#include "GUI.hpp" #include #include #include #include #include #include #include #if __APPLE__ #import #elif _WIN32 #include // Undefine min/max macros incompatible with the standard library // For example, std::numeric_limits::max() // produces some weird errors #ifdef min #undef min #endif #ifdef max #undef max #endif #include "boost/nowide/convert.hpp" #pragma comment(lib, "user32.lib") #endif #include #include #include #include #include #include #include #include #include #include #include #include "wxExtensions.hpp" #include "Tab.hpp" #include "TabIface.hpp" #include "AppConfig.hpp" #include "Utils.hpp" #include "Preferences.hpp" #include "PresetBundle.hpp" namespace Slic3r { namespace GUI { #if __APPLE__ IOPMAssertionID assertionID; #endif void disable_screensaver() { #if __APPLE__ CFStringRef reasonForActivity = CFSTR("Slic3r"); IOReturn success = IOPMAssertionCreateWithName(kIOPMAssertionTypeNoDisplaySleep, kIOPMAssertionLevelOn, reasonForActivity, &assertionID); // ignore result: success == kIOReturnSuccess #elif _WIN32 SetThreadExecutionState(ES_DISPLAY_REQUIRED | ES_CONTINUOUS); #endif } void enable_screensaver() { #if __APPLE__ IOReturn success = IOPMAssertionRelease(assertionID); #elif _WIN32 SetThreadExecutionState(ES_CONTINUOUS); #endif } std::vector scan_serial_ports() { std::vector out; #ifdef _WIN32 // 1) Open the registry key SERIALCOM. HKEY hKey; LONG lRes = ::RegOpenKeyExW(HKEY_LOCAL_MACHINE, L"HARDWARE\\DEVICEMAP\\SERIALCOMM", 0, KEY_READ, &hKey); assert(lRes == ERROR_SUCCESS); if (lRes == ERROR_SUCCESS) { // 2) Get number of values of SERIALCOM key. DWORD cValues; // number of values for key { TCHAR achKey[255]; // buffer for subkey name DWORD cbName; // size of name string TCHAR achClass[MAX_PATH] = TEXT(""); // buffer for class name DWORD cchClassName = MAX_PATH; // size of class string DWORD cSubKeys=0; // number of subkeys DWORD cbMaxSubKey; // longest subkey size DWORD cchMaxClass; // longest class string DWORD cchMaxValue; // longest value name DWORD cbMaxValueData; // longest value data DWORD cbSecurityDescriptor; // size of security descriptor FILETIME ftLastWriteTime; // last write time // Get the class name and the value count. lRes = RegQueryInfoKey( hKey, // key handle achClass, // buffer for class name &cchClassName, // size of class string NULL, // reserved &cSubKeys, // number of subkeys &cbMaxSubKey, // longest subkey size &cchMaxClass, // longest class string &cValues, // number of values for this key &cchMaxValue, // longest value name &cbMaxValueData, // longest value data &cbSecurityDescriptor, // security descriptor &ftLastWriteTime); // last write time assert(lRes == ERROR_SUCCESS); } // 3) Read the SERIALCOM values. { DWORD dwIndex = 0; for (int i = 0; i < cValues; ++ i, ++ dwIndex) { wchar_t valueName[2048]; DWORD valNameLen = 2048; DWORD dataType; wchar_t data[2048]; DWORD dataSize = 4096; lRes = ::RegEnumValueW(hKey, dwIndex, valueName, &valNameLen, nullptr, &dataType, (BYTE*)&data, &dataSize); if (lRes == ERROR_SUCCESS && dataType == REG_SZ && valueName[0] != 0) out.emplace_back(boost::nowide::narrow(data)); } } ::RegCloseKey(hKey); } #else // UNIX and OS X std::initializer_list prefixes { "ttyUSB" , "ttyACM", "tty.", "cu.", "rfcomm" }; for (auto &dir_entry : boost::filesystem::directory_iterator(boost::filesystem::path("/dev"))) { std::string name = dir_entry.path().filename().string(); for (const char *prefix : prefixes) { if (boost::starts_with(name, prefix)) { out.emplace_back(dir_entry.path().string()); break; } } } #endif out.erase(std::remove_if(out.begin(), out.end(), [](const std::string &key){ return boost::starts_with(key, "Bluetooth") || boost::starts_with(key, "FireFly"); }), out.end()); return out; } bool debugged() { #ifdef _WIN32 return IsDebuggerPresent(); #else return false; #endif /* _WIN32 */ } void break_to_debugger() { #ifdef _WIN32 if (IsDebuggerPresent()) DebugBreak(); #endif /* _WIN32 */ } // Passing the wxWidgets GUI classes instantiated by the Perl part to C++. wxApp *g_wxApp = nullptr; wxFrame *g_wxMainFrame = nullptr; wxNotebook *g_wxTabPanel = nullptr; AppConfig *g_AppConfig = nullptr; PresetBundle *g_PresetBundle= nullptr; std::vector g_tabs_list; wxLocale* g_wxLocale; std::shared_ptr m_optgroup; double m_brim_width = 0.0; void set_wxapp(wxApp *app) { g_wxApp = app; } void set_main_frame(wxFrame *main_frame) { g_wxMainFrame = main_frame; } void set_tab_panel(wxNotebook *tab_panel) { g_wxTabPanel = tab_panel; } void set_app_config(AppConfig *app_config) { g_AppConfig = app_config; } void set_preset_bundle(PresetBundle *preset_bundle) { g_PresetBundle = preset_bundle; } std::vector& get_tabs_list() { return g_tabs_list; } bool checked_tab(Tab* tab) { bool ret = true; if (find(g_tabs_list.begin(), g_tabs_list.end(), tab) == g_tabs_list.end()) ret = false; return ret; } void delete_tab_from_list(Tab* tab) { std::vector::iterator itr = find(g_tabs_list.begin(), g_tabs_list.end(), tab); if (itr != g_tabs_list.end()) g_tabs_list.erase(itr); } bool select_language(wxArrayString & names, wxArrayLong & identifiers) { wxCHECK_MSG(names.Count() == identifiers.Count(), false, _(L("Array of language names and identifiers should have the same size."))); int init_selection = 0; long current_language = g_wxLocale ? g_wxLocale->GetLanguage() : wxLANGUAGE_UNKNOWN; for (auto lang : identifiers){ if (lang == current_language) break; else ++init_selection; } if (init_selection == identifiers.size()) init_selection = 0; long index = wxGetSingleChoiceIndex(_(L("Select the language")), _(L("Language")), names, init_selection); if (index != -1) { g_wxLocale = new wxLocale; g_wxLocale->Init(identifiers[index]); g_wxLocale->AddCatalogLookupPathPrefix(wxPathOnly(localization_dir())); g_wxLocale->AddCatalog(g_wxApp->GetAppName()); wxSetlocale(LC_NUMERIC, "C"); return true; } return false; } bool load_language() { long language; if (!g_AppConfig->has("translation_language")) language = wxLANGUAGE_UNKNOWN; else { auto str_language = g_AppConfig->get("translation_language"); language = str_language != "" ? stol(str_language) : wxLANGUAGE_UNKNOWN; } if (language == wxLANGUAGE_UNKNOWN) return false; wxArrayString names; wxArrayLong identifiers; get_installed_languages(names, identifiers); for (size_t i = 0; i < identifiers.Count(); i++) { if (identifiers[i] == language) { g_wxLocale = new wxLocale; g_wxLocale->Init(identifiers[i]); g_wxLocale->AddCatalogLookupPathPrefix(wxPathOnly(localization_dir())); g_wxLocale->AddCatalog(g_wxApp->GetAppName()); wxSetlocale(LC_NUMERIC, "C"); return true; } } return false; } void save_language() { long language = wxLANGUAGE_UNKNOWN; if (g_wxLocale) { language = g_wxLocale->GetLanguage(); } std::string str_language = std::to_string(language); g_AppConfig->set("translation_language", str_language); g_AppConfig->save(); } void get_installed_languages(wxArrayString & names, wxArrayLong & identifiers) { names.Clear(); identifiers.Clear(); wxDir dir(wxPathOnly(localization_dir())); wxString filename; const wxLanguageInfo * langinfo; wxString name = wxLocale::GetLanguageName(wxLANGUAGE_DEFAULT); if (!name.IsEmpty()) { names.Add(_(L("Default"))); identifiers.Add(wxLANGUAGE_DEFAULT); } for (bool cont = dir.GetFirst(&filename, wxEmptyString, wxDIR_DIRS); cont; cont = dir.GetNext(&filename)) { langinfo = wxLocale::FindLanguageInfo(filename); if (langinfo != NULL) { auto full_file_name = dir.GetName() + wxFileName::GetPathSeparator() + filename + wxFileName::GetPathSeparator() + g_wxApp->GetAppName() + wxT(".mo"); if (wxFileExists(full_file_name)) { names.Add(langinfo->Description); identifiers.Add(langinfo->Language); } } } } void add_debug_menu(wxMenuBar *menu, int event_language_change) { //#if 0 auto local_menu = new wxMenu(); local_menu->Append(wxWindow::NewControlId(1), _(L("Change Application Language"))); local_menu->Bind(wxEVT_MENU, [event_language_change](wxEvent&){ wxArrayString names; wxArrayLong identifiers; get_installed_languages(names, identifiers); if (select_language(names, identifiers)){ save_language(); show_info(g_wxTabPanel, _(L("Application will be restarted")), _(L("Attention!"))); if (event_language_change > 0) { wxCommandEvent event(event_language_change); g_wxApp->ProcessEvent(event); } } }); menu->Append(local_menu, _(L("&Localization"))); //#endif } void open_preferences_dialog(int event_preferences) { auto dlg = new PreferencesDialog(g_wxMainFrame, event_preferences); dlg->ShowModal(); } void create_preset_tabs(bool no_controller, int event_value_change, int event_presets_changed) { add_created_tab(new TabPrint (g_wxTabPanel, no_controller)); add_created_tab(new TabFilament (g_wxTabPanel, no_controller)); add_created_tab(new TabPrinter (g_wxTabPanel, no_controller)); for (size_t i = 0; i < g_wxTabPanel->GetPageCount(); ++ i) { Tab *tab = dynamic_cast(g_wxTabPanel->GetPage(i)); if (! tab) continue; tab->set_event_value_change(wxEventType(event_value_change)); tab->set_event_presets_changed(wxEventType(event_presets_changed)); } } TabIface* get_preset_tab_iface(char *name) { for (size_t i = 0; i < g_wxTabPanel->GetPageCount(); ++ i) { Tab *tab = dynamic_cast(g_wxTabPanel->GetPage(i)); if (! tab) continue; if (tab->name() == name) { return new TabIface(tab); } } return new TabIface(nullptr); } // opt_index = 0, by the reason of zero-index in ConfigOptionVector by default (in case only one element) void change_opt_value(DynamicPrintConfig& config, t_config_option_key opt_key, boost::any value, int opt_index /*= 0*/) { try{ switch (config.def()->get(opt_key)->type){ case coFloatOrPercent:{ std::string str = boost::any_cast(value); bool percent = false; if (str.back() == '%'){ str.pop_back(); percent = true; } double val = stod(str); config.set_key_value(opt_key, new ConfigOptionFloatOrPercent(val, percent)); break;} case coPercent: config.set_key_value(opt_key, new ConfigOptionPercent(boost::any_cast(value))); break; case coFloat:{ double& val = config.opt_float(opt_key); val = boost::any_cast(value); break; } case coPercents:{ ConfigOptionPercents* vec_new = new ConfigOptionPercents{ boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, opt_index); break; } case coFloats:{ ConfigOptionFloats* vec_new = new ConfigOptionFloats{ boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, opt_index); break; } case coString: config.set_key_value(opt_key, new ConfigOptionString(boost::any_cast(value))); break; case coStrings:{ if (opt_key.compare("compatible_printers") == 0 || config.def()->get(opt_key)->gui_flags.compare("serialized") == 0){ config.option(opt_key)->values.resize(0); std::vector values = boost::any_cast>(value); if (values.size() == 1 && values[0] == "") break; for (auto el : values) config.option(opt_key)->values.push_back(el); } else{ ConfigOptionStrings* vec_new = new ConfigOptionStrings{ boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, 0); } } break; case coBool: config.set_key_value(opt_key, new ConfigOptionBool(boost::any_cast(value))); break; case coBools:{ ConfigOptionBools* vec_new = new ConfigOptionBools{ (bool)boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, 0); break;} case coInt: config.set_key_value(opt_key, new ConfigOptionInt(boost::any_cast(value))); break; case coInts:{ ConfigOptionInts* vec_new = new ConfigOptionInts{ boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, 0); } break; case coEnum:{ if (opt_key.compare("external_fill_pattern") == 0 || opt_key.compare("fill_pattern") == 0) config.set_key_value(opt_key, new ConfigOptionEnum(boost::any_cast(value))); else if (opt_key.compare("gcode_flavor") == 0) config.set_key_value(opt_key, new ConfigOptionEnum(boost::any_cast(value))); else if (opt_key.compare("support_material_pattern") == 0) config.set_key_value(opt_key, new ConfigOptionEnum(boost::any_cast(value))); else if (opt_key.compare("seam_position") == 0) config.set_key_value(opt_key, new ConfigOptionEnum(boost::any_cast(value))); } break; case coPoints:{ ConfigOptionPoints* vec_new = new ConfigOptionPoints{ boost::any_cast(value) }; config.option(opt_key)->set_at(vec_new, opt_index, 0); } break; case coNone: break; default: break; } } catch (const std::exception &e) { int i = 0;//no reason, just experiment } } void add_created_tab(Tab* panel) { panel->create_preset_tab(g_PresetBundle); // Load the currently selected preset into the GUI, update the preset selection box. panel->load_current_preset(); g_wxTabPanel->AddPage(panel, panel->title()); } void show_error(wxWindow* parent, wxString message){ auto msg_wingow = new wxMessageDialog(parent, message, _(L("Error")), wxOK | wxICON_ERROR); msg_wingow->ShowModal(); } void show_info(wxWindow* parent, wxString message, wxString title){ auto msg_wingow = new wxMessageDialog(parent, message, title.empty() ? _(L("Notice")) : title, wxOK | wxICON_INFORMATION); msg_wingow->ShowModal(); } void warning_catcher(wxWindow* parent, wxString message){ if (message == _(L("GLUquadricObjPtr | Attempt to free unreferenced scalar")) ) return; auto msg = new wxMessageDialog(parent, message, _(L("Warning")), wxOK | wxICON_WARNING); msg->ShowModal(); } wxApp* get_app(){ return g_wxApp; } wxColour* get_modified_label_clr() { return new wxColour(253, 88, 0); } void create_combochecklist(wxComboCtrl* comboCtrl, std::string text, std::string items, bool initial_value) { if (comboCtrl == nullptr) return; wxCheckListBoxComboPopup* popup = new wxCheckListBoxComboPopup; if (popup != nullptr) { // FIXME If the following line is removed, the combo box popup list will not react to mouse clicks. // On the other side, with this line the combo box popup cannot be closed by clicking on the combo button on Windows 10. comboCtrl->UseAltPopupWindow(); comboCtrl->EnablePopupAnimation(false); comboCtrl->SetPopupControl(popup); popup->SetStringValue(from_u8(text)); popup->Bind(wxEVT_CHECKLISTBOX, [popup](wxCommandEvent& evt) { popup->OnCheckListBox(evt); }); popup->Bind(wxEVT_LISTBOX, [popup](wxCommandEvent& evt) { popup->OnListBoxSelection(evt); }); popup->Bind(wxEVT_KEY_DOWN, [popup](wxKeyEvent& evt) { popup->OnKeyEvent(evt); }); popup->Bind(wxEVT_KEY_UP, [popup](wxKeyEvent& evt) { popup->OnKeyEvent(evt); }); std::vector items_str; boost::split(items_str, items, boost::is_any_of("|"), boost::token_compress_off); for (const std::string& item : items_str) { popup->Append(from_u8(item)); } for (unsigned int i = 0; i < popup->GetCount(); ++i) { popup->Check(i, initial_value); } } } int combochecklist_get_flags(wxComboCtrl* comboCtrl) { int flags = 0; wxCheckListBoxComboPopup* popup = wxDynamicCast(comboCtrl->GetPopupControl(), wxCheckListBoxComboPopup); if (popup != nullptr) { for (unsigned int i = 0; i < popup->GetCount(); ++i) { if (popup->IsChecked(i)) flags |= 1 << i; } } return flags; } AppConfig* get_app_config() { return g_AppConfig; } wxString L_str(const std::string &str) { //! Explicitly specify that the source string is already in UTF-8 encoding return wxGetTranslation(wxString(str.c_str(), wxConvUTF8)); } wxString from_u8(const std::string &str) { return wxString::FromUTF8(str.c_str()); } void add_frequently_changed_parameters(wxWindow* parent, wxBoxSizer* sizer, wxFlexGridSizer* preset_sizer) { DynamicPrintConfig* config = &g_PresetBundle->prints.get_edited_preset().config; m_optgroup = std::make_shared(parent, "", config); const wxArrayInt& ar = preset_sizer->GetColWidths(); m_optgroup->label_width = ar.IsEmpty() ? 100 : ar.front(); m_optgroup->m_on_change = [config](t_config_option_key opt_key, boost::any value){ TabPrint* tab_print = nullptr; for (size_t i = 0; i < g_wxTabPanel->GetPageCount(); ++i) { Tab *tab = dynamic_cast(g_wxTabPanel->GetPage(i)); if (!tab) continue; if (tab->name() == "print"){ tab_print = static_cast(tab); break; } } if (tab_print == nullptr) return; if (opt_key == "fill_density"){ value = m_optgroup->get_config_value(*config, opt_key); tab_print->set_value(opt_key, value); tab_print->update(); } else{ DynamicPrintConfig new_conf = *config; if (opt_key == "brim"){ double new_val; double brim_width = config->opt_float("brim_width"); if (boost::any_cast(value) == true) { new_val = m_brim_width == 0.0 ? 10 : m_brim_width < 0.0 ? m_brim_width * (-1) : m_brim_width; } else{ m_brim_width = brim_width * (-1); new_val = 0; } new_conf.set_key_value("brim_width", new ConfigOptionFloat(new_val)); } else{ //(opt_key == "support") const wxString& selection = boost::any_cast(value); auto support_material = selection == _("None") ? false : true; new_conf.set_key_value("support_material", new ConfigOptionBool(support_material)); if (selection == _("Everywhere")) new_conf.set_key_value("support_material_buildplate_only", new ConfigOptionBool(false)); else if (selection == _("Support on build plate only")) new_conf.set_key_value("support_material_buildplate_only", new ConfigOptionBool(true)); } tab_print->load_config(new_conf); } tab_print->update_dirty(); }; const int width = 250; Option option = m_optgroup->get_option("fill_density"); option.opt.sidetext = ""; option.opt.width = width; m_optgroup->append_single_option_line(option); ConfigOptionDef def; def.label = L("Support"); def.type = coStrings; def.gui_type = "select_open"; def.tooltip = L("Select what kind of support do you need"); def.enum_labels.push_back(L("None")); def.enum_labels.push_back(L("Support on build plate only")); def.enum_labels.push_back(L("Everywhere")); std::string selection = !config->opt_bool("support_material") ? "None" : config->opt_bool("support_material_buildplate_only") ? "Support on build plate only" : "Everywhere"; def.default_value = new ConfigOptionStrings { selection }; option = Option(def, "support"); option.opt.width = width; m_optgroup->append_single_option_line(option); m_brim_width = config->opt_float("brim_width"); def.label = L("Brim"); def.type = coBool; def.tooltip = L("This flag enables the brim that will be printed around each object on the first layer."); def.gui_type = ""; def.default_value = new ConfigOptionBool{ m_brim_width > 0.0 ? true : false }; option = Option(def, "brim"); m_optgroup->append_single_option_line(option); sizer->Add(m_optgroup->sizer, 0, wxEXPAND | wxBOTTOM | wxBottom, 1); } ConfigOptionsGroup* get_optgroup() { return m_optgroup.get(); } } }