void Greenfb::add_boundary_potential(Grid2D& rho)
{
if (a0 > 0.0 && b0 > 0.0) return;
int i,j, u=0;
int NX=rho.get_NX();
int NY=rho.get_NY();
double dx=rho.get_dx();
double dy=rho.get_dy();
Grid2D rho_tmp(NX,NY,dx,dy);
double* rhotg =rho_tmp.grid;
double* rhog =rho.grid;
for(i=0; i<NX; i++)
for(j=0; j<NY; j++)
rhotg[j+i*NY]=rhog[j+i*NY];
for(i=1; i<NX; i++)
{
rhog[NY-1+i*NY]+=eps0*get_potential_b(u,rho_tmp);
u=u+1;
}
for(j=1; j<NY-1; j++)
{
rhog[(j)+(NX-1)*NY]+=eps0*get_potential_b(u,rho_tmp);
u=u+1;
}
for(i=1; i<NX-1; i++)
{
rhog[(1)+(i)*NY]+=eps0*get_potential_b(u,rho_tmp);
u=u+1;
}
for(j=2; j<NY-1; j++)
{
rhog[(j)+(1)*NY]+=eps0*get_potential_b(u,rho_tmp);
u=u+1;
}
}
void poisson_xy(Grid2D& rho, Greenfb& gf)
{
int j, l,NX=rho.get_NX(),NY=rho.get_NX();
double dx=rho.get_dx(), dy=rho.get_dy();
double *temx, *temy;
temx=new double[NX];
temy=new double[NY];
gf.add_boundary_potential(rho);
for(j=0; j<NX; j++)
{
for(l=0;l<NY;l++)
temy[l]=rho[l+NY*j];
sinft(temy-1,NY);
for(l=0;l<NY;l++)
rho[l+NY*j]=temy[l];
}
for(l=0; l<NY; l++)
{
for(j=0;j<NX;j++)
temx[j]=rho[l+j*NY];
sinft(temx-1,NX);
for(j=0;j<NX;j++)
rho[l+NY*j]=temx[j];
}
for(j=1;j<NX;j++)
for(l=1;l<NY;l++)
rho[l+j*NY]*=-1.0/eps0
*0.5*dx*dy/(cos(PI*j/NX)+cos(PI*l/NY)-2.0);
for(j=0; j<NX; j++)
{
for(l=0;l<NY;l++)
temy[l]=rho[l+NY*j];
sinft(temy-1,NY);
for(l=0;l<NY;l++)
rho[l+NY*j]=2.0*temy[l]/NY;
}
for(l=0; l<NY; l++)
{
for(j=0;j<NX;j++)
temx[j]=rho[l+j*NY];
sinft(temx-1,NX);
for(j=0;j<NX;j++)
rho[l+NY*j]=2.0*temx[j]/NX;
}
delete temx;
delete temy;
}
double Pic::entropy(Grid2D& target){
double Hfunc = 0.0;
int NPIC = get_size();
int Nxs = target.get_NX();
int Nys = target.get_NY();
double dxs = target.get_dx();
double dys = target.get_dy();
gatherXsYs(1.0/(double)NPIC, target);
for(int j=0; j<Nxs; ++j)
for(int l=0; l<Nys; ++l){
if(target(j, l) > 0.0)
Hfunc += target(j, l)*log(target(j, l))*dxs*dys;
}
return Hfunc;
}
void poisson_xy(Grid2D& Ex, Grid2D& Ey, Grid2D& rho, Greenfb& gf)
{
int NX=rho.get_NX(),NY=rho.get_NX();
double dx=rho.get_dx(), dy=rho.get_dy();
//rho.filtering();
poisson_xy(rho,gf);
double* rhog=rho.grid;
double* Exg=Ex.grid;
double* Eyg=Ey.grid;
for(int j=3;j<NX-2;j++)
for(int l=3;l<NY-2;l++)
{
/* Ex(j,l)=-(rho(j+1,l,1)-rho(j-1,l,1))/(2.0*dx);
Ey(j,l)=-(rho(j,l+1,1)-rho(j,l-1,1))/(2.0*dy);*/
Exg[l+j*NY]=-(rhog[l+(j+1)*NY]-rhog[l+(j-1)*NY])/(2.0*dx);
Eyg[l+j*NY]=-(rhog[l+1+j*NY]-rhog[l-1+j*NY])/(2.0*dy);
}
}
void poisson_xy(Grid2D& Ex, Grid2D& Ey, Grid2D& rho, Greenfb& gf)
{
// pTimer ffT;
int NX=rho.get_NX(),NY=rho.get_NX();
double dx=rho.get_dx(), dy=rho.get_dy();
poisson_xy(rho,gf);
double* rhog=rho.grid;
double* Exg=Ex.grid;
double* Eyg=Ey.grid;
//ffT.start();
for(int j=3;j<NX-2;j++)
for(int l=3;l<NY-2;l++)
{
/* Ex(j,l)=-(rho(j+1,l,1)-rho(j-1,l,1))/(2.0*dx);
Ey(j,l)=-(rho(j,l+1,1)-rho(j,l-1,1))/(2.0*dy);*/
Exg[l+j*NY]=-(rhog[l+(j+1)*NY]-rhog[l+(j-1)*NY])/(2.0*dx);
Eyg[l+j*NY]=-(rhog[l+1+j*NY]-rhog[l-1+j*NY])/(2.0*dy);
}
//ffT.stop();
// printf("doubleforloop: %f\n",ffT.t/1000);
}
void poisson_rz(Grid2D& rho)
{
int j,m;
int NR=rho.get_NX();
int NZ=rho.get_NY();
double dr=rho.get_dx();
double dz=rho.get_dy();
double *q1=new double[NR];
double *q2=new double[NR];
double *tem=new double[NZ];
for(j=0; j<NR; j++)
{
for(m=0;m<NZ;m++)
tem[m]=rho[m+NZ*j];
realft(tem-1,NZ,1);
//cosft1(tem-1,NZ);
//sinft(tem-1,NZ);
for(m=0;m<NZ;m++)
rho[m+NZ*j]=tem[m];
}
for(m=2;m<NZ;m+=2)
{
for(j=0;j<NR;j++)
{
q1[j]=rho[m+NZ*j];
q2[j]=rho[m+1+NZ*j];
}
poisson_r(q1,(int)(0.5*m),NR,NZ,dr,dz);
poisson_r(q2,(int)(0.5*m),NR,NZ,dr,dz);
for(j=0;j<NR;j++)
{
rho[m+NZ*j]=q1[j];
rho[m+1+NZ*j]=q2[j];
}
}
for(j=0;j<NR;j++)
q1[j]=rho[1+NZ*j];
poisson_r(q1,(int)(0.5*NZ),NR,NZ,dr,dz);
for(j=0;j<NR;j++)
rho[1+NZ*j]=q1[j];
for(j=0;j<NR;j++)
q1[j]=rho[j*NZ];
poisson_r(q1,0,NR,NZ,dr,dz);
for(j=0;j<NR;j++)
rho[0+NZ*j]=q1[j];
for(j=0; j<NR; j++)
{
for(m=0;m<NZ;m++)
tem[m]=rho[m+NZ*j];
realft(tem-1,NZ,-1);
//cosft1(tem-1,NZ);
//sinft(tem-1,NZ);
for(m=0;m<NZ;m++)
rho[m+NZ*j]=2.0*tem[m]/NZ;
}
delete q1;
delete q2;
delete tem;
}