mavlink_px4.py 305 KB
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'''
MAVLink protocol implementation (auto-generated by mavgen.py)

Generated from: common.xml

Note: this file has been auto-generated. DO NOT EDIT
'''

import struct, array, mavutil, time, json

WIRE_PROTOCOL_VERSION = "1.0"


# some base types from mavlink_types.h
MAVLINK_TYPE_CHAR     = 0
MAVLINK_TYPE_UINT8_T  = 1
MAVLINK_TYPE_INT8_T   = 2
MAVLINK_TYPE_UINT16_T = 3
MAVLINK_TYPE_INT16_T  = 4
MAVLINK_TYPE_UINT32_T = 5
MAVLINK_TYPE_INT32_T  = 6
MAVLINK_TYPE_UINT64_T = 7
MAVLINK_TYPE_INT64_T  = 8
MAVLINK_TYPE_FLOAT    = 9
MAVLINK_TYPE_DOUBLE   = 10


class MAVLink_header(object):
    '''MAVLink message header'''
    def __init__(self, msgId, mlen=0, seq=0, srcSystem=0, srcComponent=0):
        self.mlen = mlen
        self.seq = seq
        self.srcSystem = srcSystem
        self.srcComponent = srcComponent
        self.msgId = msgId

    def pack(self):
        return struct.pack('BBBBBB', 254, self.mlen, self.seq,
                          self.srcSystem, self.srcComponent, self.msgId)

class MAVLink_message(object):
    '''base MAVLink message class'''
    def __init__(self, msgId, name):
        self._header     = MAVLink_header(msgId)
        self._payload    = None
        self._msgbuf     = None
        self._crc        = None
        self._fieldnames = []
        self._type       = name

    def get_msgbuf(self):
        if isinstance(self._msgbuf, str):
            return self._msgbuf
        return self._msgbuf.tostring()

    def get_header(self):
        return self._header

    def get_payload(self):
        return self._payload

    def get_crc(self):
        return self._crc

    def get_fieldnames(self):
        return self._fieldnames

    def get_type(self):
        return self._type

    def get_msgId(self):
        return self._header.msgId

    def get_srcSystem(self):
        return self._header.srcSystem

    def get_srcComponent(self):
        return self._header.srcComponent

    def get_seq(self):
        return self._header.seq

    def __str__(self):
        ret = '%s {' % self._type
        for a in self._fieldnames:
            v = getattr(self, a)
            ret += '%s : %s, ' % (a, v)
        ret = ret[0:-2] + '}'
        return ret            

    def to_dict(self):
        d = dict({})
        d['mavpackettype'] = self._type
        for a in self._fieldnames:
          d[a] = getattr(self, a)
        return d

    def to_json(self):
        return json.dumps(self.to_dict)

    def pack(self, mav, crc_extra, payload):
        self._payload = payload
        self._header  = MAVLink_header(self._header.msgId, len(payload), mav.seq,
                                       mav.srcSystem, mav.srcComponent)
        self._msgbuf = self._header.pack() + payload
        crc = mavutil.x25crc(self._msgbuf[1:])
        if True: # using CRC extra
            crc.accumulate(chr(crc_extra))
        self._crc = crc.crc
        self._msgbuf += struct.pack('<H', self._crc)
        return self._msgbuf


# enums

# MAV_AUTOPILOT
MAV_AUTOPILOT_GENERIC = 0 # Generic autopilot, full support for everything
MAV_AUTOPILOT_PIXHAWK = 1 # PIXHAWK autopilot, http://pixhawk.ethz.ch
MAV_AUTOPILOT_SLUGS = 2 # SLUGS autopilot, http://slugsuav.soe.ucsc.edu
MAV_AUTOPILOT_ARDUPILOTMEGA = 3 # ArduPilotMega / ArduCopter, http://diydrones.com
MAV_AUTOPILOT_OPENPILOT = 4 # OpenPilot, http://openpilot.org
MAV_AUTOPILOT_GENERIC_WAYPOINTS_ONLY = 5 # Generic autopilot only supporting simple waypoints
MAV_AUTOPILOT_GENERIC_WAYPOINTS_AND_SIMPLE_NAVIGATION_ONLY = 6 # Generic autopilot supporting waypoints and other simple navigation
                        # commands
MAV_AUTOPILOT_GENERIC_MISSION_FULL = 7 # Generic autopilot supporting the full mission command set
MAV_AUTOPILOT_INVALID = 8 # No valid autopilot, e.g. a GCS or other MAVLink component
MAV_AUTOPILOT_PPZ = 9 # PPZ UAV - http://nongnu.org/paparazzi
MAV_AUTOPILOT_UDB = 10 # UAV Dev Board
MAV_AUTOPILOT_FP = 11 # FlexiPilot
MAV_AUTOPILOT_PX4 = 12 # PX4 Autopilot - http://pixhawk.ethz.ch/px4/
MAV_AUTOPILOT_ENUM_END = 13 # 

# MAV_TYPE
MAV_TYPE_GENERIC = 0 # Generic micro air vehicle.
MAV_TYPE_FIXED_WING = 1 # Fixed wing aircraft.
MAV_TYPE_QUADROTOR = 2 # Quadrotor
MAV_TYPE_COAXIAL = 3 # Coaxial helicopter
MAV_TYPE_HELICOPTER = 4 # Normal helicopter with tail rotor.
MAV_TYPE_ANTENNA_TRACKER = 5 # Ground installation
MAV_TYPE_GCS = 6 # Operator control unit / ground control station
MAV_TYPE_AIRSHIP = 7 # Airship, controlled
MAV_TYPE_FREE_BALLOON = 8 # Free balloon, uncontrolled
MAV_TYPE_ROCKET = 9 # Rocket
MAV_TYPE_GROUND_ROVER = 10 # Ground rover
MAV_TYPE_SURFACE_BOAT = 11 # Surface vessel, boat, ship
MAV_TYPE_SUBMARINE = 12 # Submarine
MAV_TYPE_HEXAROTOR = 13 # Hexarotor
MAV_TYPE_OCTOROTOR = 14 # Octorotor
MAV_TYPE_TRICOPTER = 15 # Octorotor
MAV_TYPE_FLAPPING_WING = 16 # Flapping wing
MAV_TYPE_KITE = 17 # Flapping wing
MAV_TYPE_ENUM_END = 18 # 

# MAV_MODE_FLAG
MAV_MODE_FLAG_CUSTOM_MODE_ENABLED = 1 # 0b00000001 Reserved for future use.
MAV_MODE_FLAG_TEST_ENABLED = 2 # 0b00000010 system has a test mode enabled. This flag is intended for
                        # temporary system tests and should not be
                        # used for stable implementations.
MAV_MODE_FLAG_AUTO_ENABLED = 4 # 0b00000100 autonomous mode enabled, system finds its own goal
                        # positions. Guided flag can be set or not,
                        # depends on the actual implementation.
MAV_MODE_FLAG_GUIDED_ENABLED = 8 # 0b00001000 guided mode enabled, system flies MISSIONs / mission items.
MAV_MODE_FLAG_STABILIZE_ENABLED = 16 # 0b00010000 system stabilizes electronically its attitude (and
                        # optionally position). It needs however
                        # further control inputs to move around.
MAV_MODE_FLAG_HIL_ENABLED = 32 # 0b00100000 hardware in the loop simulation. All motors / actuators are
                        # blocked, but internal software is full
                        # operational.
MAV_MODE_FLAG_MANUAL_INPUT_ENABLED = 64 # 0b01000000 remote control input is enabled.
MAV_MODE_FLAG_SAFETY_ARMED = 128 # 0b10000000 MAV safety set to armed. Motors are enabled / running / can
                        # start. Ready to fly.
MAV_MODE_FLAG_ENUM_END = 129 # 

# MAV_MODE_FLAG_DECODE_POSITION
MAV_MODE_FLAG_DECODE_POSITION_CUSTOM_MODE = 1 # Eighth bit: 00000001
MAV_MODE_FLAG_DECODE_POSITION_TEST = 2 # Seventh bit: 00000010
MAV_MODE_FLAG_DECODE_POSITION_AUTO = 4 # Sixt bit:   00000100
MAV_MODE_FLAG_DECODE_POSITION_GUIDED = 8 # Fifth bit:  00001000
MAV_MODE_FLAG_DECODE_POSITION_STABILIZE = 16 # Fourth bit: 00010000
MAV_MODE_FLAG_DECODE_POSITION_HIL = 32 # Third bit:  00100000
MAV_MODE_FLAG_DECODE_POSITION_MANUAL = 64 # Second bit: 01000000
MAV_MODE_FLAG_DECODE_POSITION_SAFETY = 128 # First bit:  10000000
MAV_MODE_FLAG_DECODE_POSITION_ENUM_END = 129 # 

# MAV_GOTO
MAV_GOTO_DO_HOLD = 0 # Hold at the current position.
MAV_GOTO_DO_CONTINUE = 1 # Continue with the next item in mission execution.
MAV_GOTO_HOLD_AT_CURRENT_POSITION = 2 # Hold at the current position of the system
MAV_GOTO_HOLD_AT_SPECIFIED_POSITION = 3 # Hold at the position specified in the parameters of the DO_HOLD action
MAV_GOTO_ENUM_END = 4 # 

# MAV_MODE
MAV_MODE_PREFLIGHT = 0 # System is not ready to fly, booting, calibrating, etc. No flag is set.
MAV_MODE_MANUAL_DISARMED = 64 # System is allowed to be active, under manual (RC) control, no
                        # stabilization
MAV_MODE_TEST_DISARMED = 66 # UNDEFINED mode. This solely depends on the autopilot - use with
                        # caution, intended for developers only.
MAV_MODE_STABILIZE_DISARMED = 80 # System is allowed to be active, under assisted RC control.
MAV_MODE_GUIDED_DISARMED = 88 # System is allowed to be active, under autonomous control, manual
                        # setpoint
MAV_MODE_AUTO_DISARMED = 92 # System is allowed to be active, under autonomous control and
                        # navigation (the trajectory is decided
                        # onboard and not pre-programmed by MISSIONs)
MAV_MODE_MANUAL_ARMED = 192 # System is allowed to be active, under manual (RC) control, no
                        # stabilization
MAV_MODE_TEST_ARMED = 194 # UNDEFINED mode. This solely depends on the autopilot - use with
                        # caution, intended for developers only.
MAV_MODE_STABILIZE_ARMED = 208 # System is allowed to be active, under assisted RC control.
MAV_MODE_GUIDED_ARMED = 216 # System is allowed to be active, under autonomous control, manual
                        # setpoint
MAV_MODE_AUTO_ARMED = 220 # System is allowed to be active, under autonomous control and
                        # navigation (the trajectory is decided
                        # onboard and not pre-programmed by MISSIONs)
MAV_MODE_ENUM_END = 221 # 

# MAV_STATE
MAV_STATE_UNINIT = 0 # Uninitialized system, state is unknown.
MAV_STATE_BOOT = 1 # System is booting up.
MAV_STATE_CALIBRATING = 2 # System is calibrating and not flight-ready.
MAV_STATE_STANDBY = 3 # System is grounded and on standby. It can be launched any time.
MAV_STATE_ACTIVE = 4 # System is active and might be already airborne. Motors are engaged.
MAV_STATE_CRITICAL = 5 # System is in a non-normal flight mode. It can however still navigate.
MAV_STATE_EMERGENCY = 6 # System is in a non-normal flight mode. It lost control over parts or
                        # over the whole airframe. It is in mayday and
                        # going down.
MAV_STATE_POWEROFF = 7 # System just initialized its power-down sequence, will shut down now.
MAV_STATE_ENUM_END = 8 # 

# MAV_COMPONENT
MAV_COMP_ID_ALL = 0 # 
MAV_COMP_ID_CAMERA = 100 # 
MAV_COMP_ID_SERVO1 = 140 # 
MAV_COMP_ID_SERVO2 = 141 # 
MAV_COMP_ID_SERVO3 = 142 # 
MAV_COMP_ID_SERVO4 = 143 # 
MAV_COMP_ID_SERVO5 = 144 # 
MAV_COMP_ID_SERVO6 = 145 # 
MAV_COMP_ID_SERVO7 = 146 # 
MAV_COMP_ID_SERVO8 = 147 # 
MAV_COMP_ID_SERVO9 = 148 # 
MAV_COMP_ID_SERVO10 = 149 # 
MAV_COMP_ID_SERVO11 = 150 # 
MAV_COMP_ID_SERVO12 = 151 # 
MAV_COMP_ID_SERVO13 = 152 # 
MAV_COMP_ID_SERVO14 = 153 # 
MAV_COMP_ID_MAPPER = 180 # 
MAV_COMP_ID_MISSIONPLANNER = 190 # 
MAV_COMP_ID_PATHPLANNER = 195 # 
MAV_COMP_ID_IMU = 200 # 
MAV_COMP_ID_IMU_2 = 201 # 
MAV_COMP_ID_IMU_3 = 202 # 
MAV_COMP_ID_GPS = 220 # 
MAV_COMP_ID_UDP_BRIDGE = 240 # 
MAV_COMP_ID_UART_BRIDGE = 241 # 
MAV_COMP_ID_SYSTEM_CONTROL = 250 # 
MAV_COMPONENT_ENUM_END = 251 # 

# MAV_FRAME
MAV_FRAME_GLOBAL = 0 # Global coordinate frame, WGS84 coordinate system. First value / x:
                        # latitude, second value / y: longitude, third
                        # value / z: positive altitude over mean sea
                        # level (MSL)
MAV_FRAME_LOCAL_NED = 1 # Local coordinate frame, Z-up (x: north, y: east, z: down).
MAV_FRAME_MISSION = 2 # NOT a coordinate frame, indicates a mission command.
MAV_FRAME_GLOBAL_RELATIVE_ALT = 3 # Global coordinate frame, WGS84 coordinate system, relative altitude
                        # over ground with respect to the home
                        # position. First value / x: latitude, second
                        # value / y: longitude, third value / z:
                        # positive altitude with 0 being at the
                        # altitude of the home location.
MAV_FRAME_LOCAL_ENU = 4 # Local coordinate frame, Z-down (x: east, y: north, z: up)
MAV_FRAME_ENUM_END = 5 # 

# MAVLINK_DATA_STREAM_TYPE
MAVLINK_DATA_STREAM_IMG_JPEG = 1 # 
MAVLINK_DATA_STREAM_IMG_BMP = 2 # 
MAVLINK_DATA_STREAM_IMG_RAW8U = 3 # 
MAVLINK_DATA_STREAM_IMG_RAW32U = 4 # 
MAVLINK_DATA_STREAM_IMG_PGM = 5 # 
MAVLINK_DATA_STREAM_IMG_PNG = 6 # 
MAVLINK_DATA_STREAM_TYPE_ENUM_END = 7 # 

# MAV_CMD
MAV_CMD_NAV_WAYPOINT = 16 # Navigate to MISSION.
MAV_CMD_NAV_LOITER_UNLIM = 17 # Loiter around this MISSION an unlimited amount of time
MAV_CMD_NAV_LOITER_TURNS = 18 # Loiter around this MISSION for X turns
MAV_CMD_NAV_LOITER_TIME = 19 # Loiter around this MISSION for X seconds
MAV_CMD_NAV_RETURN_TO_LAUNCH = 20 # Return to launch location
MAV_CMD_NAV_LAND = 21 # Land at location
MAV_CMD_NAV_TAKEOFF = 22 # Takeoff from ground / hand
MAV_CMD_NAV_ROI = 80 # Sets the region of interest (ROI) for a sensor set or the vehicle
                        # itself. This can then be used by the
                        # vehicles control system to control the
                        # vehicle attitude and the attitude of various
                        # sensors such as cameras.
MAV_CMD_NAV_PATHPLANNING = 81 # Control autonomous path planning on the MAV.
MAV_CMD_NAV_LAST = 95 # NOP - This command is only used to mark the upper limit of the
                        # NAV/ACTION commands in the enumeration
MAV_CMD_CONDITION_DELAY = 112 # Delay mission state machine.
MAV_CMD_CONDITION_CHANGE_ALT = 113 # Ascend/descend at rate.  Delay mission state machine until desired
                        # altitude reached.
MAV_CMD_CONDITION_DISTANCE = 114 # Delay mission state machine until within desired distance of next NAV
                        # point.
MAV_CMD_CONDITION_YAW = 115 # Reach a certain target angle.
MAV_CMD_CONDITION_LAST = 159 # NOP - This command is only used to mark the upper limit of the
                        # CONDITION commands in the enumeration
MAV_CMD_DO_SET_MODE = 176 # Set system mode.
MAV_CMD_DO_JUMP = 177 # Jump to the desired command in the mission list.  Repeat this action
                        # only the specified number of times
MAV_CMD_DO_CHANGE_SPEED = 178 # Change speed and/or throttle set points.
MAV_CMD_DO_SET_HOME = 179 # Changes the home location either to the current location or a
                        # specified location.
MAV_CMD_DO_SET_PARAMETER = 180 # Set a system parameter.  Caution!  Use of this command requires
                        # knowledge of the numeric enumeration value
                        # of the parameter.
MAV_CMD_DO_SET_RELAY = 181 # Set a relay to a condition.
MAV_CMD_DO_REPEAT_RELAY = 182 # Cycle a relay on and off for a desired number of cyles with a desired
                        # period.
MAV_CMD_DO_SET_SERVO = 183 # Set a servo to a desired PWM value.
MAV_CMD_DO_REPEAT_SERVO = 184 # Cycle a between its nominal setting and a desired PWM for a desired
                        # number of cycles with a desired period.
MAV_CMD_DO_CONTROL_VIDEO = 200 # Control onboard camera system.
MAV_CMD_DO_LAST = 240 # NOP - This command is only used to mark the upper limit of the DO
                        # commands in the enumeration
MAV_CMD_PREFLIGHT_CALIBRATION = 241 # Trigger calibration. This command will be only accepted if in pre-
                        # flight mode.
MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS = 242 # Set sensor offsets. This command will be only accepted if in pre-
                        # flight mode.
MAV_CMD_PREFLIGHT_STORAGE = 245 # Request storage of different parameter values and logs. This command
                        # will be only accepted if in pre-flight mode.
MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN = 246 # Request the reboot or shutdown of system components.
MAV_CMD_OVERRIDE_GOTO = 252 # Hold / continue the current action
MAV_CMD_MISSION_START = 300 # start running a mission
MAV_CMD_COMPONENT_ARM_DISARM = 400 # Arms / Disarms a component
MAV_CMD_ENUM_END = 401 # 

# MAV_DATA_STREAM
MAV_DATA_STREAM_ALL = 0 # Enable all data streams
MAV_DATA_STREAM_RAW_SENSORS = 1 # Enable IMU_RAW, GPS_RAW, GPS_STATUS packets.
MAV_DATA_STREAM_EXTENDED_STATUS = 2 # Enable GPS_STATUS, CONTROL_STATUS, AUX_STATUS
MAV_DATA_STREAM_RC_CHANNELS = 3 # Enable RC_CHANNELS_SCALED, RC_CHANNELS_RAW, SERVO_OUTPUT_RAW
MAV_DATA_STREAM_RAW_CONTROLLER = 4 # Enable ATTITUDE_CONTROLLER_OUTPUT, POSITION_CONTROLLER_OUTPUT,
                        # NAV_CONTROLLER_OUTPUT.
MAV_DATA_STREAM_POSITION = 6 # Enable LOCAL_POSITION, GLOBAL_POSITION/GLOBAL_POSITION_INT messages.
MAV_DATA_STREAM_EXTRA1 = 10 # Dependent on the autopilot
MAV_DATA_STREAM_EXTRA2 = 11 # Dependent on the autopilot
MAV_DATA_STREAM_EXTRA3 = 12 # Dependent on the autopilot
MAV_DATA_STREAM_ENUM_END = 13 # 

# MAV_ROI
MAV_ROI_NONE = 0 # No region of interest.
MAV_ROI_WPNEXT = 1 # Point toward next MISSION.
MAV_ROI_WPINDEX = 2 # Point toward given MISSION.
MAV_ROI_LOCATION = 3 # Point toward fixed location.
MAV_ROI_TARGET = 4 # Point toward of given id.
MAV_ROI_ENUM_END = 5 # 

# MAV_CMD_ACK
MAV_CMD_ACK_OK = 1 # Command / mission item is ok.
MAV_CMD_ACK_ERR_FAIL = 2 # Generic error message if none of the other reasons fails or if no
                        # detailed error reporting is implemented.
MAV_CMD_ACK_ERR_ACCESS_DENIED = 3 # The system is refusing to accept this command from this source /
                        # communication partner.
MAV_CMD_ACK_ERR_NOT_SUPPORTED = 4 # Command or mission item is not supported, other commands would be
                        # accepted.
MAV_CMD_ACK_ERR_COORDINATE_FRAME_NOT_SUPPORTED = 5 # The coordinate frame of this command / mission item is not supported.
MAV_CMD_ACK_ERR_COORDINATES_OUT_OF_RANGE = 6 # The coordinate frame of this command is ok, but he coordinate values
                        # exceed the safety limits of this system.
                        # This is a generic error, please use the more
                        # specific error messages below if possible.
MAV_CMD_ACK_ERR_X_LAT_OUT_OF_RANGE = 7 # The X or latitude value is out of range.
MAV_CMD_ACK_ERR_Y_LON_OUT_OF_RANGE = 8 # The Y or longitude value is out of range.
MAV_CMD_ACK_ERR_Z_ALT_OUT_OF_RANGE = 9 # The Z or altitude value is out of range.
MAV_CMD_ACK_ENUM_END = 10 # 

# MAV_PARAM_TYPE
MAV_PARAM_TYPE_UINT8 = 1 # 8-bit unsigned integer
MAV_PARAM_TYPE_INT8 = 2 # 8-bit signed integer
MAV_PARAM_TYPE_UINT16 = 3 # 16-bit unsigned integer
MAV_PARAM_TYPE_INT16 = 4 # 16-bit signed integer
MAV_PARAM_TYPE_UINT32 = 5 # 32-bit unsigned integer
MAV_PARAM_TYPE_INT32 = 6 # 32-bit signed integer
MAV_PARAM_TYPE_UINT64 = 7 # 64-bit unsigned integer
MAV_PARAM_TYPE_INT64 = 8 # 64-bit signed integer
MAV_PARAM_TYPE_REAL32 = 9 # 32-bit floating-point
MAV_PARAM_TYPE_REAL64 = 10 # 64-bit floating-point
MAV_PARAM_TYPE_ENUM_END = 11 # 

# MAV_RESULT
MAV_RESULT_ACCEPTED = 0 # Command ACCEPTED and EXECUTED
MAV_RESULT_TEMPORARILY_REJECTED = 1 # Command TEMPORARY REJECTED/DENIED
MAV_RESULT_DENIED = 2 # Command PERMANENTLY DENIED
MAV_RESULT_UNSUPPORTED = 3 # Command UNKNOWN/UNSUPPORTED
MAV_RESULT_FAILED = 4 # Command executed, but failed
MAV_RESULT_ENUM_END = 5 # 

# MAV_MISSION_RESULT
MAV_MISSION_ACCEPTED = 0 # mission accepted OK
MAV_MISSION_ERROR = 1 # generic error / not accepting mission commands at all right now
MAV_MISSION_UNSUPPORTED_FRAME = 2 # coordinate frame is not supported
MAV_MISSION_UNSUPPORTED = 3 # command is not supported
MAV_MISSION_NO_SPACE = 4 # mission item exceeds storage space
MAV_MISSION_INVALID = 5 # one of the parameters has an invalid value
MAV_MISSION_INVALID_PARAM1 = 6 # param1 has an invalid value
MAV_MISSION_INVALID_PARAM2 = 7 # param2 has an invalid value
MAV_MISSION_INVALID_PARAM3 = 8 # param3 has an invalid value
MAV_MISSION_INVALID_PARAM4 = 9 # param4 has an invalid value
MAV_MISSION_INVALID_PARAM5_X = 10 # x/param5 has an invalid value
MAV_MISSION_INVALID_PARAM6_Y = 11 # y/param6 has an invalid value
MAV_MISSION_INVALID_PARAM7 = 12 # param7 has an invalid value
MAV_MISSION_INVALID_SEQUENCE = 13 # received waypoint out of sequence
MAV_MISSION_DENIED = 14 # not accepting any mission commands from this communication partner
MAV_MISSION_RESULT_ENUM_END = 15 # 

# MAV_SEVERITY
MAV_SEVERITY_EMERGENCY = 0 # System is unusable. This is a "panic" condition.
MAV_SEVERITY_ALERT = 1 # Action should be taken immediately. Indicates error in non-critical
                        # systems.
MAV_SEVERITY_CRITICAL = 2 # Action must be taken immediately. Indicates failure in a primary
                        # system.
MAV_SEVERITY_ERROR = 3 # Indicates an error in secondary/redundant systems.
MAV_SEVERITY_WARNING = 4 # Indicates about a possible future error if this is not resolved within
                        # a given timeframe. Example would be a low
                        # battery warning.
MAV_SEVERITY_NOTICE = 5 # An unusual event has occured, though not an error condition. This
                        # should be investigated for the root cause.
MAV_SEVERITY_INFO = 6 # Normal operational messages. Useful for logging. No action is required
                        # for these messages.
MAV_SEVERITY_DEBUG = 7 # Useful non-operational messages that can assist in debugging. These
                        # should not occur during normal operation.
MAV_SEVERITY_ENUM_END = 8 # 

# message IDs
MAVLINK_MSG_ID_BAD_DATA = -1
MAVLINK_MSG_ID_HEARTBEAT = 0
MAVLINK_MSG_ID_SYS_STATUS = 1
MAVLINK_MSG_ID_SYSTEM_TIME = 2
MAVLINK_MSG_ID_PING = 4
MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL = 5
MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK = 6
MAVLINK_MSG_ID_AUTH_KEY = 7
MAVLINK_MSG_ID_SET_MODE = 11
MAVLINK_MSG_ID_PARAM_REQUEST_READ = 20
MAVLINK_MSG_ID_PARAM_REQUEST_LIST = 21
MAVLINK_MSG_ID_PARAM_VALUE = 22
MAVLINK_MSG_ID_PARAM_SET = 23
MAVLINK_MSG_ID_GPS_RAW_INT = 24
MAVLINK_MSG_ID_GPS_STATUS = 25
MAVLINK_MSG_ID_SCALED_IMU = 26
MAVLINK_MSG_ID_RAW_IMU = 27
MAVLINK_MSG_ID_RAW_PRESSURE = 28
MAVLINK_MSG_ID_SCALED_PRESSURE = 29
MAVLINK_MSG_ID_ATTITUDE = 30
MAVLINK_MSG_ID_ATTITUDE_QUATERNION = 31
MAVLINK_MSG_ID_LOCAL_POSITION_NED = 32
MAVLINK_MSG_ID_GLOBAL_POSITION_INT = 33
MAVLINK_MSG_ID_RC_CHANNELS_SCALED = 34
MAVLINK_MSG_ID_RC_CHANNELS_RAW = 35
MAVLINK_MSG_ID_SERVO_OUTPUT_RAW = 36
MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST = 37
MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST = 38
MAVLINK_MSG_ID_MISSION_ITEM = 39
MAVLINK_MSG_ID_MISSION_REQUEST = 40
MAVLINK_MSG_ID_MISSION_SET_CURRENT = 41
MAVLINK_MSG_ID_MISSION_CURRENT = 42
MAVLINK_MSG_ID_MISSION_REQUEST_LIST = 43
MAVLINK_MSG_ID_MISSION_COUNT = 44
MAVLINK_MSG_ID_MISSION_CLEAR_ALL = 45
MAVLINK_MSG_ID_MISSION_ITEM_REACHED = 46
MAVLINK_MSG_ID_MISSION_ACK = 47
MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN = 48
MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN = 49
MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT = 50
MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT = 51
MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT = 52
MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT = 53
MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA = 54
MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA = 55
MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST = 56
MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST = 57
MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT = 58
MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT = 59
MAVLINK_MSG_ID_SET_QUAD_MOTORS_SETPOINT = 60
MAVLINK_MSG_ID_SET_QUAD_SWARM_ROLL_PITCH_YAW_THRUST = 61
MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT = 62
MAVLINK_MSG_ID_SET_QUAD_SWARM_LED_ROLL_PITCH_YAW_THRUST = 63
MAVLINK_MSG_ID_STATE_CORRECTION = 64
MAVLINK_MSG_ID_REQUEST_DATA_STREAM = 66
MAVLINK_MSG_ID_DATA_STREAM = 67
MAVLINK_MSG_ID_MANUAL_CONTROL = 69
MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE = 70
MAVLINK_MSG_ID_VFR_HUD = 74
MAVLINK_MSG_ID_COMMAND_LONG = 76
MAVLINK_MSG_ID_COMMAND_ACK = 77
MAVLINK_MSG_ID_ROLL_PITCH_YAW_RATES_THRUST_SETPOINT = 80
MAVLINK_MSG_ID_MANUAL_SETPOINT = 81
MAVLINK_MSG_ID_LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET = 89
MAVLINK_MSG_ID_HIL_STATE = 90
MAVLINK_MSG_ID_HIL_CONTROLS = 91
MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW = 92
MAVLINK_MSG_ID_OPTICAL_FLOW = 100
MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE = 101
MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE = 102
MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE = 103
MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE = 104
MAVLINK_MSG_ID_HIGHRES_IMU = 105
MAVLINK_MSG_ID_FILE_TRANSFER_START = 110
MAVLINK_MSG_ID_FILE_TRANSFER_DIR_LIST = 111
MAVLINK_MSG_ID_FILE_TRANSFER_RES = 112
MAVLINK_MSG_ID_BATTERY_STATUS = 147
MAVLINK_MSG_ID_SETPOINT_8DOF = 148
MAVLINK_MSG_ID_SETPOINT_6DOF = 149
MAVLINK_MSG_ID_MEMORY_VECT = 249
MAVLINK_MSG_ID_DEBUG_VECT = 250
MAVLINK_MSG_ID_NAMED_VALUE_FLOAT = 251
MAVLINK_MSG_ID_NAMED_VALUE_INT = 252
MAVLINK_MSG_ID_STATUSTEXT = 253
MAVLINK_MSG_ID_DEBUG = 254

class MAVLink_heartbeat_message(MAVLink_message):
        '''
        The heartbeat message shows that a system is present and
        responding. The type of the MAV and Autopilot hardware allow
        the receiving system to treat further messages from this
        system appropriate (e.g. by laying out the user interface
        based on the autopilot).
        '''
        def __init__(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_HEARTBEAT, 'HEARTBEAT')
                self._fieldnames = ['type', 'autopilot', 'base_mode', 'custom_mode', 'system_status', 'mavlink_version']
                self.type = type
                self.autopilot = autopilot
                self.base_mode = base_mode
                self.custom_mode = custom_mode
                self.system_status = system_status
                self.mavlink_version = mavlink_version

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 50, struct.pack('<IBBBBB', self.custom_mode, self.type, self.autopilot, self.base_mode, self.system_status, self.mavlink_version))

class MAVLink_sys_status_message(MAVLink_message):
        '''
        The general system state. If the system is following the
        MAVLink standard, the system state is mainly defined by three
        orthogonal states/modes: The system mode, which is either
        LOCKED (motors shut down and locked), MANUAL (system under RC
        control), GUIDED (system with autonomous position control,
        position setpoint controlled manually) or AUTO (system guided
        by path/waypoint planner). The NAV_MODE defined the current
        flight state: LIFTOFF (often an open-loop maneuver), LANDING,
        WAYPOINTS or VECTOR. This represents the internal navigation
        state machine. The system status shows wether the system is
        currently active or not and if an emergency occured. During
        the CRITICAL and EMERGENCY states the MAV is still considered
        to be active, but should start emergency procedures
        autonomously. After a failure occured it should first move
        from active to critical to allow manual intervention and then
        move to emergency after a certain timeout.
        '''
        def __init__(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SYS_STATUS, 'SYS_STATUS')
                self._fieldnames = ['onboard_control_sensors_present', 'onboard_control_sensors_enabled', 'onboard_control_sensors_health', 'load', 'voltage_battery', 'current_battery', 'battery_remaining', 'drop_rate_comm', 'errors_comm', 'errors_count1', 'errors_count2', 'errors_count3', 'errors_count4']
                self.onboard_control_sensors_present = onboard_control_sensors_present
                self.onboard_control_sensors_enabled = onboard_control_sensors_enabled
                self.onboard_control_sensors_health = onboard_control_sensors_health
                self.load = load
                self.voltage_battery = voltage_battery
                self.current_battery = current_battery
                self.battery_remaining = battery_remaining
                self.drop_rate_comm = drop_rate_comm
                self.errors_comm = errors_comm
                self.errors_count1 = errors_count1
                self.errors_count2 = errors_count2
                self.errors_count3 = errors_count3
                self.errors_count4 = errors_count4

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 124, struct.pack('<IIIHHhHHHHHHb', self.onboard_control_sensors_present, self.onboard_control_sensors_enabled, self.onboard_control_sensors_health, self.load, self.voltage_battery, self.current_battery, self.drop_rate_comm, self.errors_comm, self.errors_count1, self.errors_count2, self.errors_count3, self.errors_count4, self.battery_remaining))

class MAVLink_system_time_message(MAVLink_message):
        '''
        The system time is the time of the master clock, typically the
        computer clock of the main onboard computer.
        '''
        def __init__(self, time_unix_usec, time_boot_ms):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SYSTEM_TIME, 'SYSTEM_TIME')
                self._fieldnames = ['time_unix_usec', 'time_boot_ms']
                self.time_unix_usec = time_unix_usec
                self.time_boot_ms = time_boot_ms

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 137, struct.pack('<QI', self.time_unix_usec, self.time_boot_ms))

class MAVLink_ping_message(MAVLink_message):
        '''
        A ping message either requesting or responding to a ping. This
        allows to measure the system latencies, including serial port,
        radio modem and UDP connections.
        '''
        def __init__(self, time_usec, seq, target_system, target_component):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_PING, 'PING')
                self._fieldnames = ['time_usec', 'seq', 'target_system', 'target_component']
                self.time_usec = time_usec
                self.seq = seq
                self.target_system = target_system
                self.target_component = target_component

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 237, struct.pack('<QIBB', self.time_usec, self.seq, self.target_system, self.target_component))

class MAVLink_change_operator_control_message(MAVLink_message):
        '''
        Request to control this MAV
        '''
        def __init__(self, target_system, control_request, version, passkey):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL, 'CHANGE_OPERATOR_CONTROL')
                self._fieldnames = ['target_system', 'control_request', 'version', 'passkey']
                self.target_system = target_system
                self.control_request = control_request
                self.version = version
                self.passkey = passkey

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 217, struct.pack('<BBB25s', self.target_system, self.control_request, self.version, self.passkey))

class MAVLink_change_operator_control_ack_message(MAVLink_message):
        '''
        Accept / deny control of this MAV
        '''
        def __init__(self, gcs_system_id, control_request, ack):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK, 'CHANGE_OPERATOR_CONTROL_ACK')
                self._fieldnames = ['gcs_system_id', 'control_request', 'ack']
                self.gcs_system_id = gcs_system_id
                self.control_request = control_request
                self.ack = ack

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 104, struct.pack('<BBB', self.gcs_system_id, self.control_request, self.ack))

class MAVLink_auth_key_message(MAVLink_message):
        '''
        Emit an encrypted signature / key identifying this system.
        PLEASE NOTE: This protocol has been kept simple, so
        transmitting the key requires an encrypted channel for true
        safety.
        '''
        def __init__(self, key):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_AUTH_KEY, 'AUTH_KEY')
                self._fieldnames = ['key']
                self.key = key

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 119, struct.pack('<32s', self.key))

class MAVLink_set_mode_message(MAVLink_message):
        '''
        Set the system mode, as defined by enum MAV_MODE. There is no
        target component id as the mode is by definition for the
        overall aircraft, not only for one component.
        '''
        def __init__(self, target_system, base_mode, custom_mode):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_MODE, 'SET_MODE')
                self._fieldnames = ['target_system', 'base_mode', 'custom_mode']
                self.target_system = target_system
                self.base_mode = base_mode
                self.custom_mode = custom_mode

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 89, struct.pack('<IBB', self.custom_mode, self.target_system, self.base_mode))

class MAVLink_param_request_read_message(MAVLink_message):
        '''
        Request to read the onboard parameter with the param_id string
        id. Onboard parameters are stored as key[const char*] ->
        value[float]. This allows to send a parameter to any other
        component (such as the GCS) without the need of previous
        knowledge of possible parameter names. Thus the same GCS can
        store different parameters for different autopilots. See also
        http://qgroundcontrol.org/parameter_interface for a full
        documentation of QGroundControl and IMU code.
        '''
        def __init__(self, target_system, target_component, param_id, param_index):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_REQUEST_READ, 'PARAM_REQUEST_READ')
                self._fieldnames = ['target_system', 'target_component', 'param_id', 'param_index']
                self.target_system = target_system
                self.target_component = target_component
                self.param_id = param_id
                self.param_index = param_index

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 214, struct.pack('<hBB16s', self.param_index, self.target_system, self.target_component, self.param_id))

class MAVLink_param_request_list_message(MAVLink_message):
        '''
        Request all parameters of this component. After his request,
        all parameters are emitted.
        '''
        def __init__(self, target_system, target_component):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_REQUEST_LIST, 'PARAM_REQUEST_LIST')
                self._fieldnames = ['target_system', 'target_component']
                self.target_system = target_system
                self.target_component = target_component

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 159, struct.pack('<BB', self.target_system, self.target_component))

class MAVLink_param_value_message(MAVLink_message):
        '''
        Emit the value of a onboard parameter. The inclusion of
        param_count and param_index in the message allows the
        recipient to keep track of received parameters and allows him
        to re-request missing parameters after a loss or timeout.
        '''
        def __init__(self, param_id, param_value, param_type, param_count, param_index):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_VALUE, 'PARAM_VALUE')
                self._fieldnames = ['param_id', 'param_value', 'param_type', 'param_count', 'param_index']
                self.param_id = param_id
                self.param_value = param_value
                self.param_type = param_type
                self.param_count = param_count
                self.param_index = param_index

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 220, struct.pack('<fHH16sB', self.param_value, self.param_count, self.param_index, self.param_id, self.param_type))

class MAVLink_param_set_message(MAVLink_message):
        '''
        Set a parameter value TEMPORARILY to RAM. It will be reset to
        default on system reboot. Send the ACTION
        MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM contents
        to EEPROM. IMPORTANT: The receiving component should
        acknowledge the new parameter value by sending a param_value
        message to all communication partners. This will also ensure
        that multiple GCS all have an up-to-date list of all
        parameters. If the sending GCS did not receive a PARAM_VALUE
        message within its timeout time, it should re-send the
        PARAM_SET message.
        '''
        def __init__(self, target_system, target_component, param_id, param_value, param_type):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_SET, 'PARAM_SET')
                self._fieldnames = ['target_system', 'target_component', 'param_id', 'param_value', 'param_type']
                self.target_system = target_system
                self.target_component = target_component
                self.param_id = param_id
                self.param_value = param_value
                self.param_type = param_type

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 168, struct.pack('<fBB16sB', self.param_value, self.target_system, self.target_component, self.param_id, self.param_type))

class MAVLink_gps_raw_int_message(MAVLink_message):
        '''
        The global position, as returned by the Global Positioning
        System (GPS). This is                 NOT the global position
        estimate of the system, but rather a RAW sensor value. See
        message GLOBAL_POSITION for the global position estimate.
        Coordinate frame is right-handed, Z-axis up (GPS frame).
        '''
        def __init__(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_RAW_INT, 'GPS_RAW_INT')
                self._fieldnames = ['time_usec', 'fix_type', 'lat', 'lon', 'alt', 'eph', 'epv', 'vel', 'cog', 'satellites_visible']
                self.time_usec = time_usec
                self.fix_type = fix_type
                self.lat = lat
                self.lon = lon
                self.alt = alt
                self.eph = eph
                self.epv = epv
                self.vel = vel
                self.cog = cog
                self.satellites_visible = satellites_visible

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 24, struct.pack('<QiiiHHHHBB', self.time_usec, self.lat, self.lon, self.alt, self.eph, self.epv, self.vel, self.cog, self.fix_type, self.satellites_visible))

class MAVLink_gps_status_message(MAVLink_message):
        '''
        The positioning status, as reported by GPS. This message is
        intended to display status information about each satellite
        visible to the receiver. See message GLOBAL_POSITION for the
        global position estimate. This message can contain information
        for up to 20 satellites.
        '''
        def __init__(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_STATUS, 'GPS_STATUS')
                self._fieldnames = ['satellites_visible', 'satellite_prn', 'satellite_used', 'satellite_elevation', 'satellite_azimuth', 'satellite_snr']
                self.satellites_visible = satellites_visible
                self.satellite_prn = satellite_prn
                self.satellite_used = satellite_used
                self.satellite_elevation = satellite_elevation
                self.satellite_azimuth = satellite_azimuth
                self.satellite_snr = satellite_snr

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 23, struct.pack('<B20s20s20s20s20s', self.satellites_visible, self.satellite_prn, self.satellite_used, self.satellite_elevation, self.satellite_azimuth, self.satellite_snr))

class MAVLink_scaled_imu_message(MAVLink_message):
        '''
        The RAW IMU readings for the usual 9DOF sensor setup. This
        message should contain the scaled values to the described
        units
        '''
        def __init__(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SCALED_IMU, 'SCALED_IMU')
                self._fieldnames = ['time_boot_ms', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro', 'xmag', 'ymag', 'zmag']
                self.time_boot_ms = time_boot_ms
                self.xacc = xacc
                self.yacc = yacc
                self.zacc = zacc
                self.xgyro = xgyro
                self.ygyro = ygyro
                self.zgyro = zgyro
                self.xmag = xmag
                self.ymag = ymag
                self.zmag = zmag

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 170, struct.pack('<Ihhhhhhhhh', self.time_boot_ms, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro, self.xmag, self.ymag, self.zmag))

class MAVLink_raw_imu_message(MAVLink_message):
        '''
        The RAW IMU readings for the usual 9DOF sensor setup. This
        message should always contain the true raw values without any
        scaling to allow data capture and system debugging.
        '''
        def __init__(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_RAW_IMU, 'RAW_IMU')
                self._fieldnames = ['time_usec', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro', 'xmag', 'ymag', 'zmag']
                self.time_usec = time_usec
                self.xacc = xacc
                self.yacc = yacc
                self.zacc = zacc
                self.xgyro = xgyro
                self.ygyro = ygyro
                self.zgyro = zgyro
                self.xmag = xmag
                self.ymag = ymag
                self.zmag = zmag

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 144, struct.pack('<Qhhhhhhhhh', self.time_usec, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro, self.xmag, self.ymag, self.zmag))

class MAVLink_raw_pressure_message(MAVLink_message):
        '''
        The RAW pressure readings for the typical setup of one
        absolute pressure and one differential pressure sensor. The
        sensor values should be the raw, UNSCALED ADC values.
        '''
        def __init__(self, time_usec, press_abs, press_diff1, press_diff2, temperature):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_RAW_PRESSURE, 'RAW_PRESSURE')
                self._fieldnames = ['time_usec', 'press_abs', 'press_diff1', 'press_diff2', 'temperature']
                self.time_usec = time_usec
                self.press_abs = press_abs
                self.press_diff1 = press_diff1
                self.press_diff2 = press_diff2
                self.temperature = temperature

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 67, struct.pack('<Qhhhh', self.time_usec, self.press_abs, self.press_diff1, self.press_diff2, self.temperature))

class MAVLink_scaled_pressure_message(MAVLink_message):
        '''
        The pressure readings for the typical setup of one absolute
        and differential pressure sensor. The units are as specified
        in each field.
        '''
        def __init__(self, time_boot_ms, press_abs, press_diff, temperature):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SCALED_PRESSURE, 'SCALED_PRESSURE')
                self._fieldnames = ['time_boot_ms', 'press_abs', 'press_diff', 'temperature']
                self.time_boot_ms = time_boot_ms
                self.press_abs = press_abs
                self.press_diff = press_diff
                self.temperature = temperature

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 115, struct.pack('<Iffh', self.time_boot_ms, self.press_abs, self.press_diff, self.temperature))

class MAVLink_attitude_message(MAVLink_message):
        '''
        The attitude in the aeronautical frame (right-handed, Z-down,
        X-front, Y-right).
        '''
        def __init__(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_ATTITUDE, 'ATTITUDE')
                self._fieldnames = ['time_boot_ms', 'roll', 'pitch', 'yaw', 'rollspeed', 'pitchspeed', 'yawspeed']
                self.time_boot_ms = time_boot_ms
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.rollspeed = rollspeed
                self.pitchspeed = pitchspeed
                self.yawspeed = yawspeed

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 39, struct.pack('<Iffffff', self.time_boot_ms, self.roll, self.pitch, self.yaw, self.rollspeed, self.pitchspeed, self.yawspeed))

class MAVLink_attitude_quaternion_message(MAVLink_message):
        '''
        The attitude in the aeronautical frame (right-handed, Z-down,
        X-front, Y-right), expressed as quaternion.
        '''
        def __init__(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_ATTITUDE_QUATERNION, 'ATTITUDE_QUATERNION')
                self._fieldnames = ['time_boot_ms', 'q1', 'q2', 'q3', 'q4', 'rollspeed', 'pitchspeed', 'yawspeed']
                self.time_boot_ms = time_boot_ms
                self.q1 = q1
                self.q2 = q2
                self.q3 = q3
                self.q4 = q4
                self.rollspeed = rollspeed
                self.pitchspeed = pitchspeed
                self.yawspeed = yawspeed

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 246, struct.pack('<Ifffffff', self.time_boot_ms, self.q1, self.q2, self.q3, self.q4, self.rollspeed, self.pitchspeed, self.yawspeed))

class MAVLink_local_position_ned_message(MAVLink_message):
        '''
        The filtered local position (e.g. fused computer vision and
        accelerometers). Coordinate frame is right-handed, Z-axis down
        (aeronautical frame, NED / north-east-down convention)
        '''
        def __init__(self, time_boot_ms, x, y, z, vx, vy, vz):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_LOCAL_POSITION_NED, 'LOCAL_POSITION_NED')
                self._fieldnames = ['time_boot_ms', 'x', 'y', 'z', 'vx', 'vy', 'vz']
                self.time_boot_ms = time_boot_ms
                self.x = x
                self.y = y
                self.z = z
                self.vx = vx
                self.vy = vy
                self.vz = vz

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 185, struct.pack('<Iffffff', self.time_boot_ms, self.x, self.y, self.z, self.vx, self.vy, self.vz))

class MAVLink_global_position_int_message(MAVLink_message):
        '''
        The filtered global position (e.g. fused GPS and
        accelerometers). The position is in GPS-frame (right-handed,
        Z-up). It                is designed as scaled integer message
        since the resolution of float is not sufficient.
        '''
        def __init__(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_POSITION_INT, 'GLOBAL_POSITION_INT')
                self._fieldnames = ['time_boot_ms', 'lat', 'lon', 'alt', 'relative_alt', 'vx', 'vy', 'vz', 'hdg']
                self.time_boot_ms = time_boot_ms
                self.lat = lat
                self.lon = lon
                self.alt = alt
                self.relative_alt = relative_alt
                self.vx = vx
                self.vy = vy
                self.vz = vz
                self.hdg = hdg

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 104, struct.pack('<IiiiihhhH', self.time_boot_ms, self.lat, self.lon, self.alt, self.relative_alt, self.vx, self.vy, self.vz, self.hdg))

class MAVLink_rc_channels_scaled_message(MAVLink_message):
        '''
        The scaled values of the RC channels received. (-100%) -10000,
        (0%) 0, (100%) 10000. Channels that are inactive should be set
        to 65535.
        '''
        def __init__(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_SCALED, 'RC_CHANNELS_SCALED')
                self._fieldnames = ['time_boot_ms', 'port', 'chan1_scaled', 'chan2_scaled', 'chan3_scaled', 'chan4_scaled', 'chan5_scaled', 'chan6_scaled', 'chan7_scaled', 'chan8_scaled', 'rssi']
                self.time_boot_ms = time_boot_ms
                self.port = port
                self.chan1_scaled = chan1_scaled
                self.chan2_scaled = chan2_scaled
                self.chan3_scaled = chan3_scaled
                self.chan4_scaled = chan4_scaled
                self.chan5_scaled = chan5_scaled
                self.chan6_scaled = chan6_scaled
                self.chan7_scaled = chan7_scaled
                self.chan8_scaled = chan8_scaled
                self.rssi = rssi

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 237, struct.pack('<IhhhhhhhhBB', self.time_boot_ms, self.chan1_scaled, self.chan2_scaled, self.chan3_scaled, self.chan4_scaled, self.chan5_scaled, self.chan6_scaled, self.chan7_scaled, self.chan8_scaled, self.port, self.rssi))

class MAVLink_rc_channels_raw_message(MAVLink_message):
        '''
        The RAW values of the RC channels received. The standard PPM
        modulation is as follows: 1000 microseconds: 0%, 2000
        microseconds: 100%. Individual receivers/transmitters might
        violate this specification.
        '''
        def __init__(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_RAW, 'RC_CHANNELS_RAW')
                self._fieldnames = ['time_boot_ms', 'port', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw', 'rssi']
                self.time_boot_ms = time_boot_ms
                self.port = port
                self.chan1_raw = chan1_raw
                self.chan2_raw = chan2_raw
                self.chan3_raw = chan3_raw
                self.chan4_raw = chan4_raw
                self.chan5_raw = chan5_raw
                self.chan6_raw = chan6_raw
                self.chan7_raw = chan7_raw
                self.chan8_raw = chan8_raw
                self.rssi = rssi

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 244, struct.pack('<IHHHHHHHHBB', self.time_boot_ms, self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.port, self.rssi))

class MAVLink_servo_output_raw_message(MAVLink_message):
        '''
        The RAW values of the servo outputs (for RC input from the
        remote, use the RC_CHANNELS messages). The standard PPM
        modulation is as follows: 1000 microseconds: 0%, 2000
        microseconds: 100%.
        '''
        def __init__(self, time_boot_ms, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SERVO_OUTPUT_RAW, 'SERVO_OUTPUT_RAW')
                self._fieldnames = ['time_boot_ms', 'port', 'servo1_raw', 'servo2_raw', 'servo3_raw', 'servo4_raw', 'servo5_raw', 'servo6_raw', 'servo7_raw', 'servo8_raw']
                self.time_boot_ms = time_boot_ms
                self.port = port
                self.servo1_raw = servo1_raw
                self.servo2_raw = servo2_raw
                self.servo3_raw = servo3_raw
                self.servo4_raw = servo4_raw
                self.servo5_raw = servo5_raw
                self.servo6_raw = servo6_raw
                self.servo7_raw = servo7_raw
                self.servo8_raw = servo8_raw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 242, struct.pack('<IHHHHHHHHB', self.time_boot_ms, self.servo1_raw, self.servo2_raw, self.servo3_raw, self.servo4_raw, self.servo5_raw, self.servo6_raw, self.servo7_raw, self.servo8_raw, self.port))

class MAVLink_mission_request_partial_list_message(MAVLink_message):
        '''
        Request a partial list of mission items from the
        system/component.
        http://qgroundcontrol.org/mavlink/waypoint_protocol. If start
        and end index are the same, just send one waypoint.
        '''
        def __init__(self, target_system, target_component, start_index, end_index):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST, 'MISSION_REQUEST_PARTIAL_LIST')
                self._fieldnames = ['target_system', 'target_component', 'start_index', 'end_index']
                self.target_system = target_system
                self.target_component = target_component
                self.start_index = start_index
                self.end_index = end_index

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 212, struct.pack('<hhBB', self.start_index, self.end_index, self.target_system, self.target_component))

class MAVLink_mission_write_partial_list_message(MAVLink_message):
        '''
        This message is sent to the MAV to write a partial list. If
        start index == end index, only one item will be transmitted /
        updated. If the start index is NOT 0 and above the current
        list size, this request should be REJECTED!
        '''
        def __init__(self, target_system, target_component, start_index, end_index):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST, 'MISSION_WRITE_PARTIAL_LIST')
                self._fieldnames = ['target_system', 'target_component', 'start_index', 'end_index']
                self.target_system = target_system
                self.target_component = target_component
                self.start_index = start_index
                self.end_index = end_index

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 9, struct.pack('<hhBB', self.start_index, self.end_index, self.target_system, self.target_component))

class MAVLink_mission_item_message(MAVLink_message):
        '''
        Message encoding a mission item. This message is emitted to
        announce                 the presence of a mission item and to
        set a mission item on the system. The mission item can be
        either in x, y, z meters (type: LOCAL) or x:lat, y:lon,
        z:altitude. Local frame is Z-down, right handed (NED), global
        frame is Z-up, right handed (ENU). See also
        http://qgroundcontrol.org/mavlink/waypoint_protocol.
        '''
        def __init__(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ITEM, 'MISSION_ITEM')
                self._fieldnames = ['target_system', 'target_component', 'seq', 'frame', 'command', 'current', 'autocontinue', 'param1', 'param2', 'param3', 'param4', 'x', 'y', 'z']
                self.target_system = target_system
                self.target_component = target_component
                self.seq = seq
                self.frame = frame
                self.command = command
                self.current = current
                self.autocontinue = autocontinue
                self.param1 = param1
                self.param2 = param2
                self.param3 = param3
                self.param4 = param4
                self.x = x
                self.y = y
                self.z = z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 254, struct.pack('<fffffffHHBBBBB', self.param1, self.param2, self.param3, self.param4, self.x, self.y, self.z, self.seq, self.command, self.target_system, self.target_component, self.frame, self.current, self.autocontinue))

class MAVLink_mission_request_message(MAVLink_message):
        '''
        Request the information of the mission item with the sequence
        number seq. The response of the system to this message should
        be a MISSION_ITEM message.
        http://qgroundcontrol.org/mavlink/waypoint_protocol
        '''
        def __init__(self, target_system, target_component, seq):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST, 'MISSION_REQUEST')
                self._fieldnames = ['target_system', 'target_component', 'seq']
                self.target_system = target_system
                self.target_component = target_component
                self.seq = seq

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 230, struct.pack('<HBB', self.seq, self.target_system, self.target_component))

class MAVLink_mission_set_current_message(MAVLink_message):
        '''
        Set the mission item with sequence number seq as current item.
        This means that the MAV will continue to this mission item on
        the shortest path (not following the mission items in-
        between).
        '''
        def __init__(self, target_system, target_component, seq):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_SET_CURRENT, 'MISSION_SET_CURRENT')
                self._fieldnames = ['target_system', 'target_component', 'seq']
                self.target_system = target_system
                self.target_component = target_component
                self.seq = seq

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 28, struct.pack('<HBB', self.seq, self.target_system, self.target_component))

class MAVLink_mission_current_message(MAVLink_message):
        '''
        Message that announces the sequence number of the current
        active mission item. The MAV will fly towards this mission
        item.
        '''
        def __init__(self, seq):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_CURRENT, 'MISSION_CURRENT')
                self._fieldnames = ['seq']
                self.seq = seq

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 28, struct.pack('<H', self.seq))

class MAVLink_mission_request_list_message(MAVLink_message):
        '''
        Request the overall list of mission items from the
        system/component.
        '''
        def __init__(self, target_system, target_component):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST_LIST, 'MISSION_REQUEST_LIST')
                self._fieldnames = ['target_system', 'target_component']
                self.target_system = target_system
                self.target_component = target_component

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 132, struct.pack('<BB', self.target_system, self.target_component))

class MAVLink_mission_count_message(MAVLink_message):
        '''
        This message is emitted as response to MISSION_REQUEST_LIST by
        the MAV and to initiate a write transaction. The GCS can then
        request the individual mission item based on the knowledge of
        the total number of MISSIONs.
        '''
        def __init__(self, target_system, target_component, count):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_COUNT, 'MISSION_COUNT')
                self._fieldnames = ['target_system', 'target_component', 'count']
                self.target_system = target_system
                self.target_component = target_component
                self.count = count

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 221, struct.pack('<HBB', self.count, self.target_system, self.target_component))

class MAVLink_mission_clear_all_message(MAVLink_message):
        '''
        Delete all mission items at once.
        '''
        def __init__(self, target_system, target_component):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_CLEAR_ALL, 'MISSION_CLEAR_ALL')
                self._fieldnames = ['target_system', 'target_component']
                self.target_system = target_system
                self.target_component = target_component

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 232, struct.pack('<BB', self.target_system, self.target_component))

class MAVLink_mission_item_reached_message(MAVLink_message):
        '''
        A certain mission item has been reached. The system will
        either hold this position (or circle on the orbit) or (if the
        autocontinue on the WP was set) continue to the next MISSION.
        '''
        def __init__(self, seq):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ITEM_REACHED, 'MISSION_ITEM_REACHED')
                self._fieldnames = ['seq']
                self.seq = seq

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 11, struct.pack('<H', self.seq))

class MAVLink_mission_ack_message(MAVLink_message):
        '''
        Ack message during MISSION handling. The type field states if
        this message is a positive ack (type=0) or if an error
        happened (type=non-zero).
        '''
        def __init__(self, target_system, target_component, type):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ACK, 'MISSION_ACK')
                self._fieldnames = ['target_system', 'target_component', 'type']
                self.target_system = target_system
                self.target_component = target_component
                self.type = type

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 153, struct.pack('<BBB', self.target_system, self.target_component, self.type))

class MAVLink_set_gps_global_origin_message(MAVLink_message):
        '''
        As local waypoints exist, the global MISSION reference allows
        to transform between the local coordinate frame and the global
        (GPS) coordinate frame. This can be necessary when e.g. in-
        and outdoor settings are connected and the MAV should move
        from in- to outdoor.
        '''
        def __init__(self, target_system, latitude, longitude, altitude):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN, 'SET_GPS_GLOBAL_ORIGIN')
                self._fieldnames = ['target_system', 'latitude', 'longitude', 'altitude']
                self.target_system = target_system
                self.latitude = latitude
                self.longitude = longitude
                self.altitude = altitude

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 41, struct.pack('<iiiB', self.latitude, self.longitude, self.altitude, self.target_system))

class MAVLink_gps_global_origin_message(MAVLink_message):
        '''
        Once the MAV sets a new GPS-Local correspondence, this message
        announces the origin (0,0,0) position
        '''
        def __init__(self, latitude, longitude, altitude):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN, 'GPS_GLOBAL_ORIGIN')
                self._fieldnames = ['latitude', 'longitude', 'altitude']
                self.latitude = latitude
                self.longitude = longitude
                self.altitude = altitude

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 39, struct.pack('<iii', self.latitude, self.longitude, self.altitude))

class MAVLink_set_local_position_setpoint_message(MAVLink_message):
        '''
        Set the setpoint for a local position controller. This is the
        position in local coordinates the MAV should fly to. This
        message is sent by the path/MISSION planner to the onboard
        position controller. As some MAVs have a degree of freedom in
        yaw (e.g. all helicopters/quadrotors), the desired yaw angle
        is part of the message.
        '''
        def __init__(self, target_system, target_component, coordinate_frame, x, y, z, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT, 'SET_LOCAL_POSITION_SETPOINT')
                self._fieldnames = ['target_system', 'target_component', 'coordinate_frame', 'x', 'y', 'z', 'yaw']
                self.target_system = target_system
                self.target_component = target_component
                self.coordinate_frame = coordinate_frame
                self.x = x
                self.y = y
                self.z = z
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 214, struct.pack('<ffffBBB', self.x, self.y, self.z, self.yaw, self.target_system, self.target_component, self.coordinate_frame))

class MAVLink_local_position_setpoint_message(MAVLink_message):
        '''
        Transmit the current local setpoint of the controller to other
        MAVs (collision avoidance) and to the GCS.
        '''
        def __init__(self, coordinate_frame, x, y, z, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT, 'LOCAL_POSITION_SETPOINT')
                self._fieldnames = ['coordinate_frame', 'x', 'y', 'z', 'yaw']
                self.coordinate_frame = coordinate_frame
                self.x = x
                self.y = y
                self.z = z
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 223, struct.pack('<ffffB', self.x, self.y, self.z, self.yaw, self.coordinate_frame))

class MAVLink_global_position_setpoint_int_message(MAVLink_message):
        '''
        Transmit the current local setpoint of the controller to other
        MAVs (collision avoidance) and to the GCS.
        '''
        def __init__(self, coordinate_frame, latitude, longitude, altitude, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT, 'GLOBAL_POSITION_SETPOINT_INT')
                self._fieldnames = ['coordinate_frame', 'latitude', 'longitude', 'altitude', 'yaw']
                self.coordinate_frame = coordinate_frame
                self.latitude = latitude
                self.longitude = longitude
                self.altitude = altitude
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 141, struct.pack('<iiihB', self.latitude, self.longitude, self.altitude, self.yaw, self.coordinate_frame))

class MAVLink_set_global_position_setpoint_int_message(MAVLink_message):
        '''
        Set the current global position setpoint.
        '''
        def __init__(self, coordinate_frame, latitude, longitude, altitude, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT, 'SET_GLOBAL_POSITION_SETPOINT_INT')
                self._fieldnames = ['coordinate_frame', 'latitude', 'longitude', 'altitude', 'yaw']
                self.coordinate_frame = coordinate_frame
                self.latitude = latitude
                self.longitude = longitude
                self.altitude = altitude
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 33, struct.pack('<iiihB', self.latitude, self.longitude, self.altitude, self.yaw, self.coordinate_frame))

class MAVLink_safety_set_allowed_area_message(MAVLink_message):
        '''
        Set a safety zone (volume), which is defined by two corners of
        a cube. This message can be used to tell the MAV which
        setpoints/MISSIONs to accept and which to reject. Safety areas
        are often enforced by national or competition regulations.
        '''
        def __init__(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA, 'SAFETY_SET_ALLOWED_AREA')
                self._fieldnames = ['target_system', 'target_component', 'frame', 'p1x', 'p1y', 'p1z', 'p2x', 'p2y', 'p2z']
                self.target_system = target_system
                self.target_component = target_component
                self.frame = frame
                self.p1x = p1x
                self.p1y = p1y
                self.p1z = p1z
                self.p2x = p2x
                self.p2y = p2y
                self.p2z = p2z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 15, struct.pack('<ffffffBBB', self.p1x, self.p1y, self.p1z, self.p2x, self.p2y, self.p2z, self.target_system, self.target_component, self.frame))

class MAVLink_safety_allowed_area_message(MAVLink_message):
        '''
        Read out the safety zone the MAV currently assumes.
        '''
        def __init__(self, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA, 'SAFETY_ALLOWED_AREA')
                self._fieldnames = ['frame', 'p1x', 'p1y', 'p1z', 'p2x', 'p2y', 'p2z']
                self.frame = frame
                self.p1x = p1x
                self.p1y = p1y
                self.p1z = p1z
                self.p2x = p2x
                self.p2y = p2y
                self.p2z = p2z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 3, struct.pack('<ffffffB', self.p1x, self.p1y, self.p1z, self.p2x, self.p2y, self.p2z, self.frame))

class MAVLink_set_roll_pitch_yaw_thrust_message(MAVLink_message):
        '''
        Set roll, pitch and yaw.
        '''
        def __init__(self, target_system, target_component, roll, pitch, yaw, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST, 'SET_ROLL_PITCH_YAW_THRUST')
                self._fieldnames = ['target_system', 'target_component', 'roll', 'pitch', 'yaw', 'thrust']
                self.target_system = target_system
                self.target_component = target_component
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 100, struct.pack('<ffffBB', self.roll, self.pitch, self.yaw, self.thrust, self.target_system, self.target_component))

class MAVLink_set_roll_pitch_yaw_speed_thrust_message(MAVLink_message):
        '''
        Set roll, pitch and yaw.
        '''
        def __init__(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST, 'SET_ROLL_PITCH_YAW_SPEED_THRUST')
                self._fieldnames = ['target_system', 'target_component', 'roll_speed', 'pitch_speed', 'yaw_speed', 'thrust']
                self.target_system = target_system
                self.target_component = target_component
                self.roll_speed = roll_speed
                self.pitch_speed = pitch_speed
                self.yaw_speed = yaw_speed
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 24, struct.pack('<ffffBB', self.roll_speed, self.pitch_speed, self.yaw_speed, self.thrust, self.target_system, self.target_component))

class MAVLink_roll_pitch_yaw_thrust_setpoint_message(MAVLink_message):
        '''
        Setpoint in roll, pitch, yaw currently active on the system.
        '''
        def __init__(self, time_boot_ms, roll, pitch, yaw, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT, 'ROLL_PITCH_YAW_THRUST_SETPOINT')
                self._fieldnames = ['time_boot_ms', 'roll', 'pitch', 'yaw', 'thrust']
                self.time_boot_ms = time_boot_ms
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 239, struct.pack('<Iffff', self.time_boot_ms, self.roll, self.pitch, self.yaw, self.thrust))

class MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message(MAVLink_message):
        '''
        Setpoint in rollspeed, pitchspeed, yawspeed currently active
        on the system.
        '''
        def __init__(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT, 'ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT')
                self._fieldnames = ['time_boot_ms', 'roll_speed', 'pitch_speed', 'yaw_speed', 'thrust']
                self.time_boot_ms = time_boot_ms
                self.roll_speed = roll_speed
                self.pitch_speed = pitch_speed
                self.yaw_speed = yaw_speed
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 238, struct.pack('<Iffff', self.time_boot_ms, self.roll_speed, self.pitch_speed, self.yaw_speed, self.thrust))

class MAVLink_set_quad_motors_setpoint_message(MAVLink_message):
        '''
        Setpoint in the four motor speeds
        '''
        def __init__(self, target_system, motor_front_nw, motor_right_ne, motor_back_se, motor_left_sw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_QUAD_MOTORS_SETPOINT, 'SET_QUAD_MOTORS_SETPOINT')
                self._fieldnames = ['target_system', 'motor_front_nw', 'motor_right_ne', 'motor_back_se', 'motor_left_sw']
                self.target_system = target_system
                self.motor_front_nw = motor_front_nw
                self.motor_right_ne = motor_right_ne
                self.motor_back_se = motor_back_se
                self.motor_left_sw = motor_left_sw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 30, struct.pack('<HHHHB', self.motor_front_nw, self.motor_right_ne, self.motor_back_se, self.motor_left_sw, self.target_system))

class MAVLink_set_quad_swarm_roll_pitch_yaw_thrust_message(MAVLink_message):
        '''
        Setpoint for up to four quadrotors in a group / wing
        '''
        def __init__(self, group, mode, roll, pitch, yaw, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_QUAD_SWARM_ROLL_PITCH_YAW_THRUST, 'SET_QUAD_SWARM_ROLL_PITCH_YAW_THRUST')
                self._fieldnames = ['group', 'mode', 'roll', 'pitch', 'yaw', 'thrust']
                self.group = group
                self.mode = mode
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 240, struct.pack('<4h4h4h4HBB', self.roll, self.pitch, self.yaw, self.thrust, self.group, self.mode))

class MAVLink_nav_controller_output_message(MAVLink_message):
        '''
        Outputs of the APM navigation controller. The primary use of
        this message is to check the response and signs of the
        controller before actual flight and to assist with tuning
        controller parameters.
        '''
        def __init__(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT, 'NAV_CONTROLLER_OUTPUT')
                self._fieldnames = ['nav_roll', 'nav_pitch', 'nav_bearing', 'target_bearing', 'wp_dist', 'alt_error', 'aspd_error', 'xtrack_error']
                self.nav_roll = nav_roll
                self.nav_pitch = nav_pitch
                self.nav_bearing = nav_bearing
                self.target_bearing = target_bearing
                self.wp_dist = wp_dist
                self.alt_error = alt_error
                self.aspd_error = aspd_error
                self.xtrack_error = xtrack_error

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 183, struct.pack('<fffffhhH', self.nav_roll, self.nav_pitch, self.alt_error, self.aspd_error, self.xtrack_error, self.nav_bearing, self.target_bearing, self.wp_dist))

class MAVLink_set_quad_swarm_led_roll_pitch_yaw_thrust_message(MAVLink_message):
        '''
        Setpoint for up to four quadrotors in a group / wing
        '''
        def __init__(self, group, mode, led_red, led_blue, led_green, roll, pitch, yaw, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_QUAD_SWARM_LED_ROLL_PITCH_YAW_THRUST, 'SET_QUAD_SWARM_LED_ROLL_PITCH_YAW_THRUST')
                self._fieldnames = ['group', 'mode', 'led_red', 'led_blue', 'led_green', 'roll', 'pitch', 'yaw', 'thrust']
                self.group = group
                self.mode = mode
                self.led_red = led_red
                self.led_blue = led_blue
                self.led_green = led_green
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 130, struct.pack('<4h4h4h4HBB4s4s4s', self.roll, self.pitch, self.yaw, self.thrust, self.group, self.mode, self.led_red, self.led_blue, self.led_green))

class MAVLink_state_correction_message(MAVLink_message):
        '''
        Corrects the systems state by adding an error correction term
        to the position and velocity, and by rotating the attitude by
        a correction angle.
        '''
        def __init__(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_STATE_CORRECTION, 'STATE_CORRECTION')
                self._fieldnames = ['xErr', 'yErr', 'zErr', 'rollErr', 'pitchErr', 'yawErr', 'vxErr', 'vyErr', 'vzErr']
                self.xErr = xErr
                self.yErr = yErr
                self.zErr = zErr
                self.rollErr = rollErr
                self.pitchErr = pitchErr
                self.yawErr = yawErr
                self.vxErr = vxErr
                self.vyErr = vyErr
                self.vzErr = vzErr

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 130, struct.pack('<fffffffff', self.xErr, self.yErr, self.zErr, self.rollErr, self.pitchErr, self.yawErr, self.vxErr, self.vyErr, self.vzErr))

class MAVLink_request_data_stream_message(MAVLink_message):
        '''

        '''
        def __init__(self, target_system, target_component, req_stream_id, req_message_rate, start_stop):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_REQUEST_DATA_STREAM, 'REQUEST_DATA_STREAM')
                self._fieldnames = ['target_system', 'target_component', 'req_stream_id', 'req_message_rate', 'start_stop']
                self.target_system = target_system
                self.target_component = target_component
                self.req_stream_id = req_stream_id
                self.req_message_rate = req_message_rate
                self.start_stop = start_stop

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 148, struct.pack('<HBBBB', self.req_message_rate, self.target_system, self.target_component, self.req_stream_id, self.start_stop))

class MAVLink_data_stream_message(MAVLink_message):
        '''

        '''
        def __init__(self, stream_id, message_rate, on_off):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_DATA_STREAM, 'DATA_STREAM')
                self._fieldnames = ['stream_id', 'message_rate', 'on_off']
                self.stream_id = stream_id
                self.message_rate = message_rate
                self.on_off = on_off

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 21, struct.pack('<HBB', self.message_rate, self.stream_id, self.on_off))

class MAVLink_manual_control_message(MAVLink_message):
        '''
        This message provides an API for manually controlling the
        vehicle using standard joystick axes nomenclature, along with
        a joystick-like input device. Unused axes can be disabled an
        buttons are also transmit as boolean values of their
        '''
        def __init__(self, target, x, y, z, r, buttons):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MANUAL_CONTROL, 'MANUAL_CONTROL')
                self._fieldnames = ['target', 'x', 'y', 'z', 'r', 'buttons']
                self.target = target
                self.x = x
                self.y = y
                self.z = z
                self.r = r
                self.buttons = buttons

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 243, struct.pack('<hhhhHB', self.x, self.y, self.z, self.r, self.buttons, self.target))

class MAVLink_rc_channels_override_message(MAVLink_message):
        '''
        The RAW values of the RC channels sent to the MAV to override
        info received from the RC radio. A value of -1 means no change
        to that channel. A value of 0 means control of that channel
        should be released back to the RC radio. The standard PPM
        modulation is as follows: 1000 microseconds: 0%, 2000
        microseconds: 100%. Individual receivers/transmitters might
        violate this specification.
        '''
        def __init__(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE, 'RC_CHANNELS_OVERRIDE')
                self._fieldnames = ['target_system', 'target_component', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw']
                self.target_system = target_system
                self.target_component = target_component
                self.chan1_raw = chan1_raw
                self.chan2_raw = chan2_raw
                self.chan3_raw = chan3_raw
                self.chan4_raw = chan4_raw
                self.chan5_raw = chan5_raw
                self.chan6_raw = chan6_raw
                self.chan7_raw = chan7_raw
                self.chan8_raw = chan8_raw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 124, struct.pack('<HHHHHHHHBB', self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.target_system, self.target_component))

class MAVLink_vfr_hud_message(MAVLink_message):
        '''
        Metrics typically displayed on a HUD for fixed wing aircraft
        '''
        def __init__(self, airspeed, groundspeed, heading, throttle, alt, climb):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_VFR_HUD, 'VFR_HUD')
                self._fieldnames = ['airspeed', 'groundspeed', 'heading', 'throttle', 'alt', 'climb']
                self.airspeed = airspeed
                self.groundspeed = groundspeed
                self.heading = heading
                self.throttle = throttle
                self.alt = alt
                self.climb = climb

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 20, struct.pack('<ffffhH', self.airspeed, self.groundspeed, self.alt, self.climb, self.heading, self.throttle))

class MAVLink_command_long_message(MAVLink_message):
        '''
        Send a command with up to four parameters to the MAV
        '''
        def __init__(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_COMMAND_LONG, 'COMMAND_LONG')
                self._fieldnames = ['target_system', 'target_component', 'command', 'confirmation', 'param1', 'param2', 'param3', 'param4', 'param5', 'param6', 'param7']
                self.target_system = target_system
                self.target_component = target_component
                self.command = command
                self.confirmation = confirmation
                self.param1 = param1
                self.param2 = param2
                self.param3 = param3
                self.param4 = param4
                self.param5 = param5
                self.param6 = param6
                self.param7 = param7

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 152, struct.pack('<fffffffHBBB', self.param1, self.param2, self.param3, self.param4, self.param5, self.param6, self.param7, self.command, self.target_system, self.target_component, self.confirmation))

class MAVLink_command_ack_message(MAVLink_message):
        '''
        Report status of a command. Includes feedback wether the
        command was executed.
        '''
        def __init__(self, command, result):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_COMMAND_ACK, 'COMMAND_ACK')
                self._fieldnames = ['command', 'result']
                self.command = command
                self.result = result

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 143, struct.pack('<HB', self.command, self.result))

class MAVLink_roll_pitch_yaw_rates_thrust_setpoint_message(MAVLink_message):
        '''
        Setpoint in roll, pitch, yaw rates and thrust currently active
        on the system.
        '''
        def __init__(self, time_boot_ms, roll_rate, pitch_rate, yaw_rate, thrust):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_ROLL_PITCH_YAW_RATES_THRUST_SETPOINT, 'ROLL_PITCH_YAW_RATES_THRUST_SETPOINT')
                self._fieldnames = ['time_boot_ms', 'roll_rate', 'pitch_rate', 'yaw_rate', 'thrust']
                self.time_boot_ms = time_boot_ms
                self.roll_rate = roll_rate
                self.pitch_rate = pitch_rate
                self.yaw_rate = yaw_rate
                self.thrust = thrust

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 127, struct.pack('<Iffff', self.time_boot_ms, self.roll_rate, self.pitch_rate, self.yaw_rate, self.thrust))

class MAVLink_manual_setpoint_message(MAVLink_message):
        '''
        Setpoint in roll, pitch, yaw and thrust from the operator
        '''
        def __init__(self, time_boot_ms, roll, pitch, yaw, thrust, mode_switch, manual_override_switch):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MANUAL_SETPOINT, 'MANUAL_SETPOINT')
                self._fieldnames = ['time_boot_ms', 'roll', 'pitch', 'yaw', 'thrust', 'mode_switch', 'manual_override_switch']
                self.time_boot_ms = time_boot_ms
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.thrust = thrust
                self.mode_switch = mode_switch
                self.manual_override_switch = manual_override_switch

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 106, struct.pack('<IffffBB', self.time_boot_ms, self.roll, self.pitch, self.yaw, self.thrust, self.mode_switch, self.manual_override_switch))

class MAVLink_local_position_ned_system_global_offset_message(MAVLink_message):
        '''
        The offset in X, Y, Z and yaw between the LOCAL_POSITION_NED
        messages of MAV X and the global coordinate frame in NED
        coordinates. Coordinate frame is right-handed, Z-axis down
        (aeronautical frame, NED / north-east-down convention)
        '''
        def __init__(self, time_boot_ms, x, y, z, roll, pitch, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET, 'LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET')
                self._fieldnames = ['time_boot_ms', 'x', 'y', 'z', 'roll', 'pitch', 'yaw']
                self.time_boot_ms = time_boot_ms
                self.x = x
                self.y = y
                self.z = z
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 231, struct.pack('<Iffffff', self.time_boot_ms, self.x, self.y, self.z, self.roll, self.pitch, self.yaw))

class MAVLink_hil_state_message(MAVLink_message):
        '''
        Sent from simulation to autopilot. This packet is useful for
        high throughput applications such as hardware in the loop
        simulations.
        '''
        def __init__(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_STATE, 'HIL_STATE')
                self._fieldnames = ['time_usec', 'roll', 'pitch', 'yaw', 'rollspeed', 'pitchspeed', 'yawspeed', 'lat', 'lon', 'alt', 'vx', 'vy', 'vz', 'xacc', 'yacc', 'zacc']
                self.time_usec = time_usec
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw
                self.rollspeed = rollspeed
                self.pitchspeed = pitchspeed
                self.yawspeed = yawspeed
                self.lat = lat
                self.lon = lon
                self.alt = alt
                self.vx = vx
                self.vy = vy
                self.vz = vz
                self.xacc = xacc
                self.yacc = yacc
                self.zacc = zacc

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 183, struct.pack('<Qffffffiiihhhhhh', self.time_usec, self.roll, self.pitch, self.yaw, self.rollspeed, self.pitchspeed, self.yawspeed, self.lat, self.lon, self.alt, self.vx, self.vy, self.vz, self.xacc, self.yacc, self.zacc))

class MAVLink_hil_controls_message(MAVLink_message):
        '''
        Sent from autopilot to simulation. Hardware in the loop
        control outputs
        '''
        def __init__(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_CONTROLS, 'HIL_CONTROLS')
                self._fieldnames = ['time_usec', 'roll_ailerons', 'pitch_elevator', 'yaw_rudder', 'throttle', 'aux1', 'aux2', 'aux3', 'aux4', 'mode', 'nav_mode']
                self.time_usec = time_usec
                self.roll_ailerons = roll_ailerons
                self.pitch_elevator = pitch_elevator
                self.yaw_rudder = yaw_rudder
                self.throttle = throttle
                self.aux1 = aux1
                self.aux2 = aux2
                self.aux3 = aux3
                self.aux4 = aux4
                self.mode = mode
                self.nav_mode = nav_mode

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 63, struct.pack('<QffffffffBB', self.time_usec, self.roll_ailerons, self.pitch_elevator, self.yaw_rudder, self.throttle, self.aux1, self.aux2, self.aux3, self.aux4, self.mode, self.nav_mode))

class MAVLink_hil_rc_inputs_raw_message(MAVLink_message):
        '''
        Sent from simulation to autopilot. The RAW values of the RC
        channels received. The standard PPM modulation is as follows:
        1000 microseconds: 0%, 2000 microseconds: 100%. Individual
        receivers/transmitters might violate this specification.
        '''
        def __init__(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW, 'HIL_RC_INPUTS_RAW')
                self._fieldnames = ['time_usec', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw', 'chan9_raw', 'chan10_raw', 'chan11_raw', 'chan12_raw', 'rssi']
                self.time_usec = time_usec
                self.chan1_raw = chan1_raw
                self.chan2_raw = chan2_raw
                self.chan3_raw = chan3_raw
                self.chan4_raw = chan4_raw
                self.chan5_raw = chan5_raw
                self.chan6_raw = chan6_raw
                self.chan7_raw = chan7_raw
                self.chan8_raw = chan8_raw
                self.chan9_raw = chan9_raw
                self.chan10_raw = chan10_raw
                self.chan11_raw = chan11_raw
                self.chan12_raw = chan12_raw
                self.rssi = rssi

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 54, struct.pack('<QHHHHHHHHHHHHB', self.time_usec, self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.chan9_raw, self.chan10_raw, self.chan11_raw, self.chan12_raw, self.rssi))

class MAVLink_optical_flow_message(MAVLink_message):
        '''
        Optical flow from a flow sensor (e.g. optical mouse sensor)
        '''
        def __init__(self, time_usec, sensor_id, flow_x, flow_y, flow_comp_m_x, flow_comp_m_y, quality, ground_distance):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_OPTICAL_FLOW, 'OPTICAL_FLOW')
                self._fieldnames = ['time_usec', 'sensor_id', 'flow_x', 'flow_y', 'flow_comp_m_x', 'flow_comp_m_y', 'quality', 'ground_distance']
                self.time_usec = time_usec
                self.sensor_id = sensor_id
                self.flow_x = flow_x
                self.flow_y = flow_y
                self.flow_comp_m_x = flow_comp_m_x
                self.flow_comp_m_y = flow_comp_m_y
                self.quality = quality
                self.ground_distance = ground_distance

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 175, struct.pack('<QfffhhBB', self.time_usec, self.flow_comp_m_x, self.flow_comp_m_y, self.ground_distance, self.flow_x, self.flow_y, self.sensor_id, self.quality))

class MAVLink_global_vision_position_estimate_message(MAVLink_message):
        '''

        '''
        def __init__(self, usec, x, y, z, roll, pitch, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE, 'GLOBAL_VISION_POSITION_ESTIMATE')
                self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw']
                self.usec = usec
                self.x = x
                self.y = y
                self.z = z
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 102, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw))

class MAVLink_vision_position_estimate_message(MAVLink_message):
        '''

        '''
        def __init__(self, usec, x, y, z, roll, pitch, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE, 'VISION_POSITION_ESTIMATE')
                self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw']
                self.usec = usec
                self.x = x
                self.y = y
                self.z = z
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 158, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw))

class MAVLink_vision_speed_estimate_message(MAVLink_message):
        '''

        '''
        def __init__(self, usec, x, y, z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE, 'VISION_SPEED_ESTIMATE')
                self._fieldnames = ['usec', 'x', 'y', 'z']
                self.usec = usec
                self.x = x
                self.y = y
                self.z = z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 208, struct.pack('<Qfff', self.usec, self.x, self.y, self.z))

class MAVLink_vicon_position_estimate_message(MAVLink_message):
        '''

        '''
        def __init__(self, usec, x, y, z, roll, pitch, yaw):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE, 'VICON_POSITION_ESTIMATE')
                self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw']
                self.usec = usec
                self.x = x
                self.y = y
                self.z = z
                self.roll = roll
                self.pitch = pitch
                self.yaw = yaw

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 56, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw))

class MAVLink_highres_imu_message(MAVLink_message):
        '''
        The IMU readings in SI units in NED body frame
        '''
        def __init__(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag, abs_pressure, diff_pressure, pressure_alt, temperature, fields_updated):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIGHRES_IMU, 'HIGHRES_IMU')
                self._fieldnames = ['time_usec', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro', 'xmag', 'ymag', 'zmag', 'abs_pressure', 'diff_pressure', 'pressure_alt', 'temperature', 'fields_updated']
                self.time_usec = time_usec
                self.xacc = xacc
                self.yacc = yacc
                self.zacc = zacc
                self.xgyro = xgyro
                self.ygyro = ygyro
                self.zgyro = zgyro
                self.xmag = xmag
                self.ymag = ymag
                self.zmag = zmag
                self.abs_pressure = abs_pressure
                self.diff_pressure = diff_pressure
                self.pressure_alt = pressure_alt
                self.temperature = temperature
                self.fields_updated = fields_updated

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 93, struct.pack('<QfffffffffffffH', self.time_usec, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro, self.xmag, self.ymag, self.zmag, self.abs_pressure, self.diff_pressure, self.pressure_alt, self.temperature, self.fields_updated))

class MAVLink_file_transfer_start_message(MAVLink_message):
        '''
        Begin file transfer
        '''
        def __init__(self, transfer_uid, dest_path, direction, file_size, flags):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_FILE_TRANSFER_START, 'FILE_TRANSFER_START')
                self._fieldnames = ['transfer_uid', 'dest_path', 'direction', 'file_size', 'flags']
                self.transfer_uid = transfer_uid
                self.dest_path = dest_path
                self.direction = direction
                self.file_size = file_size
                self.flags = flags

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 235, struct.pack('<QI240sBB', self.transfer_uid, self.file_size, self.dest_path, self.direction, self.flags))

class MAVLink_file_transfer_dir_list_message(MAVLink_message):
        '''
        Get directory listing
        '''
        def __init__(self, transfer_uid, dir_path, flags):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_FILE_TRANSFER_DIR_LIST, 'FILE_TRANSFER_DIR_LIST')
                self._fieldnames = ['transfer_uid', 'dir_path', 'flags']
                self.transfer_uid = transfer_uid
                self.dir_path = dir_path
                self.flags = flags

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 93, struct.pack('<Q240sB', self.transfer_uid, self.dir_path, self.flags))

class MAVLink_file_transfer_res_message(MAVLink_message):
        '''
        File transfer result
        '''
        def __init__(self, transfer_uid, result):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_FILE_TRANSFER_RES, 'FILE_TRANSFER_RES')
                self._fieldnames = ['transfer_uid', 'result']
                self.transfer_uid = transfer_uid
                self.result = result

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 124, struct.pack('<QB', self.transfer_uid, self.result))

class MAVLink_battery_status_message(MAVLink_message):
        '''
        Transmitte battery informations for a accu pack.
        '''
        def __init__(self, accu_id, voltage_cell_1, voltage_cell_2, voltage_cell_3, voltage_cell_4, voltage_cell_5, voltage_cell_6, current_battery, battery_remaining):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_BATTERY_STATUS, 'BATTERY_STATUS')
                self._fieldnames = ['accu_id', 'voltage_cell_1', 'voltage_cell_2', 'voltage_cell_3', 'voltage_cell_4', 'voltage_cell_5', 'voltage_cell_6', 'current_battery', 'battery_remaining']
                self.accu_id = accu_id
                self.voltage_cell_1 = voltage_cell_1
                self.voltage_cell_2 = voltage_cell_2
                self.voltage_cell_3 = voltage_cell_3
                self.voltage_cell_4 = voltage_cell_4
                self.voltage_cell_5 = voltage_cell_5
                self.voltage_cell_6 = voltage_cell_6
                self.current_battery = current_battery
                self.battery_remaining = battery_remaining

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 42, struct.pack('<HHHHHHhBb', self.voltage_cell_1, self.voltage_cell_2, self.voltage_cell_3, self.voltage_cell_4, self.voltage_cell_5, self.voltage_cell_6, self.current_battery, self.accu_id, self.battery_remaining))

class MAVLink_setpoint_8dof_message(MAVLink_message):
        '''
        Set the 8 DOF setpoint for a controller.
        '''
        def __init__(self, target_system, val1, val2, val3, val4, val5, val6, val7, val8):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SETPOINT_8DOF, 'SETPOINT_8DOF')
                self._fieldnames = ['target_system', 'val1', 'val2', 'val3', 'val4', 'val5', 'val6', 'val7', 'val8']
                self.target_system = target_system
                self.val1 = val1
                self.val2 = val2
                self.val3 = val3
                self.val4 = val4
                self.val5 = val5
                self.val6 = val6
                self.val7 = val7
                self.val8 = val8

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 241, struct.pack('<ffffffffB', self.val1, self.val2, self.val3, self.val4, self.val5, self.val6, self.val7, self.val8, self.target_system))

class MAVLink_setpoint_6dof_message(MAVLink_message):
        '''
        Set the 6 DOF setpoint for a attitude and position controller.
        '''
        def __init__(self, target_system, trans_x, trans_y, trans_z, rot_x, rot_y, rot_z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_SETPOINT_6DOF, 'SETPOINT_6DOF')
                self._fieldnames = ['target_system', 'trans_x', 'trans_y', 'trans_z', 'rot_x', 'rot_y', 'rot_z']
                self.target_system = target_system
                self.trans_x = trans_x
                self.trans_y = trans_y
                self.trans_z = trans_z
                self.rot_x = rot_x
                self.rot_y = rot_y
                self.rot_z = rot_z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 15, struct.pack('<ffffffB', self.trans_x, self.trans_y, self.trans_z, self.rot_x, self.rot_y, self.rot_z, self.target_system))

class MAVLink_memory_vect_message(MAVLink_message):
        '''
        Send raw controller memory. The use of this message is
        discouraged for normal packets, but a quite efficient way for
        testing new messages and getting experimental debug output.
        '''
        def __init__(self, address, ver, type, value):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_MEMORY_VECT, 'MEMORY_VECT')
                self._fieldnames = ['address', 'ver', 'type', 'value']
                self.address = address
                self.ver = ver
                self.type = type
                self.value = value

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 204, struct.pack('<HBB32s', self.address, self.ver, self.type, self.value))

class MAVLink_debug_vect_message(MAVLink_message):
        '''

        '''
        def __init__(self, name, time_usec, x, y, z):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_DEBUG_VECT, 'DEBUG_VECT')
                self._fieldnames = ['name', 'time_usec', 'x', 'y', 'z']
                self.name = name
                self.time_usec = time_usec
                self.x = x
                self.y = y
                self.z = z

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 49, struct.pack('<Qfff10s', self.time_usec, self.x, self.y, self.z, self.name))

class MAVLink_named_value_float_message(MAVLink_message):
        '''
        Send a key-value pair as float. The use of this message is
        discouraged for normal packets, but a quite efficient way for
        testing new messages and getting experimental debug output.
        '''
        def __init__(self, time_boot_ms, name, value):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAMED_VALUE_FLOAT, 'NAMED_VALUE_FLOAT')
                self._fieldnames = ['time_boot_ms', 'name', 'value']
                self.time_boot_ms = time_boot_ms
                self.name = name
                self.value = value

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 170, struct.pack('<If10s', self.time_boot_ms, self.value, self.name))

class MAVLink_named_value_int_message(MAVLink_message):
        '''
        Send a key-value pair as integer. The use of this message is
        discouraged for normal packets, but a quite efficient way for
        testing new messages and getting experimental debug output.
        '''
        def __init__(self, time_boot_ms, name, value):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAMED_VALUE_INT, 'NAMED_VALUE_INT')
                self._fieldnames = ['time_boot_ms', 'name', 'value']
                self.time_boot_ms = time_boot_ms
                self.name = name
                self.value = value

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 44, struct.pack('<Ii10s', self.time_boot_ms, self.value, self.name))

class MAVLink_statustext_message(MAVLink_message):
        '''
        Status text message. These messages are printed in yellow in
        the COMM console of QGroundControl. WARNING: They consume
        quite some bandwidth, so use only for important status and
        error messages. If implemented wisely, these messages are
        buffered on the MCU and sent only at a limited rate (e.g. 10
        Hz).
        '''
        def __init__(self, severity, text):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_STATUSTEXT, 'STATUSTEXT')
                self._fieldnames = ['severity', 'text']
                self.severity = severity
                self.text = text

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 83, struct.pack('<B50s', self.severity, self.text))

class MAVLink_debug_message(MAVLink_message):
        '''
        Send a debug value. The index is used to discriminate between
        values. These values show up in the plot of QGroundControl as
        DEBUG N.
        '''
        def __init__(self, time_boot_ms, ind, value):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_DEBUG, 'DEBUG')
                self._fieldnames = ['time_boot_ms', 'ind', 'value']
                self.time_boot_ms = time_boot_ms
                self.ind = ind
                self.value = value

        def pack(self, mav):
                return MAVLink_message.pack(self, mav, 46, struct.pack('<IfB', self.time_boot_ms, self.value, self.ind))


mavlink_map = {
        MAVLINK_MSG_ID_HEARTBEAT : ( '<IBBBBB', MAVLink_heartbeat_message, [1, 2, 3, 0, 4, 5], 50 ),
        MAVLINK_MSG_ID_SYS_STATUS : ( '<IIIHHhHHHHHHb', MAVLink_sys_status_message, [0, 1, 2, 3, 4, 5, 12, 6, 7, 8, 9, 10, 11], 124 ),
        MAVLINK_MSG_ID_SYSTEM_TIME : ( '<QI', MAVLink_system_time_message, [0, 1], 137 ),
        MAVLINK_MSG_ID_PING : ( '<QIBB', MAVLink_ping_message, [0, 1, 2, 3], 237 ),
        MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL : ( '<BBB25s', MAVLink_change_operator_control_message, [0, 1, 2, 3], 217 ),
        MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK : ( '<BBB', MAVLink_change_operator_control_ack_message, [0, 1, 2], 104 ),
        MAVLINK_MSG_ID_AUTH_KEY : ( '<32s', MAVLink_auth_key_message, [0], 119 ),
        MAVLINK_MSG_ID_SET_MODE : ( '<IBB', MAVLink_set_mode_message, [1, 2, 0], 89 ),
        MAVLINK_MSG_ID_PARAM_REQUEST_READ : ( '<hBB16s', MAVLink_param_request_read_message, [1, 2, 3, 0], 214 ),
        MAVLINK_MSG_ID_PARAM_REQUEST_LIST : ( '<BB', MAVLink_param_request_list_message, [0, 1], 159 ),
        MAVLINK_MSG_ID_PARAM_VALUE : ( '<fHH16sB', MAVLink_param_value_message, [3, 0, 4, 1, 2], 220 ),
        MAVLINK_MSG_ID_PARAM_SET : ( '<fBB16sB', MAVLink_param_set_message, [1, 2, 3, 0, 4], 168 ),
        MAVLINK_MSG_ID_GPS_RAW_INT : ( '<QiiiHHHHBB', MAVLink_gps_raw_int_message, [0, 8, 1, 2, 3, 4, 5, 6, 7, 9], 24 ),
        MAVLINK_MSG_ID_GPS_STATUS : ( '<B20s20s20s20s20s', MAVLink_gps_status_message, [0, 1, 2, 3, 4, 5], 23 ),
        MAVLINK_MSG_ID_SCALED_IMU : ( '<Ihhhhhhhhh', MAVLink_scaled_imu_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9], 170 ),
        MAVLINK_MSG_ID_RAW_IMU : ( '<Qhhhhhhhhh', MAVLink_raw_imu_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9], 144 ),
        MAVLINK_MSG_ID_RAW_PRESSURE : ( '<Qhhhh', MAVLink_raw_pressure_message, [0, 1, 2, 3, 4], 67 ),
        MAVLINK_MSG_ID_SCALED_PRESSURE : ( '<Iffh', MAVLink_scaled_pressure_message, [0, 1, 2, 3], 115 ),
        MAVLINK_MSG_ID_ATTITUDE : ( '<Iffffff', MAVLink_attitude_message, [0, 1, 2, 3, 4, 5, 6], 39 ),
        MAVLINK_MSG_ID_ATTITUDE_QUATERNION : ( '<Ifffffff', MAVLink_attitude_quaternion_message, [0, 1, 2, 3, 4, 5, 6, 7], 246 ),
        MAVLINK_MSG_ID_LOCAL_POSITION_NED : ( '<Iffffff', MAVLink_local_position_ned_message, [0, 1, 2, 3, 4, 5, 6], 185 ),
        MAVLINK_MSG_ID_GLOBAL_POSITION_INT : ( '<IiiiihhhH', MAVLink_global_position_int_message, [0, 1, 2, 3, 4, 5, 6, 7, 8], 104 ),
        MAVLINK_MSG_ID_RC_CHANNELS_SCALED : ( '<IhhhhhhhhBB', MAVLink_rc_channels_scaled_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8, 10], 237 ),
        MAVLINK_MSG_ID_RC_CHANNELS_RAW : ( '<IHHHHHHHHBB', MAVLink_rc_channels_raw_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8, 10], 244 ),
        MAVLINK_MSG_ID_SERVO_OUTPUT_RAW : ( '<IHHHHHHHHB', MAVLink_servo_output_raw_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8], 242 ),
        MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST : ( '<hhBB', MAVLink_mission_request_partial_list_message, [2, 3, 0, 1], 212 ),
        MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST : ( '<hhBB', MAVLink_mission_write_partial_list_message, [2, 3, 0, 1], 9 ),
        MAVLINK_MSG_ID_MISSION_ITEM : ( '<fffffffHHBBBBB', MAVLink_mission_item_message, [9, 10, 7, 11, 8, 12, 13, 0, 1, 2, 3, 4, 5, 6], 254 ),
        MAVLINK_MSG_ID_MISSION_REQUEST : ( '<HBB', MAVLink_mission_request_message, [1, 2, 0], 230 ),
        MAVLINK_MSG_ID_MISSION_SET_CURRENT : ( '<HBB', MAVLink_mission_set_current_message, [1, 2, 0], 28 ),
        MAVLINK_MSG_ID_MISSION_CURRENT : ( '<H', MAVLink_mission_current_message, [0], 28 ),
        MAVLINK_MSG_ID_MISSION_REQUEST_LIST : ( '<BB', MAVLink_mission_request_list_message, [0, 1], 132 ),
        MAVLINK_MSG_ID_MISSION_COUNT : ( '<HBB', MAVLink_mission_count_message, [1, 2, 0], 221 ),
        MAVLINK_MSG_ID_MISSION_CLEAR_ALL : ( '<BB', MAVLink_mission_clear_all_message, [0, 1], 232 ),
        MAVLINK_MSG_ID_MISSION_ITEM_REACHED : ( '<H', MAVLink_mission_item_reached_message, [0], 11 ),
        MAVLINK_MSG_ID_MISSION_ACK : ( '<BBB', MAVLink_mission_ack_message, [0, 1, 2], 153 ),
        MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN : ( '<iiiB', MAVLink_set_gps_global_origin_message, [3, 0, 1, 2], 41 ),
        MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN : ( '<iii', MAVLink_gps_global_origin_message, [0, 1, 2], 39 ),
        MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT : ( '<ffffBBB', MAVLink_set_local_position_setpoint_message, [4, 5, 6, 0, 1, 2, 3], 214 ),
        MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT : ( '<ffffB', MAVLink_local_position_setpoint_message, [4, 0, 1, 2, 3], 223 ),
        MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT : ( '<iiihB', MAVLink_global_position_setpoint_int_message, [4, 0, 1, 2, 3], 141 ),
        MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT : ( '<iiihB', MAVLink_set_global_position_setpoint_int_message, [4, 0, 1, 2, 3], 33 ),
        MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA : ( '<ffffffBBB', MAVLink_safety_set_allowed_area_message, [6, 7, 8, 0, 1, 2, 3, 4, 5], 15 ),
        MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA : ( '<ffffffB', MAVLink_safety_allowed_area_message, [6, 0, 1, 2, 3, 4, 5], 3 ),
        MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST : ( '<ffffBB', MAVLink_set_roll_pitch_yaw_thrust_message, [4, 5, 0, 1, 2, 3], 100 ),
        MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST : ( '<ffffBB', MAVLink_set_roll_pitch_yaw_speed_thrust_message, [4, 5, 0, 1, 2, 3], 24 ),
        MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT : ( '<Iffff', MAVLink_roll_pitch_yaw_thrust_setpoint_message, [0, 1, 2, 3, 4], 239 ),
        MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT : ( '<Iffff', MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message, [0, 1, 2, 3, 4], 238 ),
        MAVLINK_MSG_ID_SET_QUAD_MOTORS_SETPOINT : ( '<HHHHB', MAVLink_set_quad_motors_setpoint_message, [4, 0, 1, 2, 3], 30 ),
        MAVLINK_MSG_ID_SET_QUAD_SWARM_ROLL_PITCH_YAW_THRUST : ( '<4h4h4h4HBB', MAVLink_set_quad_swarm_roll_pitch_yaw_thrust_message, [4, 5, 0, 1, 2, 3], 240 ),
        MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT : ( '<fffffhhH', MAVLink_nav_controller_output_message, [0, 1, 5, 6, 7, 2, 3, 4], 183 ),
        MAVLINK_MSG_ID_SET_QUAD_SWARM_LED_ROLL_PITCH_YAW_THRUST : ( '<4h4h4h4HBB4s4s4s', MAVLink_set_quad_swarm_led_roll_pitch_yaw_thrust_message, [4, 5, 6, 7, 8, 0, 1, 2, 3], 130 ),
        MAVLINK_MSG_ID_STATE_CORRECTION : ( '<fffffffff', MAVLink_state_correction_message, [0, 1, 2, 3, 4, 5, 6, 7, 8], 130 ),
        MAVLINK_MSG_ID_REQUEST_DATA_STREAM : ( '<HBBBB', MAVLink_request_data_stream_message, [1, 2, 3, 0, 4], 148 ),
        MAVLINK_MSG_ID_DATA_STREAM : ( '<HBB', MAVLink_data_stream_message, [1, 0, 2], 21 ),
        MAVLINK_MSG_ID_MANUAL_CONTROL : ( '<hhhhHB', MAVLink_manual_control_message, [5, 0, 1, 2, 3, 4], 243 ),
        MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE : ( '<HHHHHHHHBB', MAVLink_rc_channels_override_message, [8, 9, 0, 1, 2, 3, 4, 5, 6, 7], 124 ),
        MAVLINK_MSG_ID_VFR_HUD : ( '<ffffhH', MAVLink_vfr_hud_message, [0, 1, 4, 5, 2, 3], 20 ),
        MAVLINK_MSG_ID_COMMAND_LONG : ( '<fffffffHBBB', MAVLink_command_long_message, [8, 9, 7, 10, 0, 1, 2, 3, 4, 5, 6], 152 ),
        MAVLINK_MSG_ID_COMMAND_ACK : ( '<HB', MAVLink_command_ack_message, [0, 1], 143 ),
        MAVLINK_MSG_ID_ROLL_PITCH_YAW_RATES_THRUST_SETPOINT : ( '<Iffff', MAVLink_roll_pitch_yaw_rates_thrust_setpoint_message, [0, 1, 2, 3, 4], 127 ),
        MAVLINK_MSG_ID_MANUAL_SETPOINT : ( '<IffffBB', MAVLink_manual_setpoint_message, [0, 1, 2, 3, 4, 5, 6], 106 ),
        MAVLINK_MSG_ID_LOCAL_POSITION_NED_SYSTEM_GLOBAL_OFFSET : ( '<Iffffff', MAVLink_local_position_ned_system_global_offset_message, [0, 1, 2, 3, 4, 5, 6], 231 ),
        MAVLINK_MSG_ID_HIL_STATE : ( '<Qffffffiiihhhhhh', MAVLink_hil_state_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15], 183 ),
        MAVLINK_MSG_ID_HIL_CONTROLS : ( '<QffffffffBB', MAVLink_hil_controls_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10], 63 ),
        MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW : ( '<QHHHHHHHHHHHHB', MAVLink_hil_rc_inputs_raw_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13], 54 ),
        MAVLINK_MSG_ID_OPTICAL_FLOW : ( '<QfffhhBB', MAVLink_optical_flow_message, [0, 6, 4, 5, 1, 2, 7, 3], 175 ),
        MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_global_vision_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 102 ),
        MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_vision_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 158 ),
        MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE : ( '<Qfff', MAVLink_vision_speed_estimate_message, [0, 1, 2, 3], 208 ),
        MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_vicon_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 56 ),
        MAVLINK_MSG_ID_HIGHRES_IMU : ( '<QfffffffffffffH', MAVLink_highres_imu_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14], 93 ),
        MAVLINK_MSG_ID_FILE_TRANSFER_START : ( '<QI240sBB', MAVLink_file_transfer_start_message, [0, 2, 3, 1, 4], 235 ),
        MAVLINK_MSG_ID_FILE_TRANSFER_DIR_LIST : ( '<Q240sB', MAVLink_file_transfer_dir_list_message, [0, 1, 2], 93 ),
        MAVLINK_MSG_ID_FILE_TRANSFER_RES : ( '<QB', MAVLink_file_transfer_res_message, [0, 1], 124 ),
        MAVLINK_MSG_ID_BATTERY_STATUS : ( '<HHHHHHhBb', MAVLink_battery_status_message, [7, 0, 1, 2, 3, 4, 5, 6, 8], 42 ),
        MAVLINK_MSG_ID_SETPOINT_8DOF : ( '<ffffffffB', MAVLink_setpoint_8dof_message, [8, 0, 1, 2, 3, 4, 5, 6, 7], 241 ),
        MAVLINK_MSG_ID_SETPOINT_6DOF : ( '<ffffffB', MAVLink_setpoint_6dof_message, [6, 0, 1, 2, 3, 4, 5], 15 ),
        MAVLINK_MSG_ID_MEMORY_VECT : ( '<HBB32s', MAVLink_memory_vect_message, [0, 1, 2, 3], 204 ),
        MAVLINK_MSG_ID_DEBUG_VECT : ( '<Qfff10s', MAVLink_debug_vect_message, [4, 0, 1, 2, 3], 49 ),
        MAVLINK_MSG_ID_NAMED_VALUE_FLOAT : ( '<If10s', MAVLink_named_value_float_message, [0, 2, 1], 170 ),
        MAVLINK_MSG_ID_NAMED_VALUE_INT : ( '<Ii10s', MAVLink_named_value_int_message, [0, 2, 1], 44 ),
        MAVLINK_MSG_ID_STATUSTEXT : ( '<B50s', MAVLink_statustext_message, [0, 1], 83 ),
        MAVLINK_MSG_ID_DEBUG : ( '<IfB', MAVLink_debug_message, [0, 2, 1], 46 ),
}

class MAVError(Exception):
        '''MAVLink error class'''
        def __init__(self, msg):
            Exception.__init__(self, msg)
            self.message = msg

class MAVString(str):
        '''NUL terminated string'''
        def __init__(self, s):
                str.__init__(self)
        def __str__(self):
            i = self.find(chr(0))
            if i == -1:
                return self[:]
            return self[0:i]

class MAVLink_bad_data(MAVLink_message):
        '''
        a piece of bad data in a mavlink stream
        '''
        def __init__(self, data, reason):
                MAVLink_message.__init__(self, MAVLINK_MSG_ID_BAD_DATA, 'BAD_DATA')
                self._fieldnames = ['data', 'reason']
                self.data = data
                self.reason = reason
                self._msgbuf = data
            
class MAVLink(object):
        '''MAVLink protocol handling class'''
        def __init__(self, file, srcSystem=0, srcComponent=0):
                self.seq = 0
                self.file = file
                self.srcSystem = srcSystem
                self.srcComponent = srcComponent
                self.callback = None
                self.callback_args = None
                self.callback_kwargs = None
                self.buf = array.array('B')
                self.expected_length = 6
                self.have_prefix_error = False
                self.robust_parsing = False
                self.protocol_marker = 254
                self.little_endian = True
                self.crc_extra = True
                self.sort_fields = True
                self.total_packets_sent = 0
                self.total_bytes_sent = 0
                self.total_packets_received = 0
                self.total_bytes_received = 0
                self.total_receive_errors = 0
                self.startup_time = time.time()

        def set_callback(self, callback, *args, **kwargs):
            self.callback = callback
            self.callback_args = args
            self.callback_kwargs = kwargs
            
        def send(self, mavmsg):
                '''send a MAVLink message'''
                buf = mavmsg.pack(self)
                self.file.write(buf)
                self.seq = (self.seq + 1) % 255
                self.total_packets_sent += 1
                self.total_bytes_sent += len(buf)

        def bytes_needed(self):
            '''return number of bytes needed for next parsing stage'''
            ret = self.expected_length - len(self.buf)
            if ret <= 0:
                return 1
            return ret

        def parse_char(self, c):
            '''input some data bytes, possibly returning a new message'''
            if isinstance(c, str):
                self.buf.fromstring(c)
            else:
                self.buf.extend(c)
            self.total_bytes_received += len(c)
            if len(self.buf) >= 1 and self.buf[0] != 254:
                magic = self.buf[0]
                self.buf = self.buf[1:]
                if self.robust_parsing:
                    m = MAVLink_bad_data(chr(magic), "Bad prefix")
                    if self.callback:
                        self.callback(m, *self.callback_args, **self.callback_kwargs)
                    self.expected_length = 6
                    self.total_receive_errors += 1
                    return m
                if self.have_prefix_error:
                    return None
                self.have_prefix_error = True
                self.total_receive_errors += 1
                raise MAVError("invalid MAVLink prefix '%s'" % magic) 
            self.have_prefix_error = False
            if len(self.buf) >= 2:
                (magic, self.expected_length) = struct.unpack('BB', self.buf[0:2])
                self.expected_length += 8
            if self.expected_length >= 8 and len(self.buf) >= self.expected_length:
                mbuf = self.buf[0:self.expected_length]
                self.buf = self.buf[self.expected_length:]
                self.expected_length = 6
                if self.robust_parsing:
                    try:
                        m = self.decode(mbuf)
                        self.total_packets_received += 1
                    except MAVError as reason:
                        m = MAVLink_bad_data(mbuf, reason.message)
                        self.total_receive_errors += 1
                else:
                    m = self.decode(mbuf)
                    self.total_packets_received += 1
                if self.callback:
                    self.callback(m, *self.callback_args, **self.callback_kwargs)
                return m
            return None

        def parse_buffer(self, s):
            '''input some data bytes, possibly returning a list of new messages'''
            m = self.parse_char(s)
            if m is None:
                return None
            ret = [m]
            while True:
                m = self.parse_char("")
                if m is None:
                    return ret
                ret.append(m)
            return ret

        def decode(self, msgbuf):
                '''decode a buffer as a MAVLink message'''
                # decode the header
                try:
                    magic, mlen, seq, srcSystem, srcComponent, msgId = struct.unpack('cBBBBB', msgbuf[:6])
                except struct.error as emsg:
                    raise MAVError('Unable to unpack MAVLink header: %s' % emsg)
                if ord(magic) != 254:
                    raise MAVError("invalid MAVLink prefix '%s'" % magic)
                if mlen != len(msgbuf)-8:
                    raise MAVError('invalid MAVLink message length. Got %u expected %u, msgId=%u' % (len(msgbuf)-8, mlen, msgId))

                if not msgId in mavlink_map:
                    raise MAVError('unknown MAVLink message ID %u' % msgId)

                # decode the payload
                (fmt, type, order_map, crc_extra) = mavlink_map[msgId]

                # decode the checksum
                try:
                    crc, = struct.unpack('<H', msgbuf[-2:])
                except struct.error as emsg:
                    raise MAVError('Unable to unpack MAVLink CRC: %s' % emsg)
                crc2 = mavutil.x25crc(msgbuf[1:-2])
                if True: # using CRC extra 
                    crc2.accumulate(chr(crc_extra))
                if crc != crc2.crc:
                    raise MAVError('invalid MAVLink CRC in msgID %u 0x%04x should be 0x%04x' % (msgId, crc, crc2.crc))

                try:
                    t = struct.unpack(fmt, msgbuf[6:-2])
                except struct.error as emsg:
                    raise MAVError('Unable to unpack MAVLink payload type=%s fmt=%s payloadLength=%u: %s' % (
                        type, fmt, len(msgbuf[6:-2]), emsg))

                tlist = list(t)
                # handle sorted fields
                if True:
                    t = tlist[:]
                    for i in range(0, len(tlist)):
                        tlist[i] = t[order_map[i]]

                # terminate any strings
                for i in range(0, len(tlist)):
                    if isinstance(tlist[i], str):
                        tlist[i] = MAVString(tlist[i])
                t = tuple(tlist)
                # construct the message object
                try:
                    m = type(*t)
                except Exception as emsg:
                    raise MAVError('Unable to instantiate MAVLink message of type %s : %s' % (type, emsg))
                m._msgbuf = msgbuf
                m._payload = msgbuf[6:-2]
                m._crc = crc
                m._header = MAVLink_header(msgId, mlen, seq, srcSystem, srcComponent)
                return m
        def heartbeat_encode(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version=3):
                '''
                The heartbeat message shows that a system is present and responding.
                The type of the MAV and Autopilot hardware allow the
                receiving system to treat further messages from this
                system appropriate (e.g. by laying out the user
                interface based on the autopilot).

                type                      : Type of the MAV (quadrotor, helicopter, etc., up to 15 types, defined in MAV_TYPE ENUM) (uint8_t)
                autopilot                 : Autopilot type / class. defined in MAV_AUTOPILOT ENUM (uint8_t)
                base_mode                 : System mode bitfield, see MAV_MODE_FLAGS ENUM in mavlink/include/mavlink_types.h (uint8_t)
                custom_mode               : A bitfield for use for autopilot-specific flags. (uint32_t)
                system_status             : System status flag, see MAV_STATE ENUM (uint8_t)
                mavlink_version           : MAVLink version, not writable by user, gets added by protocol because of magic data type: uint8_t_mavlink_version (uint8_t)

                '''
                msg = MAVLink_heartbeat_message(type, autopilot, base_mode, custom_mode, system_status, mavlink_version)
                msg.pack(self)
                return msg
            
        def heartbeat_send(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version=3):
                '''
                The heartbeat message shows that a system is present and responding.
                The type of the MAV and Autopilot hardware allow the
                receiving system to treat further messages from this
                system appropriate (e.g. by laying out the user
                interface based on the autopilot).

                type                      : Type of the MAV (quadrotor, helicopter, etc., up to 15 types, defined in MAV_TYPE ENUM) (uint8_t)
                autopilot                 : Autopilot type / class. defined in MAV_AUTOPILOT ENUM (uint8_t)
                base_mode                 : System mode bitfield, see MAV_MODE_FLAGS ENUM in mavlink/include/mavlink_types.h (uint8_t)
                custom_mode               : A bitfield for use for autopilot-specific flags. (uint32_t)
                system_status             : System status flag, see MAV_STATE ENUM (uint8_t)
                mavlink_version           : MAVLink version, not writable by user, gets added by protocol because of magic data type: uint8_t_mavlink_version (uint8_t)

                '''
                return self.send(self.heartbeat_encode(type, autopilot, base_mode, custom_mode, system_status, mavlink_version))
            
        def sys_status_encode(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4):
                '''
                The general system state. If the system is following the MAVLink
                standard, the system state is mainly defined by three
                orthogonal states/modes: The system mode, which is
                either LOCKED (motors shut down and locked), MANUAL
                (system under RC control), GUIDED (system with
                autonomous position control, position setpoint
                controlled manually) or AUTO (system guided by
                path/waypoint planner). The NAV_MODE defined the
                current flight state: LIFTOFF (often an open-loop
                maneuver), LANDING, WAYPOINTS or VECTOR. This
                represents the internal navigation state machine. The
                system status shows wether the system is currently
                active or not and if an emergency occured. During the
                CRITICAL and EMERGENCY states the MAV is still
                considered to be active, but should start emergency
                procedures autonomously. After a failure occured it
                should first move from active to critical to allow
                manual intervention and then move to emergency after a
                certain timeout.

                onboard_control_sensors_present        : Bitmask showing which onboard controllers and sensors are present. Value of 0: not present. Value of 1: present. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                onboard_control_sensors_enabled        : Bitmask showing which onboard controllers and sensors are enabled:  Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                onboard_control_sensors_health        : Bitmask showing which onboard controllers and sensors are operational or have an error:  Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                load                      : Maximum usage in percent of the mainloop time, (0%: 0, 100%: 1000) should be always below 1000 (uint16_t)
                voltage_battery           : Battery voltage, in millivolts (1 = 1 millivolt) (uint16_t)
                current_battery           : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t)
                battery_remaining         : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot estimate the remaining battery (int8_t)
                drop_rate_comm            : Communication drops in percent, (0%: 0, 100%: 10'000), (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t)
                errors_comm               : Communication errors (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t)
                errors_count1             : Autopilot-specific errors (uint16_t)
                errors_count2             : Autopilot-specific errors (uint16_t)
                errors_count3             : Autopilot-specific errors (uint16_t)
                errors_count4             : Autopilot-specific errors (uint16_t)

                '''
                msg = MAVLink_sys_status_message(onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4)
                msg.pack(self)
                return msg
            
        def sys_status_send(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4):
                '''
                The general system state. If the system is following the MAVLink
                standard, the system state is mainly defined by three
                orthogonal states/modes: The system mode, which is
                either LOCKED (motors shut down and locked), MANUAL
                (system under RC control), GUIDED (system with
                autonomous position control, position setpoint
                controlled manually) or AUTO (system guided by
                path/waypoint planner). The NAV_MODE defined the
                current flight state: LIFTOFF (often an open-loop
                maneuver), LANDING, WAYPOINTS or VECTOR. This
                represents the internal navigation state machine. The
                system status shows wether the system is currently
                active or not and if an emergency occured. During the
                CRITICAL and EMERGENCY states the MAV is still
                considered to be active, but should start emergency
                procedures autonomously. After a failure occured it
                should first move from active to critical to allow
                manual intervention and then move to emergency after a
                certain timeout.

                onboard_control_sensors_present        : Bitmask showing which onboard controllers and sensors are present. Value of 0: not present. Value of 1: present. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                onboard_control_sensors_enabled        : Bitmask showing which onboard controllers and sensors are enabled:  Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                onboard_control_sensors_health        : Bitmask showing which onboard controllers and sensors are operational or have an error:  Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t)
                load                      : Maximum usage in percent of the mainloop time, (0%: 0, 100%: 1000) should be always below 1000 (uint16_t)
                voltage_battery           : Battery voltage, in millivolts (1 = 1 millivolt) (uint16_t)
                current_battery           : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t)
                battery_remaining         : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot estimate the remaining battery (int8_t)
                drop_rate_comm            : Communication drops in percent, (0%: 0, 100%: 10'000), (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t)
                errors_comm               : Communication errors (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t)
                errors_count1             : Autopilot-specific errors (uint16_t)
                errors_count2             : Autopilot-specific errors (uint16_t)
                errors_count3             : Autopilot-specific errors (uint16_t)
                errors_count4             : Autopilot-specific errors (uint16_t)

                '''
                return self.send(self.sys_status_encode(onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4))
            
        def system_time_encode(self, time_unix_usec, time_boot_ms):
                '''
                The system time is the time of the master clock, typically the
                computer clock of the main onboard computer.

                time_unix_usec            : Timestamp of the master clock in microseconds since UNIX epoch. (uint64_t)
                time_boot_ms              : Timestamp of the component clock since boot time in milliseconds. (uint32_t)

                '''
                msg = MAVLink_system_time_message(time_unix_usec, time_boot_ms)
                msg.pack(self)
                return msg
            
        def system_time_send(self, time_unix_usec, time_boot_ms):
                '''
                The system time is the time of the master clock, typically the
                computer clock of the main onboard computer.

                time_unix_usec            : Timestamp of the master clock in microseconds since UNIX epoch. (uint64_t)
                time_boot_ms              : Timestamp of the component clock since boot time in milliseconds. (uint32_t)

                '''
                return self.send(self.system_time_encode(time_unix_usec, time_boot_ms))
            
        def ping_encode(self, time_usec, seq, target_system, target_component):
                '''
                A ping message either requesting or responding to a ping. This allows
                to measure the system latencies, including serial
                port, radio modem and UDP connections.

                time_usec                 : Unix timestamp in microseconds (uint64_t)
                seq                       : PING sequence (uint32_t)
                target_system             : 0: request ping from all receiving systems, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t)
                target_component          : 0: request ping from all receiving components, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t)

                '''
                msg = MAVLink_ping_message(time_usec, seq, target_system, target_component)
                msg.pack(self)
                return msg
            
        def ping_send(self, time_usec, seq, target_system, target_component):
                '''
                A ping message either requesting or responding to a ping. This allows
                to measure the system latencies, including serial
                port, radio modem and UDP connections.

                time_usec                 : Unix timestamp in microseconds (uint64_t)
                seq                       : PING sequence (uint32_t)
                target_system             : 0: request ping from all receiving systems, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t)
                target_component          : 0: request ping from all receiving components, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t)

                '''
                return self.send(self.ping_encode(time_usec, seq, target_system, target_component))
            
        def change_operator_control_encode(self, target_system, control_request, version, passkey):
                '''
                Request to control this MAV

                target_system             : System the GCS requests control for (uint8_t)
                control_request           : 0: request control of this MAV, 1: Release control of this MAV (uint8_t)
                version                   : 0: key as plaintext, 1-255: future, different hashing/encryption variants. The GCS should in general use the safest mode possible initially and then gradually move down the encryption level if it gets a NACK message indicating an encryption mismatch. (uint8_t)
                passkey                   : Password / Key, depending on version plaintext or encrypted. 25 or less characters, NULL terminated. The characters may involve A-Z, a-z, 0-9, and "!?,.-" (char)

                '''
                msg = MAVLink_change_operator_control_message(target_system, control_request, version, passkey)
                msg.pack(self)
                return msg
            
        def change_operator_control_send(self, target_system, control_request, version, passkey):
                '''
                Request to control this MAV

                target_system             : System the GCS requests control for (uint8_t)
                control_request           : 0: request control of this MAV, 1: Release control of this MAV (uint8_t)
                version                   : 0: key as plaintext, 1-255: future, different hashing/encryption variants. The GCS should in general use the safest mode possible initially and then gradually move down the encryption level if it gets a NACK message indicating an encryption mismatch. (uint8_t)
                passkey                   : Password / Key, depending on version plaintext or encrypted. 25 or less characters, NULL terminated. The characters may involve A-Z, a-z, 0-9, and "!?,.-" (char)

                '''
                return self.send(self.change_operator_control_encode(target_system, control_request, version, passkey))
            
        def change_operator_control_ack_encode(self, gcs_system_id, control_request, ack):
                '''
                Accept / deny control of this MAV

                gcs_system_id             : ID of the GCS this message (uint8_t)
                control_request           : 0: request control of this MAV, 1: Release control of this MAV (uint8_t)
                ack                       : 0: ACK, 1: NACK: Wrong passkey, 2: NACK: Unsupported passkey encryption method, 3: NACK: Already under control (uint8_t)

                '''
                msg = MAVLink_change_operator_control_ack_message(gcs_system_id, control_request, ack)
                msg.pack(self)
                return msg
            
        def change_operator_control_ack_send(self, gcs_system_id, control_request, ack):
                '''
                Accept / deny control of this MAV

                gcs_system_id             : ID of the GCS this message (uint8_t)
                control_request           : 0: request control of this MAV, 1: Release control of this MAV (uint8_t)
                ack                       : 0: ACK, 1: NACK: Wrong passkey, 2: NACK: Unsupported passkey encryption method, 3: NACK: Already under control (uint8_t)

                '''
                return self.send(self.change_operator_control_ack_encode(gcs_system_id, control_request, ack))
            
        def auth_key_encode(self, key):
                '''
                Emit an encrypted signature / key identifying this system. PLEASE
                NOTE: This protocol has been kept simple, so
                transmitting the key requires an encrypted channel for
                true safety.

                key                       : key (char)

                '''
                msg = MAVLink_auth_key_message(key)
                msg.pack(self)
                return msg
            
        def auth_key_send(self, key):
                '''
                Emit an encrypted signature / key identifying this system. PLEASE
                NOTE: This protocol has been kept simple, so
                transmitting the key requires an encrypted channel for
                true safety.

                key                       : key (char)

                '''
                return self.send(self.auth_key_encode(key))
            
        def set_mode_encode(self, target_system, base_mode, custom_mode):
                '''
                Set the system mode, as defined by enum MAV_MODE. There is no target
                component id as the mode is by definition for the
                overall aircraft, not only for one component.

                target_system             : The system setting the mode (uint8_t)
                base_mode                 : The new base mode (uint8_t)
                custom_mode               : The new autopilot-specific mode. This field can be ignored by an autopilot. (uint32_t)

                '''
                msg = MAVLink_set_mode_message(target_system, base_mode, custom_mode)
                msg.pack(self)
                return msg
            
        def set_mode_send(self, target_system, base_mode, custom_mode):
                '''
                Set the system mode, as defined by enum MAV_MODE. There is no target
                component id as the mode is by definition for the
                overall aircraft, not only for one component.

                target_system             : The system setting the mode (uint8_t)
                base_mode                 : The new base mode (uint8_t)
                custom_mode               : The new autopilot-specific mode. This field can be ignored by an autopilot. (uint32_t)

                '''
                return self.send(self.set_mode_encode(target_system, base_mode, custom_mode))
            
        def param_request_read_encode(self, target_system, target_component, param_id, param_index):
                '''
                Request to read the onboard parameter with the param_id string id.
                Onboard parameters are stored as key[const char*] ->
                value[float]. This allows to send a parameter to any
                other component (such as the GCS) without the need of
                previous knowledge of possible parameter names. Thus
                the same GCS can store different parameters for
                different autopilots. See also
                http://qgroundcontrol.org/parameter_interface for a
                full documentation of QGroundControl and IMU code.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_index               : Parameter index. Send -1 to use the param ID field as identifier (else the param id will be ignored) (int16_t)

                '''
                msg = MAVLink_param_request_read_message(target_system, target_component, param_id, param_index)
                msg.pack(self)
                return msg
            
        def param_request_read_send(self, target_system, target_component, param_id, param_index):
                '''
                Request to read the onboard parameter with the param_id string id.
                Onboard parameters are stored as key[const char*] ->
                value[float]. This allows to send a parameter to any
                other component (such as the GCS) without the need of
                previous knowledge of possible parameter names. Thus
                the same GCS can store different parameters for
                different autopilots. See also
                http://qgroundcontrol.org/parameter_interface for a
                full documentation of QGroundControl and IMU code.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_index               : Parameter index. Send -1 to use the param ID field as identifier (else the param id will be ignored) (int16_t)

                '''
                return self.send(self.param_request_read_encode(target_system, target_component, param_id, param_index))
            
        def param_request_list_encode(self, target_system, target_component):
                '''
                Request all parameters of this component. After his request, all
                parameters are emitted.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                msg = MAVLink_param_request_list_message(target_system, target_component)
                msg.pack(self)
                return msg
            
        def param_request_list_send(self, target_system, target_component):
                '''
                Request all parameters of this component. After his request, all
                parameters are emitted.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                return self.send(self.param_request_list_encode(target_system, target_component))
            
        def param_value_encode(self, param_id, param_value, param_type, param_count, param_index):
                '''
                Emit the value of a onboard parameter. The inclusion of param_count
                and param_index in the message allows the recipient to
                keep track of received parameters and allows him to
                re-request missing parameters after a loss or timeout.

                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_value               : Onboard parameter value (float)
                param_type                : Onboard parameter type: see the MAV_PARAM_TYPE enum for supported data types. (uint8_t)
                param_count               : Total number of onboard parameters (uint16_t)
                param_index               : Index of this onboard parameter (uint16_t)

                '''
                msg = MAVLink_param_value_message(param_id, param_value, param_type, param_count, param_index)
                msg.pack(self)
                return msg
            
        def param_value_send(self, param_id, param_value, param_type, param_count, param_index):
                '''
                Emit the value of a onboard parameter. The inclusion of param_count
                and param_index in the message allows the recipient to
                keep track of received parameters and allows him to
                re-request missing parameters after a loss or timeout.

                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_value               : Onboard parameter value (float)
                param_type                : Onboard parameter type: see the MAV_PARAM_TYPE enum for supported data types. (uint8_t)
                param_count               : Total number of onboard parameters (uint16_t)
                param_index               : Index of this onboard parameter (uint16_t)

                '''
                return self.send(self.param_value_encode(param_id, param_value, param_type, param_count, param_index))
            
        def param_set_encode(self, target_system, target_component, param_id, param_value, param_type):
                '''
                Set a parameter value TEMPORARILY to RAM. It will be reset to default
                on system reboot. Send the ACTION
                MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM
                contents to EEPROM. IMPORTANT: The receiving component
                should acknowledge the new parameter value by sending
                a param_value message to all communication partners.
                This will also ensure that multiple GCS all have an
                up-to-date list of all parameters. If the sending GCS
                did not receive a PARAM_VALUE message within its
                timeout time, it should re-send the PARAM_SET message.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_value               : Onboard parameter value (float)
                param_type                : Onboard parameter type: see the MAV_PARAM_TYPE enum for supported data types. (uint8_t)

                '''
                msg = MAVLink_param_set_message(target_system, target_component, param_id, param_value, param_type)
                msg.pack(self)
                return msg
            
        def param_set_send(self, target_system, target_component, param_id, param_value, param_type):
                '''
                Set a parameter value TEMPORARILY to RAM. It will be reset to default
                on system reboot. Send the ACTION
                MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM
                contents to EEPROM. IMPORTANT: The receiving component
                should acknowledge the new parameter value by sending
                a param_value message to all communication partners.
                This will also ensure that multiple GCS all have an
                up-to-date list of all parameters. If the sending GCS
                did not receive a PARAM_VALUE message within its
                timeout time, it should re-send the PARAM_SET message.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                param_id                  : Onboard parameter id, terminated by NULL if the length is less than 16 human-readable chars and WITHOUT null termination (NULL) byte if the length is exactly 16 chars - applications have to provide 16+1 bytes storage if the ID is stored as string (char)
                param_value               : Onboard parameter value (float)
                param_type                : Onboard parameter type: see the MAV_PARAM_TYPE enum for supported data types. (uint8_t)

                '''
                return self.send(self.param_set_encode(target_system, target_component, param_id, param_value, param_type))
            
        def gps_raw_int_encode(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible):
                '''
                The global position, as returned by the Global Positioning System
                (GPS). This is                 NOT the global position
                estimate of the system, but rather a RAW sensor value.
                See message GLOBAL_POSITION for the global position
                estimate. Coordinate frame is right-handed, Z-axis up
                (GPS frame).

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                fix_type                  : 0-1: no fix, 2: 2D fix, 3: 3D fix. Some applications will not use the value of this field unless it is at least two, so always correctly fill in the fix. (uint8_t)
                lat                       : Latitude in 1E7 degrees (int32_t)
                lon                       : Longitude in 1E7 degrees (int32_t)
                alt                       : Altitude in 1E3 meters (millimeters) above MSL (int32_t)
                eph                       : GPS HDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t)
                epv                       : GPS VDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t)
                vel                       : GPS ground speed (m/s * 100). If unknown, set to: 65535 (uint16_t)
                cog                       : Course over ground (NOT heading, but direction of movement) in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t)
                satellites_visible        : Number of satellites visible. If unknown, set to 255 (uint8_t)

                '''
                msg = MAVLink_gps_raw_int_message(time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible)
                msg.pack(self)
                return msg
            
        def gps_raw_int_send(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible):
                '''
                The global position, as returned by the Global Positioning System
                (GPS). This is                 NOT the global position
                estimate of the system, but rather a RAW sensor value.
                See message GLOBAL_POSITION for the global position
                estimate. Coordinate frame is right-handed, Z-axis up
                (GPS frame).

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                fix_type                  : 0-1: no fix, 2: 2D fix, 3: 3D fix. Some applications will not use the value of this field unless it is at least two, so always correctly fill in the fix. (uint8_t)
                lat                       : Latitude in 1E7 degrees (int32_t)
                lon                       : Longitude in 1E7 degrees (int32_t)
                alt                       : Altitude in 1E3 meters (millimeters) above MSL (int32_t)
                eph                       : GPS HDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t)
                epv                       : GPS VDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t)
                vel                       : GPS ground speed (m/s * 100). If unknown, set to: 65535 (uint16_t)
                cog                       : Course over ground (NOT heading, but direction of movement) in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t)
                satellites_visible        : Number of satellites visible. If unknown, set to 255 (uint8_t)

                '''
                return self.send(self.gps_raw_int_encode(time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible))
            
        def gps_status_encode(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr):
                '''
                The positioning status, as reported by GPS. This message is intended
                to display status information about each satellite
                visible to the receiver. See message GLOBAL_POSITION
                for the global position estimate. This message can
                contain information for up to 20 satellites.

                satellites_visible        : Number of satellites visible (uint8_t)
                satellite_prn             : Global satellite ID (uint8_t)
                satellite_used            : 0: Satellite not used, 1: used for localization (uint8_t)
                satellite_elevation        : Elevation (0: right on top of receiver, 90: on the horizon) of satellite (uint8_t)
                satellite_azimuth         : Direction of satellite, 0: 0 deg, 255: 360 deg. (uint8_t)
                satellite_snr             : Signal to noise ratio of satellite (uint8_t)

                '''
                msg = MAVLink_gps_status_message(satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr)
                msg.pack(self)
                return msg
            
        def gps_status_send(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr):
                '''
                The positioning status, as reported by GPS. This message is intended
                to display status information about each satellite
                visible to the receiver. See message GLOBAL_POSITION
                for the global position estimate. This message can
                contain information for up to 20 satellites.

                satellites_visible        : Number of satellites visible (uint8_t)
                satellite_prn             : Global satellite ID (uint8_t)
                satellite_used            : 0: Satellite not used, 1: used for localization (uint8_t)
                satellite_elevation        : Elevation (0: right on top of receiver, 90: on the horizon) of satellite (uint8_t)
                satellite_azimuth         : Direction of satellite, 0: 0 deg, 255: 360 deg. (uint8_t)
                satellite_snr             : Signal to noise ratio of satellite (uint8_t)

                '''
                return self.send(self.gps_status_encode(satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr))
            
        def scaled_imu_encode(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                '''
                The RAW IMU readings for the usual 9DOF sensor setup. This message
                should contain the scaled values to the described
                units

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                xacc                      : X acceleration (mg) (int16_t)
                yacc                      : Y acceleration (mg) (int16_t)
                zacc                      : Z acceleration (mg) (int16_t)
                xgyro                     : Angular speed around X axis (millirad /sec) (int16_t)
                ygyro                     : Angular speed around Y axis (millirad /sec) (int16_t)
                zgyro                     : Angular speed around Z axis (millirad /sec) (int16_t)
                xmag                      : X Magnetic field (milli tesla) (int16_t)
                ymag                      : Y Magnetic field (milli tesla) (int16_t)
                zmag                      : Z Magnetic field (milli tesla) (int16_t)

                '''
                msg = MAVLink_scaled_imu_message(time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag)
                msg.pack(self)
                return msg
            
        def scaled_imu_send(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                '''
                The RAW IMU readings for the usual 9DOF sensor setup. This message
                should contain the scaled values to the described
                units

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                xacc                      : X acceleration (mg) (int16_t)
                yacc                      : Y acceleration (mg) (int16_t)
                zacc                      : Z acceleration (mg) (int16_t)
                xgyro                     : Angular speed around X axis (millirad /sec) (int16_t)
                ygyro                     : Angular speed around Y axis (millirad /sec) (int16_t)
                zgyro                     : Angular speed around Z axis (millirad /sec) (int16_t)
                xmag                      : X Magnetic field (milli tesla) (int16_t)
                ymag                      : Y Magnetic field (milli tesla) (int16_t)
                zmag                      : Z Magnetic field (milli tesla) (int16_t)

                '''
                return self.send(self.scaled_imu_encode(time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag))
            
        def raw_imu_encode(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                '''
                The RAW IMU readings for the usual 9DOF sensor setup. This message
                should always contain the true raw values without any
                scaling to allow data capture and system debugging.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                xacc                      : X acceleration (raw) (int16_t)
                yacc                      : Y acceleration (raw) (int16_t)
                zacc                      : Z acceleration (raw) (int16_t)
                xgyro                     : Angular speed around X axis (raw) (int16_t)
                ygyro                     : Angular speed around Y axis (raw) (int16_t)
                zgyro                     : Angular speed around Z axis (raw) (int16_t)
                xmag                      : X Magnetic field (raw) (int16_t)
                ymag                      : Y Magnetic field (raw) (int16_t)
                zmag                      : Z Magnetic field (raw) (int16_t)

                '''
                msg = MAVLink_raw_imu_message(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag)
                msg.pack(self)
                return msg
            
        def raw_imu_send(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag):
                '''
                The RAW IMU readings for the usual 9DOF sensor setup. This message
                should always contain the true raw values without any
                scaling to allow data capture and system debugging.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                xacc                      : X acceleration (raw) (int16_t)
                yacc                      : Y acceleration (raw) (int16_t)
                zacc                      : Z acceleration (raw) (int16_t)
                xgyro                     : Angular speed around X axis (raw) (int16_t)
                ygyro                     : Angular speed around Y axis (raw) (int16_t)
                zgyro                     : Angular speed around Z axis (raw) (int16_t)
                xmag                      : X Magnetic field (raw) (int16_t)
                ymag                      : Y Magnetic field (raw) (int16_t)
                zmag                      : Z Magnetic field (raw) (int16_t)

                '''
                return self.send(self.raw_imu_encode(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag))
            
        def raw_pressure_encode(self, time_usec, press_abs, press_diff1, press_diff2, temperature):
                '''
                The RAW pressure readings for the typical setup of one absolute
                pressure and one differential pressure sensor. The
                sensor values should be the raw, UNSCALED ADC values.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                press_abs                 : Absolute pressure (raw) (int16_t)
                press_diff1               : Differential pressure 1 (raw) (int16_t)
                press_diff2               : Differential pressure 2 (raw) (int16_t)
                temperature               : Raw Temperature measurement (raw) (int16_t)

                '''
                msg = MAVLink_raw_pressure_message(time_usec, press_abs, press_diff1, press_diff2, temperature)
                msg.pack(self)
                return msg
            
        def raw_pressure_send(self, time_usec, press_abs, press_diff1, press_diff2, temperature):
                '''
                The RAW pressure readings for the typical setup of one absolute
                pressure and one differential pressure sensor. The
                sensor values should be the raw, UNSCALED ADC values.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                press_abs                 : Absolute pressure (raw) (int16_t)
                press_diff1               : Differential pressure 1 (raw) (int16_t)
                press_diff2               : Differential pressure 2 (raw) (int16_t)
                temperature               : Raw Temperature measurement (raw) (int16_t)

                '''
                return self.send(self.raw_pressure_encode(time_usec, press_abs, press_diff1, press_diff2, temperature))
            
        def scaled_pressure_encode(self, time_boot_ms, press_abs, press_diff, temperature):
                '''
                The pressure readings for the typical setup of one absolute and
                differential pressure sensor. The units are as
                specified in each field.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                press_abs                 : Absolute pressure (hectopascal) (float)
                press_diff                : Differential pressure 1 (hectopascal) (float)
                temperature               : Temperature measurement (0.01 degrees celsius) (int16_t)

                '''
                msg = MAVLink_scaled_pressure_message(time_boot_ms, press_abs, press_diff, temperature)
                msg.pack(self)
                return msg
            
        def scaled_pressure_send(self, time_boot_ms, press_abs, press_diff, temperature):
                '''
                The pressure readings for the typical setup of one absolute and
                differential pressure sensor. The units are as
                specified in each field.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                press_abs                 : Absolute pressure (hectopascal) (float)
                press_diff                : Differential pressure 1 (hectopascal) (float)
                temperature               : Temperature measurement (0.01 degrees celsius) (int16_t)

                '''
                return self.send(self.scaled_pressure_encode(time_boot_ms, press_abs, press_diff, temperature))
            
        def attitude_encode(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed):
                '''
                The attitude in the aeronautical frame (right-handed, Z-down, X-front,
                Y-right).

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                roll                      : Roll angle (rad, -pi..+pi) (float)
                pitch                     : Pitch angle (rad, -pi..+pi) (float)
                yaw                       : Yaw angle (rad, -pi..+pi) (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)

                '''
                msg = MAVLink_attitude_message(time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed)
                msg.pack(self)
                return msg
            
        def attitude_send(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed):
                '''
                The attitude in the aeronautical frame (right-handed, Z-down, X-front,
                Y-right).

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                roll                      : Roll angle (rad, -pi..+pi) (float)
                pitch                     : Pitch angle (rad, -pi..+pi) (float)
                yaw                       : Yaw angle (rad, -pi..+pi) (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)

                '''
                return self.send(self.attitude_encode(time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed))
            
        def attitude_quaternion_encode(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed):
                '''
                The attitude in the aeronautical frame (right-handed, Z-down, X-front,
                Y-right), expressed as quaternion.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                q1                        : Quaternion component 1 (float)
                q2                        : Quaternion component 2 (float)
                q3                        : Quaternion component 3 (float)
                q4                        : Quaternion component 4 (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)

                '''
                msg = MAVLink_attitude_quaternion_message(time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed)
                msg.pack(self)
                return msg
            
        def attitude_quaternion_send(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed):
                '''
                The attitude in the aeronautical frame (right-handed, Z-down, X-front,
                Y-right), expressed as quaternion.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                q1                        : Quaternion component 1 (float)
                q2                        : Quaternion component 2 (float)
                q3                        : Quaternion component 3 (float)
                q4                        : Quaternion component 4 (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)

                '''
                return self.send(self.attitude_quaternion_encode(time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed))
            
        def local_position_ned_encode(self, time_boot_ms, x, y, z, vx, vy, vz):
                '''
                The filtered local position (e.g. fused computer vision and
                accelerometers). Coordinate frame is right-handed,
                Z-axis down (aeronautical frame, NED / north-east-down
                convention)

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                x                         : X Position (float)
                y                         : Y Position (float)
                z                         : Z Position (float)
                vx                        : X Speed (float)
                vy                        : Y Speed (float)
                vz                        : Z Speed (float)

                '''
                msg = MAVLink_local_position_ned_message(time_boot_ms, x, y, z, vx, vy, vz)
                msg.pack(self)
                return msg
            
        def local_position_ned_send(self, time_boot_ms, x, y, z, vx, vy, vz):
                '''
                The filtered local position (e.g. fused computer vision and
                accelerometers). Coordinate frame is right-handed,
                Z-axis down (aeronautical frame, NED / north-east-down
                convention)

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                x                         : X Position (float)
                y                         : Y Position (float)
                z                         : Z Position (float)
                vx                        : X Speed (float)
                vy                        : Y Speed (float)
                vz                        : Z Speed (float)

                '''
                return self.send(self.local_position_ned_encode(time_boot_ms, x, y, z, vx, vy, vz))
            
        def global_position_int_encode(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg):
                '''
                The filtered global position (e.g. fused GPS and accelerometers). The
                position is in GPS-frame (right-handed, Z-up). It
                is designed as scaled integer message since the
                resolution of float is not sufficient.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                lat                       : Latitude, expressed as * 1E7 (int32_t)
                lon                       : Longitude, expressed as * 1E7 (int32_t)
                alt                       : Altitude in meters, expressed as * 1000 (millimeters), above MSL (int32_t)
                relative_alt              : Altitude above ground in meters, expressed as * 1000 (millimeters) (int32_t)
                vx                        : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t)
                vy                        : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t)
                vz                        : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t)
                hdg                       : Compass heading in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t)

                '''
                msg = MAVLink_global_position_int_message(time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg)
                msg.pack(self)
                return msg
            
        def global_position_int_send(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg):
                '''
                The filtered global position (e.g. fused GPS and accelerometers). The
                position is in GPS-frame (right-handed, Z-up). It
                is designed as scaled integer message since the
                resolution of float is not sufficient.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                lat                       : Latitude, expressed as * 1E7 (int32_t)
                lon                       : Longitude, expressed as * 1E7 (int32_t)
                alt                       : Altitude in meters, expressed as * 1000 (millimeters), above MSL (int32_t)
                relative_alt              : Altitude above ground in meters, expressed as * 1000 (millimeters) (int32_t)
                vx                        : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t)
                vy                        : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t)
                vz                        : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t)
                hdg                       : Compass heading in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t)

                '''
                return self.send(self.global_position_int_encode(time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg))
            
        def rc_channels_scaled_encode(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi):
                '''
                The scaled values of the RC channels received. (-100%) -10000, (0%) 0,
                (100%) 10000. Channels that are inactive should be set
                to 65535.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows for more than 8 servos. (uint8_t)
                chan1_scaled              : RC channel 1 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan2_scaled              : RC channel 2 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan3_scaled              : RC channel 3 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan4_scaled              : RC channel 4 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan5_scaled              : RC channel 5 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan6_scaled              : RC channel 6 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan7_scaled              : RC channel 7 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan8_scaled              : RC channel 8 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 100: 100%, 255: invalid/unknown. (uint8_t)

                '''
                msg = MAVLink_rc_channels_scaled_message(time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi)
                msg.pack(self)
                return msg
            
        def rc_channels_scaled_send(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi):
                '''
                The scaled values of the RC channels received. (-100%) -10000, (0%) 0,
                (100%) 10000. Channels that are inactive should be set
                to 65535.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows for more than 8 servos. (uint8_t)
                chan1_scaled              : RC channel 1 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan2_scaled              : RC channel 2 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan3_scaled              : RC channel 3 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan4_scaled              : RC channel 4 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan5_scaled              : RC channel 5 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan6_scaled              : RC channel 6 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan7_scaled              : RC channel 7 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                chan8_scaled              : RC channel 8 value scaled, (-100%) -10000, (0%) 0, (100%) 10000, (invalid) 32767. (int16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 100: 100%, 255: invalid/unknown. (uint8_t)

                '''
                return self.send(self.rc_channels_scaled_encode(time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi))
            
        def rc_channels_raw_encode(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi):
                '''
                The RAW values of the RC channels received. The standard PPM
                modulation is as follows: 1000 microseconds: 0%, 2000
                microseconds: 100%. Individual receivers/transmitters
                might violate this specification.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows for more than 8 servos. (uint8_t)
                chan1_raw                 : RC channel 1 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 100: 100%, 255: invalid/unknown. (uint8_t)

                '''
                msg = MAVLink_rc_channels_raw_message(time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi)
                msg.pack(self)
                return msg
            
        def rc_channels_raw_send(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi):
                '''
                The RAW values of the RC channels received. The standard PPM
                modulation is as follows: 1000 microseconds: 0%, 2000
                microseconds: 100%. Individual receivers/transmitters
                might violate this specification.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows for more than 8 servos. (uint8_t)
                chan1_raw                 : RC channel 1 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds. A value of 65535 implies the channel is unused. (uint16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 100: 100%, 255: invalid/unknown. (uint8_t)

                '''
                return self.send(self.rc_channels_raw_encode(time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi))
            
        def servo_output_raw_encode(self, time_boot_ms, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw):
                '''
                The RAW values of the servo outputs (for RC input from the remote, use
                the RC_CHANNELS messages). The standard PPM modulation
                is as follows: 1000 microseconds: 0%, 2000
                microseconds: 100%.

                time_boot_ms              : Timestamp (microseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t)
                servo1_raw                : Servo output 1 value, in microseconds (uint16_t)
                servo2_raw                : Servo output 2 value, in microseconds (uint16_t)
                servo3_raw                : Servo output 3 value, in microseconds (uint16_t)
                servo4_raw                : Servo output 4 value, in microseconds (uint16_t)
                servo5_raw                : Servo output 5 value, in microseconds (uint16_t)
                servo6_raw                : Servo output 6 value, in microseconds (uint16_t)
                servo7_raw                : Servo output 7 value, in microseconds (uint16_t)
                servo8_raw                : Servo output 8 value, in microseconds (uint16_t)

                '''
                msg = MAVLink_servo_output_raw_message(time_boot_ms, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw)
                msg.pack(self)
                return msg
            
        def servo_output_raw_send(self, time_boot_ms, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw):
                '''
                The RAW values of the servo outputs (for RC input from the remote, use
                the RC_CHANNELS messages). The standard PPM modulation
                is as follows: 1000 microseconds: 0%, 2000
                microseconds: 100%.

                time_boot_ms              : Timestamp (microseconds since system boot) (uint32_t)
                port                      : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t)
                servo1_raw                : Servo output 1 value, in microseconds (uint16_t)
                servo2_raw                : Servo output 2 value, in microseconds (uint16_t)
                servo3_raw                : Servo output 3 value, in microseconds (uint16_t)
                servo4_raw                : Servo output 4 value, in microseconds (uint16_t)
                servo5_raw                : Servo output 5 value, in microseconds (uint16_t)
                servo6_raw                : Servo output 6 value, in microseconds (uint16_t)
                servo7_raw                : Servo output 7 value, in microseconds (uint16_t)
                servo8_raw                : Servo output 8 value, in microseconds (uint16_t)

                '''
                return self.send(self.servo_output_raw_encode(time_boot_ms, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw))
            
        def mission_request_partial_list_encode(self, target_system, target_component, start_index, end_index):
                '''
                Request a partial list of mission items from the system/component.
                http://qgroundcontrol.org/mavlink/waypoint_protocol.
                If start and end index are the same, just send one
                waypoint.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                start_index               : Start index, 0 by default (int16_t)
                end_index                 : End index, -1 by default (-1: send list to end). Else a valid index of the list (int16_t)

                '''
                msg = MAVLink_mission_request_partial_list_message(target_system, target_component, start_index, end_index)
                msg.pack(self)
                return msg
            
        def mission_request_partial_list_send(self, target_system, target_component, start_index, end_index):
                '''
                Request a partial list of mission items from the system/component.
                http://qgroundcontrol.org/mavlink/waypoint_protocol.
                If start and end index are the same, just send one
                waypoint.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                start_index               : Start index, 0 by default (int16_t)
                end_index                 : End index, -1 by default (-1: send list to end). Else a valid index of the list (int16_t)

                '''
                return self.send(self.mission_request_partial_list_encode(target_system, target_component, start_index, end_index))
            
        def mission_write_partial_list_encode(self, target_system, target_component, start_index, end_index):
                '''
                This message is sent to the MAV to write a partial list. If start
                index == end index, only one item will be transmitted
                / updated. If the start index is NOT 0 and above the
                current list size, this request should be REJECTED!

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                start_index               : Start index, 0 by default and smaller / equal to the largest index of the current onboard list. (int16_t)
                end_index                 : End index, equal or greater than start index. (int16_t)

                '''
                msg = MAVLink_mission_write_partial_list_message(target_system, target_component, start_index, end_index)
                msg.pack(self)
                return msg
            
        def mission_write_partial_list_send(self, target_system, target_component, start_index, end_index):
                '''
                This message is sent to the MAV to write a partial list. If start
                index == end index, only one item will be transmitted
                / updated. If the start index is NOT 0 and above the
                current list size, this request should be REJECTED!

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                start_index               : Start index, 0 by default and smaller / equal to the largest index of the current onboard list. (int16_t)
                end_index                 : End index, equal or greater than start index. (int16_t)

                '''
                return self.send(self.mission_write_partial_list_encode(target_system, target_component, start_index, end_index))
            
        def mission_item_encode(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z):
                '''
                Message encoding a mission item. This message is emitted to announce
                the presence of a mission item and to set a mission
                item on the system. The mission item can be either in
                x, y, z meters (type: LOCAL) or x:lat, y:lon,
                z:altitude. Local frame is Z-down, right handed (NED),
                global frame is Z-up, right handed (ENU). See also
                http://qgroundcontrol.org/mavlink/waypoint_protocol.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)
                frame                     : The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h (uint8_t)
                command                   : The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs (uint16_t)
                current                   : false:0, true:1 (uint8_t)
                autocontinue              : autocontinue to next wp (uint8_t)
                param1                    : PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters (float)
                param2                    : PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds (float)
                param3                    : PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise. (float)
                param4                    : PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH (float)
                x                         : PARAM5 / local: x position, global: latitude (float)
                y                         : PARAM6 / y position: global: longitude (float)
                z                         : PARAM7 / z position: global: altitude (float)

                '''
                msg = MAVLink_mission_item_message(target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z)
                msg.pack(self)
                return msg
            
        def mission_item_send(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z):
                '''
                Message encoding a mission item. This message is emitted to announce
                the presence of a mission item and to set a mission
                item on the system. The mission item can be either in
                x, y, z meters (type: LOCAL) or x:lat, y:lon,
                z:altitude. Local frame is Z-down, right handed (NED),
                global frame is Z-up, right handed (ENU). See also
                http://qgroundcontrol.org/mavlink/waypoint_protocol.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)
                frame                     : The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h (uint8_t)
                command                   : The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs (uint16_t)
                current                   : false:0, true:1 (uint8_t)
                autocontinue              : autocontinue to next wp (uint8_t)
                param1                    : PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters (float)
                param2                    : PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds (float)
                param3                    : PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise. (float)
                param4                    : PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH (float)
                x                         : PARAM5 / local: x position, global: latitude (float)
                y                         : PARAM6 / y position: global: longitude (float)
                z                         : PARAM7 / z position: global: altitude (float)

                '''
                return self.send(self.mission_item_encode(target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z))
            
        def mission_request_encode(self, target_system, target_component, seq):
                '''
                Request the information of the mission item with the sequence number
                seq. The response of the system to this message should
                be a MISSION_ITEM message.
                http://qgroundcontrol.org/mavlink/waypoint_protocol

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)

                '''
                msg = MAVLink_mission_request_message(target_system, target_component, seq)
                msg.pack(self)
                return msg
            
        def mission_request_send(self, target_system, target_component, seq):
                '''
                Request the information of the mission item with the sequence number
                seq. The response of the system to this message should
                be a MISSION_ITEM message.
                http://qgroundcontrol.org/mavlink/waypoint_protocol

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)

                '''
                return self.send(self.mission_request_encode(target_system, target_component, seq))
            
        def mission_set_current_encode(self, target_system, target_component, seq):
                '''
                Set the mission item with sequence number seq as current item. This
                means that the MAV will continue to this mission item
                on the shortest path (not following the mission items
                in-between).

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)

                '''
                msg = MAVLink_mission_set_current_message(target_system, target_component, seq)
                msg.pack(self)
                return msg
            
        def mission_set_current_send(self, target_system, target_component, seq):
                '''
                Set the mission item with sequence number seq as current item. This
                means that the MAV will continue to this mission item
                on the shortest path (not following the mission items
                in-between).

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                seq                       : Sequence (uint16_t)

                '''
                return self.send(self.mission_set_current_encode(target_system, target_component, seq))
            
        def mission_current_encode(self, seq):
                '''
                Message that announces the sequence number of the current active
                mission item. The MAV will fly towards this mission
                item.

                seq                       : Sequence (uint16_t)

                '''
                msg = MAVLink_mission_current_message(seq)
                msg.pack(self)
                return msg
            
        def mission_current_send(self, seq):
                '''
                Message that announces the sequence number of the current active
                mission item. The MAV will fly towards this mission
                item.

                seq                       : Sequence (uint16_t)

                '''
                return self.send(self.mission_current_encode(seq))
            
        def mission_request_list_encode(self, target_system, target_component):
                '''
                Request the overall list of mission items from the system/component.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                msg = MAVLink_mission_request_list_message(target_system, target_component)
                msg.pack(self)
                return msg
            
        def mission_request_list_send(self, target_system, target_component):
                '''
                Request the overall list of mission items from the system/component.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                return self.send(self.mission_request_list_encode(target_system, target_component))
            
        def mission_count_encode(self, target_system, target_component, count):
                '''
                This message is emitted as response to MISSION_REQUEST_LIST by the MAV
                and to initiate a write transaction. The GCS can then
                request the individual mission item based on the
                knowledge of the total number of MISSIONs.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                count                     : Number of mission items in the sequence (uint16_t)

                '''
                msg = MAVLink_mission_count_message(target_system, target_component, count)
                msg.pack(self)
                return msg
            
        def mission_count_send(self, target_system, target_component, count):
                '''
                This message is emitted as response to MISSION_REQUEST_LIST by the MAV
                and to initiate a write transaction. The GCS can then
                request the individual mission item based on the
                knowledge of the total number of MISSIONs.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                count                     : Number of mission items in the sequence (uint16_t)

                '''
                return self.send(self.mission_count_encode(target_system, target_component, count))
            
        def mission_clear_all_encode(self, target_system, target_component):
                '''
                Delete all mission items at once.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                msg = MAVLink_mission_clear_all_message(target_system, target_component)
                msg.pack(self)
                return msg
            
        def mission_clear_all_send(self, target_system, target_component):
                '''
                Delete all mission items at once.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)

                '''
                return self.send(self.mission_clear_all_encode(target_system, target_component))
            
        def mission_item_reached_encode(self, seq):
                '''
                A certain mission item has been reached. The system will either hold
                this position (or circle on the orbit) or (if the
                autocontinue on the WP was set) continue to the next
                MISSION.

                seq                       : Sequence (uint16_t)

                '''
                msg = MAVLink_mission_item_reached_message(seq)
                msg.pack(self)
                return msg
            
        def mission_item_reached_send(self, seq):
                '''
                A certain mission item has been reached. The system will either hold
                this position (or circle on the orbit) or (if the
                autocontinue on the WP was set) continue to the next
                MISSION.

                seq                       : Sequence (uint16_t)

                '''
                return self.send(self.mission_item_reached_encode(seq))
            
        def mission_ack_encode(self, target_system, target_component, type):
                '''
                Ack message during MISSION handling. The type field states if this
                message is a positive ack (type=0) or if an error
                happened (type=non-zero).

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                type                      : See MAV_MISSION_RESULT enum (uint8_t)

                '''
                msg = MAVLink_mission_ack_message(target_system, target_component, type)
                msg.pack(self)
                return msg
            
        def mission_ack_send(self, target_system, target_component, type):
                '''
                Ack message during MISSION handling. The type field states if this
                message is a positive ack (type=0) or if an error
                happened (type=non-zero).

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                type                      : See MAV_MISSION_RESULT enum (uint8_t)

                '''
                return self.send(self.mission_ack_encode(target_system, target_component, type))
            
        def set_gps_global_origin_encode(self, target_system, latitude, longitude, altitude):
                '''
                As local waypoints exist, the global MISSION reference allows to
                transform between the local coordinate frame and the
                global (GPS) coordinate frame. This can be necessary
                when e.g. in- and outdoor settings are connected and
                the MAV should move from in- to outdoor.

                target_system             : System ID (uint8_t)
                latitude                  : global position * 1E7 (int32_t)
                longitude                 : global position * 1E7 (int32_t)
                altitude                  : global position * 1000 (int32_t)

                '''
                msg = MAVLink_set_gps_global_origin_message(target_system, latitude, longitude, altitude)
                msg.pack(self)
                return msg
            
        def set_gps_global_origin_send(self, target_system, latitude, longitude, altitude):
                '''
                As local waypoints exist, the global MISSION reference allows to
                transform between the local coordinate frame and the
                global (GPS) coordinate frame. This can be necessary
                when e.g. in- and outdoor settings are connected and
                the MAV should move from in- to outdoor.

                target_system             : System ID (uint8_t)
                latitude                  : global position * 1E7 (int32_t)
                longitude                 : global position * 1E7 (int32_t)
                altitude                  : global position * 1000 (int32_t)

                '''
                return self.send(self.set_gps_global_origin_encode(target_system, latitude, longitude, altitude))
            
        def gps_global_origin_encode(self, latitude, longitude, altitude):
                '''
                Once the MAV sets a new GPS-Local correspondence, this message
                announces the origin (0,0,0) position

                latitude                  : Latitude (WGS84), expressed as * 1E7 (int32_t)
                longitude                 : Longitude (WGS84), expressed as * 1E7 (int32_t)
                altitude                  : Altitude(WGS84), expressed as * 1000 (int32_t)

                '''
                msg = MAVLink_gps_global_origin_message(latitude, longitude, altitude)
                msg.pack(self)
                return msg
            
        def gps_global_origin_send(self, latitude, longitude, altitude):
                '''
                Once the MAV sets a new GPS-Local correspondence, this message
                announces the origin (0,0,0) position

                latitude                  : Latitude (WGS84), expressed as * 1E7 (int32_t)
                longitude                 : Longitude (WGS84), expressed as * 1E7 (int32_t)
                altitude                  : Altitude(WGS84), expressed as * 1000 (int32_t)

                '''
                return self.send(self.gps_global_origin_encode(latitude, longitude, altitude))
            
        def set_local_position_setpoint_encode(self, target_system, target_component, coordinate_frame, x, y, z, yaw):
                '''
                Set the setpoint for a local position controller. This is the position
                in local coordinates the MAV should fly to. This
                message is sent by the path/MISSION planner to the
                onboard position controller. As some MAVs have a
                degree of freedom in yaw (e.g. all
                helicopters/quadrotors), the desired yaw angle is part
                of the message.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t)
                x                         : x position (float)
                y                         : y position (float)
                z                         : z position (float)
                yaw                       : Desired yaw angle (float)

                '''
                msg = MAVLink_set_local_position_setpoint_message(target_system, target_component, coordinate_frame, x, y, z, yaw)
                msg.pack(self)
                return msg
            
        def set_local_position_setpoint_send(self, target_system, target_component, coordinate_frame, x, y, z, yaw):
                '''
                Set the setpoint for a local position controller. This is the position
                in local coordinates the MAV should fly to. This
                message is sent by the path/MISSION planner to the
                onboard position controller. As some MAVs have a
                degree of freedom in yaw (e.g. all
                helicopters/quadrotors), the desired yaw angle is part
                of the message.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t)
                x                         : x position (float)
                y                         : y position (float)
                z                         : z position (float)
                yaw                       : Desired yaw angle (float)

                '''
                return self.send(self.set_local_position_setpoint_encode(target_system, target_component, coordinate_frame, x, y, z, yaw))
            
        def local_position_setpoint_encode(self, coordinate_frame, x, y, z, yaw):
                '''
                Transmit the current local setpoint of the controller to other MAVs
                (collision avoidance) and to the GCS.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t)
                x                         : x position (float)
                y                         : y position (float)
                z                         : z position (float)
                yaw                       : Desired yaw angle (float)

                '''
                msg = MAVLink_local_position_setpoint_message(coordinate_frame, x, y, z, yaw)
                msg.pack(self)
                return msg
            
        def local_position_setpoint_send(self, coordinate_frame, x, y, z, yaw):
                '''
                Transmit the current local setpoint of the controller to other MAVs
                (collision avoidance) and to the GCS.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t)
                x                         : x position (float)
                y                         : y position (float)
                z                         : z position (float)
                yaw                       : Desired yaw angle (float)

                '''
                return self.send(self.local_position_setpoint_encode(coordinate_frame, x, y, z, yaw))
            
        def global_position_setpoint_int_encode(self, coordinate_frame, latitude, longitude, altitude, yaw):
                '''
                Transmit the current local setpoint of the controller to other MAVs
                (collision avoidance) and to the GCS.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t)
                latitude                  : WGS84 Latitude position in degrees * 1E7 (int32_t)
                longitude                 : WGS84 Longitude position in degrees * 1E7 (int32_t)
                altitude                  : WGS84 Altitude in meters * 1000 (positive for up) (int32_t)
                yaw                       : Desired yaw angle in degrees * 100 (int16_t)

                '''
                msg = MAVLink_global_position_setpoint_int_message(coordinate_frame, latitude, longitude, altitude, yaw)
                msg.pack(self)
                return msg
            
        def global_position_setpoint_int_send(self, coordinate_frame, latitude, longitude, altitude, yaw):
                '''
                Transmit the current local setpoint of the controller to other MAVs
                (collision avoidance) and to the GCS.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t)
                latitude                  : WGS84 Latitude position in degrees * 1E7 (int32_t)
                longitude                 : WGS84 Longitude position in degrees * 1E7 (int32_t)
                altitude                  : WGS84 Altitude in meters * 1000 (positive for up) (int32_t)
                yaw                       : Desired yaw angle in degrees * 100 (int16_t)

                '''
                return self.send(self.global_position_setpoint_int_encode(coordinate_frame, latitude, longitude, altitude, yaw))
            
        def set_global_position_setpoint_int_encode(self, coordinate_frame, latitude, longitude, altitude, yaw):
                '''
                Set the current global position setpoint.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t)
                latitude                  : WGS84 Latitude position in degrees * 1E7 (int32_t)
                longitude                 : WGS84 Longitude position in degrees * 1E7 (int32_t)
                altitude                  : WGS84 Altitude in meters * 1000 (positive for up) (int32_t)
                yaw                       : Desired yaw angle in degrees * 100 (int16_t)

                '''
                msg = MAVLink_set_global_position_setpoint_int_message(coordinate_frame, latitude, longitude, altitude, yaw)
                msg.pack(self)
                return msg
            
        def set_global_position_setpoint_int_send(self, coordinate_frame, latitude, longitude, altitude, yaw):
                '''
                Set the current global position setpoint.

                coordinate_frame          : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t)
                latitude                  : WGS84 Latitude position in degrees * 1E7 (int32_t)
                longitude                 : WGS84 Longitude position in degrees * 1E7 (int32_t)
                altitude                  : WGS84 Altitude in meters * 1000 (positive for up) (int32_t)
                yaw                       : Desired yaw angle in degrees * 100 (int16_t)

                '''
                return self.send(self.set_global_position_setpoint_int_encode(coordinate_frame, latitude, longitude, altitude, yaw))
            
        def safety_set_allowed_area_encode(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                '''
                Set a safety zone (volume), which is defined by two corners of a cube.
                This message can be used to tell the MAV which
                setpoints/MISSIONs to accept and which to reject.
                Safety areas are often enforced by national or
                competition regulations.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                frame                     : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t)
                p1x                       : x position 1 / Latitude 1 (float)
                p1y                       : y position 1 / Longitude 1 (float)
                p1z                       : z position 1 / Altitude 1 (float)
                p2x                       : x position 2 / Latitude 2 (float)
                p2y                       : y position 2 / Longitude 2 (float)
                p2z                       : z position 2 / Altitude 2 (float)

                '''
                msg = MAVLink_safety_set_allowed_area_message(target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z)
                msg.pack(self)
                return msg
            
        def safety_set_allowed_area_send(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                '''
                Set a safety zone (volume), which is defined by two corners of a cube.
                This message can be used to tell the MAV which
                setpoints/MISSIONs to accept and which to reject.
                Safety areas are often enforced by national or
                competition regulations.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                frame                     : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t)
                p1x                       : x position 1 / Latitude 1 (float)
                p1y                       : y position 1 / Longitude 1 (float)
                p1z                       : z position 1 / Altitude 1 (float)
                p2x                       : x position 2 / Latitude 2 (float)
                p2y                       : y position 2 / Longitude 2 (float)
                p2z                       : z position 2 / Altitude 2 (float)

                '''
                return self.send(self.safety_set_allowed_area_encode(target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z))
            
        def safety_allowed_area_encode(self, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                '''
                Read out the safety zone the MAV currently assumes.

                frame                     : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t)
                p1x                       : x position 1 / Latitude 1 (float)
                p1y                       : y position 1 / Longitude 1 (float)
                p1z                       : z position 1 / Altitude 1 (float)
                p2x                       : x position 2 / Latitude 2 (float)
                p2y                       : y position 2 / Longitude 2 (float)
                p2z                       : z position 2 / Altitude 2 (float)

                '''
                msg = MAVLink_safety_allowed_area_message(frame, p1x, p1y, p1z, p2x, p2y, p2z)
                msg.pack(self)
                return msg
            
        def safety_allowed_area_send(self, frame, p1x, p1y, p1z, p2x, p2y, p2z):
                '''
                Read out the safety zone the MAV currently assumes.

                frame                     : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t)
                p1x                       : x position 1 / Latitude 1 (float)
                p1y                       : y position 1 / Longitude 1 (float)
                p1z                       : z position 1 / Altitude 1 (float)
                p2x                       : x position 2 / Latitude 2 (float)
                p2y                       : y position 2 / Longitude 2 (float)
                p2z                       : z position 2 / Altitude 2 (float)

                '''
                return self.send(self.safety_allowed_area_encode(frame, p1x, p1y, p1z, p2x, p2y, p2z))
            
        def set_roll_pitch_yaw_thrust_encode(self, target_system, target_component, roll, pitch, yaw, thrust):
                '''
                Set roll, pitch and yaw.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                roll                      : Desired roll angle in radians (float)
                pitch                     : Desired pitch angle in radians (float)
                yaw                       : Desired yaw angle in radians (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                msg = MAVLink_set_roll_pitch_yaw_thrust_message(target_system, target_component, roll, pitch, yaw, thrust)
                msg.pack(self)
                return msg
            
        def set_roll_pitch_yaw_thrust_send(self, target_system, target_component, roll, pitch, yaw, thrust):
                '''
                Set roll, pitch and yaw.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                roll                      : Desired roll angle in radians (float)
                pitch                     : Desired pitch angle in radians (float)
                yaw                       : Desired yaw angle in radians (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                return self.send(self.set_roll_pitch_yaw_thrust_encode(target_system, target_component, roll, pitch, yaw, thrust))
            
        def set_roll_pitch_yaw_speed_thrust_encode(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust):
                '''
                Set roll, pitch and yaw.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                roll_speed                : Desired roll angular speed in rad/s (float)
                pitch_speed               : Desired pitch angular speed in rad/s (float)
                yaw_speed                 : Desired yaw angular speed in rad/s (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                msg = MAVLink_set_roll_pitch_yaw_speed_thrust_message(target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust)
                msg.pack(self)
                return msg
            
        def set_roll_pitch_yaw_speed_thrust_send(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust):
                '''
                Set roll, pitch and yaw.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                roll_speed                : Desired roll angular speed in rad/s (float)
                pitch_speed               : Desired pitch angular speed in rad/s (float)
                yaw_speed                 : Desired yaw angular speed in rad/s (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                return self.send(self.set_roll_pitch_yaw_speed_thrust_encode(target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust))
            
        def roll_pitch_yaw_thrust_setpoint_encode(self, time_boot_ms, roll, pitch, yaw, thrust):
                '''
                Setpoint in roll, pitch, yaw currently active on the system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll                      : Desired roll angle in radians (float)
                pitch                     : Desired pitch angle in radians (float)
                yaw                       : Desired yaw angle in radians (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                msg = MAVLink_roll_pitch_yaw_thrust_setpoint_message(time_boot_ms, roll, pitch, yaw, thrust)
                msg.pack(self)
                return msg
            
        def roll_pitch_yaw_thrust_setpoint_send(self, time_boot_ms, roll, pitch, yaw, thrust):
                '''
                Setpoint in roll, pitch, yaw currently active on the system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll                      : Desired roll angle in radians (float)
                pitch                     : Desired pitch angle in radians (float)
                yaw                       : Desired yaw angle in radians (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                return self.send(self.roll_pitch_yaw_thrust_setpoint_encode(time_boot_ms, roll, pitch, yaw, thrust))
            
        def roll_pitch_yaw_speed_thrust_setpoint_encode(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust):
                '''
                Setpoint in rollspeed, pitchspeed, yawspeed currently active on the
                system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll_speed                : Desired roll angular speed in rad/s (float)
                pitch_speed               : Desired pitch angular speed in rad/s (float)
                yaw_speed                 : Desired yaw angular speed in rad/s (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                msg = MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message(time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust)
                msg.pack(self)
                return msg
            
        def roll_pitch_yaw_speed_thrust_setpoint_send(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust):
                '''
                Setpoint in rollspeed, pitchspeed, yawspeed currently active on the
                system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll_speed                : Desired roll angular speed in rad/s (float)
                pitch_speed               : Desired pitch angular speed in rad/s (float)
                yaw_speed                 : Desired yaw angular speed in rad/s (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                return self.send(self.roll_pitch_yaw_speed_thrust_setpoint_encode(time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust))
            
        def set_quad_motors_setpoint_encode(self, target_system, motor_front_nw, motor_right_ne, motor_back_se, motor_left_sw):
                '''
                Setpoint in the four motor speeds

                target_system             : System ID of the system that should set these motor commands (uint8_t)
                motor_front_nw            : Front motor in + configuration, front left motor in x configuration (uint16_t)
                motor_right_ne            : Right motor in + configuration, front right motor in x configuration (uint16_t)
                motor_back_se             : Back motor in + configuration, back right motor in x configuration (uint16_t)
                motor_left_sw             : Left motor in + configuration, back left motor in x configuration (uint16_t)

                '''
                msg = MAVLink_set_quad_motors_setpoint_message(target_system, motor_front_nw, motor_right_ne, motor_back_se, motor_left_sw)
                msg.pack(self)
                return msg
            
        def set_quad_motors_setpoint_send(self, target_system, motor_front_nw, motor_right_ne, motor_back_se, motor_left_sw):
                '''
                Setpoint in the four motor speeds

                target_system             : System ID of the system that should set these motor commands (uint8_t)
                motor_front_nw            : Front motor in + configuration, front left motor in x configuration (uint16_t)
                motor_right_ne            : Right motor in + configuration, front right motor in x configuration (uint16_t)
                motor_back_se             : Back motor in + configuration, back right motor in x configuration (uint16_t)
                motor_left_sw             : Left motor in + configuration, back left motor in x configuration (uint16_t)

                '''
                return self.send(self.set_quad_motors_setpoint_encode(target_system, motor_front_nw, motor_right_ne, motor_back_se, motor_left_sw))
            
        def set_quad_swarm_roll_pitch_yaw_thrust_encode(self, group, mode, roll, pitch, yaw, thrust):
                '''
                Setpoint for up to four quadrotors in a group / wing

                group                     : ID of the quadrotor group (0 - 255, up to 256 groups supported) (uint8_t)
                mode                      : ID of the flight mode (0 - 255, up to 256 modes supported) (uint8_t)
                roll                      : Desired roll angle in radians +-PI (+-32767) (int16_t)
                pitch                     : Desired pitch angle in radians +-PI (+-32767) (int16_t)
                yaw                       : Desired yaw angle in radians, scaled to int16 +-PI (+-32767) (int16_t)
                thrust                    : Collective thrust, scaled to uint16 (0..65535) (uint16_t)

                '''
                msg = MAVLink_set_quad_swarm_roll_pitch_yaw_thrust_message(group, mode, roll, pitch, yaw, thrust)
                msg.pack(self)
                return msg
            
        def set_quad_swarm_roll_pitch_yaw_thrust_send(self, group, mode, roll, pitch, yaw, thrust):
                '''
                Setpoint for up to four quadrotors in a group / wing

                group                     : ID of the quadrotor group (0 - 255, up to 256 groups supported) (uint8_t)
                mode                      : ID of the flight mode (0 - 255, up to 256 modes supported) (uint8_t)
                roll                      : Desired roll angle in radians +-PI (+-32767) (int16_t)
                pitch                     : Desired pitch angle in radians +-PI (+-32767) (int16_t)
                yaw                       : Desired yaw angle in radians, scaled to int16 +-PI (+-32767) (int16_t)
                thrust                    : Collective thrust, scaled to uint16 (0..65535) (uint16_t)

                '''
                return self.send(self.set_quad_swarm_roll_pitch_yaw_thrust_encode(group, mode, roll, pitch, yaw, thrust))
            
        def nav_controller_output_encode(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error):
                '''
                Outputs of the APM navigation controller. The primary use of this
                message is to check the response and signs of the
                controller before actual flight and to assist with
                tuning controller parameters.

                nav_roll                  : Current desired roll in degrees (float)
                nav_pitch                 : Current desired pitch in degrees (float)
                nav_bearing               : Current desired heading in degrees (int16_t)
                target_bearing            : Bearing to current MISSION/target in degrees (int16_t)
                wp_dist                   : Distance to active MISSION in meters (uint16_t)
                alt_error                 : Current altitude error in meters (float)
                aspd_error                : Current airspeed error in meters/second (float)
                xtrack_error              : Current crosstrack error on x-y plane in meters (float)

                '''
                msg = MAVLink_nav_controller_output_message(nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error)
                msg.pack(self)
                return msg
            
        def nav_controller_output_send(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error):
                '''
                Outputs of the APM navigation controller. The primary use of this
                message is to check the response and signs of the
                controller before actual flight and to assist with
                tuning controller parameters.

                nav_roll                  : Current desired roll in degrees (float)
                nav_pitch                 : Current desired pitch in degrees (float)
                nav_bearing               : Current desired heading in degrees (int16_t)
                target_bearing            : Bearing to current MISSION/target in degrees (int16_t)
                wp_dist                   : Distance to active MISSION in meters (uint16_t)
                alt_error                 : Current altitude error in meters (float)
                aspd_error                : Current airspeed error in meters/second (float)
                xtrack_error              : Current crosstrack error on x-y plane in meters (float)

                '''
                return self.send(self.nav_controller_output_encode(nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error))
            
        def set_quad_swarm_led_roll_pitch_yaw_thrust_encode(self, group, mode, led_red, led_blue, led_green, roll, pitch, yaw, thrust):
                '''
                Setpoint for up to four quadrotors in a group / wing

                group                     : ID of the quadrotor group (0 - 255, up to 256 groups supported) (uint8_t)
                mode                      : ID of the flight mode (0 - 255, up to 256 modes supported) (uint8_t)
                led_red                   : RGB red channel (0-255) (uint8_t)
                led_blue                  : RGB green channel (0-255) (uint8_t)
                led_green                 : RGB blue channel (0-255) (uint8_t)
                roll                      : Desired roll angle in radians +-PI (+-32767) (int16_t)
                pitch                     : Desired pitch angle in radians +-PI (+-32767) (int16_t)
                yaw                       : Desired yaw angle in radians, scaled to int16 +-PI (+-32767) (int16_t)
                thrust                    : Collective thrust, scaled to uint16 (0..65535) (uint16_t)

                '''
                msg = MAVLink_set_quad_swarm_led_roll_pitch_yaw_thrust_message(group, mode, led_red, led_blue, led_green, roll, pitch, yaw, thrust)
                msg.pack(self)
                return msg
            
        def set_quad_swarm_led_roll_pitch_yaw_thrust_send(self, group, mode, led_red, led_blue, led_green, roll, pitch, yaw, thrust):
                '''
                Setpoint for up to four quadrotors in a group / wing

                group                     : ID of the quadrotor group (0 - 255, up to 256 groups supported) (uint8_t)
                mode                      : ID of the flight mode (0 - 255, up to 256 modes supported) (uint8_t)
                led_red                   : RGB red channel (0-255) (uint8_t)
                led_blue                  : RGB green channel (0-255) (uint8_t)
                led_green                 : RGB blue channel (0-255) (uint8_t)
                roll                      : Desired roll angle in radians +-PI (+-32767) (int16_t)
                pitch                     : Desired pitch angle in radians +-PI (+-32767) (int16_t)
                yaw                       : Desired yaw angle in radians, scaled to int16 +-PI (+-32767) (int16_t)
                thrust                    : Collective thrust, scaled to uint16 (0..65535) (uint16_t)

                '''
                return self.send(self.set_quad_swarm_led_roll_pitch_yaw_thrust_encode(group, mode, led_red, led_blue, led_green, roll, pitch, yaw, thrust))
            
        def state_correction_encode(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr):
                '''
                Corrects the systems state by adding an error correction term to the
                position and velocity, and by rotating the attitude by
                a correction angle.

                xErr                      : x position error (float)
                yErr                      : y position error (float)
                zErr                      : z position error (float)
                rollErr                   : roll error (radians) (float)
                pitchErr                  : pitch error (radians) (float)
                yawErr                    : yaw error (radians) (float)
                vxErr                     : x velocity (float)
                vyErr                     : y velocity (float)
                vzErr                     : z velocity (float)

                '''
                msg = MAVLink_state_correction_message(xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr)
                msg.pack(self)
                return msg
            
        def state_correction_send(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr):
                '''
                Corrects the systems state by adding an error correction term to the
                position and velocity, and by rotating the attitude by
                a correction angle.

                xErr                      : x position error (float)
                yErr                      : y position error (float)
                zErr                      : z position error (float)
                rollErr                   : roll error (radians) (float)
                pitchErr                  : pitch error (radians) (float)
                yawErr                    : yaw error (radians) (float)
                vxErr                     : x velocity (float)
                vyErr                     : y velocity (float)
                vzErr                     : z velocity (float)

                '''
                return self.send(self.state_correction_encode(xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr))
            
        def request_data_stream_encode(self, target_system, target_component, req_stream_id, req_message_rate, start_stop):
                '''
                

                target_system             : The target requested to send the message stream. (uint8_t)
                target_component          : The target requested to send the message stream. (uint8_t)
                req_stream_id             : The ID of the requested data stream (uint8_t)
                req_message_rate          : The requested interval between two messages of this type (uint16_t)
                start_stop                : 1 to start sending, 0 to stop sending. (uint8_t)

                '''
                msg = MAVLink_request_data_stream_message(target_system, target_component, req_stream_id, req_message_rate, start_stop)
                msg.pack(self)
                return msg
            
        def request_data_stream_send(self, target_system, target_component, req_stream_id, req_message_rate, start_stop):
                '''
                

                target_system             : The target requested to send the message stream. (uint8_t)
                target_component          : The target requested to send the message stream. (uint8_t)
                req_stream_id             : The ID of the requested data stream (uint8_t)
                req_message_rate          : The requested interval between two messages of this type (uint16_t)
                start_stop                : 1 to start sending, 0 to stop sending. (uint8_t)

                '''
                return self.send(self.request_data_stream_encode(target_system, target_component, req_stream_id, req_message_rate, start_stop))
            
        def data_stream_encode(self, stream_id, message_rate, on_off):
                '''
                

                stream_id                 : The ID of the requested data stream (uint8_t)
                message_rate              : The requested interval between two messages of this type (uint16_t)
                on_off                    : 1 stream is enabled, 0 stream is stopped. (uint8_t)

                '''
                msg = MAVLink_data_stream_message(stream_id, message_rate, on_off)
                msg.pack(self)
                return msg
            
        def data_stream_send(self, stream_id, message_rate, on_off):
                '''
                

                stream_id                 : The ID of the requested data stream (uint8_t)
                message_rate              : The requested interval between two messages of this type (uint16_t)
                on_off                    : 1 stream is enabled, 0 stream is stopped. (uint8_t)

                '''
                return self.send(self.data_stream_encode(stream_id, message_rate, on_off))
            
        def manual_control_encode(self, target, x, y, z, r, buttons):
                '''
                This message provides an API for manually controlling the vehicle
                using standard joystick axes nomenclature, along with
                a joystick-like input device. Unused axes can be
                disabled an buttons are also transmit as boolean
                values of their

                target                    : The system to be controlled. (uint8_t)
                x                         : X-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to forward(1000)-backward(-1000) movement on a joystick and the pitch of a vehicle. (int16_t)
                y                         : Y-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to left(-1000)-right(1000) movement on a joystick and the roll of a vehicle. (int16_t)
                z                         : Z-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a separate slider movement with maximum being 1000 and minimum being -1000 on a joystick and the thrust of a vehicle. (int16_t)
                r                         : R-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a twisting of the joystick, with counter-clockwise being 1000 and clockwise being -1000, and the yaw of a vehicle. (int16_t)
                buttons                   : A bitfield corresponding to the joystick buttons' current state, 1 for pressed, 0 for released. The lowest bit corresponds to Button 1. (uint16_t)

                '''
                msg = MAVLink_manual_control_message(target, x, y, z, r, buttons)
                msg.pack(self)
                return msg
            
        def manual_control_send(self, target, x, y, z, r, buttons):
                '''
                This message provides an API for manually controlling the vehicle
                using standard joystick axes nomenclature, along with
                a joystick-like input device. Unused axes can be
                disabled an buttons are also transmit as boolean
                values of their

                target                    : The system to be controlled. (uint8_t)
                x                         : X-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to forward(1000)-backward(-1000) movement on a joystick and the pitch of a vehicle. (int16_t)
                y                         : Y-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to left(-1000)-right(1000) movement on a joystick and the roll of a vehicle. (int16_t)
                z                         : Z-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a separate slider movement with maximum being 1000 and minimum being -1000 on a joystick and the thrust of a vehicle. (int16_t)
                r                         : R-axis, normalized to the range [-1000,1000]. A value of INT16_MAX indicates that this axis is invalid. Generally corresponds to a twisting of the joystick, with counter-clockwise being 1000 and clockwise being -1000, and the yaw of a vehicle. (int16_t)
                buttons                   : A bitfield corresponding to the joystick buttons' current state, 1 for pressed, 0 for released. The lowest bit corresponds to Button 1. (uint16_t)

                '''
                return self.send(self.manual_control_encode(target, x, y, z, r, buttons))
            
        def rc_channels_override_encode(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw):
                '''
                The RAW values of the RC channels sent to the MAV to override info
                received from the RC radio. A value of -1 means no
                change to that channel. A value of 0 means control of
                that channel should be released back to the RC radio.
                The standard PPM modulation is as follows: 1000
                microseconds: 0%, 2000 microseconds: 100%. Individual
                receivers/transmitters might violate this
                specification.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                chan1_raw                 : RC channel 1 value, in microseconds (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds (uint16_t)

                '''
                msg = MAVLink_rc_channels_override_message(target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw)
                msg.pack(self)
                return msg
            
        def rc_channels_override_send(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw):
                '''
                The RAW values of the RC channels sent to the MAV to override info
                received from the RC radio. A value of -1 means no
                change to that channel. A value of 0 means control of
                that channel should be released back to the RC radio.
                The standard PPM modulation is as follows: 1000
                microseconds: 0%, 2000 microseconds: 100%. Individual
                receivers/transmitters might violate this
                specification.

                target_system             : System ID (uint8_t)
                target_component          : Component ID (uint8_t)
                chan1_raw                 : RC channel 1 value, in microseconds (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds (uint16_t)

                '''
                return self.send(self.rc_channels_override_encode(target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw))
            
        def vfr_hud_encode(self, airspeed, groundspeed, heading, throttle, alt, climb):
                '''
                Metrics typically displayed on a HUD for fixed wing aircraft

                airspeed                  : Current airspeed in m/s (float)
                groundspeed               : Current ground speed in m/s (float)
                heading                   : Current heading in degrees, in compass units (0..360, 0=north) (int16_t)
                throttle                  : Current throttle setting in integer percent, 0 to 100 (uint16_t)
                alt                       : Current altitude (MSL), in meters (float)
                climb                     : Current climb rate in meters/second (float)

                '''
                msg = MAVLink_vfr_hud_message(airspeed, groundspeed, heading, throttle, alt, climb)
                msg.pack(self)
                return msg
            
        def vfr_hud_send(self, airspeed, groundspeed, heading, throttle, alt, climb):
                '''
                Metrics typically displayed on a HUD for fixed wing aircraft

                airspeed                  : Current airspeed in m/s (float)
                groundspeed               : Current ground speed in m/s (float)
                heading                   : Current heading in degrees, in compass units (0..360, 0=north) (int16_t)
                throttle                  : Current throttle setting in integer percent, 0 to 100 (uint16_t)
                alt                       : Current altitude (MSL), in meters (float)
                climb                     : Current climb rate in meters/second (float)

                '''
                return self.send(self.vfr_hud_encode(airspeed, groundspeed, heading, throttle, alt, climb))
            
        def command_long_encode(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7):
                '''
                Send a command with up to four parameters to the MAV

                target_system             : System which should execute the command (uint8_t)
                target_component          : Component which should execute the command, 0 for all components (uint8_t)
                command                   : Command ID, as defined by MAV_CMD enum. (uint16_t)
                confirmation              : 0: First transmission of this command. 1-255: Confirmation transmissions (e.g. for kill command) (uint8_t)
                param1                    : Parameter 1, as defined by MAV_CMD enum. (float)
                param2                    : Parameter 2, as defined by MAV_CMD enum. (float)
                param3                    : Parameter 3, as defined by MAV_CMD enum. (float)
                param4                    : Parameter 4, as defined by MAV_CMD enum. (float)
                param5                    : Parameter 5, as defined by MAV_CMD enum. (float)
                param6                    : Parameter 6, as defined by MAV_CMD enum. (float)
                param7                    : Parameter 7, as defined by MAV_CMD enum. (float)

                '''
                msg = MAVLink_command_long_message(target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7)
                msg.pack(self)
                return msg
            
        def command_long_send(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7):
                '''
                Send a command with up to four parameters to the MAV

                target_system             : System which should execute the command (uint8_t)
                target_component          : Component which should execute the command, 0 for all components (uint8_t)
                command                   : Command ID, as defined by MAV_CMD enum. (uint16_t)
                confirmation              : 0: First transmission of this command. 1-255: Confirmation transmissions (e.g. for kill command) (uint8_t)
                param1                    : Parameter 1, as defined by MAV_CMD enum. (float)
                param2                    : Parameter 2, as defined by MAV_CMD enum. (float)
                param3                    : Parameter 3, as defined by MAV_CMD enum. (float)
                param4                    : Parameter 4, as defined by MAV_CMD enum. (float)
                param5                    : Parameter 5, as defined by MAV_CMD enum. (float)
                param6                    : Parameter 6, as defined by MAV_CMD enum. (float)
                param7                    : Parameter 7, as defined by MAV_CMD enum. (float)

                '''
                return self.send(self.command_long_encode(target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7))
            
        def command_ack_encode(self, command, result):
                '''
                Report status of a command. Includes feedback wether the command was
                executed.

                command                   : Command ID, as defined by MAV_CMD enum. (uint16_t)
                result                    : See MAV_RESULT enum (uint8_t)

                '''
                msg = MAVLink_command_ack_message(command, result)
                msg.pack(self)
                return msg
            
        def command_ack_send(self, command, result):
                '''
                Report status of a command. Includes feedback wether the command was
                executed.

                command                   : Command ID, as defined by MAV_CMD enum. (uint16_t)
                result                    : See MAV_RESULT enum (uint8_t)

                '''
                return self.send(self.command_ack_encode(command, result))
            
        def roll_pitch_yaw_rates_thrust_setpoint_encode(self, time_boot_ms, roll_rate, pitch_rate, yaw_rate, thrust):
                '''
                Setpoint in roll, pitch, yaw rates and thrust currently active on the
                system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll_rate                 : Desired roll rate in radians per second (float)
                pitch_rate                : Desired pitch rate in radians per second (float)
                yaw_rate                  : Desired yaw rate in radians per second (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                msg = MAVLink_roll_pitch_yaw_rates_thrust_setpoint_message(time_boot_ms, roll_rate, pitch_rate, yaw_rate, thrust)
                msg.pack(self)
                return msg
            
        def roll_pitch_yaw_rates_thrust_setpoint_send(self, time_boot_ms, roll_rate, pitch_rate, yaw_rate, thrust):
                '''
                Setpoint in roll, pitch, yaw rates and thrust currently active on the
                system.

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll_rate                 : Desired roll rate in radians per second (float)
                pitch_rate                : Desired pitch rate in radians per second (float)
                yaw_rate                  : Desired yaw rate in radians per second (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)

                '''
                return self.send(self.roll_pitch_yaw_rates_thrust_setpoint_encode(time_boot_ms, roll_rate, pitch_rate, yaw_rate, thrust))
            
        def manual_setpoint_encode(self, time_boot_ms, roll, pitch, yaw, thrust, mode_switch, manual_override_switch):
                '''
                Setpoint in roll, pitch, yaw and thrust from the operator

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll                      : Desired roll rate in radians per second (float)
                pitch                     : Desired pitch rate in radians per second (float)
                yaw                       : Desired yaw rate in radians per second (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)
                mode_switch               : Flight mode switch position, 0.. 255 (uint8_t)
                manual_override_switch        : Override mode switch position, 0.. 255 (uint8_t)

                '''
                msg = MAVLink_manual_setpoint_message(time_boot_ms, roll, pitch, yaw, thrust, mode_switch, manual_override_switch)
                msg.pack(self)
                return msg
            
        def manual_setpoint_send(self, time_boot_ms, roll, pitch, yaw, thrust, mode_switch, manual_override_switch):
                '''
                Setpoint in roll, pitch, yaw and thrust from the operator

                time_boot_ms              : Timestamp in milliseconds since system boot (uint32_t)
                roll                      : Desired roll rate in radians per second (float)
                pitch                     : Desired pitch rate in radians per second (float)
                yaw                       : Desired yaw rate in radians per second (float)
                thrust                    : Collective thrust, normalized to 0 .. 1 (float)
                mode_switch               : Flight mode switch position, 0.. 255 (uint8_t)
                manual_override_switch        : Override mode switch position, 0.. 255 (uint8_t)

                '''
                return self.send(self.manual_setpoint_encode(time_boot_ms, roll, pitch, yaw, thrust, mode_switch, manual_override_switch))
            
        def local_position_ned_system_global_offset_encode(self, time_boot_ms, x, y, z, roll, pitch, yaw):
                '''
                The offset in X, Y, Z and yaw between the LOCAL_POSITION_NED messages
                of MAV X and the global coordinate frame in NED
                coordinates. Coordinate frame is right-handed, Z-axis
                down (aeronautical frame, NED / north-east-down
                convention)

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                x                         : X Position (float)
                y                         : Y Position (float)
                z                         : Z Position (float)
                roll                      : Roll (float)
                pitch                     : Pitch (float)
                yaw                       : Yaw (float)

                '''
                msg = MAVLink_local_position_ned_system_global_offset_message(time_boot_ms, x, y, z, roll, pitch, yaw)
                msg.pack(self)
                return msg
            
        def local_position_ned_system_global_offset_send(self, time_boot_ms, x, y, z, roll, pitch, yaw):
                '''
                The offset in X, Y, Z and yaw between the LOCAL_POSITION_NED messages
                of MAV X and the global coordinate frame in NED
                coordinates. Coordinate frame is right-handed, Z-axis
                down (aeronautical frame, NED / north-east-down
                convention)

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                x                         : X Position (float)
                y                         : Y Position (float)
                z                         : Z Position (float)
                roll                      : Roll (float)
                pitch                     : Pitch (float)
                yaw                       : Yaw (float)

                '''
                return self.send(self.local_position_ned_system_global_offset_encode(time_boot_ms, x, y, z, roll, pitch, yaw))
            
        def hil_state_encode(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc):
                '''
                Sent from simulation to autopilot. This packet is useful for high
                throughput applications such as hardware in the loop
                simulations.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                roll                      : Roll angle (rad) (float)
                pitch                     : Pitch angle (rad) (float)
                yaw                       : Yaw angle (rad) (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)
                lat                       : Latitude, expressed as * 1E7 (int32_t)
                lon                       : Longitude, expressed as * 1E7 (int32_t)
                alt                       : Altitude in meters, expressed as * 1000 (millimeters) (int32_t)
                vx                        : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t)
                vy                        : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t)
                vz                        : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t)
                xacc                      : X acceleration (mg) (int16_t)
                yacc                      : Y acceleration (mg) (int16_t)
                zacc                      : Z acceleration (mg) (int16_t)

                '''
                msg = MAVLink_hil_state_message(time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc)
                msg.pack(self)
                return msg
            
        def hil_state_send(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc):
                '''
                Sent from simulation to autopilot. This packet is useful for high
                throughput applications such as hardware in the loop
                simulations.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                roll                      : Roll angle (rad) (float)
                pitch                     : Pitch angle (rad) (float)
                yaw                       : Yaw angle (rad) (float)
                rollspeed                 : Roll angular speed (rad/s) (float)
                pitchspeed                : Pitch angular speed (rad/s) (float)
                yawspeed                  : Yaw angular speed (rad/s) (float)
                lat                       : Latitude, expressed as * 1E7 (int32_t)
                lon                       : Longitude, expressed as * 1E7 (int32_t)
                alt                       : Altitude in meters, expressed as * 1000 (millimeters) (int32_t)
                vx                        : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t)
                vy                        : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t)
                vz                        : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t)
                xacc                      : X acceleration (mg) (int16_t)
                yacc                      : Y acceleration (mg) (int16_t)
                zacc                      : Z acceleration (mg) (int16_t)

                '''
                return self.send(self.hil_state_encode(time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc))
            
        def hil_controls_encode(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode):
                '''
                Sent from autopilot to simulation. Hardware in the loop control
                outputs

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                roll_ailerons             : Control output -1 .. 1 (float)
                pitch_elevator            : Control output -1 .. 1 (float)
                yaw_rudder                : Control output -1 .. 1 (float)
                throttle                  : Throttle 0 .. 1 (float)
                aux1                      : Aux 1, -1 .. 1 (float)
                aux2                      : Aux 2, -1 .. 1 (float)
                aux3                      : Aux 3, -1 .. 1 (float)
                aux4                      : Aux 4, -1 .. 1 (float)
                mode                      : System mode (MAV_MODE) (uint8_t)
                nav_mode                  : Navigation mode (MAV_NAV_MODE) (uint8_t)

                '''
                msg = MAVLink_hil_controls_message(time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode)
                msg.pack(self)
                return msg
            
        def hil_controls_send(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode):
                '''
                Sent from autopilot to simulation. Hardware in the loop control
                outputs

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                roll_ailerons             : Control output -1 .. 1 (float)
                pitch_elevator            : Control output -1 .. 1 (float)
                yaw_rudder                : Control output -1 .. 1 (float)
                throttle                  : Throttle 0 .. 1 (float)
                aux1                      : Aux 1, -1 .. 1 (float)
                aux2                      : Aux 2, -1 .. 1 (float)
                aux3                      : Aux 3, -1 .. 1 (float)
                aux4                      : Aux 4, -1 .. 1 (float)
                mode                      : System mode (MAV_MODE) (uint8_t)
                nav_mode                  : Navigation mode (MAV_NAV_MODE) (uint8_t)

                '''
                return self.send(self.hil_controls_encode(time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode))
            
        def hil_rc_inputs_raw_encode(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi):
                '''
                Sent from simulation to autopilot. The RAW values of the RC channels
                received. The standard PPM modulation is as follows:
                1000 microseconds: 0%, 2000 microseconds: 100%.
                Individual receivers/transmitters might violate this
                specification.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                chan1_raw                 : RC channel 1 value, in microseconds (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds (uint16_t)
                chan9_raw                 : RC channel 9 value, in microseconds (uint16_t)
                chan10_raw                : RC channel 10 value, in microseconds (uint16_t)
                chan11_raw                : RC channel 11 value, in microseconds (uint16_t)
                chan12_raw                : RC channel 12 value, in microseconds (uint16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t)

                '''
                msg = MAVLink_hil_rc_inputs_raw_message(time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi)
                msg.pack(self)
                return msg
            
        def hil_rc_inputs_raw_send(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi):
                '''
                Sent from simulation to autopilot. The RAW values of the RC channels
                received. The standard PPM modulation is as follows:
                1000 microseconds: 0%, 2000 microseconds: 100%.
                Individual receivers/transmitters might violate this
                specification.

                time_usec                 : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t)
                chan1_raw                 : RC channel 1 value, in microseconds (uint16_t)
                chan2_raw                 : RC channel 2 value, in microseconds (uint16_t)
                chan3_raw                 : RC channel 3 value, in microseconds (uint16_t)
                chan4_raw                 : RC channel 4 value, in microseconds (uint16_t)
                chan5_raw                 : RC channel 5 value, in microseconds (uint16_t)
                chan6_raw                 : RC channel 6 value, in microseconds (uint16_t)
                chan7_raw                 : RC channel 7 value, in microseconds (uint16_t)
                chan8_raw                 : RC channel 8 value, in microseconds (uint16_t)
                chan9_raw                 : RC channel 9 value, in microseconds (uint16_t)
                chan10_raw                : RC channel 10 value, in microseconds (uint16_t)
                chan11_raw                : RC channel 11 value, in microseconds (uint16_t)
                chan12_raw                : RC channel 12 value, in microseconds (uint16_t)
                rssi                      : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t)

                '''
                return self.send(self.hil_rc_inputs_raw_encode(time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi))
            
        def optical_flow_encode(self, time_usec, sensor_id, flow_x, flow_y, flow_comp_m_x, flow_comp_m_y, quality, ground_distance):
                '''
                Optical flow from a flow sensor (e.g. optical mouse sensor)

                time_usec                 : Timestamp (UNIX) (uint64_t)
                sensor_id                 : Sensor ID (uint8_t)
                flow_x                    : Flow in pixels in x-sensor direction (int16_t)
                flow_y                    : Flow in pixels in y-sensor direction (int16_t)
                flow_comp_m_x             : Flow in meters in x-sensor direction, angular-speed compensated (float)
                flow_comp_m_y             : Flow in meters in y-sensor direction, angular-speed compensated (float)
                quality                   : Optical flow quality / confidence. 0: bad, 255: maximum quality (uint8_t)
                ground_distance           : Ground distance in meters. Positive value: distance known. Negative value: Unknown distance (float)

                '''
                msg = MAVLink_optical_flow_message(time_usec, sensor_id, flow_x, flow_y, flow_comp_m_x, flow_comp_m_y, quality, ground_distance)
                msg.pack(self)
                return msg
            
        def optical_flow_send(self, time_usec, sensor_id, flow_x, flow_y, flow_comp_m_x, flow_comp_m_y, quality, ground_distance):
                '''
                Optical flow from a flow sensor (e.g. optical mouse sensor)

                time_usec                 : Timestamp (UNIX) (uint64_t)
                sensor_id                 : Sensor ID (uint8_t)
                flow_x                    : Flow in pixels in x-sensor direction (int16_t)
                flow_y                    : Flow in pixels in y-sensor direction (int16_t)
                flow_comp_m_x             : Flow in meters in x-sensor direction, angular-speed compensated (float)
                flow_comp_m_y             : Flow in meters in y-sensor direction, angular-speed compensated (float)
                quality                   : Optical flow quality / confidence. 0: bad, 255: maximum quality (uint8_t)
                ground_distance           : Ground distance in meters. Positive value: distance known. Negative value: Unknown distance (float)

                '''
                return self.send(self.optical_flow_encode(time_usec, sensor_id, flow_x, flow_y, flow_comp_m_x, flow_comp_m_y, quality, ground_distance))
            
        def global_vision_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                msg = MAVLink_global_vision_position_estimate_message(usec, x, y, z, roll, pitch, yaw)
                msg.pack(self)
                return msg
            
        def global_vision_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                return self.send(self.global_vision_position_estimate_encode(usec, x, y, z, roll, pitch, yaw))
            
        def vision_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                msg = MAVLink_vision_position_estimate_message(usec, x, y, z, roll, pitch, yaw)
                msg.pack(self)
                return msg
            
        def vision_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                return self.send(self.vision_position_estimate_encode(usec, x, y, z, roll, pitch, yaw))
            
        def vision_speed_estimate_encode(self, usec, x, y, z):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X speed (float)
                y                         : Global Y speed (float)
                z                         : Global Z speed (float)

                '''
                msg = MAVLink_vision_speed_estimate_message(usec, x, y, z)
                msg.pack(self)
                return msg
            
        def vision_speed_estimate_send(self, usec, x, y, z):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X speed (float)
                y                         : Global Y speed (float)
                z                         : Global Z speed (float)

                '''
                return self.send(self.vision_speed_estimate_encode(usec, x, y, z))
            
        def vicon_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                msg = MAVLink_vicon_position_estimate_message(usec, x, y, z, roll, pitch, yaw)
                msg.pack(self)
                return msg
            
        def vicon_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw):
                '''
                

                usec                      : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                x                         : Global X position (float)
                y                         : Global Y position (float)
                z                         : Global Z position (float)
                roll                      : Roll angle in rad (float)
                pitch                     : Pitch angle in rad (float)
                yaw                       : Yaw angle in rad (float)

                '''
                return self.send(self.vicon_position_estimate_encode(usec, x, y, z, roll, pitch, yaw))
            
        def highres_imu_encode(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag, abs_pressure, diff_pressure, pressure_alt, temperature, fields_updated):
                '''
                The IMU readings in SI units in NED body frame

                time_usec                 : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                xacc                      : X acceleration (m/s^2) (float)
                yacc                      : Y acceleration (m/s^2) (float)
                zacc                      : Z acceleration (m/s^2) (float)
                xgyro                     : Angular speed around X axis (rad / sec) (float)
                ygyro                     : Angular speed around Y axis (rad / sec) (float)
                zgyro                     : Angular speed around Z axis (rad / sec) (float)
                xmag                      : X Magnetic field (Gauss) (float)
                ymag                      : Y Magnetic field (Gauss) (float)
                zmag                      : Z Magnetic field (Gauss) (float)
                abs_pressure              : Absolute pressure in millibar (float)
                diff_pressure             : Differential pressure in millibar (float)
                pressure_alt              : Altitude calculated from pressure (float)
                temperature               : Temperature in degrees celsius (float)
                fields_updated            : Bitmask for fields that have updated since last message, bit 0 = xacc, bit 12: temperature (uint16_t)

                '''
                msg = MAVLink_highres_imu_message(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag, abs_pressure, diff_pressure, pressure_alt, temperature, fields_updated)
                msg.pack(self)
                return msg
            
        def highres_imu_send(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag, abs_pressure, diff_pressure, pressure_alt, temperature, fields_updated):
                '''
                The IMU readings in SI units in NED body frame

                time_usec                 : Timestamp (microseconds, synced to UNIX time or since system boot) (uint64_t)
                xacc                      : X acceleration (m/s^2) (float)
                yacc                      : Y acceleration (m/s^2) (float)
                zacc                      : Z acceleration (m/s^2) (float)
                xgyro                     : Angular speed around X axis (rad / sec) (float)
                ygyro                     : Angular speed around Y axis (rad / sec) (float)
                zgyro                     : Angular speed around Z axis (rad / sec) (float)
                xmag                      : X Magnetic field (Gauss) (float)
                ymag                      : Y Magnetic field (Gauss) (float)
                zmag                      : Z Magnetic field (Gauss) (float)
                abs_pressure              : Absolute pressure in millibar (float)
                diff_pressure             : Differential pressure in millibar (float)
                pressure_alt              : Altitude calculated from pressure (float)
                temperature               : Temperature in degrees celsius (float)
                fields_updated            : Bitmask for fields that have updated since last message, bit 0 = xacc, bit 12: temperature (uint16_t)

                '''
                return self.send(self.highres_imu_encode(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag, abs_pressure, diff_pressure, pressure_alt, temperature, fields_updated))
            
        def file_transfer_start_encode(self, transfer_uid, dest_path, direction, file_size, flags):
                '''
                Begin file transfer

                transfer_uid              : Unique transfer ID (uint64_t)
                dest_path                 : Destination path (char)
                direction                 : Transfer direction: 0: from requester, 1: to requester (uint8_t)
                file_size                 : File size in bytes (uint32_t)
                flags                     : RESERVED (uint8_t)

                '''
                msg = MAVLink_file_transfer_start_message(transfer_uid, dest_path, direction, file_size, flags)
                msg.pack(self)
                return msg
            
        def file_transfer_start_send(self, transfer_uid, dest_path, direction, file_size, flags):
                '''
                Begin file transfer

                transfer_uid              : Unique transfer ID (uint64_t)
                dest_path                 : Destination path (char)
                direction                 : Transfer direction: 0: from requester, 1: to requester (uint8_t)
                file_size                 : File size in bytes (uint32_t)
                flags                     : RESERVED (uint8_t)

                '''
                return self.send(self.file_transfer_start_encode(transfer_uid, dest_path, direction, file_size, flags))
            
        def file_transfer_dir_list_encode(self, transfer_uid, dir_path, flags):
                '''
                Get directory listing

                transfer_uid              : Unique transfer ID (uint64_t)
                dir_path                  : Directory path to list (char)
                flags                     : RESERVED (uint8_t)

                '''
                msg = MAVLink_file_transfer_dir_list_message(transfer_uid, dir_path, flags)
                msg.pack(self)
                return msg
            
        def file_transfer_dir_list_send(self, transfer_uid, dir_path, flags):
                '''
                Get directory listing

                transfer_uid              : Unique transfer ID (uint64_t)
                dir_path                  : Directory path to list (char)
                flags                     : RESERVED (uint8_t)

                '''
                return self.send(self.file_transfer_dir_list_encode(transfer_uid, dir_path, flags))
            
        def file_transfer_res_encode(self, transfer_uid, result):
                '''
                File transfer result

                transfer_uid              : Unique transfer ID (uint64_t)
                result                    : 0: OK, 1: not permitted, 2: bad path / file name, 3: no space left on device (uint8_t)

                '''
                msg = MAVLink_file_transfer_res_message(transfer_uid, result)
                msg.pack(self)
                return msg
            
        def file_transfer_res_send(self, transfer_uid, result):
                '''
                File transfer result

                transfer_uid              : Unique transfer ID (uint64_t)
                result                    : 0: OK, 1: not permitted, 2: bad path / file name, 3: no space left on device (uint8_t)

                '''
                return self.send(self.file_transfer_res_encode(transfer_uid, result))
            
        def battery_status_encode(self, accu_id, voltage_cell_1, voltage_cell_2, voltage_cell_3, voltage_cell_4, voltage_cell_5, voltage_cell_6, current_battery, battery_remaining):
                '''
                Transmitte battery informations for a accu pack.

                accu_id                   : Accupack ID (uint8_t)
                voltage_cell_1            : Battery voltage of cell 1, in millivolts (1 = 1 millivolt) (uint16_t)
                voltage_cell_2            : Battery voltage of cell 2, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_3            : Battery voltage of cell 3, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_4            : Battery voltage of cell 4, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_5            : Battery voltage of cell 5, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_6            : Battery voltage of cell 6, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                current_battery           : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t)
                battery_remaining         : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot does not estimate the remaining battery (int8_t)

                '''
                msg = MAVLink_battery_status_message(accu_id, voltage_cell_1, voltage_cell_2, voltage_cell_3, voltage_cell_4, voltage_cell_5, voltage_cell_6, current_battery, battery_remaining)
                msg.pack(self)
                return msg
            
        def battery_status_send(self, accu_id, voltage_cell_1, voltage_cell_2, voltage_cell_3, voltage_cell_4, voltage_cell_5, voltage_cell_6, current_battery, battery_remaining):
                '''
                Transmitte battery informations for a accu pack.

                accu_id                   : Accupack ID (uint8_t)
                voltage_cell_1            : Battery voltage of cell 1, in millivolts (1 = 1 millivolt) (uint16_t)
                voltage_cell_2            : Battery voltage of cell 2, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_3            : Battery voltage of cell 3, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_4            : Battery voltage of cell 4, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_5            : Battery voltage of cell 5, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                voltage_cell_6            : Battery voltage of cell 6, in millivolts (1 = 1 millivolt), -1: no cell (uint16_t)
                current_battery           : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t)
                battery_remaining         : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot does not estimate the remaining battery (int8_t)

                '''
                return self.send(self.battery_status_encode(accu_id, voltage_cell_1, voltage_cell_2, voltage_cell_3, voltage_cell_4, voltage_cell_5, voltage_cell_6, current_battery, battery_remaining))
            
        def setpoint_8dof_encode(self, target_system, val1, val2, val3, val4, val5, val6, val7, val8):
                '''
                Set the 8 DOF setpoint for a controller.

                target_system             : System ID (uint8_t)
                val1                      : Value 1 (float)
                val2                      : Value 2 (float)
                val3                      : Value 3 (float)
                val4                      : Value 4 (float)
                val5                      : Value 5 (float)
                val6                      : Value 6 (float)
                val7                      : Value 7 (float)
                val8                      : Value 8 (float)

                '''
                msg = MAVLink_setpoint_8dof_message(target_system, val1, val2, val3, val4, val5, val6, val7, val8)
                msg.pack(self)
                return msg
            
        def setpoint_8dof_send(self, target_system, val1, val2, val3, val4, val5, val6, val7, val8):
                '''
                Set the 8 DOF setpoint for a controller.

                target_system             : System ID (uint8_t)
                val1                      : Value 1 (float)
                val2                      : Value 2 (float)
                val3                      : Value 3 (float)
                val4                      : Value 4 (float)
                val5                      : Value 5 (float)
                val6                      : Value 6 (float)
                val7                      : Value 7 (float)
                val8                      : Value 8 (float)

                '''
                return self.send(self.setpoint_8dof_encode(target_system, val1, val2, val3, val4, val5, val6, val7, val8))
            
        def setpoint_6dof_encode(self, target_system, trans_x, trans_y, trans_z, rot_x, rot_y, rot_z):
                '''
                Set the 6 DOF setpoint for a attitude and position controller.

                target_system             : System ID (uint8_t)
                trans_x                   : Translational Component in x (float)
                trans_y                   : Translational Component in y (float)
                trans_z                   : Translational Component in z (float)
                rot_x                     : Rotational Component in x (float)
                rot_y                     : Rotational Component in y (float)
                rot_z                     : Rotational Component in z (float)

                '''
                msg = MAVLink_setpoint_6dof_message(target_system, trans_x, trans_y, trans_z, rot_x, rot_y, rot_z)
                msg.pack(self)
                return msg
            
        def setpoint_6dof_send(self, target_system, trans_x, trans_y, trans_z, rot_x, rot_y, rot_z):
                '''
                Set the 6 DOF setpoint for a attitude and position controller.

                target_system             : System ID (uint8_t)
                trans_x                   : Translational Component in x (float)
                trans_y                   : Translational Component in y (float)
                trans_z                   : Translational Component in z (float)
                rot_x                     : Rotational Component in x (float)
                rot_y                     : Rotational Component in y (float)
                rot_z                     : Rotational Component in z (float)

                '''
                return self.send(self.setpoint_6dof_encode(target_system, trans_x, trans_y, trans_z, rot_x, rot_y, rot_z))
            
        def memory_vect_encode(self, address, ver, type, value):
                '''
                Send raw controller memory. The use of this message is discouraged for
                normal packets, but a quite efficient way for testing
                new messages and getting experimental debug output.

                address                   : Starting address of the debug variables (uint16_t)
                ver                       : Version code of the type variable. 0=unknown, type ignored and assumed int16_t. 1=as below (uint8_t)
                type                      : Type code of the memory variables. for ver = 1: 0=16 x int16_t, 1=16 x uint16_t, 2=16 x Q15, 3=16 x 1Q14 (uint8_t)
                value                     : Memory contents at specified address (int8_t)

                '''
                msg = MAVLink_memory_vect_message(address, ver, type, value)
                msg.pack(self)
                return msg
            
        def memory_vect_send(self, address, ver, type, value):
                '''
                Send raw controller memory. The use of this message is discouraged for
                normal packets, but a quite efficient way for testing
                new messages and getting experimental debug output.

                address                   : Starting address of the debug variables (uint16_t)
                ver                       : Version code of the type variable. 0=unknown, type ignored and assumed int16_t. 1=as below (uint8_t)
                type                      : Type code of the memory variables. for ver = 1: 0=16 x int16_t, 1=16 x uint16_t, 2=16 x Q15, 3=16 x 1Q14 (uint8_t)
                value                     : Memory contents at specified address (int8_t)

                '''
                return self.send(self.memory_vect_encode(address, ver, type, value))
            
        def debug_vect_encode(self, name, time_usec, x, y, z):
                '''
                

                name                      : Name (char)
                time_usec                 : Timestamp (uint64_t)
                x                         : x (float)
                y                         : y (float)
                z                         : z (float)

                '''
                msg = MAVLink_debug_vect_message(name, time_usec, x, y, z)
                msg.pack(self)
                return msg
            
        def debug_vect_send(self, name, time_usec, x, y, z):
                '''
                

                name                      : Name (char)
                time_usec                 : Timestamp (uint64_t)
                x                         : x (float)
                y                         : y (float)
                z                         : z (float)

                '''
                return self.send(self.debug_vect_encode(name, time_usec, x, y, z))
            
        def named_value_float_encode(self, time_boot_ms, name, value):
                '''
                Send a key-value pair as float. The use of this message is discouraged
                for normal packets, but a quite efficient way for
                testing new messages and getting experimental debug
                output.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                name                      : Name of the debug variable (char)
                value                     : Floating point value (float)

                '''
                msg = MAVLink_named_value_float_message(time_boot_ms, name, value)
                msg.pack(self)
                return msg
            
        def named_value_float_send(self, time_boot_ms, name, value):
                '''
                Send a key-value pair as float. The use of this message is discouraged
                for normal packets, but a quite efficient way for
                testing new messages and getting experimental debug
                output.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                name                      : Name of the debug variable (char)
                value                     : Floating point value (float)

                '''
                return self.send(self.named_value_float_encode(time_boot_ms, name, value))
            
        def named_value_int_encode(self, time_boot_ms, name, value):
                '''
                Send a key-value pair as integer. The use of this message is
                discouraged for normal packets, but a quite efficient
                way for testing new messages and getting experimental
                debug output.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                name                      : Name of the debug variable (char)
                value                     : Signed integer value (int32_t)

                '''
                msg = MAVLink_named_value_int_message(time_boot_ms, name, value)
                msg.pack(self)
                return msg
            
        def named_value_int_send(self, time_boot_ms, name, value):
                '''
                Send a key-value pair as integer. The use of this message is
                discouraged for normal packets, but a quite efficient
                way for testing new messages and getting experimental
                debug output.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                name                      : Name of the debug variable (char)
                value                     : Signed integer value (int32_t)

                '''
                return self.send(self.named_value_int_encode(time_boot_ms, name, value))
            
        def statustext_encode(self, severity, text):
                '''
                Status text message. These messages are printed in yellow in the COMM
                console of QGroundControl. WARNING: They consume quite
                some bandwidth, so use only for important status and
                error messages. If implemented wisely, these messages
                are buffered on the MCU and sent only at a limited
                rate (e.g. 10 Hz).

                severity                  : Severity of status. Relies on the definitions within RFC-5424. See enum MAV_SEVERITY. (uint8_t)
                text                      : Status text message, without null termination character (char)

                '''
                msg = MAVLink_statustext_message(severity, text)
                msg.pack(self)
                return msg
            
        def statustext_send(self, severity, text):
                '''
                Status text message. These messages are printed in yellow in the COMM
                console of QGroundControl. WARNING: They consume quite
                some bandwidth, so use only for important status and
                error messages. If implemented wisely, these messages
                are buffered on the MCU and sent only at a limited
                rate (e.g. 10 Hz).

                severity                  : Severity of status. Relies on the definitions within RFC-5424. See enum MAV_SEVERITY. (uint8_t)
                text                      : Status text message, without null termination character (char)

                '''
                return self.send(self.statustext_encode(severity, text))
            
        def debug_encode(self, time_boot_ms, ind, value):
                '''
                Send a debug value. The index is used to discriminate between values.
                These values show up in the plot of QGroundControl as
                DEBUG N.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                ind                       : index of debug variable (uint8_t)
                value                     : DEBUG value (float)

                '''
                msg = MAVLink_debug_message(time_boot_ms, ind, value)
                msg.pack(self)
                return msg
            
        def debug_send(self, time_boot_ms, ind, value):
                '''
                Send a debug value. The index is used to discriminate between values.
                These values show up in the plot of QGroundControl as
                DEBUG N.

                time_boot_ms              : Timestamp (milliseconds since system boot) (uint32_t)
                ind                       : index of debug variable (uint8_t)
                value                     : DEBUG value (float)

                '''
                return self.send(self.debug_encode(time_boot_ms, ind, value))