00001
00002 #ifndef ARM_NAVIGATION_MSGS_MESSAGE_MOVEARMGOAL_H
00003 #define ARM_NAVIGATION_MSGS_MESSAGE_MOVEARMGOAL_H
00004 #include <string>
00005 #include <vector>
00006 #include <map>
00007 #include <ostream>
00008 #include "ros/serialization.h"
00009 #include "ros/builtin_message_traits.h"
00010 #include "ros/message_operations.h"
00011 #include "ros/time.h"
00012
00013 #include "ros/macros.h"
00014
00015 #include "ros/assert.h"
00016
00017 #include "arm_navigation_msgs/PlanningScene.h"
00018 #include "arm_navigation_msgs/MotionPlanRequest.h"
00019 #include "arm_navigation_msgs/OrderedCollisionOperations.h"
00020
00021 namespace arm_navigation_msgs
00022 {
00023 template <class ContainerAllocator>
00024 struct MoveArmGoal_ {
00025 typedef MoveArmGoal_<ContainerAllocator> Type;
00026
00027 MoveArmGoal_()
00028 : planner_service_name()
00029 , planning_scene_diff()
00030 , motion_plan_request()
00031 , operations()
00032 , accept_partial_plans(false)
00033 , accept_invalid_goals(false)
00034 , disable_ik(false)
00035 , disable_collision_monitoring(false)
00036 {
00037 }
00038
00039 MoveArmGoal_(const ContainerAllocator& _alloc)
00040 : planner_service_name(_alloc)
00041 , planning_scene_diff(_alloc)
00042 , motion_plan_request(_alloc)
00043 , operations(_alloc)
00044 , accept_partial_plans(false)
00045 , accept_invalid_goals(false)
00046 , disable_ik(false)
00047 , disable_collision_monitoring(false)
00048 {
00049 }
00050
00051 typedef std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > _planner_service_name_type;
00052 std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > planner_service_name;
00053
00054 typedef ::arm_navigation_msgs::PlanningScene_<ContainerAllocator> _planning_scene_diff_type;
00055 ::arm_navigation_msgs::PlanningScene_<ContainerAllocator> planning_scene_diff;
00056
00057 typedef ::arm_navigation_msgs::MotionPlanRequest_<ContainerAllocator> _motion_plan_request_type;
00058 ::arm_navigation_msgs::MotionPlanRequest_<ContainerAllocator> motion_plan_request;
00059
00060 typedef ::arm_navigation_msgs::OrderedCollisionOperations_<ContainerAllocator> _operations_type;
00061 ::arm_navigation_msgs::OrderedCollisionOperations_<ContainerAllocator> operations;
00062
00063 typedef uint8_t _accept_partial_plans_type;
00064 uint8_t accept_partial_plans;
00065
00066 typedef uint8_t _accept_invalid_goals_type;
00067 uint8_t accept_invalid_goals;
00068
00069 typedef uint8_t _disable_ik_type;
00070 uint8_t disable_ik;
00071
00072 typedef uint8_t _disable_collision_monitoring_type;
00073 uint8_t disable_collision_monitoring;
00074
00075
00076 typedef boost::shared_ptr< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> > Ptr;
00077 typedef boost::shared_ptr< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> const> ConstPtr;
00078 boost::shared_ptr<std::map<std::string, std::string> > __connection_header;
00079 };
00080 typedef ::arm_navigation_msgs::MoveArmGoal_<std::allocator<void> > MoveArmGoal;
00081
00082 typedef boost::shared_ptr< ::arm_navigation_msgs::MoveArmGoal> MoveArmGoalPtr;
00083 typedef boost::shared_ptr< ::arm_navigation_msgs::MoveArmGoal const> MoveArmGoalConstPtr;
00084
00085
00086 template<typename ContainerAllocator>
00087 std::ostream& operator<<(std::ostream& s, const ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> & v)
00088 {
00089 ros::message_operations::Printer< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> >::stream(s, "", v);
00090 return s;}
00091
00092 }
00093
00094 namespace ros
00095 {
00096 namespace message_traits
00097 {
00098 template<class ContainerAllocator> struct IsMessage< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> > : public TrueType {};
00099 template<class ContainerAllocator> struct IsMessage< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> const> : public TrueType {};
00100 template<class ContainerAllocator>
00101 struct MD5Sum< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> > {
00102 static const char* value()
00103 {
00104 return "229373059043ad35d3ceeb2161f005d6";
00105 }
00106
00107 static const char* value(const ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> &) { return value(); }
00108 static const uint64_t static_value1 = 0x229373059043ad35ULL;
00109 static const uint64_t static_value2 = 0xd3ceeb2161f005d6ULL;
00110 };
00111
00112 template<class ContainerAllocator>
00113 struct DataType< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> > {
00114 static const char* value()
00115 {
00116 return "arm_navigation_msgs/MoveArmGoal";
00117 }
00118
00119 static const char* value(const ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> &) { return value(); }
00120 };
00121
00122 template<class ContainerAllocator>
00123 struct Definition< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> > {
00124 static const char* value()
00125 {
00126 return "# ====== DO NOT MODIFY! AUTOGENERATED FROM AN ACTION DEFINITION ======\n\
00127 # Service name to call for getting a motion plan\n\
00128 # Move arm will call a service on this service name \n\
00129 # using the MotionPlanRequest specified here\n\
00130 string planner_service_name\n\
00131 \n\
00132 # A planning scene diff\n\
00133 PlanningScene planning_scene_diff\n\
00134 \n\
00135 # A motion planning request\n\
00136 MotionPlanRequest motion_plan_request\n\
00137 \n\
00138 # OPTIONAL: Diff uses ordered collision operations in addition to allowed_collision_matrix\n\
00139 arm_navigation_msgs/OrderedCollisionOperations operations\n\
00140 \n\
00141 # OPTIONAL flag\n\
00142 # Setting this flag to true will allow move_arm to accept plans that do not go all the way to the goal\n\
00143 bool accept_partial_plans\n\
00144 \n\
00145 # OPTIONAL flag\n\
00146 # Setting this flag to true will allow move_arm to accept invalid goals\n\
00147 # This is useful if you are using a planner like CHOMP along with a noisy rapidly changing collision map\n\
00148 # and you would like to plan to a goal near an object.\n\
00149 bool accept_invalid_goals\n\
00150 \n\
00151 # OPTIONAL flag\n\
00152 # Setting this flag to true will disable the call to IK for a pose goal\n\
00153 bool disable_ik\n\
00154 \n\
00155 # OPTIONAL flag\n\
00156 # Setting this flag to true will disable collision monitoring during execution of a trajectory\n\
00157 bool disable_collision_monitoring\n\
00158 \n\
00159 ================================================================================\n\
00160 MSG: arm_navigation_msgs/PlanningScene\n\
00161 #full robot state\n\
00162 arm_navigation_msgs/RobotState robot_state\n\
00163 \n\
00164 #additional frames for duplicating tf\n\
00165 geometry_msgs/TransformStamped[] fixed_frame_transforms\n\
00166 \n\
00167 #full allowed collision matrix\n\
00168 AllowedCollisionMatrix allowed_collision_matrix\n\
00169 \n\
00170 #allowed contacts\n\
00171 arm_navigation_msgs/AllowedContactSpecification[] allowed_contacts\n\
00172 \n\
00173 #all link paddings\n\
00174 arm_navigation_msgs/LinkPadding[] link_padding\n\
00175 \n\
00176 #collision objects\n\
00177 arm_navigation_msgs/CollisionObject[] collision_objects\n\
00178 arm_navigation_msgs/AttachedCollisionObject[] attached_collision_objects\n\
00179 \n\
00180 #the collision map\n\
00181 arm_navigation_msgs/CollisionMap collision_map\n\
00182 \n\
00183 ================================================================================\n\
00184 MSG: arm_navigation_msgs/RobotState\n\
00185 # This message contains information about the robot state, i.e. the positions of its joints and links\n\
00186 sensor_msgs/JointState joint_state\n\
00187 arm_navigation_msgs/MultiDOFJointState multi_dof_joint_state\n\
00188 \n\
00189 ================================================================================\n\
00190 MSG: sensor_msgs/JointState\n\
00191 # This is a message that holds data to describe the state of a set of torque controlled joints. \n\
00192 #\n\
00193 # The state of each joint (revolute or prismatic) is defined by:\n\
00194 # * the position of the joint (rad or m),\n\
00195 # * the velocity of the joint (rad/s or m/s) and \n\
00196 # * the effort that is applied in the joint (Nm or N).\n\
00197 #\n\
00198 # Each joint is uniquely identified by its name\n\
00199 # The header specifies the time at which the joint states were recorded. All the joint states\n\
00200 # in one message have to be recorded at the same time.\n\
00201 #\n\
00202 # This message consists of a multiple arrays, one for each part of the joint state. \n\
00203 # The goal is to make each of the fields optional. When e.g. your joints have no\n\
00204 # effort associated with them, you can leave the effort array empty. \n\
00205 #\n\
00206 # All arrays in this message should have the same size, or be empty.\n\
00207 # This is the only way to uniquely associate the joint name with the correct\n\
00208 # states.\n\
00209 \n\
00210 \n\
00211 Header header\n\
00212 \n\
00213 string[] name\n\
00214 float64[] position\n\
00215 float64[] velocity\n\
00216 float64[] effort\n\
00217 \n\
00218 ================================================================================\n\
00219 MSG: std_msgs/Header\n\
00220 # Standard metadata for higher-level stamped data types.\n\
00221 # This is generally used to communicate timestamped data \n\
00222 # in a particular coordinate frame.\n\
00223 # \n\
00224 # sequence ID: consecutively increasing ID \n\
00225 uint32 seq\n\
00226 #Two-integer timestamp that is expressed as:\n\
00227 # * stamp.secs: seconds (stamp_secs) since epoch\n\
00228 # * stamp.nsecs: nanoseconds since stamp_secs\n\
00229 # time-handling sugar is provided by the client library\n\
00230 time stamp\n\
00231 #Frame this data is associated with\n\
00232 # 0: no frame\n\
00233 # 1: global frame\n\
00234 string frame_id\n\
00235 \n\
00236 ================================================================================\n\
00237 MSG: arm_navigation_msgs/MultiDOFJointState\n\
00238 #A representation of a multi-dof joint state\n\
00239 time stamp\n\
00240 string[] joint_names\n\
00241 string[] frame_ids\n\
00242 string[] child_frame_ids\n\
00243 geometry_msgs/Pose[] poses\n\
00244 \n\
00245 ================================================================================\n\
00246 MSG: geometry_msgs/Pose\n\
00247 # A representation of pose in free space, composed of postion and orientation. \n\
00248 Point position\n\
00249 Quaternion orientation\n\
00250 \n\
00251 ================================================================================\n\
00252 MSG: geometry_msgs/Point\n\
00253 # This contains the position of a point in free space\n\
00254 float64 x\n\
00255 float64 y\n\
00256 float64 z\n\
00257 \n\
00258 ================================================================================\n\
00259 MSG: geometry_msgs/Quaternion\n\
00260 # This represents an orientation in free space in quaternion form.\n\
00261 \n\
00262 float64 x\n\
00263 float64 y\n\
00264 float64 z\n\
00265 float64 w\n\
00266 \n\
00267 ================================================================================\n\
00268 MSG: geometry_msgs/TransformStamped\n\
00269 # This expresses a transform from coordinate frame header.frame_id\n\
00270 # to the coordinate frame child_frame_id\n\
00271 #\n\
00272 # This message is mostly used by the \n\
00273 # <a href=\"http://www.ros.org/wiki/tf\">tf</a> package. \n\
00274 # See its documentation for more information.\n\
00275 \n\
00276 Header header\n\
00277 string child_frame_id # the frame id of the child frame\n\
00278 Transform transform\n\
00279 \n\
00280 ================================================================================\n\
00281 MSG: geometry_msgs/Transform\n\
00282 # This represents the transform between two coordinate frames in free space.\n\
00283 \n\
00284 Vector3 translation\n\
00285 Quaternion rotation\n\
00286 \n\
00287 ================================================================================\n\
00288 MSG: geometry_msgs/Vector3\n\
00289 # This represents a vector in free space. \n\
00290 \n\
00291 float64 x\n\
00292 float64 y\n\
00293 float64 z\n\
00294 ================================================================================\n\
00295 MSG: arm_navigation_msgs/AllowedCollisionMatrix\n\
00296 # the list of link names in the matrix\n\
00297 string[] link_names\n\
00298 \n\
00299 # the individual entries in the allowed collision matrix\n\
00300 # symmetric, with same order as link_names\n\
00301 AllowedCollisionEntry[] entries\n\
00302 \n\
00303 ================================================================================\n\
00304 MSG: arm_navigation_msgs/AllowedCollisionEntry\n\
00305 # whether or not collision checking is enabled\n\
00306 bool[] enabled\n\
00307 \n\
00308 ================================================================================\n\
00309 MSG: arm_navigation_msgs/AllowedContactSpecification\n\
00310 # The names of the regions\n\
00311 string name\n\
00312 \n\
00313 # The shape of the region in the environment\n\
00314 arm_navigation_msgs/Shape shape\n\
00315 \n\
00316 # The pose of the space defining the region\n\
00317 geometry_msgs/PoseStamped pose_stamped\n\
00318 \n\
00319 # The set of links that will be allowed to have penetration contact within this region\n\
00320 string[] link_names\n\
00321 \n\
00322 # The maximum penetration depth allowed for every link\n\
00323 float64 penetration_depth\n\
00324 \n\
00325 ================================================================================\n\
00326 MSG: arm_navigation_msgs/Shape\n\
00327 byte SPHERE=0\n\
00328 byte BOX=1\n\
00329 byte CYLINDER=2\n\
00330 byte MESH=3\n\
00331 \n\
00332 byte type\n\
00333 \n\
00334 \n\
00335 #### define sphere, box, cylinder ####\n\
00336 # the origin of each shape is considered at the shape's center\n\
00337 \n\
00338 # for sphere\n\
00339 # radius := dimensions[0]\n\
00340 \n\
00341 # for cylinder\n\
00342 # radius := dimensions[0]\n\
00343 # length := dimensions[1]\n\
00344 # the length is along the Z axis\n\
00345 \n\
00346 # for box\n\
00347 # size_x := dimensions[0]\n\
00348 # size_y := dimensions[1]\n\
00349 # size_z := dimensions[2]\n\
00350 float64[] dimensions\n\
00351 \n\
00352 \n\
00353 #### define mesh ####\n\
00354 \n\
00355 # list of triangles; triangle k is defined by tre vertices located\n\
00356 # at indices triangles[3k], triangles[3k+1], triangles[3k+2]\n\
00357 int32[] triangles\n\
00358 geometry_msgs/Point[] vertices\n\
00359 \n\
00360 ================================================================================\n\
00361 MSG: geometry_msgs/PoseStamped\n\
00362 # A Pose with reference coordinate frame and timestamp\n\
00363 Header header\n\
00364 Pose pose\n\
00365 \n\
00366 ================================================================================\n\
00367 MSG: arm_navigation_msgs/LinkPadding\n\
00368 #name for the link\n\
00369 string link_name\n\
00370 \n\
00371 # padding to apply to the link\n\
00372 float64 padding\n\
00373 \n\
00374 ================================================================================\n\
00375 MSG: arm_navigation_msgs/CollisionObject\n\
00376 # a header, used for interpreting the poses\n\
00377 Header header\n\
00378 \n\
00379 # the id of the object\n\
00380 string id\n\
00381 \n\
00382 # The padding used for filtering points near the object.\n\
00383 # This does not affect collision checking for the object. \n\
00384 # Set to negative to get zero padding.\n\
00385 float32 padding\n\
00386 \n\
00387 #This contains what is to be done with the object\n\
00388 CollisionObjectOperation operation\n\
00389 \n\
00390 #the shapes associated with the object\n\
00391 arm_navigation_msgs/Shape[] shapes\n\
00392 \n\
00393 #the poses associated with the shapes - will be transformed using the header\n\
00394 geometry_msgs/Pose[] poses\n\
00395 \n\
00396 ================================================================================\n\
00397 MSG: arm_navigation_msgs/CollisionObjectOperation\n\
00398 #Puts the object into the environment\n\
00399 #or updates the object if already added\n\
00400 byte ADD=0\n\
00401 \n\
00402 #Removes the object from the environment entirely\n\
00403 byte REMOVE=1\n\
00404 \n\
00405 #Only valid within the context of a CollisionAttachedObject message\n\
00406 #Will be ignored if sent with an CollisionObject message\n\
00407 #Takes an attached object, detaches from the attached link\n\
00408 #But adds back in as regular object\n\
00409 byte DETACH_AND_ADD_AS_OBJECT=2\n\
00410 \n\
00411 #Only valid within the context of a CollisionAttachedObject message\n\
00412 #Will be ignored if sent with an CollisionObject message\n\
00413 #Takes current object in the environment and removes it as\n\
00414 #a regular object\n\
00415 byte ATTACH_AND_REMOVE_AS_OBJECT=3\n\
00416 \n\
00417 # Byte code for operation\n\
00418 byte operation\n\
00419 \n\
00420 ================================================================================\n\
00421 MSG: arm_navigation_msgs/AttachedCollisionObject\n\
00422 # The CollisionObject will be attached with a fixed joint to this link\n\
00423 # If link name is set to REMOVE_ALL_ATTACHED_OBJECTS and object.operation \n\
00424 # is set to REMOVE will remove all attached bodies attached to any object\n\
00425 string link_name\n\
00426 \n\
00427 #Reserved for indicating that all attached objects should be removed\n\
00428 string REMOVE_ALL_ATTACHED_OBJECTS = \"all\"\n\
00429 \n\
00430 #This contains the actual shapes and poses for the CollisionObject\n\
00431 #to be attached to the link\n\
00432 #If action is remove and no object.id is set, all objects\n\
00433 #attached to the link indicated by link_name will be removed\n\
00434 CollisionObject object\n\
00435 \n\
00436 # The set of links that the attached objects are allowed to touch\n\
00437 # by default - the link_name is included by default\n\
00438 string[] touch_links\n\
00439 \n\
00440 ================================================================================\n\
00441 MSG: arm_navigation_msgs/CollisionMap\n\
00442 #header for interpreting box positions\n\
00443 Header header\n\
00444 \n\
00445 #boxes for use in collision testing\n\
00446 OrientedBoundingBox[] boxes\n\
00447 \n\
00448 ================================================================================\n\
00449 MSG: arm_navigation_msgs/OrientedBoundingBox\n\
00450 #the center of the box\n\
00451 geometry_msgs/Point32 center\n\
00452 \n\
00453 #the extents of the box, assuming the center is at the point\n\
00454 geometry_msgs/Point32 extents\n\
00455 \n\
00456 #the axis of the box\n\
00457 geometry_msgs/Point32 axis\n\
00458 \n\
00459 #the angle of rotation around the axis\n\
00460 float32 angle\n\
00461 \n\
00462 ================================================================================\n\
00463 MSG: geometry_msgs/Point32\n\
00464 # This contains the position of a point in free space(with 32 bits of precision).\n\
00465 # It is recommeded to use Point wherever possible instead of Point32. \n\
00466 # \n\
00467 # This recommendation is to promote interoperability. \n\
00468 #\n\
00469 # This message is designed to take up less space when sending\n\
00470 # lots of points at once, as in the case of a PointCloud. \n\
00471 \n\
00472 float32 x\n\
00473 float32 y\n\
00474 float32 z\n\
00475 ================================================================================\n\
00476 MSG: arm_navigation_msgs/MotionPlanRequest\n\
00477 # This service contains the definition for a request to the motion\n\
00478 # planner and the output it provides\n\
00479 \n\
00480 # Parameters for the workspace that the planner should work inside\n\
00481 arm_navigation_msgs/WorkspaceParameters workspace_parameters\n\
00482 \n\
00483 # Starting state updates. If certain joints should be considered\n\
00484 # at positions other than the current ones, these positions should\n\
00485 # be set here\n\
00486 arm_navigation_msgs/RobotState start_state\n\
00487 \n\
00488 # The goal state for the model to plan for. The goal is achieved\n\
00489 # if all constraints are satisfied\n\
00490 arm_navigation_msgs/Constraints goal_constraints\n\
00491 \n\
00492 # No state at any point along the path in the produced motion plan will violate these constraints\n\
00493 arm_navigation_msgs/Constraints path_constraints\n\
00494 \n\
00495 # The name of the motion planner to use. If no name is specified,\n\
00496 # a default motion planner will be used\n\
00497 string planner_id\n\
00498 \n\
00499 # The name of the group of joints on which this planner is operating\n\
00500 string group_name\n\
00501 \n\
00502 # The number of times this plan is to be computed. Shortest solution\n\
00503 # will be reported.\n\
00504 int32 num_planning_attempts\n\
00505 \n\
00506 # The maximum amount of time the motion planner is allowed to plan for\n\
00507 duration allowed_planning_time\n\
00508 \n\
00509 # An expected path duration (in seconds) along with an expected discretization of the path allows the planner to determine the discretization of the trajectory that it returns\n\
00510 duration expected_path_duration\n\
00511 duration expected_path_dt\n\
00512 \n\
00513 ================================================================================\n\
00514 MSG: arm_navigation_msgs/WorkspaceParameters\n\
00515 # This message contains a set of parameters useful in\n\
00516 # setting up the workspace for planning\n\
00517 arm_navigation_msgs/Shape workspace_region_shape\n\
00518 geometry_msgs/PoseStamped workspace_region_pose\n\
00519 \n\
00520 \n\
00521 ================================================================================\n\
00522 MSG: arm_navigation_msgs/Constraints\n\
00523 # This message contains a list of motion planning constraints.\n\
00524 \n\
00525 arm_navigation_msgs/JointConstraint[] joint_constraints\n\
00526 arm_navigation_msgs/PositionConstraint[] position_constraints\n\
00527 arm_navigation_msgs/OrientationConstraint[] orientation_constraints\n\
00528 arm_navigation_msgs/VisibilityConstraint[] visibility_constraints\n\
00529 \n\
00530 ================================================================================\n\
00531 MSG: arm_navigation_msgs/JointConstraint\n\
00532 # Constrain the position of a joint to be within a certain bound\n\
00533 string joint_name\n\
00534 \n\
00535 # the bound to be achieved is [position - tolerance_below, position + tolerance_above]\n\
00536 float64 position\n\
00537 float64 tolerance_above\n\
00538 float64 tolerance_below\n\
00539 \n\
00540 # A weighting factor for this constraint\n\
00541 float64 weight\n\
00542 ================================================================================\n\
00543 MSG: arm_navigation_msgs/PositionConstraint\n\
00544 # This message contains the definition of a position constraint.\n\
00545 Header header\n\
00546 \n\
00547 # The robot link this constraint refers to\n\
00548 string link_name\n\
00549 \n\
00550 # The offset (in the link frame) for the target point on the link we are planning for\n\
00551 geometry_msgs/Point target_point_offset\n\
00552 \n\
00553 # The nominal/target position for the point we are planning for\n\
00554 geometry_msgs/Point position\n\
00555 \n\
00556 # The shape of the bounded region that constrains the position of the end-effector\n\
00557 # This region is always centered at the position defined above\n\
00558 arm_navigation_msgs/Shape constraint_region_shape\n\
00559 \n\
00560 # The orientation of the bounded region that constrains the position of the end-effector. \n\
00561 # This allows the specification of non-axis aligned constraints\n\
00562 geometry_msgs/Quaternion constraint_region_orientation\n\
00563 \n\
00564 # Constraint weighting factor - a weight for this constraint\n\
00565 float64 weight\n\
00566 \n\
00567 ================================================================================\n\
00568 MSG: arm_navigation_msgs/OrientationConstraint\n\
00569 # This message contains the definition of an orientation constraint.\n\
00570 Header header\n\
00571 \n\
00572 # The robot link this constraint refers to\n\
00573 string link_name\n\
00574 \n\
00575 # The type of the constraint\n\
00576 int32 type\n\
00577 int32 LINK_FRAME=0\n\
00578 int32 HEADER_FRAME=1\n\
00579 \n\
00580 # The desired orientation of the robot link specified as a quaternion\n\
00581 geometry_msgs/Quaternion orientation\n\
00582 \n\
00583 # optional RPY error tolerances specified if \n\
00584 float64 absolute_roll_tolerance\n\
00585 float64 absolute_pitch_tolerance\n\
00586 float64 absolute_yaw_tolerance\n\
00587 \n\
00588 # Constraint weighting factor - a weight for this constraint\n\
00589 float64 weight\n\
00590 \n\
00591 ================================================================================\n\
00592 MSG: arm_navigation_msgs/VisibilityConstraint\n\
00593 # This message contains the definition of a visibility constraint.\n\
00594 Header header\n\
00595 \n\
00596 # The point stamped target that needs to be kept within view of the sensor\n\
00597 geometry_msgs/PointStamped target\n\
00598 \n\
00599 # The local pose of the frame in which visibility is to be maintained\n\
00600 # The frame id should represent the robot link to which the sensor is attached\n\
00601 # The visual axis of the sensor is assumed to be along the X axis of this frame\n\
00602 geometry_msgs/PoseStamped sensor_pose\n\
00603 \n\
00604 # The deviation (in radians) that will be tolerated\n\
00605 # Constraint error will be measured as the solid angle between the \n\
00606 # X axis of the frame defined above and the vector between the origin \n\
00607 # of the frame defined above and the target location\n\
00608 float64 absolute_tolerance\n\
00609 \n\
00610 \n\
00611 ================================================================================\n\
00612 MSG: geometry_msgs/PointStamped\n\
00613 # This represents a Point with reference coordinate frame and timestamp\n\
00614 Header header\n\
00615 Point point\n\
00616 \n\
00617 ================================================================================\n\
00618 MSG: arm_navigation_msgs/OrderedCollisionOperations\n\
00619 # A set of collision operations that will be performed in the order they are specified\n\
00620 CollisionOperation[] collision_operations\n\
00621 ================================================================================\n\
00622 MSG: arm_navigation_msgs/CollisionOperation\n\
00623 # A definition of a collision operation\n\
00624 # E.g. (\"gripper\",COLLISION_SET_ALL,ENABLE) will enable collisions \n\
00625 # between the gripper and all objects in the collision space\n\
00626 \n\
00627 string object1\n\
00628 string object2\n\
00629 string COLLISION_SET_ALL=\"all\"\n\
00630 string COLLISION_SET_OBJECTS=\"objects\"\n\
00631 string COLLISION_SET_ATTACHED_OBJECTS=\"attached\"\n\
00632 \n\
00633 # The penetration distance to which collisions are allowed. This is 0.0 by default.\n\
00634 float64 penetration_distance\n\
00635 \n\
00636 # Flag that determines whether collisions will be enabled or disabled for the pair of objects specified above\n\
00637 int32 operation\n\
00638 int32 DISABLE=0\n\
00639 int32 ENABLE=1\n\
00640 \n\
00641 ";
00642 }
00643
00644 static const char* value(const ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> &) { return value(); }
00645 };
00646
00647 }
00648 }
00649
00650 namespace ros
00651 {
00652 namespace serialization
00653 {
00654
00655 template<class ContainerAllocator> struct Serializer< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> >
00656 {
00657 template<typename Stream, typename T> inline static void allInOne(Stream& stream, T m)
00658 {
00659 stream.next(m.planner_service_name);
00660 stream.next(m.planning_scene_diff);
00661 stream.next(m.motion_plan_request);
00662 stream.next(m.operations);
00663 stream.next(m.accept_partial_plans);
00664 stream.next(m.accept_invalid_goals);
00665 stream.next(m.disable_ik);
00666 stream.next(m.disable_collision_monitoring);
00667 }
00668
00669 ROS_DECLARE_ALLINONE_SERIALIZER;
00670 };
00671 }
00672 }
00673
00674 namespace ros
00675 {
00676 namespace message_operations
00677 {
00678
00679 template<class ContainerAllocator>
00680 struct Printer< ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> >
00681 {
00682 template<typename Stream> static void stream(Stream& s, const std::string& indent, const ::arm_navigation_msgs::MoveArmGoal_<ContainerAllocator> & v)
00683 {
00684 s << indent << "planner_service_name: ";
00685 Printer<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > >::stream(s, indent + " ", v.planner_service_name);
00686 s << indent << "planning_scene_diff: ";
00687 s << std::endl;
00688 Printer< ::arm_navigation_msgs::PlanningScene_<ContainerAllocator> >::stream(s, indent + " ", v.planning_scene_diff);
00689 s << indent << "motion_plan_request: ";
00690 s << std::endl;
00691 Printer< ::arm_navigation_msgs::MotionPlanRequest_<ContainerAllocator> >::stream(s, indent + " ", v.motion_plan_request);
00692 s << indent << "operations: ";
00693 s << std::endl;
00694 Printer< ::arm_navigation_msgs::OrderedCollisionOperations_<ContainerAllocator> >::stream(s, indent + " ", v.operations);
00695 s << indent << "accept_partial_plans: ";
00696 Printer<uint8_t>::stream(s, indent + " ", v.accept_partial_plans);
00697 s << indent << "accept_invalid_goals: ";
00698 Printer<uint8_t>::stream(s, indent + " ", v.accept_invalid_goals);
00699 s << indent << "disable_ik: ";
00700 Printer<uint8_t>::stream(s, indent + " ", v.disable_ik);
00701 s << indent << "disable_collision_monitoring: ";
00702 Printer<uint8_t>::stream(s, indent + " ", v.disable_collision_monitoring);
00703 }
00704 };
00705
00706
00707 }
00708 }
00709
00710 #endif // ARM_NAVIGATION_MSGS_MESSAGE_MOVEARMGOAL_H
00711