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configurable_fibonacci_server.cpp

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/* Author: Melonee Wise */
#include <sstream>

#include <ros/ros.h>
#include <actionlib/server/simple_action_server.h>
#include <actionlib_tutorials/FibonacciAction.h>

class FibonacciAction
{
public:
    
    FibonacciAction(std::string name) : 
      as_(nh_, name, boost::bind(&FibonacciAction::executeCB, this, _1)),
      action_name_(name)
    {

      std::stringstream ss;
      // check if the configuration is loaded on the param server
      if(!nh_.getParam(action_name_ + "/seed0", seed0_))
      {   
        // throw an exception if the param is not there and exit the action server
        ss << action_name_.c_str() << ": Aborted, seed0 param was not set.";
        throw ss.str();
      }

      if(!nh_.getParam(action_name_ + "/seed1", seed1_))
      {
        ss << action_name_.c_str() << ": Aborted, seed1 param was not set.";
        throw ss.str();
      }
    }

    ~FibonacciAction(void)
    {
    }

    void executeCB(const actionlib_tutorials::FibonacciGoalConstPtr &goal)
    {
      // create the action messages that will use published for feeback and result
      actionlib_tutorials::FibonacciFeedback feedback;
      actionlib_tutorials::FibonacciResult result;

      // helper variables
      ros::Rate r(50); 
      std::vector<int> sequence;
      int temp;  
      bool success = true;

      // push_back the seeds for the fibonacci sequence
      sequence.push_back(seed0_);
      sequence.push_back(seed1_);

      // publish some info to the console for the user to see when the action starts
            ROS_INFO("%s: Executing, creating fibonacci sequence of order %i with seeds %i, %i", action_name_.c_str(), goal->order, sequence[0], sequence[1]);
          
      // start executing the action
      for(int i=1; i<=goal->order; i++)
      {        
        // check to make sure that preempt has not been requested by the client
        if (as_.isPreemptRequested() || !ros::ok())
              {
          ROS_INFO("%s: Preempted", action_name_.c_str());
          // set the action state to preempted
          as_.setPreempted();
          success = false;
          break;
        }
        temp = sequence[i] + sequence[i-1];
        sequence.push_back(temp);
        feedback.set_sequence_vec(sequence);
        // publish the feedback 
        as_.publishFeedback(feedback);
        // this sleep is not necessary, it is just to slow down the action for demonstration purposes
        r.sleep(); 
      }

      if(success)
      {
        result.set_sequence_vec(sequence);
        ROS_INFO("%s: Succeeded", action_name_.c_str());
        // set the action state to succeeded
        as_.setSucceeded(result);
      }
    }

protected:
    
    ros::NodeHandle nh_;
    actionlib::SimpleActionServer<actionlib_tutorials::FibonacciAction> as_;
    std::string action_name_;
    int seed0_, seed1_;
};


int main(int argc, char** argv)
{
    ros::init(argc, argv, "fibonacci");

    try
    {
            FibonacciAction fibonacci(ros::this_node::getName());
            ros::spin();
    }
    catch(std::string str) 
    {
      ROS_ERROR("%s",str.c_str());
    }
    return 0;
}

---

actionlib_tutorials
Author(s): Melonee Wise
autogenerated on Fri Mar 1 15:09:21 2013