Пример #1
0
void RosAriaNode::sonarDisconnectCb()
{
  if (!robot->tryLock()) {
    ROS_ERROR("Skipping sonarConnectCb because could not lock");
    return;
  }
  if (robot->areSonarsEnabled())
  {
    robot->disableSonar();
    sonar_tf_timer.stop();
  }
  robot->unlock();
}
Пример #2
0
void RosAriaNode::publish()
{
  // Note, this is called via SensorInterpTask callback (myPublishCB, named "ROSPublishingTask"). ArRobot object 'robot' sholud not be locked or unlocked.
  pos = robot->getPose();
  tf::poseTFToMsg(tf::Transform(tf::createQuaternionFromYaw(pos.getTh()*M_PI/180), tf::Vector3(pos.getX()/1000,
    pos.getY()/1000, 0)), position.pose.pose); //Aria returns pose in mm.
  position.twist.twist.linear.x = robot->getVel()/1000; //Aria returns velocity in mm/s.
  position.twist.twist.angular.z = robot->getRotVel()*M_PI/180;
  
  position.header.frame_id = frame_id_odom;
  position.child_frame_id = frame_id_base_link;
  position.header.stamp = ros::Time::now();
  pose_pub.publish(position);

  ROS_DEBUG("RosAria: publish: (time %f) pose x: %f, y: %f, angle: %f; linear vel x: %f, y: %f; angular vel z: %f", 
    position.header.stamp.toSec(), 
    (double)position.pose.pose.position.x,
    (double)position.pose.pose.position.y,
    (double)position.pose.pose.orientation.w,
    (double) position.twist.twist.linear.x,
    (double) position.twist.twist.linear.y,
    (double) position.twist.twist.angular.z
  );


  // publishing transform odom->base_link
  odom_trans.header.stamp = ros::Time::now();
  odom_trans.header.frame_id = frame_id_odom;
  odom_trans.child_frame_id = frame_id_base_link;
  
  odom_trans.transform.translation.x = pos.getX()/1000;
  odom_trans.transform.translation.y = pos.getY()/1000;
  odom_trans.transform.translation.z = 0.0;
  odom_trans.transform.rotation = tf::createQuaternionMsgFromYaw(pos.getTh()*M_PI/180);
  
  odom_broadcaster.sendTransform(odom_trans);
  
  // getStallValue returns 2 bytes with stall bit and bumper bits, packed as (00 00 FrontBumpers RearBumpers)
  int stall = robot->getStallValue();
  unsigned char front_bumpers = (unsigned char)(stall >> 8);
  unsigned char rear_bumpers = (unsigned char)(stall);

  bumpers.header.frame_id = frame_id_bumper;
  bumpers.header.stamp = ros::Time::now();

  std::stringstream bumper_info(std::stringstream::out);
  // Bit 0 is for stall, next bits are for bumpers (leftmost is LSB)
  for (unsigned int i=0; i<robot->getNumFrontBumpers(); i++)
  {
    bumpers.front_bumpers[i] = (front_bumpers & (1 << (i+1))) == 0 ? 0 : 1;
    bumper_info << " " << (front_bumpers & (1 << (i+1)));
  }
  ROS_DEBUG("RosAria: Front bumpers:%s", bumper_info.str().c_str());

  bumper_info.str("");
  // Rear bumpers have reverse order (rightmost is LSB)
  unsigned int numRearBumpers = robot->getNumRearBumpers();
  for (unsigned int i=0; i<numRearBumpers; i++)
  {
    bumpers.rear_bumpers[i] = (rear_bumpers & (1 << (numRearBumpers-i))) == 0 ? 0 : 1;
    bumper_info << " " << (rear_bumpers & (1 << (numRearBumpers-i)));
  }
  ROS_DEBUG("RosAria: Rear bumpers:%s", bumper_info.str().c_str());
  
  bumpers_pub.publish(bumpers);

  //Publish battery information
  // TODO: Decide if BatteryVoltageNow (normalized to (0,12)V)  is a better option
  std_msgs::Float64 batteryVoltage;
  batteryVoltage.data = robot->getRealBatteryVoltageNow();
  voltage_pub.publish(batteryVoltage);

  if(robot->haveStateOfCharge())
  {
    std_msgs::Float32 soc;
    soc.data = robot->getStateOfCharge()/100.0;
    state_of_charge_pub.publish(soc);
  }

  // publish recharge state if changed
  char s = robot->getChargeState();
  if(s != recharge_state.data)
  {
    ROS_INFO("RosAria: publishing new recharge state %d.", s);
    recharge_state.data = s;
    recharge_state_pub.publish(recharge_state);
  }

  // publish motors state if changed
  bool e = robot->areMotorsEnabled();
  if(e != motors_state.data || !published_motors_state)
  {
	ROS_INFO("RosAria: publishing new motors state %d.", e);
	motors_state.data = e;
	motors_state_pub.publish(motors_state);
	published_motors_state = true;
  }

  if (robot->areSonarsEnabled())
  {
    int i = 0;
    int j = 0;
    ArSensorReading* reading = NULL;
    if(sonars__crossed_the_streams)
    {
      i = 8;
      j = 8;
    }
    
    for(; i < 16; i++)
    {
      ranges.data[i].header.stamp = ros::Time::now();
      
      ArSensorReading* _reading = NULL;
      _reading = robot->getSonarReading(i-j);
      ranges.data[i].range = _reading->getRange() / 1000.0f;
      range_pub[i].publish(ranges.data[i]);
    }
    ranges.header.stamp = ros::Time::now();
    combined_range_pub.publish(ranges);
  }  
}