Classes | Public Member Functions | Static Public Attributes | Protected Member Functions | Private Attributes | List of all members
moveit::planning_interface::MoveGroupInterface Class Reference

Client class to conveniently use the ROS interfaces provided by the move_group node. More...

#include <moveit/planning_interface/move_group_interface.h>

Classes

class  MoveGroupInterfaceImpl
 
struct  Options
 Specification of options to use when constructing the MoveGroupInterface class. More...
 
struct  Plan
 The representation of a motion plan (as ROS messasges) More...
 

Public Member Functions

void clearMaxCartesianLinkSpeed ()
 Clear maximum Cartesian speed of the end effector. More...
 
const std::vector< std::string > & getActiveJoints () const
 Get names of joints with an active (actuated) DOF in this group. More...
 
std::string getDefaultPlannerId (const std::string &group="") const
 Get the default planner of the current planning pipeline for the given group (or the pipeline's default) More...
 
std::string getDefaultPlanningPipelineId () const
 
double getGoalJointTolerance () const
 Get the tolerance that is used for reaching a joint goal. This is distance for each joint in configuration space. More...
 
double getGoalOrientationTolerance () const
 Get the tolerance that is used for reaching an orientation goal. This is the tolerance for roll, pitch and yaw, in radians. More...
 
double getGoalPositionTolerance () const
 Get the tolerance that is used for reaching a position goal. This is be the radius of a sphere where the end-effector must reach. More...
 
bool getInterfaceDescription (moveit_msgs::PlannerInterfaceDescription &desc) const
 Get the description of the default planning plugin loaded by the action server. More...
 
bool getInterfaceDescriptions (std::vector< moveit_msgs::PlannerInterfaceDescription > &desc) const
 Get the descriptions of all planning plugins loaded by the action server. More...
 
const std::vector< std::string > & getJointModelGroupNames () const
 Get the available planning group names. More...
 
const std::vector< std::string > & getJointNames () const
 
const std::vector< std::string > & getJoints () const
 Get names of all the joints in this group. More...
 
const std::vector< std::string > & getLinkNames () const
 Get vector of names of links available in move group. More...
 
const std::string & getName () const
 Get the name of the group this instance operates on. More...
 
const std::vector< std::string > & getNamedTargets () const
 Get the names of the named robot states available as targets, both either remembered states or default states from srdf. More...
 
std::map< std::string, double > getNamedTargetValues (const std::string &name) const
 Get the joint angles for targets specified by name. More...
 
const ros::NodeHandlegetNodeHandle () const
 Get the ROS node handle of this instance operates on. More...
 
const std::string & getPlannerId () const
 Get the current planner_id. More...
 
std::map< std::string, std::string > getPlannerParams (const std::string &planner_id, const std::string &group="") const
 Get the planner parameters for given group and planner_id. More...
 
const std::string & getPlanningFrame () const
 Get the name of the frame in which the robot is planning. More...
 
const std::string & getPlanningPipelineId () const
 Get the current planning_pipeline_id. More...
 
double getPlanningTime () const
 Get the number of seconds set by setPlanningTime() More...
 
moveit::core::RobotModelConstPtr getRobotModel () const
 Get the RobotModel object. More...
 
unsigned int getVariableCount () const
 Get the number of variables used to describe the state of this group. This is larger or equal to the number of DOF. More...
 
const std::vector< std::string > & getVariableNames () const
 Get names of degrees of freedom in this group. More...
 
void limitMaxCartesianLinkSpeed (const double max_speed, const std::string &link_name="")
 Limit the maximum Cartesian speed for a given link. The unit of the speed is meter per second and must be greater than 0. The desired speed is a maximum bound. Slower parts of the trajectory will be left unchanged. If no link_name is given, the first end effector tip will be assumed. More...
 
 MoveGroupInterface (const MoveGroupInterface &)=delete
 This class owns unique resources (e.g. action clients, threads) and its not very meaningful to copy. Pass by references, move it, or simply create multiple instances where required. More...
 
 MoveGroupInterface (const Options &opt, const std::shared_ptr< tf2_ros::Buffer > &tf_buffer, const ros::Duration &wait_for_servers)
 
 MoveGroupInterface (const Options &opt, const std::shared_ptr< tf2_ros::Buffer > &tf_buffer=std::shared_ptr< tf2_ros::Buffer >(), const ros::WallDuration &wait_for_servers=ros::WallDuration())
 Construct a MoveGroupInterface instance call using a specified set of options opt. More...
 
 MoveGroupInterface (const std::string &group, const std::shared_ptr< tf2_ros::Buffer > &tf_buffer, const ros::Duration &wait_for_servers)
 
 MoveGroupInterface (const std::string &group, const std::shared_ptr< tf2_ros::Buffer > &tf_buffer=std::shared_ptr< tf2_ros::Buffer >(), const ros::WallDuration &wait_for_servers=ros::WallDuration())
 Construct a client for the MoveGroup action for a particular group. More...
 
 MoveGroupInterface (MoveGroupInterface &&other) noexcept
 
 MOVEIT_STRUCT_FORWARD (Plan)
 
MoveGroupInterfaceoperator= (const MoveGroupInterface &)=delete
 
MoveGroupInterfaceoperator= (MoveGroupInterface &&other) noexcept
 
void setGoalJointTolerance (double tolerance)
 Set the joint tolerance (for each joint) that is used for reaching the goal when moving to a joint value target. More...
 
void setGoalOrientationTolerance (double tolerance)
 Set the orientation tolerance that is used for reaching the goal when moving to a pose. More...
 
void setGoalPositionTolerance (double tolerance)
 Set the position tolerance that is used for reaching the goal when moving to a pose. More...
 
void setGoalTolerance (double tolerance)
 Set the tolerance that is used for reaching the goal. For joint state goals, this will be distance for each joint, in the configuration space (radians or meters depending on joint type). For pose goals this will be the radius of a sphere where the end-effector must reach. This function simply triggers calls to setGoalPositionTolerance(), setGoalOrientationTolerance() and setGoalJointTolerance(). More...
 
void setMaxAccelerationScalingFactor (double max_acceleration_scaling_factor)
 Set a scaling factor for optionally reducing the maximum joint acceleration. Allowed values are in (0,1]. The maximum joint acceleration specified in the robot model is multiplied by the factor. If the value is 0, it is set to the default value, which is defined in joint_limits.yaml of the moveit_config. If the value is greater than 1, it is set to 1.0. More...
 
void setMaxVelocityScalingFactor (double max_velocity_scaling_factor)
 Set a scaling factor for optionally reducing the maximum joint velocity. Allowed values are in (0,1]. The maximum joint velocity specified in the robot model is multiplied by the factor. If the value is 0, it is set to the default value, which is defined in joint_limits.yaml of the moveit_config. If the value is greater than 1, it is set to 1.0. More...
 
void setNumPlanningAttempts (unsigned int num_planning_attempts)
 Set the number of times the motion plan is to be computed from scratch before the shortest solution is returned. The default value is 1. More...
 
void setPlannerId (const std::string &planner_id)
 Specify a planner to be used for further planning. More...
 
void setPlannerParams (const std::string &planner_id, const std::string &group, const std::map< std::string, std::string > &params, bool bReplace=false)
 Set the planner parameters for given group and planner_id. More...
 
void setPlanningPipelineId (const std::string &pipeline_id)
 Specify a planning pipeline to be used for further planning. More...
 
void setPlanningTime (double seconds)
 Specify the maximum amount of time to use when planning. More...
 
void setStartState (const moveit::core::RobotState &start_state)
 If a different start state should be considered instead of the current state of the robot, this function sets that state. More...
 
void setStartState (const moveit_msgs::RobotState &start_state)
 If a different start state should be considered instead of the current state of the robot, this function sets that state. More...
 
void setStartStateToCurrentState ()
 Set the starting state for planning to be that reported by the robot's joint state publication. More...
 
void setSupportSurfaceName (const std::string &name)
 For pick/place operations, the name of the support surface is used to specify the fact that attached objects are allowed to touch the support surface. More...
 
void setWorkspace (double minx, double miny, double minz, double maxx, double maxy, double maxz)
 Specify the workspace bounding box. The box is specified in the planning frame (i.e. relative to the robot root link start position). This is useful when the planning group contains the root joint of the robot – i.e. when planning motion for the robot relative to the world. More...
 
 ~MoveGroupInterface ()
 
Setting a joint state target (goal)

There are 2 types of goal targets:

  • a JointValueTarget (aka JointStateTarget) specifies an absolute value for each joint (angle for rotational joints or position for prismatic joints).
  • a PoseTarget (Position, Orientation, or Pose) specifies the pose of one or more end effectors (and the planner can use any joint values that reaches the pose(s)).

Only one or the other is used for planning. Calling any of the set*JointValueTarget() functions sets the current goal target to the JointValueTarget. Calling any of the setPoseTarget(), setOrientationTarget(), setRPYTarget(), setPositionTarget() functions sets the current goal target to the Pose target.

bool setJointValueTarget (const std::vector< double > &group_variable_values)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const std::map< std::string, double > &variable_values)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const std::vector< std::string > &variable_names, const std::vector< double > &variable_values)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const moveit::core::RobotState &robot_state)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const std::string &joint_name, const std::vector< double > &values)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const std::string &joint_name, double value)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const sensor_msgs::JointState &state)
 Set the JointValueTarget and use it for future planning requests. More...
 
bool setJointValueTarget (const geometry_msgs::Pose &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
bool setJointValueTarget (const geometry_msgs::PoseStamped &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
bool setJointValueTarget (const Eigen::Isometry3d &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
bool setApproximateJointValueTarget (const geometry_msgs::Pose &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
bool setApproximateJointValueTarget (const geometry_msgs::PoseStamped &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
bool setApproximateJointValueTarget (const Eigen::Isometry3d &eef_pose, const std::string &end_effector_link="")
 Set the joint state goal for a particular joint by computing IK. More...
 
void setRandomTarget ()
 Set the joint state goal to a random joint configuration. More...
 
bool setNamedTarget (const std::string &name)
 Set the current joint values to be ones previously remembered by rememberJointValues() or, if not found, that are specified in the SRDF under the name name as a group state. More...
 
void getJointValueTarget (std::vector< double > &group_variable_values) const
 Get the current joint state goal in a form compatible to setJointValueTarget() More...
 
const moveit::core::RobotStategetJointValueTarget () const
 Get the currently set joint state goal, replaced by private getTargetRobotState() More...
 
Setting a pose target (goal)

Setting a Pose (or Position or Orientation) target disables any previously set JointValueTarget.

For groups that have multiple end effectors, a pose can be set for each end effector in the group. End effectors which do not have a pose target set will end up in arbitrary positions.

bool setPositionTarget (double x, double y, double z, const std::string &end_effector_link="")
 Set the goal position of the end-effector end_effector_link to be (x, y, z). More...
 
bool setRPYTarget (double roll, double pitch, double yaw, const std::string &end_effector_link="")
 Set the goal orientation of the end-effector end_effector_link to be (roll,pitch,yaw) radians. More...
 
bool setOrientationTarget (double x, double y, double z, double w, const std::string &end_effector_link="")
 Set the goal orientation of the end-effector end_effector_link to be the quaternion (x,y,z,w). More...
 
bool setPoseTarget (const Eigen::Isometry3d &end_effector_pose, const std::string &end_effector_link="")
 Set the goal pose of the end-effector end_effector_link. More...
 
bool setPoseTarget (const geometry_msgs::Pose &target, const std::string &end_effector_link="")
 Set the goal pose of the end-effector end_effector_link. More...
 
bool setPoseTarget (const geometry_msgs::PoseStamped &target, const std::string &end_effector_link="")
 Set the goal pose of the end-effector end_effector_link. More...
 
bool setPoseTargets (const EigenSTL::vector_Isometry3d &end_effector_pose, const std::string &end_effector_link="")
 Set goal poses for end_effector_link. More...
 
bool setPoseTargets (const std::vector< geometry_msgs::Pose > &target, const std::string &end_effector_link="")
 Set goal poses for end_effector_link. More...
 
bool setPoseTargets (const std::vector< geometry_msgs::PoseStamped > &target, const std::string &end_effector_link="")
 Set goal poses for end_effector_link. More...
 
void setPoseReferenceFrame (const std::string &pose_reference_frame)
 Specify which reference frame to assume for poses specified without a reference frame. More...
 
bool setEndEffectorLink (const std::string &end_effector_link)
 Specify the parent link of the end-effector. This end_effector_link will be used in calls to pose target functions when end_effector_link is not explicitly specified. More...
 
bool setEndEffector (const std::string &eef_name)
 Specify the name of the end-effector to use. This is equivalent to setting the EndEffectorLink to the parent link of this end effector. More...
 
void clearPoseTarget (const std::string &end_effector_link="")
 Forget pose(s) specified for end_effector_link. More...
 
void clearPoseTargets ()
 Forget any poses specified for all end-effectors. More...
 
const geometry_msgs::PoseStamped & getPoseTarget (const std::string &end_effector_link="") const
 
const std::vector< geometry_msgs::PoseStamped > & getPoseTargets (const std::string &end_effector_link="") const
 
const std::string & getEndEffectorLink () const
 Get the current end-effector link. This returns the value set by setEndEffectorLink() (or indirectly by setEndEffector()). If setEndEffectorLink() was not called, this function reports the link name that serves as parent of an end-effector attached to this group. If there are multiple end-effectors, one of them is returned. If no such link is known, the empty string is returned. More...
 
const std::string & getEndEffector () const
 Get the current end-effector name. This returns the value set by setEndEffector() (or indirectly by setEndEffectorLink()). If setEndEffector() was not called, this function reports an end-effector attached to this group. If there are multiple end-effectors, one of them is returned. If no end-effector is known, the empty string is returned. More...
 
const std::string & getPoseReferenceFrame () const
 Get the reference frame set by setPoseReferenceFrame(). By default this is the reference frame of the robot model. More...
 
Planning a path from the start position to the Target (goal) position, and executing that plan.
moveit::core::MoveItErrorCode asyncMove ()
 Plan and execute a trajectory that takes the group of joints declared in the constructor to the specified target. This call is not blocking (does not wait for the execution of the trajectory to complete). More...
 
actionlib::SimpleActionClient< moveit_msgs::MoveGroupAction > & getMoveGroupClient () const
 Get the move_group action client used by the MoveGroupInterface. The client can be used for querying the execution state of the trajectory and abort trajectory execution during asynchronous execution. More...
 
moveit::core::MoveItErrorCode move ()
 Plan and execute a trajectory that takes the group of joints declared in the constructor to the specified target. This call is always blocking (waits for the execution of the trajectory to complete) and requires an asynchronous spinner to be started. More...
 
moveit::core::MoveItErrorCode plan (Plan &plan)
 Compute a motion plan that takes the group declared in the constructor from the current state to the specified target. No execution is performed. The resulting plan is stored in plan. More...
 
moveit::core::MoveItErrorCode asyncExecute (const Plan &plan)
 Given a plan, execute it without waiting for completion. More...
 
moveit::core::MoveItErrorCode asyncExecute (const moveit_msgs::RobotTrajectory &trajectory)
 Given a robot trajectory, execute it without waiting for completion. More...
 
moveit::core::MoveItErrorCode execute (const Plan &plan)
 Given a plan, execute it while waiting for completion. More...
 
moveit::core::MoveItErrorCode execute (const moveit_msgs::RobotTrajectory &trajectory)
 Given a robot trajectory, execute it while waiting for completion. More...
 
double computeCartesianPath (const std::vector< geometry_msgs::Pose > &waypoints, double eef_step, double, moveit_msgs::RobotTrajectory &trajectory, bool avoid_collisions=true, moveit_msgs::MoveItErrorCodes *error_code=nullptr)
 Compute a Cartesian path that follows specified waypoints with a step size of at most eef_step meters between end effector configurations of consecutive points in the result trajectory. The reference frame for the waypoints is that specified by setPoseReferenceFrame(). No more than jump_threshold is allowed as change in distance in the configuration space of the robot (this is to prevent 'jumps' in IK solutions). Collisions are avoided if avoid_collisions is set to true. If collisions cannot be avoided, the function fails. Return a value that is between 0.0 and 1.0 indicating the fraction of the path achieved as described by the waypoints. Return -1.0 in case of error. More...
 
double computeCartesianPath (const std::vector< geometry_msgs::Pose > &waypoints, double eef_step, moveit_msgs::RobotTrajectory &trajectory, bool avoid_collisions=true, moveit_msgs::MoveItErrorCodes *error_code=nullptr)
 
double computeCartesianPath (const std::vector< geometry_msgs::Pose > &waypoints, double eef_step, double, moveit_msgs::RobotTrajectory &trajectory, const moveit_msgs::Constraints &path_constraints, bool avoid_collisions=true, moveit_msgs::MoveItErrorCodes *error_code=nullptr)
 Compute a Cartesian path that follows specified waypoints with a step size of at most eef_step meters between end effector configurations of consecutive points in the result trajectory. The reference frame for the waypoints is that specified by setPoseReferenceFrame(). No more than jump_threshold is allowed as change in distance in the configuration space of the robot (this is to prevent 'jumps' in IK solutions). Kinematic constraints for the path given by path_constraints will be met for every point along the trajectory, if they are not met, a partial solution will be returned. Constraints are checked (collision and kinematic) if avoid_collisions is set to true. If constraints cannot be met, the function fails. Return a value that is between 0.0 and 1.0 indicating the fraction of the path achieved as described by the waypoints. Return -1.0 in case of error. More...
 
double computeCartesianPath (const std::vector< geometry_msgs::Pose > &waypoints, double eef_step, moveit_msgs::RobotTrajectory &trajectory, const moveit_msgs::Constraints &path_constraints, bool avoid_collisions=true, moveit_msgs::MoveItErrorCodes *error_code=nullptr)
 
void stop ()
 Stop any trajectory execution, if one is active. More...
 
void allowReplanning (bool flag)
 Specify whether the robot is allowed to replan if it detects changes in the environment. More...
 
void setReplanAttempts (int32_t attempts)
 Maximum number of replanning attempts. More...
 
void setReplanDelay (double delay)
 Sleep this duration between replanning attempts (in walltime seconds) More...
 
void allowLooking (bool flag)
 Specify whether the robot is allowed to look around before moving if it determines it should (default is false) More...
 
void setLookAroundAttempts (int32_t attempts)
 How often is the system allowed to move the camera to update environment model when looking. More...
 
void constructMotionPlanRequest (moveit_msgs::MotionPlanRequest &request)
 Build the MotionPlanRequest that would be sent to the move_group action with plan() or move() and store it in request. More...
 
moveit_msgs::PickupGoal constructPickupGoal (const std::string &object, std::vector< moveit_msgs::Grasp > grasps, bool plan_only) const
 Build a PickupGoal for an object named object and store it in goal_out. More...
 
moveit_msgs::PlaceGoal constructPlaceGoal (const std::string &object, std::vector< moveit_msgs::PlaceLocation > locations, bool plan_only) const
 Build a PlaceGoal for an object named object and store it in goal_out. More...
 
std::vector< moveit_msgs::PlaceLocation > posesToPlaceLocations (const std::vector< geometry_msgs::PoseStamped > &poses) const
 Convert a vector of PoseStamped to a vector of PlaceLocation. More...
 
High level actions that trigger a sequence of plans and actions.
moveit::core::MoveItErrorCode pick (const std::string &object, bool plan_only=false)
 Pick up an object. More...
 
moveit::core::MoveItErrorCode pick (const std::string &object, const moveit_msgs::Grasp &grasp, bool plan_only=false)
 Pick up an object given a grasp pose. More...
 
moveit::core::MoveItErrorCode pick (const std::string &object, std::vector< moveit_msgs::Grasp > grasps, bool plan_only=false)
 Pick up an object given possible grasp poses. More...
 
moveit::core::MoveItErrorCode pick (const moveit_msgs::PickupGoal &goal)
 Pick up an object given a PickupGoal. More...
 
moveit::core::MoveItErrorCode planGraspsAndPick (const std::string &object="", bool plan_only=false)
 Pick up an object. More...
 
moveit::core::MoveItErrorCode planGraspsAndPick (const moveit_msgs::CollisionObject &object, bool plan_only=false)
 Pick up an object. More...
 
moveit::core::MoveItErrorCode place (const std::string &object, bool plan_only=false)
 Place an object somewhere safe in the world (a safe location will be detected) More...
 
moveit::core::MoveItErrorCode place (const std::string &object, std::vector< moveit_msgs::PlaceLocation > locations, bool plan_only=false)
 Place an object at one of the specified possible locations. More...
 
moveit::core::MoveItErrorCode place (const std::string &object, const std::vector< geometry_msgs::PoseStamped > &poses, bool plan_only=false)
 Place an object at one of the specified possible locations. More...
 
moveit::core::MoveItErrorCode place (const std::string &object, const geometry_msgs::PoseStamped &pose, bool plan_only=false)
 Place an object at one of the specified possible location. More...
 
moveit::core::MoveItErrorCode place (const moveit_msgs::PlaceGoal &goal)
 Place an object given a PlaceGoal. More...
 
bool attachObject (const std::string &object, const std::string &link="")
 Given the name of an object in the planning scene, make the object attached to a link of the robot. If no link name is specified, the end-effector is used. If there is no end-effector, the first link in the group is used. If the object name does not exist an error will be produced in move_group, but the request made by this interface will succeed. More...
 
bool attachObject (const std::string &object, const std::string &link, const std::vector< std::string > &touch_links)
 Given the name of an object in the planning scene, make the object attached to a link of the robot. The set of links the object is allowed to touch without considering that a collision is specified by touch_links. If link is empty, the end-effector link is used. If there is no end-effector, the first link in the group is used. If the object name does not exist an error will be produced in move_group, but the request made by this interface will succeed. More...
 
bool detachObject (const std::string &name="")
 Detach an object. name specifies the name of the object attached to this group, or the name of the link the object is attached to. If there is no name specified, and there is only one attached object, that object is detached. An error is produced if no object to detach is identified. More...
 
Query current robot state
bool startStateMonitor (double wait=1.0)
 When reasoning about the current state of a robot, a CurrentStateMonitor instance is automatically constructed. This function allows triggering the construction of that object from the beginning, so that future calls to functions such as getCurrentState() will not take so long and are less likely to fail. More...
 
std::vector< double > getCurrentJointValues () const
 Get the current joint values for the joints planned for by this instance (see getJoints()) More...
 
moveit::core::RobotStatePtr getCurrentState (double wait=1) const
 Get the current state of the robot within the duration specified by wait. More...
 
geometry_msgs::PoseStamped getCurrentPose (const std::string &end_effector_link="") const
 Get the pose for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed. More...
 
std::vector< double > getCurrentRPY (const std::string &end_effector_link="") const
 Get the roll-pitch-yaw (XYZ) for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed. More...
 
std::vector< double > getRandomJointValues () const
 Get random joint values for the joints planned for by this instance (see getJoints()) More...
 
geometry_msgs::PoseStamped getRandomPose (const std::string &end_effector_link="") const
 Get a random reachable pose for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed. More...
 
Manage named joint configurations
void rememberJointValues (const std::string &name)
 Remember the current joint values (of the robot being monitored) under name. These can be used by setNamedTarget(). These values are remembered locally in the client. Other clients will not have access to them. More...
 
void rememberJointValues (const std::string &name, const std::vector< double > &values)
 Remember the specified joint values under name. These can be used by setNamedTarget(). These values are remembered locally in the client. Other clients will not have access to them. More...
 
const std::map< std::string, std::vector< double > > & getRememberedJointValues () const
 Get the currently remembered map of names to joint values. More...
 
void forgetJointValues (const std::string &name)
 Forget the joint values remembered under name. More...
 
Manage planning constraints
void setConstraintsDatabase (const std::string &host, unsigned int port)
 Specify where the database server that holds known constraints resides. More...
 
std::vector< std::string > getKnownConstraints () const
 Get the names of the known constraints as read from the Mongo database, if a connection was achieved. More...
 
moveit_msgs::Constraints getPathConstraints () const
 Get the actual set of constraints in use with this MoveGroupInterface. More...
 
bool setPathConstraints (const std::string &constraint)
 Specify a set of path constraints to use. The constraints are looked up by name from the Mongo database server. This replaces any path constraints set in previous calls to setPathConstraints(). More...
 
void setPathConstraints (const moveit_msgs::Constraints &constraint)
 Specify a set of path constraints to use. This version does not require a database server. This replaces any path constraints set in previous calls to setPathConstraints(). More...
 
void clearPathConstraints ()
 Specify that no path constraints are to be used. This removes any path constraints set in previous calls to setPathConstraints(). More...
 
moveit_msgs::TrajectoryConstraints getTrajectoryConstraints () const
 
void setTrajectoryConstraints (const moveit_msgs::TrajectoryConstraints &constraint)
 
void clearTrajectoryConstraints ()
 

Static Public Attributes

static constexpr double DEFAULT_ALLOWED_PLANNING_TIME = 5.0
 Default allowed planning time (seconds) More...
 
static constexpr double DEFAULT_GOAL_JOINT_TOLERANCE = 1e-4
 Default goal joint tolerance (0.1mm) if not specified with {robot description name}_kinematics/{joint model group name}/goal_joint_tolerance. More...
 
static constexpr double DEFAULT_GOAL_ORIENTATION_TOLERANCE = 1e-3
 Default goal orientation tolerance (~0.1deg) if not specified with {robot description name}_kinematics/{joint model group name}/goal_orientation_tolerance. More...
 
static constexpr double DEFAULT_GOAL_POSITION_TOLERANCE = 1e-4
 Default goal position tolerance (0.1mm) if not specified with {robot description name}_kinematics/{joint model group name}/goal_position_tolerance. More...
 
static constexpr int DEFAULT_NUM_PLANNING_ATTEMPTS = 1
 Default number of planning attempts. More...
 
static const std::string ROBOT_DESCRIPTION
 Default ROS parameter name from where to read the robot's URDF. Set to 'robot_description'. More...
 

Protected Member Functions

const moveit::core::RobotStategetTargetRobotState () const
 

Private Attributes

MoveGroupInterfaceImplimpl_
 
std::map< std::string, std::vector< double > > remembered_joint_values_
 

Detailed Description

Client class to conveniently use the ROS interfaces provided by the move_group node.

This class includes many default settings to make things easy to use.

Definition at line 139 of file move_group_interface.h.

Constructor & Destructor Documentation

◆ MoveGroupInterface() [1/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( const Options opt,
const std::shared_ptr< tf2_ros::Buffer > &  tf_buffer = std::shared_ptr<tf2_ros::Buffer>(),
const ros::WallDuration wait_for_servers = ros::WallDuration() 
)

Construct a MoveGroupInterface instance call using a specified set of options opt.

Parameters
opt.A MoveGroupInterface::Options structure, if you pass a ros::NodeHandle with a specific callback queue, it has to be of type ros::CallbackQueue (which is the default type of callback queues used in ROS)
tf_buffer.Specify a TF2_ROS Buffer instance to use. If not specified, one will be constructed internally along with an internal TF2_ROS TransformListener
wait_for_servers.Timeout for connecting to action servers. Zero time means unlimited waiting.

Definition at line 1447 of file move_group_interface.cpp.

◆ MoveGroupInterface() [2/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( const Options opt,
const std::shared_ptr< tf2_ros::Buffer > &  tf_buffer,
const ros::Duration wait_for_servers 
)

Definition at line 1453 of file move_group_interface.cpp.

◆ MoveGroupInterface() [3/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( const std::string &  group,
const std::shared_ptr< tf2_ros::Buffer > &  tf_buffer = std::shared_ptr<tf2_ros::Buffer>(),
const ros::WallDuration wait_for_servers = ros::WallDuration() 
)

Construct a client for the MoveGroup action for a particular group.

Parameters
tf_buffer.Specify a TF2_ROS Buffer instance to use. If not specified, one will be constructed internally along with an internal TF2_ROS TransformListener
wait_for_servers.Timeout for connecting to action servers. Zero time means unlimited waiting.

Definition at line 1433 of file move_group_interface.cpp.

◆ MoveGroupInterface() [4/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( const std::string &  group,
const std::shared_ptr< tf2_ros::Buffer > &  tf_buffer,
const ros::Duration wait_for_servers 
)

Definition at line 1441 of file move_group_interface.cpp.

◆ ~MoveGroupInterface()

moveit::planning_interface::MoveGroupInterface::~MoveGroupInterface ( )

Definition at line 1460 of file move_group_interface.cpp.

◆ MoveGroupInterface() [5/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( const MoveGroupInterface )
delete

This class owns unique resources (e.g. action clients, threads) and its not very meaningful to copy. Pass by references, move it, or simply create multiple instances where required.

◆ MoveGroupInterface() [6/6]

moveit::planning_interface::MoveGroupInterface::MoveGroupInterface ( MoveGroupInterface &&  other)
noexcept

Definition at line 1465 of file move_group_interface.cpp.

Member Function Documentation

◆ allowLooking()

void moveit::planning_interface::MoveGroupInterface::allowLooking ( bool  flag)

Specify whether the robot is allowed to look around before moving if it determines it should (default is false)

Definition at line 2282 of file move_group_interface.cpp.

◆ allowReplanning()

void moveit::planning_interface::MoveGroupInterface::allowReplanning ( bool  flag)

Specify whether the robot is allowed to replan if it detects changes in the environment.

Definition at line 2301 of file move_group_interface.cpp.

◆ asyncExecute() [1/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::asyncExecute ( const moveit_msgs::RobotTrajectory &  trajectory)

Given a robot trajectory, execute it without waiting for completion.

Definition at line 1603 of file move_group_interface.cpp.

◆ asyncExecute() [2/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::asyncExecute ( const Plan plan)

Given a plan, execute it without waiting for completion.

Definition at line 1598 of file move_group_interface.cpp.

◆ asyncMove()

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::asyncMove ( )

Plan and execute a trajectory that takes the group of joints declared in the constructor to the specified target. This call is not blocking (does not wait for the execution of the trajectory to complete).

Definition at line 1583 of file move_group_interface.cpp.

◆ attachObject() [1/2]

bool moveit::planning_interface::MoveGroupInterface::attachObject ( const std::string &  object,
const std::string &  link,
const std::vector< std::string > &  touch_links 
)

Given the name of an object in the planning scene, make the object attached to a link of the robot. The set of links the object is allowed to touch without considering that a collision is specified by touch_links. If link is empty, the end-effector link is used. If there is no end-effector, the first link in the group is used. If the object name does not exist an error will be produced in move_group, but the request made by this interface will succeed.

Definition at line 2415 of file move_group_interface.cpp.

◆ attachObject() [2/2]

bool moveit::planning_interface::MoveGroupInterface::attachObject ( const std::string &  object,
const std::string &  link = "" 
)

Given the name of an object in the planning scene, make the object attached to a link of the robot. If no link name is specified, the end-effector is used. If there is no end-effector, the first link in the group is used. If the object name does not exist an error will be produced in move_group, but the request made by this interface will succeed.

Definition at line 2410 of file move_group_interface.cpp.

◆ clearMaxCartesianLinkSpeed()

void moveit::planning_interface::MoveGroupInterface::clearMaxCartesianLinkSpeed ( )

Clear maximum Cartesian speed of the end effector.

Definition at line 1578 of file move_group_interface.cpp.

◆ clearPathConstraints()

void moveit::planning_interface::MoveGroupInterface::clearPathConstraints ( )

Specify that no path constraints are to be used. This removes any path constraints set in previous calls to setPathConstraints().

Definition at line 2353 of file move_group_interface.cpp.

◆ clearPoseTarget()

void moveit::planning_interface::MoveGroupInterface::clearPoseTarget ( const std::string &  end_effector_link = "")

Forget pose(s) specified for end_effector_link.

Definition at line 1923 of file move_group_interface.cpp.

◆ clearPoseTargets()

void moveit::planning_interface::MoveGroupInterface::clearPoseTargets ( )

Forget any poses specified for all end-effectors.

Definition at line 1928 of file move_group_interface.cpp.

◆ clearTrajectoryConstraints()

void moveit::planning_interface::MoveGroupInterface::clearTrajectoryConstraints ( )

Definition at line 2368 of file move_group_interface.cpp.

◆ computeCartesianPath() [1/4]

double moveit::planning_interface::MoveGroupInterface::computeCartesianPath ( const std::vector< geometry_msgs::Pose > &  waypoints,
double  eef_step,
double  ,
moveit_msgs::RobotTrajectory &  trajectory,
bool  avoid_collisions = true,
moveit_msgs::MoveItErrorCodes *  error_code = nullptr 
)
inline

Compute a Cartesian path that follows specified waypoints with a step size of at most eef_step meters between end effector configurations of consecutive points in the result trajectory. The reference frame for the waypoints is that specified by setPoseReferenceFrame(). No more than jump_threshold is allowed as change in distance in the configuration space of the robot (this is to prevent 'jumps' in IK solutions). Collisions are avoided if avoid_collisions is set to true. If collisions cannot be avoided, the function fails. Return a value that is between 0.0 and 1.0 indicating the fraction of the path achieved as described by the waypoints. Return -1.0 in case of error.

Definition at line 849 of file move_group_interface.h.

◆ computeCartesianPath() [2/4]

double moveit::planning_interface::MoveGroupInterface::computeCartesianPath ( const std::vector< geometry_msgs::Pose > &  waypoints,
double  eef_step,
double  ,
moveit_msgs::RobotTrajectory &  trajectory,
const moveit_msgs::Constraints &  path_constraints,
bool  avoid_collisions = true,
moveit_msgs::MoveItErrorCodes *  error_code = nullptr 
)
inline

Compute a Cartesian path that follows specified waypoints with a step size of at most eef_step meters between end effector configurations of consecutive points in the result trajectory. The reference frame for the waypoints is that specified by setPoseReferenceFrame(). No more than jump_threshold is allowed as change in distance in the configuration space of the robot (this is to prevent 'jumps' in IK solutions). Kinematic constraints for the path given by path_constraints will be met for every point along the trajectory, if they are not met, a partial solution will be returned. Constraints are checked (collision and kinematic) if avoid_collisions is set to true. If constraints cannot be met, the function fails. Return a value that is between 0.0 and 1.0 indicating the fraction of the path achieved as described by the waypoints. Return -1.0 in case of error.

Definition at line 872 of file move_group_interface.h.

◆ computeCartesianPath() [3/4]

double moveit::planning_interface::MoveGroupInterface::computeCartesianPath ( const std::vector< geometry_msgs::Pose > &  waypoints,
double  eef_step,
moveit_msgs::RobotTrajectory &  trajectory,
bool  avoid_collisions = true,
moveit_msgs::MoveItErrorCodes *  error_code = nullptr 
)

Definition at line 1664 of file move_group_interface.cpp.

◆ computeCartesianPath() [4/4]

double moveit::planning_interface::MoveGroupInterface::computeCartesianPath ( const std::vector< geometry_msgs::Pose > &  waypoints,
double  eef_step,
moveit_msgs::RobotTrajectory &  trajectory,
const moveit_msgs::Constraints &  path_constraints,
bool  avoid_collisions = true,
moveit_msgs::MoveItErrorCodes *  error_code = nullptr 
)

Definition at line 1671 of file move_group_interface.cpp.

◆ constructMotionPlanRequest()

void moveit::planning_interface::MoveGroupInterface::constructMotionPlanRequest ( moveit_msgs::MotionPlanRequest request)

Build the MotionPlanRequest that would be sent to the move_group action with plan() or move() and store it in request.

Definition at line 2426 of file move_group_interface.cpp.

◆ constructPickupGoal()

moveit_msgs::PickupGoal moveit::planning_interface::MoveGroupInterface::constructPickupGoal ( const std::string &  object,
std::vector< moveit_msgs::Grasp >  grasps,
bool  plan_only = false 
) const

Build a PickupGoal for an object named object and store it in goal_out.

Definition at line 1623 of file move_group_interface.cpp.

◆ constructPlaceGoal()

moveit_msgs::PlaceGoal moveit::planning_interface::MoveGroupInterface::constructPlaceGoal ( const std::string &  object,
std::vector< moveit_msgs::PlaceLocation >  locations,
bool  plan_only = false 
) const

Build a PlaceGoal for an object named object and store it in goal_out.

Definition at line 1630 of file move_group_interface.cpp.

◆ detachObject()

bool moveit::planning_interface::MoveGroupInterface::detachObject ( const std::string &  name = "")

Detach an object. name specifies the name of the object attached to this group, or the name of the link the object is attached to. If there is no name specified, and there is only one attached object, that object is detached. An error is produced if no object to detach is identified.

Definition at line 2421 of file move_group_interface.cpp.

◆ execute() [1/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::execute ( const moveit_msgs::RobotTrajectory &  trajectory)

Given a robot trajectory, execute it while waiting for completion.

Definition at line 1613 of file move_group_interface.cpp.

◆ execute() [2/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::execute ( const Plan plan)

Given a plan, execute it while waiting for completion.

Definition at line 1608 of file move_group_interface.cpp.

◆ forgetJointValues()

void moveit::planning_interface::MoveGroupInterface::forgetJointValues ( const std::string &  name)

Forget the joint values remembered under name.

Definition at line 2277 of file move_group_interface.cpp.

◆ getActiveJoints()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getActiveJoints ( ) const

Get names of joints with an active (actuated) DOF in this group.

This list includes only joints that MoveIt can actuate through a controller. Mimic joints are excluded, but can be recomputed with the robot model. Passive joints explicitly excluded and cannot be recomputed from this set of joints.

This list is primarily useful to process trajectories meant for execution.

Definition at line 2250 of file move_group_interface.cpp.

◆ getCurrentJointValues()

std::vector< double > moveit::planning_interface::MoveGroupInterface::getCurrentJointValues ( ) const

Get the current joint values for the joints planned for by this instance (see getJoints())

Definition at line 2158 of file move_group_interface.cpp.

◆ getCurrentPose()

geometry_msgs::PoseStamped moveit::planning_interface::MoveGroupInterface::getCurrentPose ( const std::string &  end_effector_link = "") const

Get the pose for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed.

Definition at line 2199 of file move_group_interface.cpp.

◆ getCurrentRPY()

std::vector< double > moveit::planning_interface::MoveGroupInterface::getCurrentRPY ( const std::string &  end_effector_link = "") const

Get the roll-pitch-yaw (XYZ) for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed.

Definition at line 2223 of file move_group_interface.cpp.

◆ getCurrentState()

moveit::core::RobotStatePtr moveit::planning_interface::MoveGroupInterface::getCurrentState ( double  wait = 1) const

Get the current state of the robot within the duration specified by wait.

Definition at line 2265 of file move_group_interface.cpp.

◆ getDefaultPlannerId()

std::string moveit::planning_interface::MoveGroupInterface::getDefaultPlannerId ( const std::string &  group = "") const

Get the default planner of the current planning pipeline for the given group (or the pipeline's default)

Definition at line 1543 of file move_group_interface.cpp.

◆ getDefaultPlanningPipelineId()

std::string moveit::planning_interface::MoveGroupInterface::getDefaultPlanningPipelineId ( ) const

Definition at line 1528 of file move_group_interface.cpp.

◆ getEndEffector()

const std::string & moveit::planning_interface::MoveGroupInterface::getEndEffector ( ) const

Get the current end-effector name. This returns the value set by setEndEffector() (or indirectly by setEndEffectorLink()). If setEndEffector() was not called, this function reports an end-effector attached to this group. If there are multiple end-effectors, one of them is returned. If no end-effector is known, the empty string is returned.

Definition at line 1901 of file move_group_interface.cpp.

◆ getEndEffectorLink()

const std::string & moveit::planning_interface::MoveGroupInterface::getEndEffectorLink ( ) const

Get the current end-effector link. This returns the value set by setEndEffectorLink() (or indirectly by setEndEffector()). If setEndEffectorLink() was not called, this function reports the link name that serves as parent of an end-effector attached to this group. If there are multiple end-effectors, one of them is returned. If no such link is known, the empty string is returned.

Definition at line 1896 of file move_group_interface.cpp.

◆ getGoalJointTolerance()

double moveit::planning_interface::MoveGroupInterface::getGoalJointTolerance ( ) const

Get the tolerance that is used for reaching a joint goal. This is distance for each joint in configuration space.

Definition at line 2111 of file move_group_interface.cpp.

◆ getGoalOrientationTolerance()

double moveit::planning_interface::MoveGroupInterface::getGoalOrientationTolerance ( ) const

Get the tolerance that is used for reaching an orientation goal. This is the tolerance for roll, pitch and yaw, in radians.

Definition at line 2121 of file move_group_interface.cpp.

◆ getGoalPositionTolerance()

double moveit::planning_interface::MoveGroupInterface::getGoalPositionTolerance ( ) const

Get the tolerance that is used for reaching a position goal. This is be the radius of a sphere where the end-effector must reach.

Definition at line 2116 of file move_group_interface.cpp.

◆ getInterfaceDescription()

bool moveit::planning_interface::MoveGroupInterface::getInterfaceDescription ( moveit_msgs::PlannerInterfaceDescription &  desc) const

Get the description of the default planning plugin loaded by the action server.

Definition at line 1506 of file move_group_interface.cpp.

◆ getInterfaceDescriptions()

bool moveit::planning_interface::MoveGroupInterface::getInterfaceDescriptions ( std::vector< moveit_msgs::PlannerInterfaceDescription > &  desc) const

Get the descriptions of all planning plugins loaded by the action server.

Definition at line 1511 of file move_group_interface.cpp.

◆ getJointModelGroupNames()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getJointModelGroupNames ( ) const

Get the available planning group names.

Definition at line 2405 of file move_group_interface.cpp.

◆ getJointNames()

const std::vector<std::string>& moveit::planning_interface::MoveGroupInterface::getJointNames ( ) const
inline

Definition at line 271 of file move_group_interface.h.

◆ getJoints()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getJoints ( ) const

Get names of all the joints in this group.

The list includes fixed joints, so not all joints in the list can move. This complete list is mainly useful when considering relative transforms.

Definition at line 2255 of file move_group_interface.cpp.

◆ getJointValueTarget() [1/2]

const moveit::core::RobotState & moveit::planning_interface::MoveGroupInterface::getJointValueTarget ( ) const

Get the currently set joint state goal, replaced by private getTargetRobotState()

Definition at line 1886 of file move_group_interface.cpp.

◆ getJointValueTarget() [2/2]

void moveit::planning_interface::MoveGroupInterface::getJointValueTarget ( std::vector< double > &  group_variable_values) const

Get the current joint state goal in a form compatible to setJointValueTarget()

Definition at line 1756 of file move_group_interface.cpp.

◆ getKnownConstraints()

std::vector< std::string > moveit::planning_interface::MoveGroupInterface::getKnownConstraints ( ) const

Get the names of the known constraints as read from the Mongo database, if a connection was achieved.

Definition at line 2333 of file move_group_interface.cpp.

◆ getLinkNames()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getLinkNames ( ) const

Get vector of names of links available in move group.

Definition at line 1712 of file move_group_interface.cpp.

◆ getMoveGroupClient()

actionlib::SimpleActionClient< moveit_msgs::MoveGroupAction > & moveit::planning_interface::MoveGroupInterface::getMoveGroupClient ( ) const

Get the move_group action client used by the MoveGroupInterface. The client can be used for querying the execution state of the trajectory and abort trajectory execution during asynchronous execution.

Definition at line 1588 of file move_group_interface.cpp.

◆ getName()

const std::string & moveit::planning_interface::MoveGroupInterface::getName ( ) const

Get the name of the group this instance operates on.

Definition at line 1484 of file move_group_interface.cpp.

◆ getNamedTargets()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getNamedTargets ( ) const

Get the names of the named robot states available as targets, both either remembered states or default states from srdf.

Definition at line 1489 of file move_group_interface.cpp.

◆ getNamedTargetValues()

std::map< std::string, double > moveit::planning_interface::MoveGroupInterface::getNamedTargetValues ( const std::string &  name) const

Get the joint angles for targets specified by name.

Definition at line 1717 of file move_group_interface.cpp.

◆ getNodeHandle()

const ros::NodeHandle & moveit::planning_interface::MoveGroupInterface::getNodeHandle ( ) const

Get the ROS node handle of this instance operates on.

Definition at line 1501 of file move_group_interface.cpp.

◆ getPathConstraints()

moveit_msgs::Constraints moveit::planning_interface::MoveGroupInterface::getPathConstraints ( ) const

Get the actual set of constraints in use with this MoveGroupInterface.

Returns
A copy of the current path constraints set for this interface

Definition at line 2338 of file move_group_interface.cpp.

◆ getPlannerId()

const std::string & moveit::planning_interface::MoveGroupInterface::getPlannerId ( ) const

Get the current planner_id.

Definition at line 1553 of file move_group_interface.cpp.

◆ getPlannerParams()

std::map< std::string, std::string > moveit::planning_interface::MoveGroupInterface::getPlannerParams ( const std::string &  planner_id,
const std::string &  group = "" 
) const

Get the planner parameters for given group and planner_id.

Definition at line 1516 of file move_group_interface.cpp.

◆ getPlanningFrame()

const std::string & moveit::planning_interface::MoveGroupInterface::getPlanningFrame ( ) const

Get the name of the frame in which the robot is planning.

Definition at line 2400 of file move_group_interface.cpp.

◆ getPlanningPipelineId()

const std::string & moveit::planning_interface::MoveGroupInterface::getPlanningPipelineId ( ) const

Get the current planning_pipeline_id.

Definition at line 1538 of file move_group_interface.cpp.

◆ getPlanningTime()

double moveit::planning_interface::MoveGroupInterface::getPlanningTime ( ) const

Get the number of seconds set by setPlanningTime()

Get time allowed to planner to solve problem before aborting.

Definition at line 2390 of file move_group_interface.cpp.

◆ getPoseReferenceFrame()

const std::string & moveit::planning_interface::MoveGroupInterface::getPoseReferenceFrame ( ) const

Get the reference frame set by setPoseReferenceFrame(). By default this is the reference frame of the robot model.

Definition at line 2106 of file move_group_interface.cpp.

◆ getPoseTarget()

const geometry_msgs::PoseStamped & moveit::planning_interface::MoveGroupInterface::getPoseTarget ( const std::string &  end_effector_link = "") const

Get the currently set pose goal for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed. If multiple targets are set for end_effector_link this will return the first one. If no pose target is set for this end_effector_link then an empty pose will be returned (check for orientation.xyzw == 0).

Definition at line 2001 of file move_group_interface.cpp.

◆ getPoseTargets()

const std::vector< geometry_msgs::PoseStamped > & moveit::planning_interface::MoveGroupInterface::getPoseTargets ( const std::string &  end_effector_link = "") const

Get the currently set pose goal for the end-effector end_effector_link. The pose goal can consist of multiple poses, if corresponding setPoseTarget() calls were made. Otherwise, only one pose is returned in the vector. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed

Definition at line 2007 of file move_group_interface.cpp.

◆ getRandomJointValues()

std::vector< double > moveit::planning_interface::MoveGroupInterface::getRandomJointValues ( ) const

Get random joint values for the joints planned for by this instance (see getJoints())

Definition at line 2167 of file move_group_interface.cpp.

◆ getRandomPose()

geometry_msgs::PoseStamped moveit::planning_interface::MoveGroupInterface::getRandomPose ( const std::string &  end_effector_link = "") const

Get a random reachable pose for the end-effector end_effector_link. If end_effector_link is empty (the default value) then the end-effector reported by getEndEffectorLink() is assumed.

Definition at line 2174 of file move_group_interface.cpp.

◆ getRememberedJointValues()

const std::map<std::string, std::vector<double> >& moveit::planning_interface::MoveGroupInterface::getRememberedJointValues ( ) const
inline

Get the currently remembered map of names to joint values.

Definition at line 1078 of file move_group_interface.h.

◆ getRobotModel()

moveit::core::RobotModelConstPtr moveit::planning_interface::MoveGroupInterface::getRobotModel ( ) const

Get the RobotModel object.

Definition at line 1496 of file move_group_interface.cpp.

◆ getTargetRobotState()

const moveit::core::RobotState & moveit::planning_interface::MoveGroupInterface::getTargetRobotState ( ) const
protected

return the full RobotState of the joint-space target, only for internal use

Definition at line 1891 of file move_group_interface.cpp.

◆ getTrajectoryConstraints()

moveit_msgs::TrajectoryConstraints moveit::planning_interface::MoveGroupInterface::getTrajectoryConstraints ( ) const

Definition at line 2358 of file move_group_interface.cpp.

◆ getVariableCount()

unsigned int moveit::planning_interface::MoveGroupInterface::getVariableCount ( ) const

Get the number of variables used to describe the state of this group. This is larger or equal to the number of DOF.

Definition at line 2260 of file move_group_interface.cpp.

◆ getVariableNames()

const std::vector< std::string > & moveit::planning_interface::MoveGroupInterface::getVariableNames ( ) const

Get names of degrees of freedom in this group.

This list does not include fixed joints, but does include mimic and passive joints. Multi-DOF joints are represented as multiple separate entries. It corresponds to the double vectors representing a robot state in the RobotState class. The joints in this list define all information necessary to recreate a complete robot state without additional knowledge.

Definition at line 1707 of file move_group_interface.cpp.

◆ limitMaxCartesianLinkSpeed()

void moveit::planning_interface::MoveGroupInterface::limitMaxCartesianLinkSpeed ( const double  max_speed,
const std::string &  link_name = "" 
)

Limit the maximum Cartesian speed for a given link. The unit of the speed is meter per second and must be greater than 0. The desired speed is a maximum bound. Slower parts of the trajectory will be left unchanged. If no link_name is given, the first end effector tip will be assumed.

Definition at line 1573 of file move_group_interface.cpp.

◆ move()

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::move ( )

Plan and execute a trajectory that takes the group of joints declared in the constructor to the specified target. This call is always blocking (waits for the execution of the trajectory to complete) and requires an asynchronous spinner to be started.

Definition at line 1593 of file move_group_interface.cpp.

◆ MOVEIT_STRUCT_FORWARD()

moveit::planning_interface::MoveGroupInterface::MOVEIT_STRUCT_FORWARD ( Plan  )

◆ operator=() [1/2]

MoveGroupInterface& moveit::planning_interface::MoveGroupInterface::operator= ( const MoveGroupInterface )
delete

◆ operator=() [2/2]

MoveGroupInterface & moveit::planning_interface::MoveGroupInterface::operator= ( MoveGroupInterface &&  other)
noexcept

Definition at line 1471 of file move_group_interface.cpp.

◆ pick() [1/4]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::pick ( const moveit_msgs::PickupGoal &  goal)

Pick up an object given a PickupGoal.

Use as follows: first create the goal with constructPickupGoal(), then set possible_grasps and any other desired variable in the goal, and finally pass it on to this function

Definition at line 1643 of file move_group_interface.cpp.

◆ pick() [2/4]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::pick ( const std::string &  object,
bool  plan_only = false 
)
inline

Pick up an object.

This applies a number of hard-coded default grasps

Definition at line 928 of file move_group_interface.h.

◆ pick() [3/4]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::pick ( const std::string &  object,
const moveit_msgs::Grasp &  grasp,
bool  plan_only = false 
)
inline

Pick up an object given a grasp pose.

Definition at line 934 of file move_group_interface.h.

◆ pick() [4/4]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::pick ( const std::string &  object,
std::vector< moveit_msgs::Grasp >  grasps,
bool  plan_only = false 
)
inline

Pick up an object given possible grasp poses.

Definition at line 940 of file move_group_interface.h.

◆ place() [1/5]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::place ( const moveit_msgs::PlaceGoal &  goal)

Place an object given a PlaceGoal.

Use as follows: first create the goal with constructPlaceGoal(), then set place_locations and any other desired variable in the goal, and finally pass it on to this function

Definition at line 1659 of file move_group_interface.cpp.

◆ place() [2/5]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::place ( const std::string &  object,
bool  plan_only = false 
)
inline

Place an object somewhere safe in the world (a safe location will be detected)

Definition at line 963 of file move_group_interface.h.

◆ place() [3/5]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::place ( const std::string &  object,
const geometry_msgs::PoseStamped &  pose,
bool  plan_only = false 
)
inline

Place an object at one of the specified possible location.

Definition at line 983 of file move_group_interface.h.

◆ place() [4/5]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::place ( const std::string &  object,
const std::vector< geometry_msgs::PoseStamped > &  poses,
bool  plan_only = false 
)
inline

Place an object at one of the specified possible locations.

Definition at line 976 of file move_group_interface.h.

◆ place() [5/5]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::place ( const std::string &  object,
std::vector< moveit_msgs::PlaceLocation >  locations,
bool  plan_only = false 
)
inline

Place an object at one of the specified possible locations.

Definition at line 969 of file move_group_interface.h.

◆ plan()

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::plan ( Plan plan)

Compute a motion plan that takes the group declared in the constructor from the current state to the specified target. No execution is performed. The resulting plan is stored in plan.

Definition at line 1618 of file move_group_interface.cpp.

◆ planGraspsAndPick() [1/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::planGraspsAndPick ( const moveit_msgs::CollisionObject &  object,
bool  plan_only = false 
)

Pick up an object.

calls the external moveit_msgs::GraspPlanning service "plan_grasps" to compute possible grasps

Definition at line 1653 of file move_group_interface.cpp.

◆ planGraspsAndPick() [2/2]

moveit::core::MoveItErrorCode moveit::planning_interface::MoveGroupInterface::planGraspsAndPick ( const std::string &  object = "",
bool  plan_only = false 
)

Pick up an object.

calls the external moveit_msgs::GraspPlanning service "plan_grasps" to compute possible grasps

Definition at line 1648 of file move_group_interface.cpp.

◆ posesToPlaceLocations()

std::vector< moveit_msgs::PlaceLocation > moveit::planning_interface::MoveGroupInterface::posesToPlaceLocations ( const std::vector< geometry_msgs::PoseStamped > &  poses) const

Convert a vector of PoseStamped to a vector of PlaceLocation.

Definition at line 1638 of file move_group_interface.cpp.

◆ rememberJointValues() [1/2]

void moveit::planning_interface::MoveGroupInterface::rememberJointValues ( const std::string &  name)

Remember the current joint values (of the robot being monitored) under name. These can be used by setNamedTarget(). These values are remembered locally in the client. Other clients will not have access to them.

Definition at line 2148 of file move_group_interface.cpp.

◆ rememberJointValues() [2/2]

void moveit::planning_interface::MoveGroupInterface::rememberJointValues ( const std::string &  name,
const std::vector< double > &  values 
)

Remember the specified joint values under name. These can be used by setNamedTarget(). These values are remembered locally in the client. Other clients will not have access to them.

Definition at line 2272 of file move_group_interface.cpp.

◆ setApproximateJointValueTarget() [1/3]

bool moveit::planning_interface::MoveGroupInterface::setApproximateJointValueTarget ( const Eigen::Isometry3d &  eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then an approximation is used.

Definition at line 1879 of file move_group_interface.cpp.

◆ setApproximateJointValueTarget() [2/3]

bool moveit::planning_interface::MoveGroupInterface::setApproximateJointValueTarget ( const geometry_msgs::Pose eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then an approximation is used.

Definition at line 1867 of file move_group_interface.cpp.

◆ setApproximateJointValueTarget() [3/3]

bool moveit::planning_interface::MoveGroupInterface::setApproximateJointValueTarget ( const geometry_msgs::PoseStamped &  eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then an approximation is used.

Definition at line 1873 of file move_group_interface.cpp.

◆ setConstraintsDatabase()

void moveit::planning_interface::MoveGroupInterface::setConstraintsDatabase ( const std::string &  host,
unsigned int  port 
)

Specify where the database server that holds known constraints resides.

Definition at line 2373 of file move_group_interface.cpp.

◆ setEndEffector()

bool moveit::planning_interface::MoveGroupInterface::setEndEffector ( const std::string &  eef_name)

Specify the name of the end-effector to use. This is equivalent to setting the EndEffectorLink to the parent link of this end effector.

Definition at line 1915 of file move_group_interface.cpp.

◆ setEndEffectorLink()

bool moveit::planning_interface::MoveGroupInterface::setEndEffectorLink ( const std::string &  end_effector_link)

Specify the parent link of the end-effector. This end_effector_link will be used in calls to pose target functions when end_effector_link is not explicitly specified.

Definition at line 1906 of file move_group_interface.cpp.

◆ setGoalJointTolerance()

void moveit::planning_interface::MoveGroupInterface::setGoalJointTolerance ( double  tolerance)

Set the joint tolerance (for each joint) that is used for reaching the goal when moving to a joint value target.

Definition at line 2133 of file move_group_interface.cpp.

◆ setGoalOrientationTolerance()

void moveit::planning_interface::MoveGroupInterface::setGoalOrientationTolerance ( double  tolerance)

Set the orientation tolerance that is used for reaching the goal when moving to a pose.

Definition at line 2143 of file move_group_interface.cpp.

◆ setGoalPositionTolerance()

void moveit::planning_interface::MoveGroupInterface::setGoalPositionTolerance ( double  tolerance)

Set the position tolerance that is used for reaching the goal when moving to a pose.

Definition at line 2138 of file move_group_interface.cpp.

◆ setGoalTolerance()

void moveit::planning_interface::MoveGroupInterface::setGoalTolerance ( double  tolerance)

Set the tolerance that is used for reaching the goal. For joint state goals, this will be distance for each joint, in the configuration space (radians or meters depending on joint type). For pose goals this will be the radius of a sphere where the end-effector must reach. This function simply triggers calls to setGoalPositionTolerance(), setGoalOrientationTolerance() and setGoalJointTolerance().

Definition at line 2126 of file move_group_interface.cpp.

◆ setJointValueTarget() [1/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const Eigen::Isometry3d &  eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then false is returned BUT THE PARTIAL RESULT OF IK IS STILL SET AS THE GOAL.

Definition at line 1861 of file move_group_interface.cpp.

◆ setJointValueTarget() [2/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const geometry_msgs::Pose eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then false is returned BUT THE PARTIAL RESULT OF IK IS STILL SET AS THE GOAL.

Definition at line 1850 of file move_group_interface.cpp.

◆ setJointValueTarget() [3/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const geometry_msgs::PoseStamped &  eef_pose,
const std::string &  end_effector_link = "" 
)

Set the joint state goal for a particular joint by computing IK.

This is different from setPoseTarget() in that a single IK state (aka JointValueTarget) is computed using IK, and the resulting JointValueTarget is used as the target for planning.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If IK fails to find a solution then false is returned BUT THE PARTIAL RESULT OF IK IS STILL SET AS THE GOAL.

Definition at line 1855 of file move_group_interface.cpp.

◆ setJointValueTarget() [4/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const moveit::core::RobotState robot_state)

Set the JointValueTarget and use it for future planning requests.

The target for all joints in the group are set to the value in robot_state.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1818 of file move_group_interface.cpp.

◆ setJointValueTarget() [5/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const sensor_msgs::JointState &  state)

Set the JointValueTarget and use it for future planning requests.

state is used to set the target joint state values. Values not specified in state remain unchanged.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1845 of file move_group_interface.cpp.

◆ setJointValueTarget() [6/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const std::map< std::string, double > &  variable_values)

Set the JointValueTarget and use it for future planning requests.

variable_values is a map of joint variable names to values. Joints in the group are used to set the JointValueTarget. Joints in the model but not in the group are ignored. An exception is thrown if a joint name is not found in the model. Joint variables in the group that are missing from variable_values remain unchanged (to reset all target variables to their current values in the robot use setJointValueTarget(getCurrentJointValues())).

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1776 of file move_group_interface.cpp.

◆ setJointValueTarget() [7/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const std::string &  joint_name,
const std::vector< double > &  values 
)

Set the JointValueTarget and use it for future planning requests.

values MUST have one value for each variable in joint joint_name. values are set as the target for this joint. Other joint targets remain unchanged.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1831 of file move_group_interface.cpp.

◆ setJointValueTarget() [8/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const std::string &  joint_name,
double  value 
)

Set the JointValueTarget and use it for future planning requests.

Joint joint_name must be a 1-DOF joint. value is set as the target for this joint. Other joint targets remain unchanged.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1825 of file move_group_interface.cpp.

◆ setJointValueTarget() [9/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const std::vector< double > &  group_variable_values)

Set the JointValueTarget and use it for future planning requests.

group_variable_values MUST exactly match the variable order as returned by getJointValueTarget(std::vector<double>&).

This always sets all of the group's joint values.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1761 of file move_group_interface.cpp.

◆ setJointValueTarget() [10/10]

bool moveit::planning_interface::MoveGroupInterface::setJointValueTarget ( const std::vector< std::string > &  variable_names,
const std::vector< double > &  variable_values 
)

Set the JointValueTarget and use it for future planning requests.

variable_names are variable joint names and variable_values are variable joint positions. Joints in the group are used to set the JointValueTarget. Joints in the model but not in the group are ignored. An exception is thrown if a joint name is not found in the model. Joint variables in the group that are missing from variable_names remain unchanged (to reset all target variables to their current values in the robot use setJointValueTarget(getCurrentJointValues())).

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

If these values are out of bounds then false is returned BUT THE VALUES ARE STILL SET AS THE GOAL.

Definition at line 1794 of file move_group_interface.cpp.

◆ setLookAroundAttempts()

void moveit::planning_interface::MoveGroupInterface::setLookAroundAttempts ( int32_t  attempts)

How often is the system allowed to move the camera to update environment model when looking.

Definition at line 2288 of file move_group_interface.cpp.

◆ setMaxAccelerationScalingFactor()

void moveit::planning_interface::MoveGroupInterface::setMaxAccelerationScalingFactor ( double  max_acceleration_scaling_factor)

Set a scaling factor for optionally reducing the maximum joint acceleration. Allowed values are in (0,1]. The maximum joint acceleration specified in the robot model is multiplied by the factor. If the value is 0, it is set to the default value, which is defined in joint_limits.yaml of the moveit_config. If the value is greater than 1, it is set to 1.0.

Definition at line 1568 of file move_group_interface.cpp.

◆ setMaxVelocityScalingFactor()

void moveit::planning_interface::MoveGroupInterface::setMaxVelocityScalingFactor ( double  max_velocity_scaling_factor)

Set a scaling factor for optionally reducing the maximum joint velocity. Allowed values are in (0,1]. The maximum joint velocity specified in the robot model is multiplied by the factor. If the value is 0, it is set to the default value, which is defined in joint_limits.yaml of the moveit_config. If the value is greater than 1, it is set to 1.0.

Definition at line 1563 of file move_group_interface.cpp.

◆ setNamedTarget()

bool moveit::planning_interface::MoveGroupInterface::setNamedTarget ( const std::string &  name)

Set the current joint values to be ones previously remembered by rememberJointValues() or, if not found, that are specified in the SRDF under the name name as a group state.

Definition at line 1737 of file move_group_interface.cpp.

◆ setNumPlanningAttempts()

void moveit::planning_interface::MoveGroupInterface::setNumPlanningAttempts ( unsigned int  num_planning_attempts)

Set the number of times the motion plan is to be computed from scratch before the shortest solution is returned. The default value is 1.

Definition at line 1558 of file move_group_interface.cpp.

◆ setOrientationTarget()

bool moveit::planning_interface::MoveGroupInterface::setOrientationTarget ( double  x,
double  y,
double  z,
double  w,
const std::string &  end_effector_link = "" 
)

Set the goal orientation of the end-effector end_effector_link to be the quaternion (x,y,z,w).

If end_effector_link is empty then getEndEffectorLink() is used.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 2075 of file move_group_interface.cpp.

◆ setPathConstraints() [1/2]

void moveit::planning_interface::MoveGroupInterface::setPathConstraints ( const moveit_msgs::Constraints &  constraint)

Specify a set of path constraints to use. This version does not require a database server. This replaces any path constraints set in previous calls to setPathConstraints().

Definition at line 2348 of file move_group_interface.cpp.

◆ setPathConstraints() [2/2]

bool moveit::planning_interface::MoveGroupInterface::setPathConstraints ( const std::string &  constraint)

Specify a set of path constraints to use. The constraints are looked up by name from the Mongo database server. This replaces any path constraints set in previous calls to setPathConstraints().

Definition at line 2343 of file move_group_interface.cpp.

◆ setPlannerId()

void moveit::planning_interface::MoveGroupInterface::setPlannerId ( const std::string &  planner_id)

Specify a planner to be used for further planning.

Definition at line 1548 of file move_group_interface.cpp.

◆ setPlannerParams()

void moveit::planning_interface::MoveGroupInterface::setPlannerParams ( const std::string &  planner_id,
const std::string &  group,
const std::map< std::string, std::string > &  params,
bool  bReplace = false 
)

Set the planner parameters for given group and planner_id.

Definition at line 1522 of file move_group_interface.cpp.

◆ setPlanningPipelineId()

void moveit::planning_interface::MoveGroupInterface::setPlanningPipelineId ( const std::string &  pipeline_id)

Specify a planning pipeline to be used for further planning.

Definition at line 1533 of file move_group_interface.cpp.

◆ setPlanningTime()

void moveit::planning_interface::MoveGroupInterface::setPlanningTime ( double  seconds)

Specify the maximum amount of time to use when planning.

Set time allowed to planner to solve problem before aborting.

Definition at line 2384 of file move_group_interface.cpp.

◆ setPoseReferenceFrame()

void moveit::planning_interface::MoveGroupInterface::setPoseReferenceFrame ( const std::string &  pose_reference_frame)

Specify which reference frame to assume for poses specified without a reference frame.

Definition at line 2101 of file move_group_interface.cpp.

◆ setPoseTarget() [1/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTarget ( const Eigen::Isometry3d &  end_effector_pose,
const std::string &  end_effector_link = "" 
)

Set the goal pose of the end-effector end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

This new pose target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 1933 of file move_group_interface.cpp.

◆ setPoseTarget() [2/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTarget ( const geometry_msgs::Pose target,
const std::string &  end_effector_link = "" 
)

Set the goal pose of the end-effector end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 1942 of file move_group_interface.cpp.

◆ setPoseTarget() [3/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTarget ( const geometry_msgs::PoseStamped &  target,
const std::string &  end_effector_link = "" 
)

Set the goal pose of the end-effector end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 1951 of file move_group_interface.cpp.

◆ setPoseTargets() [1/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTargets ( const EigenSTL::vector_Isometry3d end_effector_pose,
const std::string &  end_effector_link = "" 
)

Set goal poses for end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

When planning, the planner will find a path to one (arbitrarily chosen) pose from the list. If this group contains multiple end effectors then all end effectors in the group should have the same number of pose targets. If planning is successful then the result of the plan will place all end effectors at a pose from the same index in the list. (In other words, if one end effector ends up at the 3rd pose in the list then all end effectors in the group will end up at the 3rd pose in their respective lists. End effectors which do not matter (i.e. can end up in any position) can have their pose targets disabled by calling clearPoseTarget() for that end_effector_link.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target(s) for this end_effector_link.

Definition at line 1957 of file move_group_interface.cpp.

◆ setPoseTargets() [2/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTargets ( const std::vector< geometry_msgs::Pose > &  target,
const std::string &  end_effector_link = "" 
)

Set goal poses for end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

When planning, the planner will find a path to one (arbitrarily chosen) pose from the list. If this group contains multiple end effectors then all end effectors in the group should have the same number of pose targets. If planning is successful then the result of the plan will place all end effectors at a pose from the same index in the list. (In other words, if one end effector ends up at the 3rd pose in the list then all end effectors in the group will end up at the 3rd pose in their respective lists. End effectors which do not matter (i.e. can end up in any position) can have their pose targets disabled by calling clearPoseTarget() for that end_effector_link.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target(s) for this end_effector_link.

Definition at line 1971 of file move_group_interface.cpp.

◆ setPoseTargets() [3/3]

bool moveit::planning_interface::MoveGroupInterface::setPoseTargets ( const std::vector< geometry_msgs::PoseStamped > &  target,
const std::string &  end_effector_link = "" 
)

Set goal poses for end_effector_link.

If end_effector_link is empty then getEndEffectorLink() is used.

When planning, the planner will find a path to one (arbitrarily chosen) pose from the list. If this group contains multiple end effectors then all end effectors in the group should have the same number of pose targets. If planning is successful then the result of the plan will place all end effectors at a pose from the same index in the list. (In other words, if one end effector ends up at the 3rd pose in the list then all end effectors in the group will end up at the 3rd pose in their respective lists. End effectors which do not matter (i.e. can end up in any position) can have their pose targets disabled by calling clearPoseTarget() for that end_effector_link.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target(s) for this end_effector_link.

Definition at line 1986 of file move_group_interface.cpp.

◆ setPositionTarget()

bool moveit::planning_interface::MoveGroupInterface::setPositionTarget ( double  x,
double  y,
double  z,
const std::string &  end_effector_link = "" 
)

Set the goal position of the end-effector end_effector_link to be (x, y, z).

If end_effector_link is empty then getEndEffectorLink() is used.

This new position target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 2027 of file move_group_interface.cpp.

◆ setRandomTarget()

void moveit::planning_interface::MoveGroupInterface::setRandomTarget ( )

Set the joint state goal to a random joint configuration.

After this call, the JointValueTarget is used instead of any previously set Position, Orientation, or Pose targets.

Definition at line 1701 of file move_group_interface.cpp.

◆ setReplanAttempts()

void moveit::planning_interface::MoveGroupInterface::setReplanAttempts ( int32_t  attempts)

Maximum number of replanning attempts.

Definition at line 2307 of file move_group_interface.cpp.

◆ setReplanDelay()

void moveit::planning_interface::MoveGroupInterface::setReplanDelay ( double  delay)

Sleep this duration between replanning attempts (in walltime seconds)

Definition at line 2320 of file move_group_interface.cpp.

◆ setRPYTarget()

bool moveit::planning_interface::MoveGroupInterface::setRPYTarget ( double  roll,
double  pitch,
double  yaw,
const std::string &  end_effector_link = "" 
)

Set the goal orientation of the end-effector end_effector_link to be (roll,pitch,yaw) radians.

If end_effector_link is empty then getEndEffectorLink() is used.

This new orientation target replaces any pre-existing JointValueTarget or pre-existing Position, Orientation, or Pose target for this end_effector_link.

Definition at line 2052 of file move_group_interface.cpp.

◆ setStartState() [1/2]

void moveit::planning_interface::MoveGroupInterface::setStartState ( const moveit::core::RobotState start_state)

If a different start state should be considered instead of the current state of the robot, this function sets that state.

Definition at line 1691 of file move_group_interface.cpp.

◆ setStartState() [2/2]

void moveit::planning_interface::MoveGroupInterface::setStartState ( const moveit_msgs::RobotState &  start_state)

If a different start state should be considered instead of the current state of the robot, this function sets that state.

Definition at line 1686 of file move_group_interface.cpp.

◆ setStartStateToCurrentState()

void moveit::planning_interface::MoveGroupInterface::setStartStateToCurrentState ( )

Set the starting state for planning to be that reported by the robot's joint state publication.

Definition at line 1696 of file move_group_interface.cpp.

◆ setSupportSurfaceName()

void moveit::planning_interface::MoveGroupInterface::setSupportSurfaceName ( const std::string &  name)

For pick/place operations, the name of the support surface is used to specify the fact that attached objects are allowed to touch the support surface.

Definition at line 2395 of file move_group_interface.cpp.

◆ setTrajectoryConstraints()

void moveit::planning_interface::MoveGroupInterface::setTrajectoryConstraints ( const moveit_msgs::TrajectoryConstraints &  constraint)

Definition at line 2363 of file move_group_interface.cpp.

◆ setWorkspace()

void moveit::planning_interface::MoveGroupInterface::setWorkspace ( double  minx,
double  miny,
double  minz,
double  maxx,
double  maxy,
double  maxz 
)

Specify the workspace bounding box. The box is specified in the planning frame (i.e. relative to the robot root link start position). This is useful when the planning group contains the root joint of the robot – i.e. when planning motion for the robot relative to the world.

Definition at line 2378 of file move_group_interface.cpp.

◆ startStateMonitor()

bool moveit::planning_interface::MoveGroupInterface::startStateMonitor ( double  wait = 1.0)

When reasoning about the current state of a robot, a CurrentStateMonitor instance is automatically constructed. This function allows triggering the construction of that object from the beginning, so that future calls to functions such as getCurrentState() will not take so long and are less likely to fail.

Definition at line 2153 of file move_group_interface.cpp.

◆ stop()

void moveit::planning_interface::MoveGroupInterface::stop ( )

Stop any trajectory execution, if one is active.

Definition at line 1681 of file move_group_interface.cpp.

Member Data Documentation

◆ DEFAULT_ALLOWED_PLANNING_TIME

constexpr double moveit::planning_interface::MoveGroupInterface::DEFAULT_ALLOWED_PLANNING_TIME = 5.0
staticconstexpr

Default allowed planning time (seconds)

Definition at line 155 of file move_group_interface.h.

◆ DEFAULT_GOAL_JOINT_TOLERANCE

constexpr double moveit::planning_interface::MoveGroupInterface::DEFAULT_GOAL_JOINT_TOLERANCE = 1e-4
staticconstexpr

Default goal joint tolerance (0.1mm) if not specified with {robot description name}_kinematics/{joint model group name}/goal_joint_tolerance.

Definition at line 144 of file move_group_interface.h.

◆ DEFAULT_GOAL_ORIENTATION_TOLERANCE

constexpr double moveit::planning_interface::MoveGroupInterface::DEFAULT_GOAL_ORIENTATION_TOLERANCE = 1e-3
staticconstexpr

Default goal orientation tolerance (~0.1deg) if not specified with {robot description name}_kinematics/{joint model group name}/goal_orientation_tolerance.

Definition at line 152 of file move_group_interface.h.

◆ DEFAULT_GOAL_POSITION_TOLERANCE

constexpr double moveit::planning_interface::MoveGroupInterface::DEFAULT_GOAL_POSITION_TOLERANCE = 1e-4
staticconstexpr

Default goal position tolerance (0.1mm) if not specified with {robot description name}_kinematics/{joint model group name}/goal_position_tolerance.

Definition at line 148 of file move_group_interface.h.

◆ DEFAULT_NUM_PLANNING_ATTEMPTS

constexpr int moveit::planning_interface::MoveGroupInterface::DEFAULT_NUM_PLANNING_ATTEMPTS = 1
staticconstexpr

Default number of planning attempts.

Definition at line 158 of file move_group_interface.h.

◆ impl_

MoveGroupInterfaceImpl* moveit::planning_interface::MoveGroupInterface::impl_
private

Definition at line 1130 of file move_group_interface.h.

◆ remembered_joint_values_

std::map<std::string, std::vector<double> > moveit::planning_interface::MoveGroupInterface::remembered_joint_values_
private

Definition at line 1129 of file move_group_interface.h.

◆ ROBOT_DESCRIPTION

const std::string moveit::planning_interface::MoveGroupInterface::ROBOT_DESCRIPTION
static
Initial value:
=
"robot_description"

Default ROS parameter name from where to read the robot's URDF. Set to 'robot_description'.

Definition at line 161 of file move_group_interface.h.


The documentation for this class was generated from the following files:


planning_interface
Author(s): Ioan Sucan
autogenerated on Sat Dec 21 2024 03:25:12