Пример #1
0
double GLGPU3DDataset::Flux(int face) const
{
  // TODO: pre-compute the flux
  switch (face) {
  case 0: return -dx() * dy() * Bz();
  case 1: return -dy() * dz() * Bx(); 
  case 2: return -dz() * dx() * By(); 
  case 3: return  dx() * dy() * Bz(); 
  case 4: return  dy() * dz() * Bx(); 
  case 5: return  dz() * dx() * By();
  default: assert(false);
  }
  return 0.0;
}
Пример #2
0
float GLGPUDataset::QP(const float X0[], const float X1[]) const 
{
  const float *L = Lengths(), 
               *O = Origins();
  float d[3] = {X1[0] - X0[0], X1[1] - X0[1], X1[2] - X0[2]};
  int p[3] = {0}; // 0: not crossed; 1: positive; -1: negative

  for (int i=0; i<3; i++) {
    d[i] = X1[i] - X0[i];
    if (d[i]>L[i]/2) {d[i] -= L[i]; p[i] = 1;}
    else if (d[i]<-L[i]/2) {d[i] += L[i]; p[i] = -1;}
  }

  const float X[3] = {X0[0] - O[0], X0[1] - O[1], X0[2] - O[2]};

  if (By()>0 && p[0]!=0) { // By>0
    return p[0] * L[0] * (Bz()*X[1] - By()*X[2]); 
  } else if (p[1]!=0) {
    return p[1] * L[1] * (Bx()*X[2] - Bz()*X[0]);
  } else return 0.0;
}
Пример #3
0
double GLGPU3DDataset::GaugeTransformation(const double X0[], const double X1[]) const
{
  double gx, gy, gz; 
  double dx = X1[0] - X0[0], 
         dy = X1[1] - X0[1], 
         dz = X1[2] - X0[2]; 
  double x = X0[0] + 0.5*dx, 
         y = X0[1] + 0.5*dy, 
         z = X0[2] + 0.5*dz;

  if (By()>0) { // Y-Z gauge
    gx = dx * Kex(); 
    gy =-dy * x * Bz(); // -dy*x^hat*Bz
    gz = dz * x * By(); //  dz*x^hat*By
  } else { // X-Z gauge
    gx = dx * y * Bz() + dx * Kex(); //  dx*y^hat*Bz + dx*K
    gy = 0; 
    gz =-dz * y * Bx(); // -dz*y^hat*Bx
  }

  return gx + gy + gz; 
}
Пример #4
0
// float Ax(const float X[3], int slot=0) const {if (By()>0) return 0; else return -X[1]*Bz();}
float Ay(const float X[3], int slot=0) const {if (By()>0) return X[0]*Bz(); else return 0;}
Пример #5
0
float Ax(const float X[3], int slot=0) const {if (By()>0) return -Kex(slot); else return -X[1]*Bz()-Kex(slot);}