Example #1
0
int main(int argc, char **argv)
{
  std::string robotIp = "127.0.0.1";

  if (argc < 2) {
    std::cerr << "Usage: almotion_setBreathConfig robotIp "
              << "(optional default \"127.0.0.1\")."<< std::endl;
  }
  else {
    robotIp = argv[1];
  }

  AL::ALMotionProxy motion(robotIp);

  // Example showing how to change the breathing configuration
  // Setting a relaxed configuration: 5 breaths per minute at max amplitude
  AL::ALValue breathConfig;
  breathConfig.arraySetSize(2);

  AL::ALValue tmp;
  tmp.arraySetSize(2);
  tmp[0] = "Bpm";
  tmp[1] = 5.0f;
  breathConfig[0] = tmp;

  tmp[0] = "Amplitude";
  tmp[1] = 1.0f;
  breathConfig[1] = tmp;
  motion.setBreathConfig(breathConfig);

  return 0;
}
Example #2
0
void SensorsModule::initializeSonarValues()
{
    // Get a proxy to the DCM.
    boost::shared_ptr<AL::DCMProxy> dcmProxy = broker_->getDcmProxy();
    if(dcmProxy != 0)
    {
        try
        {
            // For DCM::set() see:
            // http://www.aldebaran-robotics.com/documentation/naoqi/sensors/dcm-api.html#DCMProxy::set__AL::ALValueCR
            AL::ALValue dcmSonarCommand;

            dcmSonarCommand.arraySetSize(3);
            dcmSonarCommand[0] = std::string("Device/SubDeviceList/US/Actuator/Value"); // Device name.
            dcmSonarCommand[1] = std::string("ClearAll"); // Delete all timed commands before adding this one.

            dcmSonarCommand[2].arraySetSize(1); // A list of (1) timed-commands.
            dcmSonarCommand[2][0].arraySetSize(2);
            dcmSonarCommand[2][0][0] = 68.0; // The command itself.
            dcmSonarCommand[2][0][1] = dcmProxy->getTime(0); // The DCM time for the command to be applied.

            // Send the timed command to the sonars.
            dcmProxy->set(dcmSonarCommand);
        }
        catch(AL::ALError& e)
        {
            std::cout << "SensorsModule : Failed to initialize sonars, "
                      << e.toString() << std::endl;
        }
    }
}
/**
  * \brief: Create the aliases for controlling the joint stiffnesses.
  **/
void hal_experimental::create_actuator_stiffness_aliases()
{
    LOG("[create_actuator_stiffness]", "create actuator stiffness initializing...");

    AL::ALValue jointAliases;
    try
    {
        jointAliases.clear();
        jointAliases.arraySetSize(2);
        jointAliases[0] = std::string("jointStiffness");
        jointAliases[1].arraySetSize(25);
        int j = 0;
        for(int i = NumOfPositionActuatorIds; i <= rAnkleRollStiffnessActuator; ++i)
        {
            jointAliases[1][j] = actuatorNames[i];
            ++j;
        }
        // jointAliases[1][HEAD_PITCH]        = std::string("Device/SubDeviceList/HeadPitch/Hardness/Actuator/Value");
        // jointAliases[1][HEAD_YAW]          = std::string("Device/SubDeviceList/HeadYaw/Hardness/Actuator/Value");
        // jointAliases[1][L_ANKLE_PITCH]     = std::string("Device/SubDeviceList/LAnklePitch/Hardness/Actuator/Value");
        // jointAliases[1][L_ANKLE_ROLL]      = std::string("Device/SubDeviceList/LAnkleRoll/Hardness/Actuator/Value");
        // jointAliases[1][L_ELBOW_ROLL]      = std::string("Device/SubDeviceList/LElbowRoll/Hardness/Actuator/Value");
        // jointAliases[1][L_ELBOW_YAW]       = std::string("Device/SubDeviceList/LElbowYaw/Hardness/Actuator/Value");
        // jointAliases[1][L_HAND]            = std::string("Device/SubDeviceList/LHand/Hardness/Actuator/Value");
        // jointAliases[1][L_HIP_PITCH]       = std::string("Device/SubDeviceList/LHipPitch/Hardness/Actuator/Value");
        // jointAliases[1][L_HIP_ROLL]        = std::string("Device/SubDeviceList/LHipRoll/Hardness/Actuator/Value");
        // jointAliases[1][L_HIP_YAW_PITCH]   = std::string("Device/SubDeviceList/LHipYawPitch/Hardness/Actuator/Value");
        // jointAliases[1][L_KNEE_PITCH]      = std::string("Device/SubDeviceList/LKneePitch/Hardness/Actuator/Value");
        // jointAliases[1][L_SHOULDER_PITCH]  = std::string("Device/SubDeviceList/LShoulderPitch/Hardness/Actuator/Value");
        // jointAliases[1][L_SHOULDER_ROLL]   = std::string("Device/SubDeviceList/LShoulderRoll/Hardness/Actuator/Value");
        // jointAliases[1][L_WRIST_YAW]       = std::string("Device/SubDeviceList/LWristYaw/Hardness/Actuator/Value");
        // jointAliases[1][R_ANKLE_PITCH]     = std::string("Device/SubDeviceList/RAnklePitch/Hardness/Actuator/Value");
        // jointAliases[1][R_ANKLE_ROLL]      = std::string("Device/SubDeviceList/RAnkleRoll/Hardness/Actuator/Value");
        // jointAliases[1][R_ELBOW_ROLL]      = std::string("Device/SubDeviceList/RElbowRoll/Hardness/Actuator/Value");
        // jointAliases[1][R_ELBOW_YAW]       = std::string("Device/SubDeviceList/RElbowYaw/Hardness/Actuator/Value");
        // jointAliases[1][R_HAND]            = std::string("Device/SubDeviceList/RHand/Hardness/Actuator/Value");
        // jointAliases[1][R_HIP_PITCH]       = std::string("Device/SubDeviceList/RHipPitch/Hardness/Actuator/Value");
        // jointAliases[1][R_HIP_ROLL]        = std::string("Device/SubDeviceList/RHipRoll/Hardness/Actuator/Value");
        // jointAliases[1][R_KNEE_PITCH]      = std::string("Device/SubDeviceList/RKneePitch/Hardness/Actuator/Value");
        // jointAliases[1][R_SHOULDER_PITCH]  = std::string("Device/SubDeviceList/RShoulderPitch/Hardness/Actuator/Value");
        // jointAliases[1][R_SHOULDER_ROLL]   = std::string("Device/SubDeviceList/RShoulderRoll/Hardness/Actuator/Value");
        // jointAliases[1][R_WRIST_YAW]       = std::string("Device/SubDeviceList/RWristYaw/Hardness/Actuator/Value");

    }
    catch(const AL::ALError &e)
    {
        std::cout << "[create_actuator_stiffness][ERROR]: Error setting up the aliase: " << e.toString() << std::endl;
    }

    try
    {
        dcm_proxy->createAlias(jointAliases);
        log_file << "stiffness alias added to DCM!\n";
    }
    catch(const AL::ALError &e)
    {
        LOG("[create_actuator_stiffness]","[ERROR]: An error occured while creating stiffness actuator aliases: " + e.toString());
    }
    LOG("[create_actuator_stiffness]","create actuator stiffness initialized");
}
Example #4
0
/**
 * Creates the appropriate aliases with the DCM
 */
void NaoEnactor::initDCMAliases(){
    AL::ALValue positionCommandsAlias;
    positionCommandsAlias.arraySetSize(3);
    positionCommandsAlias[0] = string("AllActuatorPosition");
    positionCommandsAlias[1].arraySetSize(Kinematics::NUM_JOINTS);

    AL::ALValue hardCommandsAlias;
    hardCommandsAlias.arraySetSize(3);
    hardCommandsAlias[0] = string("AllActuatorHardness");
    hardCommandsAlias[1].arraySetSize(Kinematics::NUM_JOINTS);

    for (unsigned int i = 0; i<Kinematics::NUM_JOINTS; i++){
        positionCommandsAlias[1][i] = jointsP[i];
        hardCommandsAlias[1][i] = jointsH[i];
    }

    dcmProxy->createAlias(positionCommandsAlias);
    dcmProxy->createAlias(hardCommandsAlias);
}
/**
  * \brief: Creates an alias for all the position actuators.
  **/
void hal_experimental::create_actuator_position_aliases()
{
    LOG("[create_actuator_pos]","create actuator position initializing...");

    AL::ALValue jointAliases;

    jointAliases.arraySetSize(2);
    jointAliases[0] = std::string("jointActuators");
    jointAliases[1].arraySetSize(NumOfPositionActuatorIds);
    for(int i = 0; i < NumOfPositionActuatorIds; ++i)
    {
        jointAliases[1][i] = std::string(actuatorNames[i]);
    }


    // Joints actuator list
    //  jointAliases[1].arraySetSize(25);
    // jointAliases[1][HEAD_PITCH]       = std::string("Device/SubDeviceList/HeadPitch/Position/Actuator/Value");
    // jointAliases[1][HEAD_YAW]         = std::string("Device/SubDeviceList/HeadYaw/Position/Actuator/Value");
    // jointAliases[1][L_ANKLE_PITCH]    = std::string("Device/SubDeviceList/LAnklePitch/Position/Actuator/Value");
    // jointAliases[1][L_ANKLE_ROLL]     = std::string("Device/SubDeviceList/LAnkleRoll/Position/Actuator/Value");
    // jointAliases[1][L_ELBOW_ROLL]     = std::string("Device/SubDeviceList/LElbowRoll/Position/Actuator/Value");
    // jointAliases[1][L_ELBOW_YAW]      = std::string("Device/SubDeviceList/LElbowYaw/Position/Actuator/Value");
    // jointAliases[1][L_HAND]           = std::string("Device/SubDeviceList/LHand/Position/Actuator/Value");
    // jointAliases[1][L_HIP_PITCH]      = std::string("Device/SubDeviceList/LHipPitch/Position/Actuator/Value");
    // jointAliases[1][L_HIP_ROLL]       = std::string("Device/SubDeviceList/LHipRoll/Position/Actuator/Value");
    // jointAliases[1][L_HIP_YAW_PITCH]  = std::string("Device/SubDeviceList/LHipYawPitch/Position/Actuator/Value");
    // jointAliases[1][L_KNEE_PITCH]     = std::string("Device/SubDeviceList/LKneePitch/Position/Actuator/Value");
    // jointAliases[1][L_SHOULDER_PITCH] = std::string("Device/SubDeviceList/LShoulderPitch/Position/Actuator/Value");
    // jointAliases[1][L_SHOULDER_ROLL]  = std::string("Device/SubDeviceList/LShoulderRoll/Position/Actuator/Value");
    // jointAliases[1][L_WRIST_YAW]      = std::string("Device/SubDeviceList/LWristYaw/Position/Actuator/Value");
    // jointAliases[1][R_ANKLE_PITCH]    = std::string("Device/SubDeviceList/RAnklePitch/Position/Actuator/Value");
    // jointAliases[1][R_ANKLE_ROLL]     = std::string("Device/SubDeviceList/RAnkleRoll/Position/Actuator/Value");
    // jointAliases[1][R_ELBOW_ROLL]     = std::string("Device/SubDeviceList/RElbowRoll/Position/Actuator/Value");
    // jointAliases[1][R_ELBOW_YAW]      = std::string("Device/SubDeviceList/RElbowYaw/Position/Actuator/Value");
    // jointAliases[1][R_HAND]           = std::string("Device/SubDeviceList/RHand/Position/Actuator/Value");
    // jointAliases[1][R_HIP_PITCH]      = std::string("Device/SubDeviceList/RHipPitch/Position/Actuator/Value");
    // jointAliases[1][R_HIP_ROLL]       = std::string("Device/SubDeviceList/RHipRoll/Position/Actuator/Value");
    // jointAliases[1][R_KNEE_PITCH]     = std::string("Device/SubDeviceList/RKneePitch/Position/Actuator/Value");
    // jointAliases[1][R_SHOULDER_PITCH] = std::string("Device/SubDeviceList/RShoulderPitch/Position/Actuator/Value");
    // jointAliases[1][R_SHOULDER_ROLL]  = std::string("Device/SubDeviceList/RShoulderRoll/Position/Actuator/Value");
    // jointAliases[1][R_WRIST_YAW]      = std::string("Device/SubDeviceList/RWristYaw/Position/Actuator/Value");
    try
    {
        dcm_proxy->createAlias(jointAliases);
        log_file << "position alias added to DCM!\n";

    }
    catch(const AL::ALError &e)
    {
        LOG("[create_actuaor_pos]","[ERROR]: Error creating actuator position aliases: " + e.toString());
    }

    LOG("[create_actuator_pos]","create actuator position initialized");
}
Example #6
0
void NaoSim::ControlSteps(const int &num)
{
    for(int i=0; i<num; i++)
    {
        step();


        fastMotionCommands->GetValues(commandValues);

        //set angles
        //rearrange the command
        AL::ALValue dummyCommand;
        dummyCommand.arraySetSize(26);
        dummyCommand[HeadYaw] = commandValues[HEAD_YAW];
        dummyCommand[HeadPitch] = commandValues[HEAD_PITCH];

        dummyCommand[LShoulderPitch] = commandValues[L_SHOULDER_PITCH];
        dummyCommand[LShoulderRoll] = commandValues[L_SHOULDER_ROLL];
        dummyCommand[LElbowYaw] = commandValues[L_ELBOW_YAW];
        dummyCommand[LElbowRoll] = commandValues[L_ELBOW_ROLL];
        dummyCommand[LWristYaw] = commandValues[L_WRIST_YAW];
        dummyCommand[LHand] = 0.0f;

        dummyCommand[LHipYawPitch] = commandValues[HIP_YAW_PITCH];
        dummyCommand[LHipRoll] = commandValues[L_HIP_ROLL];
        dummyCommand[LHipPitch] = commandValues[L_HIP_PITCH];
        dummyCommand[LKneePitch] = commandValues[L_KNEE_PITCH];
        dummyCommand[LAnklePitch] = commandValues[L_ANKLE_PITCH];
        dummyCommand[LAnkleRoll] = commandValues[L_ANKLE_ROLL];

        dummyCommand[RHipYawPitch] = commandValues[HIP_YAW_PITCH];
        dummyCommand[RHipRoll] = commandValues[R_HIP_ROLL];
        dummyCommand[RHipPitch] = commandValues[R_HIP_PITCH];
        dummyCommand[RKneePitch] = commandValues[R_KNEE_PITCH];
        dummyCommand[RAnklePitch] = commandValues[R_ANKLE_PITCH];
        dummyCommand[RAnkleRoll] = commandValues[R_ANKLE_ROLL];

        dummyCommand[RShoulderPitch] = commandValues[R_SHOULDER_PITCH];
        dummyCommand[RShoulderRoll] = commandValues[R_SHOULDER_ROLL];
        dummyCommand[RElbowYaw] = commandValues[R_ELBOW_YAW];
        dummyCommand[RElbowRoll] = commandValues[R_ELBOW_ROLL];
        dummyCommand[RWristYaw] = commandValues[R_WRIST_YAW];
        dummyCommand[RHand] = 0.0f;

        motionProxy->setAngles("Body",dummyCommand, 1.0f);


    }
}
Example #7
0
void KmeAction::DcmInit()
{
	AL::ALValue jointAliasses;
	vector<std::string> PosActuatorStrings = KDeviceLists::getPositionActuatorKeys();
	jointAliasses.arraySetSize(2);
	jointAliasses[0] = std::string("BodyWithoutHead"); // Alias for Body joint actuators without Head joins
	jointAliasses[1].arraySetSize(20);

	// Joints actuator list
	for (int i = KDeviceLists::L_ARM; i < KDeviceLists::NUMOFJOINTS; i++)
	{
		jointAliasses[1][i - KDeviceLists::L_ARM] = PosActuatorStrings[i];
	}

	// Create alias
	try
	{
		dcm->createAlias(jointAliasses);
	}
	catch (const AL::ALError &e)
	{
		throw ALERROR("KmeAction", "createKmeActuatorAlias()", "Error when creating Alias : " + e.toString());
	}

	// Create Commands
	commands.arraySetSize(6);
	commands[0] = string("BodyWithoutHead");
	commands[1] = string("ClearAll"); // Erase all previous commands
	commands[2] = string("time-separate");
	commands[3] = 0;
	commands[5].arraySetSize(20); // For all joints except head

	for (unsigned int i = 0; i < commands[5].getSize(); i++)
	{
		commands[5][i].arraySetSize(actionTimes[0].getSize()); 		//num of poses

		for (unsigned int j = 0; j < commands[5][i].getSize(); j++)
		{
			commands[5][i][j] = actionAngles[i + 2][j];					// actionAngles[joints][poses], commands[5][joints][poses]
			// Logger::Instance().WriteMsg("KmeACTION", "commands " + _toString(commands[5][i][j]) , Logger::ExtraInfo);
		}
	}
}
/**
  * \brief: Set the stiffness value for every joint on the robot to a single value
  **/
void hal_experimental::set_all_actuator_stiffnesses(const float &stiffnessVal)
{
    log_file << "[set_all_stiffness]: << Setting All stiffness values to: " << stiffnessVal << std::endl;

    AL::ALValue stiffnessCommands;
    int DCMTime;

    try
    {
        DCMTime = dcm_proxy->getTime(1000); //Time NAOQi has been running + 1000ms
    }
    catch(const AL::ALError &e)
    {
        LOG("[set_all_stiffness]","[ERROR] An error occured while setting stiffness value: " + e.toString());
    }

    stiffnessCommands.arraySetSize(3);
    stiffnessCommands[0] = std::string("jointStiffness");
    stiffnessCommands[1] = std::string("Merge");
    stiffnessCommands[2].arraySetSize(1);
    stiffnessCommands[2][0].arraySetSize(2);
    stiffnessCommands[2][0][0] = stiffnessVal;
    stiffnessCommands[2][0][1] = DCMTime;

    log_file << "[set_all_stiffness] Alias set up..trying to set it now." << std::endl;
    std::cout << "[set_all_stiffness] Alias set up..trying to set it now." << std::endl;
    try
    {
        dcm_proxy->set(stiffnessCommands);
        LOG("[set_all_stiffness]","Stiffness Values Set!");
    }
    catch(const AL::ALError &e)
    {
        LOG("[set_all_stiffness]","[ERROR] An error occured while setting stiffness value: " + e.toString());
    }

    log_file << "[set_all_stiffness]: Done Setting all stiffness values to: " << stiffnessVal << std::endl;
}
Example #9
0
  /**
   * The constructor sets up the structures required to communicate with NAOqi.
   * @param pBroker A NAOqi broker that allows accessing other NAOqi modules.
   */
  GameCtrl(boost::shared_ptr<AL::ALBroker> pBroker)
    : ALModule(pBroker, "GameCtrl"),
      proxy(0),
      memory(0),
      udp(0),
      teamNumber(0)
  {
    setModuleDescription("A module that provides packets from the GameController.");

    assert(numOfButtons == sizeof(buttonNames) / sizeof(*buttonNames));
    assert(numOfLEDs == sizeof(ledNames) / sizeof(*ledNames));

    init();

    try
    {
      memory = new AL::ALMemoryProxy(pBroker);
      proxy = new AL::DCMProxy(pBroker);

      AL::ALValue params;
      AL::ALValue result;
      params.arraySetSize(1);
      params.arraySetSize(2);

      params[0] = std::string("leds");
      params[1].arraySetSize(numOfLEDs);
      for(int i = 0; i < numOfLEDs; ++i)
        params[1][i] = std::string(ledNames[i]);
      result = proxy->createAlias(params);
      assert(result == params);

      ledRequest.arraySetSize(6);
      ledRequest[0] = std::string("leds");
      ledRequest[1] = std::string("ClearAll");
      ledRequest[2] = std::string("time-separate");
      ledRequest[3] = 0;
      ledRequest[4].arraySetSize(1);
      ledRequest[5].arraySetSize(numOfLEDs);
      for(int i = 0; i < numOfLEDs; ++i)
        ledRequest[5][i].arraySetSize(1);

      for(int i = 0; i < numOfButtons; ++i)
        buttons[i] = (float*) memory->getDataPtr(buttonNames[i]);

      // If no color was set, set it to black (no LED).
      // This actually has a race condition.
      if(memory->getDataList("GameCtrl/teamColour").empty())
        memory->insertData("GameCtrl/teamColour", TEAM_BLACK);

      playerNumber = (int*) memory->getDataPtr("GameCtrl/playerNumber");
      teamNumberPtr = (int*) memory->getDataPtr("GameCtrl/teamNumber");
      defaultTeamColour = (int*) memory->getDataPtr("GameCtrl/teamColour");

      // register "onPreProcess" and "onPostProcess" callbacks
      theInstance = this;
      proxy->getGenericProxy()->getModule()->atPreProcess(&onPreProcess);
      proxy->getGenericProxy()->getModule()->atPostProcess(&onPostProcess);

      udp = new UdpComm();
      if(!udp->setBlocking(false) ||
         !udp->setBroadcast(true) ||
         !udp->bind("0.0.0.0", GAMECONTROLLER_DATA_PORT) ||
         !udp->setLoopback(false))
      {
        fprintf(stderr, "libgamectrl: Could not open UDP port\n");
        delete udp;
        udp = 0;
        // continue, because button interface will still work
      }

      publish();
    }
    catch(AL::ALError& e)
    {
      fprintf(stderr, "libgamectrl: %s\n", e.what());
      close();
    }
  }
Example #10
0
  /**
   * The constructor initializes the shared memory for communicating with bhuman.
   * It also establishes a communication with NaoQi and prepares all data structures
   * required for this communication.
   * @param pBroker A NaoQi broker that allows accessing other NaoQi modules.
   */
  BHuman(boost::shared_ptr<AL::ALBroker> pBroker) :
    ALModule(pBroker, "BHuman"),
    data((LBHData*) MAP_FAILED),
    sem(SEM_FAILED),
    proxy(0),
    memory(0),
    dcmTime(0),
    lastReadingActuators(-1),
    actuatorDrops(0),
    frameDrops(allowedFrameDrops + 1),
    state(sitting),
    phase(0.f),
    ledIndex(0),
    rightEarLEDsChangedTime(0),
    startPressedTime(0),
    lastBHumanStartTime(0)
  {
    setModuleDescription("A module that provides basic ipc NaoQi DCM access using shared memory.");
    fprintf(stderr, "libbhuman: Starting.\n");

    assert(lbhNumOfSensorIds == sizeof(sensorNames) / sizeof(*sensorNames));
    assert(lbhNumOfActuatorIds == sizeof(actuatorNames) / sizeof(*actuatorNames));
    assert(lbhNumOfTeamInfoIds == sizeof(teamInfoNames) / sizeof(*teamInfoNames));

    // create shared memory
    memoryHandle = shm_open(LBH_MEM_NAME, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR);
    if(memoryHandle == -1)
      perror("libbhuman: shm_open");
    else if(ftruncate(memoryHandle, sizeof(LBHData)) == -1)
      perror("libbhuman: ftruncate");
    else
    {
      // map the shared memory
      data = (LBHData*) mmap(NULL, sizeof(LBHData), PROT_READ | PROT_WRITE, MAP_SHARED, memoryHandle, 0);
      if(data == MAP_FAILED)
        perror("libbhuman: mmap");
      else
      {
        memset(data, 0, sizeof(LBHData));

        // open semaphore
        sem = sem_open(LBH_SEM_NAME, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR, 0);
        if(sem == SEM_FAILED)
          perror("libbhuman: sem_open");
        else
          try
          {
            // get the robot name
            memory = new AL::ALMemoryProxy(pBroker);

            std::string robotName = (std::string) memory->getData("Device/DeviceList/ChestBoard/BodyNickName", 0);
            strncpy(data->robotName, robotName.c_str(), sizeof(data->robotName));

            // create "positionRequest" and "hardnessRequest" alias
            proxy = new AL::DCMProxy(pBroker);

            AL::ALValue params;
            AL::ALValue result;
            params.arraySetSize(1);
            params.arraySetSize(2);

            params[0] = std::string("positionActuators");
            params[1].arraySetSize(lbhNumOfPositionActuatorIds);
            for(int i = 0; i < lbhNumOfPositionActuatorIds; ++i)
              params[1][i] = std::string(actuatorNames[i]);
            result = proxy->createAlias(params);

            params[0] = std::string("hardnessActuators");
            params[1].arraySetSize(lbhNumOfHardnessActuatorIds);
            for(int i = 0; i < lbhNumOfHardnessActuatorIds; ++i)
              params[1][i] = std::string(actuatorNames[headYawHardnessActuator + i]);
            result = proxy->createAlias(params);

            params[0] = std::string("usRequest");
            params[1].arraySetSize(1);
            params[1][0] = std::string(actuatorNames[usActuator]);
            result = proxy->createAlias(params);

            // prepare positionRequest
            positionRequest.arraySetSize(6);
            positionRequest[0] = std::string("positionActuators");
            positionRequest[1] = std::string("ClearAll");
            positionRequest[2] = std::string("time-separate");
            positionRequest[3] = 0;
            positionRequest[4].arraySetSize(1);
            positionRequest[5].arraySetSize(lbhNumOfPositionActuatorIds);
            for(int i = 0; i < lbhNumOfPositionActuatorIds; ++i)
              positionRequest[5][i].arraySetSize(1);

            // prepare hardnessRequest
            hardnessRequest.arraySetSize(6);
            hardnessRequest[0] = std::string("hardnessActuators");
            hardnessRequest[1] = std::string("ClearAll");
            hardnessRequest[2] = std::string("time-separate");
            hardnessRequest[3] = 0;
            hardnessRequest[4].arraySetSize(1);
            hardnessRequest[5].arraySetSize(lbhNumOfHardnessActuatorIds);
            for(int i = 0; i < lbhNumOfHardnessActuatorIds; ++i)
              hardnessRequest[5][i].arraySetSize(1);

            // prepare usRequest
            usRequest.arraySetSize(6);
            usRequest[0] = std::string("usRequest");
            usRequest[1] = std::string("Merge"); // doesn't work with "ClearAll"
            usRequest[2] = std::string("time-separate");
            usRequest[3] = 0;
            usRequest[4].arraySetSize(1);
            usRequest[5].arraySetSize(1);
            usRequest[5][0].arraySetSize(1);

            // prepare ledRequest
            ledRequest.arraySetSize(3);
            ledRequest[1] = std::string("ClearAll");
            ledRequest[2].arraySetSize(1);
            ledRequest[2][0].arraySetSize(2);
            ledRequest[2][0][1] = 0;

            // prepare sensor pointers
            for(int i = 0; i < lbhNumOfSensorIds; ++i)
              sensorPtrs[i] = (float*) memory->getDataPtr(sensorNames[i]);
            resetUsMeasurements();

            // initialize requested actuators
            memset(requestedActuators, 0, sizeof(requestedActuators));
            for(int i = faceLedRedLeft0DegActuator; i < chestBoardLedRedActuator; ++i)
              requestedActuators[i] = -1.f;

            // register "onPreProcess" and "onPostProcess" callbacks
            theInstance = this;
            proxy->getGenericProxy()->getModule()->atPreProcess(&onPreProcess);
            proxy->getGenericProxy()->getModule()->atPostProcess(&onPostProcess);

            fprintf(stderr, "libbhuman: Started!\n");
            return; // success
          }
          catch(AL::ALError& e)
          {
            fprintf(stderr, "libbhuman: %s\n", e.toString().c_str());
          }
      }
    }
    close(); // error
  }
Example #11
0
/*!

   Connect toRomeo robot, and apply some motion.
   By default, this example connect to a robot with ip address: 198.18.0.1.
   If you want to connect on an other robot, run:

   ./motion --ip <robot ip address>

   Example:

   ./motion --ip 169.254.168.230
 */
int main(int argc, const char* argv[])
{
  try
  {
    std::string opt_ip = "198.18.0.1";;

    if (argc == 3) {
      if (std::string(argv[1]) == "--ip")
        opt_ip = argv[2];
    }

    // Create a general proxy to motion to use new functions not implemented in the specialized proxy

    std::string 	myIP = "";		// IP du portable (voir /etc/hosts)
    int 	myPort = 0 ;			// Default broker port

    //    AL::ALProxy *m_proxy;
    boost::shared_ptr<AL::ALBroker> broker = AL::ALBroker::createBroker("Broker", myIP, myPort, opt_ip, 9559);
    //    m_proxy = new AL::ALProxy(broker, "ALVideoDevice");

    //    m_proxy->callVoid("setCameraGroup",1 ,true);

    //AL::ALProxy* dcm = new AL::ALProxy(broker, "DCM_video");



    boost::shared_ptr<AL::ALProxy> proxy = boost::shared_ptr<AL::ALProxy>(new AL::ALProxy(broker, "DCM_video"));
    AL::DCMProxy* dcm = new AL::DCMProxy(proxy);

    //boost::shared_ptr<AL::ALProxy> dcm = boost::shared_ptr<AL::ALProxy>(new AL::ALProxy(broker, "DCM_video"));



    AL::ALValue commands;
    commands.arraySetSize(3);
    commands[0] = std::string("FaceBoard/CameraSwitch/Value");
    commands[1] = std::string("Merge");
    commands[2].arraySetSize(1);
    commands[2][0].arraySetSize(2);
    commands[2][0][0] = 1;
    //commands[2][0][1] = dcm->call<int>("getTime",0);// dcm->getTime(0);
    commands[2][0][1] = dcm->getTime(0);
    //dcm->callVoid("set",commands);
    dcm->set(commands);


    //int time = dcm->call<int>("getTime",0);
    int time = dcm->getTime(10);
    std::cout <<"Time " << time << std::endl;

    //dcm = naoqitools.myGetProxy( "DCM_video" );^M
    //dcm.set( ["FaceBoard/CameraSwitch/Value", "Merge",  [[rGroupNumber, dcm.getTime( 0 ) ]] ] );^M
    //dcm.set(\["ChestBoard/Led/Red/Actuator/Value", "Merge", \[[1.0, dcm.getTime(10000)]] ])




  }
  catch (const vpException &e)
  {
    std::cerr << "Caught exception: " << e.what() << std::endl;
  }
  catch (const AL::ALError &e)
  {
    std::cerr << "Caught exception: " << e.what() << std::endl;
  }



  return 0;
}