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gint_tau.cpp
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#include "module_base/global_function.h"
#include "module_base/global_variable.h"
#include "gint_k.h"
#include "module_basis/module_ao/ORB_read.h"
#include "grid_technique.h"
#include "module_base/ylm.h"
#include "module_hamilt_pw/hamilt_pwdft/global.h"
#include "module_base/blas_connector.h"
#include "module_base/timer.h"
#include "gint_tools.h"
void Gint::gint_kernel_tau(
const int na_grid,
const int grid_index,
const double delta_r,
int* vindex,
const int LD_pool,
Gint_inout *inout)
{
//prepare block information
int * block_iw, * block_index, * block_size;
bool** cal_flag;
Gint_Tools::get_block_info(*this->gridt, this->bxyz, na_grid, grid_index, block_iw, block_index, block_size, cal_flag);
//evaluate psi and dpsi on grids
Gint_Tools::Array_Pool<double> psir_ylm(this->bxyz, LD_pool);
Gint_Tools::Array_Pool<double> dpsir_ylm_x(this->bxyz, LD_pool);
Gint_Tools::Array_Pool<double> dpsir_ylm_y(this->bxyz, LD_pool);
Gint_Tools::Array_Pool<double> dpsir_ylm_z(this->bxyz, LD_pool);
Gint_Tools::cal_dpsir_ylm(*this->gridt,
this->bxyz, na_grid, grid_index, delta_r,
block_index, block_size,
cal_flag,
psir_ylm.ptr_2D,
dpsir_ylm_x.ptr_2D,
dpsir_ylm_y.ptr_2D,
dpsir_ylm_z.ptr_2D
);
for(int is=0; is<GlobalV::NSPIN; ++is)
{
Gint_Tools::Array_Pool<double> dpsix_DM(this->bxyz, LD_pool);
Gint_Tools::Array_Pool<double> dpsiy_DM(this->bxyz, LD_pool);
Gint_Tools::Array_Pool<double> dpsiz_DM(this->bxyz, LD_pool);
ModuleBase::GlobalFunc::ZEROS(dpsix_DM.ptr_1D, this->bxyz*LD_pool);
ModuleBase::GlobalFunc::ZEROS(dpsiy_DM.ptr_1D, this->bxyz*LD_pool);
ModuleBase::GlobalFunc::ZEROS(dpsiz_DM.ptr_1D, this->bxyz*LD_pool);
//calculating g_i,mu(r) = sum_nu rho_mu,nu d/dx_i psi_nu(r), x_i=x,y,z
if(GlobalV::GAMMA_ONLY_LOCAL)
{
/*
Gint_Tools::mult_psi_DM(
*this->gridt,this->bxyz, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_x.ptr_2D,
dpsix_DM.ptr_2D,
inout->DM[is], 1);
Gint_Tools::mult_psi_DM(
*this->gridt, this->bxyz, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_y.ptr_2D,
dpsiy_DM.ptr_2D,
inout->DM[is], 1);
Gint_Tools::mult_psi_DM(
*this->gridt, this->bxyz, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_z.ptr_2D,
dpsiz_DM.ptr_2D,
inout->DM[is], 1);
*/
Gint_Tools::mult_psi_DM_new(
*this->gridt,this->bxyz, grid_index, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_x.ptr_2D,
dpsix_DM.ptr_2D,
this->DMRGint[is], 1);
Gint_Tools::mult_psi_DM_new(
*this->gridt, this->bxyz, grid_index, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_y.ptr_2D,
dpsiy_DM.ptr_2D,
this->DMRGint[is], 1);
Gint_Tools::mult_psi_DM_new(
*this->gridt, this->bxyz, grid_index, na_grid, LD_pool,
block_iw, block_size,
block_index, cal_flag,
dpsir_ylm_z.ptr_2D,
dpsiz_DM.ptr_2D,
this->DMRGint[is], 1);
}
else
{
Gint_Tools::mult_psi_DMR(
*this->gridt, this->bxyz, grid_index, na_grid,
block_index, block_size,
cal_flag,
dpsir_ylm_x.ptr_2D,
dpsix_DM.ptr_2D,
inout->DM_R[is],
this->DMRGint[is],
1);
Gint_Tools::mult_psi_DMR(
*this->gridt, this->bxyz, grid_index, na_grid,
block_index, block_size,
cal_flag,
dpsir_ylm_y.ptr_2D,
dpsiy_DM.ptr_2D,
inout->DM_R[is],
this->DMRGint[is],
1);
Gint_Tools::mult_psi_DMR(
*this->gridt, this->bxyz, grid_index, na_grid,
block_index, block_size,
cal_flag,
dpsir_ylm_z.ptr_2D,
dpsiz_DM.ptr_2D,
inout->DM_R[is],
this->DMRGint[is],
1);
}
//do sum_i,mu g_i,mu(r) * d/dx_i psi_mu(r) to get kinetic energy density on grid
if(inout->job==Gint_Tools::job_type::tau)
{
this->cal_meshball_tau(
na_grid, block_index,
vindex,
dpsir_ylm_x.ptr_2D, dpsir_ylm_y.ptr_2D, dpsir_ylm_z.ptr_2D,
dpsix_DM.ptr_2D, dpsiy_DM.ptr_2D, dpsiz_DM.ptr_2D,
inout->rho[is]);
}
}
delete[] block_iw;
delete[] block_index;
delete[] block_size;
for(int ib=0; ib<this->bxyz; ++ib)
{
delete[] cal_flag[ib];
}
delete[] cal_flag;
}
void Gint::cal_meshball_tau(
const int na_grid,
int* block_index,
int* vindex,
double** dpsix,
double** dpsiy,
double** dpsiz,
double** dpsix_dm,
double** dpsiy_dm,
double** dpsiz_dm,
double* rho)
{
const int inc = 1;
// sum over mu to get density on grid
for(int ib=0; ib<this->bxyz; ++ib)
{
double rx=ddot_(&block_index[na_grid], dpsix[ib], &inc, dpsix_dm[ib], &inc);
double ry=ddot_(&block_index[na_grid], dpsiy[ib], &inc, dpsiy_dm[ib], &inc);
double rz=ddot_(&block_index[na_grid], dpsiz[ib], &inc, dpsiz_dm[ib], &inc);
const int grid = vindex[ib];
rho[ grid ] += rx + ry + rz;
}
}