コード例 #1
0
int main(void)
{
  int ret;
  std::string str;
  CBTest cbTest;

  ArFunctorC<CBTest> connectCB(&cbTest, &CBTest::connected);
  ArFunctorC<CBTest> failedConnectCB(&cbTest, &CBTest::failedConnect);
  ArFunctorC<CBTest> disconnectCB(&cbTest, &CBTest::disconnected);
  ArFunctorC<CBTest> disconnectErrorCB(&cbTest, &CBTest::disconnectedError);

  ArSerialConnection con;
  ArRobot robot;

  printf("If a robot is attached to your port you should see:\n");
  printf("Failed connect, Connected, Disconnected Error, Connected, Disconnected\n");
  printf("If no robot is attached you should see:\n");
  printf("Failed connect, Failed connect, Failed connect\n");
  printf("-------------------------------------------------------\n");
  ArLog::init(ArLog::None, ArLog::Terse);

  srand(time(NULL));

  robot.setDeviceConnection(&con);
  robot.addConnectCB(&connectCB, ArListPos::FIRST);
  robot.addFailedConnectCB(&failedConnectCB, ArListPos::FIRST);
  robot.addDisconnectNormallyCB(&disconnectCB, ArListPos::FIRST);
  robot.addDisconnectOnErrorCB(&disconnectErrorCB, ArListPos::FIRST);
  
  // this should fail since there isn't an open port yet
  robot.blockingConnect();
  
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    exit(0);
  }
  
  robot.blockingConnect();

  con.close();
  robot.loopOnce();
  

  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    exit(0);
  }  
  robot.blockingConnect();
  robot.disconnect();

  exit(0);

}
コード例 #2
0
ファイル: stressTest.cpp プロジェクト: sauver/sauver_sys
int main(void)
{
  ArTcpConnection con;
  ArRobot robot;
  int ret;
  std::string str;
  JoydriveAction jdAct;
  FillerThread ft;

  ft.create();

  FillerThread ft2;

  ft2.create();

  Aria::init();
  /*
  if (!jdAct.joystickInited())
  {
    printf("Do not have a joystick, set up the joystick then rerun the program\n\n");
    Aria::shutdown();
    return 1;
  }
  */
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }
  
  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  robot.comInt(ArCommands::SONAR, 0);
  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  lastLoopTime.setToNow();
  loopTime = robot.getCycleTime();

  robot.addAction(&jdAct, 100);
  robot.runAsync(true);
  
  robot.waitForRunExit();
  Aria::shutdown();
  return 0;
}
コード例 #3
0
ファイル: wander.cpp プロジェクト: hawkaa/csci5551_project
int main(int argc, char **argv)
{
  Aria::init();
  ArRobot robot;

  ArSerialConnection serialConnection;
  ArTcpConnection tcpConnection;
    
  if (tcpConnection.open("localhost", 8101)) {
    robot.setDeviceConnection(&tcpConnection);
  } else {
    serialConnection.setPort("/dev/ttyUSB0");
    robot.setDeviceConnection(&serialConnection);
  }
  robot.blockingConnect();
   
  printf("Setting robot to run async\n");
  robot.runAsync(false);

  printf("Turning off sound\n");
  robot.comInt(ArCommands::SOUNDTOG, 0);

  printf("Enabling motors\n");
  robot.enableMotors();

  // add a set of actions that combine together to effect the wander behavior
  /*ArActionStallRecover recover;
  ArActionBumpers bumpers;
  ArActionAvoidFront avoidFrontNear("Avoid Front Near", 225, 0);
  ArActionAvoidFront avoidFrontFar;
  ArActionConstantVelocity constantVelocity("Constant Velocity", 400);
  robot.addAction(&recover, 100);
  robot.addAction(&bumpers, 75);
  robot.addAction(&avoidFrontNear, 50);
  robot.addAction(&avoidFrontFar, 49);
  robot.addAction(&constantVelocity, 25);*/

  printf("Locking\n");
  robot.lock();
  robot.setVel(100.0);
  robot.unlock();
  printf("Sleeping\n");
  ArUtil::sleep(3*1000);
  printf("Awake\n");

  
  // wait for robot task loop to end before exiting the program
  //while (true);
  //robot.waitForRunExit();
  

  Aria::exit(0);
  return 0;
}
コード例 #4
0
ファイル: auxSerialTest.cpp プロジェクト: sauver/sauver_sys
int main(int argc, char **argv) 
{
  std::string str;
  int ret;
  ArTime start;
  
  // connection to the robot
  ArSerialConnection con;
  // the robot
  ArRobot robot;
  // the connection handler from above
  ConnHandler ch(&robot);

  // init area with a dedicated signal handling thread
  Aria::init(Aria::SIGHANDLE_THREAD);

  // open the connection with the defaults, exit if failed
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  // set the robots connection
  robot.setDeviceConnection(&con);
  // try to connect, if we fail, the connection handler should bail
  if (!robot.blockingConnect())
  {
    // this should have been taken care of by the connection handler
    // but just in case
    printf(
    "asyncConnect failed because robot is not running in its own thread.\n");
    Aria::shutdown();
    return 1;
  }
  // run the robot in its own thread, so it gets and processes packets and such
  robot.runAsync(false);

  int i;
  while (Aria::getRunning())
  {
    robot.lock();
    robot.comStr(ArCommands::TTY3, "1234567890");
    robot.unlock();
  }

  robot.disconnect();
  // shutdown and ge tout
  Aria::shutdown();
  return 0;
}
コード例 #5
0
void SetupRobot(void)
{
	puts("attempting to connect to robot");
	RobotConnectoin.setPort("COM8");
	RobotConnectoin.setBaud(9600);
	robot.setDeviceConnection(&RobotConnectoin);
	if(!robot.blockingConnect()){puts("not connected to robot");Aria::shutdown();}
	robot.addRangeDevice(&sonarDev);
	robot.addRangeDevice(&bumpers);
	robot.enableMotors();
	robot.enableSonar();
	robot.requestEncoderPackets();
	robot.setCycleChained(false);
//	robot.setRotVelMax(robot.getRotVelMax());
}
コード例 #6
0
int main()
{
  ArModuleLoader::Status status;
  ArSerialConnection con;
  ArRobot robot;
  int ret;
  std::string str;

  Aria::init();

  status=ArModuleLoader::load("./joydriveActionMod", &robot);
  printStatus(status);

  if (status == ArModuleLoader::STATUS_INIT_FAILED)
    return(1);

  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }
  
  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  robot.comInt(ArCommands::SONAR, 0);
  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  robot.run(true);
  
  status=ArModuleLoader::close("./joydriveActionMod");
  printStatus(status);

  Aria::shutdown();
  return 0;
}
コード例 #7
0
int main(int argc, char **argv)
{

  std::string str;
  int ret;
  ArTcpConnection con;
  ArRobot robot;

  ActionTest at1(-50, 333);
  ActionTest at2(25, 666);
  ActionTest at3(25, 0);
  ActionTest at4(0, -999);

  Aria::init();
  
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  robot.addAction(&at1, 100);
  robot.addAction(&at2, 100);
  robot.addAction(&at3, 100);
  robot.addAction(&at4, 100);

  robot.run(true);
  Aria::shutdown();
  return 0;



}
コード例 #8
0
int main(void)
{
  ArTcpConnection con;

  ArRobot robot;
  ArSonarDevice sonar;

  int ret;
  std::string str;
  ArActionStallRecover recover;
  ArActionConstantVelocity constantVelocity("Constant Velocity", 400);

  Aria::init();

  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }
  
  robot.addRangeDevice(&sonar);
  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  robot.addAction(&recover, 100);
  robot.addAction(&constantVelocity, 25);
  robot.run(true);
  
  Aria::shutdown();
  return 0;
}
コード例 #9
0
ファイル: actsDemo.cpp プロジェクト: sauver/sauver_sys
int main(void)
{
  ArSerialConnection con;
  ArRobot robot;
  int ret;
  std::string str;
  ArActionLimiterForwards limiter("speed limiter near", 300, 600, 250);
  ArActionLimiterForwards limiterFar("speed limiter far", 300, 1100, 400);
  ArActionLimiterBackwards backwardsLimiter;
  ArActionConstantVelocity stop("stop", 0);
  ArActionConstantVelocity backup("backup", -200);
  ArSonarDevice sonar;
  ArACTS_1_2 acts;
  ArSonyPTZ sony(&robot);
  ArGripper gripper(&robot, ArGripper::GENIO);
  
  Acquire acq(&acts, &gripper);
  DriveTo driveTo(&acts, &gripper, &sony);
  PickUp pickUp(&acts, &gripper, &sony);

  TakeBlockToWall takeBlock(&robot, &gripper, &sony, &acq, &driveTo, &pickUp,
			    &backup);

  Aria::init();

   if (!acts.openPort(&robot))
   {
     printf("Could not connect to acts\n");
     exit(1);
   }
  
  robot.addRangeDevice(&sonar);
  //con.setBaud(38400);
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  sony.init();
  ArUtil::sleep(1000);
  //robot.setAbsoluteMaxTransVel(400);

  robot.setStateReflectionRefreshTime(250);
  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  ArUtil::sleep(200);
  robot.addAction(&limiter, 100);
  robot.addAction(&limiterFar, 99);
  robot.addAction(&backwardsLimiter, 98);
  robot.addAction(&acq, 77);
  robot.addAction(&driveTo, 76);
  robot.addAction(&pickUp, 75);
  robot.addAction(&backup, 50);
  robot.addAction(&stop, 30);

  robot.run(true);
  
  Aria::shutdown();
  return 0;
}
コード例 #10
0
ファイル: runtimeTest.cpp プロジェクト: sauver/sauver_sys
int main(int argc, char **argv)
{
  int ret;
  std::string str;
  // the serial connection (robot)
  ArSerialConnection serConn;
  // tcp connection (sim)
  ArTcpConnection tcpConn;
  // the robot
  ArRobot robot;
  // the laser
  ArSick sick;
  // the laser connection
  ArSerialConnection laserCon;

  bool useSimForLaser = false;


  std::string hostname = "prod.local.net";

  // timeouts in minutes
  int wanderTime = 0;
  int restTime = 0;


  // check arguments
  if (argc == 3 || argc == 4)
  {
    wanderTime = atoi(argv[1]);
    restTime = atoi(argv[2]);
    if (argc == 4)
      hostname = argv[3];
  }
  else
  {
    printf("\nUsage:\n\tpeoplebotTest <wanderTime> <restTime> <hostname>\n\n");
    printf("Times are in minutes.  Hostname is the machine to pipe the ACTS display to\n\n");
    wanderTime = 15;
    restTime = 45;
  }

  printf("Wander time - %d minutes\nRest time - %d minutes\n", wanderTime, restTime);
  printf("Sending display to %s.\n\n", hostname.c_str());

  // sonar, must be added to the robot
  ArSonarDevice sonar;

  // the actions we'll use to wander
  ArActionStallRecover recover;
  ArActionBumpers bumpers;
  ArActionAvoidFront avoidFrontNear("Avoid Front Near", 225, 0);
  ArActionAvoidFront avoidFrontFar;

  // Make a key handler, so that escape will shut down the program
  // cleanly
  ArKeyHandler keyHandler;

  // mandatory init
  Aria::init();

  // Add the key handler to Aria so other things can find it
  Aria::setKeyHandler(&keyHandler);

  // Attach the key handler to a robot now, so that it actually gets
  // some processing time so it can work, this will also make escape
  // exit
  robot.attachKeyHandler(&keyHandler);


  // First we see if we can open the tcp connection, if we can we'll
  // assume we're connecting to the sim, and just go on...  if we
  // can't open the tcp it means the sim isn't there, so just try the
  // robot

  // modify this next line if you're not using default tcp connection
  tcpConn.setPort();

  // see if we can get to the simulator  (true is success)
  if (tcpConn.openSimple())
  {
    // we could get to the sim, so set the robots device connection to the sim
    printf("Connecting to simulator through tcp.\n");
    robot.setDeviceConnection(&tcpConn);
  }
  else
  {
    // we couldn't get to the sim, so set the port on the serial
    // connection and then set the serial connection as the robots
    // device

    // modify the next line if you're not using the first serial port
    // to talk to your robot
    serConn.setPort();
    printf(
      "Could not connect to simulator, connecting to robot through serial.\n");
    robot.setDeviceConnection(&serConn);
  }
  
  
  // add the sonar to the robot
  robot.addRangeDevice(&sonar);

  // add the laser
  robot.addRangeDevice(&sick);

  // try to connect, if we fail exit
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  // turn on the motors, turn off amigobot sounds
  //robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  // turn off the sonar to start with
  robot.comInt(ArCommands::SONAR, 0);

  // add the actions
  robot.addAction(&recover, 100);
  robot.addAction(&bumpers, 75);
  robot.addAction(&avoidFrontNear, 50);
  robot.addAction(&avoidFrontFar, 49);
  
  // start the robot running, true so that if we lose connection the run stops
  robot.runAsync(true);

  if (!useSimForLaser)
  { 
    sick.setDeviceConnection(&laserCon);

    if ((ret = laserCon.open("/dev/ttyS2")) != 0)
    {
      str = tcpConn.getOpenMessage(ret);
      printf("Open failed: %s\n", str.c_str());
      Aria::shutdown();
      return 1;
    }
    sick.configureShort(false);
  }
  else 
  {
    sick.configureShort(true);
  }

  sick.runAsync();

  if (!sick.blockingConnect())
  {
    printf("Could not connect to SICK laser... exiting\n");
    Aria::shutdown();
    return 1;
  }

  robot.lock();
  robot.comInt(ArCommands::ENABLE, 1);
  robot.unlock();

  // add the peoplebot test
  PeoplebotTest pbTest(&robot, wanderTime, restTime, hostname);

  robot.waitForRunExit();

  // now exit
  Aria::shutdown();
  return 0;
}
コード例 #11
0
ファイル: driveFast.cpp プロジェクト: sauver/sauver_sys
int main(int argc, char **argv) 
{
  std::string str;
  int ret;
  int dist;
  ArTime start;
  ArPose startPose;
  bool vel2 = false;

  // connection to the robot
  ArSerialConnection con;
  // the robot
  ArRobot robot;
  // the connection handler from above
  ConnHandler ch(&robot);
  
  // init area with a dedicated signal handling thread
  Aria::init(Aria::SIGHANDLE_THREAD);

  if (argc != 2 || (dist = atoi(argv[1])) == 0)
    {
      printf("Usage: %s <distInMM>\n", argv[0]);
      exit(0);
    }
  if (dist < 1000)
    {
      printf("You must go at least a meter\n");
      exit(0);
    }
  // open the connection with the defaults, exit if failed
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  // set the robots connection
  robot.setDeviceConnection(&con);
  // try to connect, if we fail, the connection handler should bail
  if (!robot.blockingConnect())
  {
    // this should have been taken care of by the connection handler
    // but just in case
    printf(
    "asyncConnect failed because robot is not running in its own thread.\n");
    Aria::shutdown();
    return 1;
  }
  // run the robot in its own thread, so it gets and processes packets and such
  robot.runAsync(false);

  // just a big long set of printfs, direct motion commands and sleeps,
  // it should be self-explanatory

  robot.lock();

  /*
  robot.setAbsoluteMaxTransVel(2000);
  robot.setTransVelMax(2000);
  robot.setTransAccel(1000);
  robot.setTransDecel(1000);
  robot.comInt(82, 30); // rotkp
  robot.comInt(83, 200); // rotkv
  robot.comInt(84, 0); // rotki
  robot.comInt(85, 30); // transkp
  robot.comInt(86, 450); // transkv
  robot.comInt(87, 4); // transki

  */
  printf("Driving %d mm (going full speed for that far minus a meter then stopping)\n", dist);
  if (vel2)
    robot.setVel2(2200, 2200);
  else
    robot.setVel(2200);
  robot.unlock();
  start.setToNow();
  startPose = robot.getPose();
  while (1)
  {
    robot.lock();
    printf("\r vel: %.0f x: %.0f y: %.0f: dist: %.0f heading: %.2f",
	   robot.getVel(), robot.getX(), robot.getY(), 
	   startPose.findDistanceTo(robot.getPose()),
	   robot.getTh());
    if (startPose.findDistanceTo(robot.getPose()) > abs(dist) - 1000)
    {
      printf("\nFinished distance\n");
      robot.setVel(0);
      robot.unlock();
      break;
    }
    if (start.mSecSince() > 10000)
    {
      printf("\nDistance timed out\n");
      robot.setVel(0);
      robot.unlock();
      break;
    }   
    robot.unlock();
    ArUtil::sleep(50);
  }
  
  if (vel2)
    robot.setVel2(0, 0);
  else
    robot.setVel(0);
  start.setToNow();
  while (1)
    {
      robot.lock();
      if (vel2)
	robot.setVel2(0, 0);
      else
	robot.setVel(0);
      if (fabs(robot.getVel()) < 20)
	{
	  printf("Stopped\n");
	  robot.unlock();
	  break;
	}
      if (start.mSecSince() > 2000)
	{
	  printf("\nStop timed out\n");
	  robot.unlock();
	  break;
	}
      robot.unlock();
      ArUtil::sleep(50);
    }
  robot.lock();
  robot.disconnect();
  robot.unlock();
  // shutdown and ge tout
  Aria::shutdown();
  return 0;
}
コード例 #12
0
int main(void)
{
  ArSerialConnection con;
  ArRobot robot;
  int ret;
  std::string str;
  ArActionLimiterForwards limiter("speed limiter near", 225, 600, 250);
  ArActionLimiterForwards limiterFar("speed limiter far", 225, 1100, 400);
  ArActionTableSensorLimiter tableLimiter;
  ArActionLimiterBackwards backwardsLimiter;
  ArActionConstantVelocity stop("stop", 0);
  ArSonarDevice sonar;
  ArACTS_1_2 acts;
  ArPTZ *ptz;
  ptz = new ArVCC4(&robot, true);
  ArGripper gripper(&robot);
  
  Acquire acq(&acts, &gripper);
  DriveTo driveTo(&acts, &gripper, ptz);
  DropOff dropOff(&acts, &gripper, ptz);
  PickUp pickUp(&acts, &gripper, ptz);
  

  TakeBlockToWall takeBlock(&robot, &gripper, ptz, &acq, &driveTo, &pickUp,
			    &dropOff, &tableLimiter);

  if (!acts.openPort(&robot))
  {
    printf("Could not connect to acts, exiting\n");
    exit(0);    
  }
  Aria::init();
  
  robot.addRangeDevice(&sonar);
  //con.setBaud(38400);
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  robot.setDeviceConnection(&con);
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  ptz->init();
  ArUtil::sleep(8000);
  printf("### 2222\n");
  ptz->panTilt(0, -40);
  printf("### whee\n");
  ArUtil::sleep(8000);
  robot.setAbsoluteMaxTransVel(400);

  robot.setStateReflectionRefreshTime(250);
  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  ArUtil::sleep(200);
  robot.addAction(&tableLimiter, 100);
  robot.addAction(&limiter, 99);
  robot.addAction(&limiterFar, 98);
  robot.addAction(&backwardsLimiter, 97);
  robot.addAction(&acq, 77);
  robot.addAction(&driveTo, 76);
  robot.addAction(&pickUp, 75);
  robot.addAction(&dropOff, 74);
  robot.addAction(&stop, 30);

  robot.run(true);
  
  Aria::shutdown();
  return 0;
}
コード例 #13
0
ファイル: moveRobotTest.cpp プロジェクト: sauver/sauver_sys
void Joydrive::drive(void)
{
  int trans, rot;
  ArPose pose;
  ArPose rpose;
  ArTransform transform;
  ArRangeDevice *dev;
  ArSensorReading *son;

  if (!myRobot->isConnected())
  {
    printf("Lost connection to the robot, exiting\n");
    exit(0);
  }
  printf("\rx %6.1f  y %6.1f  th  %6.1f", 
	 myRobot->getX(), myRobot->getY(), myRobot->getTh());
  fflush(stdout);
  if (myJoyHandler.haveJoystick() && myJoyHandler.getButton(1))
  {
    if (ArMath::fabs(myRobot->getVel()) < 10.0)
      myRobot->comInt(ArCommands::ENABLE, 1);
    myJoyHandler.getAdjusted(&rot, &trans);
    myRobot->setVel(trans);
    myRobot->setRotVel(-rot);
  }
  else
  {
    myRobot->setVel(0);
    myRobot->setRotVel(0);
  }
  if (myJoyHandler.haveJoystick() && myJoyHandler.getButton(2) &&
      time(NULL) - myLastPress > 1)
  {
    myLastPress = time(NULL);
    printf("\n");
    switch (myTest)
    {
    case 1:
      printf("Moving back to the origin.\n");
      pose.setPose(0, 0, 0);
      myRobot->moveTo(pose);
      break;
    case 2:
      printf("Moving over a meter.\n");
      pose.setPose(myRobot->getX() + 1000, myRobot->getY(), 0);
      myRobot->moveTo(pose);
      break;
    case 3:
      printf("Doing a transform test....\n");
      printf("\nOrigin should be transformed to the robots coords.\n");
      transform = myRobot->getToGlobalTransform();
      pose.setPose(0, 0, 0);
      pose = transform.doTransform(pose);
      rpose = myRobot->getPose();
      printf("Pos:  ");
      pose.log();
      printf("Robot:  ");
      rpose.log();

      if (pose.findDistanceTo(rpose) < .1)
	printf("Success\n");
      else
	printf("#### FAILURE\n");
    
      printf("\nRobot coords should be transformed to the origin.\n");
      transform = myRobot->getToLocalTransform();
      pose = myRobot->getPose();
      pose = transform.doTransform(pose);
      rpose.setPose(0, 0, 0);
      printf("Pos:  ");
      pose.log();
      printf("Robot:  ");
      rpose.log();
      if (pose.findDistanceTo(rpose) < .1)
	printf("Success\n");
      else
	printf("#### FAILURE\n");
      break;
    case 4:
      printf("Doing a tranform test...\n");
      printf("A point 1 meter to the -x from the robot (in local coords) should be transformed into global coordinates.\n");
      transform = myRobot->getToGlobalTransform();
      pose.setPose(-1000, 0, 0);
      pose = transform.doTransform(pose);
      rpose = myRobot->getPose();
      printf("Pos:  ");
      pose.log();
      printf("Robot:  ");
      rpose.log();

      if (ArMath::fabs(pose.findDistanceTo(rpose) - 1000.0) < .1)
	printf("Probable Success\n");
      else
	printf("#### FAILURE\n");
      break;
    case 5:
      printf("Doing a transform test on range devices..\n");
      printf("Moving the robot +4 meters x and +4 meters y and seeing if the moveTo will move the sonar readings along with it.\n");
      dev = myRobot->findRangeDevice("sonar");
      if (dev == NULL)
      {
	printf("No sonar on the robot, can't do the test.\n");
	break;
      }
      printf("Closest sonar reading to the robot is %.0f away\n", dev->currentReadingPolar(1, 0));
      printf("Sonar 0 reading is at ");
      son = myRobot->getSonarReading(0);
      if (son != NULL)
      {
	pose = son->getPose();
	pose.log();
      }
      pose = myRobot->getPose();
      pose.setX(pose.getX() + 4000);
      pose.setY(pose.getY() + 4000);
      myRobot->moveTo(pose);
      printf("Moved robot.\n");
      printf("Closest sonar reading to the robot is %.0f away\n", dev->currentReadingPolar(1, 0));
      printf("Sonar 0 reading is at ");
      son = myRobot->getSonarReading(0);
      if (son != NULL)
      {
	pose = son->getPose();
	pose.log();
      }

      break;
    case 6:
      printf("Robot position now is:\n");
      pose = myRobot->getPose();
      pose.log();
      printf("Disconnecting from the robot, then reconnecting.\n");
      myRobot->disconnect();
      myRobot->blockingConnect();      
      printf("Robot position now is:\n");
      pose = myRobot->getPose();
      pose.log();
      break;
    default:
      printf("No test for second button.\n");
      break;
    } 
  }
}
コード例 #14
0
int main(int argc, char **argv) 
{
  std::string str;
  int ret;
  ArTime start;
  
  // connection to the robot
  ArSerialConnection con;
  // the robot
  ArRobot robot;
  // the connection handler from above
  ConnHandler ch(&robot);

  // init area with a dedicated signal handling thread
  Aria::init(Aria::SIGHANDLE_THREAD);

  // open the connection with the defaults, exit if failed
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }

  // set the robots connection
  robot.setDeviceConnection(&con);
  // try to connect, if we fail, the connection handler should bail
  if (!robot.blockingConnect())
  {
    // this should have been taken care of by the connection handler
    // but just in case
    printf(
    "asyncConnect failed because robot is not running in its own thread.\n");
    Aria::shutdown();
    return 1;
  }
  // run the robot in its own thread, so it gets and processes packets and such
  robot.runAsync(false);

  // just a big long set of printfs, direct motion commands and sleeps,
  // it should be self-explanatory
  printf("Telling the robot to go 300 mm for 5 seconds\n");
  robot.lock();
  robot.setVel(500);
  robot.unlock();
  start.setToNow();
  while (1)
  {
    robot.lock();
    if (start.mSecSince() > 5000)
    {
      robot.unlock();
      break;
    }   
    printf("Trans: %10g Rot: %10g\n", robot.getVel(), robot.getRotVel());
    robot.unlock();
    ArUtil::sleep(100);
  }
  
  printf("Telling the robot to turn at 50 deg/sec for 10 seconds\n");
  robot.lock();
  robot.setVel(0);
  robot.setRotVel(50);
  robot.unlock();
  start.setToNow();
  while (1)
  {
    robot.lock();
    if (start.mSecSince() > 10000)
    {
      robot.unlock();
      break;
    }   
    printf("Trans: %10g Rot: %10g\n", robot.getVel(), robot.getRotVel());
    robot.unlock();
    ArUtil::sleep(100);
  }

  printf("Telling the robot to turn at 100 deg/sec for 10 seconds\n");
  robot.lock();
  robot.setVel(0);
  robot.setRotVel(100);
  robot.unlock();
  start.setToNow();
  while (1)
  {
    robot.lock();
    if (start.mSecSince() > 10000)
    {
      robot.unlock();
      break;
    }   
    printf("Trans: %10g Rot: %10g\n", robot.getVel(), robot.getRotVel());
    robot.unlock();
    ArUtil::sleep(100);
  }

  printf("Done with tests, exiting\n");
  robot.disconnect();
  // shutdown and ge tout
  Aria::shutdown();
  return 0;
}
コード例 #15
0
int main(void)
{
  // The connection we'll use to talk to the robot
  ArTcpConnection con;
  // the robot
  ArRobot robot;
  // the sonar device
  ArSonarDevice sonar;

  // some stuff for return values
  int ret;
  std::string str;

  // the behaviors from above, and a stallRecover behavior that uses defaults
  ActionGo go(500, 350);
  ActionTurn turn(400, 30);
  ArActionStallRecover recover;

  // this needs to be done
  Aria::init();

  // open the connection, just using the defaults, if it fails, exit
  if ((ret = con.open()) != 0)
  {
    str = con.getOpenMessage(ret);
    printf("Open failed: %s\n", str.c_str());
    Aria::shutdown();
    return 1;
  }
  
  // add the range device to the robot, you should add all the range 
  // devices and such before you add actions
  robot.addRangeDevice(&sonar);
  // set the robot to use the given connection
  robot.setDeviceConnection(&con);
  
  // do a blocking connect, if it fails exit
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  // enable the motors, disable amigobot sounds
  robot.comInt(ArCommands::ENABLE, 1);
  robot.comInt(ArCommands::SOUNDTOG, 0);

  // add our actions in a good order, the integer here is the priority, 
  // with higher priority actions going first
  robot.addAction(&recover, 100);
  robot.addAction(&go, 50);
  robot.addAction(&turn, 49);
  
  // run the robot, the true here is to exit if it loses connection
  robot.run(true);
  
  // now just shutdown and go away
  Aria::shutdown();
  return 0;
}
コード例 #16
0
int main(int argc, char **argv)
{
  bool done;
  double distToTravel = 2300;

  // whether to use the sim for the laser or not, if you use the sim
  // for hte laser, you have to use the sim for the robot too
  bool useSim = false;
  // the laser
  ArSick sick;
  // connection
  ArDeviceConnection *con;
  // Laser connection
  ArSerialConnection laserCon;
  // robot
  ArRobot robot;

  // set a default filename
  //std::string filename = "c:\\log\\1scans.2d";
  std::string filename = "1scans.2d";
  // see if we want to use a different filename
  //if (argc > 1)
  //Lfilename = argv[1];
  printf("Logging to file %s\n", filename.c_str());
  // start the logger with good values
  sick.configureShort(useSim, ArSick::BAUD38400,
		 ArSick::DEGREES180, ArSick::INCREMENT_HALF);
  ArSickLogger logger(&robot, &sick, 300, 25, filename.c_str());
  
  // mandatory init
  Aria::init();

  // add it to the robot
  robot.addRangeDevice(&sick);

  //ArAnalogGyro gyro(&robot);


  // if we're not using the sim, make a serial connection and set it up
  if (!useSim)
  {
    ArSerialConnection *serCon;
    serCon = new ArSerialConnection;
    serCon->setPort();
    //serCon->setBaud(38400);
    con = serCon;
  }
  // if we are using the sim, set up a tcp connection
  else
  {
    ArTcpConnection *tcpCon;
    tcpCon = new ArTcpConnection;
    tcpCon->setPort();
    con = tcpCon;
  }

  // set the connection on the robot
  robot.setDeviceConnection(con);
  // try to connect, if we fail exit
  if (!robot.blockingConnect())
  {
    printf("Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }


  // set up a key handler so escape exits and attach to the robot
  ArKeyHandler keyHandler;
  robot.attachKeyHandler(&keyHandler);

  // run the robot, true here so that the run will exit if connection lost
  robot.runAsync(true);



  // if we're not using the sim, set up the port for the laser
  if (!useSim)
  {
    laserCon.setPort(ArUtil::COM3);
    sick.setDeviceConnection(&laserCon);
  }


  // now that we're connected to the robot, connect to the laser
  sick.runAsync();


  if (!sick.blockingConnect())
  {
    printf("Could not connect to SICK laser... exiting\n");
    robot.disconnect();
    Aria::shutdown();
    return 1;
  }

#ifdef WIN32
  // wait until someone pushes the motor button to go
  while (1)
  {
    robot.lock();
    if (!robot.isRunning())
      exit(0);
    if (robot.areMotorsEnabled())
    {
      robot.unlock();
      break;
    }
    robot.unlock();
    ArUtil::sleep(100);
  }
#endif

  // basically from here on down the robot just cruises around a bit

  robot.lock();
  // enable the motors, disable amigobot sounds
  robot.comInt(ArCommands::ENABLE, 1);

  ArTime startTime;
  // move a couple meters
  robot.move(distToTravel);
  robot.unlock();
  startTime.setToNow();
  do {
    ArUtil::sleep(100);
    robot.lock();
    robot.setHeading(0);
    done = robot.isMoveDone(60);
    robot.unlock();
  } while (!done);

  /*
  // rotate a few times
  robot.lock();
  robot.setVel(0);
  robot.setRotVel(60);
  robot.unlock();
  ArUtil::sleep(12000);
  */

  robot.lock();
  robot.setHeading(180);
  robot.unlock();
  do {
    ArUtil::sleep(100);
    robot.lock();
    robot.setHeading(180);
    done = robot.isHeadingDone();
    robot.unlock();
  } while (!done);

  // move a couple meters
  robot.lock();
  robot.move(distToTravel);
  robot.unlock();
  startTime.setToNow();
  do {
    ArUtil::sleep(100);
    robot.lock();
    robot.setHeading(180);
    done = robot.isMoveDone(60);
    robot.unlock();
  } while (!done);

  robot.lock();
  robot.setHeading(0);
  robot.setVel(0);
  robot.unlock();
  startTime.setToNow();
  do {
    ArUtil::sleep(100);
    robot.lock();
    robot.setHeading(0);
    done = robot.isHeadingDone();
    robot.unlock();
  } while (!done);


  sick.lockDevice();
  sick.disconnect();
  sick.unlockDevice();
  robot.lock();
  robot.disconnect();
  robot.unlock();
  // now exit
  Aria::shutdown();
  return 0;
}
コード例 #17
0
int main(int argc, char **argv) 
{
  std::string str;
  int ret;
  int successes = 0, failures = 0;
  int action;
  bool exitOnFailure = true;
  
  ArSerialConnection con;
  ArRobot robot;

  srand(time(NULL));
// if (!exitOnFailure)
//    ArLog::init(ArLog::None, ArLog::Terse);
  //else
  //ArLog::init(ArLog::None);
  while (1)
  {
    if (con.getStatus() != ArDeviceConnection::STATUS_OPEN &&
	(ret = con.open(ArUtil::COM2)) != 0)
    {
      str = con.getOpenMessage(ret);
      printf("Open failed: %s\n", str.c_str());
      ++failures;
      if (exitOnFailure)
      {
	printf("Failed\n");
	exit(0);
      }
      else
      {
	ArUtil::sleep(200);
	continue;
      }
    }
    robot.setDeviceConnection(&con);
    ArUtil::sleep((rand() % 5) * 100);
    if (robot.blockingConnect())
    {
      robot.comInt(ArCommands::SONAR, 0);
      robot.comInt(ArCommands::SOUNDTOG, 0);
      robot.comInt(ArCommands::PLAYLIST, 0);
      robot.comInt(ArCommands::ENCODER, 1);
      ArUtil::sleep((rand() % 20) * 100);
      ++successes;
      // okay, now try to leave it in a messed up state
      action = rand() % 8;
      switch (action) {
      case 0:
	printf("Discon  0 ");
	robot.disconnect();
	ArUtil::sleep(100);
	robot.com(0);
	break;
      case 1:
	printf("Discon  1 ");
	robot.disconnect();
	ArUtil::sleep(100);
	robot.com(0);
	ArUtil::sleep(100);
	robot.com(1);
	break;
      case 2:
	printf("Discon  2 ");
	robot.disconnect();
	ArUtil::sleep(100);
	robot.com(0);
	ArUtil::sleep(100);
	robot.com(1);
	ArUtil::sleep(100);
	robot.com(2);
	break;
      case 3:
	printf("Discon 10 ");
	robot.disconnect();
	ArUtil::sleep(100);
	robot.com(10);
	break;
      case 4:
	printf("Discon    ");
	robot.disconnect();
	break;
      default:
	printf("Leave     ");
	break;
      }
    }
    else
    {
      if (exitOnFailure)
      {
	printf("Failed after %d tries.\n", successes);
	exit(0);
      }
      printf("Failed ");
      ++failures;
    }
    if ((rand() % 2) == 0)
    {
      printf(" ! RadioDisconnect ! ");
      con.write("|||\15", strlen("!!!\15"));
      
      ArUtil::sleep(100);
      con.write("WMD\15", strlen("WMD\15"));
      ArUtil::sleep(200);
    }
    if ((rand() % 2) == 0)
    {
      printf(" ! ClosePort !\n");
      con.close();
    }
    else
      printf("\n");
    printf("#### %d successes %d failures, %% %.2f success\n", successes, failures,
	   (float)successes/(float)(successes+failures)*100);


    ArUtil::sleep((rand() % 2)* 1000);
  }
  return 0; 
}
コード例 #18
0
int main(int argc, char **argv)
{
    int ret; //Don't know what this variable is for
    
    ArRobot robot;// Robot object
    
    ArSick sick; // Laser scanner
    ArSerialConnection laserCon; // Scanner connection
    
    ArSerialConnection con; // Robot connection
    
    std::string str; // Standard output
    
    
    // sonar, must be added to the robot
    ArSonarDevice sonar;
    
    // the actions we'll use to wander
    // recover from stalls
    ArActionStallRecover recover;
    // react to bumpers
    ArActionBumpers bumpers;
    // limiter for close obstacles
    ArActionLimiterForwards limiter("speed limiter near", 300, 600, 250, 1.1);
    // limiter for far away obstacles
    ArActionLimiterForwards limiterFar("speed limiter far", 300, 1100, 600, 1.1);
    // limiter for the table sensors
    ArActionLimiterTableSensor tableLimiter;
    // actually move the robot
    ArActionConstantVelocity constantVelocity("Constant Velocity", 400);
    // turn the orbot if its slowed down
    ArActionTurn turn;
    
    
    
    
    // mandatory init
    Aria::init();
    
    // Parse all our args
    ArSimpleConnector connector(&argc, argv);
    connector.parseArgs();
    
    if (argc > 1)
    {
        connector.logOptions();
        exit(1);
    }
    
    // add the sonar to the robot
    robot.addRangeDevice(&sonar);
    // add the laser to the robot
    robot.addRangeDevice(&sick);
    
    // NOTE: HARDCODED USB PORT!
    // Attempt to open hard-coded USB to robot
    if ((ret = con.open("/dev/ttyUSB2")) != 0){
        // If connection fails, exit
        str = con.getOpenMessage(ret);
        printf("Open failed: %s\n", str.c_str());
        Aria::shutdown();
        return 1;
    }
    
    // set the robot to use the given connection
    robot.setDeviceConnection(&con);
    
    // do a blocking connect, if it fails exit
    if (!robot.blockingConnect())
    {
        printf("Could not connect to robot... exiting\n");
        Aria::shutdown();
        return 1;
    }
    
    
    
    
    // turn on the motors, turn off amigobot sounds
    //robot.comInt(ArCommands::SONAR, 0);
    robot.comInt(ArCommands::SOUNDTOG, 0);
    
    
    
    // start the robot running, true so that if we lose connection the run stops
    robot.runAsync(true);
    
    
    // Attempt to connect to SICK using another hard-coded USB connection
    sick.setDeviceConnection(&laserCon);
    if((ret=laserCon.open("/dev/ttyUSB3")) !=0) {
        //If connection fails, shutdown
        Aria::shutdown();
        return 1;
    }
    
    //Configure the SICK
    sick.configureShort(false,/*not using sim*/ArSick::BAUD38400,ArSick::DEGREES180,ArSick::INCREMENT_HALF);
    
    //Run the sick
    sick.runAsync();
    
    // Presumably test to make sure that the connection is good
    if(!sick.blockingConnect()){
        printf("Could not get sick...exiting\n");
        Aria::shutdown();
        return 1;
    }
    printf("We are connected to the laser!");
    
    /*
     robot.lock();
     robot.comInt(ArCommands::ENABLE, 1);
     robot.unlock();
     */
    int range [361] = {0};
    int drange [360] = {0};
    int i = 0;
    int obj_range [2];
    int old_range [360]={0};
    clock_t now, prev;
    while(1){
        range [361] = {0};
        drange [360] = {0};
        i = 0;
        obj_range[2];
        
        std::list<ArSensorReading *> *readings;
        std::list<ArSensorReading *>::iterator it;
        sick.lockDevice();
        readings=(list<ArSensorReading *,allocator<ArSensorReading *> > *)sick.getRawReadings();
        
        if(NULL!=readings){
            if ((readings->end() != readings->begin())){
                for (it = readings->begin(); it!= readings->end(); it++){
                    //	      std::cout << (*it)->getRange()<<" ";
                    range[i] = ((*it)->getRange());
                    if(i){
                        drange[i-1] = range[i] - range[i-1];
                        printf("%f %i %i\r\n", (float)i/2.0, range[i], drange[i-1]);
                    }
                    i++;
                }
                int i = 0;
                //detect the object range
                while (i < 360) {
                    if (range[i]>Default_Distance + alpha) {
                        ;
                    } else {
                        if (obj_range[0]=0)
                            obj_range[0]=i;
                        else
                            obj_range[1]=i;
                    }
                }
                if (!now)
                    prev=now;
                now=clock();
                duration=now-prev;
                /******moving straight*******/
                float speed = avg_speed(obj_range,old_range,range,(float)duration)
                
                /*while(i < 360){
                 int r_edge = 0;
                 int l_edge = 0;
                 float obsticle_degree = 0;
                 if(drange[i] > D_DISTANCE){
                 r_edge = i;
                 while(drange[i] > -(D_DISTANCE)){
                 i++;
                 }
                 l_edge = i;
                 obsticle_degree = (r_edge + (l_edge - r_edge)/2.0)/2.0;
                 printf("\r\n object detected at %f\r\n", obsticle_degree);
                 }
                 std::cout<<std::endl;
                 }*/
            }
            else{
                std::cout << "(readings->end() == readings -> begin())" << std::endl;
            }
        }
        else{