const
Definition: PV3DBase.h:63
T z() const
Definition: PV3DBase.h:64
double oldb[3]
Definition: Field.h:21
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
double f[11][100]
virtual GlobalVector inTesla(const GlobalPoint &gp) const =0
Field value ad specified global point, in Tesla.
Definition: RunManager.h:32
double theDelta
Definition: Field.h:18
virtual void GetFieldValue(const G4double p[4], G4double b[3]) const
Definition: Field.cc:22
double oldx[3]
Definition: Field.h:20
Field(const MagneticField *f, double d)
Definition: Field.cc:11
T x() const
Definition: PV3DBase.h:62