ardupilot/libraries/AC_PrecLand/AC_PrecLand_SITL.cpp

58 lines
2.0 KiB
C++

#include <AP_HAL/AP_HAL.h>
#include "AC_PrecLand_SITL.h"
#if AC_PRECLAND_SITL_ENABLED
#include "AP_AHRS/AP_AHRS.h"
// init - perform initialisation of this backend
void AC_PrecLand_SITL::init()
{
_sitl = AP::sitl();
}
// update - give chance to driver to get updates from sensor
void AC_PrecLand_SITL::update()
{
_state.healthy = _sitl->precland_sim.healthy();
if (_state.healthy && _sitl->precland_sim.last_update_ms() != _los_meas_time_ms) {
const Vector3d position = _sitl->precland_sim.get_target_position();
const Matrix3d body_to_ned = AP::ahrs().get_rotation_body_to_ned().todouble();
_los_meas_body = body_to_ned.mul_transpose(-position).tofloat();
_distance_to_target = _sitl->precland_sim.option_enabled(SITL::SIM_Precland::Option::ENABLE_TARGET_DISTANCE) ? _los_meas_body.length() : 0.0f;
_los_meas_body /= _los_meas_body.length();
if (_frontend._orient != Rotation::ROTATION_PITCH_270) {
// rotate body frame vector based on orientation
// this is done to have homogeneity among backends
// frontend rotates it back to get correct body frame vector
_los_meas_body.rotate_inverse(_frontend._orient);
_los_meas_body.rotate_inverse(ROTATION_PITCH_90);
}
_have_los_meas = true;
_los_meas_time_ms = _sitl->precland_sim.last_update_ms();
} else {
_have_los_meas = false;
}
_have_los_meas = _have_los_meas && AP_HAL::millis() - _los_meas_time_ms <= 1000;
}
bool AC_PrecLand_SITL::have_los_meas() {
return AP_HAL::millis() - _los_meas_time_ms < 1000;
}
// provides a unit vector towards the target in body frame
// returns same as have_los_meas()
bool AC_PrecLand_SITL::get_los_body(Vector3f& ret) {
if (AP_HAL::millis() - _los_meas_time_ms > 1000) {
// no measurement for a full second; no vector available
return false;
}
ret = _los_meas_body;
return true;
}
#endif // AC_PRECLAND_SITL_ENABLED