test_run_base_controller.cpp
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00034 
00035 #include <pr2_mechanism_controllers/Pose3D.h>
00036 #include <ros/node.h>
00037 #include <nav_msgs/Odometry.h>
00038 #include <geometry_msgs/Twist.h>
00039 #include <nav_msgs/Odometry.h>
00040 #include <geometry_msgs/Quaternion.h>
00041 
00042 static int done = 0;
00043 
00044 void finalize(int donecare)
00045 {
00046   done = 1;
00047 }
00048 
00049 
00051 // Return the rotation in Euler angles
00052 libTF::Vector GetAsEuler(geometry_msgs::Quaternion quat)
00053 {
00054   libTF::Vector vec;
00055 
00056   double squ;
00057   double sqx;
00058   double sqy;
00059   double sqz;
00060 
00061 //  this->Normalize();
00062 
00063   squ = quat.w * quat.w;
00064   sqx = quat.x * quat.x;
00065   sqy = quat.y * quat.y;
00066   sqz = quat.z * quat.z;
00067 
00068   // Roll
00069   vec.x = atan2(2 * (quat.y*quat.z + quat.w*quat.x), squ - sqx - sqy + sqz);
00070 
00071   // Pitch
00072   vec.y = asin(-2 * (quat.x*quat.z - quat.w * quat.y));
00073 
00074   // Yaw
00075   vec.z = atan2(2 * (quat.x*quat.y + quat.w*quat.z), squ + sqx - sqy - sqz);
00076 
00077   return vec;
00078 }
00079 
00080 
00081 class test_run_base
00082 {
00083   public:
00084 
00085     test_run_base():subscriber_connected(0){}; 
00086 
00087     ~test_run_base() {}
00088 
00089     nav_msgs::Odometry ground_truth;
00090 
00091     nav_msgs::Odometry odom;
00092 
00093     int subscriber_connected;
00094 
00095     void subscriber_connect()
00096     {
00097       subscriber_connected = 1;
00098     }
00099 
00100     void odomMsgReceived()
00101     {
00102 //       cout << "Odom:: (" << ground_truth.pos.position.x << "), (" <<  ground_truth.pos.orientation.x << ")" << std::endl;  
00103     };
00104 
00105     void groundTruthMsgReceived()
00106     {
00107 //       cout << "Odom:: (" << ground_truth.pos.position.x << "), (" <<  ground_truth.pos.orientation.x << ")" << std::endl;  
00108     };
00109 };
00110 
00111 int main( int argc, char** argv )
00112 {
00113 
00114   /*********** Initialize ROS  ****************/
00115   ros::init(argc,argv);
00116   ros::Node *node = new ros::Node("test_run_base_controller"); 
00117 
00118 
00119   // receive messages from 2dnav stack
00120   nav_msgs::Odometry ground_truth;
00121 
00122   test_run_base tb;
00123 
00124   node->subscribe("base_pose_ground_truth",tb.ground_truth,&test_run_base::groundTruthMsgReceived,&tb,10);
00125 
00126   node->subscribe("odom",tb.odom,&test_run_base::odomMsgReceived,&tb,10);
00127 
00128   signal(SIGINT,  finalize);
00129   signal(SIGQUIT, finalize);
00130   signal(SIGTERM, finalize);
00131 
00132 
00133   /*********** Start moving the robot ************/
00134   geometry_msgs::Twist cmd;
00135   cmd.linear.x = 0;
00136   cmd.linear.y = 0;
00137   cmd.linear.z = 0;
00138   cmd.angular.x = 0;
00139   cmd.angular.y = 0;
00140   cmd.angular.z = 0;
00141 
00142   double run_time = 0;
00143   bool run_time_set = false;
00144   int file_num = 0;
00145 
00146   if(argc >= 2)
00147     cmd.linear.x = atof(argv[1]);
00148 
00149   if(argc >= 3)
00150     cmd.linear.y = atof(argv[2]);
00151 
00152   if(argc >= 4)
00153     cmd.angular.z = atof(argv[3]);
00154 
00155   if(argc ==5)
00156   { 
00157      run_time = atof(argv[4]);
00158      run_time_set = true;
00159   }
00160   node->advertise<geometry_msgs::Twist>("cmd_vel",1);
00161   sleep(1);
00162   node->publish("cmd_vel",cmd);
00163   sleep(1);
00164 
00165   libTF::Vector ground_truth_angles;
00166   ros::Time start_time = ros::Time::now();
00167   ros::Duration sleep_time(0.01);
00168   while(!done)
00169   {
00170      ros::Duration delta_time = ros::Time::now() - start_time;
00171      cout << "Sending out command " << cmd.linear.x << " " << cmd.linear.y << " " << cmd.angular.z  << endl;
00172      if(run_time_set && delta_time.toSec() > run_time)
00173         break;
00174     //   ang_rates = GetAsEuler(tb.ground_truth.vel.ang_vel);
00175      ground_truth_angles = GetAsEuler(tb.ground_truth.pose.pose.orientation);
00176      cout << "g:: " << tb.ground_truth.twist.twist.linear.x <<  " " << tb.ground_truth.twist.twist.linear.y << " "  << tb.ground_truth.twist.twist.angular.z  << " " << tb.ground_truth.pose.pose.position.x << " " << tb.ground_truth.pose.pose.position.y <<  " " << ground_truth_angles.z << " " <<  tb.ground_truth.header.stamp.sec + tb.ground_truth.header.stamp.nsec/1.0e9 << std::endl;
00177     cout << "o:: " << tb.odom.twist.twist.linear.x <<  " " << tb.odom.twist.twist.linear.y << " " << tb.odom.twist.twist.angular.z << " " << tb.odom.pose.pose.position.x <<  " " << tb.odom.pose.pose.position.y << " " << tf::getYaw(tb.odom.pose.pose.orientation) << " " << tb.odom.header.stamp.sec + tb.odom.header.stamp.nsec/1.0e9 << std::endl;
00178     //    cout << delta_time.toSec() << "  " << run_time << endl;
00179     node->publish("cmd_vel",cmd);
00180     sleep_time.sleep();
00181   }
00182 
00183   
00184 }


pr2_mechanism_controllers
Author(s): Sachin Chita, John Hsu, Melonee Wise
autogenerated on Sat Jun 8 2019 20:49:34