/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* * ArduPilot device driver for SLAMTEC RPLIDAR A2 (16m range version) * * ALL INFORMATION REGARDING PROTOCOL WAS DERIVED FROM RPLIDAR DATASHEET: * * https://www.slamtec.com/en/Lidar * http://bucket.download.slamtec.com/63ac3f0d8c859d3a10e51c6b3285fcce25a47357/LR001_SLAMTEC_rplidar_protocol_v1.0_en.pdf * * Author: Steven Josefs, IAV GmbH * Based on the LightWare SF40C ArduPilot device driver from Randy Mackay * */ #pragma once #include "AP_Proximity_Backend_Serial.h" #if HAL_PROXIMITY_ENABLED class AP_Proximity_RPLidarA2 : public AP_Proximity_Backend_Serial { public: using AP_Proximity_Backend_Serial::AP_Proximity_Backend_Serial; // update state void update(void) override; // get maximum and minimum distances (in meters) of sensor float distance_max() const override; float distance_min() const override; private: enum rp_state { rp_unknown = 0, rp_resetted, rp_responding, rp_measurements, rp_health }; enum ResponseType { ResponseType_Descriptor = 0, ResponseType_SCAN, ResponseType_EXPRESS, ResponseType_Health }; // initialise sensor (returns true if sensor is successfully initialised) bool initialise(); void set_scan_mode(); // send request for something from sensor void send_request_for_health(); void parse_response_data(); void parse_response_descriptor(); void get_readings(); void reset_rplidar(); // reply related variables uint8_t _descriptor[7]; char _rp_systeminfo[63]; bool _descriptor_data; bool _information_data; bool _resetted; bool _initialised; uint8_t _payload_length; uint8_t _cnt; uint8_t _sync_error ; uint16_t _byte_count; // request related variables enum ResponseType _response_type; ///< response from the lidar enum rp_state _rp_state; uint32_t _last_request_ms; ///< system time of last request uint32_t _last_distance_received_ms; ///< system time of last distance measurement received from sensor uint32_t _last_reset_ms; // face related variables AP_Proximity_Boundary_3D::Face _last_face;///< last face requested float _last_angle_deg; ///< yaw angle (in degrees) of _last_distance_m float _last_distance_m; ///< shortest distance for _last_face bool _last_distance_valid; ///< true if _last_distance_m is valid struct PACKED _sensor_scan { uint8_t startbit : 1; ///< on the first revolution 1 else 0 uint8_t not_startbit : 1; ///< complementary to startbit uint8_t quality : 6; ///< Related the reflected laser pulse strength uint8_t checkbit : 1; ///< always set to 1 uint16_t angle_q6 : 15; ///< Actual heading = angle_q6/64.0 Degree uint16_t distance_q2 : 16; ///< Actual Distance = distance_q2/4.0 mm }; struct PACKED _sensor_health { uint8_t status; ///< status definition: 0 good, 1 warning, 2 error uint16_t error_code; ///< the related error code }; union PACKED { DEFINE_BYTE_ARRAY_METHODS _sensor_scan sensor_scan; _sensor_health sensor_health; } payload; }; #endif // HAL_PROXIMITY_ENABLED