Esempio n. 1
0
 void JointMotionHandler::motionInterface(JointMessage & jMsg)
 {
//
// Upon receiving...
// 1st point - initialize buffer, enable motion, start job, add point (increment buffer index), 
// Nth point - add point (increment buffer index)
// end of trajectory - wait until buffer size = 0, disable motion, stop job, reset buffer indicies
//motion stop - disable motion, stop job

  JointData joints;
  
   switch (jMsg.getSequence())
    {
      case SpecialSeqValues::END_TRAJECTORY:
         LOG_INFO("Received end trajectory command");
         while(!pVarQ.bufferEmpty())
         {
           LOG_DEBUG("Waiting for motion buffer to empty");
           mpTaskDelay(this->BUFFER_POLL_TICK_DELAY);
         };
         this->stopMotionJob();
           
         break;
         
      case SpecialSeqValues::STOP_TRAJECTORY:
         LOG_WARN("Received stop command, stopping motion immediately");
         this->stopMotionJob();
         break;
         
      default:
        
        joints.copyFrom(jMsg.getJoints());
        if (!(this->isJobStarted()))
        {
          //TODO: The velocity should be set from the message in the future.
          pVarQ.init(joints, 0.0);
          this->startMotionJob();
        }
        else
        {
          pVarQ.addPoint(joints, 0.0);
        }
    }
 }
bool JointRelayHandler::convert_message(JointMessage& msg_in, JointTrajectoryPoint* joint_state)
{
  // copy position data
  int num_jnts = all_joint_names_.size();
  joint_state->positions.resize(num_jnts);
  for (int i=0; i<num_jnts; ++i)
  {
    shared_real value;
    if (msg_in.getJoints().getJoint(i, value))
      joint_state->positions[i] = value;
    else
      LOG_ERROR("Failed to parse position #%d from JointMessage", i);
  }

  // these fields are not provided by JointMessage
  joint_state->velocities.clear();
  joint_state->accelerations.clear();
  joint_state->time_from_start = ros::Duration(0);

  return true;
}
bool JointRelayHandler::convert_message(JointMessage& msg_in, DynamicJointsGroup* joint_state, int robot_id)
{
  // copy position data
  int num_jnts = robot_groups_[robot_id].get_joint_names().size();
  joint_state->positions.resize(num_jnts);
  for (int i = 0; i < num_jnts; ++i)
  {
    shared_real value;
    if (msg_in.getJoints().getJoint(i, value))
    {
      joint_state->positions[i] = value;
    }
    else
      LOG_ERROR("Failed to convert message");
  }

  // these fields are not provided by JointMessage
  joint_state->velocities.clear();
  joint_state->accelerations.clear();
  joint_state->time_from_start = ros::Duration(0);

  return true;
}
void JointTrajectoryHandler::trajectoryHandler()
{
  JointMessage jMsg;
  SimpleMessage msg;
  SimpleMessage reply;
  trajectory_msgs::JointTrajectoryPoint pt;
  ROS_INFO("Starting joint trajectory handler state");
  while (ros::ok())
  {
    this->mutex_.lock();

    if (this->robot_->isConnected())
    {
      
      //TODO: These variables should be moved outside of this loop
      //so that we aren't contantly reinitializing them.
      JointMessage jMsg;
      SimpleMessage msg;
      SimpleMessage reply;
      trajectory_msgs::JointTrajectoryPoint pt;
      switch (this->state_)
      {
        case JointTrajectoryStates::IDLE:
          ros::Duration(0.250).sleep();
          break;


        case JointTrajectoryStates::STREAMING:
          if (this->currentPoint < this->current_traj_.points.size())
          {
            // unsigned int lastCurrentPoint = currentPoint;
            // currentPoint = getNextTrajectoryPoint(current_traj_,
            //                                       streaming_start_,
            //                                       ros::Time::now());
            //ROS_INFO("Skipping from point[%d] to point[%d]", lastCurrentPoint, currentPoint);
            pt = this->current_traj_.points[this->currentPoint];
            
            jMsg.setSequence(this->currentPoint);

            for (int i = 0; i < this->current_traj_.joint_names.size(); i++)
            {
              jMsg.getJoints().setJoint(i, pt.positions[i]);
            }
            
            ROS_DEBUG("Sending joint point");
            jMsg.toRequest(msg);
            if (this->robot_->sendAndReceiveMsg(msg, reply, false))
            //jMsg.toTopic(msg);
            //if (this->robot_->sendMsg(msg))
            {
              ROS_INFO("Point[%d of %d] sent to controller", 
                       this->currentPoint, this->current_traj_.points.size());
              this->currentPoint++;
            }
            else
            {
              ROS_WARN("Failed sent joint point, will try again");
            }
            //ROS_INFO_STREAM("Time taken to stream single point is " << (ros::WallTime::now()-start));
          }
          else
          {
            ROS_INFO("Trajectory streaming complete, setting state to IDLE");
            this->state_ = JointTrajectoryStates::IDLE;
          }
          break;

        default:
          ROS_ERROR("Joint trajectory handler: unknown state");
          this->state_ = JointTrajectoryStates::IDLE;
          break;
      }

    }
    else
    {
      ROS_INFO("Connecting to robot motion server");
      this->robot_->makeConnect();
    }

    this->mutex_.unlock();
    ros::Duration(0.005).sleep();
  }

  ROS_WARN("Exiting trajectory handler thread");
}