#include #include "libslic3r/libslic3r.h" #include "libslic3r/Model.hpp" #include #include #include "test_data.hpp" using namespace Slic3r; using namespace Slic3r::Test; SCENARIO("Model construction", "[Model]") { GIVEN("A Slic3r Model") { Slic3r::Model model; Slic3r::TriangleMesh sample_mesh = Slic3r::make_cube(20,20,20); Slic3r::DynamicPrintConfig config = Slic3r::DynamicPrintConfig::full_print_config(); Slic3r::Print print; WHEN("Model object is added") { Slic3r::ModelObject *model_object = model.add_object(); THEN("Model object list == 1") { REQUIRE(model.objects.size() == 1); } model_object->add_volume(sample_mesh); THEN("Model volume list == 1") { REQUIRE(model_object->volumes.size() == 1); } THEN("Model volume is a part") { REQUIRE(model_object->volumes.front()->is_model_part()); } THEN("Mesh is equivalent to input mesh.") { REQUIRE(! sample_mesh.its.vertices.empty()); const std::vector& mesh_vertices = model_object->volumes.front()->mesh().its.vertices; Vec3f mesh_offset = model_object->volumes.front()->source.mesh_offset.cast(); for (size_t i = 0; i < sample_mesh.its.vertices.size(); ++ i) { const Vec3f &p1 = sample_mesh.its.vertices[i]; const Vec3f p2 = mesh_vertices[i] + mesh_offset; REQUIRE((p2 - p1).norm() < EPSILON); } } model_object->add_instance(); model.arrange_objects(PrintConfig::min_object_distance(&config)); model.center_instances_around_point(Slic3r::Vec2d(100, 100)); model_object->ensure_on_bed(); print.auto_assign_extruders(model_object); THEN("Print works?") { print.set_status_silent(); print.apply(model, config); print.process(); boost::filesystem::path temp = boost::filesystem::unique_path(); print.export_gcode(temp.string(), nullptr); REQUIRE(boost::filesystem::exists(temp)); REQUIRE(boost::filesystem::is_regular_file(temp)); REQUIRE(boost::filesystem::file_size(temp) > 0); boost::nowide::remove(temp.string().c_str()); } } } }