ardupilot/ArduPlane/mode_qloiter.cpp

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#include "mode.h"
#include "Plane.h"
#if HAL_QUADPLANE_ENABLED
bool ModeQLoiter::_enter()
{
// initialise loiter
loiter_nav->clear_pilot_desired_acceleration();
loiter_nav->init_target();
// set vertical speed and acceleration limits
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pos_control->set_max_speed_accel_z(-quadplane.get_pilot_velocity_z_max_dn(), quadplane.pilot_speed_z_max_up*100, quadplane.pilot_accel_z*100);
pos_control->set_correction_speed_accel_z(-quadplane.get_pilot_velocity_z_max_dn(), quadplane.pilot_speed_z_max_up*100, quadplane.pilot_accel_z*100);
quadplane.init_throttle_wait();
// prevent re-init of target position
quadplane.last_loiter_ms = AP_HAL::millis();
// clear precland timestamp
last_target_loc_set_ms = 0;
return true;
}
void ModeQLoiter::update()
{
plane.mode_qstabilize.update();
}
// run quadplane loiter controller
void ModeQLoiter::run()
{
const uint32_t now = AP_HAL::millis();
#if AC_PRECLAND_ENABLED
const uint32_t precland_timeout_ms = 250;
/*
see if precision landing or precision loiter is active with
an override of the target location.
*/
const uint32_t last_pos_set_ms = last_target_loc_set_ms;
const uint32_t last_vel_set_ms = quadplane.poscontrol.last_velocity_match_ms;
if (last_pos_set_ms != 0 && now - last_pos_set_ms < precland_timeout_ms) {
// we have an active landing target override
Vector2f rel_origin;
if (plane.next_WP_loc.get_vector_xy_from_origin_NE(rel_origin)) {
quadplane.pos_control->set_pos_target_xy_cm(rel_origin.x, rel_origin.y);
last_target_loc_set_ms = 0;
}
}
// allow for velocity override as well
if (last_vel_set_ms != 0 && now - last_vel_set_ms < precland_timeout_ms) {
// we have an active landing velocity override
Vector2f target_accel;
Vector2f target_speed_xy_cms{quadplane.poscontrol.velocity_match.x*100, quadplane.poscontrol.velocity_match.y*100};
quadplane.pos_control->input_vel_accel_xy(target_speed_xy_cms, target_accel);
quadplane.poscontrol.last_velocity_match_ms = 0;
}
#endif // AC_PRECLAND_ENABLED
if (quadplane.tailsitter.in_vtol_transition(now)) {
// Tailsitters in FW pull up phase of VTOL transition run FW controllers
Mode::run();
return;
}
if (quadplane.throttle_wait) {
quadplane.set_desired_spool_state(AP_Motors::DesiredSpoolState::GROUND_IDLE);
attitude_control->set_throttle_out(0, true, 0);
quadplane.relax_attitude_control();
pos_control->relax_z_controller(0);
loiter_nav->clear_pilot_desired_acceleration();
loiter_nav->init_target();
// Stabilize with fixed wing surfaces
plane.stabilize_roll();
plane.stabilize_pitch();
return;
}
if (!quadplane.motors->armed()) {
plane.mode_qloiter._enter();
}
if (quadplane.should_relax()) {
loiter_nav->soften_for_landing();
}
if (now - quadplane.last_loiter_ms > 500) {
loiter_nav->clear_pilot_desired_acceleration();
loiter_nav->init_target();
}
quadplane.last_loiter_ms = now;
// motors use full range
quadplane.set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED);
// set vertical speed and acceleration limits
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pos_control->set_max_speed_accel_z(-quadplane.get_pilot_velocity_z_max_dn(), quadplane.pilot_speed_z_max_up*100, quadplane.pilot_accel_z*100);
// process pilot's roll and pitch input
float target_roll_cd, target_pitch_cd;
quadplane.get_pilot_desired_lean_angles(target_roll_cd, target_pitch_cd, loiter_nav->get_angle_max_cd(), attitude_control->get_althold_lean_angle_max_cd());
loiter_nav->set_pilot_desired_acceleration(target_roll_cd, target_pitch_cd);
// run loiter controller
if (!pos_control->is_active_xy()) {
pos_control->init_xy_controller();
}
loiter_nav->update();
// nav roll and pitch are controller by loiter controller
plane.nav_roll_cd = loiter_nav->get_roll();
plane.nav_pitch_cd = loiter_nav->get_pitch();
plane.quadplane.assign_tilt_to_fwd_thr();
if (quadplane.transition->set_VTOL_roll_pitch_limit(plane.nav_roll_cd, plane.nav_pitch_cd)) {
pos_control->set_externally_limited_xy();
}
// Pilot input, use yaw rate time constant
quadplane.set_pilot_yaw_rate_time_constant();
// call attitude controller with conservative smoothing gain of 4.0f
attitude_control->input_euler_angle_roll_pitch_euler_rate_yaw(plane.nav_roll_cd,
plane.nav_pitch_cd,
quadplane.get_desired_yaw_rate_cds());
if (plane.control_mode == &plane.mode_qland) {
if (poscontrol.get_state() < QuadPlane::QPOS_LAND_FINAL && quadplane.check_land_final()) {
poscontrol.set_state(QuadPlane::QPOS_LAND_FINAL);
quadplane.setup_target_position();
#if AP_ICENGINE_ENABLED
// cut IC engine if enabled
if (quadplane.land_icengine_cut != 0) {
plane.g2.ice_control.engine_control(0, 0, 0, false);
}
#endif // AP_ICENGINE_ENABLED
}
float height_above_ground = plane.relative_ground_altitude(plane.g.rangefinder_landing);
float descent_rate_cms = quadplane.landing_descent_rate_cms(height_above_ground);
if (poscontrol.get_state() == QuadPlane::QPOS_LAND_FINAL && !quadplane.option_is_set(QuadPlane::OPTION::DISABLE_GROUND_EFFECT_COMP)) {
ahrs.set_touchdown_expected(true);
}
pos_control->land_at_climb_rate_cm(-descent_rate_cms, descent_rate_cms>0);
quadplane.check_land_complete();
} else if (plane.control_mode == &plane.mode_guided && quadplane.guided_takeoff) {
quadplane.set_climb_rate_cms(0);
} else {
// update altitude target and call position controller
quadplane.set_climb_rate_cms(quadplane.get_pilot_desired_climb_rate_cms());
}
quadplane.run_z_controller();
// Stabilize with fixed wing surfaces
plane.stabilize_roll();
plane.stabilize_pitch();
}
#endif