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00032 #include <ros/ros.h>
00033 #include <actionlib/server/action_server.h>
00034
00035 #include <trajectory_msgs/JointTrajectory.h>
00036 #include <pr2_controllers_msgs/JointTrajectoryAction.h>
00037 #include <pr2_controllers_msgs/JointTrajectoryControllerState.h>
00038
00039 const double DEFAULT_GOAL_THRESHOLD = 0.1;
00040
00041 class JointTrajectoryExecuter
00042 {
00043 private:
00044 typedef actionlib::ActionServer<pr2_controllers_msgs::JointTrajectoryAction> JTAS;
00045 typedef JTAS::GoalHandle GoalHandle;
00046 public:
00047 JointTrajectoryExecuter(ros::NodeHandle &n) :
00048 node_(n),
00049 action_server_(node_, "joint_trajectory_action",
00050 boost::bind(&JointTrajectoryExecuter::goalCB, this, _1),
00051 boost::bind(&JointTrajectoryExecuter::cancelCB, this, _1),
00052 false),
00053 has_active_goal_(false)
00054 {
00055 using namespace XmlRpc;
00056 ros::NodeHandle pn("~");
00057
00058
00059 XmlRpc::XmlRpcValue joint_names;
00060 if (!pn.getParam("joints", joint_names))
00061 {
00062 ROS_FATAL("No joints given. (namespace: %s)", pn.getNamespace().c_str());
00063 exit(1);
00064 }
00065 if (joint_names.getType() != XmlRpc::XmlRpcValue::TypeArray)
00066 {
00067 ROS_FATAL("Malformed joint specification. (namespace: %s)", pn.getNamespace().c_str());
00068 exit(1);
00069 }
00070 for (int i = 0; i < joint_names.size(); ++i)
00071 {
00072 XmlRpcValue &name_value = joint_names[i];
00073 if (name_value.getType() != XmlRpcValue::TypeString)
00074 {
00075 ROS_FATAL("Array of joint names should contain all strings. (namespace: %s)",
00076 pn.getNamespace().c_str());
00077 exit(1);
00078 }
00079
00080 joint_names_.push_back((std::string)name_value);
00081 }
00082
00083 pn.param("constraints/goal_time", goal_time_constraint_, 0.0);
00084
00085
00086 for (size_t i = 0; i < joint_names_.size(); ++i)
00087 {
00088 std::string ns = std::string("constraints/") + joint_names_[i];
00089 double g, t;
00090 pn.param(ns + "/goal", g, -1.0);
00091 pn.param(ns + "/trajectory", t, -1.0);
00092 goal_constraints_[joint_names_[i]] = g;
00093 trajectory_constraints_[joint_names_[i]] = t;
00094 }
00095 pn.param("constraints/stopped_velocity_tolerance", stopped_velocity_tolerance_, 0.01);
00096
00097
00098 pub_controller_command_ =
00099 node_.advertise<trajectory_msgs::JointTrajectory>("command", 1);
00100 sub_controller_state_ =
00101 node_.subscribe("state", 1, &JointTrajectoryExecuter::controllerStateCB, this);
00102
00103 watchdog_timer_ = node_.createTimer(ros::Duration(1.0), &JointTrajectoryExecuter::watchdog, this);
00104
00105 ros::Time started_waiting_for_controller = ros::Time::now();
00106 while (ros::ok() && !last_controller_state_)
00107 {
00108 ros::spinOnce();
00109 if (started_waiting_for_controller != ros::Time(0) &&
00110 ros::Time::now() > started_waiting_for_controller + ros::Duration(30.0))
00111 {
00112 ROS_WARN("Waited for the controller for 30 seconds, but it never showed up.");
00113 started_waiting_for_controller = ros::Time(0);
00114 }
00115 ros::Duration(0.1).sleep();
00116 }
00117
00118 action_server_.start();
00119 }
00120
00121 ~JointTrajectoryExecuter()
00122 {
00123 pub_controller_command_.shutdown();
00124 sub_controller_state_.shutdown();
00125 watchdog_timer_.stop();
00126 }
00127
00128 private:
00129
00130 static bool setsEqual(const std::vector<std::string> &a, const std::vector<std::string> &b)
00131 {
00132 if (a.size() != b.size())
00133 return false;
00134
00135 for (size_t i = 0; i < a.size(); ++i)
00136 {
00137 if (count(b.begin(), b.end(), a[i]) != 1)
00138 return false;
00139 }
00140 for (size_t i = 0; i < b.size(); ++i)
00141 {
00142 if (count(a.begin(), a.end(), b[i]) != 1)
00143 return false;
00144 }
00145
00146 return true;
00147 }
00148
00149 void watchdog(const ros::TimerEvent &e)
00150 {
00151 ros::Time now = ros::Time::now();
00152
00153
00154 if (has_active_goal_)
00155 {
00156 bool should_abort = false;
00157 if (!last_controller_state_)
00158 {
00159 should_abort = true;
00160 ROS_WARN("Aborting goal because we have never heard a controller state message.");
00161 }
00162 else if ((now - last_controller_state_->header.stamp) > ros::Duration(5.0))
00163 {
00164 should_abort = true;
00165 ROS_WARN("Aborting goal because we haven't heard from the controller in %.3lf seconds",
00166 (now - last_controller_state_->header.stamp).toSec());
00167 }
00168
00169 if (should_abort)
00170 {
00171
00172 trajectory_msgs::JointTrajectory empty;
00173 empty.joint_names = joint_names_;
00174 pub_controller_command_.publish(empty);
00175
00176
00177 active_goal_.setAborted();
00178 has_active_goal_ = false;
00179 }
00180 }
00181 }
00182
00183 void goalCB(GoalHandle gh)
00184 {
00185
00186 if (!setsEqual(joint_names_, gh.getGoal()->trajectory.joint_names))
00187 {
00188 ROS_ERROR("Joints on incoming goal don't match our joints");
00189 gh.setRejected();
00190 return;
00191 }
00192
00193
00194 if (has_active_goal_)
00195 {
00196
00197 trajectory_msgs::JointTrajectory empty;
00198 empty.joint_names = joint_names_;
00199 pub_controller_command_.publish(empty);
00200
00201
00202 active_goal_.setCanceled();
00203 has_active_goal_ = false;
00204 }
00205
00206 gh.setAccepted();
00207 active_goal_ = gh;
00208 has_active_goal_ = true;
00209
00210
00211 current_traj_ = active_goal_.getGoal()->trajectory;
00212 pub_controller_command_.publish(current_traj_);
00213 }
00214
00215 void cancelCB(GoalHandle gh)
00216 {
00217 if (active_goal_ == gh)
00218 {
00219
00220 trajectory_msgs::JointTrajectory empty;
00221 empty.joint_names = joint_names_;
00222 pub_controller_command_.publish(empty);
00223
00224
00225 active_goal_.setCanceled();
00226 has_active_goal_ = false;
00227 }
00228 }
00229
00230
00231 ros::NodeHandle node_;
00232 JTAS action_server_;
00233 ros::Publisher pub_controller_command_;
00234 ros::Subscriber sub_controller_state_;
00235 ros::Timer watchdog_timer_;
00236
00237 bool has_active_goal_;
00238 GoalHandle active_goal_;
00239 trajectory_msgs::JointTrajectory current_traj_;
00240
00241
00242 std::vector<std::string> joint_names_;
00243 std::map<std::string,double> goal_constraints_;
00244 std::map<std::string,double> trajectory_constraints_;
00245 double goal_time_constraint_;
00246 double stopped_velocity_tolerance_;
00247
00248 pr2_controllers_msgs::JointTrajectoryControllerStateConstPtr last_controller_state_;
00249 void controllerStateCB(const pr2_controllers_msgs::JointTrajectoryControllerStateConstPtr &msg)
00250 {
00251 last_controller_state_ = msg;
00252 ros::Time now = ros::Time::now();
00253
00254 if (!has_active_goal_)
00255 return;
00256 if (current_traj_.points.empty())
00257 return;
00258 if (now < current_traj_.header.stamp + current_traj_.points[0].time_from_start)
00259 return;
00260
00261 if (!setsEqual(joint_names_, msg->joint_names))
00262 {
00263 ROS_ERROR("Joint names from the controller don't match our joint names.");
00264 return;
00265 }
00266
00267 int last = current_traj_.points.size() - 1;
00268 ros::Time end_time = current_traj_.header.stamp + current_traj_.points[last].time_from_start;
00269
00270
00271
00272 if (now < end_time)
00273 {
00274
00275 for (size_t i = 0; i < msg->joint_names.size(); ++i)
00276 {
00277 double abs_error = fabs(msg->error.positions[i]);
00278 double constraint = trajectory_constraints_[msg->joint_names[i]];
00279 if (constraint >= 0 && abs_error > constraint)
00280 {
00281
00282 trajectory_msgs::JointTrajectory empty;
00283 empty.joint_names = joint_names_;
00284 pub_controller_command_.publish(empty);
00285
00286 active_goal_.setAborted();
00287 has_active_goal_ = false;
00288 ROS_WARN("Aborting because we would up outside the trajectory constraints");
00289 return;
00290 }
00291 }
00292 }
00293 else
00294 {
00295
00296 bool inside_goal_constraints = true;
00297 for (size_t i = 0; i < msg->joint_names.size() && inside_goal_constraints; ++i)
00298 {
00299 double abs_error = fabs(msg->error.positions[i]);
00300 double goal_constraint = goal_constraints_[msg->joint_names[i]];
00301 if (goal_constraint >= 0 && abs_error > goal_constraint)
00302 inside_goal_constraints = false;
00303
00304
00305 if (fabs(msg->desired.velocities[i]) < 1e-6)
00306 {
00307 if (fabs(msg->actual.velocities[i]) > stopped_velocity_tolerance_)
00308 inside_goal_constraints = false;
00309 }
00310 }
00311
00312 if (inside_goal_constraints)
00313 {
00314 active_goal_.setSucceeded();
00315 has_active_goal_ = false;
00316 }
00317 else if (now < end_time + ros::Duration(goal_time_constraint_))
00318 {
00319
00320 }
00321 else
00322 {
00323 ROS_WARN("Aborting because we wound up outside the goal constraints");
00324 active_goal_.setAborted();
00325 has_active_goal_ = false;
00326 }
00327
00328 }
00329 }
00330 };
00331
00332
00333 int main(int argc, char** argv)
00334 {
00335 ros::init(argc, argv, "joint_trajectory_action_node");
00336 ros::NodeHandle node;
00337 JointTrajectoryExecuter jte(node);
00338
00339 ros::spin();
00340
00341 return 0;
00342 }