#pragma once #include "AP_OpticalFlow.h" #include class AP_OpticalFlow_UPFLOW : public OpticalFlow_backend { public: /// constructor AP_OpticalFlow_UPFLOW(OpticalFlow &_frontend, AP_HAL::UARTDriver *uart); // initialise the sensor void init() override; // read latest values from sensor and fill in x,y and totals. void update(void) override; // detect if the sensor is available static AP_OpticalFlow_UPFLOW *detect(OpticalFlow &_frontend); private: struct PACKED UpixelsOpticalFlow { int16_t flow_x_integral; //unit:10^-4 radians multiply by 10^-4 to get radians int16_t flow_y_integral; //unit:10^-4 radians multiply by 10^-4 to get radians uint16_t integration_timespan; //dt in us uint16_t ground_distance; //reserved, always 999 uint8_t quality; //0 for not valid, 245 for valid. uint8_t version; }; AP_HAL::UARTDriver *uart; // uart connected to flow sensor struct UpixelsOpticalFlow updata; // struct for received data uint16_t recv_count; // amount of bytes received uint8_t sum; //checksum Vector2f gyro_sum; // sum of gyro sensor values since last frame from flow sensor uint16_t gyro_sum_count; // number of gyro sensor values in sum };