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/*=====================================================================
QGroundControl Open Source Ground Control Station
(c) 2009 - 2014 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>
This file is part of the QGROUNDCONTROL project
QGROUNDCONTROL is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
QGROUNDCONTROL is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with QGROUNDCONTROL. If not, see <http://www.gnu.org/licenses/>.
======================================================================*/
/// @file
/// @author Don Gagne <don@thegagnes.com>
#ifndef Vehicle_H
#define Vehicle_H
#include <QObject>
#include "LinkInterface.h"
#include "QGCMAVLink.h"
#include "QmlObjectListModel.h"
class UAS;
class UASInterface;
class ParameterLoader;
Q_DECLARE_LOGGING_CATEGORY(VehicleLog)
class VehicleVibrationFactGroup : public FactGroup
{
Q_OBJECT
public:
VehicleVibrationFactGroup(QObject* parent = NULL);
Q_PROPERTY(Fact* xAxis READ xAxis CONSTANT)
Q_PROPERTY(Fact* yAxis READ yAxis CONSTANT)
Q_PROPERTY(Fact* zAxis READ zAxis CONSTANT)
Q_PROPERTY(Fact* clipCount1 READ clipCount1 CONSTANT)
Q_PROPERTY(Fact* clipCount2 READ clipCount2 CONSTANT)
Q_PROPERTY(Fact* clipCount3 READ clipCount3 CONSTANT)
Fact* xAxis (void) { return &_xAxisFact; }
Fact* yAxis (void) { return &_yAxisFact; }
Fact* zAxis (void) { return &_zAxisFact; }
Fact* clipCount1 (void) { return &_clipCount1Fact; }
Fact* clipCount2 (void) { return &_clipCount2Fact; }
Fact* clipCount3 (void) { return &_clipCount3Fact; }
void setVehicle(Vehicle* vehicle);
static const char* _xAxisFactName;
static const char* _yAxisFactName;
static const char* _zAxisFactName;
static const char* _clipCount1FactName;
static const char* _clipCount2FactName;
static const char* _clipCount3FactName;
private:
Vehicle* _vehicle;
Fact _xAxisFact;
Fact _yAxisFact;
Fact _zAxisFact;
Fact _clipCount1Fact;
Fact _clipCount2Fact;
Fact _clipCount3Fact;
};
class VehicleWindFactGroup : public FactGroup
{
Q_OBJECT
public:
VehicleWindFactGroup(QObject* parent = NULL);
Q_PROPERTY(Fact* direction READ direction CONSTANT)
Q_PROPERTY(Fact* speed READ speed CONSTANT)
Q_PROPERTY(Fact* verticalSpeed READ verticalSpeed CONSTANT)
Fact* direction (void) { return &_directionFact; }
Fact* speed (void) { return &_speedFact; }
Fact* verticalSpeed (void) { return &_verticalSpeedFact; }
void setVehicle(Vehicle* vehicle);
static const char* _directionFactName;
static const char* _speedFactName;
static const char* _verticalSpeedFactName;
private:
Vehicle* _vehicle;
Fact _directionFact;
Fact _speedFact;
Fact _verticalSpeedFact;
};
class VehicleGPSFactGroup : public FactGroup
{
Q_OBJECT
public:
VehicleGPSFactGroup(QObject* parent = NULL);
Q_PROPERTY(Fact* hdop READ hdop CONSTANT)
Q_PROPERTY(Fact* vdop READ vdop CONSTANT)
Q_PROPERTY(Fact* courseOverGround READ courseOverGround CONSTANT)
Q_PROPERTY(Fact* count READ count CONSTANT)
Q_PROPERTY(Fact* lock READ lock CONSTANT)
Fact* hdop (void) { return &_hdopFact; }
Fact* vdop (void) { return &_vdopFact; }
Fact* courseOverGround (void) { return &_courseOverGroundFact; }
Fact* count (void) { return &_countFact; }
Fact* lock (void) { return &_lockFact; }
static const char* _hdopFactName;
static const char* _vdopFactName;
static const char* _courseOverGroundFactName;
static const char* _countFactName;
static const char* _lockFactName;
private slots:
void _setSatelliteCount(double val, QString);
void _setSatRawHDOP(double val);
void _setSatRawVDOP(double val);
void _setSatRawCOG(double val);
void _setSatLoc(UASInterface*, int fix);
private:
Vehicle* _vehicle;
Fact _hdopFact;
Fact _vdopFact;
Fact _courseOverGroundFact;
Fact _countFact;
Fact _lockFact;
class VehicleBatteryFactGroup : public FactGroup
{
Q_OBJECT
public:
VehicleBatteryFactGroup(QObject* parent = NULL);
Q_PROPERTY(Fact* voltage READ voltage CONSTANT)
Q_PROPERTY(Fact* percentRemaining READ percentRemaining CONSTANT)
Q_PROPERTY(Fact* mahConsumed READ mahConsumed CONSTANT)
Q_PROPERTY(Fact* current READ current CONSTANT)
Q_PROPERTY(Fact* temperature READ temperature CONSTANT)
Q_PROPERTY(Fact* cellCount READ cellCount CONSTANT)
/// If percentRemaining falls below this value, warning will be output through speech
Q_PROPERTY(Fact* percentRemainingAnnounce READ percentRemainingAnnounce CONSTANT)
Fact* voltage (void) { return &_voltageFact; }
Fact* percentRemaining (void) { return &_percentRemainingFact; }
Fact* percentRemainingAnnounce (void);
Fact* mahConsumed (void) { return &_mahConsumedFact; }
Fact* current (void) { return &_currentFact; }
Fact* temperature (void) { return &_temperatureFact; }
Fact* cellCount (void) { return &_cellCountFact; }
void setVehicle(Vehicle* vehicle);
static const char* _voltageFactName;
static const char* _percentRemainingFactName;
static const char* _percentRemainingAnnounceFactName;
static const char* _mahConsumedFactName;
static const char* _currentFactName;
static const char* _temperatureFactName;
static const char* _cellCountFactName;
static const char* _settingsGroup;
static const int _percentRemainingAnnounceDefault;
static const double _voltageUnavailable;
static const int _percentRemainingUnavailable;
static const int _mahConsumedUnavailable;
static const int _currentUnavailable;
static const double _temperatureUnavailable;
static const int _cellCountUnavailable;
private:
Vehicle* _vehicle;
Fact _voltageFact;
Fact _percentRemainingFact;
Fact _mahConsumedFact;
Fact _currentFact;
Fact _temperatureFact;
Fact _cellCountFact;
/// This fact is global to all Vehicles. We must allocated the first time we need it so we don't
/// run into QSettings application setup ordering issues.
static SettingsFact* _percentRemainingAnnounceFact;
Vehicle(LinkInterface* link,
int vehicleId,
MAV_AUTOPILOT firmwareType,
MAV_TYPE vehicleType,
FirmwarePluginManager* firmwarePluginManager,
AutoPilotPluginManager* autopilotPluginManager,
JoystickManager* joystickManager);
// The following is used to create a disconnected Vehicle. A disconnected vehicle is primarily used to access FactGroup information
// without needing a real connection.
Vehicle(QObject* parent = NULL);
Q_PROPERTY(int id READ id CONSTANT)
Q_PROPERTY(AutoPilotPlugin* autopilot MEMBER _autopilotPlugin CONSTANT)
Q_PROPERTY(QGeoCoordinate coordinate READ coordinate NOTIFY coordinateChanged)
Q_PROPERTY(bool coordinateValid READ coordinateValid NOTIFY coordinateValidChanged)
Q_PROPERTY(bool homePositionAvailable READ homePositionAvailable NOTIFY homePositionAvailableChanged)
Q_PROPERTY(QGeoCoordinate homePosition READ homePosition NOTIFY homePositionChanged)
Q_PROPERTY(bool armed READ armed WRITE setArmed NOTIFY armedChanged)
Q_PROPERTY(bool flightModeSetAvailable READ flightModeSetAvailable CONSTANT)
Q_PROPERTY(QStringList flightModes READ flightModes CONSTANT)
Q_PROPERTY(QString flightMode READ flightMode WRITE setFlightMode NOTIFY flightModeChanged)
Q_PROPERTY(bool hilMode READ hilMode WRITE setHilMode NOTIFY hilModeChanged)
Q_PROPERTY(bool missingParameters READ missingParameters NOTIFY missingParametersChanged)
Q_PROPERTY(QmlObjectListModel* trajectoryPoints READ trajectoryPoints CONSTANT)
Q_PROPERTY(float latitude READ latitude NOTIFY coordinateChanged)
Q_PROPERTY(float longitude READ longitude NOTIFY coordinateChanged)
Q_PROPERTY(QString currentState READ currentState NOTIFY currentStateChanged)
Q_PROPERTY(bool messageTypeNone READ messageTypeNone NOTIFY messageTypeChanged)
Q_PROPERTY(bool messageTypeNormal READ messageTypeNormal NOTIFY messageTypeChanged)
Q_PROPERTY(bool messageTypeWarning READ messageTypeWarning NOTIFY messageTypeChanged)
Q_PROPERTY(bool messageTypeError READ messageTypeError NOTIFY messageTypeChanged)
Q_PROPERTY(int newMessageCount READ newMessageCount NOTIFY newMessageCountChanged)
Q_PROPERTY(int messageCount READ messageCount NOTIFY messageCountChanged)
Q_PROPERTY(QString formatedMessages READ formatedMessages NOTIFY formatedMessagesChanged)
Q_PROPERTY(QString formatedMessage READ formatedMessage NOTIFY formatedMessageChanged)
Q_PROPERTY(QString latestError READ latestError NOTIFY latestErrorChanged)
Q_PROPERTY(int joystickMode READ joystickMode WRITE setJoystickMode NOTIFY joystickModeChanged)
Q_PROPERTY(QStringList joystickModes READ joystickModes CONSTANT)
Q_PROPERTY(bool joystickEnabled READ joystickEnabled WRITE setJoystickEnabled NOTIFY joystickEnabledChanged)
Q_PROPERTY(bool active READ active WRITE setActive NOTIFY activeChanged)
Q_PROPERTY(int flowImageIndex READ flowImageIndex NOTIFY flowImageIndexChanged)
Q_PROPERTY(int rcRSSI READ rcRSSI NOTIFY rcRSSIChanged)
Q_PROPERTY(bool px4Firmware READ px4Firmware CONSTANT)
Q_PROPERTY(bool apmFirmware READ apmFirmware CONSTANT)
Q_PROPERTY(bool genericFirmware READ genericFirmware CONSTANT)
Q_PROPERTY(bool connectionLost READ connectionLost NOTIFY connectionLostChanged)
Q_PROPERTY(bool connectionLostEnabled READ connectionLostEnabled WRITE setConnectionLostEnabled NOTIFY connectionLostEnabledChanged)
Q_PROPERTY(uint messagesReceived READ messagesReceived NOTIFY messagesReceivedChanged)
Q_PROPERTY(uint messagesSent READ messagesSent NOTIFY messagesSentChanged)
Q_PROPERTY(uint messagesLost READ messagesLost NOTIFY messagesLostChanged)
Q_PROPERTY(bool fixedWing READ fixedWing CONSTANT)
Q_PROPERTY(bool multiRotor READ multiRotor CONSTANT)
Q_PROPERTY(bool autoDisconnect MEMBER _autoDisconnect NOTIFY autoDisconnectChanged)
// FactGroup object model properties
Q_PROPERTY(Fact* roll READ roll CONSTANT)
Q_PROPERTY(Fact* pitch READ pitch CONSTANT)
Q_PROPERTY(Fact* heading READ heading CONSTANT)
Q_PROPERTY(Fact* groundSpeed READ groundSpeed CONSTANT)
Q_PROPERTY(Fact* airSpeed READ airSpeed CONSTANT)
Q_PROPERTY(Fact* climbRate READ climbRate CONSTANT)
Q_PROPERTY(Fact* altitudeRelative READ altitudeRelative CONSTANT)
Q_PROPERTY(Fact* altitudeAMSL READ altitudeAMSL CONSTANT)
Q_PROPERTY(FactGroup* gps READ gpsFactGroup CONSTANT)
Q_PROPERTY(FactGroup* battery READ batteryFactGroup CONSTANT)
Q_PROPERTY(FactGroup* wind READ windFactGroup CONSTANT)
Q_PROPERTY(FactGroup* vibration READ vibrationFactGroup CONSTANT)
/// Resets link status counters
Q_INVOKABLE void resetCounters ();
/// Returns the number of buttons which are reserved for firmware use in the MANUAL_CONTROL mavlink
/// message. For example PX4 Flight Stack reserves the first 8 buttons to simulate rc switches.
/// The remainder can be assigned to Vehicle actions.
/// @return -1: reserver all buttons, >0 number of buttons to reserve
Q_PROPERTY(int manualControlReservedButtonCount READ manualControlReservedButtonCount CONSTANT)
Q_INVOKABLE QString getMavIconColor();
// Called when the message drop-down is invoked to clear current count
Q_INVOKABLE void resetMessages();
Q_INVOKABLE void virtualTabletJoystickValue(double roll, double pitch, double yaw, double thrust);
// Property accessors
QGeoCoordinate coordinate(void) { return _coordinate; }
bool coordinateValid(void) { return _coordinateValid; }
JoystickModeRC, ///< Joystick emulates an RC Transmitter
JoystickModeAttitude,
JoystickModePosition,
JoystickModeForce,
JoystickModeVelocity,
JoystickModeMax
} JoystickMode_t;
int joystickMode(void);
void setJoystickMode(int mode);
/// List of joystick mode names
QStringList joystickModes(void);
bool joystickEnabled(void);
void setJoystickEnabled(bool enabled);
// Is vehicle active with respect to current active vehicle in QGC
bool active(void);
void setActive(bool active);
// Property accesors
int id(void) { return _id; }
MAV_AUTOPILOT firmwareType(void) const { return _firmwareType; }
MAV_TYPE vehicleType(void) const { return _vehicleType; }
/// Returns the highest quality link available to the Vehicle
LinkInterface* priorityLink(void);
/// Sends a message to all links accociated with this vehicle
void sendMessage(mavlink_message_t message);
/// Sends a message to the specified link
/// @return true: message sent, false: Link no longer connected
bool sendMessageOnLink(LinkInterface* link, mavlink_message_t message);
/// Sends the specified messages multiple times to the vehicle in order to attempt to
/// guarantee that it makes it to the vehicle.
void sendMessageMultiple(mavlink_message_t message);
/// Provides access to uas from vehicle. Temporary workaround until UAS is fully phased out.
UAS* uas(void) { return _uas; }
/// Provides access to uas from vehicle. Temporary workaround until AutoPilotPlugin is fully phased out.
AutoPilotPlugin* autopilotPlugin(void) { return _autopilotPlugin; }
/// Provides access to the Firmware Plugin for this Vehicle
FirmwarePlugin* firmwarePlugin(void) { return _firmwarePlugin; }
int manualControlReservedButtonCount(void);
MissionManager* missionManager(void) { return _missionManager; }
bool homePositionAvailable(void);
QGeoCoordinate homePosition(void);
bool armed(void) { return _armed; }
void setArmed(bool armed);
bool flightModeSetAvailable(void);
QStringList flightModes(void);
QString flightMode(void);
void setFlightMode(const QString& flightMode);
bool hilMode(void);
void setHilMode(bool hilMode);
bool fixedWing(void) const;
bool multiRotor(void) const;
QmlObjectListModel* trajectoryPoints(void) { return &_mapTrajectoryList; }
int flowImageIndex() { return _flowImageIndex; }
/// Requests the specified data stream from the vehicle
/// @param stream Stream which is being requested
/// @param rate Rate at which to send stream in Hz
/// @param sendMultiple Send multiple time to guarantee Vehicle reception
void requestDataStream(MAV_DATA_STREAM stream, uint16_t rate, bool sendMultiple = true);
typedef enum {
MessageNone,
MessageNormal,
MessageWarning,
MessageError
} MessageType_t;
bool messageTypeNone () { return _currentMessageType == MessageNone; }
bool messageTypeNormal () { return _currentMessageType == MessageNormal; }
bool messageTypeWarning () { return _currentMessageType == MessageWarning; }
bool messageTypeError () { return _currentMessageType == MessageError; }
int newMessageCount () { return _currentMessageCount; }
int messageCount () { return _messageCount; }
QString formatedMessages ();
QString formatedMessage () { return _formatedMessage; }
QString latestError () { return _latestError; }
float latitude () { return _coordinate.latitude(); }
float longitude () { return _coordinate.longitude(); }
bool mavPresent () { return _mav != NULL; }
QString currentState () { return _currentState; }
bool px4Firmware () { return _firmwareType == MAV_AUTOPILOT_PX4; }
bool apmFirmware () { return _firmwareType == MAV_AUTOPILOT_ARDUPILOTMEGA; }
bool genericFirmware () { return !px4Firmware() && !apmFirmware(); }
bool connectionLost () const { return _connectionLost; }
bool connectionLostEnabled() const { return _connectionLostEnabled; }
uint messagesReceived () { return _messagesReceived; }
uint messagesSent () { return _messagesSent; }
uint messagesLost () { return _messagesLost; }
Fact* roll (void) { return &_rollFact; }
Fact* heading (void) { return &_headingFact; }
Fact* pitch (void) { return &_pitchFact; }
Fact* airSpeed (void) { return &_airSpeedFact; }
Fact* groundSpeed (void) { return &_groundSpeedFact; }
Fact* climbRate (void) { return &_climbRateFact; }
Fact* altitudeRelative (void) { return &_altitudeRelativeFact; }
Fact* altitudeAMSL (void) { return &_altitudeAMSLFact; }
FactGroup* gpsFactGroup (void) { return &_gpsFactGroup; }
FactGroup* batteryFactGroup (void) { return &_batteryFactGroup; }
FactGroup* windFactGroup (void) { return &_windFactGroup; }
FactGroup* vibrationFactGroup (void) { return &_vibrationFactGroup; }
void setConnectionLostEnabled(bool connectionLostEnabled);
ParameterLoader* getParameterLoader(void);
bool containsLink(LinkInterface* link) { return _links.contains(link); }
public slots:
void setLatitude(double latitude);
void setLongitude(double longitude);
void coordinateChanged(QGeoCoordinate coordinate);
void coordinateValidChanged(bool coordinateValid);
void joystickModeChanged(int mode);
void joystickEnabledChanged(bool enabled);
void activeChanged(bool active);
void mavlinkMessageReceived(const mavlink_message_t& message);
void homePositionAvailableChanged(bool homePositionAvailable);
void homePositionChanged(const QGeoCoordinate& homePosition);
void armedChanged(bool armed);
void flightModeChanged(const QString& flightMode);
void hilModeChanged(bool hilMode);
void missingParametersChanged(bool missingParameters);
void connectionLostChanged(bool connectionLost);
void connectionLostEnabledChanged(bool connectionLostEnabled);
void autoDisconnectChanged(bool autoDisconnectChanged);
void messagesReceivedChanged ();
void messagesSentChanged ();
void messagesLostChanged ();
/// Used internally to move sendMessage call to main thread
void _sendMessageOnThread(mavlink_message_t message);
void _sendMessageOnLinkOnThread(LinkInterface* link, mavlink_message_t message);
void messageTypeChanged ();
void newMessageCountChanged ();
void messageCountChanged ();
void formatedMessagesChanged();
void formatedMessageChanged ();
void latestErrorChanged ();
void longitudeChanged ();
void currentConfigChanged ();
void currentStateChanged ();
/// New RC channel values
/// @param channelCount Number of available channels, cMaxRcChannels max
/// @param pwmValues -1 signals channel not available
void rcChannelsChanged(int channelCount, int pwmValues[cMaxRcChannels]);
/// Remote control RSSI changed (0% - 100%)
void remoteControlRSSIChanged(uint8_t rssi);
void mavlinkRawImu(mavlink_message_t message);
void mavlinkScaledImu1(mavlink_message_t message);
void mavlinkScaledImu2(mavlink_message_t message);
void mavlinkScaledImu3(mavlink_message_t message);
private slots:
void _mavlinkMessageReceived(LinkInterface* link, mavlink_message_t message);
void _sendMessage(mavlink_message_t message);
void _sendMessageOnLink(LinkInterface* link, mavlink_message_t message);
void _sendMessageMultipleNext(void);
void _parametersReady(bool parametersReady);
void _announceflightModeChanged(const QString& flightMode);
void _handleTextMessage (int newCount);
void _handletextMessageReceived (UASMessage* message);
/** @brief Attitude from main autopilot / system state */
void _updateAttitude (UASInterface* uas, double roll, double pitch, double yaw, quint64 timestamp);
/** @brief Attitude from one specific component / redundant autopilot */
void _updateAttitude (UASInterface* uas, int component, double roll, double pitch, double yaw, quint64 timestamp);
void _updateSpeed (UASInterface* uas, double _groundSpeed, double _airSpeed, quint64 timestamp);
void _updateAltitude (UASInterface* uas, double _altitudeAMSL, double _altitudeRelative, double _climbRate, quint64 timestamp);
void _updateNavigationControllerErrors (UASInterface* uas, double altitudeError, double speedError, double xtrackError);
void _updateNavigationControllerData (UASInterface *uas, float navRoll, float navPitch, float navBearing, float targetBearing, float targetDistance);
void _checkUpdate ();
void _updateState (UASInterface* system, QString name, QString description);
/** @brief A new camera image has arrived */
void _imageReady (UASInterface* uas);
private:
bool _containsLink(LinkInterface* link);
void _addLink(LinkInterface* link);
void _loadSettings(void);
void _saveSettings(void);
void _handleHomePosition(mavlink_message_t& message);
void _handleHeartbeat(mavlink_message_t& message);
void _handleRCChannels(mavlink_message_t& message);
void _handleRCChannelsRaw(mavlink_message_t& message);
void _handleBatteryStatus(mavlink_message_t& message);
void _handleSysStatus(mavlink_message_t& message);
void _handleVibration(mavlink_message_t& message);
void _missionManagerError(int errorCode, const QString& errorMsg);
void _mapTrajectoryStart(void);
void _mapTrajectoryStop(void);
void _say(const QString& text);
QString _vehicleIdSpeech(void);
int _id; ///< Mavlink system id
bool _active;
bool _disconnectedVehicle; ///< This Vehicle is a "disconnected" vehicle for ui use when no active vehicle is available
FirmwarePlugin* _firmwarePlugin;
AutoPilotPlugin* _autopilotPlugin;
JoystickMode_t _joystickMode;
QGeoCoordinate _coordinate;
bool _coordinateValid; ///< true: vehicle has 3d lock and therefore valid location
bool _homePositionAvailable;
QGeoCoordinate _homePosition;
UASInterface* _mav;
int _currentMessageCount;
int _messageCount;
int _currentErrorCount;
int _currentWarningCount;
int _currentNormalCount;
MessageType_t _currentMessageType;
QString _latestError;
float _navigationAltitudeError;
float _navigationSpeedError;
float _navigationCrosstrackError;
float _navigationTargetBearing;
QTimer* _refreshTimer;
QString _currentState;
int _updateCount;
bool _autoDisconnect; ///< true: Automatically disconnect vehicle when last connection goes away or lost heartbeat
// Lost connection handling
bool _connectionLost;
bool _connectionLostEnabled;
static const int _connectionLostTimeoutMSecs = 3500; // Signal connection lost after 3.5 seconds of missed heartbeat
QTimer _connectionLostTimer;
bool _missionManagerInitialRequestComplete;
ParameterLoader* _parameterLoader;
bool _armed; ///< true: vehicle is armed
uint8_t _base_mode; ///< base_mode from HEARTBEAT
uint32_t _custom_mode; ///< custom_mode from HEARTBEAT
/// Used to store a message being sent by sendMessageMultiple
typedef struct {
mavlink_message_t message; ///< Message to send multiple times
int retryCount; ///< Number of retries left
} SendMessageMultipleInfo_t;
QList<SendMessageMultipleInfo_t> _sendMessageMultipleList; ///< List of messages being sent multiple times
static const int _sendMessageMultipleRetries = 5;
static const int _sendMessageMultipleIntraMessageDelay = 500;
QTimer _sendMultipleTimer;
int _nextSendMessageMultipleIndex;
QTimer _mapTrajectoryTimer;
QmlObjectListModel _mapTrajectoryList;
QGeoCoordinate _mapTrajectoryLastCoordinate;
bool _mapTrajectoryHaveFirstCoordinate;
static const int _mapTrajectoryMsecsBetweenPoints = 1000;
FirmwarePluginManager* _firmwarePluginManager;
AutoPilotPluginManager* _autopilotPluginManager;
JoystickManager* _joystickManager;
int _flowImageIndex;
bool _allLinksInactiveSent; ///< true: allLinkInactive signal already sent one time
uint _messagesReceived;
uint _messagesSent;
uint _messagesLost;
uint8_t _messageSeq;
uint8_t _compID;
bool _heardFrom;
static const int _lowBatteryAnnounceRepeatMSecs; // Amount of time in between each low battery announcement
QElapsedTimer _lowBatteryAnnounceTimer;
// FactGroup facts
Fact _rollFact;
Fact _pitchFact;
Fact _headingFact;
Fact _groundSpeedFact;
Fact _airSpeedFact;
Fact _climbRateFact;
Fact _altitudeRelativeFact;
Fact _altitudeAMSLFact;
VehicleGPSFactGroup _gpsFactGroup;
VehicleBatteryFactGroup _batteryFactGroup;
VehicleWindFactGroup _windFactGroup;
VehicleVibrationFactGroup _vibrationFactGroup;
static const char* _rollFactName;
static const char* _pitchFactName;
static const char* _headingFactName;
static const char* _groundSpeedFactName;
static const char* _airSpeedFactName;
static const char* _climbRateFactName;
static const char* _altitudeRelativeFactName;
static const char* _altitudeAMSLFactName;
static const int _vehicleUIUpdateRateMSecs = 100;
static const char* _settingsGroup;
static const char* _joystickModeSettingsKey;
static const char* _joystickEnabledSettingsKey;