void KdlTreeFk::recursiveGetVels(bool getAll, const KDL::FrameVel &baseFrame, const KDL::SegmentMap::const_iterator &it, const KDL::JntArrayVel &joints, std::map<std::string, KDL::FrameVel> &frames) { /// get FrameVel for this segment and store as needed const std::string& segmentName = it->first; const KDL::TreeElement& element = it->second; const KDL::Segment& segment = element.segment; unsigned int q_nr = element.q_nr; KDL::FrameVel currentFrame = baseFrame * KDL::FrameVel(segment.pose(joints.q(q_nr)), segment.twist(joints.q(q_nr), joints.qdot(q_nr))); if (getAll) { frames[segmentName] = currentFrame; } else { std::map<std::string, KDL::FrameVel>::iterator frameIt = frames.find(segmentName); if (frameIt != frames.end()) { frameIt->second = currentFrame; } } /// recurse const std::vector<KDL::SegmentMap::const_iterator>& children = element.children; for (std::vector<KDL::SegmentMap::const_iterator>::const_iterator childIt = children.begin(); childIt != children.end(); ++childIt) { recursiveGetVels(getAll, currentFrame, *childIt, joints, frames); } }
bool IKController::compute_ik( const KDL::JntArrayVel &positions, const KDL::Frame &tip_frame_des, KDL::JntArray &ik_hint, KDL::JntArrayVel &positions_des, KDL::JntArrayVel &positions_des_last, const bool debug, const ros::Duration dt) { // Select ik hint by joint for(unsigned int i=0; i<n_dof_; i++) { switch(hint_modes_[i]) { case 0: ik_hint(i) = positions_.q(i); break; case 1: ik_hint(i) = (joint_limits_min_(i) + joint_limits_max_(i))/2.0; break; case 2: ik_hint(i) = hint_positions_(i); break; }; } // Compute joint coordinates of the target tip frame int ik_ret = kdl_ik_solver_pos_->CartToJnt(ik_hint, tip_frame_des, positions_des.q); if(ik_ret < 0) { return false; } if(debug) { RTT::log(RTT::Debug)<<"Unwrapped angles: "<<(positions_des.q.data.transpose)()<<RTT::endlog(); } // Unwrap angles for(unsigned int i=0; i<n_dof_; i++) { if(positions_des.q(i) > 0) { positions_des.q(i) = fmod(positions_des.q(i)+M_PI,2.0*M_PI)-M_PI; } else { positions_des.q(i) = fmod(positions_des.q(i)-M_PI,2.0*M_PI)+M_PI; } } // Compute joint velocities //if(dt.toSec() > 1E-5) { //positions_des_.qdot.data = (positions_des_.q.data - positions_des_last_.q.data)/dt.toSec(); //} else { positions_des.qdot.data.setZero(); //} if(debug) { RTT::log(RTT::Debug)<<"Wrapped angles: "<<(positions_des.q.data.transpose())<<RTT::endlog(); RTT::log(RTT::Debug)<<"Current position: "<<positions.q.data.transpose()<<RTT::endlog(); RTT::log(RTT::Debug)<<"Current velocity: "<<positions.qdot.data.transpose()<<RTT::endlog(); RTT::log(RTT::Debug)<<"IK result: "<<positions_des.q.data.transpose()<<RTT::endlog(); RTT::log(RTT::Debug)<<"Displacement: "<<(positions_des.q.data-positions_.q.data).transpose()<<RTT::endlog(); } return true; }