rosaria/Legacy/Aria/tests/testMobileSim.cpp

/*
Adept MobileRobots Robotics Interface for Applications (ARIA)
Copyright (C) 2004, 2005 ActivMedia Robotics LLC
Copyright (C) 2006, 2007, 2008, 2009, 2010 MobileRobots Inc.
Copyright (C) 2011, 2012, 2013 Adept Technology

     This program is free software; you can redistribute it and/or modify
     it under the terms of the GNU General Public License as published by
     the Free Software Foundation; either version 2 of the License, or
     (at your option) any later version.

     This program is distributed in the hope that it will be useful,
     but WITHOUT ANY WARRANTY; without even the implied warranty of
     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     GNU General Public License for more details.

     You should have received a copy of the GNU General Public License
     along with this program; if not, write to the Free Software
     Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

If you wish to redistribute ARIA under different terms, contact 
Adept MobileRobots for information about a commercial version of ARIA at 
robots@mobilerobots.com or 
Adept MobileRobots, 10 Columbia Drive, Amherst, NH 03031; +1-603-881-7960
*/

/* tests mobilesim-only commands, and some robot commands that can be 
 * particularly tricky in mobilesim (e.g. HEAD and MOVE).
 */


#include "Aria.h"

#include <assert.h>

bool log_simstat = true;

unsigned int simint, realint, lastint;
int realX, realY, realTh, realZ;
double lat, lon, alt;

bool handleSimStatPacket(ArRobotPacket* pkt)
{
  if(pkt->getID() != 0x62) return false;
  if(log_simstat) printf("----------- SIMSTAT pkt received: ------------\n");
  char a = pkt->bufToByte();  // unused byte
  char b = pkt->bufToByte();  // unused byte
  ArTypes::UByte4 flags = pkt->bufToUByte4();
  if(log_simstat) printf("\tFlags=0x%x  (Georef? %s)\n", flags, (flags&ArUtil::BIT1)?"yes":"no");
  simint = pkt->bufToUByte2();
  realint = pkt->bufToUByte2();
  lastint = pkt->bufToUByte2();
  if(log_simstat) printf("\tSimInterval=%d, RealInterval=%d, LastInterval=%d.\n", simint, realint, lastint);
  realX = pkt->bufToByte4();
  realY = pkt->bufToByte4();
  realZ = pkt->bufToByte4();
  realTh = pkt->bufToByte4();
  if(log_simstat) printf("\tTrue Pose = (%d, %d, %d, %d)\n", realX, realY, realZ, realTh);
  lat = pkt->bufToByte4() / 10e6;
  lon = pkt->bufToByte4() / 10e6;
  alt = pkt->bufToByte4() / 100.0;
  if(log_simstat) printf("\tGeo Pose = (%f, %f, %f)\n", lat, lon, alt);
  /*
    This stuff has been moved to sim device data packet
  unsigned int numDevs = pkt->bufToUByte4();
  printf("\t%d Devices:\n", numDevs);
  for(unsigned int i = 0; i < numDevs; i++)
  {
    memset(s1, 0, 24);
    memset(s2, 0, 24);
    pkt->bufToStr(s1, 23); 
    pkt->bufToStr(s2, 23); 
    unsigned int which = (unsigned int) pkt->bufToUByte();
    unsigned int status = pkt->bufToUByte4();
    printf("\t\t%s is %s #%d (status 0x%x)\n", s1, s2, which, status);
  }
  */
  if(log_simstat) printf("-------------------------------------------------\n");
  return true;
}

bool handleSimDeviceData(ArRobotPacket* pkt)
{
  if(pkt->getID() != 100) return false;
  printf("------ SIM DEVICE DATA packet received: ---------\n");
  char name[24];
  char type[24];
  int idx;
  pkt->bufToStr(name, 23);
  pkt->bufToStr(type, 23);
  idx = pkt->bufToUByte2();
  printf("Data for %s which is #%d of type %s.\n", name, idx, type);
  if(strcmp(type, "gps") == 0)
  {
    double lat, lon, dop;
    lat = (double)pkt->bufToByte4() / (double)10e6;
    lon = (double)pkt->bufToByte4() / (double)10e6;
    dop = (double)pkt->bufToByte2() / 1000.0;
    printf("GPS Lat=%f, Lon=%f, DOP=%f\n", lat, lon, dop);
  }
  printf("-------------------------------------------------\n");
  return true;
}

ArCondition gotSimMapChangedPacketCondition;
bool handleSimMapChangedPacket(ArRobotPacket* pkt)
{
  if(pkt->getID() != 102) return false;
  printf("------- SIM MAP CHANGED packet received: --------\n");
  char name[256];
  int user = pkt->bufToUByte();
  int really_loaded = pkt->bufToUByte();
  if(user == 1)
    printf("user=%d: Loaded by user GUI\n", user);
  else
  {
    printf("user=%d: Loaded by client program\n", user);
    if(really_loaded)
      printf("loaded=%d: A new map was loaded.\n", really_loaded);
    else
      printf("loaded=%d: Map already loaded, not reloaded.\n", really_loaded);
  }
  pkt->bufToStr(name, 256);
  printf("filename=%s\n", name);
  printf("-------------------------------------------------\n");
  gotSimMapChangedPacketCondition.signal();
  return true;
}
  

ArCondition gotConfigPacketCondition;
bool handleConfigPacket(ArRobotPacket* pkt)
{
  if(pkt->getID() != 0x20) return false;
  printf("----------- CONFIG pkt received: ------------\n");
  char buf[256];
  pkt->bufToStr(buf, sizeof(buf));
  printf("Type=%s\n", buf);
  pkt->bufToStr(buf, sizeof(buf));
  printf("Subtype=%s\n", buf);
  pkt->bufToStr(buf, sizeof(buf));
  printf("SerialNumber=%s\n", buf);
  printf("unknown=%d\n", pkt->bufToUByte());
  printf("RotVelTop=%d\n", pkt->bufToUByte2());
  printf("TransVelTop=%d\n", pkt->bufToUByte2());
  printf("RotAccelTop=%d\n", pkt->bufToUByte2());
  printf("TransAccelTop=%d\n", pkt->bufToUByte2());
  printf("(PWMMax=%d)\n", pkt->bufToUByte2());
  pkt->bufToStr(buf, sizeof(buf));
  printf("Name=%s\n", buf);
  printf("SipCycleTime=%d\n", pkt->bufToUByte());
  printf("(HostBaud=%d)\n", pkt->bufToUByte());
  printf("(Aux1Baud=%d)\n", pkt->bufToUByte());
  printf("HasGripper=%d\n", pkt->bufToUByte2());
  printf("HasFrontSonar=%d\n", pkt->bufToUByte2());
  printf("HasRearSonar=%d\n", pkt->bufToUByte());
  printf("LowBattery=%d\n", pkt->bufToUByte2());
  printf("(RevCount=%d)\n", pkt->bufToUByte2());
  printf("Watchdog=%d\n", pkt->bufToUByte2());
  printf("NormalMPacs=%d\n", pkt->bufToUByte());
  printf("StallVal=0x%X\n", pkt->bufToUByte2());
  printf("StallCount=%d\n", pkt->bufToUByte2());
  printf("(JoyVel=%d)\n", pkt->bufToUByte2());
  printf("(JoyRotVel=%d)\n", pkt->bufToUByte2());
  printf("RotVelMax=%d\n", pkt->bufToUByte2());
  printf("TransVelMax=%d\n", pkt->bufToUByte2());
  printf("RotAccel=%d\n", pkt->bufToUByte2());
  printf("RotDecel=%d\n", pkt->bufToUByte2());
  printf("(RotKP=%d)\n", pkt->bufToUByte2());
  printf("(RotKV=%d)\n", pkt->bufToUByte2());
  printf("(RotKI=%d)\n", pkt->bufToUByte2());
  printf("TransAccel=%d\n", pkt->bufToUByte2());
  printf("TransDecel=%d\n", pkt->bufToUByte2());
  printf("(TransKP=%d)\n", pkt->bufToUByte2());
  printf("(TransKV=%d)\n", pkt->bufToUByte2());
  printf("(TransKI=%d)\n", pkt->bufToUByte2());
  printf("FrontBumps=%d\n", pkt->bufToUByte());
  printf("RearBumps=%d\n", pkt->bufToUByte());
  printf("HasCharger=%d\n", pkt->bufToUByte());
  printf("SonarCycle=%d\n", pkt->bufToUByte());
  printf("ResetBaud=%d\n", pkt->bufToUByte());
  printf("HasGyro=%d\n", pkt->bufToUByte());
  printf("(DriftFactor=%d)\n", pkt->bufToUByte2());
  printf("(Aux2Baud=%d)\n", pkt->bufToUByte());
  printf("(Aux3Baud=%d)\n", pkt->bufToUByte());
  printf("(TicksPerMM=%d)\n", pkt->bufToUByte2());
  printf("(ShutdownVoltage=%d)\n", pkt->bufToUByte2());
  pkt->bufToStr(buf, sizeof(buf));
  printf("FirmwareVersion=%s\n", buf);
  printf("(ChargeThreshold=%d)\n", pkt->bufToUByte2());
  gotConfigPacketCondition.signal();
  return true;

}

class CheckPositionTask 
{
  ArRobot *robot;
  ArFunctorC<CheckPositionTask> taskCB;
  ArTime lastCheck;
  ArPose oldpose, newpose, corner;
  double expectedDist;
  double speed;
  int time;
  double turndist;
public:
  CheckPositionTask(ArRobot *_robot, double _speed, int _time, double _turndist) :
    robot(_robot), taskCB(this, &CheckPositionTask::checkPosition),
    expectedDist(_speed * ((double)_time/1000.0)), speed(_speed), time(_time), turndist(_turndist)
  {
    oldpose.setPose(realX, realY, realTh);
    corner = oldpose;
    printf("Speed=%.0f m/sec, Check interval=%d ms, Expected distance per check interval=%0.f mm, Sim Interval=%d ms\n", speed, time, expectedDist, realint);
    printf("XPos\tYPos\tOldX\tOldY\tVelRptd\tPosDiff\tVelErr\tPosErr\tLastInt\tSimIntervalErr\n");
  }
  void addTask()
  {
  puts("addTask()");
    robot->addSensorInterpTask("testMobileSim::CheckPositionTask", ArListPos::LAST, &taskCB);
  }
  void checkPosition()
  {
  puts("checkPosition()");
  fflush(stdout);
    if(lastCheck.mSecSince() >= time)
    {
      lastCheck.setToNow();
      newpose.setPose(realX, realY, realTh);
      double dist = newpose.findDistanceTo(oldpose);
      double poserr = fabs( dist - expectedDist );
      printf("%.0f\t%.0f\t%.0f\t%.0f\t%.0f\t%.0f\t%.0f\t%.1f\t%u\t%.0f", newpose.getX(), newpose.getY(), oldpose.getX(), oldpose.getY(), robot->getVel(), dist, fabs(speed-robot->getVel()), poserr, lastint, fabs((double)realint-(double)lastint));
      if(poserr > 25)
        printf("\t!!");
      if(poserr > 50)
        printf("!!");
      if(poserr > 100)
      {
        printf("!!");
      }
      if(poserr > 250)
      {
        robot->comStr(ArCommands::SIM_MESSAGE, "Warning, client detected big jump (>100)!");
        printf("!!");
      }
      puts(""); fflush(stdout);
      if(poserr > 500)
      {
        puts("Distance error is too much (more than 500 mm)!! Stopping here");
        robot->comStr(ArCommands::SIM_MESSAGE, "Jump was too big (>500)! Stopping here.");
        robot->stop();
        return; 
      }
      oldpose = newpose;
      if(newpose.findDistanceTo(corner) >= turndist)
      {
        puts("   [turning]");
        corner = newpose;
        robot->setDeltaHeading(-90);
      }
    }
  }
};

class CheckRotationTask
{
  void checkRotation()
  {
  }
};


/* * TODO: Register with Aria as an argument parser. * */

void usageerror()
{
  printf("usage: testMobileSim <options>\n"
      "               or\n"\
      "          testMobileSim --all --message <message to send> --message-sequence --newmap <name of mapfile>\n"\
      "testMobileSim options:\n" \
      " --stayconnected --simstat --message <message to send> --setpose <X,Y,TH>\n"
      " --move --vel2 --exit --newmap|--master-newmap <name of mapfile> --config\n"
      " --gps --position --rotation --die-during-sync --slow-sync --crash\n"
      " --sleep-after-newmap --logstate <message to send>\n"
      "Note: --stayconnected, --position and --rotation enable a persistent mode that does not exit.\n\n"
      );
  Aria::logOptions();
  exit(1);
}

int main(int argc, char **argv)
{
  const int test_simstat = 1;
  const int test_message = 1<<1;
  const int test_setpose = 1<<2;
  const int test_move = 1<<3;
  const int test_vel2 = 1<<4;
  const int test_exit = 1<<5;
  const int test_newmap = 1<<6;
  const int test_seta = 1<<7;
  const int test_config = 1<<8;
  const int test_old_broken_setpose = 1<<9;
  const int test_gps = 1<<10;
  const int test_position = 1<<11;
  const int test_rotation = 1<<12;
  const int test_die_during_sync = 1<<13;
  const int test_slow_sync = 1<<14;
  const int test_crash = 1<<15;
  const int test_message_sequence = 1<<16;
  const int test_hang_during_sync = 1<<17;
  const int test_logstate = 1<<18;

  int testmask = 0;
  char* mapfile = NULL;
  bool master_newmap = false;
  char* message = NULL;
  char* logstate_msg = NULL;
  int32_t X = 0;
  int32_t Y = 0;
  int32_t Th = 0;
  bool stayConnected = false;
  bool simdevicepacket = false;
  bool sleep_after_newmap = false;

  Aria::init();
  ArLog::init(ArLog::StdErr, ArLog::Normal);
  ArArgumentParser parser(&argc, argv);
  ArSimpleConnector connector(&parser);

  if(parser.checkArgument("--help") || parser.checkArgument("-help"))
    usageerror();
  mapfile = parser.checkParameterArgument("--newmap");
  if(mapfile)
  {
    if(strlen(mapfile) == 0)
      usageerror();
    printf("mapfile will be \"%s\"\n", mapfile);
    testmask |= test_newmap;
  }
  master_newmap = parser.checkArgument("--master-newmap");
  sleep_after_newmap =  parser.checkArgument("--sleep-after-newmap");

  message = parser.checkParameterArgument("--message");
  if(message)
  {
    if(strlen(message) == 0)
      usageerror();
    printf("message will be \"%s\"\n", message);
    testmask |= test_message;
  }

  if(parser.checkArgument("--simstat"))
    testmask |= test_simstat;
  char* posestr = parser.checkParameterArgument("--setpose");
  if(posestr)
  {
    if(strlen(posestr) == 0)
      usageerror();
    sscanf(posestr, "%d,%d,%d", &X, &Y, &Th);
    printf("setpose: X=%d, Y=%d, Th=%d.\n", X, Y, Th);
    testmask |= test_setpose;
  }
  if(parser.checkArgument("--move"))
    testmask |= test_move;
  if(parser.checkArgument("--vel2"))
    testmask |= test_vel2;
  if(parser.checkArgument("--exit"))
    testmask |= test_exit;
  if(parser.checkArgument("--seta"))
    testmask |= test_seta;
  if(parser.checkArgument("--config"))
    testmask |= test_config;
  if(parser.checkArgument("--broken-setpose"))
    testmask |= test_old_broken_setpose;
  if(parser.checkArgument("--gps"))
  {
    testmask |= test_gps;
    simdevicepacket = true;
  }
  if(parser.checkArgument("--position"))
  {
    testmask |= test_position;
  }
  if(parser.checkArgument("--rotation"))
  {
    testmask |= test_rotation;
  }
  if(parser.checkArgument("--die-during-sync"))
  {
    testmask |= test_die_during_sync;
  }
  if(parser.checkArgument("--slow-sync"))
  {
    testmask |= test_slow_sync;
  }
  if(parser.checkArgument("--crash"))
  {
    testmask |= test_crash;
  }
  if(parser.checkArgument("--message-sequence"))
  {
    testmask |= test_message_sequence;
  }
  if(parser.checkArgument("--hang-during-sync"))
  {
    testmask |= test_hang_during_sync;
  }

  logstate_msg = parser.checkParameterArgument("--logstate");
  if(logstate_msg)
  {
    testmask |= test_logstate;
  }
  
  if(parser.checkArgument("--all"))
  {
    if(!message || !mapfile)
      usageerror();
    testmask = 0xFF;
  }

  if(parser.checkArgument("--stayconnected"))
    stayConnected = true;
      


  ArRobot robot;
  robot.setLogMovementSent(true);

  ArSick laser;
  robot.addRangeDevice(&laser);

  if (!connector.parseArgs())
  {
    connector.logOptions();
    return 1;
  }


  if(testmask & test_die_during_sync)
  {
    connector.setupRobot(&robot);
    robot.asyncConnect();
    ArUtil::sleep(20);
    abort();
  }
  else if(testmask & test_slow_sync)
  {
    connector.setupRobot(&robot);
    ArDeviceConnection *devCon = robot.getDeviceConnection();
    assert(devCon->openSimple());
    for(int syncSeq = 0; syncSeq < 3; ++syncSeq)
    {
      for(int i = 0; i < 3; ++i)
      {
        printf("Sending SYNC%d packet...\n", syncSeq);
        ArRobotPacket pkt;
        pkt.setID(syncSeq);
        pkt.finalizePacket();
        devCon->writePacket(&pkt);
        ArRobotPacketReceiver rec;
        rec.setDeviceConnection(devCon);
        ArRobotPacket *replyPkt = rec.receivePacket(1000);
        assert(replyPkt);
        printf("Got reply to SYNC%d: SYNC%d.\n", syncSeq, replyPkt->getID());
        if(replyPkt->getID() == 2)
        {
          printf("Got SYNC2 with length %d.\n", replyPkt->getDataLength());
          exit(0);
        }
      }
    }
    puts("Hey, did we never receive SYNC2? ");
    exit(-1);
  }
  else if(testmask & test_hang_during_sync)
  {
    connector.setupRobot(&robot);
    robot.asyncConnect();
    ArUtil::sleep(20);
    puts("Hanging (by locking ArRobot indefinitely and then doing nothing forever)...");
    robot.lock();
    while(true)
      ArUtil::sleep(1000000);
  }
  else
  {
    if (!connector.connectRobot(&robot))
    {
      printf("Could not connect to simulated robot... exiting\n");
      return 2;
    }
  }
  printf("Connected to robot.\n");
  robot.runAsync(true);

  printf("running laser.\n");
  connector.setupLaser(&laser);
  laser.runAsync();
  printf("connecting to laser.\n");
  if(!laser.blockingConnect())
  {
    printf("Could not connect to simulated laser. That's OK, maybe it doesn't have one.\n");
  }

  robot.enableMotors();

  ArGlobalRetFunctor1<bool, ArRobotPacket*> mySimDeviceDataPacketHandler(&handleSimDeviceData);
  if(simdevicepacket) {
    puts("adding simdevicedata packet handler...");
    robot.addPacketHandler(&mySimDeviceDataPacketHandler);
  }

  ArGlobalRetFunctor1<bool, ArRobotPacket*> mySimStatPacketHandler(&handleSimStatPacket);
  if(testmask & test_simstat)
  {
    printf("** SIMSTAT **\n");
    robot.addPacketHandler(&mySimStatPacketHandler);
    printf("-> SIM_STAT 1...\n");
    robot.comInt(ArCommands::SIM_STAT, 1);
    printf("Request sent. sleeping for 4 seconds...\n");
    ArUtil::sleep(4000);
    robot.remPacketHandler(&mySimStatPacketHandler);
  }

  if(testmask & test_gps)
  {
    printf("** GPS request **\n");
    struct gpscmd {
      ArTypes::Byte enable;
      char gpsstr[4];
      ArTypes::UByte2 idx;
    };
    gpscmd c;
    c.enable = 1;
    strcpy(c.gpsstr, "gps");
    c.idx = 0;
    printf("-> 229 %d, \"%s\", %d...\n", c.enable, c.gpsstr, c.idx);
    robot.comDataN(229, (const char*)&c, sizeof(c)); 
  }

  if(testmask & test_message)
  {
    printf("** Message **\n");
    printf("-> SIM_MESSAGE \"%s\"...\n", message);
    robot.comStr(ArCommands::SIM_MESSAGE, message);
    printf("Message command sent (message length %d bytes).\n\n", strlen(message));
  }

  if(testmask & test_message_sequence)
  {
    puts("** Message sequence (1..20)");
    char buf[8];
    for(int i = 1; i <= 20; ++i)
    {
      snprintf(buf, 8, "seq%d", i);
      printf("-> SIM_MESSAGE \"%s\"...\n", buf);
      robot.comStr(ArCommands::SIM_MESSAGE, buf);
      printf("Message command sent (message length %d bytes).\n\n", strlen(buf));
    }
  }

  if(testmask & test_old_broken_setpose)
  {
    /* OLD WAY:*/
    printf("** SIM_SET_POSE with broken argument packing **\n");
    int16_t cmd[6];
    cmd[1] = (int16_t) X;
    cmd[0] = (int16_t) (X >> 16);

    cmd[3] = (int16_t) Y;
    cmd[2] = (int16_t) (Y >> 16);

    cmd[5] = (int16_t) Th;
    cmd[4] = (int16_t) (Th >> 16);
    printf("-> SIM_SET_POSE,\n");
    printf("\t x[0] = %d, x[1] = %d;    y[0] = %d, y[1] = %d;    th[0] = %d, th[1] = %d\n", cmd[0], cmd[1], cmd[2], cmd[3], cmd[4], cmd[5]);
    robot.comDataN(ArCommands::SIM_SET_POSE, (char*)cmd, sizeof(cmd));
    printf("Command sent.\n\n");
  }
    
  if(testmask & test_setpose)
  {
    printf("** SIM_SET_POSE **\n");

    ArRobotPacket pkt;
    pkt.setID(ArCommands::SIM_SET_POSE);
    pkt.uByteToBuf(0);
    pkt.byte4ToBuf(X);
    pkt.byte4ToBuf(Y);
    pkt.byte4ToBuf(Th);
    pkt.finalizePacket();
    printf("-> SIM_SET_POSE %d %d %d\n", X, Y, Th);
    robot.getDeviceConnection()->write(pkt.getBuf(), pkt.getLength());
    printf("Command sent.\n\n");
  }

  if(testmask & test_seta)
  {
    puts("** SETA test **");
    if(robot.hasSettableAccsDecs())
      puts("ArRobot thinks this robot has settable acceleration and deceleration.");
    else
      puts("WARNING ArRobot does not think that this robot has settable acceleration and deceleration.");
    //puts("-> SETA 500...");
    //robot.comInt(ArCommands::SETA, 500);
    //puts("Command sent.\n");
    puts("-> SETA 500 (via ArRobot)...");
    robot.setTransAccel(500);
    puts("TransAccel set in ArRobot. Will be sent next state reflection cycle.  Waiting 300ms for cycles to happen...\n");
    ArUtil::sleep(300);
  }

  if(testmask & test_move)
  {
    printf("** MOVE test **\n");
    printf("-> MOVE 1000\n");
    robot.lock();
    robot.move(1000);
    robot.unlock();
    printf("(sleep 4 sec)...\n"); ArUtil::sleep(4000);
    printf("-> MOVE -2000\n");
    robot.move(-2000);
    printf("(sleep 5 sec)...\n"); ArUtil::sleep(5000);
    printf("-> MOVE -2000\n");
    robot.move(-2000);
    printf("(sleep 5 sec)...\n"); ArUtil::sleep(5000);
    printf("-> MOVE 1\n");
    robot.move(1);
    printf("(sleep 2 sec)...\n"); ArUtil::sleep(2000);
    printf("-> MOVE 0\n");
    robot.move(0);
    printf("(sleep 2 sec)...\n"); ArUtil::sleep(2000);
    printf("-> MOVE 500\n");
    robot.move(500);
    printf("(sleep 3 sec)...\n"); ArUtil::sleep(3000);
    printf("-> MOVE 500\n");
    robot.move(500);
    printf("(sleep 3 sec)...\n"); ArUtil::sleep(3000);
    printf("-> MOVE 500\n");
    robot.move(500);
    printf("(sleep 3 sec)...\n"); ArUtil::sleep(3000);
    printf("\n");
  }

  if(testmask & test_vel2)
  {
    printf("** VEL2 Tests **\n");
    printf("-> VEL2 100 100...\n");
    robot.setVel2(100, 100);
    ArUtil::sleep(4000);
    printf("-> VEL2 -100 100...\n");
    robot.setVel2(-100, 100);
    ArUtil::sleep(4000);
    printf("-> VEL2 100 -100...\n");
    robot.setVel2(100, -100);
    ArUtil::sleep(4000);
    printf("-> VEL2 150 100...\n");
    robot.setVel2(200, 100);
    ArUtil::sleep(4000);
    printf("-> VEL2 -200 -200...\n");
    robot.setVel2(-200, -200);
    ArUtil::sleep(4000);
    printf("-> VEL2 0 0...\n");
    robot.setVel2(0, 0);
    ArUtil::sleep(4000);
    printf("-> stop...\n");
    robot.stop();
    printf("\n\n");
  }

  if(testmask & test_newmap)
  {
    ArGlobalRetFunctor1<bool, ArRobotPacket*> mapChanged(&handleSimMapChangedPacket);
    robot.addPacketHandler(&mapChanged);
    ArUtil::sleep(200);
    if(master_newmap)
      printf("** SIM_CTRL 2 (master load new map) **\n");
    else
      printf("** SIM_CTRL 1 (load new map) **\n");
    struct sim_ctrl_map_t {
      ArTypes::Byte2 code;
      ArTypes::UByte2 len;
      char mapfile[128];
    };
    struct sim_ctrl_map_t cmd;
    if(master_newmap)
      cmd.code = 2;
    else
      cmd.code = 1;
    cmd.len = strlen(mapfile);
    memset(cmd.mapfile, 0, 128);
    strncpy(cmd.mapfile, mapfile, cmd.len);
    printf("-> SIM_CTRL %d, %d, \"%s\"...\n", cmd.code, cmd.len, cmd.mapfile);
    robot.comDataN(ArCommands::SIM_CTRL, (const char*)&cmd, sizeof(cmd));
    puts("   waiting for map change reply packet...");
    gotSimMapChangedPacketCondition.wait();
    puts("   got map change reply packet.");
    if(sleep_after_newmap)
    {
      puts("    sleeping for 15 seconds...");
      ArUtil::sleep(15000);
    }
  }

  
  if(testmask & test_config)
  {
    puts("** Config Packet **");
    ArGlobalRetFunctor1<bool, ArRobotPacket*> myConfigPacketHandler(&handleConfigPacket);
    robot.addPacketHandler(&myConfigPacketHandler);
    ArUtil::sleep(300);
    puts("-> CONFIG...");
    robot.com(18);
    gotConfigPacketCondition.wait();
    printf("\nArRobot::getAbsoluteMaxTransVel() == %f.", robot.getAbsoluteMaxTransVel());
  }

  if(testmask & test_crash)
  {
    puts("** SIM_RESET test (crash/abort MobileSim) after 2 sec");
    ArUtil::sleep(2000);
    puts("-> 255...");
    robot.com(255);
  }

  if(testmask & test_exit)
  {
    printf("** SIM_EXIT test **\n");
    printf("-> SIM_EXIT 23...\n");
    robot.comInt(ArCommands::SIM_EXIT, 23);
    // old SRISim command: robot.com(62);
    printf("\n\n");
  }


  // Note: must be last test:
  if(testmask & test_position || testmask & test_rotation)
  {
    printf("** Positions match velocities test **\n");
    int time = 1000;
    log_simstat = false;
    ArGlobalRetFunctor1<bool, ArRobotPacket*> mySimStatPacketHandler(&handleSimStatPacket);
    robot.lock();
    robot.addPacketHandler(&mySimStatPacketHandler);
    printf("-> SIMSTAT 2\n");
    robot.comInt(237, 2);
    printf("(now is the time to move the robot in the sim before the test start...)\n");
    robot.unlock();
    ArUtil::sleep(4000);
    robot.lock();

    if(testmask & test_position)
    {
      double speed = 200;
      int turndist = 20000;
      printf("-> VEL %.0f...\n", speed);
      robot.setVel(speed);
      robot.unlock();
      ArUtil::sleep(4000);  // let it get up to speed, also more time to move the robot or whatever
      robot.lock();
      (new CheckPositionTask(&robot, speed, time, turndist))->addTask();
    }
    else if(testmask & test_rotation)
    {
      double speed = 30;
      printf("-> RVEL %.0f...\n", speed);
      robot.setRotVel(speed);
      robot.unlock();
      ArUtil::sleep(1000);
      robot.lock();
      //(new CheckRotationTask(&robot, speed, time))->addTask();
    }

    robot.unlock();
    stayConnected = true;
  }

  if(testmask & test_logstate)
  {
    puts("** SIM_CTRL 5 (logstate) **");
    struct {
      ArTypes::Byte2 sim_ctrl;
      char logmsg[128];
    } cmd;
    cmd.sim_ctrl = 5;
    //cmd.len = strlen(logstate_msg);
    strncpy(cmd.logmsg, logstate_msg, 128);
    printf("-> SIM_CTRL %d, \"%s\"...\n", cmd.sim_ctrl, cmd.logmsg);
    robot.comDataN(ArCommands::SIM_CTRL, (const char*)&cmd, sizeof(cmd));
  } 
      
  // ------ end of tests -----

  robot.lock();
  if(stayConnected && robot.isRunning())
  {
    robot.unlock();
    puts("waitForRunExit()");
    robot.waitForRunExit();
  }
  else
  {
    robot.unlock();
  }

  printf("** Done with tests. Sleeping for 3 seconds and then stopping ArRobot thread... **\n");
  ArUtil::sleep(3000);
  robot.stopRunning();
  printf("** Exiting. **\n");
  return 0;
}