#include <sbpl_arm_model.h>
Public Member Functions | |
| bool | checkJointLimits (std::vector< double > angles, bool verbose) |
| return true or false if angles are within specified joint limits | |
| bool | computeEndEffPose (const std::vector< double > angles, double R_target[3][3], double *x, double *y, double *z, double *axis_angle) |
| compute the position {x,y,z} of the planning_joint & the axis angle which represents the difference to the target frame | |
| bool | computeFK (const std::vector< double > angles, int frame_num, std::vector< double > &xyzrpy, int sol_num) |
| (added for debugging - can be removed) compute the forward kinematics to get the pose of the specified joint, use sol_num to choose which RPY representation you want | |
| bool | computeFK (const std::vector< double > angles, int f_num, std::vector< double > &xyzrpy) |
| compute the forward kinematics to get the pose of the specified joint | |
| bool | computeFK (const std::vector< double > angles, int frame_num, KDL::Frame *frame_out) |
| compute the forward kinematics to get the pose of the specified joint | |
| bool | computeIK (const std::vector< double > pose, const std::vector< double > start, std::vector< double > &solution) |
| compute the inverse kinematics for the planning_joint pose | |
| bool | computePlanningJointPos (const std::vector< double > angles, double *x, double *y, double *z) |
| compute the coordinates in the world frame of the planning_joint | |
| void | getArmChainRootLinkName (std::string &name) |
| bool | getArmDescription (FILE *fCfg) |
| parse the arm description text file | |
| double | getAxisAngle (const double R1[3][3], const double R2[3][3]) |
| compute the axis angle between 2 rotation matrices | |
| std::vector< std::vector < double > > | getCollisionCuboids () |
| get the self collision cuboids that the robot occupies | |
| void | getJointLimits (int joint_num, double *min, double *max) |
| get the joint postition limits of specified joint | |
| bool | getJointPositions (const std::vector< double > angles, std::vector< std::vector< double > > &links, KDL::Frame &f_out) |
| bool | getJointPositions (const std::vector< double > angles, const double R_target[3][3], std::vector< std::vector< double > > &links, double *axis_angle) |
| compute the positions of all the tips of the links (collision checking) | |
| double | getLinkRadius (int link) |
| short unsigned int | getLinkRadiusCells (int link) |
| get radius of link in grid cells | |
| int | getMaxLinkRadius () |
| get the radius (in meters) of the widest link | |
| bool | getPlanningJointPose (const std::vector< double > angles, double R_target[3][3], std::vector< double > &pose, double *axis_angle) |
| compute the pose in the world frame of the planning_joint | |
| bool | getPlanningJointPose (const std::vector< double > angles, std::vector< double > &pose) |
| short unsigned int | getPlanningJointRadius () |
| get radius of link in grid cells | |
| bool | initKDLChain (const std::string &fKDL) |
| initialize the KDL chain for FK and IK | |
| bool | initKDLChainFromParamServer () |
| grab the robot description file from the param server | |
| void | printArmDescription (FILE *fOut) |
| print description of arm from SBPL arm text file | |
| void | RPY2Rot (double roll, double pitch, double yaw, double Rot[3][3]) |
| convert RPY values to a rotation matrix | |
| SBPLArmModel (FILE *arm_file) | |
| default constructor | |
| void | setDebugFile (FILE *file) |
| set the file used for debug output | |
| void | setRefFrameTransform (KDL::Frame f, std::string &name) |
| set the transform from the torso frame to the base frame (really supposed to be a transform from the frame that the kinematics is done to the world frame that the planning is done) | |
| void | setResolution (double resolution) |
| set the resolution used for collision checking | |
| ~SBPLArmModel () | |
| destructor | |
Public Attributes | |
| int | num_joints_ |
| number of joints to be planned for | |
| int | num_links_ |
| number of links (for collision checking) | |
| double | resolution_ |
Private Member Functions | |
| double | frameToAxisAngle (const KDL::Frame frame, const double R_target[3][3]) |
| calculate axis angle between a KDL frame and a Rot matrix | |
| void | getRPY (double Rot[3][3], double *roll, double *pitch, double *yaw, int solution_number) |
| convert a rotation matrix into roll,pitch,yaw | |
| void | parseKDLTree () |
Private Attributes | |
| KDL::Chain | chain_ |
| std::string | chain_root_name_ |
| the name of the root frame in the KDL chain | |
| std::string | chain_tip_name_ |
| the name of the tip frame in the KDL chain | |
| std::vector< std::vector < double > > | collision_cuboids_ |
| KDL::ChainFkSolverPos_recursive * | fk_solver_ |
| FILE * | fOut_ |
| KDL::Chain | ik_chain_ |
| KDL::ChainFkSolverPos_recursive * | ik_fk_solver_ |
| KDL::JntArray | ik_jnt_pos_in_ |
| KDL::JntArray | ik_jnt_pos_out_ |
| KDL::ChainIkSolverPos_NR * | ik_solver_ |
| KDL::ChainIkSolverVel_pinv_givens * | ik_solver_vel_ |
| KDL::JntArray | jnt_pos_in_ |
| KDL::JntArray | jnt_pos_out_ |
| std::vector< int > | joint_indeces_ |
| a vector of joint indeces used for collision checking. | |
| std::map< std::string, std::string > | joint_segment_mapping_ |
| std::vector< ArmJoint > | joints_ |
| a vector of joints | |
| std::vector< std::string > | kdl_number_to_urdf_name_ |
| KDL::Tree | kdl_tree_ |
| the kdl tree for the robot description | |
| std::vector< ArmLink > | links_ |
| a vector of links | |
| short unsigned int | max_radius_ |
| the radius of the widest link | |
| int | num_collision_cuboids_ |
| int | num_kdl_joints_ |
| KDL::Frame | p_out_ |
| int | planning_joint_ |
| the index of the joint that is being planned for | |
| std::string | planning_joint_name_ |
| the name of the joint that is being planned for | |
| pr2_arm_kinematics::PR2ArmIKSolver * | pr2_arm_ik_solver_ |
| std::string | reference_frame_ |
| frame that the planning is done in | |
| std::string | robot_description_ |
| a string containing the URDF that describes the robot arm | |
| urdf::Model | robot_model_ |
| the robot model used by the KDL | |
| std::map< std::string, std::string > | segment_joint_mapping_ |
| KDL::Frame | transform_ |
| KDL::Frame | transform_inverse_ |
| std::map< std::string, int > | urdf_name_to_kdl_number_ |
Definition at line 82 of file sbpl_arm_model.h.
| SBPLArmModel::SBPLArmModel | ( | FILE * | arm_file | ) |
default constructor
| the | filename of the sbpl arm description text file |
Definition at line 36 of file sbpl_arm_model.cpp.
| SBPLArmModel::~SBPLArmModel | ( | ) |
destructor
Definition at line 60 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::checkJointLimits | ( | std::vector< double > | angles, | |
| bool | verbose | |||
| ) |
return true or false if angles are within specified joint limits
Definition at line 695 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computeEndEffPose | ( | const std::vector< double > | angles, | |
| double | R_target[3][3], | |||
| double * | x, | |||
| double * | y, | |||
| double * | z, | |||
| double * | axis_angle | |||
| ) |
compute the position {x,y,z} of the planning_joint & the axis angle which represents the difference to the target frame
Definition at line 405 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computeFK | ( | const std::vector< double > | angles, | |
| int | frame_num, | |||
| std::vector< double > & | xyzrpy, | |||
| int | sol_num | |||
| ) |
(added for debugging - can be removed) compute the forward kinematics to get the pose of the specified joint, use sol_num to choose which RPY representation you want
Definition at line 383 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computeFK | ( | const std::vector< double > | angles, | |
| int | f_num, | |||
| std::vector< double > & | xyzrpy | |||
| ) |
compute the forward kinematics to get the pose of the specified joint
Definition at line 366 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computeFK | ( | const std::vector< double > | angles, | |
| int | frame_num, | |||
| KDL::Frame * | frame_out | |||
| ) |
compute the forward kinematics to get the pose of the specified joint
Definition at line 335 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computeIK | ( | const std::vector< double > | pose, | |
| const std::vector< double > | start, | |||
| std::vector< double > & | solution | |||
| ) |
compute the inverse kinematics for the planning_joint pose
Definition at line 434 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::computePlanningJointPos | ( | const std::vector< double > | angles, | |
| double * | x, | |||
| double * | y, | |||
| double * | z | |||
| ) |
compute the coordinates in the world frame of the planning_joint
Definition at line 555 of file sbpl_arm_model.cpp.
| double SBPLArmModel::frameToAxisAngle | ( | const KDL::Frame | frame, | |
| const double | R_target[3][3] | |||
| ) | [private] |
calculate axis angle between a KDL frame and a Rot matrix
Definition at line 421 of file sbpl_arm_model.cpp.
| void SBPLArmModel::getArmChainRootLinkName | ( | std::string & | name | ) |
Definition at line 782 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::getArmDescription | ( | FILE * | fCfg | ) |
parse the arm description text file
Definition at line 79 of file sbpl_arm_model.cpp.
| double SBPLArmModel::getAxisAngle | ( | const double | R1[3][3], | |
| const double | R2[3][3] | |||
| ) |
compute the axis angle between 2 rotation matrices
Definition at line 481 of file sbpl_arm_model.cpp.
| std::vector< std::vector< double > > SBPLArmModel::getCollisionCuboids | ( | ) | [inline] |
get the self collision cuboids that the robot occupies
Definition at line 285 of file sbpl_arm_model.h.
| void SBPLArmModel::getJointLimits | ( | int | joint_num, | |
| double * | min, | |||
| double * | max | |||
| ) |
get the joint postition limits of specified joint
Definition at line 765 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::getJointPositions | ( | const std::vector< double > | angles, | |
| std::vector< std::vector< double > > & | links, | |||
| KDL::Frame & | f_out | |||
| ) |
Definition at line 507 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::getJointPositions | ( | const std::vector< double > | angles, | |
| const double | R_target[3][3], | |||
| std::vector< std::vector< double > > & | links, | |||
| double * | axis_angle | |||
| ) |
compute the positions of all the tips of the links (collision checking)
Definition at line 530 of file sbpl_arm_model.cpp.
| double SBPLArmModel::getLinkRadius | ( | int | link | ) | [inline] |
Definition at line 273 of file sbpl_arm_model.h.
| short unsigned int SBPLArmModel::getLinkRadiusCells | ( | int | link | ) | [inline] |
get radius of link in grid cells
Definition at line 266 of file sbpl_arm_model.h.
| int SBPLArmModel::getMaxLinkRadius | ( | ) | [inline] |
get the radius (in meters) of the widest link
Definition at line 280 of file sbpl_arm_model.h.
| bool SBPLArmModel::getPlanningJointPose | ( | const std::vector< double > | angles, | |
| double | R_target[3][3], | |||
| std::vector< double > & | pose, | |||
| double * | axis_angle | |||
| ) |
compute the pose in the world frame of the planning_joint
Definition at line 570 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::getPlanningJointPose | ( | const std::vector< double > | angles, | |
| std::vector< double > & | pose | |||
| ) |
Definition at line 591 of file sbpl_arm_model.cpp.
| short unsigned int SBPLArmModel::getPlanningJointRadius | ( | ) |
get radius of link in grid cells
| void SBPLArmModel::getRPY | ( | double | Rot[3][3], | |
| double * | roll, | |||
| double * | pitch, | |||
| double * | yaw, | |||
| int | solution_number | |||
| ) | [private] |
convert a rotation matrix into roll,pitch,yaw
convert a rotation matrix into the RPY format (copied from getEulerZYX() in Bullet physics library)
Definition at line 635 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::initKDLChain | ( | const std::string & | fKDL | ) |
initialize the KDL chain for FK and IK
Definition at line 243 of file sbpl_arm_model.cpp.
| bool SBPLArmModel::initKDLChainFromParamServer | ( | ) |
grab the robot description file from the param server
Definition at line 225 of file sbpl_arm_model.cpp.
| void SBPLArmModel::parseKDLTree | ( | ) | [private] |
Definition at line 292 of file sbpl_arm_model.cpp.
| void SBPLArmModel::printArmDescription | ( | FILE * | fOut | ) |
print description of arm from SBPL arm text file
Definition at line 727 of file sbpl_arm_model.cpp.
| void SBPLArmModel::RPY2Rot | ( | double | roll, | |
| double | pitch, | |||
| double | yaw, | |||
| double | Rot[3][3] | |||
| ) |
convert RPY values to a rotation matrix
Definition at line 610 of file sbpl_arm_model.cpp.
| void SBPLArmModel::setDebugFile | ( | FILE * | file | ) |
set the file used for debug output
Definition at line 74 of file sbpl_arm_model.cpp.
| void SBPLArmModel::setRefFrameTransform | ( | KDL::Frame | f, | |
| std::string & | name | |||
| ) |
set the transform from the torso frame to the base frame (really supposed to be a transform from the frame that the kinematics is done to the world frame that the planning is done)
Definition at line 771 of file sbpl_arm_model.cpp.
| void SBPLArmModel::setResolution | ( | double | resolution | ) |
set the resolution used for collision checking
Definition at line 210 of file sbpl_arm_model.cpp.
KDL::Chain SBPLArmModel::chain_ [private] |
Definition at line 246 of file sbpl_arm_model.h.
std::string SBPLArmModel::chain_root_name_ [private] |
the name of the root frame in the KDL chain
Definition at line 192 of file sbpl_arm_model.h.
std::string SBPLArmModel::chain_tip_name_ [private] |
the name of the tip frame in the KDL chain
Definition at line 195 of file sbpl_arm_model.h.
std::vector<std::vector<double> > SBPLArmModel::collision_cuboids_ [private] |
Definition at line 228 of file sbpl_arm_model.h.
KDL::ChainFkSolverPos_recursive* SBPLArmModel::fk_solver_ [private] |
Definition at line 247 of file sbpl_arm_model.h.
FILE* SBPLArmModel::fOut_ [private] |
Definition at line 232 of file sbpl_arm_model.h.
KDL::Chain SBPLArmModel::ik_chain_ [private] |
Definition at line 249 of file sbpl_arm_model.h.
KDL::ChainFkSolverPos_recursive* SBPLArmModel::ik_fk_solver_ [private] |
Definition at line 250 of file sbpl_arm_model.h.
KDL::JntArray SBPLArmModel::ik_jnt_pos_in_ [private] |
Definition at line 253 of file sbpl_arm_model.h.
KDL::JntArray SBPLArmModel::ik_jnt_pos_out_ [private] |
Definition at line 254 of file sbpl_arm_model.h.
KDL::ChainIkSolverPos_NR* SBPLArmModel::ik_solver_ [private] |
Definition at line 251 of file sbpl_arm_model.h.
KDL::ChainIkSolverVel_pinv_givens* SBPLArmModel::ik_solver_vel_ [private] |
Definition at line 252 of file sbpl_arm_model.h.
KDL::JntArray SBPLArmModel::jnt_pos_in_ [private] |
Definition at line 242 of file sbpl_arm_model.h.
KDL::JntArray SBPLArmModel::jnt_pos_out_ [private] |
Definition at line 243 of file sbpl_arm_model.h.
std::vector<int> SBPLArmModel::joint_indeces_ [private] |
a vector of joint indeces used for collision checking.
Definition at line 222 of file sbpl_arm_model.h.
std::map<std::string, std::string> SBPLArmModel::joint_segment_mapping_ [private] |
Joint -> Segment mapping for KDL tree
Definition at line 237 of file sbpl_arm_model.h.
std::vector<ArmJoint> SBPLArmModel::joints_ [private] |
a vector of joints
Definition at line 216 of file sbpl_arm_model.h.
std::vector<std::string> SBPLArmModel::kdl_number_to_urdf_name_ [private] |
Mapping from KDL joint number to URDF joint name
Definition at line 239 of file sbpl_arm_model.h.
KDL::Tree SBPLArmModel::kdl_tree_ [private] |
the kdl tree for the robot description
Definition at line 204 of file sbpl_arm_model.h.
std::vector<ArmLink> SBPLArmModel::links_ [private] |
a vector of links
Definition at line 219 of file sbpl_arm_model.h.
short unsigned int SBPLArmModel::max_radius_ [private] |
the radius of the widest link
Definition at line 213 of file sbpl_arm_model.h.
int SBPLArmModel::num_collision_cuboids_ [private] |
Definition at line 230 of file sbpl_arm_model.h.
number of joints to be planned for
Definition at line 96 of file sbpl_arm_model.h.
int SBPLArmModel::num_kdl_joints_ [private] |
Definition at line 236 of file sbpl_arm_model.h.
number of links (for collision checking)
Definition at line 99 of file sbpl_arm_model.h.
KDL::Frame SBPLArmModel::p_out_ [private] |
Definition at line 244 of file sbpl_arm_model.h.
int SBPLArmModel::planning_joint_ [private] |
the index of the joint that is being planned for
Definition at line 207 of file sbpl_arm_model.h.
std::string SBPLArmModel::planning_joint_name_ [private] |
the name of the joint that is being planned for
Definition at line 210 of file sbpl_arm_model.h.
pr2_arm_kinematics::PR2ArmIKSolver* SBPLArmModel::pr2_arm_ik_solver_ [private] |
Definition at line 256 of file sbpl_arm_model.h.
std::string SBPLArmModel::reference_frame_ [private] |
frame that the planning is done in
Definition at line 198 of file sbpl_arm_model.h.
| double SBPLArmModel::resolution_ |
resolution of grid for the discretized arm dims
Definition at line 102 of file sbpl_arm_model.h.
std::string SBPLArmModel::robot_description_ [private] |
a string containing the URDF that describes the robot arm
Definition at line 189 of file sbpl_arm_model.h.
urdf::Model SBPLArmModel::robot_model_ [private] |
the robot model used by the KDL
Definition at line 201 of file sbpl_arm_model.h.
std::map<std::string, std::string> SBPLArmModel::segment_joint_mapping_ [private] |
Segment -> Joint mapping for KDL tree
Definition at line 238 of file sbpl_arm_model.h.
KDL::Frame SBPLArmModel::transform_ [private] |
Definition at line 224 of file sbpl_arm_model.h.
KDL::Frame SBPLArmModel::transform_inverse_ [private] |
Definition at line 226 of file sbpl_arm_model.h.
std::map<std::string, int> SBPLArmModel::urdf_name_to_kdl_number_ [private] |
Mapping from URDF joint name to KDL joint number
Definition at line 240 of file sbpl_arm_model.h.
