GCC Code Coverage Report
Directory: ./ Exec Total Coverage
File: examples/inverse-kinematics.cpp Lines: 41 44 93.2 %
Date: 2024-04-26 13:14:21 Branches: 62 124 50.0 %

Line Branch Exec Source 
1
 

    
#include "pinocchio/parsers/sample-models.hpp"

    


    

    
2

    
    

    
#include "pinocchio/spatial/explog.hpp"

    


    

    
3

    
    

    
#include "pinocchio/algorithm/kinematics.hpp"

    


    

    
4

    
    

    
#include "pinocchio/algorithm/jacobian.hpp"

    


    

    
5

    
    

    
#include "pinocchio/algorithm/joint-configuration.hpp"

    


    

    
6

    
    

    

    


    

    
7

    
    
1

    
int main(int /* argc */, char ** /* argv */)

    


    

    
8

    
    

    
{

    


    

    
9

    
    
2

    
  pinocchio::Model model;

    


    

    
10

    
    
1

    
  pinocchio::buildModels::manipulator(model);

    


    

    
11

    
    
2

    
  pinocchio::Data data(model);

    


    

    
12

    
    

    

    


    

    
13

    
    
1

    
  const int JOINT_ID = 6;

    


    

    
14

    

    
1

    
  const pinocchio::SE3 oMdes(Eigen::Matrix3d::Identity(), Eigen::Vector3d(1., 0., 1.));

    


    

    
15

    
    

    

    


    

    
16

    
    
2

    
  Eigen::VectorXd q = pinocchio::neutral(model);

    


    

    
17

    
    
1

    
  const double eps  = 1e-4;

    


    

    
18

    
    
1

    
  const int IT_MAX  = 1000;

    


    

    
19

    
    
1

    
  const double DT   = 1e-1;

    


    

    
20

    
    
1

    
  const double damp = 1e-6;

    


    

    
21

    
    

    

    


    

    
22

    
    
2

    
  pinocchio::Data::Matrix6x J(6,model.nv);

    


    

    
23

    
    
1

    
  J.setZero();

    


    

    
24

    
    

    

    


    

    
25

    
    
1

    
  bool success = false;

    


    

    
26

    
    

    
  typedef Eigen::Matrix<double, 6, 1> Vector6d;

    


    

    
27

    
    
1

    
  Vector6d err;

    


    

    
28

    
    
1

    
  Eigen::VectorXd v(model.nv);

    


    

    
29

    
    
1

    
  for (int i=0;;i++)

    


    

    
30

    
    

    
  {

    


    

    
31

    
    
91

    
    pinocchio::forwardKinematics(model,data,q);

    


    

    
32

    
    
91

    
    const pinocchio::SE3 iMd = data.oMi[JOINT_ID].actInv(oMdes);

    


    

    
33

    

    
91

    
    err = pinocchio::log6(iMd).toVector();  // in joint frame

    


    

    
34

    

    
91

    
    if(err.norm() < eps)

    


    

    
35

    
    

    
    {

    


    

    
36

    
    
1

    
      success = true;

    


    

    
37

    
    
1

    
      break;

    


    

    
38

    
    

    
    }

    


    

    
39

    
    
90

    
    if (i >= IT_MAX)

    


    

    
40

    
    

    
    {

    


    

    
41

    
    

    
      success = false;

    


    

    
42

    
    

    
      break;

    


    

    
43

    
    

    
    }

    


    

    
44

    
    
90

    
    pinocchio::computeJointJacobian(model,data,q,JOINT_ID,J);  // J in joint frame

    


    

    
45

    
    
90

    
    pinocchio::Data::Matrix6 Jlog;

    


    

    
46

    

    
90

    
    pinocchio::Jlog6(iMd.inverse(), Jlog);

    


    

    
47

    

    
90

    
    J = -Jlog * J;

    


    

    
48

    
    
90

    
    pinocchio::Data::Matrix6 JJt;

    


    

    
49

    


    
90

    
    JJt.noalias() = J * J.transpose();

    


    

    
50

    

    
90

    
    JJt.diagonal().array() += damp;

    


    

    
51

    



    
90

    
    v.noalias() = - J.transpose() * JJt.ldlt().solve(err);

    


    

    
52

    

    
90

    
    q = pinocchio::integrate(model,q,v*DT);

    


    

    
53

    
    
90

    
    if(!(i%10))

    


    

    
54

    


    
9

    
      std::cout << i << ": error = " << err.transpose() << std::endl;

    


    

    
55

    
    
90

    
  }

    


    

    
56

    
    

    

    


    

    
57

    
    
1

    
  if(success)

    


    

    
58

    
    

    
  {

    


    

    
59

    

    
1

    
    std::cout << "Convergence achieved!" << std::endl;

    


    

    
60

    
    

    
  }

    


    

    
61

    
    

    
  else

    


    

    
62

    
    

    
  {

    


    

    
63

    
    

    
    std::cout << "\nWarning: the iterative algorithm has not reached convergence to the desired precision" << std::endl;

    


    

    
64

    
    

    
  }

    


    

    
65

    
    

    

    


    

    
66

    


    
1

    
  std::cout << "\nresult: " << q.transpose() << std::endl;

    


    

    
67

    


    
1

    
  std::cout << "\nfinal error: " << err.transpose() << std::endl;

    


    

    
68

    
    
1

    
}

    


  

  


  

    

    
Generated by: GCOVR (Version 4.2)