/* generic Baro driver test */ #include #include #include #include const AP_HAL::HAL &hal = AP_HAL::get_HAL(); static AP_Baro barometer; static uint32_t timer; static uint8_t counter; static AP_BoardConfig board_config; void setup(); void loop(); void setup() { hal.console->printf("Barometer library test\n"); board_config.init(); hal.scheduler->delay(1000); barometer.init(); barometer.calibrate(); timer = AP_HAL::micros(); } void loop() { if (!hal.console->is_initialized()) { return; } // run accumulate() at 50Hz and update() at 10Hz if ((AP_HAL::micros() - timer) > 20 * 1000UL) { timer = AP_HAL::micros(); barometer.accumulate(); if (counter++ < 5) { return; } counter = 0; barometer.update(); uint32_t read_time = AP_HAL::micros() - timer; if (!barometer.healthy()) { hal.console->printf("not healthy\n"); return; } hal.console->printf(" Pressure: %.2f Pa\n" " Temperature: %.2f degC\n" " Relative Altitude: %.2f m\n" " climb=%.2f m/s\n" " Read + update time: %u usec\n" "\n", (double)barometer.get_pressure(), (double)barometer.get_temperature(), (double)barometer.get_altitude(), (double)barometer.get_climb_rate(), (unsigned)read_time); } else { hal.scheduler->delay(1); } } const struct AP_Param::GroupInfo GCS_MAVLINK::var_info[] = { AP_GROUPEND }; GCS_Dummy _gcs; AP_HAL_MAIN();