FM3DH5Block_nonscale.cpp

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//
// Class FM3DH5Block_nonscale
//   Class for dynamic non-scaled 3D field-maps stored in H5hut files.
//
// Copyright (c) 2020, Achim Gsell, Paul Scherrer Institut, Villigen PSI, Switzerland
// All rights reserved.
//
// This file is part of OPAL.
//
// OPAL is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// You should have received a copy of the GNU General Public License
// along with OPAL.  If not, see <https://www.gnu.org/licenses/>.
//
 
#include "Fields/FM3DH5Block_nonscale.h"
#include "Physics/Physics.h"
#include "Physics/Units.h"
#include "Utilities/GeneralClassicException.h"
 
FM3DH5Block_nonscale::FM3DH5Block_nonscale(std::string aFilename)
    : Fieldmap(aFilename), FM3DH5BlockBase() {
    Type = T3DDynamicH5Block;
 
    openFileMPIOCollective(aFilename);
    getFieldInfo("Efield");
    getResonanceFrequency();
    closeFile();
}
 
FM3DH5Block_nonscale::~FM3DH5Block_nonscale() {
    freeMap();
}
 
void FM3DH5Block_nonscale::readMap() {
    if (!FieldstrengthEz_m.empty()) {
        return;
    }
    openFileMPIOCollective(Filename_m);
    long long last_step = getNumSteps() - 1;
    setStep(last_step);
 
    size_t field_size = num_gridpx_m * num_gridpy_m * num_gridpz_m;
    FieldstrengthEx_m.resize(field_size);
    FieldstrengthEy_m.resize(field_size);
    FieldstrengthEz_m.resize(field_size);
    FieldstrengthHx_m.resize(field_size);
    FieldstrengthHy_m.resize(field_size);
    FieldstrengthHz_m.resize(field_size);
 
    readField("Efield", &(FieldstrengthEx_m[0]), &(FieldstrengthEy_m[0]), &(FieldstrengthEz_m[0]));
    readField("Hfield", &(FieldstrengthHx_m[0]), &(FieldstrengthHy_m[0]), &(FieldstrengthHz_m[0]));
 
    closeFile();
 
    for (long long i = 0; i < num_gridpx_m * num_gridpy_m * num_gridpz_m; i++) {
        FieldstrengthEz_m[i] *= Units::MVpm2Vpm;
        FieldstrengthEx_m[i] *= Units::MVpm2Vpm;
        FieldstrengthEy_m[i] *= Units::MVpm2Vpm;
        FieldstrengthHx_m[i] *= 1.0e6 * Physics::mu_0;
        FieldstrengthHy_m[i] *= 1.0e6 * Physics::mu_0;
        FieldstrengthHz_m[i] *= 1.0e6 * Physics::mu_0;
    }
    *ippl::Info << level3
                << typeset_msg(
                       "3d dynamic (non-scaled) fieldmap '" + Filename_m + "' (H5hut format) read",
                       "info")
                << endl;
}
 
void FM3DH5Block_nonscale::freeMap() {
    if (FieldstrengthEz_m.empty()) {
        return;
    }
    FieldstrengthEx_m.clear();
    FieldstrengthEy_m.clear();
    FieldstrengthEz_m.clear();
    FieldstrengthHx_m.clear();
    FieldstrengthHy_m.clear();
    FieldstrengthHz_m.clear();
 
    *ippl::Info << level3 << typeset_msg("freed fieldmap '" + Filename_m + "'", "info") << endl;
}
 
bool FM3DH5Block_nonscale::getFieldstrength(
    const Vector_t<double, 3>& R, Vector_t<double, 3>& E, Vector_t<double, 3>& B) const {
    if (!isInside(R)) {
        return true;
    }
    E += interpolateTrilinearly(FieldstrengthEx_m, FieldstrengthEy_m, FieldstrengthEz_m, R);
    B += interpolateTrilinearly(FieldstrengthHx_m, FieldstrengthHy_m, FieldstrengthHz_m, R);
 
    return false;
}