/** ****************************************************************************** * @file : task_alog_c.cpp * @author : wyj * @brief : C语言语法测试 * @attention : None * @date : 2025/5/9 ****************************************************************************** */ #ifdef __cplusplus extern "C" { #endif #include "geography/studio_proj_c.h" #include "geometry/studio_geo_algo_c.h" #ifdef __cplusplus } #endif #include #include #include "geometry/studio_geo_utils.h" void studio_line_to_c_line(const studio_line &line, studio_line_c *c_line) { // c_line->size = line.size(); c_line->data = (studio_point_c *)malloc(line.size() * sizeof(studio_point_c)); for (size_t i = 0; i < line.size(); ++i) { studio_point_c p = studio_point_init(line[i].x, line[i].y); studio_line_c_add_point(c_line, p); } } void c_line_to_studio_line(const studio_line_c *c_line, studio_line &line) { for (size_t i = 0; i < c_line->size; ++i) { const studio_point_c *p = studio_line_c_get_point(c_line, i); line.push_back(studio_point(p->x, p->y)); } } int main() { printf("\n\n===================== %s =====================\n\n", __FILE__); silly::geo::utils::init_gdal_env(); std::string path; #ifdef IS_WINDOWS path = "D:/5_file/2_readfile/geojson/multi_point/fitting_examples.geojson"; #else path = "/home/wyj/myself/2_data/2_geojson/multi_point/fitting_examples.geojson"; #endif std::cout << "path: " << path << std::endl; std::vector res_collections; std::vector collections; silly::geo::utils::read_geo_coll(path, collections); for (auto &coll : collections) { // ------------- 转换为高斯投影 ------------- studio_line gauss_line; double central = static_cast(coll.m_line[0].x / 3) * 3; for (auto &point : coll.m_line) { double gx = 0.0; double gy = 0.0; lonlat_to_gauss(central, point.x, point.y, &gx, &gy); gauss_line.push_back(studio_point(gx, gy)); } studio_line_c gauss_line_c = studio_line_c_init(); studio_line_c vac_gauss_line_c = studio_line_c_init(); studio_line_to_c_line(gauss_line, &gauss_line_c); // 简化线段，目标点数为28个 int max_points = 28; double epsilon = 1.0; bool res = line_vacuate_c(&gauss_line_c, max_points, epsilon, &vac_gauss_line_c); if (!res) { std::cout << "Failed to simplify line." << std::endl; return 1; } // 高斯投影在转回经纬度 studio_line simplified_line; for (int i = 0; i < vac_gauss_line_c.size; i++) { double lon = 0.0; double lat = 0.0; const studio_point_c *p = studio_line_c_get_point(&vac_gauss_line_c, i); gauss_to_lonlat(central, p->x, p->y, &lon, &lat); simplified_line.push_back(studio_point(lon, lat)); } studio_geo_coll temp; temp.m_type = enum_geometry_type::egtLineString; temp.m_line = simplified_line; res_collections.push_back(temp); studio_line_c_destroy(&gauss_line_c); studio_line_c_destroy(&vac_gauss_line_c); break; } std::string output_path; #ifdef IS_WINDOWS output_path = "D:/5_file/2_readfile/geojson/multi_point/fitting_examples_res_1.geojson"; #else output_path = "/home/wyj/myself/2_data/2_geojson/multi_point/fitting_examples_res_1_c.geojson"; #endif silly::geo::utils::write_geo_coll(output_path, res_collections); silly::geo::utils::destroy_gdal_env(); return 0; }