/*===================================================================== QGroundControl Open Source Ground Control Station (c) 2009 - 2013 QGROUNDCONTROL PROJECT This file is part of the QGROUNDCONTROL project QGROUNDCONTROL is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. QGROUNDCONTROL is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with QGROUNDCONTROL. If not, see . ======================================================================*/ /** * @file * @brief Implementation of class MainWindow * @author Lorenz Meier */ #include #include #include #include #include #include #include #include #include #include #include #include "QGC.h" #include "MAVLinkSimulationLink.h" #include "SerialLink.h" #include "MAVLinkProtocol.h" #include "QGCWaypointListMulti.h" #include "MainWindow.h" #ifndef __android__ #include "JoystickWidget.h" #endif #include "GAudioOutput.h" #include "QGCMAVLinkLogPlayer.h" #include "SettingsDialog.h" #include "QGCMapTool.h" #include "QGCMapDisplay.h" #include "MAVLinkDecoder.h" #include "QGCMAVLinkMessageSender.h" #include "QGCRGBDView.h" #include "UASQuickView.h" #include "QGCDataPlot2D.h" #include "Linecharts.h" #include "QGCTabbedInfoView.h" #include "UASRawStatusView.h" #include "QGCFlightDisplay.h" #include "SetupView.h" #include "SerialSettingsDialog.h" #include "terminalconsole.h" #include "QGCUASFileViewMulti.h" #include "QGCApplication.h" #include "QGCFileDialog.h" #include "QGCMessageBox.h" #include "QGCDockWidget.h" #ifdef UNITTEST_BUILD #include "QmlControls/QmlTestWidget.h" #endif #ifdef QGC_OSG_ENABLED #include "Q3DWidgetFactory.h" #endif #include "LogCompressor.h" // Pixel size, instead of a physical thing is actually a philosophical question when // it comes to Qt. Fonts are that and some heavy Kabalistic Voodoo added to the mix. // The values below came from actually measuring the elements on the screen on these // devices. I have yet to find a constant from Qt so these things can be properly // computed at runtime. #if defined(Q_OS_OSX) double MainWindow::_pixelFactor = 1.0; double MainWindow::_fontFactor = 1.0; #elif defined(Q_OS_WIN) double MainWindow::_pixelFactor = 0.86; double MainWindow::_fontFactor = 0.63; #elif defined(__android__) double MainWindow::_pixelFactor = 2.0; double MainWindow::_fontFactor = 1.23; #elif defined(Q_OS_LINUX) double MainWindow::_pixelFactor = 1.0; double MainWindow::_fontFactor = 0.85; #endif /// The key under which the Main Window settings are saved const char* MAIN_SETTINGS_GROUP = "QGC_MAINWINDOW"; const char* MainWindow::_uasControlDockWidgetName = "UNMANNED_SYSTEM_CONTROL_DOCKWIDGET"; const char* MainWindow::_uasListDockWidgetName = "UNMANNED_SYSTEM_LIST_DOCKWIDGET"; const char* MainWindow::_waypointsDockWidgetName = "WAYPOINT_LIST_DOCKWIDGET"; const char* MainWindow::_mavlinkDockWidgetName = "MAVLINK_INSPECTOR_DOCKWIDGET"; const char* MainWindow::_parametersDockWidgetName = "PARAMETER_INTERFACE_DOCKWIDGET"; const char* MainWindow::_filesDockWidgetName = "FILE_VIEW_DOCKWIDGET"; const char* MainWindow::_uasStatusDetailsDockWidgetName = "UAS_STATUS_DETAILS_DOCKWIDGET"; const char* MainWindow::_mapViewDockWidgetName = "MAP_VIEW_DOCKWIDGET"; const char* MainWindow::_hsiDockWidgetName = "HORIZONTAL_SITUATION_INDICATOR_DOCKWIDGET"; const char* MainWindow::_hdd1DockWidgetName = "HEAD_DOWN_DISPLAY_1_DOCKWIDGET"; const char* MainWindow::_hdd2DockWidgetName = "HEAD_DOWN_DISPLAY_2_DOCKWIDGET"; const char* MainWindow::_pfdDockWidgetName = "PRIMARY_FLIGHT_DISPLAY_DOCKWIDGET"; const char* MainWindow::_hudDockWidgetName = "HEAD_UP_DISPLAY_DOCKWIDGET"; const char* MainWindow::_uasInfoViewDockWidgetName = "UAS_INFO_INFOVIEW_DOCKWIDGET"; const char* MainWindow::_debugConsoleDockWidgetName = "COMMUNICATION_CONSOLE_DOCKWIDGET"; static MainWindow* _instance = NULL; ///< @brief MainWindow singleton MainWindow* MainWindow::_create(QSplashScreen* splashScreen) { Q_ASSERT(_instance == NULL); new MainWindow(splashScreen); // _instance is set in constructor Q_ASSERT(_instance); return _instance; } MainWindow* MainWindow::instance(void) { return _instance; } void MainWindow::deleteInstance(void) { delete this; } /// @brief Private constructor for MainWindow. MainWindow singleton is only ever created /// by MainWindow::_create method. Hence no other code should have access to /// constructor. MainWindow::MainWindow(QSplashScreen* splashScreen) : _autoReconnect(false) , _lowPowerMode(false) , _showStatusBar(false) , _centerStackActionGroup(new QActionGroup(this)) , _simulationLink(NULL) , _centralLayout(NULL) , _currentViewWidget(NULL) , _splashScreen(splashScreen) , _currentView(VIEW_SETUP) { Q_ASSERT(_instance == NULL); _instance = this; if (splashScreen) { connect(this, &MainWindow::initStatusChanged, splashScreen, &QSplashScreen::showMessage); } // Setup user interface loadSettings(); emit initStatusChanged(tr("Setting up user interface"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); _ui.setupUi(this); // Make sure tool bar elements all fit before changing minimum width setMinimumWidth(1008); configureWindowName(); // Setup central widget with a layout to hold the views _centralLayout = new QVBoxLayout(); _centralLayout->setContentsMargins(0,0,0,0); centralWidget()->setLayout(_centralLayout); // Set dock options setDockOptions(AnimatedDocks | AllowTabbedDocks | AllowNestedDocks); // Setup corners setCorner(Qt::BottomRightCorner, Qt::BottomDockWidgetArea); // Qt 4 on Ubuntu does place the native menubar correctly so on Linux we revert back to in-window menu bar. // TODO: Check that this is still necessary on Qt5 on Ubuntu #ifdef Q_OS_LINUX menuBar()->setNativeMenuBar(false); #endif #ifdef UNITTEST_BUILD QAction* qmlTestAction = new QAction("Test QML palette and controls", NULL); connect(qmlTestAction, &QAction::triggered, this, &MainWindow::_showQmlTestWidget); _ui.menuTools->addAction(qmlTestAction); #endif // Load QML Toolbar QDockWidget* widget = new QDockWidget(this); widget->setObjectName("ToolBarDockWidget"); qmlRegisterType("QGroundControl.MainToolBar", 1, 0, "MainToolBar"); _mainToolBar = new MainToolBar(widget); widget->setWidget(_mainToolBar); widget->setFeatures(QDockWidget::NoDockWidgetFeatures); widget->setTitleBarWidget(new QWidget(this)); // Disables the title bar addDockWidget(Qt::TopDockWidgetArea, widget); // Setup UI state machines _centerStackActionGroup->setExclusive(true); // Status Bar setStatusBar(new QStatusBar(this)); statusBar()->setSizeGripEnabled(true); emit initStatusChanged(tr("Building common widgets."), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); _buildCommonWidgets(); emit initStatusChanged(tr("Building common actions"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); // Create actions connectCommonActions(); // Connect user interface devices emit initStatusChanged(tr("Initializing joystick interface"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); #ifndef __android__ joystick = new JoystickInput(); #endif #ifdef QGC_MOUSE_ENABLED_WIN emit initStatusChanged(tr("Initializing 3D mouse interface"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); mouseInput = new Mouse3DInput(this); mouse = new Mouse6dofInput(mouseInput); #endif //QGC_MOUSE_ENABLED_WIN #if QGC_MOUSE_ENABLED_LINUX emit initStatusChanged(tr("Initializing 3D mouse interface"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); mouse = new Mouse6dofInput(this); connect(this, SIGNAL(x11EventOccured(XEvent*)), mouse, SLOT(handleX11Event(XEvent*))); #endif //QGC_MOUSE_ENABLED_LINUX // These also cause the screen to redraw so we need to update any OpenGL canvases in QML controls connect(LinkManager::instance(), &LinkManager::linkConnected, this, &MainWindow::_linkStateChange); connect(LinkManager::instance(), &LinkManager::linkDisconnected, this, &MainWindow::_linkStateChange); // Connect link if (_autoReconnect) { restoreLastUsedConnection(); } // Set low power mode enableLowPowerMode(_lowPowerMode); emit initStatusChanged(tr("Restoring last view state"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); // Restore the window setup _loadCurrentViewState(); #ifndef __android__ // Restore the window position and size emit initStatusChanged(tr("Restoring last window size"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); if (settings.contains(_getWindowGeometryKey())) { restoreGeometry(settings.value(_getWindowGeometryKey()).toByteArray()); } else { // Adjust the size QScreen* scr = QApplication::primaryScreen(); QSize scrSize = scr->availableSize(); if (scrSize.width() <= 1280) { resize(scrSize.width(), scrSize.height()); } else { int w = scrSize.width() > 1600 ? 1600 : scrSize.width(); int h = scrSize.height() > 800 ? 800 : scrSize.height(); resize(w, h); move((scrSize.width() - w) / 2, (scrSize.height() - h) / 2); } } // Make sure the proper fullscreen/normal menu item is checked properly. if (isFullScreen()) { _ui.actionFullscreen->setChecked(true); _ui.actionNormal->setChecked(false); } else { _ui.actionFullscreen->setChecked(false); _ui.actionNormal->setChecked(true); } // And that they will stay checked properly after user input connect(_ui.actionFullscreen, &QAction::triggered, this, &MainWindow::fullScreenActionItemCallback); connect(_ui.actionNormal, &QAction::triggered, this, &MainWindow::normalActionItemCallback); #endif connect(_ui.actionStatusBar, &QAction::triggered, this, &MainWindow::showStatusBarCallback); // Set OS dependent keyboard shortcuts for the main window, non OS dependent shortcuts are set in MainWindow.ui #ifdef Q_OS_MACX _ui.actionSetup->setShortcut(QApplication::translate("MainWindow", "Meta+1", 0)); _ui.actionPlan->setShortcut(QApplication::translate("MainWindow", "Meta+2", 0)); _ui.actionFlight->setShortcut(QApplication::translate("MainWindow", "Meta+3", 0)); _ui.actionAnalyze->setShortcut(QApplication::translate("MainWindow", "Meta+4", 0)); _ui.actionTerminalView->setShortcut(QApplication::translate("MainWindow", "Meta+5", 0)); _ui.actionSimulationView->setShortcut(QApplication::translate("MainWindow", "Meta+6", 0)); _ui.actionFullscreen->setShortcut(QApplication::translate("MainWindow", "Meta+Return", 0)); #else _ui.actionSetup->setShortcut(QApplication::translate("MainWindow", "Ctrl+1", 0)); _ui.actionPlan->setShortcut(QApplication::translate("MainWindow", "Ctrl+2", 0)); _ui.actionFlight->setShortcut(QApplication::translate("MainWindow", "Ctrl+3", 0)); _ui.actionAnalyze->setShortcut(QApplication::translate("MainWindow", "Ctrl+4", 0)); _ui.actionTerminalView->setShortcut(QApplication::translate("MainWindow", "Ctrl+5", 0)); _ui.actionSimulationView->setShortcut(QApplication::translate("MainWindow", "Ctrl+6", 0)); _ui.actionFullscreen->setShortcut(QApplication::translate("MainWindow", "Ctrl+Return", 0)); #endif connect(&windowNameUpdateTimer, SIGNAL(timeout()), this, SLOT(configureWindowName())); windowNameUpdateTimer.start(15000); emit initStatusChanged(tr("Done"), Qt::AlignLeft | Qt::AlignBottom, QColor(62, 93, 141)); if (!qgcApp()->runningUnitTests()) { _ui.actionStatusBar->setChecked(_showStatusBar); showStatusBarCallback(_showStatusBar); #ifdef __android__ menuBar()->hide(); #endif show(); #ifdef Q_OS_MAC // TODO HACK // This is a really ugly hack. For whatever reason, by having a QQuickWidget inside a // QDockWidget (MainToolBar above), the main menu is not shown when the app first // starts. I looked everywhere and I could not find a solution. What I did notice was // that if any other window gets focus, the menu comes up when you come back to QGC. // That is, if you were to click on another window and then back to QGC, the menus // would appear. This hack below creates a 0x0 dialog and immediately closes it. // That works around the issue and it will do until I find the root of the problem. QDialog qd(this); qd.show(); qd.raise(); qd.activateWindow(); qd.close(); #endif } } MainWindow::~MainWindow() { if (_simulationLink) { delete _simulationLink; _simulationLink = NULL; } #ifndef __android__ if (joystick) { joystick->shutdown(); joystick->wait(5000); delete joystick; joystick = NULL; } #endif // Delete all UAS objects for (int i=0;i<_commsWidgetList.size();i++) { _commsWidgetList[i]->deleteLater(); } _instance = NULL; } void MainWindow::resizeEvent(QResizeEvent * event) { QMainWindow::resizeEvent(event); } QString MainWindow::_getWindowStateKey() { return QString::number(_currentView)+"_windowstate_"; } QString MainWindow::_getWindowGeometryKey() { return "_geometry"; } void MainWindow::_createDockWidget(const QString& title, const QString& name, Qt::DockWidgetArea area, QWidget* innerWidget) { Q_ASSERT(!_mapName2DockWidget.contains(name)); // Add to menu QAction* action = new QAction(title, NULL); action->setCheckable(true); action->setData(name); connect(action, &QAction::triggered, this, &MainWindow::_showDockWidgetAction); _ui.menuTools->addAction(action); // Create widget QGCDockWidget* dockWidget = new QGCDockWidget(title, action, this); Q_CHECK_PTR(dockWidget); dockWidget->setObjectName(name); dockWidget->setVisible (false); if (innerWidget) { // Put inner widget inside QDockWidget innerWidget->setParent(dockWidget); dockWidget->setWidget(innerWidget); innerWidget->setVisible(true); } _mapName2DockWidget[name] = dockWidget; _mapDockWidget2Action[dockWidget] = action; addDockWidget(area, dockWidget); } void MainWindow::_buildCommonWidgets(void) { // Add generic MAVLink decoder // TODO: This is never deleted mavlinkDecoder = new MAVLinkDecoder(MAVLinkProtocol::instance(), this); connect(mavlinkDecoder, SIGNAL(valueChanged(int,QString,QString,QVariant,quint64)), this, SIGNAL(valueChanged(int,QString,QString,QVariant,quint64))); // Log player // TODO: Make this optional with a preferences setting or under a "View" menu logPlayer = new QGCMAVLinkLogPlayer(MAVLinkProtocol::instance(), statusBar()); statusBar()->addPermanentWidget(logPlayer); // In order for Qt to save and restore state of widgets all widgets must be created ahead of time. We only create the QDockWidget // holders. We do not create the actual inner widget until it is needed. This saves memory and cpu from running widgets that are // never shown. struct DockWidgetInfo { const char* name; const char* title; Qt::DockWidgetArea area; }; static const struct DockWidgetInfo rgDockWidgetInfo[] = { { _uasControlDockWidgetName, "Control", Qt::LeftDockWidgetArea }, { _uasListDockWidgetName, "Unmanned Systems", Qt::RightDockWidgetArea }, { _waypointsDockWidgetName, "Mission Plan", Qt::BottomDockWidgetArea }, { _mavlinkDockWidgetName, "MAVLink Inspector", Qt::RightDockWidgetArea }, { _parametersDockWidgetName, "Parameter Editor", Qt::RightDockWidgetArea }, { _filesDockWidgetName, "Onboard Files", Qt::RightDockWidgetArea }, { _uasStatusDetailsDockWidgetName, "Status Details", Qt::RightDockWidgetArea }, { _mapViewDockWidgetName, "Map view", Qt::RightDockWidgetArea }, { _hsiDockWidgetName, "Horizontal Situation", Qt::BottomDockWidgetArea }, { _hdd1DockWidgetName, "Flight Display", Qt::RightDockWidgetArea }, { _hdd2DockWidgetName, "Actuator Status", Qt::RightDockWidgetArea }, { _pfdDockWidgetName, "Primary Flight Display", Qt::RightDockWidgetArea }, { _hudDockWidgetName, "Video Downlink", Qt::RightDockWidgetArea }, { _uasInfoViewDockWidgetName, "Info View", Qt::LeftDockWidgetArea }, { _debugConsoleDockWidgetName, "Communications Console", Qt::LeftDockWidgetArea }, }; static const size_t cDockWidgetInfo = sizeof(rgDockWidgetInfo) / sizeof(rgDockWidgetInfo[0]); for (size_t i=0; ititle, pDockInfo->name, pDockInfo->area, NULL /* no inner widget yet */); } } void MainWindow::_buildPlanView(void) { if (!_planView) { _planView = new QGCMapTool(this); _planView->setVisible(false); } } void MainWindow::_buildExperimentalPlanView(void) { if (!_experimentalPlanView) { _experimentalPlanView = new QGCMapDisplay(this); _experimentalPlanView->setVisible(false); } } void MainWindow::_buildFlightView(void) { if (!_flightView) { _flightView = new QGCFlightDisplay(this); _flightView->setVisible(false); } } void MainWindow::_buildSetupView(void) { if (!_setupView) { _setupView = new SetupView(this); _setupView->setVisible(false); } } void MainWindow::_buildAnalyzeView(void) { if (!_analyzeView) { _analyzeView = new QGCDataPlot2D(this); _analyzeView->setVisible(false); } } void MainWindow::_buildSimView(void) { if (!_simView) { _simView = new QGCMapTool(this); _simView->setVisible(false); } } void MainWindow::_buildTerminalView(void) { if (!_terminalView) { _terminalView = new TerminalConsole(this); _terminalView->setVisible(false); } } /// Shows or hides the specified dock widget, creating if necessary void MainWindow::_showDockWidget(const QString& name, bool show) { if (!_mapName2DockWidget.contains(name)) { qWarning() << "Attempt to show unknown dock widget" << name; return; } // Create the inner widget if we need to if (!_mapName2DockWidget[name]->widget()) { _createInnerDockWidget(name); } Q_ASSERT(_mapName2DockWidget.contains(name)); QDockWidget* dockWidget = _mapName2DockWidget[name]; Q_ASSERT(dockWidget); dockWidget->setVisible(show); Q_ASSERT(_mapDockWidget2Action.contains(dockWidget)); _mapDockWidget2Action[dockWidget]->setChecked(show); } /// Creates the specified inner dock widget and adds to the QDockWidget void MainWindow::_createInnerDockWidget(const QString& widgetName) { Q_ASSERT(_mapName2DockWidget.contains(widgetName)); // QDockWidget should already exist Q_ASSERT(!_mapName2DockWidget[widgetName]->widget()); // Inner widget should not QWidget* widget = NULL; if (widgetName == _uasControlDockWidgetName) { widget = new UASControlWidget(this); } else if (widgetName == _uasListDockWidgetName) { widget = new UASListWidget(this); } else if (widgetName == _waypointsDockWidgetName) { widget = new QGCWaypointListMulti(this); } else if (widgetName == _mavlinkDockWidgetName) { widget = new QGCMAVLinkInspector(MAVLinkProtocol::instance(),this); } else if (widgetName == _parametersDockWidgetName) { widget = new ParameterEditorWidget(this); } else if (widgetName == _filesDockWidgetName) { widget = new QGCUASFileViewMulti(this); } else if (widgetName == _uasStatusDetailsDockWidgetName) { widget = new UASInfoWidget(this); } else if (widgetName == _mapViewDockWidgetName) { widget = new QGCMapTool(this); } else if (widgetName == _hsiDockWidgetName) { widget = new HSIDisplay(this); } else if (widgetName == _hdd1DockWidgetName) { QStringList acceptList; acceptList.append("-3.3,ATTITUDE.roll,rad,+3.3,s"); acceptList.append("-3.3,ATTITUDE.pitch,deg,+3.3,s"); acceptList.append("-3.3,ATTITUDE.yaw,deg,+3.3,s"); HDDisplay *hddisplay = new HDDisplay(acceptList,"Flight Display",this); hddisplay->addSource(mavlinkDecoder); widget = hddisplay; } else if (widgetName == _hdd2DockWidgetName) { QStringList acceptList; acceptList.append("0,RAW_PRESSURE.pres_abs,hPa,65500"); HDDisplay *hddisplay = new HDDisplay(acceptList,"Actuator Status",this); hddisplay->addSource(mavlinkDecoder); widget = hddisplay; } else if (widgetName == _pfdDockWidgetName) { widget = new QGCFlightDisplay(this); } else if (widgetName == _hudDockWidgetName) { widget = new HUD(320,240,this); } else if (widgetName == _uasInfoViewDockWidgetName) { QGCTabbedInfoView* pInfoView = new QGCTabbedInfoView(this); pInfoView->addSource(mavlinkDecoder); widget = pInfoView; } else if (widgetName == _debugConsoleDockWidgetName) { widget = new DebugConsole(this); } else { qWarning() << "Attempt to create unknown Inner Dock Widget" << widgetName; } if (widget) { QDockWidget* dockWidget = _mapName2DockWidget[widgetName]; Q_CHECK_PTR(dockWidget); widget->setParent(dockWidget); dockWidget->setWidget(widget); } } void MainWindow::_showHILConfigurationWidgets(void) { UASInterface* uas = UASManager::instance()->getActiveUAS(); if (!uas) { return; } UAS* mav = dynamic_cast(uas); Q_ASSERT(mav); int uasId = mav->getUASID(); if (!_mapUasId2HilDockWidget.contains(uasId)) { // Create QDockWidget QGCDockWidget* dockWidget = new QGCDockWidget(tr("HIL Config %1").arg(uasId), NULL, this); Q_CHECK_PTR(dockWidget); dockWidget->setObjectName(tr("HIL_CONFIG_%1").arg(uasId)); dockWidget->setVisible (false); // Create inner widget and set it QWidget* widget = new QGCHilConfiguration(mav, dockWidget); widget->setParent(dockWidget); dockWidget->setWidget(widget); _mapUasId2HilDockWidget[uasId] = dockWidget; addDockWidget(Qt::LeftDockWidgetArea, dockWidget); } if (_currentView == VIEW_SIMULATION) { // HIL dock widgets only show up on simulation view foreach (QDockWidget* dockWidget, _mapUasId2HilDockWidget) { dockWidget->setVisible(true); } } } void MainWindow::fullScreenActionItemCallback(bool) { _ui.actionNormal->setChecked(false); } void MainWindow::normalActionItemCallback(bool) { _ui.actionFullscreen->setChecked(false); } void MainWindow::showStatusBarCallback(bool checked) { _showStatusBar = checked; checked ? statusBar()->show() : statusBar()->hide(); _ui.actionStatusBar->setText(checked ? "Hide Status Bar" : "Show Status Bar"); } void MainWindow::closeEvent(QCloseEvent *event) { // Disallow window close if there are active connections if (LinkManager::instance()->anyConnectedLinks()) { QGCMessageBox::StandardButton button = QGCMessageBox::warning( tr("QGroundControl close"), tr("There are still active connections to vehicles. Do you want to disconnect these before closing?"), QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Cancel); if (button == QMessageBox::Yes) { LinkManager::instance()->disconnectAll(); } else { event->ignore(); return; } } // This will process any remaining flight log save dialogs qgcApp()->processEvents(QEventLoop::ExcludeUserInputEvents); // Should not be any active connections Q_ASSERT(!LinkManager::instance()->anyConnectedLinks()); _storeCurrentViewState(); storeSettings(); UASManager::instance()->storeSettings(); event->accept(); } void MainWindow::loadSettings() { // Why the screaming? QSettings settings; settings.beginGroup(MAIN_SETTINGS_GROUP); _autoReconnect = settings.value("AUTO_RECONNECT", _autoReconnect).toBool(); _lowPowerMode = settings.value("LOW_POWER_MODE", _lowPowerMode).toBool(); _showStatusBar = settings.value("SHOW_STATUSBAR", _showStatusBar).toBool(); _fontFactor = settings.value("FONT_SIZE_FACTOR", _fontFactor).toDouble(); _pixelFactor = settings.value("PIXEL_SIZE_FACTOR", _pixelFactor).toDouble(); settings.endGroup(); // Select the proper view. Default to the flight view or load the last one used if it's supported. VIEW_SECTIONS currentViewCandidate = (VIEW_SECTIONS) settings.value("CURRENT_VIEW", _currentView).toInt(); switch (currentViewCandidate) { case VIEW_ANALYZE: case VIEW_PLAN: case VIEW_EXPERIMENTAL_PLAN: case VIEW_FLIGHT: case VIEW_SIMULATION: case VIEW_SETUP: case VIEW_TERMINAL: _currentView = currentViewCandidate; break; default: // Leave _currentView to the default break; } // Put it back, which will set it to a valid value settings.setValue("CURRENT_VIEW", _currentView); } void MainWindow::storeSettings() { QSettings settings; settings.beginGroup(MAIN_SETTINGS_GROUP); settings.setValue("AUTO_RECONNECT", _autoReconnect); settings.setValue("LOW_POWER_MODE", _lowPowerMode); settings.setValue("SHOW_STATUSBAR", _showStatusBar); settings.setValue("FONT_SIZE_FACTOR", _fontFactor); settings.setValue("PIXEL_SIZE_FACTOR", _pixelFactor); settings.endGroup(); settings.setValue(_getWindowGeometryKey(), saveGeometry()); // Save the last current view in any case settings.setValue("CURRENT_VIEW", _currentView); settings.setValue(_getWindowStateKey(), saveState()); } void MainWindow::configureWindowName() { QList hostAddresses = QNetworkInterface::allAddresses(); QString windowname = qApp->applicationName() + " " + qApp->applicationVersion(); bool prevAddr = false; windowname.append(" (" + QHostInfo::localHostName() + ": "); for (int i = 0; i < hostAddresses.size(); i++) { // Exclude loopback IPv4 and all IPv6 addresses if (hostAddresses.at(i) != QHostAddress("127.0.0.1") && !hostAddresses.at(i).toString().contains(":")) { if(prevAddr) windowname.append("/"); windowname.append(hostAddresses.at(i).toString()); prevAddr = true; } } windowname.append(")"); setWindowTitle(windowname); } void MainWindow::enableAutoReconnect(bool enabled) { _autoReconnect = enabled; } /** * @brief Create all actions associated to the main window * **/ void MainWindow::connectCommonActions() { // Bind together the perspective actions QActionGroup* perspectives = new QActionGroup(_ui.menuPerspectives); perspectives->addAction(_ui.actionAnalyze); perspectives->addAction(_ui.actionFlight); perspectives->addAction(_ui.actionSimulationView); perspectives->addAction(_ui.actionPlan); perspectives->addAction(_ui.actionSetup); perspectives->addAction(_ui.actionTerminalView); perspectives->addAction(_ui.actionExperimentalPlanView); perspectives->setExclusive(true); // Mark the right one as selected if (_currentView == VIEW_ANALYZE) { _ui.actionAnalyze->setChecked(true); _ui.actionAnalyze->activate(QAction::Trigger); } if (_currentView == VIEW_FLIGHT) { _ui.actionFlight->setChecked(true); _ui.actionFlight->activate(QAction::Trigger); } if (_currentView == VIEW_SIMULATION) { _ui.actionSimulationView->setChecked(true); _ui.actionSimulationView->activate(QAction::Trigger); } if (_currentView == VIEW_PLAN) { _ui.actionPlan->setChecked(true); _ui.actionPlan->activate(QAction::Trigger); } if (_currentView == VIEW_EXPERIMENTAL_PLAN) { _ui.actionExperimentalPlanView->setChecked(true); _ui.actionExperimentalPlanView->activate(QAction::Trigger); } if (_currentView == VIEW_SETUP) { _ui.actionSetup->setChecked(true); _ui.actionSetup->activate(QAction::Trigger); } if (_currentView == VIEW_TERMINAL) { _ui.actionTerminalView->setChecked(true); _ui.actionTerminalView->activate(QAction::Trigger); } // The UAS actions are not enabled without connection to system _ui.actionLiftoff->setEnabled(false); _ui.actionLand->setEnabled(false); _ui.actionEmergency_Kill->setEnabled(false); _ui.actionEmergency_Land->setEnabled(false); _ui.actionShutdownMAV->setEnabled(false); // Connect actions from ui connect(_ui.actionAdd_Link, SIGNAL(triggered()), this, SLOT(manageLinks())); // Connect internal actions connect(UASManager::instance(), SIGNAL(UASCreated(UASInterface*)), this, SLOT(UASCreated(UASInterface*))); // Unmanned System controls connect(_ui.actionLiftoff, SIGNAL(triggered()), UASManager::instance(), SLOT(launchActiveUAS())); connect(_ui.actionLand, SIGNAL(triggered()), UASManager::instance(), SLOT(returnActiveUAS())); connect(_ui.actionEmergency_Land, SIGNAL(triggered()), UASManager::instance(), SLOT(stopActiveUAS())); connect(_ui.actionEmergency_Kill, SIGNAL(triggered()), UASManager::instance(), SLOT(killActiveUAS())); connect(_ui.actionShutdownMAV, SIGNAL(triggered()), UASManager::instance(), SLOT(shutdownActiveUAS())); // Views actions connect(_ui.actionFlight, SIGNAL(triggered()), this, SLOT(loadFlightView())); connect(_ui.actionSimulationView, SIGNAL(triggered()), this, SLOT(loadSimulationView())); connect(_ui.actionAnalyze, SIGNAL(triggered()), this, SLOT(loadAnalyzeView())); connect(_ui.actionPlan, SIGNAL(triggered()), this, SLOT(loadPlanView())); connect(_ui.actionExperimentalPlanView, SIGNAL(triggered()), this, SLOT(loadOldPlanView())); connect(_ui.actionTerminalView,SIGNAL(triggered()),this,SLOT(loadTerminalView())); // Help Actions connect(_ui.actionOnline_Documentation, SIGNAL(triggered()), this, SLOT(showHelp())); connect(_ui.actionDeveloper_Credits, SIGNAL(triggered()), this, SLOT(showCredits())); connect(_ui.actionProject_Roadmap, SIGNAL(triggered()), this, SLOT(showRoadMap())); // Audio output _ui.actionMuteAudioOutput->setChecked(GAudioOutput::instance()->isMuted()); connect(GAudioOutput::instance(), SIGNAL(mutedChanged(bool)), _ui.actionMuteAudioOutput, SLOT(setChecked(bool))); connect(_ui.actionMuteAudioOutput, SIGNAL(triggered(bool)), GAudioOutput::instance(), SLOT(mute(bool))); // Application Settings connect(_ui.actionSettings, SIGNAL(triggered()), this, SLOT(showSettings())); connect(_ui.actionSimulate, SIGNAL(triggered(bool)), this, SLOT(simulateLink(bool))); // Update Tool Bar _mainToolBar->setCurrentView(_currentView); } void MainWindow::_openUrl(const QString& url, const QString& errorMessage) { if(!QDesktopServices::openUrl(QUrl(url))) { QMessageBox::critical( this, tr("Could not open information in browser"), errorMessage); } } void MainWindow::showHelp() { _openUrl( "http://qgroundcontrol.org/users/start", tr("To get to the online help, please open http://qgroundcontrol.org/user_guide in a browser.")); } void MainWindow::showCredits() { _openUrl( "http://qgroundcontrol.org/credits", tr("To get to the credits, please open http://qgroundcontrol.org/credits in a browser.")); } void MainWindow::showRoadMap() { _openUrl( "http://qgroundcontrol.org/dev/roadmap", tr("To get to the online help, please open http://qgroundcontrol.org/roadmap in a browser.")); } void MainWindow::showSettings() { #ifndef __android__ SettingsDialog settings(joystick, this); #else SettingsDialog settings(this); #endif settings.exec(); } void MainWindow::simulateLink(bool simulate) { if (simulate) { if (!_simulationLink) { _simulationLink = new MAVLinkSimulationLink(":/demo-log.txt"); Q_CHECK_PTR(_simulationLink); } LinkManager::instance()->connectLink(_simulationLink); } else { Q_ASSERT(_simulationLink); LinkManager::instance()->disconnectLink(_simulationLink); } } void MainWindow::commsWidgetDestroyed(QObject *obj) { // Do not dynamic cast or de-reference QObject, since object is either in destructor or may have already // been destroyed. if (_commsWidgetList.contains(obj)) { _commsWidgetList.removeOne(obj); } } void MainWindow::UASCreated(UASInterface* uas) { // The UAS actions are not enabled without connection to system _ui.actionLiftoff->setEnabled(true); _ui.actionLand->setEnabled(true); _ui.actionEmergency_Kill->setEnabled(true); _ui.actionEmergency_Land->setEnabled(true); _ui.actionShutdownMAV->setEnabled(true); connect(uas, SIGNAL(valueChanged(int,QString,QString,QVariant,quint64)), this, SIGNAL(valueChanged(int,QString,QString,QVariant,quint64))); connect(uas, SIGNAL(misconfigurationDetected(UASInterface*)), this, SLOT(handleMisconfiguration(UASInterface*))); // HIL _showHILConfigurationWidgets(); if (!linechartWidget) { linechartWidget = new Linecharts(this); linechartWidget->setVisible(false); } linechartWidget->addSource(mavlinkDecoder); if (_analyzeView != linechartWidget) { _analyzeView = linechartWidget; } } /// Stores the state of the toolbar, status bar and widgets associated with the current view void MainWindow::_storeCurrentViewState(void) { // HIL dock widgets are dynamic and are not part of the saved state _hideAllHilDockWidgets(); // Save list of visible widgets bool firstWidget = true; QString widgetNames = ""; foreach(QDockWidget* dockWidget, _mapName2DockWidget) { if (dockWidget->isVisible()) { if (!firstWidget) { widgetNames += ","; } widgetNames += dockWidget->objectName(); firstWidget = false; } } settings.setValue(_getWindowStateKey() + "WIDGETS", widgetNames); settings.setValue(_getWindowStateKey(), saveState()); settings.setValue(_getWindowGeometryKey(), saveGeometry()); } /// Restores the state of the toolbar, status bar and widgets associated with the current view void MainWindow::_loadCurrentViewState(void) { QWidget* centerView = NULL; QString defaultWidgets; switch (_currentView) { case VIEW_SETUP: _buildSetupView(); centerView = _setupView; break; case VIEW_ANALYZE: _buildAnalyzeView(); centerView = _analyzeView; defaultWidgets = "MAVLINK_INSPECTOR_DOCKWIDGET,PARAMETER_INTERFACE_DOCKWIDGET,FILE_VIEW_DOCKWIDGET,HEAD_UP_DISPLAY_DOCKWIDGET"; break; case VIEW_FLIGHT: _buildFlightView(); centerView = _flightView; //defaultWidgets = "COMMUNICATION_CONSOLE_DOCKWIDGET,UAS_INFO_INFOVIEW_DOCKWIDGET"; defaultWidgets.clear(); break; case VIEW_PLAN: _buildPlanView(); centerView = _planView; defaultWidgets = "UNMANNED_SYSTEM_LIST_DOCKWIDGET,WAYPOINT_LIST_DOCKWIDGET"; break; case VIEW_EXPERIMENTAL_PLAN: _buildExperimentalPlanView(); centerView = _experimentalPlanView; defaultWidgets.clear(); break; case VIEW_SIMULATION: _buildSimView(); centerView = _simView; defaultWidgets = "UNMANNED_SYSTEM_CONTROL_DOCKWIDGET,WAYPOINT_LIST_DOCKWIDGET,PARAMETER_INTERFACE_DOCKWIDGET,PRIMARY_FLIGHT_DISPLAY_DOCKWIDGET"; break; case VIEW_TERMINAL: _buildTerminalView(); centerView = _terminalView; break; default: Q_ASSERT(false); break; } // Remove old view if (_currentViewWidget) { _currentViewWidget->setVisible(false); Q_ASSERT(_centralLayout->count() == 1); QLayoutItem *child = _centralLayout->takeAt(0); Q_ASSERT(child); delete child; } // Add the new one Q_ASSERT(centerView); Q_ASSERT(_centralLayout->count() == 0); _currentViewWidget = centerView; _centralLayout->addWidget(_currentViewWidget); _centralLayout->setContentsMargins(0, 0, 0, 0); _currentViewWidget->setVisible(true); // Hide all widgets from previous view _hideAllDockWidgets(); // Restore the widgets for the new view QString widgetNames = settings.value(_getWindowStateKey() + "WIDGETS", defaultWidgets).toString(); if (!widgetNames.isEmpty()) { QStringList split = widgetNames.split(","); foreach (QString widgetName, split) { Q_ASSERT(!widgetName.isEmpty()); _showDockWidget(widgetName, true); } } if (settings.contains(_getWindowStateKey())) { restoreState(settings.value(_getWindowStateKey()).toByteArray()); } // HIL dock widget are dynamic and don't take part in the saved window state, so this // need to happen after we restore state _showHILConfigurationWidgets(); // There is a bug in Qt where a Canvas element inside a QQuickWidget does not // receive update requests. Here we emit a signal for them to get repainted. emit repaintCanvas(); } void MainWindow::_hideAllHilDockWidgets(void) { foreach(QDockWidget* dockWidget, _mapUasId2HilDockWidget) { dockWidget->setVisible(false); } } void MainWindow::_hideAllDockWidgets(void) { foreach(QDockWidget* dockWidget, _mapName2DockWidget) { dockWidget->setVisible(false); } _hideAllHilDockWidgets(); } void MainWindow::_showDockWidgetAction(bool show) { QAction* action = dynamic_cast(QObject::sender()); Q_ASSERT(action); _showDockWidget(action->data().toString(), show); } void MainWindow::handleMisconfiguration(UASInterface* uas) { static QTime lastTime; // We have to debounce this signal if (!lastTime.isValid()) { lastTime.start(); } else { if (lastTime.elapsed() < 10000) { lastTime.start(); return; } } // Ask user if they want to handle this now QMessageBox::StandardButton button = QGCMessageBox::question( tr("Missing or Invalid Onboard Configuration"), tr("The onboard system configuration is missing or incomplete. Do you want to resolve this now?"), QMessageBox::Ok | QMessageBox::Cancel, QMessageBox::Ok); if (button == QMessageBox::Ok) { // They want to handle it, make sure this system is selected UASManager::instance()->setActiveUAS(uas); // Flick to config view loadSetupView(); } } void MainWindow::loadAnalyzeView() { if (_currentView != VIEW_ANALYZE) { _storeCurrentViewState(); _currentView = VIEW_ANALYZE; _ui.actionAnalyze->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadPlanView() { if (_currentView != VIEW_PLAN) { _storeCurrentViewState(); _currentView = VIEW_PLAN; _ui.actionPlan->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadOldPlanView() { if (_currentView != VIEW_EXPERIMENTAL_PLAN) { _storeCurrentViewState(); _currentView = VIEW_EXPERIMENTAL_PLAN; _ui.actionExperimentalPlanView->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadSetupView() { if (_currentView != VIEW_SETUP) { _storeCurrentViewState(); _currentView = VIEW_SETUP; _ui.actionSetup->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadTerminalView() { if (_currentView != VIEW_TERMINAL) { _storeCurrentViewState(); _currentView = VIEW_TERMINAL; _ui.actionTerminalView->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadFlightView() { if (_currentView != VIEW_FLIGHT) { _storeCurrentViewState(); _currentView = VIEW_FLIGHT; _ui.actionFlight->setChecked(true); _loadCurrentViewState(); } } void MainWindow::loadSimulationView() { if (_currentView != VIEW_SIMULATION) { _storeCurrentViewState(); _currentView = VIEW_SIMULATION; _ui.actionSimulationView->setChecked(true); _loadCurrentViewState(); } } /// @brief Hides the spash screen if it is currently being shown void MainWindow::hideSplashScreen(void) { if (_splashScreen) { _splashScreen->hide(); _splashScreen = NULL; } } void MainWindow::manageLinks() { #ifndef __android__ SettingsDialog settings(joystick, this, SettingsDialog::ShowCommLinks); #else SettingsDialog settings(this, SettingsDialog::ShowCommLinks); #endif settings.exec(); } /// @brief Saves the last used connection void MainWindow::saveLastUsedConnection(const QString connection) { QSettings settings; QString key(MAIN_SETTINGS_GROUP); key += "/LAST_CONNECTION"; settings.setValue(key, connection); } /// @brief Restore (and connects) the last used connection (if any) void MainWindow::restoreLastUsedConnection() { // TODO This should check and see of the port/whatever is present // first. That is, if the last connection was to a PX4 on some serial // port, it should check and see if the port is present before making // the connection. QSettings settings; QString key(MAIN_SETTINGS_GROUP); key += "/LAST_CONNECTION"; if(settings.contains(key)) { QString connection = settings.value(key).toString(); // Create a link for it LinkManager::instance()->createConnectedLink(connection); } } void MainWindow::_linkStateChange(LinkInterface*) { emit repaintCanvas(); } void MainWindow::setPixelSizeFactor(double size) { if(size < 0.1) { size = 0.1; } _pixelFactor = size; emit pixelSizeChanged(); } void MainWindow::setFontSizeFactor(double size) { if(size < 0.1) { size = 0.1; } _fontFactor = size; emit fontSizeChanged(); } #ifdef QGC_MOUSE_ENABLED_LINUX bool MainWindow::x11Event(XEvent *event) { emit x11EventOccured(event); return false; } #endif // QGC_MOUSE_ENABLED_LINUX #ifdef UNITTEST_BUILD void MainWindow::_showQmlTestWidget(void) { new QmlTestWidget(); } #endif