#include "AC_PrecLand_config.h" #if AC_PRECLAND_COMPANION_ENABLED #include "AC_PrecLand_Companion.h" #include #include // 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; } void AC_PrecLand_Companion::handle_msg(const mavlink_landing_target_t &packet, uint32_t timestamp_ms) { _distance_to_target = packet.distance; if (packet.position_valid == 1) { if (packet.frame == MAV_FRAME_BODY_FRD) { if (_distance_to_target > 0) { _los_meas_body = Vector3f(packet.x, packet.y, packet.z); _los_meas_body /= _distance_to_target; } else { // distance to target must be positive return; } } else { //we do not support this frame if (!_wrong_frame_msg_sent) { _wrong_frame_msg_sent = true; gcs().send_text(MAV_SEVERITY_INFO,"Plnd: Frame not supported "); } return; } } else { // 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; } #endif // AC_PRECLAND_COMPANION_ENABLED