#include "Config.hpp" #include "Geometry.hpp" #include "Model.hpp" #include "TriangleMesh.hpp" #include "libslic3r.h" #include #include #include #include #include #include #include #include using namespace Slic3r; void confess_at(const char *file, int line, const char *func, const char *pat, ...){} int main(int argc, char **argv) { // Convert arguments to UTF-8 (needed on Windows). // argv then points to memory owned by a. boost::nowide::args a(argc, argv); #if 0 // parse all command line options into a DynamicConfig ConfigDef config_def; config_def.merge(cli_config_def); config_def.merge(print_config_def); DynamicConfig config(&config_def); t_config_option_keys input_files; config.read_cli(argc, argv, &input_files); // apply command line options to a more handy CLIConfig CLIConfig cli_config; cli_config.apply(config, true); DynamicPrintConfig print_config; // load config files supplied via --load for (const std::string &file : cli_config.load.values) { if (!boost::filesystem::exists(file)) { boost::nowide::cout << "No such file: " << file << std::endl; exit(1); } DynamicPrintConfig c; try { c.load(file); } catch (std::exception &e) { boost::nowide::cout << "Error while reading config file: " << e.what() << std::endl; exit(1); } c.normalize(); print_config.apply(c); } // apply command line options to a more specific DynamicPrintConfig which provides normalize() // (command line options override --load files) print_config.apply(config, true); print_config.normalize(); // write config if requested if (!cli_config.save.value.empty()) print_config.save(cli_config.save.value); // read input file(s) if any std::vector models; for (const t_config_option_key &file : input_files) { if (!boost::filesystem::exists(file)) { boost::nowide::cerr << "No such file: " << file << std::endl; exit(1); } Model model; try { model = Model::read_from_file(file); } catch (std::exception &e) { boost::nowide::cerr << file << ": " << e.what() << std::endl; exit(1); } if (model.objects.empty()) { boost::nowide::cerr << "Error: file is empty: " << file << std::endl; continue; } model.add_default_instances(); // apply command line transform options for (ModelObject* o : model.objects) { if (cli_config.scale_to_fit.is_positive_volume()) o->scale_to_fit(cli_config.scale_to_fit.value); // TODO: honor option order? o->scale(cli_config.scale.value); o->rotate(Geometry::deg2rad(cli_config.rotate_x.value), X); o->rotate(Geometry::deg2rad(cli_config.rotate_y.value), Y); o->rotate(Geometry::deg2rad(cli_config.rotate.value), Z); } // TODO: handle --merge models.push_back(model); } for (Model &model : models) { if (cli_config.info) { // --info works on unrepaired model model.print_info(); } else if (cli_config.export_obj) { std::string outfile = cli_config.output.value; if (outfile.empty()) outfile = model.objects.front()->input_file + ".obj"; TriangleMesh mesh = model.mesh(); mesh.repair(); IO::OBJ::write(mesh, outfile); boost::nowide::cout << "File exported to " << outfile << std::endl; } else if (cli_config.export_pov) { std::string outfile = cli_config.output.value; if (outfile.empty()) outfile = model.objects.front()->input_file + ".pov"; TriangleMesh mesh = model.mesh(); mesh.repair(); IO::POV::write(mesh, outfile); boost::nowide::cout << "File exported to " << outfile << std::endl; } else if (cli_config.export_svg) { std::string outfile = cli_config.output.value; if (outfile.empty()) outfile = model.objects.front()->input_file + ".svg"; SLAPrint print(&model); print.config.apply(print_config, true); print.slice(); print.write_svg(outfile); boost::nowide::cout << "SVG file exported to " << outfile << std::endl; } else if (cli_config.cut_x > 0 || cli_config.cut_y > 0 || cli_config.cut > 0) { model.repair(); model.translate(0, 0, -model.bounding_box().min.z); if (!model.objects.empty()) { // FIXME: cut all objects Model out; if (cli_config.cut_x > 0) { model.objects.front()->cut(X, cli_config.cut_x, &out); } else if (cli_config.cut_y > 0) { model.objects.front()->cut(Y, cli_config.cut_y, &out); } else { model.objects.front()->cut(Z, cli_config.cut, &out); } ModelObject &upper = *out.objects[0]; ModelObject &lower = *out.objects[1]; if (upper.facets_count() > 0) { TriangleMesh m = upper.mesh(); IO::STL::write(m, upper.input_file + "_upper.stl"); } if (lower.facets_count() > 0) { TriangleMesh m = lower.mesh(); IO::STL::write(m, lower.input_file + "_lower.stl"); } } } else if (cli_config.cut_grid.value.x > 0 && cli_config.cut_grid.value.y > 0) { TriangleMesh mesh = model.mesh(); mesh.repair(); TriangleMeshPtrs meshes = mesh.cut_by_grid(cli_config.cut_grid.value); size_t i = 0; for (TriangleMesh* m : meshes) { std::ostringstream ss; ss << model.objects.front()->input_file << "_" << i++ << ".stl"; IO::STL::write(*m, ss.str()); delete m; } } else { boost::nowide::cerr << "error: command not supported" << std::endl; return 1; } } #endif return 0; }