/* * ardupilotone * * Created on: Apr 30, 2011 * Author: jgoppert */ #define ENABLE_FASTSERIAL_DEBUG // Libraries #include #include #include #include #include #include #include #include #include #include #include #include #include #include FastSerialPort0(Serial); FastSerialPort1(Serial1); FastSerialPort2(Serial2); FastSerialPort3(Serial3); // Vehicle Configuration #include "PlaneEasystar.h" /* * Required Global Declarations */ static apo::AP_Autopilot * autoPilot; void setup() { using namespace apo; AP_Var::load_all(); /* * Communications */ Serial.begin(DEBUG_BAUD, 128, 128); // debug if (board==BOARD_ARDUPILOTMEGA_2) Serial2.begin(TELEM_BAUD, 128, 128); // gcs else Serial3.begin(TELEM_BAUD, 128, 128); // gcs // hardware abstraction layer AP_HardwareAbstractionLayer * hal = new AP_HardwareAbstractionLayer( halMode, board, vehicle, heartBeatTimeout); // debug serial hal->debug = &Serial; hal->debug->println_P(PSTR("initializing debug line")); /* * Initialize Comm Channels */ hal->debug->println_P(PSTR("initializing comm channels")); if (hal->getMode() == MODE_LIVE) { Serial1.begin(GPS_BAUD, 128, 16); // gps } else { // hil Serial1.begin(HIL_BAUD, 128, 128); } /* * Sensor initialization */ if (hal->getMode() == MODE_LIVE) { hal->debug->println_P(PSTR("initializing adc")); hal->adc = new ADC_CLASS; hal->adc->Init(); if (gpsEnabled) { hal->debug->println_P(PSTR("initializing gps")); AP_GPS_Auto gpsDriver(&Serial1, &(hal->gps)); hal->gps = &gpsDriver; hal->gps->init(); } if (baroEnabled) { hal->debug->println_P(PSTR("initializing baro")); hal->baro = new BARO_CLASS; hal->baro->Init(); } if (compassEnabled) { hal->debug->println_P(PSTR("initializing compass")); hal->compass = new COMPASS_CLASS; hal->compass->set_orientation(AP_COMPASS_COMPONENTS_UP_PINS_FORWARD); hal->compass->init(); } /** * Initialize ultrasonic sensors. If sensors are not plugged in, the navigator will not * initialize them and NULL will be assigned to those corresponding pointers. * On detecting NULL assigned to any ultrasonic sensor, its corresponding block of code * will not be executed by the navigator. * The coordinate system is assigned by the right hand rule with the thumb pointing down. * In set_orientation, it is defind as (front/back,left/right,down,up) */ if (rangeFinderFrontEnabled) { hal->debug->println_P(PSTR("initializing front range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(1); rangeFinder->set_orientation(1, 0, 0); hal->rangeFinders.push_back(rangeFinder); } if (rangeFinderBackEnabled) { hal->debug->println_P(PSTR("initializing back range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(2); rangeFinder->set_orientation(-1, 0, 0); hal->rangeFinders.push_back(rangeFinder); } if (rangeFinderLeftEnabled) { hal->debug->println_P(PSTR("initializing left range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(3); rangeFinder->set_orientation(0, -1, 0); hal->rangeFinders.push_back(rangeFinder); } if (rangeFinderRightEnabled) { hal->debug->println_P(PSTR("initializing right range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(4); rangeFinder->set_orientation(0, 1, 0); hal->rangeFinders.push_back(rangeFinder); } if (rangeFinderUpEnabled) { hal->debug->println_P(PSTR("initializing up range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(5); rangeFinder->set_orientation(0, 0, -1); hal->rangeFinders.push_back(rangeFinder); } if (rangeFinderDownEnabled) { hal->debug->println_P(PSTR("initializing down range finder")); RangeFinder * rangeFinder = new RANGE_FINDER_CLASS(hal->adc,new ModeFilter); rangeFinder->set_analog_port(6); rangeFinder->set_orientation(0, 0, 1); hal->rangeFinders.push_back(rangeFinder); } } /* * Select guidance, navigation, control algorithms */ AP_Navigator * navigator = new NAVIGATOR_CLASS(hal); AP_Guide * guide = new GUIDE_CLASS(navigator, hal); AP_Controller * controller = new CONTROLLER_CLASS(navigator, guide, hal); /* * CommLinks */ if (board==BOARD_ARDUPILOTMEGA_2) hal->gcs = new COMMLINK_CLASS(&Serial2, navigator, guide, controller, hal); else hal->gcs = new COMMLINK_CLASS(&Serial3, navigator, guide, controller, hal); hal->hil = new COMMLINK_CLASS(&Serial1, navigator, guide, controller, hal); /* * Start the autopilot */ hal->debug->printf_P(PSTR("initializing arduplane\n")); hal->debug->printf_P(PSTR("free ram: %d bytes\n"),freeMemory()); autoPilot = new apo::AP_Autopilot(navigator, guide, controller, hal, loop0Rate, loop1Rate, loop2Rate, loop3Rate); } void loop() { autoPilot->update(); }