#pragma once #include "AP_Proximity.h" #include "AP_Proximity_Backend.h" #define PROXIMITY_SF40C_TIMEOUT_MS 200 // requests timeout after 0.2 seconds class AP_Proximity_LightWareSF40C : public AP_Proximity_Backend { public: // constructor AP_Proximity_LightWareSF40C(AP_Proximity &_frontend, AP_Proximity::Proximity_State &_state); // static detection function static bool detect(); // 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 RequestType { RequestType_None = 0, RequestType_Health, RequestType_MotorSpeed, RequestType_MotorDirection, RequestType_ForwardDirection, RequestType_DistanceMeasurement }; // initialise sensor (returns true if sensor is successfully initialised) bool initialise(); void init_sectors(); void set_motor_speed(bool on_off); void set_motor_direction(); void set_forward_direction(); // send request for something from sensor void request_new_data(); void send_request_for_health(); bool send_request_for_distance(); // check and process replies from sensor bool check_for_reply(); bool process_reply(); void clear_buffers(); // reply related variables AP_HAL::UARTDriver *uart = nullptr; char element_buf[2][10]; uint8_t element_len[2]; uint8_t element_num; bool ignore_reply; // true if we should ignore the incoming message (because it is just echoing our command) bool wait_for_space; // space marks the start of returned data // request related variables enum RequestType _last_request_type; // last request made to sensor uint8_t _last_sector; // last sector requested 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 uint8_t _request_count; // counter used to interleave requests for distance with health requests // sensor health register union { struct PACKED { uint16_t motor_stopped : 1; uint16_t motor_dir : 1; // 0 = clockwise, 1 = counter-clockwise uint16_t motor_fault : 1; uint16_t torque_control : 1; // 0 = automatic, 1 = manual uint16_t laser_fault : 1; uint16_t low_battery : 1; uint16_t flat_battery : 1; uint16_t system_restarting : 1; uint16_t no_results_available : 1; uint16_t power_saving : 1; uint16_t user_flag1 : 1; uint16_t user_flag2 : 1; uint16_t unused1 : 1; uint16_t unused2 : 1; uint16_t spare_input : 1; uint16_t major_system_abnormal : 1; } _flags; uint16_t value; } _sensor_status; // sensor config uint8_t _motor_speed; // motor speed as reported by lidar uint8_t _motor_direction = 99; // motor direction as reported by lidar int16_t _forward_direction = 999; // forward direction as reported by lidar bool _sector_initialised = false; };