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katana_kinematics_constraint_aware::KatanaKinematicsPlugin Class Reference

#include <katana_openrave_kinematics.h>

Inheritance diagram for katana_kinematics_constraint_aware::KatanaKinematicsPlugin:
Inheritance graph
[legend]

List of all members.

Public Member Functions

std::string getBaseFrame ()
 Return the frame in which the kinematics is operating.
std::vector< std::string > getJointNames ()
 Return all the joint names in the order they are used internally.
std::vector< std::string > getLinkNames ()
 Return all the link names in the order they are represented internally.
bool getPositionFK (const std::vector< std::string > &link_names, const std::vector< double > &joint_angles, std::vector< geometry_msgs::Pose > &poses)
 Given a set of joint angles and a set of links, compute their pose.
bool getPositionIK (const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_seed_state, std::vector< double > &solution, int &error_code)
 Given a desired pose of the end-effector, compute the joint angles to reach it.
std::string getToolFrame ()
 Return the links for which kinematics can be computed.
bool initialize (std::string name)
 Initialization function for the kinematics.
bool isActive ()
 Specifies if the node is active or not.
 KatanaKinematicsPlugin ()
bool searchPositionIK (const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_seed_state, const double &timeout, std::vector< double > &solution, const boost::function< void(const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_solution, int &error_code)> &desired_pose_callback, const boost::function< void(const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_solution, int &error_code)> &solution_callback, int &error_code)
 Given a desired pose of the end-effector, search for the joint angles required to reach it. This particular method is intended for "searching" for a solutions by stepping through the redundancy (or other numerical routines).
bool searchPositionIK (const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_seed_state, const double &timeout, std::vector< double > &solution, int &error_code)
 Given a desired pose of the end-effector, search for the joint angles required to reach it. This particular method is intended for "searching" for a solutions by stepping through the redundancy (or other numerical routines).

Protected Member Functions

void desiredPoseCallback (const std::vector< double > &joint_angles, const geometry_msgs::Pose &ik_pose, arm_navigation_msgs::ArmNavigationErrorCodes &error_code)
void jointSolutionCallback (const std::vector< double > &joint_angles, const geometry_msgs::Pose &ik_pose, arm_navigation_msgs::ArmNavigationErrorCodes &error_code)

Protected Attributes

bool active_
boost::function< void(const
geometry_msgs::Pose &ik_pose,
const std::vector< double >
&ik_solution, int &error_code)> 		desiredPoseCallback_
int dimension_
ros::ServiceClient fk_service_
kinematics_msgs::KinematicSolverInfo fk_solver_info_
ros::ServiceClient fk_solver_info_service_
ros::ServiceClient ik_service_
kinematics_msgs::KinematicSolverInfo ik_solver_info_
ros::ServiceClient ik_solver_info_service_
ros::NodeHandle node_handle_
urdf::Model robot_model_
ros::NodeHandle root_handle_
std::string root_name_
boost::function< void(const
geometry_msgs::Pose &ik_pose,
const std::vector< double >
&ik_solution, int &error_code)> 		solutionCallback_
tf::TransformListener tf_

Detailed Description

Definition at line 49 of file katana_openrave_kinematics.h.

Constructor & Destructor Documentation

katana_kinematics_constraint_aware::KatanaKinematicsPlugin::KatanaKinematicsPlugin (  ) 

Definition at line 41 of file katana_kinematics_plugin.cpp.

Member Function Documentation

void katana_kinematics_constraint_aware::KatanaKinematicsPlugin::desiredPoseCallback ( const std::vector< double > &  joint_angles,
const geometry_msgs::Pose ik_pose,
arm_navigation_msgs::ArmNavigationErrorCodes error_code 
) [protected]

Definition at line 226 of file katana_kinematics_plugin.cpp.

std::string katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getBaseFrame (  )  [virtual]

Return the frame in which the kinematics is operating.

Returns:
the string name of the frame in which the kinematics is operating

Implements kinematics::KinematicsBase.

Definition at line 424 of file katana_kinematics_plugin.cpp.

std::vector< std::string > katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getJointNames (  )  [virtual]

Return all the joint names in the order they are used internally.

Implements kinematics::KinematicsBase.

Definition at line 445 of file katana_kinematics_plugin.cpp.

std::vector< std::string > katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getLinkNames (  )  [virtual]

Return all the link names in the order they are represented internally.

Implements kinematics::KinematicsBase.

Definition at line 456 of file katana_kinematics_plugin.cpp.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getPositionFK ( const std::vector< std::string > &  link_names,
const std::vector< double > &  joint_angles,
std::vector< geometry_msgs::Pose > &  poses 
) [virtual]

Given a set of joint angles and a set of links, compute their pose.

Parameters:
request - the request contains the joint angles, set of links for which poses are to be computed and a timeout
response - the response contains stamped pose information for all the requested links
Returns:
True if a valid solution was found, false otherwise

Implements kinematics::KinematicsBase.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getPositionIK ( const geometry_msgs::Pose ik_pose,
const std::vector< double > &  ik_seed_state,
std::vector< double > &  solution,
int &  error_code 
) [virtual]

Given a desired pose of the end-effector, compute the joint angles to reach it.

Parameters:
ik_link_name - the name of the link for which IK is being computed
ik_pose the desired pose of the link
ik_seed_state an initial guess solution for the inverse kinematics
Returns:
True if a valid solution was found, false otherwise

Implements kinematics::KinematicsBase.

Definition at line 131 of file katana_kinematics_plugin.cpp.

std::string katana_kinematics_constraint_aware::KatanaKinematicsPlugin::getToolFrame (  )  [virtual]

Return the links for which kinematics can be computed.

Implements kinematics::KinematicsBase.

Definition at line 434 of file katana_kinematics_plugin.cpp.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::initialize ( std::string  name  )  [virtual]

Initialization function for the kinematics.

Returns:
True if initialization was successful, false otherwise

Implements kinematics::KinematicsBase.

Definition at line 53 of file katana_kinematics_plugin.cpp.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::isActive (  ) 

Specifies if the node is active or not.

Returns:
True if the node is active, false otherwise.

Definition at line 46 of file katana_kinematics_plugin.cpp.

void katana_kinematics_constraint_aware::KatanaKinematicsPlugin::jointSolutionCallback ( const std::vector< double > &  joint_angles,
const geometry_msgs::Pose ik_pose,
arm_navigation_msgs::ArmNavigationErrorCodes error_code 
) [protected]

Definition at line 241 of file katana_kinematics_plugin.cpp.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::searchPositionIK ( const geometry_msgs::Pose ik_pose,
const std::vector< double > &  ik_seed_state,
const double &  timeout,
std::vector< double > &  solution,
const boost::function< void(const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_solution, int &error_code)> &  desired_pose_callback,
const boost::function< void(const geometry_msgs::Pose &ik_pose, const std::vector< double > &ik_solution, int &error_code)> &  solution_callback,
int &  error_code 
) [virtual]

Given a desired pose of the end-effector, search for the joint angles required to reach it. This particular method is intended for "searching" for a solutions by stepping through the redundancy (or other numerical routines).

Parameters:
ik_pose the desired pose of the link
ik_seed_state an initial guess solution for the inverse kinematics
Returns:
True if a valid solution was found, false otherwise

Implements kinematics::KinematicsBase.

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::searchPositionIK ( const geometry_msgs::Pose ik_pose,
const std::vector< double > &  ik_seed_state,
const double &  timeout,
std::vector< double > &  solution,
int &  error_code 
) [virtual]

Given a desired pose of the end-effector, search for the joint angles required to reach it. This particular method is intended for "searching" for a solutions by stepping through the redundancy (or other numerical routines).

Parameters:
ik_pose the desired pose of the link
ik_seed_state an initial guess solution for the inverse kinematics
Returns:
True if a valid solution was found, false otherwise

Implements kinematics::KinematicsBase.

Definition at line 178 of file katana_kinematics_plugin.cpp.

Member Data Documentation

bool katana_kinematics_constraint_aware::KatanaKinematicsPlugin::active_ [protected]

Definition at line 138 of file katana_openrave_kinematics.h.

boost::function<void(const geometry_msgs::Pose &ik_pose, const std::vector<double> &ik_solution, int &error_code)> katana_kinematics_constraint_aware::KatanaKinematicsPlugin::desiredPoseCallback_ [protected]

Definition at line 151 of file katana_openrave_kinematics.h.

int katana_kinematics_constraint_aware::KatanaKinematicsPlugin::dimension_ [protected]

Definition at line 146 of file katana_openrave_kinematics.h.

ros::ServiceClient katana_kinematics_constraint_aware::KatanaKinematicsPlugin::fk_service_ [protected]

Definition at line 143 of file katana_openrave_kinematics.h.

kinematics_msgs::KinematicSolverInfo katana_kinematics_constraint_aware::KatanaKinematicsPlugin::fk_solver_info_ [protected]

Definition at line 148 of file katana_openrave_kinematics.h.

ros::ServiceClient katana_kinematics_constraint_aware::KatanaKinematicsPlugin::fk_solver_info_service_ [protected]

Definition at line 143 of file katana_openrave_kinematics.h.

ros::ServiceClient katana_kinematics_constraint_aware::KatanaKinematicsPlugin::ik_service_ [protected]

Definition at line 143 of file katana_openrave_kinematics.h.

kinematics_msgs::KinematicSolverInfo katana_kinematics_constraint_aware::KatanaKinematicsPlugin::ik_solver_info_ [protected]

Definition at line 148 of file katana_openrave_kinematics.h.

ros::ServiceClient katana_kinematics_constraint_aware::KatanaKinematicsPlugin::ik_solver_info_service_ [protected]

Definition at line 143 of file katana_openrave_kinematics.h.

ros::NodeHandle katana_kinematics_constraint_aware::KatanaKinematicsPlugin::node_handle_ [protected]

Definition at line 141 of file katana_openrave_kinematics.h.

urdf::Model katana_kinematics_constraint_aware::KatanaKinematicsPlugin::robot_model_ [protected]

Definition at line 139 of file katana_openrave_kinematics.h.

ros::NodeHandle katana_kinematics_constraint_aware::KatanaKinematicsPlugin::root_handle_ [protected]

Definition at line 141 of file katana_openrave_kinematics.h.

std::string katana_kinematics_constraint_aware::KatanaKinematicsPlugin::root_name_ [protected]

Definition at line 145 of file katana_openrave_kinematics.h.

boost::function<void(const geometry_msgs::Pose &ik_pose, const std::vector<double> &ik_solution, int &error_code)> katana_kinematics_constraint_aware::KatanaKinematicsPlugin::solutionCallback_ [protected]

Definition at line 153 of file katana_openrave_kinematics.h.

tf::TransformListener katana_kinematics_constraint_aware::KatanaKinematicsPlugin::tf_ [protected]

Definition at line 144 of file katana_openrave_kinematics.h.

The documentation for this class was generated from the following files:
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katana_kinematics_constraint_aware
Author(s): Henning Deeken, Martin Günther
autogenerated on Wed Jan 9 12:21:14 2013