#include "GLGizmoFdmSupports.hpp" #include "libslic3r/Model.hpp" //#include "slic3r/GUI/3DScene.hpp" #include "slic3r/GUI/GLCanvas3D.hpp" #include "slic3r/GUI/GUI_App.hpp" #include "slic3r/GUI/ImGuiWrapper.hpp" #include "slic3r/GUI/Plater.hpp" #include "slic3r/GUI/GUI_ObjectList.hpp" #include "slic3r/GUI/format.hpp" #include "slic3r/Utils/UndoRedo.hpp" #include "libslic3r/Print.hpp" #include "slic3r/GUI/MsgDialog.hpp" #include namespace Slic3r::GUI { void GLGizmoFdmSupports::on_shutdown() { m_highlight_by_angle_threshold_deg = 0.f; m_parent.use_slope(false); m_parent.toggle_model_objects_visibility(true); } std::string GLGizmoFdmSupports::on_get_name() const { return _u8L("Paint-on supports"); } bool GLGizmoFdmSupports::on_init() { m_shortcut_key = WXK_CONTROL_L; m_desc["auto_generate"] = _L("Auto-generate supports"); m_desc["generating"] = _L("Generating supports..."); m_desc["clipping_of_view"] = _L("Clipping of view") + ": "; m_desc["reset_direction"] = _L("Reset direction"); m_desc["cursor_size"] = _L("Brush size") + ": "; m_desc["cursor_type"] = _L("Brush shape") + ": "; m_desc["enforce_caption"] = _L("Left mouse button") + ": "; m_desc["enforce"] = _L("Enforce supports"); m_desc["block_caption"] = _L("Right mouse button") + ": "; m_desc["block"] = _L("Block supports"); m_desc["remove_caption"] = _L("Shift + Left mouse button") + ": "; m_desc["remove"] = _L("Remove selection"); m_desc["remove_all"] = _L("Remove all selection"); m_desc["circle"] = _L("Circle"); m_desc["sphere"] = _L("Sphere"); m_desc["pointer"] = _L("Triangles"); m_desc["highlight_by_angle"] = _L("Highlight overhang by angle"); m_desc["enforce_button"] = _L("Enforce"); m_desc["cancel"] = _L("Cancel"); m_desc["tool_type"] = _L("Tool type") + ": "; m_desc["tool_brush"] = _L("Brush"); m_desc["tool_smart_fill"] = _L("Smart fill"); m_desc["smart_fill_angle"] = _L("Smart fill angle"); m_desc["split_triangles"] = _L("Split triangles"); m_desc["on_overhangs_only"] = _L("On overhangs only"); return true; } void GLGizmoFdmSupports::render_painter_gizmo() { const Selection& selection = m_parent.get_selection(); glsafe(::glEnable(GL_BLEND)); glsafe(::glEnable(GL_DEPTH_TEST)); render_triangles(selection); m_c->object_clipper()->render_cut(); m_c->instances_hider()->render_cut(); render_cursor(); glsafe(::glDisable(GL_BLEND)); } void GLGizmoFdmSupports::on_render_input_window(float x, float y, float bottom_limit) { if (! m_c->selection_info()->model_object()) return; const float approx_height = m_imgui->scaled(25.f); y = std::min(y, bottom_limit - approx_height); m_imgui->set_next_window_pos(x, y, ImGuiCond_Always); m_imgui->begin(get_name(), ImGuiWindowFlags_NoMove | ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoCollapse); // First calculate width of all the texts that are could possibly be shown. We will decide set the dialog width based on that: const float clipping_slider_left = std::max(m_imgui->calc_text_size(m_desc.at("clipping_of_view")).x, m_imgui->calc_text_size(m_desc.at("reset_direction")).x) + m_imgui->scaled(1.5f); const float cursor_slider_left = m_imgui->calc_text_size(m_desc.at("cursor_size")).x + m_imgui->scaled(1.f); const float smart_fill_slider_left = m_imgui->calc_text_size(m_desc.at("smart_fill_angle")).x + m_imgui->scaled(1.f); const float autoset_slider_label_max_width = m_imgui->scaled(7.5f); const float autoset_slider_left = m_imgui->calc_text_size(m_desc.at("highlight_by_angle"), autoset_slider_label_max_width).x + m_imgui->scaled(1.f); const float cursor_type_radio_circle = m_imgui->calc_text_size(m_desc["circle"]).x + m_imgui->scaled(2.5f); const float cursor_type_radio_sphere = m_imgui->calc_text_size(m_desc["sphere"]).x + m_imgui->scaled(2.5f); const float cursor_type_radio_pointer = m_imgui->calc_text_size(m_desc["pointer"]).x + m_imgui->scaled(2.5f); const float button_width = m_imgui->calc_text_size(m_desc.at("remove_all")).x + m_imgui->scaled(1.f); const float button_enforce_width = m_imgui->calc_text_size(m_desc.at("enforce_button")).x; const float button_cancel_width = m_imgui->calc_text_size(m_desc.at("cancel")).x; const float buttons_width = std::max(button_enforce_width, button_cancel_width) + m_imgui->scaled(0.5f); const float minimal_slider_width = m_imgui->scaled(4.f); const float tool_type_radio_left = m_imgui->calc_text_size(m_desc["tool_type"]).x + m_imgui->scaled(1.f); const float tool_type_radio_brush = m_imgui->calc_text_size(m_desc["tool_brush"]).x + m_imgui->scaled(2.5f); const float tool_type_radio_smart_fill = m_imgui->calc_text_size(m_desc["tool_smart_fill"]).x + m_imgui->scaled(2.5f); const float split_triangles_checkbox_width = m_imgui->calc_text_size(m_desc["split_triangles"]).x + m_imgui->scaled(2.5f); const float on_overhangs_only_checkbox_width = m_imgui->calc_text_size(m_desc["on_overhangs_only"]).x + m_imgui->scaled(2.5f); float caption_max = 0.f; float total_text_max = 0.f; for (const auto &t : std::array{"enforce", "block", "remove"}) { caption_max = std::max(caption_max, m_imgui->calc_text_size(m_desc[t + "_caption"]).x); total_text_max = std::max(total_text_max, m_imgui->calc_text_size(m_desc[t]).x); } total_text_max += caption_max + m_imgui->scaled(1.f); caption_max += m_imgui->scaled(1.f); const float sliders_left_width = std::max(std::max(autoset_slider_left, smart_fill_slider_left), std::max(cursor_slider_left, clipping_slider_left)); const float slider_icon_width = m_imgui->get_slider_icon_size().x; float window_width = minimal_slider_width + sliders_left_width + slider_icon_width; window_width = std::max(window_width, total_text_max); window_width = std::max(window_width, button_width); window_width = std::max(window_width, split_triangles_checkbox_width); window_width = std::max(window_width, on_overhangs_only_checkbox_width); window_width = std::max(window_width, cursor_type_radio_circle + cursor_type_radio_sphere + cursor_type_radio_pointer); window_width = std::max(window_width, tool_type_radio_left + tool_type_radio_brush + tool_type_radio_smart_fill); window_width = std::max(window_width, 2.f * buttons_width + m_imgui->scaled(1.f)); auto draw_text_with_caption = [this, &caption_max](const wxString& caption, const wxString& text) { m_imgui->text_colored(ImGuiWrapper::COL_ORANGE_LIGHT, caption); ImGui::SameLine(caption_max); m_imgui->text(text); }; for (const auto &t : std::array{"enforce", "block", "remove"}) draw_text_with_caption(m_desc.at(t + "_caption"), m_desc.at(t)); ImGui::Separator(); if (waiting_for_autogenerated_supports) { m_imgui->text(m_desc.at("generating")); } else { bool generate = m_imgui->button(m_desc.at("auto_generate")); if (generate) auto_generate(); } ImGui::Separator(); float position_before_text_y = ImGui::GetCursorPos().y; ImGui::AlignTextToFramePadding(); m_imgui->text_wrapped(m_desc["highlight_by_angle"] + ":", autoset_slider_label_max_width); ImGui::AlignTextToFramePadding(); float position_after_text_y = ImGui::GetCursorPos().y; std::string format_str = std::string("%.f") + I18N::translate_utf8("°", "Degree sign to use in the respective slider in FDM supports gizmo," "placed after the number with no whitespace in between."); ImGui::SameLine(sliders_left_width); float slider_height = m_imgui->get_slider_float_height(); // Makes slider to be aligned to bottom of the multi-line text. float slider_start_position_y = std::max(position_before_text_y, position_after_text_y - slider_height); ImGui::SetCursorPosY(slider_start_position_y); ImGui::PushItemWidth(window_width - sliders_left_width - slider_icon_width); wxString tooltip = format_wxstr(_L("Preselects faces by overhang angle. It is possible to restrict paintable facets to only preselected faces when " "the option \"%1%\" is enabled."), m_desc["on_overhangs_only"]); if (m_imgui->slider_float("##angle_threshold_deg", &m_highlight_by_angle_threshold_deg, 0.f, 90.f, format_str.data(), 1.0f, true, tooltip)) { m_parent.set_slope_normal_angle(90.f - m_highlight_by_angle_threshold_deg); if (! m_parent.is_using_slope()) { m_parent.use_slope(true); m_parent.set_as_dirty(); } } // Restores the cursor position to be below the multi-line text. ImGui::SetCursorPosY(std::max(position_before_text_y + slider_height, position_after_text_y)); const float max_tooltip_width = ImGui::GetFontSize() * 20.0f; m_imgui->disabled_begin(m_highlight_by_angle_threshold_deg == 0.f); ImGui::NewLine(); ImGui::SameLine(window_width - 2.f*buttons_width - m_imgui->scaled(0.5f)); if (m_imgui->button(m_desc["enforce_button"], buttons_width, 0.f)) { select_facets_by_angle(m_highlight_by_angle_threshold_deg, false); m_highlight_by_angle_threshold_deg = 0.f; m_parent.use_slope(false); } ImGui::SameLine(window_width - buttons_width); if (m_imgui->button(m_desc["cancel"], buttons_width, 0.f)) { m_highlight_by_angle_threshold_deg = 0.f; m_parent.use_slope(false); } m_imgui->disabled_end(); ImGui::Separator(); ImGui::AlignTextToFramePadding(); m_imgui->text(m_desc["tool_type"]); float tool_type_offset = tool_type_radio_left + (window_width - tool_type_radio_left - tool_type_radio_brush - tool_type_radio_smart_fill + m_imgui->scaled(0.5f)) / 2.f; ImGui::SameLine(tool_type_offset); ImGui::PushItemWidth(tool_type_radio_brush); if (m_imgui->radio_button(m_desc["tool_brush"], m_tool_type == ToolType::BRUSH)) m_tool_type = ToolType::BRUSH; if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Paints facets according to the chosen painting brush."), max_tooltip_width); ImGui::SameLine(tool_type_offset + tool_type_radio_brush); ImGui::PushItemWidth(tool_type_radio_smart_fill); if (m_imgui->radio_button(m_desc["tool_smart_fill"], m_tool_type == ToolType::SMART_FILL)) m_tool_type = ToolType::SMART_FILL; if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Paints neighboring facets whose relative angle is less or equal to set angle."), max_tooltip_width); m_imgui->checkbox(m_desc["on_overhangs_only"], m_paint_on_overhangs_only); if (ImGui::IsItemHovered()) m_imgui->tooltip(format_wxstr(_L("Allows painting only on facets selected by: \"%1%\""), m_desc["highlight_by_angle"]), max_tooltip_width); ImGui::Separator(); if (m_tool_type == ToolType::BRUSH) { m_imgui->text(m_desc.at("cursor_type")); ImGui::NewLine(); float cursor_type_offset = (window_width - cursor_type_radio_sphere - cursor_type_radio_circle - cursor_type_radio_pointer + m_imgui->scaled(1.5f)) / 2.f; ImGui::SameLine(cursor_type_offset); ImGui::PushItemWidth(cursor_type_radio_sphere); if (m_imgui->radio_button(m_desc["sphere"], m_cursor_type == TriangleSelector::CursorType::SPHERE)) m_cursor_type = TriangleSelector::CursorType::SPHERE; if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Paints all facets inside, regardless of their orientation."), max_tooltip_width); ImGui::SameLine(cursor_type_offset + cursor_type_radio_sphere); ImGui::PushItemWidth(cursor_type_radio_circle); if (m_imgui->radio_button(m_desc["circle"], m_cursor_type == TriangleSelector::CursorType::CIRCLE)) m_cursor_type = TriangleSelector::CursorType::CIRCLE; if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Ignores facets facing away from the camera."), max_tooltip_width); ImGui::SameLine(cursor_type_offset + cursor_type_radio_sphere + cursor_type_radio_circle); ImGui::PushItemWidth(cursor_type_radio_pointer); if (m_imgui->radio_button(m_desc["pointer"], m_cursor_type == TriangleSelector::CursorType::POINTER)) m_cursor_type = TriangleSelector::CursorType::POINTER; if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Paints only one facet."), max_tooltip_width); m_imgui->disabled_begin(m_cursor_type != TriangleSelector::CursorType::SPHERE && m_cursor_type != TriangleSelector::CursorType::CIRCLE); ImGui::AlignTextToFramePadding(); m_imgui->text(m_desc.at("cursor_size")); ImGui::SameLine(sliders_left_width); ImGui::PushItemWidth(window_width - sliders_left_width - slider_icon_width); m_imgui->slider_float("##cursor_radius", &m_cursor_radius, CursorRadiusMin, CursorRadiusMax, "%.2f", 1.0f, true, _L("Alt + Mouse wheel")); m_imgui->checkbox(m_desc["split_triangles"], m_triangle_splitting_enabled); if (ImGui::IsItemHovered()) m_imgui->tooltip(_L("Splits bigger facets into smaller ones while the object is painted."), max_tooltip_width); m_imgui->disabled_end(); } else { assert(m_tool_type == ToolType::SMART_FILL); ImGui::AlignTextToFramePadding(); m_imgui->text(m_desc["smart_fill_angle"] + ":"); ImGui::SameLine(sliders_left_width); ImGui::PushItemWidth(window_width - sliders_left_width - slider_icon_width); if (m_imgui->slider_float("##smart_fill_angle", &m_smart_fill_angle, SmartFillAngleMin, SmartFillAngleMax, format_str.data(), 1.0f, true, _L("Alt + Mouse wheel"))) for (auto &triangle_selector : m_triangle_selectors) { triangle_selector->seed_fill_unselect_all_triangles(); triangle_selector->request_update_render_data(); } } ImGui::Separator(); if (m_c->object_clipper()->get_position() == 0.f) { ImGui::AlignTextToFramePadding(); m_imgui->text(m_desc.at("clipping_of_view")); } else { if (m_imgui->button(m_desc.at("reset_direction"))) { wxGetApp().CallAfter([this](){ m_c->object_clipper()->set_position(-1., false); }); } } auto clp_dist = float(m_c->object_clipper()->get_position()); ImGui::SameLine(sliders_left_width); ImGui::PushItemWidth(window_width - sliders_left_width - slider_icon_width); if (m_imgui->slider_float("##clp_dist", &clp_dist, 0.f, 1.f, "%.2f", 1.0f, true, _L("Ctrl + Mouse wheel"))) m_c->object_clipper()->set_position(clp_dist, true); ImGui::Separator(); if (m_imgui->button(m_desc.at("remove_all"))) { Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Reset selection"), UndoRedo::SnapshotType::GizmoAction); ModelObject *mo = m_c->selection_info()->model_object(); int idx = -1; for (ModelVolume *mv : mo->volumes) if (mv->is_model_part()) { ++idx; m_triangle_selectors[idx]->reset(); m_triangle_selectors[idx]->request_update_render_data(); } update_model_object(); this->waiting_for_autogenerated_supports = false; m_parent.set_as_dirty(); } m_imgui->end(); } void GLGizmoFdmSupports::select_facets_by_angle(float threshold_deg, bool block) { float threshold = (float(M_PI)/180.f)*threshold_deg; const Selection& selection = m_parent.get_selection(); const ModelObject* mo = m_c->selection_info()->model_object(); const ModelInstance* mi = mo->instances[selection.get_instance_idx()]; int mesh_id = -1; for (const ModelVolume* mv : mo->volumes) { if (! mv->is_model_part()) continue; ++mesh_id; #if ENABLE_WORLD_COORDINATE const Transform3d trafo_matrix = mi->get_matrix_no_offset() * mv->get_matrix_no_offset(); #else const Transform3d trafo_matrix = mi->get_matrix(true) * mv->get_matrix(true); #endif // ENABLE_WORLD_COORDINATE Vec3f down = (trafo_matrix.inverse() * (-Vec3d::UnitZ())).cast().normalized(); Vec3f limit = (trafo_matrix.inverse() * Vec3d(std::sin(threshold), 0, -std::cos(threshold))).cast().normalized(); float dot_limit = limit.dot(down); // Now calculate dot product of vert_direction and facets' normals. int idx = 0; const indexed_triangle_set &its = mv->mesh().its; for (const stl_triangle_vertex_indices &face : its.indices) { if (its_face_normal(its, face).dot(down) > dot_limit) { m_triangle_selectors[mesh_id]->set_facet(idx, block ? EnforcerBlockerType::BLOCKER : EnforcerBlockerType::ENFORCER); m_triangle_selectors.back()->request_update_render_data(); } ++ idx; } } Plater::TakeSnapshot snapshot(wxGetApp().plater(), block ? _L("Block supports by angle") : _L("Add supports by angle")); update_model_object(); this->waiting_for_autogenerated_supports = false; m_parent.set_as_dirty(); } void GLGizmoFdmSupports::data_changed() { GLGizmoPainterBase::data_changed(); if (! m_c->selection_info()) return; ModelObject* mo = m_c->selection_info()->model_object(); if (mo && this->waiting_for_autogenerated_supports) { get_data_from_backend(); } else { this->waiting_for_autogenerated_supports = false; } } void GLGizmoFdmSupports::get_data_from_backend() { if (! has_backend_supports()) return; ModelObject* mo = m_c->selection_info()->model_object(); // find the respective PrintObject, we need a pointer to it for (const PrintObject* po : m_parent.fff_print()->objects()) { if (po->model_object()->id() == mo->id()) { std::unordered_map mvs; for (const ModelVolume* mv : po->model_object()->volumes) { if (mv->is_model_part()) { mvs.emplace(mv->id().id, mv); } } int mesh_id = -1.0f; for (ModelVolume* mv : mo->volumes){ if (mv->is_model_part()){ mesh_id++; mv->supported_facets.assign(mvs[mv->id().id]->supported_facets); m_triangle_selectors[mesh_id]->deserialize(mv->supported_facets.get_data(), true); m_triangle_selectors[mesh_id]->request_update_render_data(); } } this->waiting_for_autogenerated_supports = false; m_parent.post_event(SimpleEvent(EVT_GLCANVAS_SCHEDULE_BACKGROUND_PROCESS)); m_parent.set_as_dirty(); } } } void GLGizmoFdmSupports::update_model_object() const { bool updated = false; ModelObject* mo = m_c->selection_info()->model_object(); int idx = -1; for (ModelVolume* mv : mo->volumes) { if (! mv->is_model_part()) continue; ++idx; updated |= mv->supported_facets.set(*m_triangle_selectors[idx].get()); } if (updated) { const ModelObjectPtrs& mos = wxGetApp().model().objects; wxGetApp().obj_list()->update_info_items(std::find(mos.begin(), mos.end(), mo) - mos.begin()); m_parent.post_event(SimpleEvent(EVT_GLCANVAS_SCHEDULE_BACKGROUND_PROCESS)); } } void GLGizmoFdmSupports::update_from_model_object() { wxBusyCursor wait; const ModelObject* mo = m_c->selection_info()->model_object(); m_triangle_selectors.clear(); int volume_id = -1; for (const ModelVolume* mv : mo->volumes) { if (! mv->is_model_part()) continue; ++volume_id; // This mesh does not account for the possible Z up SLA offset. const TriangleMesh* mesh = &mv->mesh(); m_triangle_selectors.emplace_back(std::make_unique(*mesh)); // Reset of TriangleSelector is done inside TriangleSelectorGUI's constructor, so we don't need it to perform it again in deserialize(). m_triangle_selectors.back()->deserialize(mv->supported_facets.get_data(), false); m_triangle_selectors.back()->request_update_render_data(); } } bool GLGizmoFdmSupports::has_backend_supports() const { const ModelObject* mo = m_c->selection_info()->model_object(); if (! mo) return false; // find PrintObject with this ID for (const PrintObject* po : m_parent.fff_print()->objects()) { if (po->model_object()->id() == mo->id()) return po->is_step_done(posSupportSpotsSearch); } return false; } void GLGizmoFdmSupports::reslice_FDM_supports(bool postpone_error_messages) const { wxGetApp().CallAfter( [this, postpone_error_messages]() { wxGetApp().plater()->reslice_FFF_until_step(posSupportSpotsSearch, *m_c->selection_info()->model_object(), postpone_error_messages); }); } void GLGizmoFdmSupports::auto_generate() { ModelObject *mo = m_c->selection_info()->model_object(); bool not_painted = std::all_of(mo->volumes.begin(), mo->volumes.end(), [](const ModelVolume* vol){ return vol->type() != ModelVolumeType::MODEL_PART || vol->supported_facets.empty(); }); mo->config.set("support_material", true); mo->config.set("support_material_auto", false); MessageDialog dlg(GUI::wxGetApp().plater(), _L("Autogeneration will erase all currently painted areas.") + "\n\n" + _L("Are you sure you want to do it?") + "\n", _L("Warning"), wxICON_WARNING | wxYES | wxNO); if (not_painted || dlg.ShowModal() == wxID_YES) { Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Autogenerate support points")); int mesh_id = -1.0f; for (ModelVolume *mv : mo->volumes) { if (mv->is_model_part()) { mesh_id++; mv->supported_facets.reset(); m_triangle_selectors[mesh_id]->reset(); m_triangle_selectors[mesh_id]->request_update_render_data(); } } this->waiting_for_autogenerated_supports = true; wxGetApp().CallAfter([this]() { reslice_FDM_supports(); }); } } PainterGizmoType GLGizmoFdmSupports::get_painter_type() const { return PainterGizmoType::FDM_SUPPORTS; } wxString GLGizmoFdmSupports::handle_snapshot_action_name(bool shift_down, GLGizmoPainterBase::Button button_down) const { wxString action_name; if (shift_down) action_name = _L("Remove selection"); else { if (button_down == Button::Left) action_name = _L("Add supports"); else action_name = _L("Block supports"); } return action_name; } } // namespace Slic3r::GUI