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Geant4/geometry/magneticfield/src/G4UniformElectricField.cc

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Differences between /geometry/magneticfield/src/G4UniformElectricField.cc (Version 11.3.0) and /geometry/magneticfield/src/G4UniformElectricField.cc (Version 9.0.p1)


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 25 //                                                 25 //
 26 // G4UniformElectricField implementation       << 
 27 //                                                 26 //
 28 // Created: V.Grichine, 30.01.1997             <<  27 // $Id: G4UniformElectricField.cc,v 1.12 2006/06/29 18:24:56 gunter Exp $
                                                   >>  28 // GEANT4 tag $Name: geant4-08-03-patch-01 $
                                                   >>  29 //
                                                   >>  30 // 
                                                   >>  31 //
                                                   >>  32 // Class for creation of uniform Electric Field
                                                   >>  33 //
                                                   >>  34 // 30.1.97 V.Grichine
                                                   >>  35 //
 29 // -------------------------------------------     36 // -------------------------------------------------------------------
 30                                                    37 
 31 #include "G4UniformElectricField.hh"               38 #include "G4UniformElectricField.hh"
 32 #include "G4PhysicalConstants.hh"              << 
 33                                                    39 
 34 G4UniformElectricField::                       <<  40 G4UniformElectricField::G4UniformElectricField(const G4ThreeVector FieldVector )
 35 G4UniformElectricField(const G4ThreeVector& Fi << 
 36 {                                                  41 {
 37   fFieldComponents[0] = 0.0;                   <<  42       fFieldComponents[0] = 0.0;
 38   fFieldComponents[1] = 0.0;                   <<  43       fFieldComponents[1] = 0.0;
 39   fFieldComponents[2] = 0.0;                   <<  44       fFieldComponents[2] = 0.0;
 40   fFieldComponents[3] = FieldVector.x();       <<  45       fFieldComponents[3] = FieldVector.x();
 41   fFieldComponents[4] = FieldVector.y();       <<  46       fFieldComponents[4] = FieldVector.y();
 42   fFieldComponents[5] = FieldVector.z();       <<  47       fFieldComponents[5] = FieldVector.z();
 43 }                                                  48 }
 44                                                    49    
 45 G4UniformElectricField::G4UniformElectricField     50 G4UniformElectricField::G4UniformElectricField(G4double vField,
 46                                                    51                                                G4double vTheta,
 47                                                <<  52                                                G4double vPhi    )
 48 {                                                  53 {
 49    if ( (vField<0) || (vTheta<0) || (vTheta>pi <<  54    if(vField >= 0 && 
                                                   >>  55       vTheta >= 0 && vTheta <= pi && 
                                                   >>  56       vPhi >= 0 && vPhi <= twopi)
                                                   >>  57    {
                                                   >>  58       fFieldComponents[0] = 0.0;
                                                   >>  59       fFieldComponents[1] = 0.0;
                                                   >>  60       fFieldComponents[2] = 0.0;
                                                   >>  61       fFieldComponents[3] = vField*std::sin(vTheta)*std::cos(vPhi) ;
                                                   >>  62       fFieldComponents[4] = vField*std::sin(vTheta)*std::sin(vPhi) ;
                                                   >>  63       fFieldComponents[5] = vField*std::cos(vTheta) ;
                                                   >>  64    }
                                                   >>  65    else
 50    {                                               66    {
 51       G4Exception("G4UniformElectricField::G4U     67       G4Exception("G4UniformElectricField::G4UniformElectricField()",
 52                   "GeomField0002", FatalExcept <<  68                   "WrongArgumentValue", FatalException, "Invalid parameters.");
 53    }                                               69    }
 54                                                << 
 55    fFieldComponents[0] = 0.0;                  << 
 56    fFieldComponents[1] = 0.0;                  << 
 57    fFieldComponents[2] = 0.0;                  << 
 58    fFieldComponents[3] = vField*std::sin(vThet << 
 59    fFieldComponents[4] = vField*std::sin(vThet << 
 60    fFieldComponents[5] = vField*std::cos(vThet << 
 61 }                                                  70 }
 62                                                    71 
 63 G4UniformElectricField::~G4UniformElectricFiel <<  72 G4UniformElectricField::~G4UniformElectricField()
 64                                                << 
 65 G4UniformElectricField::                       << 
 66 G4UniformElectricField (const G4UniformElectri << 
 67    : G4ElectricField(p)                        << 
 68 {                                                  73 {
 69    for (auto i=0; i<6; ++i)                    << 
 70    {                                           << 
 71      fFieldComponents[i] = p.fFieldComponents[ << 
 72    }                                           << 
 73 }                                                  74 }
 74                                                    75 
 75 G4UniformElectricField&                        <<  76 G4UniformElectricField::G4UniformElectricField (const G4UniformElectricField &p)
 76 G4UniformElectricField::operator = (const G4Un <<  77    : G4ElectricField(p)
 77 {                                                  78 {
 78   if (&p == this) { return *this; }            <<  79    for (G4int i=0; i<6; i++)
 79   G4ElectricField::operator=(p);               <<  80       fFieldComponents[i] = p.fFieldComponents[i];
 80   for (auto i=0; i<6; ++i)                     << 
 81   {                                            << 
 82     fFieldComponents[i] = p.fFieldComponents[i << 
 83   }                                            << 
 84   return *this;                                << 
 85 }                                                  81 }
 86                                                    82 
 87 G4Field* G4UniformElectricField::Clone() const <<  83 G4UniformElectricField&
                                                   >>  84 G4UniformElectricField::operator = (const G4UniformElectricField &p)
 88 {                                                  85 {
 89    return new G4UniformElectricField( G4ThreeV <<  86    for (G4int i=0; i<6; i++)
 90                                                <<  87       fFieldComponents[i] = p.fFieldComponents[i];
 91                                                <<  88    return *this;
 92 }                                                  89 }
 93                                                    90 
 94 // -------------------------------------------     91 // ------------------------------------------------------------------------
 95                                                    92 
 96 void G4UniformElectricField::GetFieldValue (co     93 void G4UniformElectricField::GetFieldValue (const G4double[4],
 97                                             G4 <<  94                                             G4double *fieldBandE ) const 
 98 {                                                  95 {
 99    fieldBandE[0] = 0.0;                        <<  96    fieldBandE[0]= 0.0;
100    fieldBandE[1] = 0.0;                        <<  97    fieldBandE[1]= 0.0;
101    fieldBandE[2] = 0.0;                        <<  98    fieldBandE[2]= 0.0;
102    fieldBandE[3] = fFieldComponents[3];        <<  99    fieldBandE[3]= fFieldComponents[3] ;
103    fieldBandE[4] = fFieldComponents[4];        << 100    fieldBandE[4]= fFieldComponents[4] ;
104    fieldBandE[5] = fFieldComponents[5];        << 101    fieldBandE[5]= fFieldComponents[5] ;
105 }                                                 102 }
106                                                   103