#include #include #include // its_make_cube + its_merge using namespace Slic3r; TEST_CASE("Cut character from surface", "[]") { std::string font_path = std::string(TEST_DATA_DIR) + "/../../resources/fonts/NotoSans-Regular.ttf"; char letter = '%'; float flatness = 2.; unsigned int font_index = 0; // collection float z_depth = 50.f; // projection size auto font = Emboss::create_font_file(font_path.c_str()); REQUIRE(font != nullptr); std::optional glyph = Emboss::letter2glyph(*font, font_index, letter, flatness); REQUIRE(glyph.has_value()); ExPolygons shapes = glyph->shape; REQUIRE(!shapes.empty()); Transform3d tr = Transform3d::Identity(); tr.translate(Vec3d(0., 0., -z_depth)); tr.scale(Emboss::SHAPE_SCALE); Emboss::OrthoProject cut_projection(tr, Vec3f(0.f, 0.f, z_depth)); auto object = its_make_cube(782 - 49 + 50, 724 + 10 + 50, 5); its_translate(object, Vec3f(49 - 25, -10 - 25, -40)); auto cube2 = object; // copy its_translate(cube2, Vec3f(100, -40, 7.5)); its_merge(object, std::move(cube2)); std::vector objects{object}; // Call core function for cut surface auto surfaces = cut_surface(shapes, objects, cut_projection, 0.5); CHECK(!surfaces.empty()); Emboss::OrthoProject projection(Transform3d::Identity(), Vec3f(0.f, 0.f, 10.f)); its_translate(surfaces, Vec3f(0.f, 0.f, 10)); indexed_triangle_set its = cut2model(surfaces, projection); CHECK(!its.empty()); // its_write_obj(its, "C:/data/temp/projected.obj"); } //#define DEBUG_3MF #ifdef DEBUG_3MF // Test load of 3mf #include "libslic3r/Format/3mf.hpp" #include "libslic3r/Model.hpp" static std::vector transform_volumes(ModelVolume *mv) { const auto &volumes = mv->get_object()->volumes; std::vector results; results.reserve(volumes.size()); // Improve create object from part or use gl_volume // Get first model part in object for (const ModelVolume *v : volumes) { if (v->id() == mv->id()) continue; if (!v->is_model_part()) continue; const TriangleMesh &tm = v->mesh(); if (tm.empty()) continue; if (tm.its.empty()) continue; results.push_back(tm.its); // copy: indexed_triangle_set indexed_triangle_set& its = results.back(); its_transform(its,v->get_matrix()); } return results; } static Emboss::OrthoProject create_projection_for_cut( Transform3d tr, double shape_scale, const BoundingBox &shape_bb, const std::pair &z_range) { // create sure that emboss object is bigger than source object const float safe_extension = 1.0f; float min_z = z_range.first - safe_extension; float max_z = z_range.second + safe_extension; assert(min_z < max_z); // range between min and max value double projection_size = max_z - min_z; Matrix3d transformation_for_vector = tr.linear(); // Projection must be negative value. // System of text coordinate // X .. from left to right // Y .. from bottom to top // Z .. from text to eye Vec3d untransformed_direction(0., 0., projection_size); Vec3f project_direction = (transformation_for_vector * untransformed_direction).cast(); // Projection is in direction from far plane tr.translate(Vec3d(0., 0., min_z)); tr.scale(shape_scale); // Text alignemnt to center 2D Vec2d move = -(shape_bb.max + shape_bb.min).cast() / 2.; // Vec2d move = -shape_bb.center().cast(); // not precisse tr.translate(Vec3d(move.x(), move.y(), 0.)); return Emboss::OrthoProject(tr, project_direction); } TEST_CASE("CutSurface in 3mf", "[Emboss]") { //std::string path_to_3mf = "C:/Users/Filip Sykala/Downloads/EmbossFromMultiVolumes.3mf"; //int object_id = 0; //int text_volume_id = 2; //std::string path_to_3mf = "C:/Users/Filip Sykala/Downloads/treefrog.3mf"; //int object_id = 0; //int text_volume_id = 1; std::string path_to_3mf = "C:/Users/Filip Sykala/Downloads/cube_test.3mf"; int object_id = 1; int text_volume_id = 2; Model model; DynamicPrintConfig config; ConfigSubstitutionContext ctxt{ForwardCompatibilitySubstitutionRule::Disable}; CHECK(load_3mf(path_to_3mf.c_str(), config, ctxt, &model, false)); CHECK(object_id >= 0); CHECK((size_t)object_id < model.objects.size()); ModelObject* mo = model.objects[object_id]; CHECK(mo != nullptr); CHECK(text_volume_id >= 0); CHECK((size_t)text_volume_id < mo->volumes.size()); ModelVolume *mv_text = mo->volumes[text_volume_id]; CHECK(mv_text != nullptr); CHECK(mv_text->text_configuration.has_value()); TextConfiguration &tc = *mv_text->text_configuration; /* // Need GUI to load font by wx std::optional wx_font = GUI::WxFontUtils::load_wxFont(tc.font_item.path); CHECK(wx_font.has_value()); Emboss::FontFileWithCache ff(GUI::WxFontUtils::create_font_file(*wx_font)); CHECK(ff.font_file != nullptr); /*/ // end use GUI // start use fake font std::string font_path = std::string(TEST_DATA_DIR) + "/../../resources/fonts/NotoSans-Regular.ttf"; Emboss::FontFileWithCache ff(Emboss::create_font_file(font_path.c_str())); // */ // end use fake font CHECK(ff.has_value()); std::vector its = transform_volumes(mv_text); BoundingBoxf3 bb; for (auto &i : its) bb.merge(Slic3r::bounding_box(i)); Transform3d cut_projection_tr = mv_text->get_matrix() * tc.fix_3mf_tr->inverse(); Transform3d emboss_tr = cut_projection_tr.inverse(); BoundingBoxf3 mesh_bb_tr = bb.transformed(emboss_tr); std::pair z_range{mesh_bb_tr.min.z(), mesh_bb_tr.max.z()}; FontProp fp = tc.font_item.prop; ExPolygons shapes = Emboss::text2shapes(ff, tc.text.c_str(), fp); double shape_scale = Emboss::get_shape_scale(fp, *ff.font_file); Emboss::OrthoProject projection = create_projection_for_cut( cut_projection_tr, shape_scale, get_extents(shapes), z_range); float projection_ratio = -z_range.first / (z_range.second - z_range.first); SurfaceCut cut = cut_surface(shapes, its, projection, projection_ratio); its_write_obj(cut, "C:/data/temp/cutSurface/result_cut.obj"); } #endif // DEBUG_3MF