/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ #include "MissionSettingsItem.h" #include "JsonHelper.h" #include "MissionController.h" #include "QGCGeo.h" #include "QGroundControlQmlGlobal.h" #include "SimpleMissionItem.h" #include "SettingsManager.h" #include "AppSettings.h" #include "MissionCommandUIInfo.h" #include QGC_LOGGING_CATEGORY(MissionSettingsComplexItemLog, "MissionSettingsComplexItemLog") const char* MissionSettingsItem::_plannedHomePositionAltitudeName = "PlannedHomePositionAltitude"; QMap MissionSettingsItem::_metaDataMap; MissionSettingsItem::MissionSettingsItem(Vehicle* vehicle, bool flyView, QObject* parent) : ComplexMissionItem (vehicle, flyView, parent) , _plannedHomePositionAltitudeFact (0, _plannedHomePositionAltitudeName, FactMetaData::valueTypeDouble) , _cameraSection (vehicle) , _speedSection (vehicle) { _editorQml = "qrc:/qml/MissionSettingsEditor.qml"; if (_metaDataMap.isEmpty()) { _metaDataMap = FactMetaData::createMapFromJsonFile(QStringLiteral(":/json/MissionSettings.FactMetaData.json"), nullptr /* metaDataParent */); } _plannedHomePositionAltitudeFact.setMetaData (_metaDataMap[_plannedHomePositionAltitudeName]); _plannedHomePositionAltitudeFact.setRawValue (_plannedHomePositionAltitudeFact.rawDefaultValue()); setHomePositionSpecialCase(true); _cameraSection.setAvailable(true); _speedSection.setAvailable(true); connect(this, &MissionSettingsItem::specifyMissionFlightSpeedChanged, this, &MissionSettingsItem::_setDirtyAndUpdateLastSequenceNumber); connect(&_cameraSection, &CameraSection::itemCountChanged, this, &MissionSettingsItem::_setDirtyAndUpdateLastSequenceNumber); connect(&_speedSection, &CameraSection::itemCountChanged, this, &MissionSettingsItem::_setDirtyAndUpdateLastSequenceNumber); connect(this, &MissionSettingsItem::terrainAltitudeChanged, this, &MissionSettingsItem::_setHomeAltFromTerrain); connect(&_plannedHomePositionAltitudeFact, &Fact::rawValueChanged, this, &MissionSettingsItem::_updateAltitudeInCoordinate); connect(&_cameraSection, &CameraSection::dirtyChanged, this, &MissionSettingsItem::_sectionDirtyChanged); connect(&_speedSection, &SpeedSection::dirtyChanged, this, &MissionSettingsItem::_sectionDirtyChanged); connect(&_cameraSection, &CameraSection::specifiedGimbalYawChanged, this, &MissionSettingsItem::specifiedGimbalYawChanged); connect(&_cameraSection, &CameraSection::specifiedGimbalPitchChanged, this, &MissionSettingsItem::specifiedGimbalPitchChanged); connect(&_speedSection, &SpeedSection::specifiedFlightSpeedChanged, this, &MissionSettingsItem::specifiedFlightSpeedChanged); } int MissionSettingsItem::lastSequenceNumber(void) const { int lastSequenceNumber = _sequenceNumber; lastSequenceNumber += _cameraSection.itemCount(); lastSequenceNumber += _speedSection.itemCount(); return lastSequenceNumber; } void MissionSettingsItem::setDirty(bool dirty) { if (_dirty != dirty) { _dirty = dirty; if (!dirty) { _cameraSection.setDirty(false); _speedSection.setDirty(false); } emit dirtyChanged(_dirty); } } void MissionSettingsItem::save(QJsonArray& missionItems) { QList items; appendMissionItems(items, this); // First item should be planned home position, we are not responsible for save/load // Remaining items we just output as is for (int i=1; isave(saveObject); missionItems.append(saveObject); item->deleteLater(); } } void MissionSettingsItem::setSequenceNumber(int sequenceNumber) { if (_sequenceNumber != sequenceNumber) { _sequenceNumber = sequenceNumber; emit sequenceNumberChanged(sequenceNumber); emit lastSequenceNumberChanged(lastSequenceNumber()); } } bool MissionSettingsItem::load(const QJsonObject& complexObject, int sequenceNumber, QString& errorString) { Q_UNUSED(complexObject); Q_UNUSED(sequenceNumber); Q_UNUSED(errorString); return true; } double MissionSettingsItem::greatestDistanceTo(const QGeoCoordinate &other) const { Q_UNUSED(other); return 0; } bool MissionSettingsItem::specifiesCoordinate(void) const { return true; } void MissionSettingsItem::appendMissionItems(QList& items, QObject* missionItemParent) { int seqNum = _sequenceNumber; // IMPORTANT NOTE: If anything changes here you must also change MissionSettingsItem::scanForMissionSettings // Planned home position MissionItem* item = new MissionItem(seqNum++, MAV_CMD_NAV_WAYPOINT, MAV_FRAME_GLOBAL, 0, // Hold time 0, // Acceptance radius 0, // Not sure? 0, // Yaw coordinate().latitude(), coordinate().longitude(), _plannedHomePositionAltitudeFact.rawValue().toDouble(), true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); _cameraSection.appendSectionItems(items, missionItemParent, seqNum); _speedSection.appendSectionItems(items, missionItemParent, seqNum); } bool MissionSettingsItem::addMissionEndAction(QList& /*items*/, int /*seqNum*/, QObject* /*missionItemParent*/) { return false; } bool MissionSettingsItem::scanForMissionSettings(QmlObjectListModel* visualItems, int scanIndex) { bool foundSpeedSection = false; bool foundCameraSection = false; qCDebug(MissionSettingsComplexItemLog) << "MissionSettingsItem::scanForMissionSettings count:scanIndex" << visualItems->count() << scanIndex; // Scan through the initial mission items for possible mission settings foundCameraSection = _cameraSection.scanForSection(visualItems, scanIndex); foundSpeedSection = _speedSection.scanForSection(visualItems, scanIndex); return foundSpeedSection || foundCameraSection; } double MissionSettingsItem::complexDistance(void) const { return 0; } void MissionSettingsItem::_setDirty(void) { setDirty(true); } void MissionSettingsItem::_setCoordinateWorker(const QGeoCoordinate& coordinate) { if (_plannedHomePositionCoordinate != coordinate) { _plannedHomePositionCoordinate = coordinate; emit coordinateChanged(coordinate); emit exitCoordinateChanged(coordinate); _plannedHomePositionAltitudeFact.setRawValue(coordinate.altitude()); } } void MissionSettingsItem::setHomePositionFromVehicle(Vehicle* vehicle) { // If the user hasn't moved the planned home position manually we use the value from the vehicle if (!_plannedHomePositionMovedByUser) { QGeoCoordinate coordinate = vehicle->homePosition(); // ArduPilot tends to send crap home positions at initial vehicle boot, discard them if (coordinate.isValid() && (coordinate.latitude() != 0 || coordinate.longitude() != 0)) { _plannedHomePositionFromVehicle = true; _setCoordinateWorker(coordinate); } } } void MissionSettingsItem::setInitialHomePosition(const QGeoCoordinate& coordinate) { _plannedHomePositionMovedByUser = false; _plannedHomePositionFromVehicle = false; _setCoordinateWorker(coordinate); } void MissionSettingsItem::setInitialHomePositionFromUser(const QGeoCoordinate& coordinate) { _plannedHomePositionMovedByUser = true; _plannedHomePositionFromVehicle = false; _setCoordinateWorker(coordinate); } void MissionSettingsItem::setCoordinate(const QGeoCoordinate& coordinate) { if (coordinate != this->coordinate()) { // The user is moving the planned home position manually. Stop tracking vehicle home position. _plannedHomePositionMovedByUser = true; _plannedHomePositionFromVehicle = false; _setCoordinateWorker(coordinate); } } void MissionSettingsItem::_setDirtyAndUpdateLastSequenceNumber(void) { emit lastSequenceNumberChanged(lastSequenceNumber()); setDirty(true); } void MissionSettingsItem::_sectionDirtyChanged(bool dirty) { if (dirty) { setDirty(true); } } double MissionSettingsItem::specifiedGimbalYaw(void) { return _cameraSection.specifyGimbal() ? _cameraSection.gimbalYaw()->rawValue().toDouble() : std::numeric_limits::quiet_NaN(); } double MissionSettingsItem::specifiedGimbalPitch(void) { return _cameraSection.specifyGimbal() ? _cameraSection.gimbalPitch()->rawValue().toDouble() : std::numeric_limits::quiet_NaN(); } void MissionSettingsItem::_updateAltitudeInCoordinate(QVariant value) { double newAltitude = value.toDouble(); if (!qFuzzyCompare(_plannedHomePositionCoordinate.altitude(), newAltitude)) { _plannedHomePositionCoordinate.setAltitude(newAltitude); emit coordinateChanged(_plannedHomePositionCoordinate); emit exitCoordinateChanged(_plannedHomePositionCoordinate); } } double MissionSettingsItem::specifiedFlightSpeed(void) { if (_speedSection.specifyFlightSpeed()) { return _speedSection.flightSpeed()->rawValue().toDouble(); } else { return std::numeric_limits::quiet_NaN(); } } void MissionSettingsItem::_setHomeAltFromTerrain(double terrainAltitude) { if (!_plannedHomePositionFromVehicle && !qIsNaN(terrainAltitude)) { _plannedHomePositionAltitudeFact.setRawValue(terrainAltitude); } } QString MissionSettingsItem::abbreviation(void) const { return _flyView ? tr("H") : tr("Launch"); }