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/* Copyright 2019 Remi Lehe
*
* This file is part of WarpX.
*
* License: BSD-3-Clause-LBNL
*/
#include "FieldSolver/SpectralSolver/SpectralAlgorithms/SpectralBaseAlgorithm.H"
#include "FieldSolver/SpectralSolver/SpectralFieldData.H"
#include "SpectralAlgorithms/PsatdAlgorithmComoving.H"
#include "SpectralAlgorithms/PsatdAlgorithmPml.H"
#include "SpectralAlgorithms/PsatdAlgorithmJConstantInTime.H"
#include "SpectralAlgorithms/PsatdAlgorithmJLinearInTime.H"
#include "SpectralKSpace.H"
#include "SpectralSolver.H"
#include "Utils/WarpXProfilerWrapper.H"
#include <memory>
#if WARPX_USE_PSATD
SpectralSolver::SpectralSolver(
const int lev,
const amrex::BoxArray& realspace_ba,
const amrex::DistributionMapping& dm,
const int norder_x, const int norder_y,
const int norder_z, const bool nodal,
const amrex::Vector<amrex::Real>& v_galilean,
const amrex::Vector<amrex::Real>& v_comoving,
const amrex::RealVect dx, const amrex::Real dt,
const bool pml, const bool periodic_single_box,
const bool update_with_rho,
const bool fft_do_time_averaging,
const int J_in_time,
const int rho_in_time,
const bool dive_cleaning,
const bool divb_cleaning)
{
// Initialize all structures using the same distribution mapping dm
// - Initialize k space object (Contains info about the size of
// the spectral space corresponding to each box in `realspace_ba`,
// as well as the value of the corresponding k coordinates)
const SpectralKSpace k_space= SpectralKSpace(realspace_ba, dm, dx);
m_spectral_index = SpectralFieldIndex(
update_with_rho, fft_do_time_averaging, J_in_time, rho_in_time,
dive_cleaning, divb_cleaning, pml);
// - Select the algorithm depending on the input parameters
// Initialize the corresponding coefficients over k space
if (pml) // PSATD equations in the PML grids
{
algorithm = std::make_unique<PsatdAlgorithmPml>(
k_space, dm, m_spectral_index, norder_x, norder_y, norder_z, nodal,
dt, dive_cleaning, divb_cleaning);
}
else // PSATD equations in the regulard grids
{
// Comoving PSATD algorithm
if (v_comoving[0] != 0. || v_comoving[1] != 0. || v_comoving[2] != 0.)
{
algorithm = std::make_unique<PsatdAlgorithmComoving>(
k_space, dm, m_spectral_index, norder_x, norder_y, norder_z, nodal,
v_comoving, dt, update_with_rho);
}
else // PSATD algorithms: standard, Galilean, averaged Galilean, multi-J
{
if (J_in_time == JInTime::Constant)
{
algorithm = std::make_unique<PsatdAlgorithmJConstantInTime>(
k_space, dm, m_spectral_index, norder_x, norder_y, norder_z, nodal,
v_galilean, dt, update_with_rho, fft_do_time_averaging,
dive_cleaning, divb_cleaning);
}
else // J linear in time
{
algorithm = std::make_unique<PsatdAlgorithmJLinearInTime>(
k_space, dm, m_spectral_index, norder_x, norder_y, norder_z, nodal,
dt, fft_do_time_averaging, dive_cleaning, divb_cleaning);
}
}
}
// - Initialize arrays for fields in spectral space + FFT plans
field_data = SpectralFieldData(lev, realspace_ba, k_space, dm,
m_spectral_index.n_fields, periodic_single_box);
}
void
SpectralSolver::ForwardTransform (const int lev,
const amrex::MultiFab& mf,
const int field_index,
const int i_comp)
{
WARPX_PROFILE("SpectralSolver::ForwardTransform");
field_data.ForwardTransform(lev, mf, field_index, i_comp);
}
void
SpectralSolver::BackwardTransform( const int lev,
amrex::MultiFab& mf,
const int field_index,
const amrex::IntVect& fill_guards,
const int i_comp )
{
WARPX_PROFILE("SpectralSolver::BackwardTransform");
field_data.BackwardTransform(lev, mf, field_index, fill_guards, i_comp);
}
void
SpectralSolver::pushSpectralFields(){
WARPX_PROFILE("SpectralSolver::pushSpectralFields");
// Virtual function: the actual function used here depends
// on the sub-class of `SpectralBaseAlgorithm` that was
// initialized in the constructor of `SpectralSolver`
algorithm->pushSpectralFields( field_data );
}
#endif // WARPX_USE_PSATD
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