#include "AP_OpticalFlow_HereFlow.h" #if AP_OPTICALFLOW_HEREFLOW_ENABLED #include #include #include #include extern const AP_HAL::HAL& hal; uint8_t AP_OpticalFlow_HereFlow::_node_id = 0; AP_OpticalFlow_HereFlow* AP_OpticalFlow_HereFlow::_driver = nullptr; AP_DroneCAN* AP_OpticalFlow_HereFlow::_ap_dronecan = nullptr; /* constructor - registers instance at top Flow driver */ AP_OpticalFlow_HereFlow::AP_OpticalFlow_HereFlow(AP_OpticalFlow &flow) : OpticalFlow_backend(flow) { if (_driver) { AP_HAL::panic("Only one instance of Flow supported!"); } _driver = this; } //links the HereFlow messages to the backend bool AP_OpticalFlow_HereFlow::subscribe_msgs(AP_DroneCAN* ap_dronecan) { const auto driver_index = ap_dronecan->get_driver_index(); return (Canard::allocate_sub_arg_callback(ap_dronecan, &handle_measurement, driver_index) != nullptr); } //updates driver states based on received HereFlow messages void AP_OpticalFlow_HereFlow::handle_measurement(AP_DroneCAN *ap_dronecan, const CanardRxTransfer& transfer, const com_hex_equipment_flow_Measurement &msg) { if (_driver == nullptr) { return; } //protect from data coming from duplicate sensors, //as we only handle one Here Flow at a time as of now if (_ap_dronecan == nullptr) { _ap_dronecan = ap_dronecan; _node_id = transfer.source_node_id; } if (_ap_dronecan == ap_dronecan && _node_id == transfer.source_node_id) { WITH_SEMAPHORE(_driver->_sem); _driver->new_data = true; _driver->flow_integral = Vector2f(msg.flow_integral[0], msg.flow_integral[1]); _driver->rate_gyro_integral = Vector2f(msg.rate_gyro_integral[0], msg.rate_gyro_integral[1]); _driver->integral_time = msg.integration_interval; _driver->surface_quality = msg.quality; } } void AP_OpticalFlow_HereFlow::update() { _push_state(); } // Read the sensor void AP_OpticalFlow_HereFlow::_push_state(void) { WITH_SEMAPHORE(_sem); if (!new_data) { return; } struct AP_OpticalFlow::OpticalFlow_state state; const Vector2f flowScaler = _flowScaler(); //setup scaling based on parameters float flowScaleFactorX = 1.0f + 0.001f * flowScaler.x; float flowScaleFactorY = 1.0f + 0.001f * flowScaler.y; float integralToRate = 1.0f / integral_time; //Convert to Raw Flow measurement to Flow Rate measurement state.flowRate = Vector2f{ flow_integral.x * flowScaleFactorX, flow_integral.y * flowScaleFactorY } * integralToRate; state.bodyRate = rate_gyro_integral * integralToRate; state.surface_quality = surface_quality; _applyYaw(state.flowRate); _applyYaw(state.bodyRate); // hal.console->printf("DRV: %u %f %f\n", state.surface_quality, flowRate.length(), bodyRate.length()); _update_frontend(state); new_data = false; } #endif // AP_OPTICALFLOW_HEREFLOW_ENABLED