forked from blender/blender
Campbell Barton
5035fbdd23
Added license headers based on the original LGPL files from: gitlab.kuleuven.be/rob-itasc
174 lines
4.5 KiB
C++
174 lines
4.5 KiB
C++
/* SPDX-License-Identifier: LGPL-2.1-or-later
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* Copyright 2009 Ruben Smits. */
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/** \file
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* \ingroup intern_itasc
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*/
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#include "ConstraintSet.hpp"
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#include "kdl/utilities/svd_eigen_HH.hpp"
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namespace iTaSC {
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ConstraintSet::ConstraintSet(unsigned int _nc,double accuracy,unsigned int maximum_iterations):
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m_nc(_nc),
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m_Cf(e_zero_matrix(m_nc,6)),
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m_Wy(e_scalar_vector(m_nc,1.0)),
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m_y(m_nc),m_ydot(e_zero_vector(m_nc)),m_chi(e_zero_vector(6)),
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m_S(6),m_temp(6),m_tdelta(6),
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m_Jf(e_identity_matrix(6,6)),
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m_U(e_identity_matrix(6,6)),m_V(e_identity_matrix(6,6)),m_B(e_zero_matrix(6,6)),
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m_Jf_inv(e_zero_matrix(6,6)),
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m_internalPose(F_identity), m_externalPose(F_identity),
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m_constraintCallback(NULL), m_constraintParam(NULL),
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m_toggle(false),m_substep(false),
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m_threshold(accuracy),m_maxIter(maximum_iterations)
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{
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m_maxDeltaChi = e_scalar(0.52);
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}
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ConstraintSet::ConstraintSet():
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m_nc(0),
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m_internalPose(F_identity), m_externalPose(F_identity),
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m_constraintCallback(NULL), m_constraintParam(NULL),
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m_toggle(false),m_substep(false),
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m_threshold(0.0),m_maxIter(0)
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{
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m_maxDeltaChi = e_scalar(0.52);
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}
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void ConstraintSet::reset(unsigned int _nc,double accuracy,unsigned int maximum_iterations)
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{
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m_nc = _nc;
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m_Jf = e_identity_matrix(6,6);
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m_Cf = e_zero_matrix(m_nc,6);
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m_U = e_identity_matrix(6,6);
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m_V = e_identity_matrix(6,6);
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m_B = e_zero_matrix(6,6);
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m_Jf_inv = e_zero_matrix(6,6),
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m_Wy = e_scalar_vector(m_nc,1.0),
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m_chi = e_zero_vector(6);
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m_chidot = e_zero_vector(6);
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m_y = e_zero_vector(m_nc);
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m_ydot = e_zero_vector(m_nc);
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m_S = e_zero_vector(6);
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m_temp = e_zero_vector(6);
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m_tdelta = e_zero_vector(6);
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m_threshold = accuracy;
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m_maxIter = maximum_iterations;
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}
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ConstraintSet::~ConstraintSet() {
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}
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void ConstraintSet::modelUpdate(Frame& _external_pose,const Timestamp& timestamp)
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{
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m_chi+=m_chidot*timestamp.realTimestep;
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m_externalPose = _external_pose;
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//update the internal pose and Jf
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updateJacobian();
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//check if loop is already closed, if not update the pose and Jf
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unsigned int iter=0;
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while(iter<5&&!closeLoop())
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iter++;
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}
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double ConstraintSet::getMaxTimestep(double& timestep)
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{
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e_scalar maxChidot = m_chidot.array().abs().maxCoeff();
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if (timestep*maxChidot > m_maxDeltaChi) {
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timestep = m_maxDeltaChi/maxChidot;
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}
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return timestep;
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}
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bool ConstraintSet::initialise(Frame& init_pose){
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m_externalPose=init_pose;
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// get current Jf
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updateJacobian();
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unsigned int iter=0;
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while(iter<m_maxIter&&!closeLoop()){
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iter++;
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}
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if (iter<m_maxIter)
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return true;
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else
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return false;
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}
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bool ConstraintSet::setControlParameter(int id, ConstraintAction action, double data, double timestep)
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{
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ConstraintValues values;
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ConstraintSingleValue value;
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values.values = &value;
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values.number = 0;
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values.action = action;
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values.id = id;
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value.action = action;
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value.id = id;
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switch (action) {
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case ACT_NONE:
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return true;
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case ACT_VALUE:
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value.yd = data;
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values.number = 1;
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break;
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case ACT_VELOCITY:
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value.yddot = data;
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values.number = 1;
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break;
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case ACT_TOLERANCE:
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values.tolerance = data;
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break;
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case ACT_FEEDBACK:
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values.feedback = data;
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break;
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case ACT_ALPHA:
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values.alpha = data;
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break;
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default:
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assert(action==ACT_NONE);
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break;
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}
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return setControlParameters(&values, 1, timestep);
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}
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bool ConstraintSet::closeLoop(){
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//Invert Jf
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//TODO: svd_boost_Macie has problems if Jf contains zero-rows
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//toggle=!toggle;
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//svd_boost_Macie(Jf,U,S,V,B,temp,1e-3*threshold,toggle);
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int ret = KDL::svd_eigen_HH(m_Jf,m_U,m_S,m_V,m_temp);
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if(ret<0)
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return false;
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// the reference point and frame of the jacobian is the base frame
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// m_externalPose-m_internalPose is the twist to extend the end effector
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// to get the required pose => change the reference point to the base frame
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Twist twist_delta(diff(m_internalPose,m_externalPose));
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twist_delta=twist_delta.RefPoint(-m_internalPose.p);
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for(unsigned int i=0;i<6;i++)
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m_tdelta(i)=twist_delta(i);
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//TODO: use damping in constraintset inversion?
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for(unsigned int i=0;i<6;i++) {
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if(m_S(i)<m_threshold){
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m_B.row(i).setConstant(0.0);
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} else {
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m_B.row(i) = m_U.col(i)/m_S(i);
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}
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}
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m_Jf_inv.noalias()=m_V*m_B;
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m_chi.noalias()+=m_Jf_inv*m_tdelta;
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updateJacobian();
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// m_externalPose-m_internalPose in end effector frame
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// this is just to compare the pose, a different formula would work too
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return Equal(m_internalPose.Inverse()*m_externalPose,F_identity,m_threshold);
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}
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}
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