Michael Shimniok
Code for autonomous ground vehicle, Data Bus, 3rd place winner in 2012 Sparkfun AVC.
Dependencies: Watchdog mbed Schedule SimpleFilter LSM303DLM PinDetect DebounceIn Servo
MAVlink/include/common/mavlink_msg_waypoint.h
- Committer:
- shimniok
- Date:
- 2012-06-20
- Revision:
- 0:826c6171fc1b
File content as of revision 0:826c6171fc1b:
// MESSAGE WAYPOINT PACKING
#define MAVLINK_MSG_ID_WAYPOINT 39
typedef struct __mavlink_waypoint_t
{
uint8_t target_system; ///< System ID
uint8_t target_component; ///< Component ID
uint16_t seq; ///< Sequence
uint8_t frame; ///< The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
uint8_t command; ///< The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
uint8_t current; ///< false:0, true:1
uint8_t autocontinue; ///< autocontinue to next wp
float param1; ///< PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
float param2; ///< PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
float param3; ///< PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, 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 waypoints: 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
} mavlink_waypoint_t;
/**
* @brief Pack a waypoint message
* @param system_id ID of this system
* @param component_id ID of this component (e.g. 200 for IMU)
* @param msg The MAVLink message to compress the data into
*
* @param target_system System ID
* @param target_component Component ID
* @param seq Sequence
* @param frame The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
* @param command The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
* @param current false:0, true:1
* @param autocontinue autocontinue to next wp
* @param param1 PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
* @param param2 PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
* @param param3 PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
* @param param4 PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
* @param x PARAM5 / local: x position, global: latitude
* @param y PARAM6 / y position: global: longitude
* @param z PARAM7 / z position: global: altitude
* @return length of the message in bytes (excluding serial stream start sign)
*/
static inline uint16_t mavlink_msg_waypoint_pack(uint8_t system_id, uint8_t component_id, mavlink_message_t* msg, uint8_t target_system, uint8_t target_component, uint16_t seq, uint8_t frame, uint8_t command, uint8_t current, uint8_t autocontinue, float param1, float param2, float param3, float param4, float x, float y, float z)
{
uint16_t i = 0;
msg->msgid = MAVLINK_MSG_ID_WAYPOINT;
i += put_uint8_t_by_index(target_system, i, msg->payload); // System ID
i += put_uint8_t_by_index(target_component, i, msg->payload); // Component ID
i += put_uint16_t_by_index(seq, i, msg->payload); // Sequence
i += put_uint8_t_by_index(frame, i, msg->payload); // The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
i += put_uint8_t_by_index(command, i, msg->payload); // The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
i += put_uint8_t_by_index(current, i, msg->payload); // false:0, true:1
i += put_uint8_t_by_index(autocontinue, i, msg->payload); // autocontinue to next wp
i += put_float_by_index(param1, i, msg->payload); // PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
i += put_float_by_index(param2, i, msg->payload); // PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
i += put_float_by_index(param3, i, msg->payload); // PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
i += put_float_by_index(param4, i, msg->payload); // PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
i += put_float_by_index(x, i, msg->payload); // PARAM5 / local: x position, global: latitude
i += put_float_by_index(y, i, msg->payload); // PARAM6 / y position: global: longitude
i += put_float_by_index(z, i, msg->payload); // PARAM7 / z position: global: altitude
return mavlink_finalize_message(msg, system_id, component_id, i);
}
/**
* @brief Pack a waypoint message
* @param system_id ID of this system
* @param component_id ID of this component (e.g. 200 for IMU)
* @param chan The MAVLink channel this message was sent over
* @param msg The MAVLink message to compress the data into
* @param target_system System ID
* @param target_component Component ID
* @param seq Sequence
* @param frame The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
* @param command The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
* @param current false:0, true:1
* @param autocontinue autocontinue to next wp
* @param param1 PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
* @param param2 PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
* @param param3 PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
* @param param4 PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
* @param x PARAM5 / local: x position, global: latitude
* @param y PARAM6 / y position: global: longitude
* @param z PARAM7 / z position: global: altitude
* @return length of the message in bytes (excluding serial stream start sign)
*/
static inline uint16_t mavlink_msg_waypoint_pack_chan(uint8_t system_id, uint8_t component_id, uint8_t chan, mavlink_message_t* msg, uint8_t target_system, uint8_t target_component, uint16_t seq, uint8_t frame, uint8_t command, uint8_t current, uint8_t autocontinue, float param1, float param2, float param3, float param4, float x, float y, float z)
{
uint16_t i = 0;
msg->msgid = MAVLINK_MSG_ID_WAYPOINT;
i += put_uint8_t_by_index(target_system, i, msg->payload); // System ID
i += put_uint8_t_by_index(target_component, i, msg->payload); // Component ID
i += put_uint16_t_by_index(seq, i, msg->payload); // Sequence
i += put_uint8_t_by_index(frame, i, msg->payload); // The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
i += put_uint8_t_by_index(command, i, msg->payload); // The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
i += put_uint8_t_by_index(current, i, msg->payload); // false:0, true:1
i += put_uint8_t_by_index(autocontinue, i, msg->payload); // autocontinue to next wp
i += put_float_by_index(param1, i, msg->payload); // PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
i += put_float_by_index(param2, i, msg->payload); // PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
i += put_float_by_index(param3, i, msg->payload); // PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
i += put_float_by_index(param4, i, msg->payload); // PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
i += put_float_by_index(x, i, msg->payload); // PARAM5 / local: x position, global: latitude
i += put_float_by_index(y, i, msg->payload); // PARAM6 / y position: global: longitude
i += put_float_by_index(z, i, msg->payload); // PARAM7 / z position: global: altitude
return mavlink_finalize_message_chan(msg, system_id, component_id, chan, i);
}
/**
* @brief Encode a waypoint struct into a message
*
* @param system_id ID of this system
* @param component_id ID of this component (e.g. 200 for IMU)
* @param msg The MAVLink message to compress the data into
* @param waypoint C-struct to read the message contents from
*/
static inline uint16_t mavlink_msg_waypoint_encode(uint8_t system_id, uint8_t component_id, mavlink_message_t* msg, const mavlink_waypoint_t* waypoint)
{
return mavlink_msg_waypoint_pack(system_id, component_id, msg, waypoint->target_system, waypoint->target_component, waypoint->seq, waypoint->frame, waypoint->command, waypoint->current, waypoint->autocontinue, waypoint->param1, waypoint->param2, waypoint->param3, waypoint->param4, waypoint->x, waypoint->y, waypoint->z);
}
/**
* @brief Send a waypoint message
* @param chan MAVLink channel to send the message
*
* @param target_system System ID
* @param target_component Component ID
* @param seq Sequence
* @param frame The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
* @param command The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
* @param current false:0, true:1
* @param autocontinue autocontinue to next wp
* @param param1 PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
* @param param2 PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
* @param param3 PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
* @param param4 PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
* @param x PARAM5 / local: x position, global: latitude
* @param y PARAM6 / y position: global: longitude
* @param z PARAM7 / z position: global: altitude
*/
#ifdef MAVLINK_USE_CONVENIENCE_FUNCTIONS
static inline void mavlink_msg_waypoint_send(mavlink_channel_t chan, uint8_t target_system, uint8_t target_component, uint16_t seq, uint8_t frame, uint8_t command, uint8_t current, uint8_t autocontinue, float param1, float param2, float param3, float param4, float x, float y, float z)
{
mavlink_message_t msg;
mavlink_msg_waypoint_pack_chan(mavlink_system.sysid, mavlink_system.compid, chan, &msg, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z);
mavlink_send_uart(chan, &msg);
}
#endif
// MESSAGE WAYPOINT UNPACKING
/**
* @brief Get field target_system from waypoint message
*
* @return System ID
*/
static inline uint8_t mavlink_msg_waypoint_get_target_system(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload)[0];
}
/**
* @brief Get field target_component from waypoint message
*
* @return Component ID
*/
static inline uint8_t mavlink_msg_waypoint_get_target_component(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload+sizeof(uint8_t))[0];
}
/**
* @brief Get field seq from waypoint message
*
* @return Sequence
*/
static inline uint16_t mavlink_msg_waypoint_get_seq(const mavlink_message_t* msg)
{
generic_16bit r;
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t))[0];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t))[1];
return (uint16_t)r.s;
}
/**
* @brief Get field frame from waypoint message
*
* @return The coordinate system of the waypoint. see MAV_FRAME in mavlink_types.h
*/
static inline uint8_t mavlink_msg_waypoint_get_frame(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t))[0];
}
/**
* @brief Get field command from waypoint message
*
* @return The scheduled action for the waypoint. see MAV_COMMAND in common.xml MAVLink specs
*/
static inline uint8_t mavlink_msg_waypoint_get_command(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t))[0];
}
/**
* @brief Get field current from waypoint message
*
* @return false:0, true:1
*/
static inline uint8_t mavlink_msg_waypoint_get_current(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t))[0];
}
/**
* @brief Get field autocontinue from waypoint message
*
* @return autocontinue to next wp
*/
static inline uint8_t mavlink_msg_waypoint_get_autocontinue(const mavlink_message_t* msg)
{
return (uint8_t)(msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t))[0];
}
/**
* @brief Get field param1 from waypoint message
*
* @return PARAM1 / For NAV command waypoints: Radius in which the waypoint is accepted as reached, in meters
*/
static inline float mavlink_msg_waypoint_get_param1(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t))[3];
return (float)r.f;
}
/**
* @brief Get field param2 from waypoint message
*
* @return PARAM2 / For NAV command waypoints: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds
*/
static inline float mavlink_msg_waypoint_get_param2(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Get field param3 from waypoint message
*
* @return PARAM3 / For LOITER command waypoints: Orbit to circle around the waypoint, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise.
*/
static inline float mavlink_msg_waypoint_get_param3(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Get field param4 from waypoint message
*
* @return PARAM4 / For NAV and LOITER command waypoints: Yaw orientation in degrees, [0..360] 0 = NORTH
*/
static inline float mavlink_msg_waypoint_get_param4(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Get field x from waypoint message
*
* @return PARAM5 / local: x position, global: latitude
*/
static inline float mavlink_msg_waypoint_get_x(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Get field y from waypoint message
*
* @return PARAM6 / y position: global: longitude
*/
static inline float mavlink_msg_waypoint_get_y(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Get field z from waypoint message
*
* @return PARAM7 / z position: global: altitude
*/
static inline float mavlink_msg_waypoint_get_z(const mavlink_message_t* msg)
{
generic_32bit r;
r.b[3] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[0];
r.b[2] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[1];
r.b[1] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[2];
r.b[0] = (msg->payload+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint16_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(uint8_t)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float)+sizeof(float))[3];
return (float)r.f;
}
/**
* @brief Decode a waypoint message into a struct
*
* @param msg The message to decode
* @param waypoint C-struct to decode the message contents into
*/
static inline void mavlink_msg_waypoint_decode(const mavlink_message_t* msg, mavlink_waypoint_t* waypoint)
{
waypoint->target_system = mavlink_msg_waypoint_get_target_system(msg);
waypoint->target_component = mavlink_msg_waypoint_get_target_component(msg);
waypoint->seq = mavlink_msg_waypoint_get_seq(msg);
waypoint->frame = mavlink_msg_waypoint_get_frame(msg);
waypoint->command = mavlink_msg_waypoint_get_command(msg);
waypoint->current = mavlink_msg_waypoint_get_current(msg);
waypoint->autocontinue = mavlink_msg_waypoint_get_autocontinue(msg);
waypoint->param1 = mavlink_msg_waypoint_get_param1(msg);
waypoint->param2 = mavlink_msg_waypoint_get_param2(msg);
waypoint->param3 = mavlink_msg_waypoint_get_param3(msg);
waypoint->param4 = mavlink_msg_waypoint_get_param4(msg);
waypoint->x = mavlink_msg_waypoint_get_x(msg);
waypoint->y = mavlink_msg_waypoint_get_y(msg);
waypoint->z = mavlink_msg_waypoint_get_z(msg);
}