mirror of https://github.com/ArduPilot/ardupilot
324 lines
11 KiB
C++
324 lines
11 KiB
C++
#include "AP_Mount_config.h"
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#if HAL_MOUNT_GREMSY_ENABLED
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#include "AP_Mount_Gremsy.h"
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#include <AP_HAL/AP_HAL.h>
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#include <GCS_MAVLink/GCS.h>
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extern const AP_HAL::HAL& hal;
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#define AP_MOUNT_GREMSY_RESEND_MS 1000 // resend angle targets to gimbal at least once per second
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#define AP_MOUNT_GREMSY_SEARCH_MS 60000 // search for gimbal for 1 minute after startup
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#define AP_MOUNT_GREMSY_ATTITUDE_INTERVAL_US 20000 // send ATTITUDE and AUTOPILOT_STATE_FOR_GIMBAL_DEVICE at 50hz
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// update mount position
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void AP_Mount_Gremsy::update()
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{
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// exit immediately if not initialised
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if (!_initialised) {
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find_gimbal();
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return;
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}
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// change to RC_TARGETING mode if RC input has changed
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set_rctargeting_on_rcinput_change();
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// update based on mount mode
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switch (get_mode()) {
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// move mount to a "retracted" position. We disable motors
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case MAV_MOUNT_MODE_RETRACT:
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// handled below
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mnt_target.target_type = MountTargetType::ANGLE;
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mnt_target.angle_rad.set(Vector3f{0,0,0}, false);
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send_gimbal_device_retract();
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break;
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// move mount to a neutral position, typically pointing forward
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case MAV_MOUNT_MODE_NEUTRAL: {
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const Vector3f &angle_bf_target = _params.neutral_angles.get();
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mnt_target.target_type = MountTargetType::ANGLE;
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mnt_target.angle_rad.set(angle_bf_target*DEG_TO_RAD, false);
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break;
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}
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case MAV_MOUNT_MODE_MAVLINK_TARGETING: {
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// mavlink targets are stored while handling the incoming message set_angle_target() or set_rate_target()
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break;
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}
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// RC radio manual angle control, but with stabilization from the AHRS
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case MAV_MOUNT_MODE_RC_TARGETING:
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update_mnt_target_from_rc_target();
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break;
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// point mount to a GPS point given by the mission planner
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case MAV_MOUNT_MODE_GPS_POINT:
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if (get_angle_target_to_roi(mnt_target.angle_rad)) {
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mnt_target.target_type = MountTargetType::ANGLE;
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}
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break;
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// point mount to Home location
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case MAV_MOUNT_MODE_HOME_LOCATION:
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if (get_angle_target_to_home(mnt_target.angle_rad)) {
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mnt_target.target_type = MountTargetType::ANGLE;
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}
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break;
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// point mount to another vehicle
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case MAV_MOUNT_MODE_SYSID_TARGET:
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if (get_angle_target_to_sysid(mnt_target.angle_rad)) {
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mnt_target.target_type = MountTargetType::ANGLE;
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}
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break;
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default:
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// unknown mode so do nothing
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break;
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}
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// send target angles or rates depending on the target type
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switch (mnt_target.target_type) {
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case MountTargetType::ANGLE:
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send_gimbal_device_set_attitude(mnt_target.angle_rad.roll, mnt_target.angle_rad.pitch, mnt_target.angle_rad.yaw, mnt_target.angle_rad.yaw_is_ef);
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break;
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case MountTargetType::RATE:
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send_gimbal_device_set_rate(mnt_target.rate_rads.roll, mnt_target.rate_rads.pitch, mnt_target.rate_rads.yaw, mnt_target.rate_rads.yaw_is_ef);
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break;
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}
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}
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// return true if healthy
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bool AP_Mount_Gremsy::healthy() const
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{
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// unhealthy until gimbal has been found and replied with device info
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if (_link == nullptr || !_got_device_info) {
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return false;
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}
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// unhealthy if attitude information NOT received within the last second
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if (AP_HAL::millis() - _last_attitude_status_ms > 1000) {
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return false;
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}
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// check failure flags
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uint32_t critical_failure_flags = GIMBAL_DEVICE_ERROR_FLAGS_ENCODER_ERROR |
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GIMBAL_DEVICE_ERROR_FLAGS_POWER_ERROR |
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GIMBAL_DEVICE_ERROR_FLAGS_MOTOR_ERROR |
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GIMBAL_DEVICE_ERROR_FLAGS_SOFTWARE_ERROR |
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GIMBAL_DEVICE_ERROR_FLAGS_COMMS_ERROR;
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if ((_gimbal_device_attitude_status.failure_flags & critical_failure_flags) > 0) {
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return false;
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}
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// if we get this far return mount is healthy
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return true;
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}
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// get attitude as a quaternion. returns true on success
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bool AP_Mount_Gremsy::get_attitude_quaternion(Quaternion& att_quat)
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{
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att_quat = _gimbal_device_attitude_status.q;
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return true;
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}
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// search for gimbal in GCS_MAVLink routing table
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void AP_Mount_Gremsy::find_gimbal()
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{
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// do not look for gimbal for first 10 seconds so user may see banner
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uint32_t now_ms = AP_HAL::millis();
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if (now_ms < 10000) {
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return;
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}
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// search for gimbal for 60 seconds or until armed
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if ((now_ms > AP_MOUNT_GREMSY_SEARCH_MS) && hal.util->get_soft_armed()) {
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return;
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}
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// search for a mavlink enabled gimbal
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if (_link == nullptr) {
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// we expect that instance 0 has compid = MAV_COMP_ID_GIMBAL, instance 1 has compid = MAV_COMP_ID_GIMBAL2, etc
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uint8_t compid = (_instance == 0) ? MAV_COMP_ID_GIMBAL : MAV_COMP_ID_GIMBAL2 + (_instance - 1);
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_link = GCS_MAVLINK::find_by_mavtype_and_compid(MAV_TYPE_GIMBAL, compid, _sysid);
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if (_link == nullptr) {
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// have not yet found a gimbal so return
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return;
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}
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_compid = compid;
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}
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// request GIMBAL_DEVICE_INFORMATION
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if (!_got_device_info) {
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if (now_ms - _last_devinfo_req_ms > 1000) {
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_last_devinfo_req_ms = now_ms;
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request_gimbal_device_information();
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}
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return;
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}
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// start sending autopilot attitude to gimbal
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if (start_sending_attitude_to_gimbal()) {
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_initialised = true;
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}
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}
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// handle GIMBAL_DEVICE_INFORMATION message
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void AP_Mount_Gremsy::handle_gimbal_device_information(const mavlink_message_t &msg)
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{
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// exit immediately if this is not our message
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if (msg.sysid != _sysid || msg.compid != _compid) {
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return;
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}
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mavlink_gimbal_device_information_t info;
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mavlink_msg_gimbal_device_information_decode(&msg, &info);
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// set parameter defaults from gimbal information
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_params.roll_angle_min.set_default(degrees(info.roll_min));
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_params.roll_angle_max.set_default(degrees(info.roll_max));
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_params.pitch_angle_min.set_default(degrees(info.pitch_min));
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_params.pitch_angle_max.set_default(degrees(info.pitch_max));
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_params.yaw_angle_min.set_default(degrees(info.yaw_min));
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_params.yaw_angle_max.set_default(degrees(info.yaw_max));
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const uint8_t fw_ver_major = info.firmware_version & 0x000000FF;
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const uint8_t fw_ver_minor = (info.firmware_version & 0x0000FF00) >> 8;
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const uint8_t fw_ver_revision = (info.firmware_version & 0x00FF0000) >> 16;
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const uint8_t fw_ver_build = (info.firmware_version & 0xFF000000) >> 24;
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// display gimbal info to user
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GCS_SEND_TEXT(MAV_SEVERITY_INFO, "Mount: %s %s fw:%u.%u.%u.%u",
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info.vendor_name,
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info.model_name,
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(unsigned)fw_ver_major,
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(unsigned)fw_ver_minor,
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(unsigned)fw_ver_revision,
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(unsigned)fw_ver_build);
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_got_device_info = true;
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}
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// handle GIMBAL_DEVICE_ATTITUDE_STATUS message
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void AP_Mount_Gremsy::handle_gimbal_device_attitude_status(const mavlink_message_t &msg)
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{
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// exit immediately if this is not our message
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if (msg.sysid != _sysid || msg.compid != _compid) {
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return;
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}
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// take copy of message so it can be forwarded onto GCS later
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mavlink_msg_gimbal_device_attitude_status_decode(&msg, &_gimbal_device_attitude_status);
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_last_attitude_status_ms = AP_HAL::millis();
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}
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// request GIMBAL_DEVICE_INFORMATION message
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void AP_Mount_Gremsy::request_gimbal_device_information() const
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{
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if (_link == nullptr) {
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return;
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}
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const mavlink_command_long_t pkt {
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MAVLINK_MSG_ID_GIMBAL_DEVICE_INFORMATION, // param1
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0, // param2
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0, // param3
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0, // param4
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0, // param5
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0, // param6
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0, // param7
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MAV_CMD_REQUEST_MESSAGE,
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_sysid,
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_compid,
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0 // confirmation
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};
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_link->send_message(MAVLINK_MSG_ID_COMMAND_LONG, (const char*)&pkt);
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}
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// start sending ATTITUDE and AUTOPILOT_STATE_FOR_GIMBAL_DEVICE to gimbal
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bool AP_Mount_Gremsy::start_sending_attitude_to_gimbal()
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{
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// better safe than sorry:
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if (_link == nullptr) {
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return false;
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}
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// send AUTOPILOT_STATE_FOR_GIMBAL_DEVICE
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const MAV_RESULT res = _link->set_message_interval(MAVLINK_MSG_ID_AUTOPILOT_STATE_FOR_GIMBAL_DEVICE, AP_MOUNT_GREMSY_ATTITUDE_INTERVAL_US);
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// return true on success
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return (res == MAV_RESULT_ACCEPTED);
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}
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// send GIMBAL_DEVICE_SET_ATTITUDE to gimbal to command gimbal to retract (aka relax)
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void AP_Mount_Gremsy::send_gimbal_device_retract() const
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{
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const mavlink_gimbal_device_set_attitude_t pkt {
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{NAN, NAN, NAN, NAN}, // attitude
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0, // angular velocity x
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0, // angular velocity y
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0, // angular velocity z
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GIMBAL_DEVICE_FLAGS_RETRACT, // flags
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_sysid,
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_compid
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};
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_link->send_message(MAVLINK_MSG_ID_GIMBAL_DEVICE_SET_ATTITUDE, (const char*)&pkt);
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}
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// send GIMBAL_DEVICE_SET_ATTITUDE to gimbal to control rate
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// earth_frame should be true if yaw_rads target is an earth frame rate, false if body_frame
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void AP_Mount_Gremsy::send_gimbal_device_set_rate(float roll_rads, float pitch_rads, float yaw_rads, bool earth_frame) const
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{
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// prepare flags
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const uint16_t flags = earth_frame ? (GIMBAL_DEVICE_FLAGS_ROLL_LOCK | GIMBAL_DEVICE_FLAGS_PITCH_LOCK | GIMBAL_DEVICE_FLAGS_YAW_LOCK) : 0;
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const mavlink_gimbal_device_set_attitude_t pkt {
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{NAN, NAN, NAN, NAN}, // attitude
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roll_rads, // angular velocity x
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pitch_rads, // angular velocity y
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yaw_rads, // angular velocity z
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flags,
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_sysid,
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_compid
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};
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_link->send_message(MAVLINK_MSG_ID_GIMBAL_DEVICE_SET_ATTITUDE, (const char*)&pkt);
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}
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// send GIMBAL_DEVICE_SET_ATTITUDE to gimbal to control attitude
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// earth_frame should be true if yaw_rad target is in earth frame angle, false if body_frame
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void AP_Mount_Gremsy::send_gimbal_device_set_attitude(float roll_rad, float pitch_rad, float yaw_rad, bool earth_frame) const
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{
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// exit immediately if not initialised
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if (!_initialised) {
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return;
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}
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// prepare flags
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const uint16_t flags = earth_frame ? (GIMBAL_DEVICE_FLAGS_ROLL_LOCK | GIMBAL_DEVICE_FLAGS_PITCH_LOCK | GIMBAL_DEVICE_FLAGS_YAW_LOCK) : 0;
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// convert euler angles to quaternion
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Quaternion q;
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q.from_euler(roll_rad, pitch_rad, yaw_rad);
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const mavlink_gimbal_device_set_attitude_t pkt {
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{q.q1, q.q2, q.q3, q.q4},
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NAN, // angular velocity x
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NAN, // angular velocity y
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NAN, // angular velocity z
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flags,
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_sysid,
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_compid
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};
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_link->send_message(MAVLINK_MSG_ID_GIMBAL_DEVICE_SET_ATTITUDE, (const char*)&pkt);
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}
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#endif // HAL_MOUNT_GREMSY_ENABLED
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