protot/3rdparty/rbdl/tests/CustomJointTests.cc

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#include <UnitTest++.h>
#include <iostream>
#include "Fixtures.h"
#include "Human36Fixture.h"
#include "rbdl/rbdl_mathutils.h"
#include "rbdl/Logging.h"
#include "rbdl/Model.h"
#include "rbdl/Kinematics.h"
#include "rbdl/Dynamics.h"
#include "rbdl/Constraints.h"
using namespace std;
using namespace RigidBodyDynamics;
using namespace RigidBodyDynamics::Math;
const double TEST_PREC = 1.0e-12;
struct CustomEulerZYXJoint : public CustomJoint {
CustomEulerZYXJoint () {
mDoFCount = 3;
S = MatrixNd::Zero (6,3);
};
virtual void jcalc (Model &model,
unsigned int joint_id,
const Math::VectorNd &q,
const Math::VectorNd &qdot
) {
double q0 = q[model.mJoints[joint_id].q_index];
double q1 = q[model.mJoints[joint_id].q_index + 1];
double q2 = q[model.mJoints[joint_id].q_index + 2];
double s0 = sin (q0);
double c0 = cos (q0);
double s1 = sin (q1);
double c1 = cos (q1);
double s2 = sin (q2);
double c2 = cos (q2);
model.X_J[joint_id].E = Matrix3d(
c0 * c1, s0 * c1, -s1,
c0 * s1 * s2 - s0 * c2, s0 * s1 * s2 + c0 * c2, c1 * s2,
c0 * s1 * c2 + s0 * s2, s0 * s1 * c2 - c0 * s2, c1 * c2
);
S(0,0) = -s1;
S(0,2) = 1.;
S(1,0) = c1 * s2;
S(1,1) = c2;
S(2,0) = c1 * c2;
S(2,1) = - s2;
double qdot0 = qdot[model.mJoints[joint_id].q_index];
double qdot1 = qdot[model.mJoints[joint_id].q_index + 1];
double qdot2 = qdot[model.mJoints[joint_id].q_index + 2];
model.v_J[joint_id] = S * Vector3d (qdot0, qdot1, qdot2);
model.c_J[joint_id].set(
- c1 * qdot0 * qdot1,
-s1 * s2 * qdot0 * qdot1 + c1 * c2 * qdot0 * qdot2 - s2 * qdot1 * qdot2,
-s1 * c2 * qdot0 * qdot1 - c1 * s2 * qdot0 * qdot2 - c2 * qdot1 * qdot2,
0., 0., 0.
);
}
virtual void jcalc_X_lambda_S (Model &model,
unsigned int joint_id,
const Math::VectorNd &q
) {
// TODO
assert (false && "Not yet implemented!");
}
};
struct CustomJointFixture {
CustomJointFixture () {
custom_joint = new CustomEulerZYXJoint();
Matrix3d inertia = Matrix3d::Identity(3,3);
body = Body (1., Vector3d (1.1, 1.2, 1.3), inertia);
reference_body_id = reference_model.AddBody (0,SpatialTransform(), Joint(JointTypeEulerZYX), body);
custom_body_id = custom_model.AddBodyCustomJoint (0, SpatialTransform(), custom_joint, body);
q = VectorNd::Zero (reference_model.q_size);
qdot = VectorNd::Zero (reference_model.qdot_size);
qddot = VectorNd::Zero (reference_model.qdot_size);
tau = VectorNd::Zero (reference_model.qdot_size);
}
~CustomJointFixture () {
delete custom_joint;
}
Model reference_model;
Model custom_model;
Body body;
CustomJoint* custom_joint;
unsigned int reference_body_id;
unsigned int custom_body_id;
VectorNd q;
VectorNd qdot;
VectorNd qddot;
VectorNd tau;
};
TEST_FIXTURE ( CustomJointFixture, UpdateKinematics ) {
for (unsigned int i = 0; i < 3; i++) {
q[i] = i * 0.1;
qdot[i] = i * 0.15;
qddot[i] = i * 0.17;
}
UpdateKinematics (reference_model, q, qdot, qddot);
UpdateKinematics (custom_model, q, qdot, qddot);
CHECK_ARRAY_EQUAL (reference_model.X_base[reference_body_id].E.data(), custom_model.X_base[custom_body_id].E.data(), 9);
CHECK_ARRAY_EQUAL (reference_model.v[reference_body_id].data(), custom_model.v[custom_body_id].data(), 6);
CHECK_ARRAY_EQUAL (reference_model.a[reference_body_id].data(), custom_model.a[custom_body_id].data(), 6);
}
// TODO: implement test for UpdateKinematicsCustom
// TODO: implement test for Jacobians
// TODO: implement test for InverseDynamics
// TODO: implement test for CompositeRigidBodyAlgorithm
// TODO: implement test for ForwardDynamics
// TODO: implement test for CalcMInvTimestau
// TODO: implement test for ForwardDynamicsContacts