uodate

src/Algorithms/Cores/score_algorithm/src/score_algorithm.cpp

@@ -201,7 +201,7 @@ bool score_algorithm::ScoreAlgorithm::computePlanCommand(const robot_nav_2d_msgs
     {
       sub_goal_index = (unsigned int)index_s.front() > 0 ? (unsigned int)index_s.front() - 1 : (unsigned int)index_s.front();
       sub_goal_seq_saved_ = global_plan.poses[sub_goal_index].header.seq;
-      std::cout << "ScoreAlgorithm: Updated sub_goal_index to " << sub_goal_index << " based on index_s.front()" << std::endl;
+      // std::cout << "ScoreAlgorithm: Updated sub_goal_index to " << sub_goal_index << " based on index_s.front()" << std::endl;
     }
 
     // Process index_s with multiple elements

src/Algorithms/Libraries/mkt_algorithm/src/diff/diff_predictive_trajectory.cpp

@@ -790,7 +790,7 @@ bool mkt_algorithm::diff::PredictiveTrajectory::pruneGlobalPlan(TFListenerPtr tf
     robot_nav_2d_msgs::Pose2DStamped robot;
     if (!robot_nav_2d_utils::transformPose(tf, global_plan.header.frame_id, pose, robot))
     {
-      throw robot_nav_core2::PlannerTFException("Unable to transform robot pose into global plan's frame");
+      throw robot_nav_core2::PlannerTFException("PredictiveTrajectory: Unable to transform robot pose into global plan's frame");
     }
 
     double dist_thresh_sq = dist_behind_robot * dist_behind_robot;
@@ -855,7 +855,7 @@ bool mkt_algorithm::diff::PredictiveTrajectory::transformGlobalPlan(
     robot_nav_2d_msgs::Pose2DStamped robot_pose;
     if (!robot_nav_2d_utils::transformPose(tf, global_plan.header.frame_id, pose, robot_pose))
     {
-      throw robot_nav_core2::PlannerTFException("Unable to transform robot pose into global plan's frame");
+      throw robot_nav_core2::PlannerTFException("PredictiveTrajectory: Unable to transform robot pose into global plan's frame");
     }
 
     // we'll discard points on the plan that are outside the local costmap

src/Algorithms/Packages/local_planners/pnkx_local_planner/src/pnkx_local_planner.cpp

@@ -226,15 +226,16 @@ void pnkx_local_planner::PNKXLocalPlanner::prepare(const robot_nav_2d_msgs::Pose
 
   // Update time stamp of goal pose
   // goal_pose_.header.stamp = pose.header.stamp;
+  // robot::log_info("pose: %f %f %f", pose.pose.x, pose.pose.y, pose.pose.theta);
   robot_nav_2d_msgs::Pose2DStamped local_start_pose = this->transformPoseToLocal(pose),
                              local_goal_pose = this->transformPoseToLocal(goal_pose_);
-
+  // robot::log_info("local_start_pose: %f %f %f", local_start_pose.pose.x, local_start_pose.pose.y, local_start_pose.pose.theta);
-  if (pnkx_local_planner::transformGlobalPlan(tf_, global_plan_, local_start_pose, costmap_robot_, costmap_robot_->getGlobalFrameID(), 2.0, transformed_plan_))
+  // robot::log_info("local_goal_pose: %f %f %f", local_goal_pose.pose.x, local_goal_pose.pose.y, local_goal_pose.pose.theta);
+  if (!pnkx_local_planner::transformGlobalPlan(tf_, global_plan_, local_start_pose, costmap_robot_, costmap_robot_->getGlobalFrameID(), 2.0, transformed_plan_))
   {
-    robot::log_debug_at(__FILE__, __LINE__, "Transform global plan is successful");
-  }
-  else
     robot::log_warning_at(__FILE__, __LINE__, "Transform global plan is failed");
+    throw robot_nav_core2::LocalPlannerException("Transform global plan is failed");
+  }
 
   double x_direction, y_direction, theta_direction;
   if (!ret_nav_)
@@ -276,6 +277,7 @@ robot_nav_2d_msgs::Twist2DStamped pnkx_local_planner::PNKXLocalPlanner::computeV
   }
   catch (const robot_nav_core2::PlannerException &e)
   {
+    robot::log_warning_at(__FILE__, __LINE__, "PNKXLocalPlanner computing velocity commands has been broken: %s", e.what());
     throw robot_nav_core2::LocalPlannerException("computing velocity commands has been broken");
     return cmd_vel;
   }

src/Algorithms/Packages/local_planners/pnkx_local_planner/src/transforms.cpp

@@ -111,7 +111,7 @@ bool pnkx_local_planner::transformGlobalPlan(
     robot_nav_2d_msgs::Pose2DStamped robot_pose;
     if (!robot_nav_2d_utils::transformPose(tf, global_plan.header.frame_id, pose, robot_pose))
     {
-      throw robot_nav_core2::PlannerTFException("Unable to transform robot pose into global plan's frame");
+      throw robot_nav_core2::PlannerTFException("transformGlobalPlan: Unable to transform robot pose into global plan's frame");
     }
 
     transformed_plan.header.frame_id = costmap->getGlobalFrameID();
@@ -172,8 +172,8 @@ bool pnkx_local_planner::transformGlobalPlan(
       // Fixed error bound of 1 meter for now. Can reduce to a portion of the map size or based on the resolution
       if (pnkx_local_planner::getSquareDistance(costmap_pose.pose, w.pose) < sq_prune_dist)
       {
-        robot::log_debug_at(__FILE__, __LINE__, "Nearest waypoint to <%f, %f> is <%f, %f>\n",
+        // robot::log_debug_at(__FILE__, __LINE__, "Nearest waypoint to <%f, %f> is <%f, %f>\n",
-          costmap_pose.pose.x, costmap_pose.pose.y, w.pose.x, w.pose.y);
+        //   costmap_pose.pose.x, costmap_pose.pose.y, w.pose.x, w.pose.y);
         break;
       }
 

src/Libraries/robot_nav_2d_utils/CMakeLists.txt

@@ -37,7 +37,7 @@ if (NOT BUILDING_WITH_CATKIN)
     tf3
     robot_tf3_geometry_msgs
     robot_cpp 
-    console_bridge
+    data_convert
   )
 
 else()

src/Libraries/robot_nav_2d_utils/include/robot_nav_2d_utils/tf_help.h

@@ -42,6 +42,18 @@
 
 namespace robot_nav_2d_utils
 {
+
+  /**
+   * @brief Transform a PoseStamped from one frame to another
+   *
+   * @param tf Smart pointer to TFListener
+   * @param in_pose Pose to transform
+   * @param out_pose Place to store the resulting transformed pose
+   * @param frame Frame to transform the pose into
+   * @return True if successful transform
+   */
+  bool transform(const TFListenerPtr tf, const ::robot_geometry_msgs::PoseStamped &in_pose,::robot_geometry_msgs::PoseStamped &out_pose, const ::std::string &frame);
+
   /**
    * @brief Transform a PoseStamped from one frame to another while catching exceptions
    *

src/Libraries/robot_nav_2d_utils/package.xml

@@ -25,6 +25,7 @@
   <build_depend>nav_grid</build_depend>
   <build_depend>robot_nav_core2</build_depend>
   <build_depend>robot_cpp</build_depend>
+  <build_depend>data_convert</build_depend>
   
   <run_depend>robot_nav_2d_msgs</run_depend>
   <run_depend>robot_geometry_msgs</run_depend>
@@ -32,4 +33,5 @@
   <run_depend>nav_grid</run_depend>
   <run_depend>robot_nav_core2</run_depend>
   <run_depend>robot_cpp</run_depend>
+  <run_depend>data_convert</run_depend>
 </package>

src/Libraries/robot_nav_2d_utils/src/conversions.cpp

@@ -31,6 +31,8 @@
  *  ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
  *  POSSIBILITY OF SUCH DAMAGE.
  */
+#include <robot/robot.h>
+#include <data_convert/data_convert.h>
 #include <robot_nav_2d_utils/conversions.h>
 #include <vector>
 #include <string>
@@ -105,7 +107,7 @@ namespace robot_nav_2d_utils
     pose2d.header = pose.header;
     pose2d.pose.x = pose.pose.position.x;
     pose2d.pose.y = pose.pose.position.y;
-    // pose2d.pose.theta = tf::getYaw(pose.pose.orientation);
+    pose2d.pose.theta = data_convert::getYaw(pose.pose.orientation);
     return pose2d;
   }
 
@@ -114,7 +116,7 @@ namespace robot_nav_2d_utils
     robot_geometry_msgs::Pose pose;
     pose.position.x = pose2d.x;
     pose.position.y = pose2d.y;
-    // pose.orientation = tf::createQuaternionMsgFromYaw(pose2d.theta);
+    pose.orientation = data_convert::createQuaternionMsgFromYaw(pose2d.theta);
     return pose;
   }
 
@@ -134,7 +136,7 @@ namespace robot_nav_2d_utils
     pose.header.stamp = stamp;
     pose.pose.position.x = pose2d.x;
     pose.pose.position.y = pose2d.y;
-    // pose.pose.orientation = tf::createQuaternionMsgFromYaw(pose2d.theta);
+    pose.pose.orientation = data_convert::createQuaternionMsgFromYaw(pose2d.theta);
     return pose;
   }
 
@@ -284,10 +286,10 @@ namespace robot_nav_2d_utils
     info.height = metadata.height;
     info.origin_x = metadata.origin.position.x;
     info.origin_y = metadata.origin.position.y;
-    // if (std::abs(tf::getYaw(metadata.origin.orientation)) > 1e-5)
+      if (std::abs(data_convert::getYaw(metadata.origin.orientation)) > 1e-5)
-    // {
+      {
-    //   std::cout <<  "Conversion from MapMetaData to NavGridInfo encountered a non-zero rotation. Ignoring" << std::endl;
+        robot::log_warning("[conversions] conversion from MapMetaData to NavGridInfo encountered a non-zero rotation. Ignoring");
-    // }
+      }
     return info;
   }
 

src/Libraries/robot_nav_2d_utils/src/tf_help.cpp

@@ -41,36 +41,54 @@
 
 namespace robot_nav_2d_utils
 {
+
+  bool transform(const TFListenerPtr tf, 
+                     const ::robot_geometry_msgs::PoseStamped &in_pose, 
+                     ::robot_geometry_msgs::PoseStamped &out_pose, const ::std::string &frame)
+  {
+    const std::string target_frame = frame;
+    const std::string source_frame = in_pose.header.frame_id;
+    std::string *error_msg;
+
+    if(tf->canTransform(target_frame, source_frame, tf3::Time(), error_msg))
+    {
+      tf3::TransformStampedMsg transform =tf->lookupTransform(target_frame, source_frame, tf3::Time());
+      tf3::doTransform(in_pose, out_pose, transform);
+      return true;
+    }
+    return false;
+  }
+
   bool transformPose(const TFListenerPtr tf, const ::std::string frame,
                      const ::robot_geometry_msgs::PoseStamped &in_pose, ::robot_geometry_msgs::PoseStamped &out_pose,
                      const bool extrapolation_fallback)
   {
-    // if (in_pose.header.frame_id == frame)
+    if (in_pose.header.frame_id == frame)
-    // {
+    {
-    //   out_pose = in_pose;
+      out_pose = in_pose;
-    //   return true;
+      return true;
-    // }
+    }
 
-    // try
+    try
-    // {
+    {
-    //   tf->transform(in_pose, out_pose, frame);
+      transform(tf, in_pose, out_pose, frame);
-    //   return true;
+      return true;
-    // }
+    }
-    // catch (tf3::ExtrapolationException &ex)
+    catch (tf3::ExtrapolationException &ex)
-    // {
+    {
-    //   if (!extrapolation_fallback)
+      if (!extrapolation_fallback)
-    //     throw;
+        throw;
-    //   robot_geometry_msgs::PoseStamped latest_in_pose;
+      robot_geometry_msgs::PoseStamped latest_in_pose;
-    //   latest_in_pose.header.frame_id = in_pose.header.frame_id;
+      latest_in_pose.header.frame_id = in_pose.header.frame_id;
-    //   latest_in_pose.pose = in_pose.pose;
+      latest_in_pose.pose = in_pose.pose;
-    //   tf->transform(latest_in_pose, out_pose, frame);
+      transform(tf, latest_in_pose, out_pose, frame);
-    //   return true;
+      return true;
-    // }
+    }
-    // catch (tf3::TransformException &ex)
+    catch (tf3::TransformException &ex)
-    // {
+    {
-    //   robot::log_error("Exception in transformPose: %s", ex.what());
+      robot::log_error("Exception in transformPose: %s", ex.what());
-    //   return false;
+      return false;
-    // }
+    }
     return false;
   }
 

src/Navigations/Cores/robot_nav_core_adapter/src/local_planner_adapter.cpp

@@ -188,7 +188,7 @@ namespace robot_nav_core_adapter
     }
     catch (const robot_nav_core2::PlannerException &e)
     {
-      std::cerr << "computeVelocityCommands exception: " << e.what() << std::endl;
+      robot::log_error_at(__FILE__, __LINE__, "LocalPlannerAdapter computeVelocityCommands exception: %s", e.what());
       return false;
     }
     cmd_vel = robot_nav_2d_utils::twist2Dto3D(cmd_vel_2d.velocity);

src/Navigations/Packages/move_base/src/move_base.cpp

@@ -1246,6 +1246,10 @@ bool move_base::MoveBase::makePlan(const robot_geometry_msgs::PoseStamped &goal,
     robot::log_error("Failed to find a plan without Order to point (%f, %f)", goal.pose.position.x, goal.pose.position.y);
     return false;
   }
+  else
+  {
+    global_data_.plan = robot_nav_2d_utils::posesToPath2D(plan);
+  }
   lock.unlock();
   return true;
 }
@@ -1280,6 +1284,10 @@ bool move_base::MoveBase::makePlan(const robot_protocol_msgs::Order &msg, const
     robot::log_error("Failed to find a plan with Order to point (%f, %f)", goal.pose.position.x, goal.pose.position.y);
     return false;
   }
+  else
+  {
+    global_data_.plan = robot_nav_2d_utils::posesToPath2D(plan);
+  }
   lock.unlock();
   return true;
 }
@@ -2136,7 +2144,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
 
   // if we're controlling, we'll attempt to find valid velocity commands
   case move_base::CONTROLLING:
-    robot::log_debug("In controlling state.");
+    // robot::log_debug("In controlling state.");
 
     // check to see if we've reached our goal
     try
@@ -2198,12 +2206,8 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
       {
         if (tc_->computeVelocityCommands(odometry_.twist.twist, cmd_vel))
         {
-          robot::log_debug("Got a valid command from the local planner: %.3lf, %.3lf, %.3lf",
-                          cmd_vel.linear.x, cmd_vel.linear.y, cmd_vel.angular.z);
-
           last_valid_control_ = robot::Time::now();
           // make sure that we send the velocity command to the base
-          // vel_pub_.publish(cmd_vel);
 
           if (nav_feedback_)
           {
@@ -2216,8 +2220,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
         }
         else
         {
-          robot::log_debug("The local planner could not find a valid plan.");
+          robot::log_warning_at(__FILE__, __LINE__, "The local planner could not find a valid plan.");
-          robot::log_warning("The local planner could not find a valid plan.");
           robot::Time attempt_end = last_valid_control_ + robot::Duration(controller_patience_);
 
           // check if we've tried to find a valid control for longer than our time limit
@@ -2246,34 +2249,34 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
 
             // enable the planner thread in case it isn't running on a clock
             boost::unique_lock<boost::recursive_mutex> lock(planner_mutex_);
-            // if (as_->isPreemptRequested())
+            if (as_->isPreemptRequested())
-            // {
+            {
-            //   if (as_->isNewGoalAvailable())
+              if (as_->isNewGoalAvailable())
-            //   {
+              {
-            //     // if we're active and a new goal is available, we'll accept it, but we won't shut anything down
+                // if we're active and a new goal is available, we'll accept it, but we won't shut anything down
-            //     move_base_msgs::MoveBaseGoal new_goal = *as_->acceptNewGoal();
+                robot_move_base_msgs::MoveBaseGoal new_goal = *as_->acceptNewGoal();
-            //     if (!isQuaternionValid(new_goal.target_pose.pose.orientation))
+                if (!isQuaternionValid(new_goal.target_pose.pose.orientation))
-            //     {
+                {
-            //       if (nav_feedback_)
+                  if (nav_feedback_)
-            //       {
+                  {
-            //         nav_feedback_->navigation_state = move_base_core::State::ABORTED;
+                    nav_feedback_->navigation_state = robot::move_base_core::State::ABORTED;
-            //         nav_feedback_->feed_back_str = std::string("Aborting on goal because it was sent with an invalid quaternion");
+                    nav_feedback_->feed_back_str = std::string("Aborting on goal because it was sent with an invalid quaternion");
-            //       }
+                  }
-            //       as_->setAborted(move_base_msgs::MoveBaseResult(), "Aborting on goal because it was sent with an invalid quaternion");
+                  as_->setAborted(robot_move_base_msgs::MoveBaseResult(), "Aborting on goal because it was sent with an invalid quaternion");
-            //       return false;
+                  return false;
-            //     }
+                }
-            //     else
+                else
-            //     {
+                {
-            //       if (nav_feedback_)
+                  if (nav_feedback_)
-            //       {
+                  {
-            //         nav_feedback_->navigation_state = move_base_core::State::ACTIVE;
+                    nav_feedback_->navigation_state = robot::move_base_core::State::ACTIVE;
-            //         nav_feedback_->feed_back_str = std::string("The new goal is received");
+                    nav_feedback_->feed_back_str = std::string("The new goal is received");
-            //       }
+                  }
-            //     }
+                }
-            //     goal = goalToGlobalFrame(new_goal.target_pose);
+                goal = goalToGlobalFrame(new_goal.target_pose);
-            //     planner_goal_ = goal;
+                planner_goal_ = goal;
-            //   }
+              }
-            // }
+            }
             runPlanner_ = true;
             cancel_ctr_ = false;
             planner_cond_.notify_one();
@@ -2318,14 +2321,6 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
     if (recovery_behavior_enabled_ && recovery_index_ < recovery_behaviors_.size())
     {
       robot::log_debug("[%s:%d] Executing behavior %u of %zu", __FILE__, __LINE__, recovery_index_ + 1, recovery_behaviors_.size());
-
-      // move_base_msgs::RecoveryStatus msg;
-      // msg.pose_stamped = current_position;
-      // msg.current_recovery_number = recovery_index_;
-      // msg.total_number_of_recoveries = recovery_behaviors_.size();
-      // msg.recovery_behavior_name = recovery_behavior_names_[recovery_index_];
-      // recovery_status_pub_.publish(msg);
-
       recovery_behaviors_[recovery_index_]->runBehavior();
 
       // we at least want to give the robot some time to stop oscillating after executing the behavior
@@ -2363,7 +2358,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
           nav_feedback_->navigation_state = robot::move_base_core::State::ABORTED;
           nav_feedback_->feed_back_str = std::string("Failed to find a valid control. Even after executing recovery behaviors.");
         }
-        // as_->setAborted(move_base_msgs::MoveBaseResult(), "Failed to find a valid control. Even after executing recovery behaviors.");
+        as_->setAborted(robot_move_base_msgs::MoveBaseResult(), "Failed to find a valid control. Even after executing recovery behaviors.");
       }
       else if (recovery_trigger_ == PLANNING_R)
       {
@@ -2373,7 +2368,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
           nav_feedback_->navigation_state = robot::move_base_core::State::ABORTED;
           nav_feedback_->feed_back_str = "Failed to find a valid plan. Even after executing recovery behaviors.";
         }
-        // as_->setAborted(move_base_msgs::MoveBaseResult(), "Failed to find a valid plan. Even after executing recovery behaviors.");
+        as_->setAborted(robot_move_base_msgs::MoveBaseResult(), "Failed to find a valid plan. Even after executing recovery behaviors.");
       }
       else if (recovery_trigger_ == OSCILLATION_R)
       {
@@ -2383,7 +2378,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
           nav_feedback_->navigation_state = robot::move_base_core::State::ABORTED;
           nav_feedback_->feed_back_str = std::string("Robot is oscillating. Even after executing recovery behaviors.");
         }
-        // as_->setAborted(move_base_msgs::MoveBaseResult(), "Robot is oscillating. Even after executing recovery behaviors.");
+        as_->setAborted(robot_move_base_msgs::MoveBaseResult(), "Robot is oscillating. Even after executing recovery behaviors.");
       }
       return true;
     }
@@ -2400,7 +2395,7 @@ bool move_base::MoveBase::executeCycle(robot_geometry_msgs::PoseStamped &goal)
       nav_feedback_->navigation_state = robot::move_base_core::State::ABORTED;  
       nav_feedback_->feed_back_str = std::string("Reached a case that should not be hit in move_base. This is a bug, please report it.");
     }
-    // as_->setAborted(move_base_msgs::MoveBaseResult(), "Reached a case that should not be hit in move_base. This is a bug, please report it.");
+    as_->setAborted(robot_move_base_msgs::MoveBaseResult(), "Reached a case that should not be hit in move_base. This is a bug, please report it.");
     return true;
   }