#include "GLCanvas3DManager.hpp" #include "../../slic3r/GUI/GUI.hpp" #include "../../slic3r/GUI/AppConfig.hpp" #include "../../slic3r/GUI/GLCanvas3D.hpp" #include #include #include #include #include #include #include #include namespace Slic3r { namespace GUI { GLCanvas3DManager::GLInfo::GLInfo() : version("") , glsl_version("") , vendor("") , renderer("") { } void GLCanvas3DManager::GLInfo::detect() { const char* data = (const char*)::glGetString(GL_VERSION); if (data != nullptr) version = data; data = (const char*)::glGetString(GL_SHADING_LANGUAGE_VERSION); if (data != nullptr) glsl_version = data; data = (const char*)::glGetString(GL_VENDOR); if (data != nullptr) vendor = data; data = (const char*)::glGetString(GL_RENDERER); if (data != nullptr) renderer = data; } bool GLCanvas3DManager::GLInfo::is_version_greater_or_equal_to(unsigned int major, unsigned int minor) const { std::vector tokens; boost::split(tokens, version, boost::is_any_of(" "), boost::token_compress_on); if (tokens.empty()) return false; std::vector numbers; boost::split(numbers, tokens[0], boost::is_any_of("."), boost::token_compress_on); unsigned int gl_major = 0; unsigned int gl_minor = 0; if (numbers.size() > 0) gl_major = ::atoi(numbers[0].c_str()); if (numbers.size() > 1) gl_minor = ::atoi(numbers[1].c_str()); if (gl_major < major) return false; else if (gl_major > major) return true; else return gl_minor >= minor; } std::string GLCanvas3DManager::GLInfo::to_string(bool format_as_html, bool extensions) const { std::stringstream out; std::string h2_start = format_as_html ? "" : ""; std::string h2_end = format_as_html ? "" : ""; std::string b_start = format_as_html ? "" : ""; std::string b_end = format_as_html ? "" : ""; std::string line_end = format_as_html ? "
" : "\n"; out << h2_start << "OpenGL installation" << h2_end << line_end; out << b_start << "GL version: " << b_end << (version.empty() ? "N/A" : version) << line_end; out << b_start << "Vendor: " << b_end << (vendor.empty() ? "N/A" : vendor) << line_end; out << b_start << "Renderer: " << b_end << (renderer.empty() ? "N/A" : renderer) << line_end; out << b_start << "GLSL version: " << b_end << (glsl_version.empty() ? "N/A" : glsl_version) << line_end; if (extensions) { std::vector extensions_list; std::string extensions_str = (const char*)::glGetString(GL_EXTENSIONS); boost::split(extensions_list, extensions_str, boost::is_any_of(" "), boost::token_compress_off); if (!extensions_list.empty()) { out << h2_start << "Installed extensions:" << h2_end << line_end; std::sort(extensions_list.begin(), extensions_list.end()); for (const std::string& ext : extensions_list) { out << ext << line_end; } } } return out.str(); } GLCanvas3DManager::GLCanvas3DManager() : m_current(nullptr) , m_gl_initialized(false) , m_use_legacy_opengl(false) , m_use_VBOs(false) { } bool GLCanvas3DManager::add(wxGLCanvas* canvas) { if (canvas == nullptr) return false; if (_get_canvas(canvas) != m_canvases.end()) return false; GLCanvas3D* canvas3D = new GLCanvas3D(canvas); if (canvas3D == nullptr) return false; canvas3D->bind_event_handlers(); m_canvases.insert(CanvasesMap::value_type(canvas, canvas3D)); return true; } bool GLCanvas3DManager::remove(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it == m_canvases.end()) return false; it->second->unbind_event_handlers(); delete it->second; m_canvases.erase(it); return true; } void GLCanvas3DManager::remove_all() { for (CanvasesMap::value_type& item : m_canvases) { item.second->unbind_event_handlers(); delete item.second; } m_canvases.clear(); } unsigned int GLCanvas3DManager::count() const { return (unsigned int)m_canvases.size(); } void GLCanvas3DManager::init_gl() { if (!m_gl_initialized) { glewInit(); m_gl_info.detect(); const AppConfig* config = GUI::get_app_config(); m_use_legacy_opengl = (config == nullptr) || (config->get("use_legacy_opengl") == "1"); m_use_VBOs = !m_use_legacy_opengl && m_gl_info.is_version_greater_or_equal_to(2, 0); m_gl_initialized = true; } } std::string GLCanvas3DManager::get_gl_info(bool format_as_html, bool extensions) const { return m_gl_info.to_string(format_as_html, extensions); } bool GLCanvas3DManager::use_VBOs() const { return m_use_VBOs; } bool GLCanvas3DManager::init(wxGLCanvas* canvas) { CanvasesMap::const_iterator it = _get_canvas(canvas); if (it != m_canvases.end()) return (it->second != nullptr) ? _init(*it->second) : false; else return false; } void GLCanvas3DManager::set_as_dirty(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_as_dirty(); } unsigned int GLCanvas3DManager::get_volumes_count(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->get_volumes_count() : 0; } void GLCanvas3DManager::reset_volumes(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->reset_volumes(); } void GLCanvas3DManager::deselect_volumes(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->deselect_volumes(); } void GLCanvas3DManager::select_volume(wxGLCanvas* canvas, unsigned int id) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->select_volume(id); } void GLCanvas3DManager::update_volumes_selection(wxGLCanvas* canvas, const std::vector& selections) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->update_volumes_selection(selections); } int GLCanvas3DManager::check_volumes_outside_state(wxGLCanvas* canvas, const DynamicPrintConfig* config) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->check_volumes_outside_state(config) : false; } bool GLCanvas3DManager::move_volume_up(wxGLCanvas* canvas, unsigned int id) { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->move_volume_up(id) : false; } bool GLCanvas3DManager::move_volume_down(wxGLCanvas* canvas, unsigned int id) { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->move_volume_down(id) : false; } void GLCanvas3DManager::set_objects_selections(wxGLCanvas* canvas, const std::vector& selections) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_objects_selections(selections); } void GLCanvas3DManager::set_config(wxGLCanvas* canvas, DynamicPrintConfig* config) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_config(config); } void GLCanvas3DManager::set_print(wxGLCanvas* canvas, Print* print) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_print(print); } void GLCanvas3DManager::set_model(wxGLCanvas* canvas, Model* model) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_model(model); } void GLCanvas3DManager::set_bed_shape(wxGLCanvas* canvas, const Pointfs& shape) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_bed_shape(shape); } void GLCanvas3DManager::set_auto_bed_shape(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_auto_bed_shape(); } BoundingBoxf3 GLCanvas3DManager::get_volumes_bounding_box(wxGLCanvas* canvas) { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->volumes_bounding_box() : BoundingBoxf3(); } void GLCanvas3DManager::set_axes_length(wxGLCanvas* canvas, float length) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_axes_length(length); } void GLCanvas3DManager::set_cutting_plane(wxGLCanvas* canvas, float z, const ExPolygons& polygons) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_cutting_plane(z, polygons); } void GLCanvas3DManager::set_color_by(wxGLCanvas* canvas, const std::string& value) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_color_by(value); } void GLCanvas3DManager::set_select_by(wxGLCanvas* canvas, const std::string& value) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_select_by(value); } void GLCanvas3DManager::set_drag_by(wxGLCanvas* canvas, const std::string& value) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_drag_by(value); } bool GLCanvas3DManager::is_layers_editing_enabled(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->is_layers_editing_enabled() : false; } bool GLCanvas3DManager::is_layers_editing_allowed(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->is_layers_editing_allowed() : false; } bool GLCanvas3DManager::is_shader_enabled(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->is_shader_enabled() : false; } bool GLCanvas3DManager::is_reload_delayed(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->is_reload_delayed() : false; } void GLCanvas3DManager::enable_layers_editing(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_layers_editing(enable); } void GLCanvas3DManager::enable_warning_texture(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_warning_texture(enable); } void GLCanvas3DManager::enable_legend_texture(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_legend_texture(enable); } void GLCanvas3DManager::enable_picking(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_picking(enable); } void GLCanvas3DManager::enable_moving(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_moving(enable); } void GLCanvas3DManager::enable_gizmos(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_gizmos(enable); } void GLCanvas3DManager::enable_shader(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_shader(enable); } void GLCanvas3DManager::enable_force_zoom_to_bed(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_force_zoom_to_bed(enable); } void GLCanvas3DManager::enable_dynamic_background(wxGLCanvas* canvas, bool enable) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->enable_dynamic_background(enable); } void GLCanvas3DManager::allow_multisample(wxGLCanvas* canvas, bool allow) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->allow_multisample(allow); } void GLCanvas3DManager::zoom_to_bed(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->zoom_to_bed(); } void GLCanvas3DManager::zoom_to_volumes(wxGLCanvas* canvas) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->zoom_to_volumes(); } void GLCanvas3DManager::select_view(wxGLCanvas* canvas, const std::string& direction) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->select_view(direction); } void GLCanvas3DManager::set_viewport_from_scene(wxGLCanvas* canvas, wxGLCanvas* other) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) { CanvasesMap::iterator other_it = _get_canvas(other); if (other_it != m_canvases.end()) it->second->set_viewport_from_scene(*other_it->second); } } void GLCanvas3DManager::update_volumes_colors_by_extruder(wxGLCanvas* canvas) { CanvasesMap::const_iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->update_volumes_colors_by_extruder(); } void GLCanvas3DManager::update_gizmos_data(wxGLCanvas* canvas) { CanvasesMap::const_iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->update_gizmos_data(); } void GLCanvas3DManager::render(wxGLCanvas* canvas) const { CanvasesMap::const_iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->render(); } std::vector GLCanvas3DManager::get_current_print_zs(wxGLCanvas* canvas, bool active_only) const { CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->get_current_print_zs(active_only) : std::vector(); } void GLCanvas3DManager::set_toolpaths_range(wxGLCanvas* canvas, double low, double high) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->set_toolpaths_range(low, high); } std::vector GLCanvas3DManager::load_object(wxGLCanvas* canvas, const ModelObject* model_object, int obj_idx, std::vector instance_idxs) { if (model_object == nullptr) return std::vector(); CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->load_object(*model_object, obj_idx, instance_idxs) : std::vector(); } std::vector GLCanvas3DManager::load_object(wxGLCanvas* canvas, const Model* model, int obj_idx) { if (model == nullptr) return std::vector(); CanvasesMap::const_iterator it = _get_canvas(canvas); return (it != m_canvases.end()) ? it->second->load_object(*model, obj_idx) : std::vector(); } void GLCanvas3DManager::reload_scene(wxGLCanvas* canvas, bool force) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->reload_scene(force); } void GLCanvas3DManager::load_gcode_preview(wxGLCanvas* canvas, const GCodePreviewData* preview_data, const std::vector& str_tool_colors) { if (preview_data == nullptr) return; CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->load_gcode_preview(*preview_data, str_tool_colors); } void GLCanvas3DManager::load_preview(wxGLCanvas* canvas, const std::vector& str_tool_colors) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->load_preview(str_tool_colors); } void GLCanvas3DManager::reset_legend_texture() { for (CanvasesMap::value_type& canvas : m_canvases) { if (canvas.second != nullptr) canvas.second->reset_legend_texture(); } } void GLCanvas3DManager::register_on_viewport_changed_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_viewport_changed_callback(callback); } void GLCanvas3DManager::register_on_double_click_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_double_click_callback(callback); } void GLCanvas3DManager::register_on_right_click_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_right_click_callback(callback); } void GLCanvas3DManager::register_on_select_object_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_select_object_callback(callback); } void GLCanvas3DManager::register_on_model_update_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_model_update_callback(callback); } void GLCanvas3DManager::register_on_remove_object_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_remove_object_callback(callback); } void GLCanvas3DManager::register_on_arrange_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_arrange_callback(callback); } void GLCanvas3DManager::register_on_rotate_object_left_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_rotate_object_left_callback(callback); } void GLCanvas3DManager::register_on_rotate_object_right_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_rotate_object_right_callback(callback); } void GLCanvas3DManager::register_on_scale_object_uniformly_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_scale_object_uniformly_callback(callback); } void GLCanvas3DManager::register_on_increase_objects_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_increase_objects_callback(callback); } void GLCanvas3DManager::register_on_decrease_objects_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_decrease_objects_callback(callback); } void GLCanvas3DManager::register_on_instance_moved_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_instance_moved_callback(callback); } void GLCanvas3DManager::register_on_wipe_tower_moved_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_wipe_tower_moved_callback(callback); } void GLCanvas3DManager::register_on_enable_action_buttons_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_enable_action_buttons_callback(callback); } void GLCanvas3DManager::register_on_gizmo_scale_uniformly_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_gizmo_scale_uniformly_callback(callback); } void GLCanvas3DManager::register_on_gizmo_rotate_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_gizmo_rotate_callback(callback); } void GLCanvas3DManager::register_on_update_geometry_info_callback(wxGLCanvas* canvas, void* callback) { CanvasesMap::iterator it = _get_canvas(canvas); if (it != m_canvases.end()) it->second->register_on_update_geometry_info_callback(callback); } GLCanvas3DManager::CanvasesMap::iterator GLCanvas3DManager::_get_canvas(wxGLCanvas* canvas) { return (canvas == nullptr) ? m_canvases.end() : m_canvases.find(canvas); } GLCanvas3DManager::CanvasesMap::const_iterator GLCanvas3DManager::_get_canvas(wxGLCanvas* canvas) const { return (canvas == nullptr) ? m_canvases.end() : m_canvases.find(canvas); } bool GLCanvas3DManager::_init(GLCanvas3D& canvas) { if (!m_gl_initialized) init_gl(); return canvas.init(m_use_VBOs, m_use_legacy_opengl); } } // namespace GUI } // namespace Slic3r