Exemplo n.º 1
0
int main()
{
    KDLCollada kdlCollada;
    vector <KDL::Chain> kinematicsModels;
    const string filename =  "puma.dae";  // loading collada kinematics model and converting it to kdl serial chain
    if (!kdlCollada.load(COLLADA_MODELS_PATH + filename, kinematicsModels))
    {
        cout << "Failed to import " << filename;
        return 0;
    }

    cout << "Imported " << kinematicsModels.size() << " kinematics chains" << endl;

    for (unsigned int i = 0; i < kinematicsModels.size(); i++)  // parsing output kdl serail chain
    {
        KDL::Chain chain = kinematicsModels[i];
        cout << "Chain " << i << " has " << chain.getNrOfSegments() << " segments" << endl;

        for (unsigned int u = 0; u < chain.getNrOfSegments(); u++)
        {
            KDL::Segment segment = chain.segments[u];
            string segmentName = segment.getName();
            cout << "Segment " << segmentName << " :" <<endl;

            KDL::Frame f_tip = segment.getFrameToTip();
            KDL::Vector rotAxis = f_tip.M.GetRot();
            double rotAngle = f_tip.M.GetRotAngle(rotAxis);
            KDL::Vector trans = f_tip.p;
            cout << "   frame: rotation " << rotAxis.x() << " " << rotAxis.y() << " " << rotAxis.z() << " " << rotAngle * 180 / M_PI << endl;
            cout << "   frame: translation " << trans.x() << " " << trans.y() << " " << trans.z() << endl;

            KDL::RigidBodyInertia inertia = segment.getInertia();
            KDL::Joint joint = segment.getJoint();

            string jointName = joint.getName();
            string jointType = joint.getTypeName();
            KDL::Vector jointAxis = joint.JointAxis();
            KDL::Vector jointOrigin = joint.JointOrigin();

            cout << "   joint name: " << jointName << endl;
            cout << "         type: " << jointType << endl;
            cout << "         axis: " << jointAxis.x() << " " <<jointAxis.y() << " " << jointAxis.z() << endl;
            cout << "         origin: " << jointOrigin.x() << " " << jointOrigin.y() << " " << jointOrigin.z() << endl;
        }
    }

    return 0;
}
TEST_F(VectorExpressionGenerationTest, Constructor)
{
  giskard::VectorConstructorSpec descr;
  giskard::Scope scope;

  descr.set_x(x);
  descr.set_y(y);
  descr.set_z(z);

  KDL::Vector v = descr.get_expression(scope)->value();
  
  EXPECT_DOUBLE_EQ(v.x(), 1.1);
  EXPECT_DOUBLE_EQ(v.y(), 2.2);
  EXPECT_DOUBLE_EQ(v.z(), 3.3);
}
// Set vector from tf
void set_vector( tf::StampedTransform t, KDL::Vector& v )
{
    v.x(t.getOrigin().x());
    v.y(t.getOrigin().y());
    v.z(t.getOrigin().z());
}
Exemplo n.º 4
0
// construct vector
urdf::Vector3 toUrdf(const KDL::Vector & v)
{
    return urdf::Vector3(v.x(), v.y(), v.z());
}
Exemplo n.º 5
0
double leatherman::distance(const KDL::Vector &a, const KDL::Vector &b)
{
  return sqrt((a.x()-b.x())*(a.x()-b.x()) + (a.y()-b.y())*(a.y()-b.y()) + (a.z()-b.z())*(a.z()-b.z()));
}
//KDL vector to eigen
void convert(const KDL::Vector &in, eVector3 &out) {
    out<<in.x(), in.y(), in.z();
}