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{ MAV_SYS_STATUS_GEOFENCE, "GeoFence" },
{ MAV_SYS_STATUS_AHRS, "AHRS" },
{ MAV_SYS_STATUS_TERRAIN, "Terrain" },
{ MAV_SYS_STATUS_REVERSE_MOTOR, "Motors reversed" },
{ MAV_SYS_STATUS_LOGGING, "Logging" },
};
for (size_t i=0; i<sizeof(rgSensorInfo)/sizeof(sensorInfo_s); i++) {
const sensorInfo_s* pSensorInfo = &rgSensorInfo[i];
if ((_onboardControlSensorsEnabled & pSensorInfo->bit) && !(_onboardControlSensorsHealth & pSensorInfo->bit)) {
sensorList << pSensorInfo->sensorName;
}
}
return sensorList;
}
const char* VehicleGPSFactGroup::_hdopFactName = "hdop";
const char* VehicleGPSFactGroup::_vdopFactName = "vdop";
const char* VehicleGPSFactGroup::_courseOverGroundFactName = "courseOverGround";
const char* VehicleGPSFactGroup::_countFactName = "count";
const char* VehicleGPSFactGroup::_lockFactName = "lock";
VehicleGPSFactGroup::VehicleGPSFactGroup(QObject* parent)
: FactGroup(1000, ":/json/Vehicle/GPSFact.json", parent)
, _vehicle(NULL)
, _hdopFact (0, _hdopFactName, FactMetaData::valueTypeDouble)
, _vdopFact (0, _vdopFactName, FactMetaData::valueTypeDouble)
, _courseOverGroundFact (0, _courseOverGroundFactName, FactMetaData::valueTypeDouble)
, _countFact (0, _countFactName, FactMetaData::valueTypeInt32)
, _lockFact (0, _lockFactName, FactMetaData::valueTypeInt32)
{
_addFact(&_hdopFact, _hdopFactName);
_addFact(&_vdopFact, _vdopFactName);
_addFact(&_courseOverGroundFact, _courseOverGroundFactName);
_addFact(&_lockFact, _lockFactName);
_addFact(&_countFact, _countFactName);
_hdopFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
_vdopFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
_courseOverGroundFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
void Vehicle::startMavlinkLog()
{
doCommandLong(defaultComponentId(), MAV_CMD_LOGGING_START);
}
{
doCommandLong(defaultComponentId(), MAV_CMD_LOGGING_STOP);
}
void Vehicle::_ackMavlinkLogData(uint16_t sequence)
{
mavlink_message_t msg;
mavlink_logging_ack_t ack;
ack.sequence = sequence;
ack.target_component = defaultComponentId();
ack.target_system = id();
mavlink_msg_logging_ack_encode_chan(
_mavlink->getSystemId(),
_mavlink->getComponentId(),
priorityLink()->mavlinkChannel(),
&msg,
&ack);
sendMessageOnLink(priorityLink(), msg);
}
void Vehicle::_handleMavlinkLoggingData(mavlink_message_t& message)
{
mavlink_logging_data_t log;
mavlink_msg_logging_data_decode(&message, &log);
emit mavlinkLogData(this, log.target_system, log.target_component, log.sequence,
log.first_message_offset, QByteArray((const char*)log.data, log.length), false);
void Vehicle::_handleMavlinkLoggingDataAcked(mavlink_message_t& message)
Beat Küng
committed
mavlink_logging_data_acked_t log;
mavlink_msg_logging_data_acked_decode(&message, &log);
_ackMavlinkLogData(log.sequence);
emit mavlinkLogData(this, log.target_system, log.target_component, log.sequence,
log.first_message_offset, QByteArray((const char*)log.data, log.length), true);
void Vehicle::setFirmwarePluginInstanceData(QObject* firmwarePluginInstanceData)
{
firmwarePluginInstanceData->setParent(this);
_firmwarePluginInstanceData = firmwarePluginInstanceData;
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
void VehicleGPSFactGroup::setVehicle(Vehicle* vehicle)
{
_vehicle = vehicle;
if (!vehicle) {
// Disconnected Vehicle
return;
}
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connect(_vehicle->uas(), &UASInterface::localizationChanged, this, &VehicleGPSFactGroup::_setSatLoc);
UAS* pUas = dynamic_cast<UAS*>(_vehicle->uas());
connect(pUas, &UAS::satelliteCountChanged, this, &VehicleGPSFactGroup::_setSatelliteCount);
connect(pUas, &UAS::satRawHDOPChanged, this, &VehicleGPSFactGroup::_setSatRawHDOP);
connect(pUas, &UAS::satRawVDOPChanged, this, &VehicleGPSFactGroup::_setSatRawVDOP);
connect(pUas, &UAS::satRawCOGChanged, this, &VehicleGPSFactGroup::_setSatRawCOG);
}
void VehicleGPSFactGroup::_setSatelliteCount(double val, QString)
{
// I'm assuming that a negative value or over 99 means there is no GPS
if(val < 0.0) val = -1.0;
if(val > 99.0) val = -1.0;
_countFact.setRawValue(val);
}
void VehicleGPSFactGroup::_setSatRawHDOP(double val)
{
_hdopFact.setRawValue(val);
}
void VehicleGPSFactGroup::_setSatRawVDOP(double val)
{
_vdopFact.setRawValue(val);
}
void VehicleGPSFactGroup::_setSatRawCOG(double val)
{
_courseOverGroundFact.setRawValue(val);
}
void VehicleGPSFactGroup::_setSatLoc(UASInterface*, int fix)
{
_lockFact.setRawValue(fix);
// fix 0: lost, 1: at least one satellite, but no GPS fix, 2: 2D lock, 3: 3D lock
if (fix > 2) {
_vehicle->_setCoordinateValid(true);
}
}
const char* VehicleBatteryFactGroup::_voltageFactName = "voltage";
const char* VehicleBatteryFactGroup::_percentRemainingFactName = "percentRemaining";
const char* VehicleBatteryFactGroup::_mahConsumedFactName = "mahConsumed";
const char* VehicleBatteryFactGroup::_currentFactName = "current";
const char* VehicleBatteryFactGroup::_temperatureFactName = "temperature";
const char* VehicleBatteryFactGroup::_cellCountFactName = "cellCount";
const char* VehicleBatteryFactGroup::_settingsGroup = "Vehicle.battery";
const double VehicleBatteryFactGroup::_voltageUnavailable = -1.0;
const int VehicleBatteryFactGroup::_percentRemainingUnavailable = -1;
const int VehicleBatteryFactGroup::_mahConsumedUnavailable = -1;
const int VehicleBatteryFactGroup::_currentUnavailable = -1;
const double VehicleBatteryFactGroup::_temperatureUnavailable = -1.0;
const int VehicleBatteryFactGroup::_cellCountUnavailable = -1.0;
VehicleBatteryFactGroup::VehicleBatteryFactGroup(QObject* parent)
: FactGroup(1000, ":/json/Vehicle/BatteryFact.json", parent)
, _vehicle(NULL)
, _voltageFact (0, _voltageFactName, FactMetaData::valueTypeDouble)
, _percentRemainingFact (0, _percentRemainingFactName, FactMetaData::valueTypeInt32)
, _mahConsumedFact (0, _mahConsumedFactName, FactMetaData::valueTypeInt32)
, _currentFact (0, _currentFactName, FactMetaData::valueTypeInt32)
, _temperatureFact (0, _temperatureFactName, FactMetaData::valueTypeDouble)
, _cellCountFact (0, _cellCountFactName, FactMetaData::valueTypeInt32)
{
_addFact(&_voltageFact, _voltageFactName);
_addFact(&_percentRemainingFact, _percentRemainingFactName);
_addFact(&_mahConsumedFact, _mahConsumedFactName);
_addFact(&_currentFact, _currentFactName);
_addFact(&_temperatureFact, _temperatureFactName);
_addFact(&_cellCountFact, _cellCountFactName);
// Start out as not available
_voltageFact.setRawValue (_voltageUnavailable);
_percentRemainingFact.setRawValue (_percentRemainingUnavailable);
_mahConsumedFact.setRawValue (_mahConsumedUnavailable);
_currentFact.setRawValue (_currentUnavailable);
_temperatureFact.setRawValue (_temperatureUnavailable);
_cellCountFact.setRawValue (_cellCountUnavailable);
}
void VehicleBatteryFactGroup::setVehicle(Vehicle* vehicle)
{
_vehicle = vehicle;
}
const char* VehicleWindFactGroup::_directionFactName = "direction";
const char* VehicleWindFactGroup::_speedFactName = "speed";
const char* VehicleWindFactGroup::_verticalSpeedFactName = "verticalSpeed";
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VehicleWindFactGroup::VehicleWindFactGroup(QObject* parent)
: FactGroup(1000, ":/json/Vehicle/WindFact.json", parent)
, _vehicle(NULL)
, _directionFact (0, _directionFactName, FactMetaData::valueTypeDouble)
, _speedFact (0, _speedFactName, FactMetaData::valueTypeDouble)
, _verticalSpeedFact(0, _verticalSpeedFactName, FactMetaData::valueTypeDouble)
{
_addFact(&_directionFact, _directionFactName);
_addFact(&_speedFact, _speedFactName);
_addFact(&_verticalSpeedFact, _verticalSpeedFactName);
// Start out as not available "--.--"
_directionFact.setRawValue (std::numeric_limits<float>::quiet_NaN());
_speedFact.setRawValue (std::numeric_limits<float>::quiet_NaN());
_verticalSpeedFact.setRawValue (std::numeric_limits<float>::quiet_NaN());
}
void VehicleWindFactGroup::setVehicle(Vehicle* vehicle)
{
_vehicle = vehicle;
}
const char* VehicleVibrationFactGroup::_xAxisFactName = "xAxis";
const char* VehicleVibrationFactGroup::_yAxisFactName = "yAxis";
const char* VehicleVibrationFactGroup::_zAxisFactName = "zAxis";
const char* VehicleVibrationFactGroup::_clipCount1FactName = "clipCount1";
const char* VehicleVibrationFactGroup::_clipCount2FactName = "clipCount2";
const char* VehicleVibrationFactGroup::_clipCount3FactName = "clipCount3";
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VehicleVibrationFactGroup::VehicleVibrationFactGroup(QObject* parent)
: FactGroup(1000, ":/json/Vehicle/VibrationFact.json", parent)
, _vehicle(NULL)
, _xAxisFact (0, _xAxisFactName, FactMetaData::valueTypeDouble)
, _yAxisFact (0, _yAxisFactName, FactMetaData::valueTypeDouble)
, _zAxisFact (0, _zAxisFactName, FactMetaData::valueTypeDouble)
, _clipCount1Fact (0, _clipCount1FactName, FactMetaData::valueTypeUint32)
, _clipCount2Fact (0, _clipCount2FactName, FactMetaData::valueTypeUint32)
, _clipCount3Fact (0, _clipCount3FactName, FactMetaData::valueTypeUint32)
{
_addFact(&_xAxisFact, _xAxisFactName);
_addFact(&_yAxisFact, _yAxisFactName);
_addFact(&_zAxisFact, _zAxisFactName);
_addFact(&_clipCount1Fact, _clipCount1FactName);
_addFact(&_clipCount2Fact, _clipCount2FactName);
_addFact(&_clipCount3Fact, _clipCount3FactName);
// Start out as not available "--.--"
_xAxisFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
_yAxisFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
_zAxisFact.setRawValue(std::numeric_limits<float>::quiet_NaN());
}
void VehicleVibrationFactGroup::setVehicle(Vehicle* vehicle)
{
_vehicle = vehicle;
}