// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- #if HIL_MODE != HIL_MODE_DISABLED && HIL_PROTOCOL == HIL_PROTOCOL_XPLANE void HIL_XPLANE::output_HIL(void) { // output real-time sensor data Serial.print("AAA"); // Message preamble output_int((int)(g.rc_1.servo_out)); // 0 bytes 0, 1 output_int((int)(g.rc_2.servo_out)); // 1 bytes 2, 3 output_int((int)(g.rc_3.servo_out)); // 2 bytes 4, 5 output_int((int)(g.rc_4.servo_out)); // 3 bytes 6, 7 output_int((int)wp_distance); // 4 bytes 8,9 output_int((int)bearing_error); // 5 bytes 10,11 output_int((int)altitude_error); // 6 bytes 12, 13 output_int((int)energy_error); // 7 bytes 14,15 output_byte((int)g.waypoint_index); // 8 bytes 16 output_byte(control_mode); // 9 bytes 17 // print out the buffer and checksum // --------------------------------- print_buffer(); } void HIL_XPLANE::output_int(int value) { //buf_len += 2; out_buffer[buf_len++] = value & 0xff; out_buffer[buf_len++] = (value >> 8) & 0xff; } void HIL_XPLANE::output_byte(byte value) { out_buffer[buf_len++] = value; } void HIL_XPLANE::print_buffer() { byte ck_a = 0; byte ck_b = 0; for (byte i = 0;i < buf_len; i++){ Serial.print (out_buffer[i]); } Serial.print('\r'); Serial.print('\n'); buf_len = 0; } HIL_XPLANE::HIL_XPLANE() : buf_len(0) { } void HIL_XPLANE::init(BetterStream * port) { HIL_Class::init(port); hilPacketDecoder = new AP_GPS_IMU(port); hilPacketDecoder->init(); } void HIL_XPLANE::update(void) { hilPacketDecoder->update(); airspeed = (float)hilPacketDecoder->airspeed; //airspeed is * 100 coming in from Xplane for accuracy calc_airspeed_errors(); dcm.setHil(hilPacketDecoder->roll_sensor*M_PI/18000, hilPacketDecoder->pitch_sensor*M_PI/18000, hilPacketDecoder->ground_course*M_PI/18000, 0,0,0); // set gps hil sensor g_gps->setHIL(hilPacketDecoder->time/1000.0,(float)hilPacketDecoder->latitude/1.0e7,(float)hilPacketDecoder->longitude/1.0e7,(float)hilPacketDecoder->altitude/1.0e2, (float)hilPacketDecoder->speed_3d/1.0e2,(float)hilPacketDecoder->ground_course/1.0e2,0,0); } void HIL_XPLANE::send_message(uint8_t id, uint32_t param) { // TODO: split output by actual request uint64_t timeStamp = micros(); switch(id) { case MSG_HEARTBEAT: break; case MSG_EXTENDED_STATUS: break; case MSG_ATTITUDE: break; case MSG_LOCATION: break; case MSG_LOCAL_LOCATION: break; case MSG_GPS_RAW: break; case MSG_SERVO_OUT: output_HIL(); break; case MSG_RADIO_OUT: break; case MSG_RAW_IMU1: case MSG_RAW_IMU2: case MSG_RAW_IMU3: break; case MSG_GPS_STATUS: break; case MSG_CURRENT_WAYPOINT: break; defualt: break; } } void HIL_XPLANE::send_text(uint8_t severity, const char *str) { } void HIL_XPLANE::send_text(uint8_t severity, const prog_char_t *str) { } void HIL_XPLANE::acknowledge(uint8_t id, uint8_t sum1, uint8_t sum2) { } #endif