mirror of https://github.com/ArduPilot/ardupilot
168 lines
6.3 KiB
C++
168 lines
6.3 KiB
C++
#include "AP_Mount_Servo.h"
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#if HAL_MOUNT_SERVO_ENABLED
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extern const AP_HAL::HAL& hal;
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// init - performs any required initialisation for this instance
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void AP_Mount_Servo::init()
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{
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if (_instance == 0) {
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_roll_idx = SRV_Channel::k_mount_roll;
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_tilt_idx = SRV_Channel::k_mount_tilt;
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_pan_idx = SRV_Channel::k_mount_pan;
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_open_idx = SRV_Channel::k_mount_open;
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} else {
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// this must be the 2nd mount
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_roll_idx = SRV_Channel::k_mount2_roll;
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_tilt_idx = SRV_Channel::k_mount2_tilt;
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_pan_idx = SRV_Channel::k_mount2_pan;
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_open_idx = SRV_Channel::k_mount2_open;
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}
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}
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// update mount position - should be called periodically
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void AP_Mount_Servo::update()
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{
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switch (get_mode()) {
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// move mount to a "retracted position" or to a position where a fourth servo can retract the entire mount into the fuselage
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case MAV_MOUNT_MODE_RETRACT: {
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_angle_bf_output_deg = _params.retract_angles.get();
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// initialise _angle_rad to smooth transition if user changes to RC_TARGETTING
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_angle_rad.roll = radians(_angle_bf_output_deg.x);
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_angle_rad.pitch = radians(_angle_bf_output_deg.y);
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_angle_rad.yaw = radians(_angle_bf_output_deg.z);
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_angle_rad.yaw_is_ef = false;
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break;
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}
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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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_angle_bf_output_deg = _params.neutral_angles.get();
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// initialise _angle_rad to smooth transition if user changes to RC_TARGETTING
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_angle_rad.roll = radians(_angle_bf_output_deg.x);
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_angle_rad.pitch = radians(_angle_bf_output_deg.y);
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_angle_rad.yaw = radians(_angle_bf_output_deg.z);
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_angle_rad.yaw_is_ef = false;
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break;
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}
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// point to the angles given by a mavlink message
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case MAV_MOUNT_MODE_MAVLINK_TARGETING: {
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switch (mavt_target.target_type) {
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case MountTargetType::ANGLE:
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_angle_rad = mavt_target.angle_rad;
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break;
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case MountTargetType::RATE:
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update_angle_target_from_rate(mavt_target.rate_rads, _angle_rad);
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break;
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}
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// update _angle_bf_output_deg based on angle target
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update_angle_outputs(_angle_rad);
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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 targets using pilot's RC inputs
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MountTarget rc_target {};
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if (get_rc_rate_target(rc_target)) {
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update_angle_target_from_rate(rc_target, _angle_rad);
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} else if (get_rc_angle_target(rc_target)) {
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_angle_rad = rc_target;
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}
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// update _angle_bf_output_deg based on angle target
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update_angle_outputs(_angle_rad);
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break;
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}
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// point mount to a GPS location
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case MAV_MOUNT_MODE_GPS_POINT: {
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if (get_angle_target_to_roi(_angle_rad)) {
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update_angle_outputs(_angle_rad);
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}
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break;
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}
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case MAV_MOUNT_MODE_HOME_LOCATION: {
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if (get_angle_target_to_home(_angle_rad)) {
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update_angle_outputs(_angle_rad);
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}
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break;
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}
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case MAV_MOUNT_MODE_SYSID_TARGET: {
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if (get_angle_target_to_sysid(_angle_rad)) {
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update_angle_outputs(_angle_rad);
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}
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break;
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}
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default:
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//do nothing
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break;
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}
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// move mount to a "retracted position" into the fuselage with a fourth servo
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const bool mount_open = (get_mode() == MAV_MOUNT_MODE_RETRACT) ? 0 : 1;
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move_servo(_open_idx, mount_open, 0, 1);
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// write the results to the servos
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move_servo(_roll_idx, _angle_bf_output_deg.x*10, _params.roll_angle_min*10, _params.roll_angle_max*10);
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move_servo(_tilt_idx, _angle_bf_output_deg.y*10, _params.pitch_angle_min*10, _params.pitch_angle_max*10);
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move_servo(_pan_idx, _angle_bf_output_deg.z*10, _params.yaw_angle_min*10, _params.yaw_angle_max*10);
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}
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// returns true if this mount can control its pan (required for multicopters)
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bool AP_Mount_Servo::has_pan_control() const
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{
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return SRV_Channels::function_assigned(_pan_idx) && yaw_range_valid();
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}
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// get attitude as a quaternion. returns true on success
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bool AP_Mount_Servo::get_attitude_quaternion(Quaternion& att_quat)
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{
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att_quat.from_euler(radians(_angle_bf_output_deg.x), radians(_angle_bf_output_deg.y), radians(_angle_bf_output_deg.z));
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return true;
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}
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// private methods
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// update body-frame angle outputs from earth-frame angle targets
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void AP_Mount_Servo::update_angle_outputs(const MountTarget& angle_rad)
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{
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const AP_AHRS &ahrs = AP::ahrs();
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// roll and pitch are based on the ahrs roll and pitch angle plus any requested angle
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_angle_bf_output_deg.x = degrees(angle_rad.roll);
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_angle_bf_output_deg.y = degrees(angle_rad.pitch);
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_angle_bf_output_deg.z = degrees(get_bf_yaw_angle(angle_rad));
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if (requires_stabilization) {
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_angle_bf_output_deg.x -= degrees(ahrs.roll);
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_angle_bf_output_deg.y -= degrees(ahrs.pitch);
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}
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// lead filter
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const Vector3f &gyro = ahrs.get_gyro();
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if (requires_stabilization && !is_zero(_params.roll_stb_lead) && fabsf(ahrs.pitch) < M_PI/3.0f) {
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// Compute rate of change of euler roll angle
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float roll_rate = gyro.x + (ahrs.sin_pitch() / ahrs.cos_pitch()) * (gyro.y * ahrs.sin_roll() + gyro.z * ahrs.cos_roll());
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_angle_bf_output_deg.x -= degrees(roll_rate) * _params.roll_stb_lead;
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}
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if (requires_stabilization && !is_zero(_params.pitch_stb_lead)) {
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// Compute rate of change of euler pitch angle
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float pitch_rate = ahrs.cos_pitch() * gyro.y - ahrs.sin_roll() * gyro.z;
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_angle_bf_output_deg.y -= degrees(pitch_rate) * _params.pitch_stb_lead;
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}
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}
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// move_servo - moves servo with the given id to the specified angle. all angles are in degrees * 10
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void AP_Mount_Servo::move_servo(uint8_t function_idx, int16_t angle, int16_t angle_min, int16_t angle_max)
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{
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SRV_Channels::move_servo((SRV_Channel::Aux_servo_function_t)function_idx, angle, angle_min, angle_max);
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}
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#endif // HAL_MOUNT_SERVO_ENABLED
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