323 lines
15 KiB
C
323 lines
15 KiB
C
// MESSAGE OMNIDIRECTIONAL_FLOW PACKING
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#define MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW 106
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typedef struct __mavlink_omnidirectional_flow_t
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{
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uint64_t time_usec; ///< Timestamp (microseconds, synced to UNIX time or since system boot)
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float front_distance_m; ///< Front distance in meters. Positive value (including zero): distance known. Negative value: Unknown distance
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int16_t left[10]; ///< Flow in deci pixels (1 = 0.1 pixel) on left hemisphere
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int16_t right[10]; ///< Flow in deci pixels (1 = 0.1 pixel) on right hemisphere
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uint8_t sensor_id; ///< Sensor ID
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uint8_t quality; ///< Optical flow quality / confidence. 0: bad, 255: maximum quality
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} mavlink_omnidirectional_flow_t;
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#define MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN 54
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#define MAVLINK_MSG_ID_106_LEN 54
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#define MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC 211
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#define MAVLINK_MSG_ID_106_CRC 211
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#define MAVLINK_MSG_OMNIDIRECTIONAL_FLOW_FIELD_LEFT_LEN 10
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#define MAVLINK_MSG_OMNIDIRECTIONAL_FLOW_FIELD_RIGHT_LEN 10
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#define MAVLINK_MESSAGE_INFO_OMNIDIRECTIONAL_FLOW { \
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"OMNIDIRECTIONAL_FLOW", \
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6, \
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{ { "time_usec", NULL, MAVLINK_TYPE_UINT64_T, 0, 0, offsetof(mavlink_omnidirectional_flow_t, time_usec) }, \
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{ "front_distance_m", NULL, MAVLINK_TYPE_FLOAT, 0, 8, offsetof(mavlink_omnidirectional_flow_t, front_distance_m) }, \
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{ "left", NULL, MAVLINK_TYPE_INT16_T, 10, 12, offsetof(mavlink_omnidirectional_flow_t, left) }, \
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{ "right", NULL, MAVLINK_TYPE_INT16_T, 10, 32, offsetof(mavlink_omnidirectional_flow_t, right) }, \
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{ "sensor_id", NULL, MAVLINK_TYPE_UINT8_T, 0, 52, offsetof(mavlink_omnidirectional_flow_t, sensor_id) }, \
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{ "quality", NULL, MAVLINK_TYPE_UINT8_T, 0, 53, offsetof(mavlink_omnidirectional_flow_t, quality) }, \
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} \
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}
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/**
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* @brief Pack a omnidirectional_flow message
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* @param system_id ID of this system
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* @param component_id ID of this component (e.g. 200 for IMU)
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* @param msg The MAVLink message to compress the data into
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*
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* @param time_usec Timestamp (microseconds, synced to UNIX time or since system boot)
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* @param sensor_id Sensor ID
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* @param left Flow in deci pixels (1 = 0.1 pixel) on left hemisphere
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* @param right Flow in deci pixels (1 = 0.1 pixel) on right hemisphere
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* @param quality Optical flow quality / confidence. 0: bad, 255: maximum quality
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* @param front_distance_m Front distance in meters. Positive value (including zero): distance known. Negative value: Unknown distance
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* @return length of the message in bytes (excluding serial stream start sign)
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_pack(uint8_t system_id, uint8_t component_id, mavlink_message_t* msg,
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uint64_t time_usec, uint8_t sensor_id, const int16_t *left, const int16_t *right, uint8_t quality, float front_distance_m)
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{
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#if MAVLINK_NEED_BYTE_SWAP || !MAVLINK_ALIGNED_FIELDS
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char buf[MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN];
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_mav_put_uint64_t(buf, 0, time_usec);
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_mav_put_float(buf, 8, front_distance_m);
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_mav_put_uint8_t(buf, 52, sensor_id);
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_mav_put_uint8_t(buf, 53, quality);
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_mav_put_int16_t_array(buf, 12, left, 10);
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_mav_put_int16_t_array(buf, 32, right, 10);
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memcpy(_MAV_PAYLOAD_NON_CONST(msg), buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#else
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mavlink_omnidirectional_flow_t packet;
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packet.time_usec = time_usec;
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packet.front_distance_m = front_distance_m;
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packet.sensor_id = sensor_id;
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packet.quality = quality;
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mav_array_memcpy(packet.left, left, sizeof(int16_t)*10);
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mav_array_memcpy(packet.right, right, sizeof(int16_t)*10);
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memcpy(_MAV_PAYLOAD_NON_CONST(msg), &packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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msg->msgid = MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW;
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#if MAVLINK_CRC_EXTRA
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return mavlink_finalize_message(msg, system_id, component_id, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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return mavlink_finalize_message(msg, system_id, component_id, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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}
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/**
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* @brief Pack a omnidirectional_flow message on a channel
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* @param system_id ID of this system
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* @param component_id ID of this component (e.g. 200 for IMU)
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* @param chan The MAVLink channel this message will be sent over
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* @param msg The MAVLink message to compress the data into
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* @param time_usec Timestamp (microseconds, synced to UNIX time or since system boot)
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* @param sensor_id Sensor ID
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* @param left Flow in deci pixels (1 = 0.1 pixel) on left hemisphere
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* @param right Flow in deci pixels (1 = 0.1 pixel) on right hemisphere
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* @param quality Optical flow quality / confidence. 0: bad, 255: maximum quality
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* @param front_distance_m Front distance in meters. Positive value (including zero): distance known. Negative value: Unknown distance
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* @return length of the message in bytes (excluding serial stream start sign)
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_pack_chan(uint8_t system_id, uint8_t component_id, uint8_t chan,
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mavlink_message_t* msg,
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uint64_t time_usec,uint8_t sensor_id,const int16_t *left,const int16_t *right,uint8_t quality,float front_distance_m)
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{
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#if MAVLINK_NEED_BYTE_SWAP || !MAVLINK_ALIGNED_FIELDS
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char buf[MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN];
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_mav_put_uint64_t(buf, 0, time_usec);
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_mav_put_float(buf, 8, front_distance_m);
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_mav_put_uint8_t(buf, 52, sensor_id);
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_mav_put_uint8_t(buf, 53, quality);
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_mav_put_int16_t_array(buf, 12, left, 10);
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_mav_put_int16_t_array(buf, 32, right, 10);
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memcpy(_MAV_PAYLOAD_NON_CONST(msg), buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#else
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mavlink_omnidirectional_flow_t packet;
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packet.time_usec = time_usec;
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packet.front_distance_m = front_distance_m;
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packet.sensor_id = sensor_id;
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packet.quality = quality;
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mav_array_memcpy(packet.left, left, sizeof(int16_t)*10);
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mav_array_memcpy(packet.right, right, sizeof(int16_t)*10);
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memcpy(_MAV_PAYLOAD_NON_CONST(msg), &packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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msg->msgid = MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW;
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#if MAVLINK_CRC_EXTRA
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return mavlink_finalize_message_chan(msg, system_id, component_id, chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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return mavlink_finalize_message_chan(msg, system_id, component_id, chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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}
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/**
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* @brief Encode a omnidirectional_flow struct
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*
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* @param system_id ID of this system
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* @param component_id ID of this component (e.g. 200 for IMU)
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* @param msg The MAVLink message to compress the data into
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* @param omnidirectional_flow C-struct to read the message contents from
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_encode(uint8_t system_id, uint8_t component_id, mavlink_message_t* msg, const mavlink_omnidirectional_flow_t* omnidirectional_flow)
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{
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return mavlink_msg_omnidirectional_flow_pack(system_id, component_id, msg, omnidirectional_flow->time_usec, omnidirectional_flow->sensor_id, omnidirectional_flow->left, omnidirectional_flow->right, omnidirectional_flow->quality, omnidirectional_flow->front_distance_m);
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}
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/**
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* @brief Encode a omnidirectional_flow struct on a channel
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*
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* @param system_id ID of this system
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* @param component_id ID of this component (e.g. 200 for IMU)
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* @param chan The MAVLink channel this message will be sent over
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* @param msg The MAVLink message to compress the data into
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* @param omnidirectional_flow C-struct to read the message contents from
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_encode_chan(uint8_t system_id, uint8_t component_id, uint8_t chan, mavlink_message_t* msg, const mavlink_omnidirectional_flow_t* omnidirectional_flow)
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{
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return mavlink_msg_omnidirectional_flow_pack_chan(system_id, component_id, chan, msg, omnidirectional_flow->time_usec, omnidirectional_flow->sensor_id, omnidirectional_flow->left, omnidirectional_flow->right, omnidirectional_flow->quality, omnidirectional_flow->front_distance_m);
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}
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/**
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* @brief Send a omnidirectional_flow message
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* @param chan MAVLink channel to send the message
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*
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* @param time_usec Timestamp (microseconds, synced to UNIX time or since system boot)
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* @param sensor_id Sensor ID
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* @param left Flow in deci pixels (1 = 0.1 pixel) on left hemisphere
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* @param right Flow in deci pixels (1 = 0.1 pixel) on right hemisphere
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* @param quality Optical flow quality / confidence. 0: bad, 255: maximum quality
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* @param front_distance_m Front distance in meters. Positive value (including zero): distance known. Negative value: Unknown distance
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*/
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#ifdef MAVLINK_USE_CONVENIENCE_FUNCTIONS
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static inline void mavlink_msg_omnidirectional_flow_send(mavlink_channel_t chan, uint64_t time_usec, uint8_t sensor_id, const int16_t *left, const int16_t *right, uint8_t quality, float front_distance_m)
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{
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#if MAVLINK_NEED_BYTE_SWAP || !MAVLINK_ALIGNED_FIELDS
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char buf[MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN];
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_mav_put_uint64_t(buf, 0, time_usec);
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_mav_put_float(buf, 8, front_distance_m);
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_mav_put_uint8_t(buf, 52, sensor_id);
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_mav_put_uint8_t(buf, 53, quality);
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_mav_put_int16_t_array(buf, 12, left, 10);
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_mav_put_int16_t_array(buf, 32, right, 10);
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#if MAVLINK_CRC_EXTRA
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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#else
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mavlink_omnidirectional_flow_t packet;
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packet.time_usec = time_usec;
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packet.front_distance_m = front_distance_m;
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packet.sensor_id = sensor_id;
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packet.quality = quality;
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mav_array_memcpy(packet.left, left, sizeof(int16_t)*10);
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mav_array_memcpy(packet.right, right, sizeof(int16_t)*10);
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#if MAVLINK_CRC_EXTRA
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, (const char *)&packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, (const char *)&packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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#endif
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}
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#if MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN <= MAVLINK_MAX_PAYLOAD_LEN
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/*
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This varient of _send() can be used to save stack space by re-using
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memory from the receive buffer. The caller provides a
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mavlink_message_t which is the size of a full mavlink message. This
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is usually the receive buffer for the channel, and allows a reply to an
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incoming message with minimum stack space usage.
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*/
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static inline void mavlink_msg_omnidirectional_flow_send_buf(mavlink_message_t *msgbuf, mavlink_channel_t chan, uint64_t time_usec, uint8_t sensor_id, const int16_t *left, const int16_t *right, uint8_t quality, float front_distance_m)
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{
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#if MAVLINK_NEED_BYTE_SWAP || !MAVLINK_ALIGNED_FIELDS
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char *buf = (char *)msgbuf;
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_mav_put_uint64_t(buf, 0, time_usec);
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_mav_put_float(buf, 8, front_distance_m);
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_mav_put_uint8_t(buf, 52, sensor_id);
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_mav_put_uint8_t(buf, 53, quality);
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_mav_put_int16_t_array(buf, 12, left, 10);
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_mav_put_int16_t_array(buf, 32, right, 10);
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#if MAVLINK_CRC_EXTRA
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, buf, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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#else
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mavlink_omnidirectional_flow_t *packet = (mavlink_omnidirectional_flow_t *)msgbuf;
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packet->time_usec = time_usec;
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packet->front_distance_m = front_distance_m;
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packet->sensor_id = sensor_id;
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packet->quality = quality;
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mav_array_memcpy(packet->left, left, sizeof(int16_t)*10);
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mav_array_memcpy(packet->right, right, sizeof(int16_t)*10);
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#if MAVLINK_CRC_EXTRA
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, (const char *)packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_CRC);
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#else
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_mav_finalize_message_chan_send(chan, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW, (const char *)packet, MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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#endif
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}
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#endif
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#endif
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// MESSAGE OMNIDIRECTIONAL_FLOW UNPACKING
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/**
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* @brief Get field time_usec from omnidirectional_flow message
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*
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* @return Timestamp (microseconds, synced to UNIX time or since system boot)
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*/
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static inline uint64_t mavlink_msg_omnidirectional_flow_get_time_usec(const mavlink_message_t* msg)
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{
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return _MAV_RETURN_uint64_t(msg, 0);
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}
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/**
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* @brief Get field sensor_id from omnidirectional_flow message
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*
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* @return Sensor ID
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*/
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static inline uint8_t mavlink_msg_omnidirectional_flow_get_sensor_id(const mavlink_message_t* msg)
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{
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return _MAV_RETURN_uint8_t(msg, 52);
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}
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/**
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* @brief Get field left from omnidirectional_flow message
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*
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* @return Flow in deci pixels (1 = 0.1 pixel) on left hemisphere
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_get_left(const mavlink_message_t* msg, int16_t *left)
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{
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return _MAV_RETURN_int16_t_array(msg, left, 10, 12);
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}
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/**
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* @brief Get field right from omnidirectional_flow message
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*
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* @return Flow in deci pixels (1 = 0.1 pixel) on right hemisphere
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*/
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static inline uint16_t mavlink_msg_omnidirectional_flow_get_right(const mavlink_message_t* msg, int16_t *right)
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{
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return _MAV_RETURN_int16_t_array(msg, right, 10, 32);
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}
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/**
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* @brief Get field quality from omnidirectional_flow message
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*
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* @return Optical flow quality / confidence. 0: bad, 255: maximum quality
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*/
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static inline uint8_t mavlink_msg_omnidirectional_flow_get_quality(const mavlink_message_t* msg)
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{
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return _MAV_RETURN_uint8_t(msg, 53);
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}
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/**
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* @brief Get field front_distance_m from omnidirectional_flow message
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*
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* @return Front distance in meters. Positive value (including zero): distance known. Negative value: Unknown distance
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*/
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static inline float mavlink_msg_omnidirectional_flow_get_front_distance_m(const mavlink_message_t* msg)
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{
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return _MAV_RETURN_float(msg, 8);
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}
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/**
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* @brief Decode a omnidirectional_flow message into a struct
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*
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* @param msg The message to decode
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* @param omnidirectional_flow C-struct to decode the message contents into
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*/
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static inline void mavlink_msg_omnidirectional_flow_decode(const mavlink_message_t* msg, mavlink_omnidirectional_flow_t* omnidirectional_flow)
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{
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#if MAVLINK_NEED_BYTE_SWAP
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omnidirectional_flow->time_usec = mavlink_msg_omnidirectional_flow_get_time_usec(msg);
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omnidirectional_flow->front_distance_m = mavlink_msg_omnidirectional_flow_get_front_distance_m(msg);
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mavlink_msg_omnidirectional_flow_get_left(msg, omnidirectional_flow->left);
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mavlink_msg_omnidirectional_flow_get_right(msg, omnidirectional_flow->right);
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omnidirectional_flow->sensor_id = mavlink_msg_omnidirectional_flow_get_sensor_id(msg);
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omnidirectional_flow->quality = mavlink_msg_omnidirectional_flow_get_quality(msg);
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#else
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memcpy(omnidirectional_flow, _MAV_PAYLOAD(msg), MAVLINK_MSG_ID_OMNIDIRECTIONAL_FLOW_LEN);
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#endif
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}
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