ardupilot/libraries/AC_PrecLand/AC_PrecLand_Companion.cpp

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2015-08-28 05:11:52 -03:00
#include <AP_HAL/AP_HAL.h>
#include "AC_PrecLand_Companion.h"
// perform any required initialisation of backend
void AC_PrecLand_Companion::init()
{
// set healthy
_state.healthy = true;
_have_los_meas = false;
}
// retrieve updates from sensor
void AC_PrecLand_Companion::update()
{
_have_los_meas = _have_los_meas && 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_Companion::get_los_body(Vector3f& ret) {
if (have_los_meas()) {
ret = _los_meas_body;
return true;
}
return false;
}
// returns system time in milliseconds of last los measurement
uint32_t AC_PrecLand_Companion::los_meas_time_ms() {
return _los_meas_time_ms;
}
// return true if there is a valid los measurement available
bool AC_PrecLand_Companion::have_los_meas()
{
return _have_los_meas;
}
// return distance to target
float AC_PrecLand_Companion::distance_to_target()
{
return _distance_to_target;
}
void AC_PrecLand_Companion::handle_msg(const mavlink_landing_target_t &packet, uint32_t timestamp_ms)
{
_distance_to_target = packet.distance;
// compute unit vector towards target
_los_meas_body = Vector3f(-tanf(packet.angle_y), tanf(packet.angle_x), 1.0f);
_los_meas_body /= _los_meas_body.length();
_los_meas_time_ms = timestamp_ms;
_have_los_meas = true;
}