/**************************************************************************** * * (c) 2009-2020 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ #include "MissionCommandUIInfo.h" #include "MissionController.h" #include "MultiVehicleManager.h" #include "MissionManager.h" #include "FlightPathSegment.h" #include "FirmwarePlugin.h" #include "QGCApplication.h" #include "SimpleMissionItem.h" #include "SurveyComplexItem.h" #include "FixedWingLandingComplexItem.h" #include "VTOLLandingComplexItem.h" #include "StructureScanComplexItem.h" #include "Wima/CircularSurvey.h" #include "CorridorScanComplexItem.h" #include "JsonHelper.h" #include "ParameterManager.h" #include "QGroundControlQmlGlobal.h" #include "SettingsManager.h" #include "AppSettings.h" #include "MissionSettingsItem.h" #include "QGCQGeoCoordinate.h" #include "PlanMasterController.h" #include "KMLPlanDomDocument.h" #include "QGCCorePlugin.h" #include "TakeoffMissionItem.h" #include "PlanViewSettings.h" #include "src/Wima/CircularSurvey.h" #define UPDATE_TIMEOUT 5000 ///< How often we check for bounding box changes QGC_LOGGING_CATEGORY(MissionControllerLog, "MissionControllerLog") const char* MissionController::_settingsGroup = "MissionController"; const char* MissionController::_jsonFileTypeValue = "Mission"; const char* MissionController::_jsonItemsKey = "items"; const char* MissionController::_jsonPlannedHomePositionKey = "plannedHomePosition"; const char* MissionController::_jsonFirmwareTypeKey = "firmwareType"; const char* MissionController::_jsonVehicleTypeKey = "vehicleType"; const char* MissionController::_jsonCruiseSpeedKey = "cruiseSpeed"; const char* MissionController::_jsonHoverSpeedKey = "hoverSpeed"; const char* MissionController::_jsonParamsKey = "params"; const char* MissionController::_jsonGlobalPlanAltitudeModeKey = "globalPlanAltitudeMode"; // Deprecated V1 format keys const char* MissionController::_jsonComplexItemsKey = "complexItems"; const char* MissionController::_jsonMavAutopilotKey = "MAV_AUTOPILOT"; const int MissionController::_missionFileVersion = 2; MissionController::MissionController(PlanMasterController* masterController, QObject *parent) : PlanElementController (masterController, parent) , _controllerVehicle (masterController->controllerVehicle()) , _managerVehicle (masterController->managerVehicle()) , _missionManager (masterController->managerVehicle()->missionManager()) , _visualItems (new QmlObjectListModel(this)) , _planViewSettings (qgcApp()->toolbox()->settingsManager()->planViewSettings()) , _appSettings (qgcApp()->toolbox()->settingsManager()->appSettings()) { _resetMissionFlightStatus(); _updateTimer.setSingleShot(true); connect(&_updateTimer, &QTimer::timeout, this, &MissionController::_updateTimeout); connect(_planViewSettings->takeoffItemNotRequired(), &Fact::rawValueChanged, this, &MissionController::_takeoffItemNotRequiredChanged); connect(this, &MissionController::missionDistanceChanged, this, &MissionController::recalcTerrainProfile); // The follow is used to compress multiple recalc calls in a row to into a single call. connect(this, &MissionController::_recalcMissionFlightStatusSignal, this, &MissionController::_recalcMissionFlightStatus, Qt::QueuedConnection); connect(this, &MissionController::_recalcFlightPathSegmentsSignal, this, &MissionController::_recalcFlightPathSegments, Qt::QueuedConnection); qgcApp()->addCompressedSignal(QMetaMethod::fromSignal(&MissionController::_recalcMissionFlightStatusSignal)); qgcApp()->addCompressedSignal(QMetaMethod::fromSignal(&MissionController::_recalcFlightPathSegmentsSignal)); qgcApp()->addCompressedSignal(QMetaMethod::fromSignal(&MissionController::recalcTerrainProfile)); } MissionController::~MissionController() { } void MissionController::_resetMissionFlightStatus(void) { _missionFlightStatus.totalDistance = 0.0; _missionFlightStatus.maxTelemetryDistance = 0.0; _missionFlightStatus.totalTime = 0.0; _missionFlightStatus.hoverTime = 0.0; _missionFlightStatus.cruiseTime = 0.0; _missionFlightStatus.hoverDistance = 0.0; _missionFlightStatus.cruiseDistance = 0.0; _missionFlightStatus.cruiseSpeed = _controllerVehicle->defaultCruiseSpeed(); _missionFlightStatus.hoverSpeed = _controllerVehicle->defaultHoverSpeed(); _missionFlightStatus.vehicleSpeed = _controllerVehicle->multiRotor() || _managerVehicle->vtol() ? _missionFlightStatus.hoverSpeed : _missionFlightStatus.cruiseSpeed; _missionFlightStatus.vehicleYaw = qQNaN(); _missionFlightStatus.gimbalYaw = qQNaN(); _missionFlightStatus.gimbalPitch = qQNaN(); _missionFlightStatus.mAhBattery = 0; _missionFlightStatus.hoverAmps = 0; _missionFlightStatus.cruiseAmps = 0; _missionFlightStatus.ampMinutesAvailable = 0; _missionFlightStatus.hoverAmpsTotal = 0; _missionFlightStatus.cruiseAmpsTotal = 0; _missionFlightStatus.batteryChangePoint = -1; _missionFlightStatus.batteriesRequired = -1; _missionFlightStatus.vtolMode = _missionContainsVTOLTakeoff ? QGCMAVLink::VehicleClassMultiRotor : QGCMAVLink::VehicleClassFixedWing; _controllerVehicle->firmwarePlugin()->batteryConsumptionData(_controllerVehicle, _missionFlightStatus.mAhBattery, _missionFlightStatus.hoverAmps, _missionFlightStatus.cruiseAmps); if (_missionFlightStatus.mAhBattery != 0) { double batteryPercentRemainingAnnounce = qgcApp()->toolbox()->settingsManager()->appSettings()->batteryPercentRemainingAnnounce()->rawValue().toDouble(); _missionFlightStatus.ampMinutesAvailable = static_cast(_missionFlightStatus.mAhBattery) / 1000.0 * 60.0 * ((100.0 - batteryPercentRemainingAnnounce) / 100.0); } emit missionDistanceChanged(_missionFlightStatus.totalDistance); emit missionTimeChanged(); emit missionHoverDistanceChanged(_missionFlightStatus.hoverDistance); emit missionCruiseDistanceChanged(_missionFlightStatus.cruiseDistance); emit missionHoverTimeChanged(); emit missionCruiseTimeChanged(); emit missionMaxTelemetryChanged(_missionFlightStatus.maxTelemetryDistance); emit batteryChangePointChanged(_missionFlightStatus.batteryChangePoint); emit batteriesRequiredChanged(_missionFlightStatus.batteriesRequired); } void MissionController::start(bool flyView) { qCDebug(MissionControllerLog) << "start flyView" << flyView; _managerVehicleChanged(_managerVehicle); connect(_masterController, &PlanMasterController::managerVehicleChanged, this, &MissionController::_managerVehicleChanged); PlanElementController::start(flyView); _init(); } void MissionController::_init(void) { // We start with an empty mission _addMissionSettings(_visualItems); _initAllVisualItems(); } // Called when new mission items have completed downloading from Vehicle void MissionController::_newMissionItemsAvailableFromVehicle(bool removeAllRequested) { qCDebug(MissionControllerLog) << "_newMissionItemsAvailableFromVehicle flyView:count" << _flyView << _missionManager->missionItems().count(); // Fly view always reloads on _loadComplete // Plan view only reloads if: // - Load was specifically requested // - There is no current Plan if (_flyView || removeAllRequested || _itemsRequested || isEmpty()) { // Fly Mode (accept if): // - Always accepts new items from the vehicle so Fly view is kept up to date // Edit Mode (accept if): // - Remove all was requested from Fly view (clear mission on flight end) // - A load from vehicle was manually requested // - The initial automatic load from a vehicle completed and the current editor is empty _deinitAllVisualItems(); _visualItems->deleteLater(); _visualItems = nullptr; _settingsItem = nullptr; _takeoffMissionItem = nullptr; _updateContainsItems(); // This will clear containsItems which will be set again below. This will re-pop Start Mission confirmation. QmlObjectListModel* newControllerMissionItems = new QmlObjectListModel(this); const QList& newMissionItems = _missionManager->missionItems(); qCDebug(MissionControllerLog) << "loading from vehicle: count"<< newMissionItems.count(); _missionItemCount = newMissionItems.count(); emit missionItemCountChanged(_missionItemCount); MissionSettingsItem* settingsItem = _addMissionSettings(newControllerMissionItems); int i=0; if (_controllerVehicle->firmwarePlugin()->sendHomePositionToVehicle() && newMissionItems.count() != 0) { // First item is fake home position MissionItem* fakeHomeItem = newMissionItems[0]; if (fakeHomeItem->coordinate().latitude() != 0 || fakeHomeItem->coordinate().longitude() != 0) { settingsItem->setInitialHomePosition(fakeHomeItem->coordinate()); } i = 1; } for (; i < newMissionItems.count(); i++) { const MissionItem* missionItem = newMissionItems[i]; SimpleMissionItem* simpleItem = new SimpleMissionItem(_masterController, _flyView, *missionItem, this); if (TakeoffMissionItem::isTakeoffCommand(static_cast(simpleItem->command()))) { // This needs to be a TakeoffMissionItem _takeoffMissionItem = new TakeoffMissionItem(*missionItem, _masterController, _flyView, settingsItem, this); simpleItem->deleteLater(); simpleItem = _takeoffMissionItem; } newControllerMissionItems->append(simpleItem); } _visualItems = newControllerMissionItems; _settingsItem = settingsItem; MissionController::_scanForAdditionalSettings(_visualItems, _masterController); _initAllVisualItems(); _updateContainsItems(); emit newItemsFromVehicle(); } _itemsRequested = false; } void MissionController::loadFromVehicle(void) { if (_masterController->offline()) { qCWarning(MissionControllerLog) << "MissionControllerLog::loadFromVehicle called while offline"; } else if (syncInProgress()) { qCWarning(MissionControllerLog) << "MissionControllerLog::loadFromVehicle called while syncInProgress"; } else { _itemsRequested = true; _managerVehicle->missionManager()->loadFromVehicle(); } } void MissionController::sendToVehicle(void) { if (_masterController->offline()) { qCWarning(MissionControllerLog) << "MissionControllerLog::sendToVehicle called while offline"; } else if (syncInProgress()) { qCWarning(MissionControllerLog) << "MissionControllerLog::sendToVehicle called while syncInProgress"; } else { qCDebug(MissionControllerLog) << "MissionControllerLog::sendToVehicle"; if (_visualItems->count() == 1) { // This prevents us from sending a possibly bogus home position to the vehicle QmlObjectListModel emptyModel; sendItemsToVehicle(_managerVehicle, &emptyModel); } else { sendItemsToVehicle(_managerVehicle, _visualItems); } setDirty(false); } } /// Converts from visual items to MissionItems /// @param missionItemParent QObject parent for newly allocated MissionItems /// @return true: Mission end action was added to end of list bool MissionController::_convertToMissionItems(QmlObjectListModel* visualMissionItems, QList& rgMissionItems, QObject* missionItemParent) { if (visualMissionItems->count() == 0) { return false; } bool endActionSet = false; int lastSeqNum = 0; for (int i=0; icount(); i++) { VisualMissionItem* visualItem = qobject_cast(visualMissionItems->get(i)); lastSeqNum = visualItem->lastSequenceNumber(); visualItem->appendMissionItems(rgMissionItems, missionItemParent); qCDebug(MissionControllerLog) << "_convertToMissionItems seqNum:lastSeqNum:command" << visualItem->sequenceNumber() << lastSeqNum << visualItem->commandName(); } // Mission settings has a special case for end mission action MissionSettingsItem* settingsItem = visualMissionItems->value(0); if (settingsItem) { endActionSet = settingsItem->addMissionEndAction(rgMissionItems, lastSeqNum + 1, missionItemParent); } return endActionSet; } void MissionController::addMissionToKML(KMLPlanDomDocument& planKML) { QObject* deleteParent = new QObject(); QList rgMissionItems; _convertToMissionItems(_visualItems, rgMissionItems, deleteParent); planKML.addMission(_controllerVehicle, _visualItems, rgMissionItems); deleteParent->deleteLater(); } void MissionController::sendItemsToVehicle(Vehicle* vehicle, QmlObjectListModel* visualMissionItems) { if (vehicle) { QList rgMissionItems; _convertToMissionItems(visualMissionItems, rgMissionItems, vehicle); // PlanManager takes control of MissionItems so no need to delete vehicle->missionManager()->writeMissionItems(rgMissionItems); } } int MissionController::_nextSequenceNumber(void) { if (_visualItems->count() == 0) { qWarning() << "Internal error: Empty visual item list"; return 0; } else { VisualMissionItem* lastItem = _visualItems->value(_visualItems->count() - 1); return lastItem->lastSequenceNumber() + 1; } } VisualMissionItem* MissionController::_insertSimpleMissionItemWorker(QGeoCoordinate coordinate, MAV_CMD command, int visualItemIndex, bool makeCurrentItem) { int sequenceNumber = _nextSequenceNumber(); SimpleMissionItem * newItem = new SimpleMissionItem(_masterController, _flyView, false /* forLoad */, this); newItem->setSequenceNumber(sequenceNumber); newItem->setCoordinate(coordinate); newItem->setCommand(command); _initVisualItem(newItem); if (newItem->specifiesAltitude()) { if (!qgcApp()->toolbox()->missionCommandTree()->isLandCommand(command)) { double prevAltitude; int prevAltitudeMode; if (_findPreviousAltitude(visualItemIndex, &prevAltitude, &prevAltitudeMode)) { newItem->altitude()->setRawValue(prevAltitude); if (globalAltitudeMode() == QGroundControlQmlGlobal::AltitudeModeNone) { // We are in mixed altitude modes, so copy from previous. Otherwise alt mode will be set from global setting. newItem->setAltitudeMode(static_cast(prevAltitudeMode)); } } } } if (visualItemIndex == -1) { _visualItems->append(newItem); } else { _visualItems->insert(visualItemIndex, newItem); } // We send the click coordinate through here to be able to set the planned home position from the user click location if needed _recalcAllWithCoordinate(coordinate); if (makeCurrentItem) { setCurrentPlanViewSeqNum(newItem->sequenceNumber(), true); } _firstItemAdded(); return newItem; } VisualMissionItem* MissionController::insertSimpleMissionItem(QGeoCoordinate coordinate, int visualItemIndex, bool makeCurrentItem) { return _insertSimpleMissionItemWorker(coordinate, MAV_CMD_NAV_WAYPOINT, visualItemIndex, makeCurrentItem); } VisualMissionItem* MissionController::insertTakeoffItem(QGeoCoordinate /*coordinate*/, int visualItemIndex, bool makeCurrentItem) { int sequenceNumber = _nextSequenceNumber(); _takeoffMissionItem = new TakeoffMissionItem(_controllerVehicle->vtol() ? MAV_CMD_NAV_VTOL_TAKEOFF : MAV_CMD_NAV_TAKEOFF, _masterController, _flyView, _settingsItem, this); _takeoffMissionItem->setSequenceNumber(sequenceNumber); _initVisualItem(_takeoffMissionItem); if (_takeoffMissionItem->specifiesAltitude()) { double prevAltitude; int prevAltitudeMode; if (_findPreviousAltitude(visualItemIndex, &prevAltitude, &prevAltitudeMode)) { _takeoffMissionItem->altitude()->setRawValue(prevAltitude); _takeoffMissionItem->setAltitudeMode(static_cast(prevAltitudeMode)); } } if (visualItemIndex == -1) { _visualItems->append(_takeoffMissionItem); } else { _visualItems->insert(visualItemIndex, _takeoffMissionItem); } _recalcAll(); if (makeCurrentItem) { setCurrentPlanViewSeqNum(_takeoffMissionItem->sequenceNumber(), true); } _firstItemAdded(); return _takeoffMissionItem; } VisualMissionItem* MissionController::insertLandItem(QGeoCoordinate coordinate, int visualItemIndex, bool makeCurrentItem) { if (_controllerVehicle->fixedWing()) { FixedWingLandingComplexItem* fwLanding = qobject_cast(insertComplexMissionItem(FixedWingLandingComplexItem::name, coordinate, visualItemIndex, makeCurrentItem)); return fwLanding; } else if (_controllerVehicle->vtol()) { VTOLLandingComplexItem* vtolLanding = qobject_cast(insertComplexMissionItem(VTOLLandingComplexItem::name, coordinate, visualItemIndex, makeCurrentItem)); return vtolLanding; } else { return _insertSimpleMissionItemWorker(coordinate, _controllerVehicle->vtol() ? MAV_CMD_NAV_VTOL_LAND : MAV_CMD_NAV_RETURN_TO_LAUNCH, visualItemIndex, makeCurrentItem); } } VisualMissionItem* MissionController::insertROIMissionItem(QGeoCoordinate coordinate, int visualItemIndex, bool makeCurrentItem) { SimpleMissionItem* simpleItem = qobject_cast(_insertSimpleMissionItemWorker(coordinate, MAV_CMD_DO_SET_ROI_LOCATION, visualItemIndex, makeCurrentItem)); if (!_controllerVehicle->firmwarePlugin()->supportedMissionCommands(QGCMAVLink::VehicleClassGeneric).contains(MAV_CMD_DO_SET_ROI_LOCATION)) { simpleItem->setCommand(MAV_CMD_DO_SET_ROI) ; simpleItem->missionItem().setParam1(MAV_ROI_LOCATION); } _recalcROISpecialVisuals(); return simpleItem; } VisualMissionItem* MissionController::insertCancelROIMissionItem(int visualItemIndex, bool makeCurrentItem) { SimpleMissionItem* simpleItem = qobject_cast(_insertSimpleMissionItemWorker(QGeoCoordinate(), MAV_CMD_DO_SET_ROI_NONE, visualItemIndex, makeCurrentItem)); if (!_controllerVehicle->firmwarePlugin()->supportedMissionCommands(QGCMAVLink::VehicleClassGeneric).contains(MAV_CMD_DO_SET_ROI_NONE)) { simpleItem->setCommand(MAV_CMD_DO_SET_ROI) ; simpleItem->missionItem().setParam1(MAV_ROI_NONE); } _recalcROISpecialVisuals(); return simpleItem; } VisualMissionItem* MissionController::insertComplexMissionItem(QString itemName, QGeoCoordinate mapCenterCoordinate, int visualItemIndex, bool makeCurrentItem) { ComplexMissionItem* newItem = nullptr; if (itemName == SurveyComplexItem::name) { newItem = new SurveyComplexItem(_masterController, _flyView, QString() /* kmlFile */, _visualItems /* parent */); newItem->setCoordinate(mapCenterCoordinate); } else if (itemName == FixedWingLandingComplexItem::name) { newItem = new FixedWingLandingComplexItem(_masterController, _flyView, _visualItems /* parent */); } else if (itemName == VTOLLandingComplexItem::name) { newItem = new VTOLLandingComplexItem(_masterController, _flyView, _visualItems /* parent */); } else if (itemName == StructureScanComplexItem::name) { newItem = new StructureScanComplexItem(_masterController, _flyView, QString() /* kmlFile */, _visualItems /* parent */); } else if (itemName == CorridorScanComplexItem::name) { newItem = new CorridorScanComplexItem(_masterController, _flyView, QString() /* kmlFile */, _visualItems /* parent */); } else if (itemName == CircularSurvey::name) { newItem = new CircularSurvey(_masterController, _flyView, QString() /* kmlFile */, _visualItems /* parent */); } else { qWarning() << "Internal error: Unknown complex item:" << itemName; return nullptr; } _insertComplexMissionItemWorker(mapCenterCoordinate, newItem, visualItemIndex, makeCurrentItem); return newItem; } VisualMissionItem* MissionController::insertComplexMissionItemFromKMLOrSHP(QString itemName, QString file, int visualItemIndex, bool makeCurrentItem) { ComplexMissionItem* newItem = nullptr; if (itemName == SurveyComplexItem::name) { newItem = new SurveyComplexItem(_masterController, _flyView, file, _visualItems); } else if (itemName == StructureScanComplexItem::name) { newItem = new StructureScanComplexItem(_masterController, _flyView, file, _visualItems); } else if (itemName == CorridorScanComplexItem::name) { newItem = new CorridorScanComplexItem(_masterController, _flyView, file, _visualItems); } else { qWarning() << "Internal error: Unknown complex item:" << itemName; return nullptr; } _insertComplexMissionItemWorker(QGeoCoordinate(), newItem, visualItemIndex, makeCurrentItem); return newItem; } void MissionController::_insertComplexMissionItemWorker(const QGeoCoordinate& mapCenterCoordinate, ComplexMissionItem* complexItem, int visualItemIndex, bool makeCurrentItem) { int sequenceNumber = _nextSequenceNumber(); bool surveyStyleItem = qobject_cast(complexItem) || qobject_cast(complexItem) || qobject_cast(complexItem) || qobject_cast(complexItem) ; if (surveyStyleItem) { bool rollSupported = false; bool pitchSupported = false; bool yawSupported = false; // If the vehicle is known to have a gimbal then we automatically point the gimbal straight down if not already set MissionSettingsItem* settingsItem = _visualItems->value(0); CameraSection* cameraSection = settingsItem->cameraSection(); // Set camera to photo mode (leave alone if user already specified) if (cameraSection->cameraModeSupported() && !cameraSection->specifyCameraMode()) { cameraSection->setSpecifyCameraMode(true); cameraSection->cameraMode()->setRawValue(CAMERA_MODE_IMAGE_SURVEY); } // Point gimbal straight down if (_controllerVehicle->firmwarePlugin()->hasGimbal(_controllerVehicle, rollSupported, pitchSupported, yawSupported) && pitchSupported) { // If the user already specified a gimbal angle leave it alone if (!cameraSection->specifyGimbal()) { cameraSection->setSpecifyGimbal(true); cameraSection->gimbalPitch()->setRawValue(-90.0); } } } complexItem->setSequenceNumber(sequenceNumber); complexItem->setWizardMode(true); _initVisualItem(complexItem); if (visualItemIndex == -1) { _visualItems->append(complexItem); } else { _visualItems->insert(visualItemIndex, complexItem); } //-- Keep track of bounding box changes in complex items if(!complexItem->isSimpleItem()) { connect(complexItem, &ComplexMissionItem::boundingCubeChanged, this, &MissionController::_complexBoundingBoxChanged); } _recalcAllWithCoordinate(mapCenterCoordinate); if (makeCurrentItem) { setCurrentPlanViewSeqNum(complexItem->sequenceNumber(), true); } _firstItemAdded(); } void MissionController::removeVisualItem(int viIndex) { if (viIndex <= 0 || viIndex >= _visualItems->count()) { qWarning() << "MissionController::removeVisualItem called with bad index - count:index" << _visualItems->count() << viIndex; return; } bool removeSurveyStyle = _visualItems->value(viIndex) || _visualItems->value(viIndex) || _visualItems->value(viIndex); VisualMissionItem* item = qobject_cast(_visualItems->removeAt(viIndex)); if (item == _takeoffMissionItem) { _takeoffMissionItem = nullptr; } _deinitVisualItem(item); item->deleteLater(); if (removeSurveyStyle) { // Determine if the mission still has another survey style item in it bool foundSurvey = false; for (int i=1; i<_visualItems->count(); i++) { if (_visualItems->value(i) || _visualItems->value(i) || _visualItems->value(i) ) { foundSurvey = true; break; } } // If there is no longer a survey item in the mission remove added commands if (!foundSurvey) { bool rollSupported = false; bool pitchSupported = false; bool yawSupported = false; CameraSection* cameraSection = _settingsItem->cameraSection(); if (_controllerVehicle->firmwarePlugin()->hasGimbal(_controllerVehicle, rollSupported, pitchSupported, yawSupported) && pitchSupported) { if (cameraSection->specifyGimbal() && cameraSection->gimbalPitch()->rawValue().toDouble() == -90.0 && cameraSection->gimbalYaw()->rawValue().toDouble() == 0.0) { cameraSection->setSpecifyGimbal(false); } } if (cameraSection->cameraModeSupported() && cameraSection->specifyCameraMode() && cameraSection->cameraMode()->rawValue().toInt() == 0) { cameraSection->setSpecifyCameraMode(false); } } } _recalcAll(); // Adjust current item int newVIIndex; if (viIndex >= _visualItems->count()) { newVIIndex = _visualItems->count() - 1; } else { newVIIndex = viIndex; } setCurrentPlanViewSeqNum(_visualItems->value(newVIIndex)->sequenceNumber(), true); setDirty(true); if (_visualItems->count() == 1) { _allItemsRemoved(); } } void MissionController::removeAll(void) { if (_visualItems) { _deinitAllVisualItems(); _visualItems->clearAndDeleteContents(); _visualItems->deleteLater(); _settingsItem = nullptr; _takeoffMissionItem = nullptr; _visualItems = new QmlObjectListModel(this); _addMissionSettings(_visualItems); _initAllVisualItems(); setDirty(true); _resetMissionFlightStatus(); _allItemsRemoved(); } } bool MissionController::_loadJsonMissionFileV1(const QJsonObject& json, QmlObjectListModel* visualItems, QString& errorString) { // Validate root object keys QList rootKeyInfoList = { { _jsonPlannedHomePositionKey, QJsonValue::Object, true }, { _jsonItemsKey, QJsonValue::Array, true }, { _jsonMavAutopilotKey, QJsonValue::Double, true }, { _jsonComplexItemsKey, QJsonValue::Array, true }, }; if (!JsonHelper::validateKeys(json, rootKeyInfoList, errorString)) { return false; } setGlobalAltitudeMode(QGroundControlQmlGlobal::AltitudeModeNone); // Mixed mode // Read complex items QList surveyItems; QJsonArray complexArray(json[_jsonComplexItemsKey].toArray()); qCDebug(MissionControllerLog) << "Json load: complex item count" << complexArray.count(); for (int i=0; iload(itemObject, itemObject["id"].toInt(), errorString)) { surveyItems.append(item); } else { return false; } } // Read simple items, interspersing complex items into the full list int nextSimpleItemIndex= 0; int nextComplexItemIndex= 0; int nextSequenceNumber = 1; // Start with 1 since home is in 0 QJsonArray itemArray(json[_jsonItemsKey].toArray()); MissionSettingsItem* settingsItem = _addMissionSettings(visualItems); if (json.contains(_jsonPlannedHomePositionKey)) { SimpleMissionItem* item = new SimpleMissionItem(_masterController, _flyView, true /* forLoad */, visualItems); if (item->load(json[_jsonPlannedHomePositionKey].toObject(), 0, errorString)) { settingsItem->setInitialHomePositionFromUser(item->coordinate()); item->deleteLater(); } else { return false; } } qCDebug(MissionControllerLog) << "Json load: simple item loop start simpleItemCount:ComplexItemCount" << itemArray.count() << surveyItems.count(); do { qCDebug(MissionControllerLog) << "Json load: simple item loop nextSimpleItemIndex:nextComplexItemIndex:nextSequenceNumber" << nextSimpleItemIndex << nextComplexItemIndex << nextSequenceNumber; // If there is a complex item that should be next in sequence add it in if (nextComplexItemIndex < surveyItems.count()) { SurveyComplexItem* complexItem = surveyItems[nextComplexItemIndex]; if (complexItem->sequenceNumber() == nextSequenceNumber) { qCDebug(MissionControllerLog) << "Json load: injecting complex item expectedSequence:actualSequence:" << nextSequenceNumber << complexItem->sequenceNumber(); visualItems->append(complexItem); nextSequenceNumber = complexItem->lastSequenceNumber() + 1; nextComplexItemIndex++; continue; } } // Add the next available simple item if (nextSimpleItemIndex < itemArray.count()) { const QJsonValue& itemValue = itemArray[nextSimpleItemIndex++]; if (!itemValue.isObject()) { errorString = QStringLiteral("Mission item is not an object"); return false; } const QJsonObject itemObject = itemValue.toObject(); SimpleMissionItem* item = new SimpleMissionItem(_masterController, _flyView, true /* forLoad */, visualItems); if (item->load(itemObject, itemObject["id"].toInt(), errorString)) { if (TakeoffMissionItem::isTakeoffCommand(item->mavCommand())) { // This needs to be a TakeoffMissionItem TakeoffMissionItem* takeoffItem = new TakeoffMissionItem(_masterController, _flyView, settingsItem, true /* forLoad */, visualItems); takeoffItem->load(itemObject, itemObject["id"].toInt(), errorString); item->deleteLater(); item = takeoffItem; } qCDebug(MissionControllerLog) << "Json load: adding simple item expectedSequence:actualSequence" << nextSequenceNumber << item->sequenceNumber(); nextSequenceNumber = item->lastSequenceNumber() + 1; visualItems->append(item); } else { return false; } } } while (nextSimpleItemIndex < itemArray.count() || nextComplexItemIndex < surveyItems.count()); return true; } bool MissionController::_loadJsonMissionFileV2(const QJsonObject& json, QmlObjectListModel* visualItems, QString& errorString) { // Validate root object keys QList rootKeyInfoList = { { _jsonPlannedHomePositionKey, QJsonValue::Array, true }, { _jsonItemsKey, QJsonValue::Array, true }, { _jsonFirmwareTypeKey, QJsonValue::Double, true }, { _jsonVehicleTypeKey, QJsonValue::Double, false }, { _jsonCruiseSpeedKey, QJsonValue::Double, false }, { _jsonHoverSpeedKey, QJsonValue::Double, false }, { _jsonGlobalPlanAltitudeModeKey, QJsonValue::Double, false }, }; if (!JsonHelper::validateKeys(json, rootKeyInfoList, errorString)) { return false; } setGlobalAltitudeMode(QGroundControlQmlGlobal::AltitudeModeNone); // Mixed mode qCDebug(MissionControllerLog) << "MissionController::_loadJsonMissionFileV2 itemCount:" << json[_jsonItemsKey].toArray().count(); AppSettings* appSettings = qgcApp()->toolbox()->settingsManager()->appSettings(); // Get the firmware/vehicle type from the plan file MAV_AUTOPILOT planFileFirmwareType = static_cast(json[_jsonFirmwareTypeKey].toInt()); MAV_TYPE planFileVehicleType = static_cast (QGCMAVLink::vehicleClassToMavType(appSettings->offlineEditingVehicleClass()->rawValue().toInt())); if (json.contains(_jsonVehicleTypeKey)) { planFileVehicleType = static_cast(json[_jsonVehicleTypeKey].toInt()); } // Update firmware/vehicle offline settings if we aren't connect to a vehicle if (_masterController->offline()) { appSettings->offlineEditingFirmwareClass()->setRawValue(QGCMAVLink::firmwareClass(static_cast(json[_jsonFirmwareTypeKey].toInt()))); if (json.contains(_jsonVehicleTypeKey)) { appSettings->offlineEditingVehicleClass()->setRawValue(QGCMAVLink::vehicleClass(planFileVehicleType)); } } // The controller vehicle always tracks the Plan file firmware/vehicle types so update it _controllerVehicle->stopTrackingFirmwareVehicleTypeChanges(); _controllerVehicle->_offlineFirmwareTypeSettingChanged(planFileFirmwareType); _controllerVehicle->_offlineVehicleTypeSettingChanged(planFileVehicleType); if (json.contains(_jsonCruiseSpeedKey)) { appSettings->offlineEditingCruiseSpeed()->setRawValue(json[_jsonCruiseSpeedKey].toDouble()); } if (json.contains(_jsonHoverSpeedKey)) { appSettings->offlineEditingHoverSpeed()->setRawValue(json[_jsonHoverSpeedKey].toDouble()); } if (json.contains(_jsonGlobalPlanAltitudeModeKey)) { setGlobalAltitudeMode(json[_jsonGlobalPlanAltitudeModeKey].toVariant().value()); } QGeoCoordinate homeCoordinate; if (!JsonHelper::loadGeoCoordinate(json[_jsonPlannedHomePositionKey], true /* altitudeRequired */, homeCoordinate, errorString)) { return false; } MissionSettingsItem* settingsItem = new MissionSettingsItem(_masterController, _flyView, visualItems); settingsItem->setCoordinate(homeCoordinate); visualItems->insert(0, settingsItem); qCDebug(MissionControllerLog) << "plannedHomePosition" << homeCoordinate; // Read mission items int nextSequenceNumber = 1; // Start with 1 since home is in 0 const QJsonArray rgMissionItems(json[_jsonItemsKey].toArray()); for (int i=0; i itemKeyInfoList = { { VisualMissionItem::jsonTypeKey, QJsonValue::String, true }, }; if (!JsonHelper::validateKeys(itemObject, itemKeyInfoList, errorString)) { return false; } QString itemType = itemObject[VisualMissionItem::jsonTypeKey].toString(); if (itemType == VisualMissionItem::jsonTypeSimpleItemValue) { SimpleMissionItem* simpleItem = new SimpleMissionItem(_masterController, _flyView, true /* forLoad */, visualItems); if (simpleItem->load(itemObject, nextSequenceNumber, errorString)) { if (TakeoffMissionItem::isTakeoffCommand(static_cast(simpleItem->command()))) { // This needs to be a TakeoffMissionItem TakeoffMissionItem* takeoffItem = new TakeoffMissionItem(_masterController, _flyView, settingsItem, true /* forLoad */, this); takeoffItem->load(itemObject, nextSequenceNumber, errorString); simpleItem->deleteLater(); simpleItem = takeoffItem; } qCDebug(MissionControllerLog) << "Loading simple item: nextSequenceNumber:command" << nextSequenceNumber << simpleItem->command(); nextSequenceNumber = simpleItem->lastSequenceNumber() + 1; visualItems->append(simpleItem); } else { return false; } } else if (itemType == VisualMissionItem::jsonTypeComplexItemValue) { QList complexItemKeyInfoList = { { ComplexMissionItem::jsonComplexItemTypeKey, QJsonValue::String, true }, }; if (!JsonHelper::validateKeys(itemObject, complexItemKeyInfoList, errorString)) { return false; } QString complexItemType = itemObject[ComplexMissionItem::jsonComplexItemTypeKey].toString(); if (complexItemType == SurveyComplexItem::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading Survey: nextSequenceNumber" << nextSequenceNumber; SurveyComplexItem* surveyItem = new SurveyComplexItem(_masterController, _flyView, QString() /* kmlFile */, visualItems); if (!surveyItem->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = surveyItem->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "Survey load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(surveyItem); } else if (complexItemType == FixedWingLandingComplexItem::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading Fixed Wing Landing Pattern: nextSequenceNumber" << nextSequenceNumber; FixedWingLandingComplexItem* landingItem = new FixedWingLandingComplexItem(_masterController, _flyView, visualItems); if (!landingItem->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = landingItem->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "FW Landing Pattern load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(landingItem); } else if (complexItemType == VTOLLandingComplexItem::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading VTOL Landing Pattern: nextSequenceNumber" << nextSequenceNumber; VTOLLandingComplexItem* landingItem = new VTOLLandingComplexItem(_masterController, _flyView, visualItems); if (!landingItem->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = landingItem->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "VTOL Landing Pattern load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(landingItem); } else if (complexItemType == StructureScanComplexItem::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading Structure Scan: nextSequenceNumber" << nextSequenceNumber; StructureScanComplexItem* structureItem = new StructureScanComplexItem(_masterController, _flyView, QString() /* kmlFile */, visualItems); if (!structureItem->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = structureItem->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "Structure Scan load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(structureItem); } else if (complexItemType == CorridorScanComplexItem::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading Corridor Scan: nextSequenceNumber" << nextSequenceNumber; CorridorScanComplexItem* corridorItem = new CorridorScanComplexItem(_masterController, _flyView, QString() /* kmlFile */, visualItems); if (!corridorItem->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = corridorItem->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "Corridor Scan load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(corridorItem); } else if (complexItemType == CircularSurvey::jsonComplexItemTypeValue) { qCDebug(MissionControllerLog) << "Loading Circular Survey: nextSequenceNumber" << nextSequenceNumber; CircularSurvey* survey = new CircularSurvey(_masterController, _flyView, QString() /* kmlFile */, visualItems); if (!survey->load(itemObject, nextSequenceNumber++, errorString)) { return false; } nextSequenceNumber = survey->lastSequenceNumber() + 1; qCDebug(MissionControllerLog) << "Ciruclar Survey load complete: nextSequenceNumber" << nextSequenceNumber; visualItems->append(survey); } else { errorString = tr("Unsupported complex item type: %1").arg(complexItemType); } } else { errorString = tr("Unknown item type: %1").arg(itemType); return false; } } // Fix up the DO_JUMP commands jump sequence number by finding the item with the matching doJumpId for (int i=0; icount(); i++) { if (visualItems->value(i)->isSimpleItem()) { SimpleMissionItem* doJumpItem = visualItems->value(i); if (doJumpItem->command() == MAV_CMD_DO_JUMP) { bool found = false; int findDoJumpId = static_cast(doJumpItem->missionItem().param1()); for (int j=0; jcount(); j++) { if (visualItems->value(j)->isSimpleItem()) { SimpleMissionItem* targetItem = visualItems->value(j); if (targetItem->missionItem().doJumpId() == findDoJumpId) { doJumpItem->missionItem().setParam1(targetItem->sequenceNumber()); found = true; break; } } } if (!found) { errorString = tr("Could not find doJumpId: %1").arg(findDoJumpId); return false; } } } } return true; } bool MissionController::_loadItemsFromJson(const QJsonObject& json, QmlObjectListModel* visualItems, QString& errorString) { // V1 file format has no file type key and version key is string. Convert to new format. if (!json.contains(JsonHelper::jsonFileTypeKey)) { json[JsonHelper::jsonFileTypeKey] = _jsonFileTypeValue; } int fileVersion; JsonHelper::validateExternalQGCJsonFile(json, _jsonFileTypeValue, // expected file type 1, // minimum supported version 2, // maximum supported version fileVersion, errorString); if (fileVersion == 1) { return _loadJsonMissionFileV1(json, visualItems, errorString); } else { return _loadJsonMissionFileV2(json, visualItems, errorString); } } bool MissionController::_loadTextMissionFile(QTextStream& stream, QmlObjectListModel* visualItems, QString& errorString) { bool firstItem = true; bool plannedHomePositionInFile = false; QString firstLine = stream.readLine(); const QStringList& version = firstLine.split(" "); bool versionOk = false; if (version.size() == 3 && version[0] == "QGC" && version[1] == "WPL") { if (version[2] == "110") { // ArduPilot file, planned home position is already in position 0 versionOk = true; plannedHomePositionInFile = true; } else if (version[2] == "120") { // Old QGC file, no planned home position versionOk = true; plannedHomePositionInFile = false; } } if (versionOk) { MissionSettingsItem* settingsItem = _addMissionSettings(visualItems); while (!stream.atEnd()) { SimpleMissionItem* item = new SimpleMissionItem(_masterController, _flyView, true /* forLoad */, visualItems); if (item->load(stream)) { if (firstItem && plannedHomePositionInFile) { settingsItem->setInitialHomePositionFromUser(item->coordinate()); } else { if (TakeoffMissionItem::isTakeoffCommand(static_cast(item->command()))) { // This needs to be a TakeoffMissionItem TakeoffMissionItem* takeoffItem = new TakeoffMissionItem(_masterController, _flyView, settingsItem, true /* forLoad */, visualItems); takeoffItem->load(stream); item->deleteLater(); item = takeoffItem; } visualItems->append(item); } firstItem = false; } else { errorString = tr("The mission file is corrupted."); return false; } } } else { errorString = tr("The mission file is not compatible with this version of %1.").arg(qgcApp()->applicationName()); return false; } if (!plannedHomePositionInFile) { // Update sequence numbers in DO_JUMP commands to take into account added home position in index 0 for (int i=1; icount(); i++) { SimpleMissionItem* item = qobject_cast(visualItems->get(i)); if (item && item->command() == MAV_CMD_DO_JUMP) { item->missionItem().setParam1(static_cast(item->missionItem().param1()) + 1); } } } return true; } void MissionController::_initLoadedVisualItems(QmlObjectListModel* loadedVisualItems) { if (_visualItems) { _deinitAllVisualItems(); _visualItems->deleteLater(); } _settingsItem = nullptr; _takeoffMissionItem = nullptr; _visualItems = loadedVisualItems; if (_visualItems->count() == 0) { _addMissionSettings(_visualItems); } else { _settingsItem = _visualItems->value(0); } MissionController::_scanForAdditionalSettings(_visualItems, _masterController); _initAllVisualItems(); if (_visualItems->count() > 1) { _firstItemAdded(); } else { _allItemsRemoved(); } } bool MissionController::load(const QJsonObject& json, QString& errorString) { QString errorStr; QString errorMessage = tr("Mission: %1"); QmlObjectListModel* loadedVisualItems = new QmlObjectListModel(this); if (!_loadJsonMissionFileV2(json, loadedVisualItems, errorStr)) { errorString = errorMessage.arg(errorStr); return false; } _initLoadedVisualItems(loadedVisualItems); return true; } bool MissionController::loadJsonFile(QFile& file, QString& errorString) { QString errorStr; QString errorMessage = tr("Mission: %1"); QJsonDocument jsonDoc; QByteArray bytes = file.readAll(); if (!JsonHelper::isJsonFile(bytes, jsonDoc, errorStr)) { errorString = errorMessage.arg(errorStr); return false; } QJsonObject json = jsonDoc.object(); QmlObjectListModel* loadedVisualItems = new QmlObjectListModel(this); if (!_loadItemsFromJson(json, loadedVisualItems, errorStr)) { errorString = errorMessage.arg(errorStr); return false; } _initLoadedVisualItems(loadedVisualItems); return true; } bool MissionController::loadTextFile(QFile& file, QString& errorString) { QString errorStr; QString errorMessage = tr("Mission: %1"); QByteArray bytes = file.readAll(); QTextStream stream(bytes); setGlobalAltitudeMode(QGroundControlQmlGlobal::AltitudeModeNone); // Mixed mode QmlObjectListModel* loadedVisualItems = new QmlObjectListModel(this); if (!_loadTextMissionFile(stream, loadedVisualItems, errorStr)) { errorString = errorMessage.arg(errorStr); return false; } _initLoadedVisualItems(loadedVisualItems); return true; } int MissionController::readyForSaveState(void) const { for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* visualItem = qobject_cast(_visualItems->get(i)); if (visualItem->readyForSaveState() != VisualMissionItem::ReadyForSave) { return visualItem->readyForSaveState(); } } return VisualMissionItem::ReadyForSave; } void MissionController::save(QJsonObject& json) { json[JsonHelper::jsonVersionKey] = _missionFileVersion; // Mission settings MissionSettingsItem* settingsItem = _visualItems->value(0); if (!settingsItem) { qWarning() << "First item is not MissionSettingsItem"; return; } QJsonValue coordinateValue; JsonHelper::saveGeoCoordinate(settingsItem->coordinate(), true /* writeAltitude */, coordinateValue); json[_jsonPlannedHomePositionKey] = coordinateValue; json[_jsonFirmwareTypeKey] = _controllerVehicle->firmwareType(); json[_jsonVehicleTypeKey] = _controllerVehicle->vehicleType(); json[_jsonCruiseSpeedKey] = _controllerVehicle->defaultCruiseSpeed(); json[_jsonHoverSpeedKey] = _controllerVehicle->defaultHoverSpeed(); json[_jsonGlobalPlanAltitudeModeKey] = _globalAltMode; // Save the visual items QJsonArray rgJsonMissionItems; for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* visualItem = qobject_cast(_visualItems->get(i)); visualItem->save(rgJsonMissionItems); } // Mission settings has a special case for end mission action if (settingsItem) { QList rgMissionItems; if (_convertToMissionItems(_visualItems, rgMissionItems, this /* missionItemParent */)) { QJsonObject saveObject; MissionItem* missionItem = rgMissionItems[rgMissionItems.count() - 1]; missionItem->save(saveObject); rgJsonMissionItems.append(saveObject); } for (int i=0; ideleteLater(); } } json[_jsonItemsKey] = rgJsonMissionItems; } void MissionController::_calcPrevWaypointValues(VisualMissionItem* currentItem, VisualMissionItem* prevItem, double* azimuth, double* distance, double* altDifference) { QGeoCoordinate currentCoord = currentItem->coordinate(); QGeoCoordinate prevCoord = prevItem->exitCoordinate(); // Convert to fixed altitudes *altDifference = currentItem->amslEntryAlt() - prevItem->amslExitAlt(); *distance = prevCoord.distanceTo(currentCoord); *azimuth = prevCoord.azimuthTo(currentCoord); } double MissionController::_calcDistanceToHome(VisualMissionItem* currentItem, VisualMissionItem* homeItem) { QGeoCoordinate currentCoord = currentItem->coordinate(); QGeoCoordinate homeCoord = homeItem->exitCoordinate(); bool distanceOk = false; distanceOk = true; return distanceOk ? homeCoord.distanceTo(currentCoord) : 0.0; } FlightPathSegment* MissionController::_createFlightPathSegmentWorker(VisualItemPair& pair) { QGeoCoordinate coord1 = pair.first->isSimpleItem() ? pair.first->coordinate() : pair.first->exitCoordinate(); QGeoCoordinate coord2 = pair.second->coordinate(); double coord1Alt = pair.first->isSimpleItem() ? pair.first->amslEntryAlt() : pair.first->amslExitAlt(); double coord2Alt = pair.second->amslEntryAlt(); FlightPathSegment* segment = new FlightPathSegment(coord1, coord1Alt, coord2, coord2Alt, !_flyView /* queryTerrainData */, this); auto coord1Notifier = pair.first->isSimpleItem() ? &VisualMissionItem::coordinateChanged : &VisualMissionItem::exitCoordinateChanged; auto coord2Notifier = &VisualMissionItem::coordinateChanged; auto coord1AltNotifier = pair.first->isSimpleItem() ? &VisualMissionItem::amslEntryAltChanged : &VisualMissionItem::amslExitAltChanged; auto coord2AltNotifier = &VisualMissionItem::amslEntryAltChanged; connect(pair.first, coord1Notifier, segment, &FlightPathSegment::setCoordinate1); connect(pair.second, coord2Notifier, segment, &FlightPathSegment::setCoordinate2); connect(pair.first, coord1AltNotifier, segment, &FlightPathSegment::setCoord1AMSLAlt); connect(pair.second, coord2AltNotifier, segment, &FlightPathSegment::setCoord2AMSLAlt); connect(pair.second, &VisualMissionItem::coordinateChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(segment, &FlightPathSegment::totalDistanceChanged, this, &MissionController::recalcTerrainProfile, Qt::QueuedConnection); connect(segment, &FlightPathSegment::coord1AMSLAltChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(segment, &FlightPathSegment::coord2AMSLAltChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(segment, &FlightPathSegment::amslTerrainHeightsChanged, this, &MissionController::recalcTerrainProfile, Qt::QueuedConnection); connect(segment, &FlightPathSegment::terrainCollisionChanged, this, &MissionController::recalcTerrainProfile, Qt::QueuedConnection); return segment; } FlightPathSegment* MissionController::_addFlightPathSegment(FlightPathSegmentHashTable& prevItemPairHashTable, VisualItemPair& pair) { FlightPathSegment* segment = nullptr; if (prevItemPairHashTable.contains(pair)) { // Pair already exists and connected, just re-use _flightPathSegmentHashTable[pair] = segment = prevItemPairHashTable.take(pair); } else { segment = _createFlightPathSegmentWorker(pair); _flightPathSegmentHashTable[pair] = segment; } _simpleFlightPathSegments.append(segment); return segment; } void MissionController::_recalcROISpecialVisuals(void) { return; VisualMissionItem* lastCoordinateItem = qobject_cast(_visualItems->get(0)); bool roiActive = false; for (int i=1; i<_visualItems->count(); i++) { VisualMissionItem* visualItem = qobject_cast(_visualItems->get(i)); SimpleMissionItem* simpleItem = qobject_cast(visualItem); VisualItemPair viPair; if (simpleItem) { if (roiActive) { if (_isROICancelItem(simpleItem)) { roiActive = false; } } else { if (_isROIBeginItem(simpleItem)) { roiActive = true; } } } if (visualItem->specifiesCoordinate() && !visualItem->isStandaloneCoordinate()) { viPair = VisualItemPair(lastCoordinateItem, visualItem); if (_flightPathSegmentHashTable.contains(viPair)) { _flightPathSegmentHashTable[viPair]->setSpecialVisual(roiActive); } lastCoordinateItem = visualItem; } } } void MissionController::_recalcFlightPathSegments(void) { VisualItemPair lastSegmentVisualItemPair; int segmentCount = 0; bool firstCoordinateNotFound = true; VisualMissionItem* lastFlyThroughVI = qobject_cast(_visualItems->get(0)); bool linkEndToHome = false; bool linkStartToHome = _controllerVehicle->rover() ? true : false; bool foundRTL = false; bool homePositionValid = _settingsItem->coordinate().isValid(); bool roiActive = false; bool previousItemIsIncomplete = false; qCDebug(MissionControllerLog) << "_recalcFlightPathSegments homePositionValid" << homePositionValid; FlightPathSegmentHashTable oldSegmentTable = _flightPathSegmentHashTable; _missionContainsVTOLTakeoff = false; _flightPathSegmentHashTable.clear(); _waypointPath.clear(); // Note: Although visual support _incompleteComplexItemLines is still in the codebase. The support for populating the list is not. // This is due to the initial implementation being buggy and incomplete with respect to correctly generating the line set. // So for now we leave the code for displaying them in, but none are ever added until we have time to implement the correct support. _simpleFlightPathSegments.beginReset(); _directionArrows.beginReset(); _incompleteComplexItemLines.beginReset(); _simpleFlightPathSegments.clear(); _directionArrows.clear(); _incompleteComplexItemLines.clearAndDeleteContents(); // Mission Settings item needs to start with no segment lastFlyThroughVI->setSimpleFlighPathSegment(nullptr); // Grovel through the list of items keeping track of things needed to correctly draw waypoints lines for (int i=1; i<_visualItems->count(); i++) { VisualMissionItem* visualItem = qobject_cast(_visualItems->get(i)); SimpleMissionItem* simpleItem = qobject_cast(visualItem); ComplexMissionItem* complexItem = qobject_cast(visualItem); visualItem->setSimpleFlighPathSegment(nullptr); if (simpleItem) { if (roiActive) { if (_isROICancelItem(simpleItem)) { roiActive = false; } } else { if (_isROIBeginItem(simpleItem)) { roiActive = true; } } MAV_CMD command = simpleItem->mavCommand(); switch (command) { case MAV_CMD_NAV_TAKEOFF: case MAV_CMD_NAV_VTOL_TAKEOFF: _missionContainsVTOLTakeoff = command == MAV_CMD_NAV_VTOL_TAKEOFF; if (!linkEndToHome) { // If we still haven't found the first coordinate item and we hit a takeoff command this means the mission starts from the ground. // Link the first item back to home to show that. if (firstCoordinateNotFound) { linkStartToHome = true; } } break; case MAV_CMD_NAV_RETURN_TO_LAUNCH: linkEndToHome = true; foundRTL = true; break; default: break; } } // No need to add waypoint segments after an RTL. if (foundRTL) { break; } if (visualItem->specifiesCoordinate() && !visualItem->isStandaloneCoordinate()) { // Incomplete items are complex items which are waiting for the user to complete setup before there visuals can become valid. // They may not yet have valid entry/exit coordinates associated with them while in the incomplete state. // For examples a Survey item which has no polygon set yet. if (complexItem && complexItem->isIncomplete()) { // We don't link lines from a valid item to an incomplete item previousItemIsIncomplete = true; } else if (previousItemIsIncomplete) { // We also don't link lines from an incomplete item to a valid item. previousItemIsIncomplete = false; firstCoordinateNotFound = false; lastFlyThroughVI = visualItem; } else { if (lastFlyThroughVI != _settingsItem || (homePositionValid && linkStartToHome)) { bool addDirectionArrow = false; if (i != 1) { // Direction arrows are added to the second segment and every 5 segments thereafter. // The reason for start with second segment is to prevent an arrow being added in between the home position // and a takeoff item which may be right over each other. In that case the arrow points in a random direction. if (firstCoordinateNotFound || !lastFlyThroughVI->isSimpleItem() || !visualItem->isSimpleItem()) { addDirectionArrow = true; } else if (segmentCount > 5) { segmentCount = 0; addDirectionArrow = true; } segmentCount++; } lastSegmentVisualItemPair = VisualItemPair(lastFlyThroughVI, visualItem); if (!_flyView || addDirectionArrow) { FlightPathSegment* segment = _addFlightPathSegment(oldSegmentTable, lastSegmentVisualItemPair); segment->setSpecialVisual(roiActive); if (addDirectionArrow) { _directionArrows.append(segment); } lastFlyThroughVI->setSimpleFlighPathSegment(segment); } } firstCoordinateNotFound = false; _waypointPath.append(QVariant::fromValue(visualItem->coordinate())); lastFlyThroughVI = visualItem; } } } if (linkStartToHome && homePositionValid) { _waypointPath.prepend(QVariant::fromValue(_settingsItem->coordinate())); } if (linkEndToHome && lastFlyThroughVI != _settingsItem && homePositionValid) { lastSegmentVisualItemPair = VisualItemPair(lastFlyThroughVI, _settingsItem); if (_flyView) { _waypointPath.append(QVariant::fromValue(_settingsItem->coordinate())); } FlightPathSegment* segment = _addFlightPathSegment(oldSegmentTable, lastSegmentVisualItemPair); segment->setSpecialVisual(roiActive); lastFlyThroughVI->setSimpleFlighPathSegment(segment); } // Add direction arrow to last segment if (lastSegmentVisualItemPair.first) { FlightPathSegment* coordVector = nullptr; // The pair may not be in the hash, this can happen in the fly view where only segments with arrows on them are added to hash. // check for that first and add if needed if (_flightPathSegmentHashTable.contains(lastSegmentVisualItemPair)) { // Pair exists in the new table already just reuse it coordVector = _flightPathSegmentHashTable[lastSegmentVisualItemPair]; } else if (oldSegmentTable.contains(lastSegmentVisualItemPair)) { // Pair already exists in old table, pull from old to new and reuse _flightPathSegmentHashTable[lastSegmentVisualItemPair] = coordVector = oldSegmentTable.take(lastSegmentVisualItemPair); } else { // Create a new segment. Since this is the fly view there is no need to wire change signals. coordVector = new FlightPathSegment(lastSegmentVisualItemPair.first->isSimpleItem() ? lastSegmentVisualItemPair.first->coordinate() : lastSegmentVisualItemPair.first->exitCoordinate(), lastSegmentVisualItemPair.first->isSimpleItem() ? lastSegmentVisualItemPair.first->amslEntryAlt() : lastSegmentVisualItemPair.first->amslExitAlt(), lastSegmentVisualItemPair.second->coordinate(), lastSegmentVisualItemPair.second->amslEntryAlt(), !_flyView /* queryTerrainData */, this); _flightPathSegmentHashTable[lastSegmentVisualItemPair] = coordVector; } _directionArrows.append(coordVector); } _simpleFlightPathSegments.endReset(); _directionArrows.endReset(); _incompleteComplexItemLines.endReset(); // Anything left in the old table is an obsolete line object that can go qDeleteAll(oldSegmentTable); emit _recalcMissionFlightStatusSignal(); if (_waypointPath.count() == 0) { // MapPolyLine has a bug where if you change from a path which has elements to an empty path the line drawn // is not cleared from the map. This hack works around that since it causes the previous lines to be remove // as then doesn't draw anything on the map. _waypointPath.append(QVariant::fromValue(QGeoCoordinate(0, 0))); _waypointPath.append(QVariant::fromValue(QGeoCoordinate(0, 0))); } emit waypointPathChanged(); emit recalcTerrainProfile(); } void MissionController::_updateBatteryInfo(int waypointIndex) { if (_missionFlightStatus.mAhBattery != 0) { _missionFlightStatus.hoverAmpsTotal = (_missionFlightStatus.hoverTime / 60.0) * _missionFlightStatus.hoverAmps; _missionFlightStatus.cruiseAmpsTotal = (_missionFlightStatus.cruiseTime / 60.0) * _missionFlightStatus.cruiseAmps; _missionFlightStatus.batteriesRequired = ceil((_missionFlightStatus.hoverAmpsTotal + _missionFlightStatus.cruiseAmpsTotal) / _missionFlightStatus.ampMinutesAvailable); // FIXME: Battery change point code pretty much doesn't work. The reason is that is treats complex items as a black box. It needs to be able to look // inside complex items in order to determine a swap point that is interior to a complex item. Current the swap point display in PlanToolbar is // disabled to do this problem. if (waypointIndex != -1 && _missionFlightStatus.batteriesRequired == 2 && _missionFlightStatus.batteryChangePoint == -1) { _missionFlightStatus.batteryChangePoint = waypointIndex - 1; } } } void MissionController::_addHoverTime(double hoverTime, double hoverDistance, int waypointIndex) { _missionFlightStatus.totalTime += hoverTime; _missionFlightStatus.hoverTime += hoverTime; _missionFlightStatus.hoverDistance += hoverDistance; _missionFlightStatus.totalDistance += hoverDistance; _updateBatteryInfo(waypointIndex); } void MissionController::_addCruiseTime(double cruiseTime, double cruiseDistance, int waypointIndex) { _missionFlightStatus.totalTime += cruiseTime; _missionFlightStatus.cruiseTime += cruiseTime; _missionFlightStatus.cruiseDistance += cruiseDistance; _missionFlightStatus.totalDistance += cruiseDistance; _updateBatteryInfo(waypointIndex); } /// Adds the specified time to the appropriate hover or cruise time values. /// @param vtolInHover true: vtol is currrent in hover mode /// @param hoverTime Amount of time tp add to hover /// @param cruiseTime Amount of time to add to cruise /// @param extraTime Amount of additional time to add to hover/cruise /// @param seqNum Sequence number of waypoint for these values, -1 for no waypoint associated void MissionController::_addTimeDistance(bool vtolInHover, double hoverTime, double cruiseTime, double extraTime, double distance, int seqNum) { if (_controllerVehicle->vtol()) { if (vtolInHover) { _addHoverTime(hoverTime, distance, seqNum); _addHoverTime(extraTime, 0, -1); } else { _addCruiseTime(cruiseTime, distance, seqNum); _addCruiseTime(extraTime, 0, -1); } } else { if (_controllerVehicle->multiRotor()) { _addHoverTime(hoverTime, distance, seqNum); _addHoverTime(extraTime, 0, -1); } else { _addCruiseTime(cruiseTime, distance, seqNum); _addCruiseTime(extraTime, 0, -1); } } } void MissionController::_recalcMissionFlightStatus() { if (!_visualItems->count()) { return; } bool firstCoordinateItem = true; VisualMissionItem* lastFlyThroughVI = qobject_cast(_visualItems->get(0)); bool homePositionValid = _settingsItem->coordinate().isValid(); qCDebug(MissionControllerLog) << "_recalcMissionFlightStatus"; // If home position is valid we can calculate distances between all waypoints. // If home position is not valid we can only calculate distances between waypoints which are // both relative altitude. // No values for first item lastFlyThroughVI->setAltDifference(0); lastFlyThroughVI->setAzimuth(0); lastFlyThroughVI->setDistance(0); lastFlyThroughVI->setDistanceFromStart(0); _minAMSLAltitude = _maxAMSLAltitude = _settingsItem->coordinate().altitude(); _resetMissionFlightStatus(); bool linkStartToHome = false; bool foundRTL = false; double totalHorizontalDistance = 0; for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); SimpleMissionItem* simpleItem = qobject_cast(item); ComplexMissionItem* complexItem = qobject_cast(item); if (simpleItem && simpleItem->mavCommand() == MAV_CMD_NAV_RETURN_TO_LAUNCH) { foundRTL = true; } // Assume the worst item->setAzimuth(0); item->setDistance(0); item->setDistanceFromStart(0); // Gimbal states reflect the state AFTER executing the item // ROI commands cancel out previous gimbal yaw/pitch if (simpleItem) { switch (simpleItem->command()) { case MAV_CMD_NAV_ROI: case MAV_CMD_DO_SET_ROI_LOCATION: case MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET: _missionFlightStatus.gimbalYaw = qQNaN(); _missionFlightStatus.gimbalPitch = qQNaN(); break; default: break; } } // Look for specific gimbal changes double gimbalYaw = item->specifiedGimbalYaw(); if (!qIsNaN(gimbalYaw) || _planViewSettings->showGimbalOnlyWhenSet()->rawValue().toBool()) { _missionFlightStatus.gimbalYaw = gimbalYaw; } double gimbalPitch = item->specifiedGimbalPitch(); if (!qIsNaN(gimbalPitch) || _planViewSettings->showGimbalOnlyWhenSet()->rawValue().toBool()) { _missionFlightStatus.gimbalPitch = gimbalPitch; } // We don't need to do any more processing if: // Mission Settings Item // We are after an RTL command if (i != 0 && !foundRTL) { // We must set the mission flight status prior to querying for any values from the item. This is because things like // current speed, gimbal, vtol state impact the values. item->setMissionFlightStatus(_missionFlightStatus); // Link back to home if first item is takeoff and we have home position if (firstCoordinateItem && simpleItem && (simpleItem->mavCommand() == MAV_CMD_NAV_TAKEOFF || simpleItem->mavCommand() == MAV_CMD_NAV_VTOL_TAKEOFF)) { if (homePositionValid) { linkStartToHome = true; if (_controllerVehicle->multiRotor() || _controllerVehicle->vtol()) { // We have to special case takeoff, assuming vehicle takes off straight up to specified altitude double azimuth, distance, altDifference; _calcPrevWaypointValues(_settingsItem, simpleItem, &azimuth, &distance, &altDifference); double takeoffTime = qAbs(altDifference) / _appSettings->offlineEditingAscentSpeed()->rawValue().toDouble(); _addHoverTime(takeoffTime, 0, -1); } } } _addTimeDistance(_missionFlightStatus.vtolMode == QGCMAVLink::VehicleClassMultiRotor, 0, 0, item->additionalTimeDelay(), 0, -1); if (item->specifiesCoordinate()) { // Keep track of the min/max AMSL altitude for entire mission so we can calculate altitude percentages in terrain status display if (simpleItem) { double amslAltitude = item->amslEntryAlt(); _minAMSLAltitude = std::min(_minAMSLAltitude, amslAltitude); _maxAMSLAltitude = std::max(_maxAMSLAltitude, amslAltitude); } else { // Complex item double complexMinAMSLAltitude = complexItem->minAMSLAltitude(); double complexMaxAMSLAltitude = complexItem->maxAMSLAltitude(); _minAMSLAltitude = std::min(_minAMSLAltitude, complexMinAMSLAltitude); _maxAMSLAltitude = std::max(_maxAMSLAltitude, complexMaxAMSLAltitude); } if (!item->isStandaloneCoordinate()) { firstCoordinateItem = false; // Update vehicle yaw assuming direction to next waypoint and/or mission item change if (simpleItem) { double newVehicleYaw = simpleItem->specifiedVehicleYaw(); if (qIsNaN(newVehicleYaw)) { // No specific vehicle yaw set. Current vehicle yaw is determined from flight path segment direction. if (simpleItem != lastFlyThroughVI) { _missionFlightStatus.vehicleYaw = lastFlyThroughVI->exitCoordinate().azimuthTo(simpleItem->coordinate()); } } else { _missionFlightStatus.vehicleYaw = newVehicleYaw; } simpleItem->setMissionVehicleYaw(_missionFlightStatus.vehicleYaw); } if (lastFlyThroughVI != _settingsItem || linkStartToHome) { // This is a subsequent waypoint or we are forcing the first waypoint back to home double azimuth, distance, altDifference; _calcPrevWaypointValues(item, lastFlyThroughVI, &azimuth, &distance, &altDifference); totalHorizontalDistance += distance; item->setAltDifference(altDifference); item->setAzimuth(azimuth); item->setDistance(distance); item->setDistanceFromStart(totalHorizontalDistance); _missionFlightStatus.maxTelemetryDistance = qMax(_missionFlightStatus.maxTelemetryDistance, _calcDistanceToHome(item, _settingsItem)); // Calculate time/distance double hoverTime = distance / _missionFlightStatus.hoverSpeed; double cruiseTime = distance / _missionFlightStatus.cruiseSpeed; _addTimeDistance(_missionFlightStatus.vtolMode == QGCMAVLink::VehicleClassMultiRotor, hoverTime, cruiseTime, 0, distance, item->sequenceNumber()); } if (complexItem) { // Add in distance/time inside complex items as well double distance = complexItem->complexDistance(); _missionFlightStatus.maxTelemetryDistance = qMax(_missionFlightStatus.maxTelemetryDistance, complexItem->greatestDistanceTo(complexItem->exitCoordinate())); double hoverTime = distance / _missionFlightStatus.hoverSpeed; double cruiseTime = distance / _missionFlightStatus.cruiseSpeed; _addTimeDistance(_missionFlightStatus.vtolMode == QGCMAVLink::VehicleClassMultiRotor, hoverTime, cruiseTime, 0, distance, item->sequenceNumber()); totalHorizontalDistance += distance; } lastFlyThroughVI = item; } } } // Speed, VTOL states changes are processed last since they take affect on the next item double newSpeed = item->specifiedFlightSpeed(); if (!qIsNaN(newSpeed)) { if (_controllerVehicle->multiRotor()) { _missionFlightStatus.hoverSpeed = newSpeed; } else if (_controllerVehicle->vtol()) { if (_missionFlightStatus.vtolMode == QGCMAVLink::VehicleClassMultiRotor) { _missionFlightStatus.hoverSpeed = newSpeed; } else { _missionFlightStatus.cruiseSpeed = newSpeed; } } else { _missionFlightStatus.cruiseSpeed = newSpeed; } _missionFlightStatus.vehicleSpeed = newSpeed; } // Update VTOL state if (simpleItem && _controllerVehicle->vtol()) { switch (simpleItem->command()) { case MAV_CMD_NAV_TAKEOFF: // This will do a fixed wing style takeoff case MAV_CMD_NAV_VTOL_TAKEOFF: // Vehicle goes straight up and then transitions to FW case MAV_CMD_NAV_LAND: _missionFlightStatus.vtolMode = QGCMAVLink::VehicleClassFixedWing; break; case MAV_CMD_NAV_VTOL_LAND: _missionFlightStatus.vtolMode = QGCMAVLink::VehicleClassMultiRotor; break; case MAV_CMD_DO_VTOL_TRANSITION: { int transitionState = simpleItem->missionItem().param1(); if (transitionState == MAV_VTOL_STATE_MC) { _missionFlightStatus.vtolMode = QGCMAVLink::VehicleClassMultiRotor; } else if (transitionState == MAV_VTOL_STATE_FW) { _missionFlightStatus.vtolMode = QGCMAVLink::VehicleClassFixedWing; } } break; default: break; } } } lastFlyThroughVI->setMissionVehicleYaw(_missionFlightStatus.vehicleYaw); // Add the information for the final segment back to home if (foundRTL && lastFlyThroughVI != _settingsItem && homePositionValid) { double azimuth, distance, altDifference; _calcPrevWaypointValues(lastFlyThroughVI, _settingsItem, &azimuth, &distance, &altDifference); // Calculate time/distance double hoverTime = distance / _missionFlightStatus.hoverSpeed; double cruiseTime = distance / _missionFlightStatus.cruiseSpeed; double landTime = qAbs(altDifference) / _appSettings->offlineEditingDescentSpeed()->rawValue().toDouble(); _addTimeDistance(_missionFlightStatus.vtolMode == QGCMAVLink::VehicleClassMultiRotor, hoverTime, cruiseTime, distance, landTime, -1); } if (_missionFlightStatus.mAhBattery != 0 && _missionFlightStatus.batteryChangePoint == -1) { _missionFlightStatus.batteryChangePoint = 0; } emit missionMaxTelemetryChanged (_missionFlightStatus.maxTelemetryDistance); emit missionDistanceChanged (_missionFlightStatus.totalDistance); emit missionHoverDistanceChanged (_missionFlightStatus.hoverDistance); emit missionCruiseDistanceChanged (_missionFlightStatus.cruiseDistance); emit missionTimeChanged (); emit missionHoverTimeChanged (); emit missionCruiseTimeChanged (); emit batteryChangePointChanged (_missionFlightStatus.batteryChangePoint); emit batteriesRequiredChanged (_missionFlightStatus.batteriesRequired); emit minAMSLAltitudeChanged (_minAMSLAltitude); emit maxAMSLAltitudeChanged (_maxAMSLAltitude); // Walk the list again calculating altitude percentages double altRange = _maxAMSLAltitude - _minAMSLAltitude; for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); if (item->specifiesCoordinate()) { double amslAlt = item->amslEntryAlt(); if (altRange == 0.0) { item->setAltPercent(0.0); item->setTerrainPercent(qQNaN()); item->setTerrainCollision(false); } else { item->setAltPercent((amslAlt - _minAMSLAltitude) / altRange); double terrainAltitude = item->terrainAltitude(); if (qIsNaN(terrainAltitude)) { item->setTerrainPercent(qQNaN()); item->setTerrainCollision(false); } else { item->setTerrainPercent((terrainAltitude - _minAMSLAltitude) / altRange); item->setTerrainCollision(amslAlt < terrainAltitude); } } } } _updateTimer.start(UPDATE_TIMEOUT); emit recalcTerrainProfile(); } // This will update the sequence numbers to be sequential starting from 0 void MissionController::_recalcSequence(void) { if (_inRecalcSequence) { // Don't let this call recurse due to signalling return; } // Setup ascending sequence numbers for all visual items _inRecalcSequence = true; int sequenceNumber = 0; for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); item->setSequenceNumber(sequenceNumber); sequenceNumber = item->lastSequenceNumber() + 1; } _inRecalcSequence = false; } // This will update the child item hierarchy void MissionController::_recalcChildItems(void) { VisualMissionItem* currentParentItem = qobject_cast(_visualItems->get(0)); currentParentItem->childItems()->clear(); for (int i=1; i<_visualItems->count(); i++) { VisualMissionItem* item = _visualItems->value(i); item->setParentItem(nullptr); item->setHasCurrentChildItem(false); // Set up non-coordinate item child hierarchy if (item->specifiesCoordinate()) { item->childItems()->clear(); currentParentItem = item; } else if (item->isSimpleItem()) { item->setParentItem(currentParentItem); currentParentItem->childItems()->append(item); if (item->isCurrentItem()) { currentParentItem->setHasCurrentChildItem(true); } } } } void MissionController::_setPlannedHomePositionFromFirstCoordinate(const QGeoCoordinate& clickCoordinate) { bool foundFirstCoordinate = false; QGeoCoordinate firstCoordinate; if (_settingsItem->coordinate().isValid()) { return; } // Set the planned home position to be a delta from first coordinate for (int i=1; i<_visualItems->count(); i++) { VisualMissionItem* item = _visualItems->value(i); if (item->specifiesCoordinate() && item->coordinate().isValid()) { foundFirstCoordinate = true; firstCoordinate = item->coordinate(); break; } } // No item specifying a coordinate was found, in this case it we have a clickCoordinate use that if (!foundFirstCoordinate) { firstCoordinate = clickCoordinate; } if (firstCoordinate.isValid()) { QGeoCoordinate plannedHomeCoord = firstCoordinate.atDistanceAndAzimuth(30, 0); plannedHomeCoord.setAltitude(0); _settingsItem->setInitialHomePositionFromUser(plannedHomeCoord); } } void MissionController::_recalcAllWithCoordinate(const QGeoCoordinate& coordinate) { if (!_flyView) { _setPlannedHomePositionFromFirstCoordinate(coordinate); } _recalcSequence(); _recalcChildItems(); emit _recalcFlightPathSegmentsSignal(); _updateTimer.start(UPDATE_TIMEOUT); } void MissionController::_recalcAll(void) { QGeoCoordinate emptyCoord; _recalcAllWithCoordinate(emptyCoord); } /// Initializes a new set of mission items void MissionController::_initAllVisualItems(void) { // Setup home position at index 0 if (!_settingsItem) { _settingsItem = qobject_cast(_visualItems->get(0)); if (!_settingsItem) { qWarning() << "First item not MissionSettingsItem"; return; } } connect(_settingsItem, &MissionSettingsItem::coordinateChanged, this, &MissionController::_recalcAll); connect(_settingsItem, &MissionSettingsItem::coordinateChanged, this, &MissionController::plannedHomePositionChanged); for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); _initVisualItem(item); TakeoffMissionItem* takeoffItem = qobject_cast(item); if (takeoffItem) { _takeoffMissionItem = takeoffItem; } } _recalcAll(); connect(_visualItems, &QmlObjectListModel::dirtyChanged, this, &MissionController::_visualItemsDirtyChanged); connect(_visualItems, &QmlObjectListModel::countChanged, this, &MissionController::_updateContainsItems); emit visualItemsChanged(); emit containsItemsChanged(containsItems()); emit plannedHomePositionChanged(plannedHomePosition()); if (!_flyView) { setCurrentPlanViewSeqNum(0, true); } setDirty(false); } void MissionController::_deinitAllVisualItems(void) { disconnect(_settingsItem, &MissionSettingsItem::coordinateChanged, this, &MissionController::_recalcAll); disconnect(_settingsItem, &MissionSettingsItem::coordinateChanged, this, &MissionController::plannedHomePositionChanged); for (int i=0; i<_visualItems->count(); i++) { _deinitVisualItem(qobject_cast(_visualItems->get(i))); } disconnect(_visualItems, &QmlObjectListModel::dirtyChanged, this, &MissionController::dirtyChanged); disconnect(_visualItems, &QmlObjectListModel::countChanged, this, &MissionController::_updateContainsItems); } void MissionController::_initVisualItem(VisualMissionItem* visualItem) { setDirty(false); connect(visualItem, &VisualMissionItem::specifiesCoordinateChanged, this, &MissionController::_recalcFlightPathSegmentsSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::specifiedFlightSpeedChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::specifiedGimbalYawChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::specifiedGimbalPitchChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::specifiedVehicleYawChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::terrainAltitudeChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::additionalTimeDelayChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::currentVTOLModeChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(visualItem, &VisualMissionItem::lastSequenceNumberChanged, this, &MissionController::_recalcSequence); if (visualItem->isSimpleItem()) { // We need to track commandChanged on simple item since recalc has special handling for takeoff command SimpleMissionItem* simpleItem = qobject_cast(visualItem); if (simpleItem) { connect(&simpleItem->missionItem()._commandFact, &Fact::valueChanged, this, &MissionController::_itemCommandChanged); } else { qWarning() << "isSimpleItem == true, yet not SimpleMissionItem"; } } else { ComplexMissionItem* complexItem = qobject_cast(visualItem); if (complexItem) { connect(complexItem, &ComplexMissionItem::complexDistanceChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(complexItem, &ComplexMissionItem::greatestDistanceToChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(complexItem, &ComplexMissionItem::minAMSLAltitudeChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(complexItem, &ComplexMissionItem::maxAMSLAltitudeChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(complexItem, &ComplexMissionItem::isIncompleteChanged, this, &MissionController::_recalcFlightPathSegmentsSignal, Qt::QueuedConnection); } else { qWarning() << "ComplexMissionItem not found"; } } } void MissionController::_deinitVisualItem(VisualMissionItem* visualItem) { // Disconnect all signals disconnect(visualItem, nullptr, nullptr, nullptr); } void MissionController::_itemCommandChanged(void) { _recalcChildItems(); emit _recalcFlightPathSegmentsSignal(); } void MissionController::_managerVehicleChanged(Vehicle* managerVehicle) { if (_managerVehicle) { _missionManager->disconnect(this); _managerVehicle->disconnect(this); _managerVehicle = nullptr; _missionManager = nullptr; } _managerVehicle = managerVehicle; if (!_managerVehicle) { qWarning() << "MissionController::managerVehicleChanged managerVehicle=NULL"; return; } _missionManager = _managerVehicle->missionManager(); connect(_missionManager, &MissionManager::newMissionItemsAvailable, this, &MissionController::_newMissionItemsAvailableFromVehicle); connect(_missionManager, &MissionManager::sendComplete, this, &MissionController::_managerSendComplete); connect(_missionManager, &MissionManager::removeAllComplete, this, &MissionController::_managerRemoveAllComplete); connect(_missionManager, &MissionManager::inProgressChanged, this, &MissionController::_inProgressChanged); connect(_missionManager, &MissionManager::progressPct, this, &MissionController::_progressPctChanged); connect(_missionManager, &MissionManager::currentIndexChanged, this, &MissionController::_currentMissionIndexChanged); connect(_missionManager, &MissionManager::lastCurrentIndexChanged, this, &MissionController::resumeMissionIndexChanged); connect(_missionManager, &MissionManager::resumeMissionReady, this, &MissionController::resumeMissionReady); connect(_missionManager, &MissionManager::resumeMissionUploadFail, this, &MissionController::resumeMissionUploadFail); connect(_managerVehicle, &Vehicle::defaultCruiseSpeedChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(_managerVehicle, &Vehicle::defaultHoverSpeedChanged, this, &MissionController::_recalcMissionFlightStatusSignal, Qt::QueuedConnection); connect(_managerVehicle, &Vehicle::vehicleTypeChanged, this, &MissionController::complexMissionItemNamesChanged); emit complexMissionItemNamesChanged(); emit resumeMissionIndexChanged(); } void MissionController::_inProgressChanged(bool inProgress) { emit syncInProgressChanged(inProgress); } bool MissionController::_findPreviousAltitude(int newIndex, double* prevAltitude, int* prevAltitudeMode) { bool found = false; double foundAltitude = 0; int foundAltitudeMode = QGroundControlQmlGlobal::AltitudeModeNone; if (newIndex > _visualItems->count()) { return false; } newIndex--; for (int i=newIndex; i>0; i--) { VisualMissionItem* visualItem = qobject_cast(_visualItems->get(i)); if (visualItem->specifiesCoordinate() && !visualItem->isStandaloneCoordinate()) { if (visualItem->isSimpleItem()) { SimpleMissionItem* simpleItem = qobject_cast(visualItem); if (simpleItem->specifiesAltitude()) { foundAltitude = simpleItem->altitude()->rawValue().toDouble(); foundAltitudeMode = simpleItem->altitudeMode(); found = true; break; } } } } if (found) { *prevAltitude = foundAltitude; *prevAltitudeMode = foundAltitudeMode; } return found; } double MissionController::_normalizeLat(double lat) { // Normalize latitude to range: 0 to 180, S to N return lat + 90.0; } double MissionController::_normalizeLon(double lon) { // Normalize longitude to range: 0 to 360, W to E return lon + 180.0; } /// Add the Mission Settings complex item to the front of the items MissionSettingsItem* MissionController::_addMissionSettings(QmlObjectListModel* visualItems) { qCDebug(MissionControllerLog) << "_addMissionSettings"; MissionSettingsItem* settingsItem = new MissionSettingsItem(_masterController, _flyView, visualItems); visualItems->insert(0, settingsItem); if (visualItems == _visualItems) { _settingsItem = settingsItem; } return settingsItem; } void MissionController::_centerHomePositionOnMissionItems(QmlObjectListModel *visualItems) { qCDebug(MissionControllerLog) << "_centerHomePositionOnMissionItems"; if (visualItems->count() > 1) { double north = 0.0; double south = 0.0; double east = 0.0; double west = 0.0; bool firstCoordSet = false; for (int i=1; icount(); i++) { VisualMissionItem* item = qobject_cast(visualItems->get(i)); if (item->specifiesCoordinate()) { if (firstCoordSet) { double lat = _normalizeLat(item->coordinate().latitude()); double lon = _normalizeLon(item->coordinate().longitude()); north = fmax(north, lat); south = fmin(south, lat); east = fmax(east, lon); west = fmin(west, lon); } else { firstCoordSet = true; north = _normalizeLat(item->coordinate().latitude()); south = north; east = _normalizeLon(item->coordinate().longitude()); west = east; } } } if (firstCoordSet) { _settingsItem->setInitialHomePositionFromUser(QGeoCoordinate((south + ((north - south) / 2)) - 90.0, (west + ((east - west) / 2)) - 180.0, 0.0)); } } } int MissionController::resumeMissionIndex(void) const { int resumeIndex = 0; if (_flyView) { resumeIndex = _missionManager->lastCurrentIndex() + (_controllerVehicle->firmwarePlugin()->sendHomePositionToVehicle() ? 0 : 1); if (resumeIndex > 1 && resumeIndex != _visualItems->value(_visualItems->count() - 1)->sequenceNumber()) { // Resume at the item previous to the item we were heading towards resumeIndex--; } else { resumeIndex = 0; } } return resumeIndex; } int MissionController::currentMissionIndex(void) const { if (!_flyView) { return -1; } else { int currentIndex = _missionManager->currentIndex(); if (!_controllerVehicle->firmwarePlugin()->sendHomePositionToVehicle()) { currentIndex++; } return currentIndex; } } void MissionController::_currentMissionIndexChanged(int sequenceNumber) { if (_flyView) { if (!_controllerVehicle->firmwarePlugin()->sendHomePositionToVehicle()) { sequenceNumber++; } for (int i=0; i<_visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); item->setIsCurrentItem(item->sequenceNumber() == sequenceNumber); } emit currentMissionIndexChanged(currentMissionIndex()); } } bool MissionController::syncInProgress(void) const { return _missionManager->inProgress(); } bool MissionController::dirty(void) const { return _visualItems ? _visualItems->dirty() : false; } void MissionController::setDirty(bool dirty) { if (_visualItems) { _visualItems->setDirty(dirty); } } void MissionController::_scanForAdditionalSettings(QmlObjectListModel* visualItems, PlanMasterController* masterController) { // First we look for a Landing Patterns which are at the end if (!FixedWingLandingComplexItem::scanForItem(visualItems, _flyView, masterController)) { VTOLLandingComplexItem::scanForItem(visualItems, _flyView, masterController); } int scanIndex = 0; while (scanIndex < visualItems->count()) { VisualMissionItem* visualItem = visualItems->value(scanIndex); qCDebug(MissionControllerLog) << "MissionController::_scanForAdditionalSettings count:scanIndex" << visualItems->count() << scanIndex; if (!_flyView) { MissionSettingsItem* settingsItem = qobject_cast(visualItem); if (settingsItem) { scanIndex++; settingsItem->scanForMissionSettings(visualItems, scanIndex); continue; } } SimpleMissionItem* simpleItem = qobject_cast(visualItem); if (simpleItem) { scanIndex++; simpleItem->scanForSections(visualItems, scanIndex, masterController); } else { // Complex item, can't have sections scanIndex++; } } } void MissionController::_updateContainsItems(void) { emit containsItemsChanged(containsItems()); } bool MissionController::containsItems(void) const { return _visualItems ? _visualItems->count() > 1 : false; } void MissionController::removeAllFromVehicle(void) { if (_masterController->offline()) { qCWarning(MissionControllerLog) << "MissionControllerLog::removeAllFromVehicle called while offline"; } else if (syncInProgress()) { qCWarning(MissionControllerLog) << "MissionControllerLog::removeAllFromVehicle called while syncInProgress"; } else { _itemsRequested = true; _missionManager->removeAll(); } } QStringList MissionController::complexMissionItemNames(void) const { QStringList complexItems; complexItems.append(SurveyComplexItem::name); complexItems.append(CorridorScanComplexItem::name); complexItems.append(CircularSurvey::name); if (_controllerVehicle->multiRotor() || _controllerVehicle->vtol()) { complexItems.append(StructureScanComplexItem::name); } // Note: The landing pattern items are not added here since they have there own button which adds them return qgcApp()->toolbox()->corePlugin()->complexMissionItemNames(_controllerVehicle, complexItems); } void MissionController::resumeMission(int resumeIndex) { if (!_controllerVehicle->firmwarePlugin()->sendHomePositionToVehicle()) { resumeIndex--; } _missionManager->generateResumeMission(resumeIndex); } QGeoCoordinate MissionController::plannedHomePosition(void) const { if (_settingsItem) { return _settingsItem->coordinate(); } else { return QGeoCoordinate(); } } void MissionController::applyDefaultMissionAltitude(void) { double defaultAltitude = _appSettings->defaultMissionItemAltitude()->rawValue().toDouble(); for (int i=1; i<_visualItems->count(); i++) { VisualMissionItem* item = _visualItems->value(i); item->applyNewAltitude(defaultAltitude); } } void MissionController::_progressPctChanged(double progressPct) { if (!QGC::fuzzyCompare(progressPct, _progressPct)) { _progressPct = progressPct; emit progressPctChanged(progressPct); } } void MissionController::_visualItemsDirtyChanged(bool dirty) { // We could connect signal to signal and not need this but this is handy for setting a breakpoint on emit dirtyChanged(dirty); } bool MissionController::showPlanFromManagerVehicle (void) { qCDebug(MissionControllerLog) << "showPlanFromManagerVehicle _flyView" << _flyView; if (_masterController->offline()) { qCWarning(MissionControllerLog) << "MissionController::showPlanFromManagerVehicle called while offline"; return true; // stops further propagation of showPlanFromManagerVehicle due to error } else { if (!_managerVehicle->initialPlanRequestComplete()) { // The vehicle hasn't completed initial load, we can just wait for newMissionItemsAvailable to be signalled automatically qCDebug(MissionControllerLog) << "showPlanFromManagerVehicle: !initialPlanRequestComplete, wait for signal"; return true; } else if (syncInProgress()) { // If the sync is already in progress, newMissionItemsAvailable will be signalled automatically when it is done. So no need to do anything. qCDebug(MissionControllerLog) << "showPlanFromManagerVehicle: syncInProgress wait for signal"; return true; } else { // Fake a _newMissionItemsAvailable with the current items qCDebug(MissionControllerLog) << "showPlanFromManagerVehicle: sync complete simulate signal"; _itemsRequested = true; _newMissionItemsAvailableFromVehicle(false /* removeAllRequested */); return false; } } } void MissionController::_managerSendComplete(bool error) { // Fly view always reloads on send complete if (!error && _flyView) { showPlanFromManagerVehicle(); } } void MissionController::_managerRemoveAllComplete(bool error) { if (!error) { // Remove all from vehicle so we always update showPlanFromManagerVehicle(); } } bool MissionController::_isROIBeginItem(SimpleMissionItem* simpleItem) { return simpleItem->mavCommand() == MAV_CMD_DO_SET_ROI_LOCATION || simpleItem->mavCommand() == MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET || (simpleItem->mavCommand() == MAV_CMD_DO_SET_ROI && static_cast(simpleItem->missionItem().param1()) == MAV_ROI_LOCATION); } bool MissionController::_isROICancelItem(SimpleMissionItem* simpleItem) { return simpleItem->mavCommand() == MAV_CMD_DO_SET_ROI_NONE || (simpleItem->mavCommand() == MAV_CMD_DO_SET_ROI && static_cast(simpleItem->missionItem().param1()) == MAV_ROI_NONE); } void MissionController::setCurrentPlanViewSeqNum(int sequenceNumber, bool force) { if (_visualItems && (force || sequenceNumber != _currentPlanViewSeqNum)) { bool foundLand = false; int takeoffSeqNum = -1; int landSeqNum = -1; int lastFlyThroughSeqNum = -1; _splitSegment = nullptr; _currentPlanViewItem = nullptr; _currentPlanViewSeqNum = -1; _currentPlanViewVIIndex = -1; _onlyInsertTakeoffValid = !_planViewSettings->takeoffItemNotRequired()->rawValue().toBool() && _visualItems->count() == 1; // First item must be takeoff _isInsertTakeoffValid = true; _isInsertLandValid = true; _isROIActive = false; _isROIBeginCurrentItem = false; _flyThroughCommandsAllowed = true; _previousCoordinate = QGeoCoordinate(); for (int viIndex=0; viIndex<_visualItems->count(); viIndex++) { VisualMissionItem* pVI = qobject_cast(_visualItems->get(viIndex)); SimpleMissionItem* simpleItem = qobject_cast(pVI); int currentSeqNumber = pVI->sequenceNumber(); if (sequenceNumber != 0 && currentSeqNumber <= sequenceNumber) { if (pVI->specifiesCoordinate() && !pVI->isStandaloneCoordinate()) { // Coordinate based flight commands prior to where the takeoff would be inserted _isInsertTakeoffValid = false; } } if (qobject_cast(pVI)) { takeoffSeqNum = currentSeqNumber; _isInsertTakeoffValid = false; } if (!foundLand) { if (simpleItem) { switch (simpleItem->mavCommand()) { case MAV_CMD_NAV_LAND: case MAV_CMD_NAV_VTOL_LAND: case MAV_CMD_DO_LAND_START: case MAV_CMD_NAV_RETURN_TO_LAUNCH: foundLand = true; landSeqNum = currentSeqNumber; break; default: break; } } else { FixedWingLandingComplexItem* fwLanding = qobject_cast(pVI); if (fwLanding) { foundLand = true; landSeqNum = currentSeqNumber; } } } if (simpleItem) { // Remember previous coordinate if (currentSeqNumber < sequenceNumber && simpleItem->specifiesCoordinate() && !simpleItem->isStandaloneCoordinate()) { _previousCoordinate = simpleItem->coordinate(); } // ROI state handling if (currentSeqNumber <= sequenceNumber) { if (_isROIActive) { if (_isROICancelItem(simpleItem)) { _isROIActive = false; } } else { if (_isROIBeginItem(simpleItem)) { _isROIActive = true; } } } if (currentSeqNumber == sequenceNumber && _isROIBeginItem(simpleItem)) { _isROIBeginCurrentItem = true; } } if (viIndex != 0) { // Complex items are assumed to be fly through if (!simpleItem || (simpleItem->specifiesCoordinate() && !simpleItem->isStandaloneCoordinate())) { lastFlyThroughSeqNum = currentSeqNumber; } } if (currentSeqNumber == sequenceNumber) { pVI->setIsCurrentItem(true); pVI->setHasCurrentChildItem(false); _currentPlanViewItem = pVI; _currentPlanViewSeqNum = sequenceNumber; _currentPlanViewVIIndex = viIndex; if (pVI->specifiesCoordinate()) { if (!pVI->isStandaloneCoordinate()) { // Determine split segment used to display line split editing ui. for (int j=viIndex-1; j>0; j--) { VisualMissionItem* pPrev = qobject_cast(_visualItems->get(j)); if (pPrev->specifiesCoordinate() && !pPrev->isStandaloneCoordinate()) { VisualItemPair splitPair(pPrev, pVI); if (_flightPathSegmentHashTable.contains(splitPair)) { _splitSegment = _flightPathSegmentHashTable[splitPair]; } } } } } else if (pVI->parentItem()) { pVI->parentItem()->setHasCurrentChildItem(true); } } else { pVI->setIsCurrentItem(false); } } if (takeoffSeqNum != -1) { // Takeoff item was found which means mission starts from ground if (sequenceNumber < takeoffSeqNum) { // Land is only valid after the takeoff item. _isInsertLandValid = false; // Fly through commands are not allowed prior to the takeoff command _flyThroughCommandsAllowed = false; } } if (lastFlyThroughSeqNum != -1) { // Land item must be after any fly through coordinates if (sequenceNumber < lastFlyThroughSeqNum) { _isInsertLandValid = false; } } if (foundLand) { // Can't have more than one land sequence _isInsertLandValid = false; if (sequenceNumber >= landSeqNum) { // Can't have fly through commands after a land item _flyThroughCommandsAllowed = false; } } // These are not valid when only takeoff is allowed _isInsertLandValid = _isInsertLandValid && !_onlyInsertTakeoffValid; _flyThroughCommandsAllowed = _flyThroughCommandsAllowed && !_onlyInsertTakeoffValid; emit currentPlanViewSeqNumChanged(); emit currentPlanViewVIIndexChanged(); emit currentPlanViewItemChanged(); emit splitSegmentChanged(); emit onlyInsertTakeoffValidChanged(); emit isInsertTakeoffValidChanged(); emit isInsertLandValidChanged(); emit isROIActiveChanged(); emit isROIBeginCurrentItemChanged(); emit flyThroughCommandsAllowedChanged(); emit previousCoordinateChanged(); } } void MissionController::_updateTimeout() { QGeoCoordinate firstCoordinate; QGeoCoordinate takeoffCoordinate; QGCGeoBoundingCube boundingCube; double north = 0.0; double south = 180.0; double east = 0.0; double west = 360.0; double minAlt = QGCGeoBoundingCube::MaxAlt; double maxAlt = QGCGeoBoundingCube::MinAlt; for (int i = 1; i < _visualItems->count(); i++) { VisualMissionItem* item = qobject_cast(_visualItems->get(i)); if(item->isSimpleItem()) { SimpleMissionItem* pSimpleItem = qobject_cast(item); if(pSimpleItem) { switch(pSimpleItem->command()) { case MAV_CMD_NAV_TAKEOFF: case MAV_CMD_NAV_WAYPOINT: case MAV_CMD_NAV_LAND: if(pSimpleItem->coordinate().isValid()) { if((MAV_CMD)pSimpleItem->command() == MAV_CMD_NAV_TAKEOFF) { takeoffCoordinate = pSimpleItem->coordinate(); } else if(!firstCoordinate.isValid()) { firstCoordinate = pSimpleItem->coordinate(); } double lat = pSimpleItem->coordinate().latitude() + 90.0; double lon = pSimpleItem->coordinate().longitude() + 180.0; double alt = pSimpleItem->coordinate().altitude(); north = fmax(north, lat); south = fmin(south, lat); east = fmax(east, lon); west = fmin(west, lon); minAlt = fmin(minAlt, alt); maxAlt = fmax(maxAlt, alt); } break; default: break; } } } else { ComplexMissionItem* pComplexItem = qobject_cast(item); if(pComplexItem) { QGCGeoBoundingCube bc = pComplexItem->boundingCube(); if(bc.isValid()) { if(!firstCoordinate.isValid() && pComplexItem->coordinate().isValid()) { firstCoordinate = pComplexItem->coordinate(); } north = fmax(north, bc.pointNW.latitude() + 90.0); south = fmin(south, bc.pointSE.latitude() + 90.0); east = fmax(east, bc.pointNW.longitude() + 180.0); west = fmin(west, bc.pointSE.longitude() + 180.0); minAlt = fmin(minAlt, bc.pointNW.altitude()); maxAlt = fmax(maxAlt, bc.pointSE.altitude()); } } } } //-- Figure out where this thing is taking off from if(!takeoffCoordinate.isValid()) { if(firstCoordinate.isValid()) { takeoffCoordinate = firstCoordinate; } else { takeoffCoordinate = plannedHomePosition(); } } //-- Build bounding "cube" boundingCube = QGCGeoBoundingCube( QGeoCoordinate(north - 90.0, west - 180.0, minAlt), QGeoCoordinate(south - 90.0, east - 180.0, maxAlt)); if(_travelBoundingCube != boundingCube || _takeoffCoordinate != takeoffCoordinate) { _takeoffCoordinate = takeoffCoordinate; _travelBoundingCube = boundingCube; emit missionBoundingCubeChanged(); qCDebug(MissionControllerLog) << "Bounding cube:" << _travelBoundingCube.pointNW << _travelBoundingCube.pointSE; } } void MissionController::_complexBoundingBoxChanged() { _updateTimer.start(UPDATE_TIMEOUT); } bool MissionController::isEmpty(void) const { return _visualItems->count() <= 1; } void MissionController::_takeoffItemNotRequiredChanged(void) { // Force a recalc of allowed bits setCurrentPlanViewSeqNum(_currentPlanViewSeqNum, true /* force */); } QString MissionController::surveyComplexItemName(void) const { return SurveyComplexItem::name; } QString MissionController::corridorScanComplexItemName(void) const { return CorridorScanComplexItem::name; } QString MissionController::structureScanComplexItemName(void) const { return StructureScanComplexItem::name; } void MissionController::_allItemsRemoved(void) { // When there are no mission items we track changes to firmware/vehicle type. This allows a vehicle connection // to adjust these items. _controllerVehicle->trackFirmwareVehicleTypeChanges(); } void MissionController::_firstItemAdded(void) { // As soon as the first item is added we lock the firmware/vehicle type to current values. So if you then connect a vehicle // it will not affect these values. _controllerVehicle->stopTrackingFirmwareVehicleTypeChanges(); } MissionController::SendToVehiclePreCheckState MissionController::sendToVehiclePreCheck(void) { if (_managerVehicle->isOfflineEditingVehicle()) { return SendToVehiclePreCheckStateNoActiveVehicle; } if (_managerVehicle->armed() && _managerVehicle->flightMode() == _managerVehicle->missionFlightMode()) { return SendToVehiclePreCheckStateActiveMission; } if (_controllerVehicle->firmwareType() != _managerVehicle->firmwareType() || QGCMAVLink::vehicleClass(_controllerVehicle->vehicleType()) != QGCMAVLink::vehicleClass(_managerVehicle->vehicleType())) { return SendToVehiclePreCheckStateFirwmareVehicleMismatch; } return SendToVehiclePreCheckStateOk; } QGroundControlQmlGlobal::AltitudeMode MissionController::globalAltitudeMode(void) { return _globalAltMode; } QGroundControlQmlGlobal::AltitudeMode MissionController::globalAltitudeModeDefault(void) { if (_globalAltMode == QGroundControlQmlGlobal::AltitudeModeNone) { return QGroundControlQmlGlobal::AltitudeModeRelative; } else { return _globalAltMode; } } void MissionController::setGlobalAltitudeMode(QGroundControlQmlGlobal::AltitudeMode altMode) { if (_globalAltMode != altMode) { _globalAltMode = altMode; emit globalAltitudeModeChanged(); } }