#ifndef BOOST_GEOMETRY_PROJECTIONS_STEREA_HPP #define BOOST_GEOMETRY_PROJECTIONS_STEREA_HPP // Boost.Geometry - extensions-gis-projections (based on PROJ4) // This file is automatically generated. DO NOT EDIT. // Copyright (c) 2008-2015 Barend Gehrels, Amsterdam, the Netherlands. // This file was modified by Oracle on 2017. // Modifications copyright (c) 2017, Oracle and/or its affiliates. // Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle. // Use, modification and distribution is subject to the Boost Software License, // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // This file is converted from PROJ4, http://trac.osgeo.org/proj // PROJ4 is originally written by Gerald Evenden (then of the USGS) // PROJ4 is maintained by Frank Warmerdam // PROJ4 is converted to Boost.Geometry by Barend Gehrels // Last updated version of proj: 4.9.1 // Original copyright notice: // Copyright (c) 2003 Gerald I. Evenden // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL // THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. #include #include #include #include #include #include namespace boost { namespace geometry { namespace srs { namespace par4 { struct sterea {}; }} //namespace srs::par4 namespace projections { #ifndef DOXYGEN_NO_DETAIL namespace detail { namespace sterea { static const double DEL_TOL = 1.e-14; static const int MAX_ITER = 10; template struct par_sterea { T phic0; T cosc0, sinc0; T R2; gauss::GAUSS en; }; // template class, using CRTP to implement forward/inverse template struct base_sterea_ellipsoid : public base_t_fi, CalculationType, Parameters> { typedef CalculationType geographic_type; typedef CalculationType cartesian_type; par_sterea m_proj_parm; inline base_sterea_ellipsoid(const Parameters& par) : base_t_fi, CalculationType, Parameters>(*this, par) {} // FORWARD(e_forward) ellipsoid // Project coordinates from geographic (lon, lat) to cartesian (x, y) inline void fwd(geographic_type& lp_lon, geographic_type& lp_lat, cartesian_type& xy_x, cartesian_type& xy_y) const { CalculationType cosc, sinc, cosl_, k; detail::gauss::gauss(m_proj_parm.en, lp_lon, lp_lat); sinc = sin(lp_lat); cosc = cos(lp_lat); cosl_ = cos(lp_lon); k = this->m_par.k0 * this->m_proj_parm.R2 / (1. + this->m_proj_parm.sinc0 * sinc + this->m_proj_parm.cosc0 * cosc * cosl_); xy_x = k * cosc * sin(lp_lon); xy_y = k * (this->m_proj_parm.cosc0 * sinc - this->m_proj_parm.sinc0 * cosc * cosl_); } // INVERSE(e_inverse) ellipsoid // Project coordinates from cartesian (x, y) to geographic (lon, lat) inline void inv(cartesian_type& xy_x, cartesian_type& xy_y, geographic_type& lp_lon, geographic_type& lp_lat) const { CalculationType rho, c, sinc, cosc; xy_x /= this->m_par.k0; xy_y /= this->m_par.k0; if((rho = boost::math::hypot(xy_x, xy_y))) { c = 2. * atan2(rho, this->m_proj_parm.R2); sinc = sin(c); cosc = cos(c); lp_lat = asin(cosc * this->m_proj_parm.sinc0 + xy_y * sinc * this->m_proj_parm.cosc0 / rho); lp_lon = atan2(xy_x * sinc, rho * this->m_proj_parm.cosc0 * cosc - xy_y * this->m_proj_parm.sinc0 * sinc); } else { lp_lat = this->m_proj_parm.phic0; lp_lon = 0.; } detail::gauss::inv_gauss(m_proj_parm.en, lp_lon, lp_lat); } static inline std::string get_name() { return "sterea_ellipsoid"; } }; // Oblique Stereographic Alternative template inline void setup_sterea(Parameters& par, par_sterea& proj_parm) { T R; proj_parm.en = detail::gauss::gauss_ini(par.e, par.phi0, proj_parm.phic0, R); proj_parm.sinc0 = sin(proj_parm.phic0); proj_parm.cosc0 = cos(proj_parm.phic0); proj_parm.R2 = 2. * R; } }} // namespace detail::sterea #endif // doxygen /*! \brief Oblique Stereographic Alternative projection \ingroup projections \tparam Geographic latlong point type \tparam Cartesian xy point type \tparam Parameters parameter type \par Projection characteristics - Azimuthal - Spheroid - Ellipsoid \par Example \image html ex_sterea.gif */ template struct sterea_ellipsoid : public detail::sterea::base_sterea_ellipsoid { inline sterea_ellipsoid(const Parameters& par) : detail::sterea::base_sterea_ellipsoid(par) { detail::sterea::setup_sterea(this->m_par, this->m_proj_parm); } }; #ifndef DOXYGEN_NO_DETAIL namespace detail { // Static projection BOOST_GEOMETRY_PROJECTIONS_DETAIL_STATIC_PROJECTION(srs::par4::sterea, sterea_ellipsoid, sterea_ellipsoid) // Factory entry(s) template class sterea_entry : public detail::factory_entry { public : virtual base_v* create_new(const Parameters& par) const { return new base_v_fi, CalculationType, Parameters>(par); } }; template inline void sterea_init(detail::base_factory& factory) { factory.add_to_factory("sterea", new sterea_entry); } } // namespace detail #endif // doxygen } // namespace projections }} // namespace boost::geometry #endif // BOOST_GEOMETRY_PROJECTIONS_STEREA_HPP