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awc-devel
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9f0bd9f485
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9f0bd9f485 | ||
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ef76c43029 | ||
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d88e547676 | ||
| 01e278befb | |||
| 7df2365d96 |
@@ -404,37 +404,44 @@ bool mkt_algorithm::diff::PredictiveTrajectory::prepare(const robot_nav_2d_msgs:
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}
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}
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else
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else if(compute_plan_.poses.size() == 1)
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{
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try
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{
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auto carrot_pose_it = getLookAheadPoint(velocity, lookahead_dist, transform_plan_);
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auto prev_carrot_pose_it = transform_plan_.poses.begin();
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double distance_it = 0;
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for (auto it = carrot_pose_it - 1; it != transform_plan_.poses.begin(); --it)
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{
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double dx = it->pose.x - carrot_pose_it->pose.x;
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double dy = it->pose.y - carrot_pose_it->pose.y;
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distance_it += std::hypot(dx, dy);
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if (distance_it > costmap_robot_->getCostmap()->getResolution())
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{
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prev_carrot_pose_it = it;
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break;
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}
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}
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// auto carrot_pose_it = getLookAheadPoint(velocity, lookahead_dist, transform_plan_);
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// auto prev_carrot_pose_it = transform_plan_.poses.begin();
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// double distance_it = 0;
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// for (auto it = carrot_pose_it - 1; it != transform_plan_.poses.begin(); --it)
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// {
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// double dx = it->pose.x - carrot_pose_it->pose.x;
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// double dy = it->pose.y - carrot_pose_it->pose.y;
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// distance_it += std::hypot(dx, dy);
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// if (distance_it > costmap_robot_->getCostmap()->getResolution())
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// {
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// prev_carrot_pose_it = it;
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// break;
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// }
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// }
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robot_geometry_msgs::Pose front = journey(transform_plan_.poses, 0, transform_plan_.poses.size() - 1) > 5.0 * costmap_robot_->getCostmap()->getResolution()
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? robot_nav_2d_utils::pose2DToPose((*(prev_carrot_pose_it)).pose)
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: robot_nav_2d_utils::pose2DToPose(robot_geometry_msgs::Pose2D());
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// robot_geometry_msgs::Pose front = journey(transform_plan_.poses, 0, transform_plan_.poses.size() - 1) > 5.0 * costmap_robot_->getCostmap()->getResolution()
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// ? robot_nav_2d_utils::pose2DToPose((*(prev_carrot_pose_it)).pose)
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// : robot_nav_2d_utils::pose2DToPose(robot_geometry_msgs::Pose2D());
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robot_geometry_msgs::Pose back = robot_nav_2d_utils::pose2DToPose((*(carrot_pose_it)).pose);
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// robot_geometry_msgs::Pose back = robot_nav_2d_utils::pose2DToPose((*(carrot_pose_it)).pose);
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// teb_local_planner::PoseSE2 start_pose(front);
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// teb_local_planner::PoseSE2 goal_pose(back);
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// const double dir_path = (goal_pose.position() - start_pose.position()).dot(start_pose.orientationUnitVec());
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const double dir_path = 0.0;
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auto goal_pose = compute_plan_.poses.front().pose;
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auto start_pose = pose.pose;
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double angle_path = atan2(goal_pose.y - start_pose.y, goal_pose.x - start_pose.x);
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double dir_path = cos(fabs(angle_path - goal_pose.theta));
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if (fabs(dir_path) > M_PI / 6 || x_direction < 1e-9)
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x_direction = dir_path > 0 ? FORWARD : BACKWARD;
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else
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x_direction = 0.0;
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}
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catch (std::exception &e)
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{
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@@ -636,26 +643,28 @@ void mkt_algorithm::diff::PredictiveTrajectory::computePurePursuit(
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double w_target = v_target * kappa;
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if(journey(trajectory.poses, 0, trajectory.poses.size() - 1) <= min_journey_squared_)
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{
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ss << w_target << " ";
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if (trajectory.poses.size() >= 2) {
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const auto& p1 = trajectory.poses[trajectory.poses.size() - 1].pose;
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double heading_ref = 0.0;
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for(int i = trajectory.poses.size() - 2; i >= 0; i--)
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{
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const auto& p = trajectory.poses[i].pose;
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const auto& dx = sign_x < 0.0 ? p1.x - p.x : p.x - p1.x;
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const auto& dy = sign_x < 0.0 ? p1.y - p.y : p.y - p1.y;
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const auto& dx = p1.x - p.x ;
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const auto& dy = p1.y - p.y ;
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if(std::hypot(dx, dy) >= costmap_robot_->getCostmap()->getResolution())
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{
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if(fabs(dx) < 1e-6 && fabs(dy) < 1e-6)
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continue;
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heading_ref = angles::normalize_angle(std::atan2(dy, dx));
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heading_ref = std::atan2(dy, dx);
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ss << "error " << heading_ref << " ";
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if(sign_x < 0.0)
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heading_ref += std::copysign(M_PI, heading_ref) * (-1.0);
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break;
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}
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}
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const double error = angles::normalize_angle(heading_ref);
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ss << "error: " << error << " ";
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const double error = heading_ref;
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ss << error << " ";
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double w_heading = 0.0;
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pid(error,
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near_goal_heading_integral_,
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@@ -667,12 +676,12 @@ void mkt_algorithm::diff::PredictiveTrajectory::computePurePursuit(
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w_heading);
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// Apply acceleration limits
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double dw_heading = std::clamp(w_heading - velocity.theta, -acc_lim_theta_ * dt, acc_lim_theta_ * dt);
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ss << "dw_heading " << dw_heading << " ";
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w_target = velocity.theta + dw_heading;
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ss << w_target << " ";
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}
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else
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{
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w_target = 0.0;
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w_target = std::clamp(w_target, -0.001, 0.001);
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near_goal_heading_was_active_ = false;
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}
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}
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@@ -690,7 +699,6 @@ void mkt_algorithm::diff::PredictiveTrajectory::computePurePursuit(
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drive_cmd.x = velocity.x + dv;
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drive_cmd.theta = velocity.theta + dw;
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ss << drive_cmd.theta << " ";
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Eigen::VectorXd y(2);
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y << drive_cmd.x, drive_cmd.theta;
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@@ -710,7 +718,7 @@ void mkt_algorithm::diff::PredictiveTrajectory::computePurePursuit(
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drive_cmd.x = fabs(drive_cmd.x) >= v_min ? drive_cmd.x : std::copysign(v_min, sign_x);
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if (kf_filter_angular_)
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drive_cmd.theta = std::clamp(kf_->state()[3], -max_vel_theta_, max_vel_theta_);
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ROS_WARN_THROTTLE(0.1, "%s", ss.str().c_str());
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// robot::log_info("%s", ss.str().c_str());
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}
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void mkt_algorithm::diff::PredictiveTrajectory::applyDistanceSpeedScaling(
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@@ -774,15 +782,22 @@ bool mkt_algorithm::diff::PredictiveTrajectory::shouldRotateToPath(
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for(int i = 2; i < global_plan.poses.size(); i++)
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{
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const auto& p = global_plan.poses[i];
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if(std::hypot(p.pose.x, p.pose.y) > costmap_robot_->getCostmap()->getResolution())
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const auto& dx = p.pose.x - p1.pose.x;
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const auto& dy = p.pose.y - p1.pose.y;
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if(std::hypot(dx, dy) > costmap_robot_->getCostmap()->getResolution())
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{
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path_angle = std::atan2(p.pose.y - p1.pose.y, p.pose.x - p1.pose.x);
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if(fabs(dx) < 1e-9 && fabs(dy) < 1e-9)
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continue;
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path_angle = std::atan2(dy, dx);
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break;
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}
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}
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}
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// Whether we should rotate robot to rough path heading
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// if(sign_x < 0.0)
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// path_angle += std::copysign(M_PI, path_angle) * (-1.0);
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// angle_to_path = path_angle;
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angle_to_path = sign_x < 0.0 ? angles::normalize_angle(M_PI + path_angle) : path_angle;
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double heading_linear = sqrt(velocity.x * velocity.x + velocity.y * velocity.y);
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// The difference in the path orientation and the starting robot orientation (radians) to trigger a rotate in place. (default: 0.785)
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@@ -1241,7 +1256,7 @@ robot_nav_2d_msgs::Path2D mkt_algorithm::diff::PredictiveTrajectory::generateTra
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if (max_kappa <= straight_threshold && fabs(path.poses.back().pose.x) < min_lookahead_dist_) // nếu đường thẳng
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{
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if(fabs(path.poses.front().pose.y) <= 0.03 && fabs(path.poses.back().pose.x) < (min_lookahead_dist_ + max_path_distance_))
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if(fabs(path.poses.front().pose.y) <= 0.03 && fabs(path.poses.back().pose.x) < min_lookahead_dist_ )
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{
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return generateParallelPath(path, sign_x);
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}
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Submodule src/Algorithms/Packages/global_planners/custom_planner updated: 7c84705ce7...78b9679049
Submodule src/Algorithms/Packages/global_planners/dock_planner updated: d51ecc0986...03907b9613
@@ -976,12 +976,6 @@ bool move_base::MoveBase::moveTo( const robot_geometry_msgs::PoseStamped &goal,
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robot::log_info("[MoveBase::moveTo] Processing goal through action server...");
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as_->processGoal(action_goal);
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setTwistLinear(old_linear_fwd_);
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setTwistLinear(old_linear_bwd_);
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setTwistAngular(old_angular_fwd_);
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setTwistAngular(old_angular_rev_);
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robot::log_info("[MoveBase::moveTo] Goal processed successfully by action server");
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}
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catch (const std::exception &e)
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@@ -1124,11 +1118,6 @@ bool move_base::MoveBase::moveTo(const robot_protocol_msgs::Order &msg,
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}
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as_->processGoal(action_goal);
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setTwistLinear(old_linear_fwd_);
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setTwistLinear(old_linear_bwd_);
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setTwistAngular(old_angular_fwd_);
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setTwistAngular(old_angular_rev_);
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}
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catch (const std::exception &e)
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{
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@@ -1290,10 +1279,6 @@ bool move_base::MoveBase::dockTo(const std::string &marker, const robot_geometry
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robot::log_info("[MoveBase::moveTo] Processing goal through action server...");
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as_->processGoal(action_goal);
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setTwistLinear(old_linear_fwd_);
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setTwistLinear(old_linear_bwd_);
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setTwistAngular(old_angular_fwd_);
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setTwistAngular(old_angular_rev_);
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robot::log_info("[MoveBase::moveTo] Goal processed successfully by action server");
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}
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catch (const std::exception &e)
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@@ -1440,10 +1425,6 @@ bool move_base::MoveBase::dockTo(const robot_protocol_msgs::Order &msg,
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return false;
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}
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as_->processGoal(action_goal);
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setTwistLinear(old_linear_fwd_);
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setTwistLinear(old_linear_bwd_);
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setTwistAngular(old_angular_fwd_);
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setTwistAngular(old_angular_rev_);
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}
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catch (const std::exception &e)
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{
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