#include "BedShapeDialog.hpp" #include #include #include #include #include "libslic3r/BoundingBox.hpp" #include "libslic3r/Model.hpp" #include "libslic3r/Polygon.hpp" #include "boost/nowide/iostream.hpp" #include namespace Slic3r { namespace GUI { void BedShapeDialog::build_dialog(ConfigOptionPoints* default_pt) { m_panel = new BedShapePanel(this); m_panel->build_panel(default_pt); auto main_sizer = new wxBoxSizer(wxVERTICAL); main_sizer->Add(m_panel, 1, wxEXPAND); main_sizer->Add(CreateButtonSizer(wxOK | wxCANCEL), 0, wxALIGN_CENTER_HORIZONTAL | wxBOTTOM, 10); SetSizer(main_sizer); SetMinSize(GetSize()); main_sizer->SetSizeHints(this); // needed to actually free memory this->Bind(wxEVT_CLOSE_WINDOW, ([this](wxCloseEvent e) { EndModal(wxID_OK); Destroy(); })); } void BedShapePanel::build_panel(ConfigOptionPoints* default_pt) { // on_change(nullptr); auto box = new wxStaticBox(this, wxID_ANY, _(L("Shape"))); auto sbsizer = new wxStaticBoxSizer(box, wxVERTICAL); // shape options m_shape_options_book = new wxChoicebook(this, wxID_ANY, wxDefaultPosition, wxSize(300, -1), wxCHB_TOP); sbsizer->Add(m_shape_options_book); auto optgroup = init_shape_options_page(_(L("Rectangular"))); ConfigOptionDef def; def.type = coPoints; def.default_value = new ConfigOptionPoints{ Vec2d(200, 200) }; def.label = L("Size"); def.tooltip = L("Size in X and Y of the rectangular plate."); Option option(def, "rect_size"); optgroup->append_single_option_line(option); def.type = coPoints; def.default_value = new ConfigOptionPoints{ Vec2d(0, 0) }; def.label = L("Origin"); def.tooltip = L("Distance of the 0,0 G-code coordinate from the front left corner of the rectangle."); option = Option(def, "rect_origin"); optgroup->append_single_option_line(option); optgroup = init_shape_options_page(_(L("Circular"))); def.type = coFloat; def.default_value = new ConfigOptionFloat(200); def.sidetext = L("mm"); def.label = L("Diameter"); def.tooltip = L("Diameter of the print bed. It is assumed that origin (0,0) is located in the center."); option = Option(def, "diameter"); optgroup->append_single_option_line(option); optgroup = init_shape_options_page(_(L("Custom"))); Line line{ "", "" }; line.full_width = 1; line.widget = [this](wxWindow* parent) { auto btn = new wxButton(parent, wxID_ANY, _(L("Load shape from STL...")), wxDefaultPosition, wxDefaultSize); auto sizer = new wxBoxSizer(wxHORIZONTAL); sizer->Add(btn); btn->Bind(wxEVT_BUTTON, ([this](wxCommandEvent e) { load_stl(); })); return sizer; }; optgroup->append_line(line); Bind(wxEVT_CHOICEBOOK_PAGE_CHANGED, ([this](wxCommandEvent e) { update_shape(); })); // right pane with preview canvas m_canvas = new Bed_2D(this); m_canvas->m_bed_shape = default_pt->values; // main sizer auto top_sizer = new wxBoxSizer(wxHORIZONTAL); top_sizer->Add(sbsizer, 0, wxEXPAND | wxLeft | wxTOP | wxBOTTOM, 10); if (m_canvas) top_sizer->Add(m_canvas, 1, wxEXPAND | wxALL, 10) ; SetSizerAndFit(top_sizer); set_shape(default_pt); update_preview(); } #define SHAPE_RECTANGULAR 0 #define SHAPE_CIRCULAR 1 #define SHAPE_CUSTOM 2 // Called from the constructor. // Create a panel for a rectangular / circular / custom bed shape. ConfigOptionsGroupShp BedShapePanel::init_shape_options_page(wxString title) { auto panel = new wxPanel(m_shape_options_book); ConfigOptionsGroupShp optgroup; optgroup = std::make_shared(panel, _(L("Settings"))); optgroup->label_width = 100; optgroup->m_on_change = [this](t_config_option_key opt_key, boost::any value) { update_shape(); }; m_optgroups.push_back(optgroup); panel->SetSizerAndFit(optgroup->sizer); m_shape_options_book->AddPage(panel, title); return optgroup; } // Called from the constructor. // Set the initial bed shape from a list of points. // Deduce the bed shape type(rect, circle, custom) // This routine shall be smart enough if the user messes up // with the list of points in the ini file directly. void BedShapePanel::set_shape(ConfigOptionPoints* points) { auto polygon = Polygon::new_scale(points->values); // is this a rectangle ? if (points->size() == 4) { auto lines = polygon.lines(); if (lines[0].parallel_to(lines[2]) && lines[1].parallel_to(lines[3])) { // okay, it's a rectangle // find origin coordf_t x_min, x_max, y_min, y_max; x_max = x_min = points->values[0](0); y_max = y_min = points->values[0](1); for (auto pt : points->values) { x_min = std::min(x_min, pt(0)); x_max = std::max(x_max, pt(0)); y_min = std::min(y_min, pt(1)); y_max = std::max(y_max, pt(1)); } auto origin = new ConfigOptionPoints{ Vec2d(-x_min, -y_min) }; m_shape_options_book->SetSelection(SHAPE_RECTANGULAR); auto optgroup = m_optgroups[SHAPE_RECTANGULAR]; optgroup->set_value("rect_size", new ConfigOptionPoints{ Vec2d(x_max - x_min, y_max - y_min) });//[x_max - x_min, y_max - y_min]); optgroup->set_value("rect_origin", origin); update_shape(); return; } } // is this a circle ? { // Analyze the array of points.Do they reside on a circle ? auto center = polygon.bounding_box().center(); std::vector vertex_distances; double avg_dist = 0; for (auto pt: polygon.points) { double distance = (pt - center).cast().norm(); vertex_distances.push_back(distance); avg_dist += distance; } avg_dist /= vertex_distances.size(); bool defined_value = true; for (auto el: vertex_distances) { if (abs(el - avg_dist) > 10 * SCALED_EPSILON) defined_value = false; break; } if (defined_value) { // all vertices are equidistant to center m_shape_options_book->SetSelection(SHAPE_CIRCULAR); auto optgroup = m_optgroups[SHAPE_CIRCULAR]; boost::any ret = wxNumberFormatter::ToString(unscale(avg_dist * 2), 0); optgroup->set_value("diameter", ret); update_shape(); return; } } if (points->size() < 3) { // Invalid polygon.Revert to default bed dimensions. m_shape_options_book->SetSelection(SHAPE_RECTANGULAR); auto optgroup = m_optgroups[SHAPE_RECTANGULAR]; optgroup->set_value("rect_size", new ConfigOptionPoints{ Vec2d(200, 200) }); optgroup->set_value("rect_origin", new ConfigOptionPoints{ Vec2d(0, 0) }); update_shape(); return; } // This is a custom bed shape, use the polygon provided. m_shape_options_book->SetSelection(SHAPE_CUSTOM); // Copy the polygon to the canvas, make a copy of the array. m_canvas->m_bed_shape = points->values; update_shape(); } void BedShapePanel::update_preview() { if (m_canvas) m_canvas->Refresh(); Refresh(); } // Update the bed shape from the dialog fields. void BedShapePanel::update_shape() { auto page_idx = m_shape_options_book->GetSelection(); if (page_idx == SHAPE_RECTANGULAR) { Vec2d rect_size(Vec2d::Zero()); Vec2d rect_origin(Vec2d::Zero()); try{ rect_size = boost::any_cast(m_optgroups[SHAPE_RECTANGULAR]->get_value("rect_size")); } catch (const std::exception & /* e */) { return; } try { rect_origin = boost::any_cast(m_optgroups[SHAPE_RECTANGULAR]->get_value("rect_origin")); } catch (const std::exception & /* e */) { return; } auto x = rect_size(0); auto y = rect_size(1); // empty strings or '-' or other things if (x == 0 || y == 0) return; double x0 = 0.0; double y0 = 0.0; double x1 = x; double y1 = y; auto dx = rect_origin(0); auto dy = rect_origin(1); x0 -= dx; x1 -= dx; y0 -= dy; y1 -= dy; m_canvas->m_bed_shape = { Vec2d(x0, y0), Vec2d(x1, y0), Vec2d(x1, y1), Vec2d(x0, y1)}; } else if(page_idx == SHAPE_CIRCULAR) { double diameter; try{ diameter = boost::any_cast(m_optgroups[SHAPE_CIRCULAR]->get_value("diameter")); } catch (const std::exception & /* e */) { return; } if (diameter == 0.0) return ; auto r = diameter / 2; auto twopi = 2 * PI; auto edges = 60; std::vector points; for (size_t i = 1; i <= 60; ++i) { auto angle = i * twopi / edges; points.push_back(Vec2d(r*cos(angle), r*sin(angle))); } m_canvas->m_bed_shape = points; } // $self->{on_change}->(); update_preview(); } // Loads an stl file, projects it to the XY plane and calculates a polygon. void BedShapePanel::load_stl() { auto dialog = new wxFileDialog(this, _(L("Choose a file to import bed shape from (STL/OBJ/AMF/3MF/PRUSA):")), "", "", file_wildcards(FT_MODEL), wxFD_OPEN | wxFD_FILE_MUST_EXIST); if (dialog->ShowModal() != wxID_OK) { dialog->Destroy(); return; } wxArrayString input_file; dialog->GetPaths(input_file); dialog->Destroy(); std::string file_name = input_file[0].ToUTF8().data(); Model model; try { model = Model::read_from_file(file_name); } catch (std::exception &e) { auto msg = _(L("Error! ")) + file_name + " : " + e.what() + "."; show_error(this, msg); exit(1); } auto mesh = model.mesh(); auto expolygons = mesh.horizontal_projection(); if (expolygons.size() == 0) { show_error(this, _(L("The selected file contains no geometry."))); return; } if (expolygons.size() > 1) { show_error(this, _(L("The selected file contains several disjoint areas. This is not supported."))); return; } auto polygon = expolygons[0].contour; std::vector points; for (auto pt : polygon.points) points.push_back(unscale(pt)); m_canvas->m_bed_shape = points; update_preview(); } } // GUI } // Slic3r