2021-10-16 19:35:05 +02:00
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#include "rbdl_tests.h"
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2020-10-03 22:55:14 +02:00
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#include <iostream>
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#include "Fixtures.h"
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#include "Human36Fixture.h"
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#include "rbdl/rbdl_mathutils.h"
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#include "rbdl/rbdl_utils.h"
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#include "rbdl/Logging.h"
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#include "rbdl/Model.h"
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#include "rbdl/Kinematics.h"
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#include "rbdl/Dynamics.h"
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using namespace std;
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using namespace RigidBodyDynamics;
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using namespace RigidBodyDynamics::Math;
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (FloatingBase12DoF, __FILE__"_TestKineticEnergy", "") {
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2020-10-03 22:55:14 +02:00
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VectorNd q = VectorNd::Zero(model->q_size);
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VectorNd qdot = VectorNd::Zero(model->q_size);
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for (unsigned int i = 0; i < q.size(); i++) {
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q[i] = 0.1 * i;
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qdot[i] = 0.3 * i;
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}
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MatrixNd H = MatrixNd::Zero (model->q_size, model->q_size);
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CompositeRigidBodyAlgorithm (*model, q, H, true);
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double kinetic_energy_ref = 0.5 * qdot.transpose() * H * qdot;
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double kinetic_energy = Utils::CalcKineticEnergy (*model, q, qdot);
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2021-10-16 19:35:05 +02:00
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REQUIRE (kinetic_energy_ref == kinetic_energy);
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2020-10-03 22:55:14 +02:00
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE (__FILE__"_TestPotentialEnergy", "") {
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2020-10-03 22:55:14 +02:00
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Model model;
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Matrix3d inertia = Matrix3d::Zero(3,3);
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Body body (0.5, Vector3d (0., 0., 0.), inertia);
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Joint joint (
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SpatialVector (0., 0., 0., 1., 0., 0.),
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SpatialVector (0., 0., 0., 0., 1., 0.),
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SpatialVector (0., 0., 0., 0., 0., 1.)
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);
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model.AppendBody (Xtrans (Vector3d::Zero()), joint, body);
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VectorNd q = VectorNd::Zero(model.q_size);
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double potential_energy_zero = Utils::CalcPotentialEnergy (model, q);
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REQUIRE (0. == potential_energy_zero);
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2020-10-03 22:55:14 +02:00
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q[1] = 1.;
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double potential_energy_lifted = Utils::CalcPotentialEnergy (model, q);
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REQUIRE (4.905 == potential_energy_lifted);
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2020-10-03 22:55:14 +02:00
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE (__FILE__"_TestCOMSimple", "") {
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Model model;
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Matrix3d inertia = Matrix3d::Zero(3,3);
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Body body (123., Vector3d (0., 0., 0.), inertia);
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Joint joint (
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SpatialVector (0., 0., 0., 1., 0., 0.),
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SpatialVector (0., 0., 0., 0., 1., 0.),
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SpatialVector (0., 0., 0., 0., 0., 1.)
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);
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model.AppendBody (Xtrans (Vector3d::Zero()), joint, body);
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VectorNd q = VectorNd::Zero(model.q_size);
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VectorNd qdot = VectorNd::Zero(model.qdot_size);
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double mass;
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Vector3d com;
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Vector3d com_velocity;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, &com_velocity);
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2021-10-16 19:35:05 +02:00
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REQUIRE (123. == mass);
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REQUIRE (Vector3d (0., 0., 0.) == com);
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REQUIRE (Vector3d (0., 0., 0.) == com_velocity);
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2020-10-03 22:55:14 +02:00
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q[1] = 1.;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, &com_velocity);
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REQUIRE (Vector3d (0., 1., 0.) == com);
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REQUIRE (Vector3d (0., 0., 0.) == com_velocity);
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qdot[1] = 1.;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, &com_velocity);
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2021-10-16 19:35:05 +02:00
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REQUIRE (Vector3d (0., 1., 0.) == com);
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REQUIRE (Vector3d (0., 1., 0.) == com_velocity);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE (__FILE__"_TestAngularMomentumSimple", "") {
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Model model;
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Matrix3d inertia = Matrix3d::Zero(3,3);
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inertia(0,0) = 1.1;
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inertia(1,1) = 2.2;
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inertia(2,2) = 3.3;
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Body body (0.5, Vector3d (1., 0., 0.), inertia);
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Joint joint (
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SpatialVector (1., 0., 0., 0., 0., 0.),
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SpatialVector (0., 1., 0., 0., 0., 0.),
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SpatialVector (0., 0., 1., 0., 0., 0.)
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);
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model.AppendBody (Xtrans (Vector3d(0., 0., 0.)), joint, body);
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VectorNd q = VectorNd::Zero(model.q_size);
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VectorNd qdot = VectorNd::Zero(model.qdot_size);
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double mass;
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Vector3d com;
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Vector3d angular_momentum;
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qdot << 1., 0., 0.;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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REQUIRE (Vector3d (1.1, 0., 0.) == angular_momentum);
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qdot << 0., 1., 0.;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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REQUIRE (Vector3d (0., 2.2, 0.) == angular_momentum);
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qdot << 0., 0., 1.;
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Utils::CalcCenterOfMass (model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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REQUIRE (Vector3d (0., 0., 3.3) == angular_momentum);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (TwoArms12DoF, __FILE__"_TestAngularMomentumSimple2", "") {
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double mass;
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Vector3d com;
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Vector3d angular_momentum;
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Utils::CalcCenterOfMass (*model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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REQUIRE (Vector3d (0., 0., 0.) == angular_momentum);
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qdot[0] = 1.;
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qdot[1] = 2.;
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qdot[2] = 3.;
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Utils::CalcCenterOfMass (*model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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// only a rough guess from test calculation
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REQUIRE_THAT (Vector3d (3.3, 2.54, 1.5), AllCloseVector(angular_momentum, 1.0e-1, 1.0e-1));
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qdot[3] = -qdot[0];
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qdot[4] = -qdot[1];
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qdot[5] = -qdot[2];
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ClearLogOutput();
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Utils::CalcCenterOfMass (*model, q, qdot, NULL, mass, com, NULL, NULL, &angular_momentum);
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2021-10-16 19:35:05 +02:00
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REQUIRE (angular_momentum[0] == 0);
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REQUIRE (angular_momentum[1] < 0);
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REQUIRE (angular_momentum[2] == 0.);
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2020-10-03 22:55:14 +02:00
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}
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template <typename T>
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void TestCoMComputation (
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T &obj
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) {
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VectorNd Q = VectorNd::Random (obj.model->dof_count);
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VectorNd QDot = VectorNd::Random (obj.model->dof_count);
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VectorNd QDDot = VectorNd::Random (obj.model->dof_count);
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// compute quantities directly from model
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double mass_expected = 0.0;
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UpdateKinematicsCustom(*obj.model, &Q, NULL, NULL);
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for (unsigned int i = 1; i < obj.model->mBodies.size(); i++) {
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// mass_expected += obj.model->I[i].m;
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mass_expected += obj.model->mBodies[i].mMass;
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}
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double mass_actual = 0.0;
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Vector3d com = Vector3d::Zero();
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Utils::CalcCenterOfMass (
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*obj.model,
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Q, QDot, NULL,
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mass_actual, com,
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NULL, NULL
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);
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2021-10-16 19:35:05 +02:00
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REQUIRE_THAT (mass_expected, IsClose(mass_actual, 1e-7, 1e-7));
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2020-10-03 22:55:14 +02:00
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return;
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (LinearInvertedPendulumModel, __FILE__"_TestCoMComputationLinearInvertedPendulumModel", "") {
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TestCoMComputation (*this);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (FixedJoint2DoF, __FILE__"_TestCoMComputationFixedJoint2DoF", "") {
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TestCoMComputation (*this);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (FixedBase6DoF12DoFFloatingBase, __FILE__"_TestCoMComputationFixedBase6DoF12DoFFloatingBase", "") {
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TestCoMComputation (*this);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (Human36, __FILE__"_TestCoMComputationHuman36", "") {
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TestCoMComputation (*this);
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}
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template <typename T>
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void TestCoMAccelerationUsingFD (
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T & obj,
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const double TOL = 1e-7
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) {
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const double EPS = 1e-7;
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obj.Q = VectorNd::Random (obj.model->dof_count);
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obj.QDot = VectorNd::Random (obj.model->dof_count);
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obj.QDDot = VectorNd::Random (obj.model->dof_count);
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double mass = 0.0;
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Vector3d com (Vector3d::Zero());
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Vector3d com_vec (Vector3d::Zero());
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Vector3d ang_mom (Vector3d::Zero());
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Vector3d com_acc_nom (Vector3d::Zero());
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Vector3d com_acc_fd (Vector3d::Zero());
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Vector3d ch_ang_mom_nom (Vector3d::Zero());
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Vector3d ch_ang_mom_fd (Vector3d::Zero());
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// compute com acceleration nominal
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Utils::CalcCenterOfMass (
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*obj.model,
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obj.Q, obj.QDot, &obj.QDDot,
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mass,
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com, &com_vec, &com_acc_nom,
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&ang_mom, &ch_ang_mom_nom
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);
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// compute com acceleration using finite differences from velocity
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Utils::CalcCenterOfMass (
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*obj.model,
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obj.Q + EPS*obj.QDot,
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obj.QDot + EPS*obj.QDDot,
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NULL,
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mass, com, &com_acc_fd, NULL,
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&ch_ang_mom_fd
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);
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com_acc_fd = (com_acc_fd - com_vec) / EPS;
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ch_ang_mom_fd = (ch_ang_mom_fd - ang_mom) / EPS;
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// check CoM acceleration
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REQUIRE_THAT (com_acc_nom, AllCloseVector(com_acc_fd, TOL, TOL));
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REQUIRE_THAT (ch_ang_mom_nom, AllCloseVector(ch_ang_mom_fd, TOL, TOL));
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2020-10-03 22:55:14 +02:00
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return;
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (LinearInvertedPendulumModel, __FILE__"_TestCoMAccelerationUsingFDLinearInvertedPendulumModel", "") {
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TestCoMAccelerationUsingFD (*this, 1e-8);
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}
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TEST_CASE_METHOD (FixedJoint2DoF, __FILE__"_TestCoMAccelerationUsingFDFixedJoint2DoF", "") {
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TestCoMAccelerationUsingFD (*this, 1e-7);
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (FixedBase6DoF12DoFFloatingBase, __FILE__"_TestCoMAccelerationUsingFDFixedBase6DoF12DoFFloatingBase", "") {
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2020-10-03 22:55:14 +02:00
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TestCoMAccelerationUsingFD (*this, 1e-6);
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}
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template <typename T>
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void TestZMPComputationForNotMovingSystem(
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T & obj,
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const double TOL = 1e-8
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) {
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// Test ZMP against CoM projection for non-moving system (qdot, qddot = 0)
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// for this configurations CoM and ZMP coincide
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obj.Q = VectorNd::Random (obj.model->dof_count);
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obj.QDot = VectorNd::Zero (obj.model->dof_count);
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obj.QDDot = VectorNd::Zero (obj.model->dof_count);
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Vector3d zmp (Vector3d::Zero());
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Utils::CalcZeroMomentPoint (
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*obj.model,
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obj.Q, obj.QDot, obj.QDDot,
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&zmp,
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obj.contact_normal, obj.contact_point
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);
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double mass = 0.0;
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Vector3d com (Vector3d::Zero());
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Utils::CalcCenterOfMass (
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*obj.model,
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obj.Q, obj.QDot, NULL,
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mass, com, NULL, NULL
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);
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// project CoM onto surface
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double distance = (com - obj.contact_point).dot(obj.contact_normal);
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com = com - distance * obj.contact_normal;
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// check ZMP against CoM
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REQUIRE_THAT (com, AllCloseVector(zmp, TOL, TOL));
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return;
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (LinearInvertedPendulumModel, __FILE__"_TestZMPComputationForNotMovingSystemLinearInvertedPendulumModel", "") {
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2020-10-03 22:55:14 +02:00
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TestZMPComputationForNotMovingSystem (*this, 1e-8);
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}
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template <typename T>
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void TestZMPComputationAgainstTableCartModel(
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T & obj,
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const double TOL = 1e-8
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) {
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obj.Q = VectorNd::Random (obj.model->dof_count);
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obj.QDot = VectorNd::Random (obj.model->dof_count);
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obj.QDDot = VectorNd::Random (obj.model->dof_count);
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Vector3d zmp (Vector3d::Zero());
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Utils::CalcZeroMomentPoint (
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*obj.model,
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obj.Q, obj.QDot, obj.QDDot,
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&zmp,
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obj.contact_normal, obj.contact_point
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);
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double mass = 0.0;
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Vector3d com (Vector3d::Zero());
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Utils::CalcCenterOfMass (
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*obj.model,
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obj.Q, obj.QDot, NULL,
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mass, com, NULL, NULL
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);
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com.set(
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obj.Q[0] - com[2]/obj.model->gravity.norm()*obj.QDDot[0],
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obj.Q[1] - com[2]/obj.model->gravity.norm()*obj.QDDot[1],
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0.
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);
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// check ZMP against CoM
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2021-10-16 19:35:05 +02:00
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REQUIRE_THAT (com, AllCloseVector(zmp, TOL, TOL));
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2020-10-03 22:55:14 +02:00
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return;
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}
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2021-10-16 19:35:05 +02:00
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TEST_CASE_METHOD (LinearInvertedPendulumModel, __FILE__"_TestZMPComputationAgainstTableCartModelLinearInvertedPendulumModel", "") {
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2020-10-03 22:55:14 +02:00
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TestZMPComputationAgainstTableCartModel (*this, 1e-8);
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}
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