simple_80_points_trajectory.cpp
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00001 #include <ros/ros.h>
00002 #include <control_msgs/FollowJointTrajectoryAction.h>
00003 #include <actionlib/client/simple_action_client.h>
00004 
00005 typedef actionlib::SimpleActionClient< control_msgs::FollowJointTrajectoryAction > TrajClient;
00006 
00007 class RobotArm
00008 {
00009 private:
00010   // Action client for the joint trajectory action 
00011   // used to trigger the arm movement action
00012   TrajClient* traj_client_;
00013 
00014 public:
00016   RobotArm() 
00017   {
00018     // tell the action client that we want to spin a thread by default
00019     traj_client_ = new TrajClient("/wam_wrapper/joint_trajectory", true);
00020 
00021     // wait for action server to come up
00022     while(!traj_client_->waitForServer(ros::Duration(5.0))){
00023       ROS_INFO("Waiting for the joint_trajectory_action server");
00024     }
00025   }
00026 
00028   ~RobotArm()
00029   {
00030     delete traj_client_;
00031   }
00032 
00034   void startTrajectory(control_msgs::FollowJointTrajectoryGoal goal)
00035   {
00036     // When to start the trajectory: 1s from now
00037     goal.trajectory.header.stamp = ros::Time::now() + ros::Duration(1.0);
00038     traj_client_->sendGoal(goal);
00039   }
00040 
00042 
00047   control_msgs::FollowJointTrajectoryGoal armExtensionTrajectory()
00048   {
00049     //our goal variable
00050     control_msgs::FollowJointTrajectoryGoal goal;
00051 
00052     int trajectory_points = 80;
00053 
00054     // We will have two waypoints in this goal trajectory
00055     goal.trajectory.points.resize(trajectory_points);
00056 
00057     // First trajectory point
00058     // Positions
00059     int ind = 0;
00060     goal.trajectory.points[ind].positions.resize(7);
00061     goal.trajectory.points[ind].positions[0] = 0.0;
00062     goal.trajectory.points[ind].positions[1] = 0.0;
00063     goal.trajectory.points[ind].positions[2] = 0.0;
00064     goal.trajectory.points[ind].positions[3] = 0.0;
00065     goal.trajectory.points[ind].positions[4] = 0.0;
00066     goal.trajectory.points[ind].positions[5] = 0.0;
00067     goal.trajectory.points[ind].positions[6] = 0.0;
00068 
00069     ind += 1;
00070     for(int ind = 1; ind < trajectory_points;  ind++)
00071     {
00072         goal.trajectory.points[ind].positions.resize(7);
00073         goal.trajectory.points[ind].positions[0] =  0.49259;
00074         goal.trajectory.points[ind].positions[1] =  0.212558;
00075         goal.trajectory.points[ind].positions[2] = -0.169996;
00076         goal.trajectory.points[ind].positions[3] =  2.09482;
00077         goal.trajectory.points[ind].positions[4] = -0.14391;
00078         goal.trajectory.points[ind].positions[5] =  0.919756;
00079         goal.trajectory.points[ind].positions[6] = -0.0255835;
00080     }
00081 
00082     return goal;
00083   }
00084 
00086   actionlib::SimpleClientGoalState getState()
00087   {
00088     return traj_client_->getState();
00089   }
00090  
00091 };
00092 
00093 int main(int argc, char** argv)
00094 {
00095   // Init the ROS node
00096   ros::init(argc, argv, "robot_driver");
00097 
00098   RobotArm arm;
00099   // Start the trajectory
00100   arm.startTrajectory(arm.armExtensionTrajectory());
00101   // Wait for trajectory completion
00102   while(!arm.getState().isDone() && ros::ok())
00103   {
00104     usleep(50000);
00105   }
00106 }
00107 


iri_wam_wrapper
Author(s): Pol Monso
autogenerated on Fri Dec 6 2013 21:47:20