/******************************************************** * ██████╗ ██████╗████████╗██╗ * ██╔════╝ ██╔════╝╚══██╔══╝██║ * ██║ ███╗██║ ██║ ██║ * ██║ ██║██║ ██║ ██║ * ╚██████╔╝╚██████╗ ██║ ███████╗ * ╚═════╝ ╚═════╝ ╚═╝ ╚══════╝ * Geophysical Computational Tools & Library (GCTL) * * Copyright (c) 2022 Yi Zhang (yizhang-geo@zju.edu.cn) * * GCTL is distributed under a dual licensing scheme. You can redistribute * it and/or modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation, either version 2 * of the License, or (at your option) any later version. You should have * received a copy of the GNU Lesser General Public License along with this * program. If not, see . * * If the terms and conditions of the LGPL v.2. would prevent you from using * the GCTL, please consider the option to obtain a commercial license for a * fee. These licenses are offered by the GCTL's original author. As a rule, * licenses are provided "as-is", unlimited in time for a one time fee. Please * send corresponding requests to: yizhang-geo@zju.edu.cn. Please do not forget * to include some description of your company and the realm of its activities. * Also add information on how to contact you by electronic and paper mail. ******************************************************/ #include "gkernel_sphere.h" #include "cmath" typedef void (*gobser_mass_ptr)(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype); void gobser_mass_vz(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype); void gobser_mass_vzx(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype); void gobser_mass_vzy(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype); void gobser_mass_vzz(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype); void gctl::gobser_mass(array &out_obs, const array &obsp, const point3dc &loc, double mass, gravitational_field_type_e comp_id, value_operator_e valtype) { std::string err_str; if (obsp.empty()) { err_str = "Empty observation points. From gctl::gobser(...)"; throw runtime_error(err_str); } if((valtype == ReplaceVal || valtype == EraseVal) && out_obs.size() != obsp.size()) { out_obs.resize(obsp.size()); } else if (out_obs.size() != obsp.size()) { err_str = "Arrays' size do not match. From gctl::gobser(...)"; throw runtime_error(err_str); } gobser_mass_ptr mass_obser; switch (comp_id) { case Vz: mass_obser = gobser_mass_vz; break; case Tzx: mass_obser = gobser_mass_vzx; break; case Tzy: mass_obser = gobser_mass_vzy; break; case Tzz: mass_obser = gobser_mass_vzz; break; default: mass_obser = gobser_mass_vz; break; } mass_obser(out_obs, obsp, loc, mass, valtype); return; } typedef void (*gobser_sphere_ptr)(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype); void gobser_sphere_vz(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype); void gobser_sphere_vzx(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype); void gobser_sphere_vzy(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype); void gobser_sphere_vzz(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype); void gctl::gobser_sphere(array &out_obs, const array &obsp, const gctl::sphere &gs, gravitational_field_type_e comp_id, value_operator_e valtype) { std::string err_str; if (obsp.empty()) { err_str = "Empty observation points. From gctl::gobser(...)"; throw runtime_error(err_str); } if((valtype == ReplaceVal || valtype == EraseVal) && out_obs.size() != obsp.size()) { out_obs.resize(obsp.size()); } else if (out_obs.size() != obsp.size()) { err_str = "Arrays' size do not match. From gctl::gobser(...)"; throw runtime_error(err_str); } gobser_sphere_ptr sphere_obser; switch (comp_id) { case Vz: sphere_obser = gobser_sphere_vz; break; case Tzx: sphere_obser = gobser_sphere_vzx; break; case Tzy: sphere_obser = gobser_sphere_vzy; break; case Tzz: sphere_obser = gobser_sphere_vzz; break; default: sphere_obser = gobser_sphere_vz; break; } sphere_obser(out_obs, obsp, gs, valtype); return; } void gobser_sphere_vz(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype) { double *rho = (double*)gs.att; double se_mass = 4.0*(*rho)*gs.rad*gs.rad*gs.rad*GCTL_Pi/3.0; gctl::point3dc cen(gs.vert[0]->x, gs.vert[0]->y, gs.vert[0]->z); gobser_mass_vz(out_obs, obsp, cen, se_mass, valtype); return; } void gobser_sphere_vzx(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype) { double *rho = (double*)gs.att; double se_mass = 4.0*(*rho)*gs.rad*gs.rad*gs.rad*GCTL_Pi/3.0; gctl::point3dc cen(gs.vert[0]->x, gs.vert[0]->y, gs.vert[0]->z); gobser_mass_vzx(out_obs, obsp, cen, se_mass, valtype); return; } void gobser_sphere_vzy(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype) { double *rho = (double*)gs.att; double se_mass = 4.0*(*rho)*gs.rad*gs.rad*gs.rad*GCTL_Pi/3.0; gctl::point3dc cen(gs.vert[0]->x, gs.vert[0]->y, gs.vert[0]->z); gobser_mass_vzy(out_obs, obsp, cen, se_mass, valtype); return; } void gobser_sphere_vzz(gctl::array &out_obs, const gctl::array &obsp, const gctl::sphere &gs, gctl::value_operator_e valtype) { double *rho = (double*)gs.att; double se_mass = 4.0*(*rho)*gs.rad*gs.rad*gs.rad*GCTL_Pi/3.0; gctl::point3dc cen(gs.vert[0]->x, gs.vert[0]->y, gs.vert[0]->z); gobser_mass_vzz(out_obs, obsp, cen, se_mass, valtype); return; } void gobser_mass_vz(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype) { double res; for (int i = 0; i < obsp.size(); i++) { res = 1e+8*GCTL_G0*mass*(obsp[i].z-loc.z) /pow(pow(obsp[i].x-loc.x,2)+pow(obsp[i].y-loc.y,2)+pow(obsp[i].z-loc.z,2),1.5); if (valtype == gctl::ReplaceVal) out_obs[i] = res; else if (valtype == gctl::AppendVal) out_obs[i] += res; else if (valtype == gctl::RemoveVal) out_obs[i] -= res; else out_obs[i] = 0.0; } return; } void gobser_mass_vzx(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype) { double res; for (int i = 0; i < obsp.size(); i++) { res = -3e+8*GCTL_G0*mass*(obsp[i].z-loc.z)*(obsp[i].x-loc.x) /pow(pow(obsp[i].x-loc.x,2)+pow(obsp[i].y-loc.y,2)+pow(obsp[i].z-loc.z,2),2.5); if (valtype == gctl::ReplaceVal) out_obs[i] = res; else if (valtype == gctl::AppendVal) out_obs[i] += res; else if (valtype == gctl::RemoveVal) out_obs[i] -= res; else out_obs[i] = 0.0; } return; } void gobser_mass_vzy(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype) { double res; for (int i = 0; i < obsp.size(); i++) { res = -3e+8*GCTL_G0*mass*(obsp[i].z-loc.z)*(obsp[i].y-loc.y) /pow(pow(obsp[i].x-loc.x,2)+pow(obsp[i].y-loc.y,2)+pow(obsp[i].z-loc.z,2),2.5); if (valtype == gctl::ReplaceVal) out_obs[i] = res; else if (valtype == gctl::AppendVal) out_obs[i] += res; else if (valtype == gctl::RemoveVal) out_obs[i] -= res; else out_obs[i] = 0.0; } return; } void gobser_mass_vzz(gctl::array &out_obs, const gctl::array &obsp, const gctl::point3dc &loc, double mass, gctl::value_operator_e valtype) { double res; for (int i = 0; i < obsp.size(); i++) { res = 1e+8*GCTL_G0*mass*(2.0*pow(obsp[i].z-loc.z,2)-pow(obsp[i].x-loc.x,2)-pow(obsp[i].y-loc.y,2)) /pow(pow(obsp[i].x-loc.x,2)+pow(obsp[i].y-loc.y,2)+pow(obsp[i].z-loc.z,2),2.5); if (valtype == gctl::ReplaceVal) out_obs[i] = res; else if (valtype == gctl::AppendVal) out_obs[i] += res; else if (valtype == gctl::RemoveVal) out_obs[i] -= res; else out_obs[i] = 0.0; } return; }