#include #include #include #include #include #include #include "moveit_msgs/msg/robot_trajectory.hpp" #include "geometry_msgs/msg/pose_array.hpp" #include "std_msgs/msg/empty.hpp" #include "moveit/move_group_interface/move_group_interface.h" #include "moveit_visual_tools/moveit_visual_tools.h" using namespace std::chrono_literals; class MoveitInterface : public rclcpp::Node { public: MoveitInterface() : Node("moveit_interface"), trajectory_set(false) { publisher_ = this->create_publisher("moveit_interface/joint_space_trajectory", 10); subcriber_ = this->create_subscription("moveit_interface/task_space_trajectory", 10, std::bind(&MoveitInterface::task_space_callback, this, std::placeholders::_1)); execute_sub_ = this->create_subscription("moveit_interface/execution", 10, std::bind(&MoveitInterface::execution_callback, this, std::placeholders::_1)); // Create a shared instance of the current node auto shared_this = std::shared_ptr(this); // Connecting to moveit static const std::string PLANNING_GROUP = "panda_arm"; move_group_ = std::make_shared(std::shared_ptr(shared_this), PLANNING_GROUP); // const moveit::core::JointModelGroup* joint_model_group = move_group_->getCurrentState()->getJointModelGroup(PLANNING_GROUP); // Connection to Rviz visual_tools_ = std::make_shared(std::shared_ptr(shared_this), "panda_link0", "move_group", move_group_->getRobotModel()); Eigen::Isometry3d text_pose = Eigen::Isometry3d::Identity(); text_pose.translation().z()=1.0; visual_tools_->publishText(text_pose, "MoveGroupInterface_Demo", rviz_visual_tools::WHITE, rviz_visual_tools::XLARGE); } private: void task_space_callback(const geometry_msgs::msg::PoseArray::SharedPtr msg) { moveit::core::RobotState start_state(*move_group_->getCurrentState()); move_group_->setStartState(start_state); std::vector waypoints = msg->poses; const double jump_threshold = 0.0; const double eef_step = 0.001; double fraction = move_group_->computeCartesianPath(waypoints, eef_step,jump_threshold, trajectory); RCLCPP_INFO(logger, "Visualizing plan 4 (Cartesian path) (%.2f%% achieved)", fraction * 100.0); visual_tools_->deleteAllMarkers(); visual_tools_->publishText(text_pose, "Cartesian_Path", rviz_visual_tools::WHITE, rviz_visual_tools::XLARGE); visual_tools_->publishPath(waypoints, rviz_visual_tools::LIME_GREEN, rviz_visual_tools::SMALL); trajectory_set = true; publisher_->publish(trajectory); } void execution_callback(const std_msgs::msg::Empty::SharedPtr /*msg*/) { if(trajectory_set) { move_group_->execute(trajectory); trajectory_set=false; } else { RCLCPP_WARN(logger, "Trajectroy is not set. Unable to execute."); } } rclcpp::Publisher::SharedPtr publisher_; rclcpp::Subscription::SharedPtr subcriber_; rclcpp::Subscription::SharedPtr execute_sub_; std::shared_ptr move_group_; std::shared_ptr visual_tools_; Eigen::Isometry3d text_pose; moveit_msgs::msg::RobotTrajectory trajectory; rclcpp::Logger logger = this->get_logger(); bool trajectory_set; }; int main(int argc, char * argv[]) { rclcpp::init(argc, argv); rclcpp::spin(std::make_shared()); rclcpp::shutdown(); return 0; }