1034 lines
31 KiB
C++
1034 lines
31 KiB
C++
/*
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* RBDL - Rigid Body Dynamics Library
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* Copyright (c) 2016-2018 Matthew Millard <matthew.millard@iwr.uni-heidelberg.de>
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*/
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#include <UnitTest++.h>
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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/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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#include "rbdl/Constraints.h"
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#include <vector>
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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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const double TEST_PREC = 1.0e-11;
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const int NUMBER_OF_MODELS = 3;
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const int NUMBER_OF_BODIES = 3;
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//==============================================================================
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/*
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The purpose of this test is to test that all of the code in RBDL
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related to a multibody mechanism that includes a custom joint functions.
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Specifically this test is for the multi-pass algorithms in rbdl ... namely
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the CompositeRigidBodyAlgorithm. However, because these tests have already
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been written for CustomJointSingleBodyTests.cc, we'll run them all on the
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multibody models that we will be testing.
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We will be testing 3 models to get good coverage of the
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CompositeRigidBodyAlgorithm:
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1. Rx - multidof - custom
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2. Rx - custom - multidof
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3. custom - multidof - Rx
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As before, to test that the model works, we will create a model using
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standard RBDL versions (the reference model), and then we will create
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a model using a custom joint in the correct location. The following
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algorithms will be tested in this manner:
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UpdateKinematicsCustom
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Jacobians
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InverseDynamics
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CompositeRigidBodyAlgorithm
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ForwardDynamics
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CalcMInvTimestau
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ForwardDynamicsContactsKokkevis
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*/
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//==============================================================================
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struct CustomJointTypeRevoluteX : public CustomJoint {
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CustomJointTypeRevoluteX(){
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mDoFCount = 1;
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S = MatrixNd::Zero(6,1);
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S(0,0)=1.0;
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d_u = MatrixNd::Zero(mDoFCount,1);
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}
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virtual void jcalc (Model &model,
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unsigned int joint_id,
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const Math::VectorNd &q,
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const Math::VectorNd &qdot)
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{
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model.X_lambda[joint_id] = Xrotx(q[model.mJoints[joint_id].q_index])
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* model.X_T[joint_id];
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model.v_J[joint_id][0] = qdot[model.mJoints[joint_id].q_index];
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}
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virtual void jcalc_X_lambda_S ( Model &model,
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unsigned int joint_id,
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const Math::VectorNd &q)
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{
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model.X_lambda[joint_id] =
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Xrotx (q[model.mJoints[joint_id].q_index])
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* model.X_T[joint_id];
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const Joint &joint = model.mJoints[joint_id];
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model.mCustomJoints[joint.custom_joint_index]->S = S;
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}
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};
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struct CustomEulerZYXJoint : public CustomJoint {
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CustomEulerZYXJoint () {
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mDoFCount = 3;
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S = MatrixNd::Zero (6,3);
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d_u = MatrixNd::Zero(mDoFCount,1);
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}
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virtual void jcalc (Model &model,
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unsigned int joint_id,
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const Math::VectorNd &q,
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const Math::VectorNd &qdot)
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{
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double q0 = q[model.mJoints[joint_id].q_index];
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double q1 = q[model.mJoints[joint_id].q_index + 1];
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double q2 = q[model.mJoints[joint_id].q_index + 2];
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double s0 = sin (q0);
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double c0 = cos (q0);
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double s1 = sin (q1);
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double c1 = cos (q1);
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double s2 = sin (q2);
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double c2 = cos (q2);
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SpatialTransform X_J (Matrix3d(
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c0 * c1, s0 * c1, -s1,
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c0 * s1 * s2 - s0 * c2, s0 * s1 * s2 + c0 * c2, c1 * s2,
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c0 * s1 * c2 + s0 * s2, s0 * s1 * c2 - c0 * s2, c1 * c2
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),
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Vector3d::Zero());
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model.X_lambda[joint_id] = X_J * model.X_T[joint_id];
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S.setZero();
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S(0,0) = -s1;
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S(0,2) = 1.;
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S(1,0) = c1 * s2;
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S(1,1) = c2;
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S(2,0) = c1 * c2;
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S(2,1) = - s2;
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double qdot0 = qdot[model.mJoints[joint_id].q_index];
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double qdot1 = qdot[model.mJoints[joint_id].q_index + 1];
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double qdot2 = qdot[model.mJoints[joint_id].q_index + 2];
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model.v_J[joint_id] = S * Vector3d (qdot0, qdot1, qdot2);
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model.c_J[joint_id].set(
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-c1*qdot0*qdot1,
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-s1*s2*qdot0*qdot1 + c1*c2*qdot0*qdot2 - s2*qdot1*qdot2,
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-s1*c2*qdot0*qdot1 - c1*s2*qdot0*qdot2 - c2*qdot1*qdot2,
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0., 0., 0.
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);
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}
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virtual void jcalc_X_lambda_S ( Model &model,
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unsigned int joint_id,
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const Math::VectorNd &q)
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{
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double q0 = q[model.mJoints[joint_id].q_index];
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double q1 = q[model.mJoints[joint_id].q_index + 1];
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double q2 = q[model.mJoints[joint_id].q_index + 2];
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double s0 = sin (q0);
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double c0 = cos (q0);
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double s1 = sin (q1);
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double c1 = cos (q1);
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double s2 = sin (q2);
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double c2 = cos (q2);
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model.X_lambda[joint_id] = SpatialTransform (
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Matrix3d(
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c0 * c1, s0 * c1, -s1,
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c0 * s1 * s2 - s0 * c2, s0 * s1 * s2 + c0 * c2, c1 * s2,
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c0 * s1 * c2 + s0 * s2, s0 * s1 * c2 - c0 * s2, c1 * c2
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),
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Vector3d (0., 0., 0.)) * model.X_T[joint_id];
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S.setZero();
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S(0,0) = -s1;
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S(0,2) = 1.;
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S(1,0) = c1 * s2;
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S(1,1) = c2;
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S(2,0) = c1 * c2;
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S(2,1) = - s2;
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const Joint &joint = model.mJoints[joint_id];
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model.mCustomJoints[joint.custom_joint_index]->S = S;
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}
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};
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//==============================================================================
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//Test Fixture
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//==============================================================================
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struct CustomJointMultiBodyFixture {
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CustomJointMultiBodyFixture () {
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reference_model.resize(NUMBER_OF_MODELS);
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custom_model.resize(NUMBER_OF_MODELS);
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body.resize(NUMBER_OF_MODELS);
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custom_joint.resize(NUMBER_OF_MODELS);
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reference_body_id.resize(NUMBER_OF_MODELS);
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custom_body_id.resize(NUMBER_OF_MODELS);
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for(int i=0; i < NUMBER_OF_MODELS; ++i){
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body.at(i).resize(3);
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custom_joint.at(i).resize(1);
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reference_body_id.at(i).resize(3);
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custom_body_id.at(i).resize(3);
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}
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q.resize(NUMBER_OF_MODELS);
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qdot.resize(NUMBER_OF_MODELS);
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qddot.resize(NUMBER_OF_MODELS);
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tau.resize(NUMBER_OF_MODELS);
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//========================================================
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//Test Model 1: Rx - multidof3 - custom
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//========================================================
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custom_rx_joint1 = CustomJointTypeRevoluteX();
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Matrix3d inertia1 = Matrix3d::Identity(3,3);
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Body body11 = Body (1., Vector3d (1.1, 1.2, 1.3), inertia1);
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Body body12 = Body (2., Vector3d (2.1, 2.2, 2.3), inertia1);
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Body body13 = Body (3., Vector3d (3.1, 3.2, 3.3), inertia1);
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Model reference1, custom1;
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Vector3d r1 = Vector3d(0.78,-0.125,0.37);
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double th1 = M_PI/6.0;
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double sinTh1 = sin(th1);
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double cosTh1 = cos(th1);
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Matrix3d rm1 = Matrix3d( 1.0, 0., 0.,
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0., cosTh1, -sinTh1,
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0., sinTh1, cosTh1);
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Vector3d r2 = Vector3d(-0.178,0.2125,-0.937);
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double th2 = M_PI/2.15;
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double sinTh2 = sin(th2);
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double cosTh2 = cos(th2);
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Matrix3d rm2 = Matrix3d( cosTh2, 0., sinTh2,
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0., 1., 0.,
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-sinTh2, 0., cosTh2);
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unsigned int reference_body_id10 =
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reference1.AddBody (0,
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SpatialTransform(),
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Joint(JointTypeRevoluteX),
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body11);
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unsigned int reference_body_id11 =
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reference1.AddBody (reference_body_id10,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body12);
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unsigned int reference_body_id12 =
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reference1.AddBody (reference_body_id11,
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SpatialTransform(rm2,r2),
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Joint(JointTypeRevoluteX),
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body13);
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unsigned int custom_body_id10 =
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custom1.AddBody ( 0,
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SpatialTransform(),
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Joint(JointTypeRevoluteX),
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body11);
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unsigned int custom_body_id11 =
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custom1.AddBody ( custom_body_id10,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body12);
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unsigned int custom_body_id12 =
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custom1.AddBodyCustomJoint ( custom_body_id11,
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SpatialTransform(rm2,r2),
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&custom_rx_joint1,
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body13);
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VectorNd q1 = VectorNd::Zero (reference1.q_size);
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VectorNd qdot1 = VectorNd::Zero (reference1.qdot_size);
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VectorNd qddot1 = VectorNd::Zero (reference1.qdot_size);
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VectorNd tau1 = VectorNd::Zero (reference1.qdot_size);
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int idx = 0;
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reference_model.at(idx) = (reference1);
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custom_model.at(idx) = (custom1);
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reference_body_id.at(idx).at(0) = (reference_body_id10);
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reference_body_id.at(idx).at(1) = (reference_body_id11);
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reference_body_id.at(idx).at(2) = (reference_body_id12);
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custom_body_id.at(idx).at(0) = (custom_body_id10);
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custom_body_id.at(idx).at(1) = (custom_body_id11);
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custom_body_id.at(idx).at(2) = (custom_body_id12);
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body.at(idx).at(0) = (body11);
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body.at(idx).at(1) = (body12);
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body.at(idx).at(2) = (body13);
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custom_joint.at(idx).at(0) = (&custom_rx_joint1);
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q.at(idx) = (q1);
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qdot.at(idx) = (qdot1);
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qddot.at(idx) = (qddot1);
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tau.at(idx) = (tau1);
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//========================================================
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//Test Model 2: Rx - custom - multidof3
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//========================================================
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Model reference2, custom2;
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unsigned int reference_body_id20 =
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reference2.AddBody (0,
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SpatialTransform(),
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Joint(JointTypeRevoluteX),
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body11);
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unsigned int reference_body_id21 =
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reference2.AddBody (reference_body_id20,
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SpatialTransform(rm2,r2),
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Joint(JointTypeRevoluteX),
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body12);
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unsigned int reference_body_id22 =
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reference2.AddBody (reference_body_id21,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body13);
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unsigned int custom_body_id20 =
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custom2.AddBody ( 0,
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SpatialTransform(),
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Joint(JointTypeRevoluteX),
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body11);
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unsigned int custom_body_id21 =
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custom2.AddBodyCustomJoint ( custom_body_id20,
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SpatialTransform(rm2,r2),
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&custom_rx_joint1,
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body12);
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unsigned int custom_body_id22 =
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custom2.AddBody ( custom_body_id21,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body13);
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VectorNd q2 = VectorNd::Zero (reference2.q_size);
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VectorNd qdot2 = VectorNd::Zero (reference2.qdot_size);
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VectorNd qddot2 = VectorNd::Zero (reference2.qdot_size);
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VectorNd tau2 = VectorNd::Zero (reference2.qdot_size);
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idx = 1;
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reference_model.at(idx) = (reference2);
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custom_model.at(idx) = (custom2);
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reference_body_id.at(idx).at(0) = (reference_body_id20);
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reference_body_id.at(idx).at(1) = (reference_body_id21);
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reference_body_id.at(idx).at(2) = (reference_body_id22);
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custom_body_id.at(idx).at(0) = (custom_body_id20);
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custom_body_id.at(idx).at(1) = (custom_body_id21);
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custom_body_id.at(idx).at(2) = (custom_body_id22);
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body.at(idx).at(0) = (body11);
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body.at(idx).at(1) = (body12);
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body.at(idx).at(2) = (body13);
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custom_joint.at(idx).at(0) = (&custom_rx_joint1);
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q.at(idx) = (q2);
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qdot.at(idx) = (qdot2);
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qddot.at(idx) = (qddot2);
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tau.at(idx) = (tau2);
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//========================================================
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//Test Model 3: custom - multidof3 - Rx
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//========================================================
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Model reference3, custom3;
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unsigned int reference_body_id30 =
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reference3.AddBody (0,
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SpatialTransform(),
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Joint(JointTypeRevoluteX),
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body11);
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unsigned int reference_body_id31 =
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reference3.AddBody (reference_body_id30,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body12);
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unsigned int reference_body_id32 =
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reference3.AddBody (reference_body_id31,
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SpatialTransform(rm2,r2),
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Joint(JointTypeRevoluteX),
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body13);
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unsigned int custom_body_id30 =
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custom3.AddBodyCustomJoint ( 0,
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SpatialTransform(),
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&custom_rx_joint1,
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body11);
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unsigned int custom_body_id31 =
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custom3.AddBody ( custom_body_id30,
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SpatialTransform(rm1,r1),
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Joint(JointTypeEulerZYX),
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body12);
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unsigned int custom_body_id32 =
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custom3.AddBody ( custom_body_id31,
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SpatialTransform(rm2,r2),
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Joint(JointTypeRevoluteX),
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body13);
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VectorNd q3 = VectorNd::Zero (reference3.q_size);
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VectorNd qdot3 = VectorNd::Zero (reference3.qdot_size);
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VectorNd qddot3 = VectorNd::Zero (reference3.qdot_size);
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VectorNd tau3 = VectorNd::Zero (reference3.qdot_size);
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idx = 2;
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reference_model.at(idx) = (reference3);
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custom_model.at(idx) = (custom3);
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reference_body_id.at(idx).at(0) = (reference_body_id30);
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reference_body_id.at(idx).at(1) = (reference_body_id31);
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reference_body_id.at(idx).at(2) = (reference_body_id32);
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custom_body_id.at(idx).at(0) = (custom_body_id30);
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custom_body_id.at(idx).at(1) = (custom_body_id31);
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custom_body_id.at(idx).at(2) = (custom_body_id32);
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body.at(idx).at(0) = (body11);
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body.at(idx).at(1) = (body12);
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body.at(idx).at(2) = (body13);
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custom_joint.at(idx).at(0) = (&custom_rx_joint1);
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q.at(idx) = (q3);
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qdot.at(idx) = (qdot3);
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qddot.at(idx) = (qddot3);
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tau.at(idx) = (tau3);
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}
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/*
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~CustomJointMultiBodyFixture () {
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}*/
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vector < Model > reference_model;
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vector < Model > custom_model;
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vector < vector < Body > > body;
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vector < vector < CustomJoint* > > custom_joint;
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vector < vector< unsigned int > > reference_body_id;
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vector < vector< unsigned int > > custom_body_id;
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vector < VectorNd > q;
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vector < VectorNd > qdot;
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vector < VectorNd > qddot;
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vector < VectorNd > tau;
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CustomJointTypeRevoluteX custom_rx_joint1;
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CustomJointTypeRevoluteX custom_rx_joint2;
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CustomJointTypeRevoluteX custom_rx_joint3;
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};
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//==============================================================================
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//
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// Tests
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// UpdateKinematicsCustom
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// Jacobians
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// InverseDynamics
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// CompositeRigidBodyAlgorithm
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// ForwardDynamics
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// CalcMInvTimestau
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// ForwardDynamicsContactsKokkevis
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//
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//==============================================================================
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TEST_FIXTURE ( CustomJointMultiBodyFixture, UpdateKinematics ) {
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VectorNd test;
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for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
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unsigned int dof = reference_model.at(idx).dof_count;
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for (unsigned int i = 0; i < dof ; i++) {
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q.at(idx)[i] = i * 0.1;
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qdot.at(idx)[i] = i * 0.15;
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qddot.at(idx)[i] = i * 0.17;
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}
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UpdateKinematics (reference_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx));
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UpdateKinematics (custom_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx));
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// Matrix3d Eref = reference_model.at(idx).X_base[
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// reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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// ].E;
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// Matrix3d Ecus = custom_model.at(idx).X_base[
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// custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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// ].E;
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// Matrix3d Eerr = Eref-Ecus;
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).X_base[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].E.data(),
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custom_model.at(idx).X_base[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].E.data(),
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9,
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TEST_PREC);
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).v[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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custom_model.at(idx).v[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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6,
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TEST_PREC);
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).a[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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custom_model.at(idx).a[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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6,
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TEST_PREC);
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}
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}
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TEST_FIXTURE (CustomJointMultiBodyFixture, UpdateKinematicsCustom) {
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for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
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unsigned int dof = reference_model.at(idx).dof_count;
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for (unsigned int i = 0; i < dof; i++) {
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q.at(idx)[i] = i * 9.133758561390194e-01;
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qdot.at(idx)[i] = i * 6.323592462254095e-01;
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qddot.at(idx)[i] = i * 9.754040499940952e-02;
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}
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UpdateKinematicsCustom (reference_model.at(idx),
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&q.at(idx), NULL, NULL);
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UpdateKinematicsCustom (custom_model.at(idx),
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&q.at(idx), NULL, NULL);
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).X_base[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].E.data(),
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custom_model.at(idx).X_base[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].E.data(),
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9,
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TEST_PREC);
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//velocity
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UpdateKinematicsCustom (reference_model.at(idx),
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&q.at(idx),
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&qdot.at(idx), NULL);
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UpdateKinematicsCustom (custom_model.at(idx),
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&q.at(idx),
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&qdot.at(idx), NULL);
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).v[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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custom_model.at(idx).v[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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6,
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TEST_PREC);
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//All
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UpdateKinematicsCustom (reference_model.at(idx),
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&q.at(idx),
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&qdot.at(idx),
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&qddot.at(idx));
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UpdateKinematicsCustom (custom_model.at(idx),
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&q.at(idx),
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&qdot.at(idx),
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&qddot.at(idx));
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CHECK_ARRAY_CLOSE (
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reference_model.at(idx).a[
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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custom_model.at(idx).a[
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1)
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].data(),
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6,
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TEST_PREC);
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}
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}
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TEST_FIXTURE (CustomJointMultiBodyFixture, Jacobians) {
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for(int idx = 0; idx < NUMBER_OF_MODELS; ++idx){
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unsigned int dof = reference_model.at(idx).dof_count;
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for (unsigned int i = 0; i < dof; i++) {
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q.at(idx)[i] = i * 9.133758561390194e-01;
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qdot.at(idx)[i] = i * 6.323592462254095e-01;
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qddot.at(idx)[i] = i * 9.754040499940952e-02;
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}
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//position
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UpdateKinematics (reference_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx));
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UpdateKinematics (custom_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx));
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//Check the Spatial Jacobian
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MatrixNd Gref = MatrixNd(
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MatrixNd::Zero(6,reference_model.at(idx).dof_count));
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MatrixNd Gcus = MatrixNd(
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MatrixNd::Zero(6,reference_model.at(idx).dof_count));
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CalcBodySpatialJacobian ( reference_model.at(idx),
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q.at(idx),
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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Gref);
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CalcBodySpatialJacobian ( custom_model.at(idx),
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q.at(idx),
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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Gcus);
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for(int i=0; i<6;++i){
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for(unsigned int j = 0; j < dof; ++j){
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CHECK_CLOSE (
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Gref(i,j),
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Gcus(i,j),
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TEST_PREC);
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}
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}
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//Check the 6d point Jacobian
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Vector3d point_position (1.1, 1.2, 2.1);
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CalcPointJacobian6D (reference_model.at(idx),
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q.at(idx),
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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point_position,
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Gref);
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CalcPointJacobian6D (custom_model.at(idx),
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q.at(idx),
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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point_position,
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Gcus);
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for(int i=0; i<6;++i){
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for(unsigned int j = 0; j < dof; ++j){
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CHECK_CLOSE (
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Gref(i,j),
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Gcus(i,j),
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TEST_PREC);
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}
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}
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//Check the 3d point Jacobian
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MatrixNd GrefPt = MatrixNd::Constant (3,
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reference_model.at(idx).dof_count,
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0.);
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MatrixNd GcusPt = MatrixNd::Constant (3,
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reference_model.at(idx).dof_count,
|
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0.);
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CalcPointJacobian (reference_model.at(idx),
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q.at(idx),
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reference_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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point_position,
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GrefPt);
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CalcPointJacobian (custom_model.at(idx),
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q.at(idx),
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custom_body_id.at(idx).at(NUMBER_OF_BODIES-1),
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point_position,
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GcusPt);
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for(int i=0; i<3;++i){
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for(unsigned int j = 0; j < dof; ++j){
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CHECK_CLOSE (
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GrefPt(i,j),
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GcusPt(i,j),
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TEST_PREC);
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}
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}
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}
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}
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TEST_FIXTURE (CustomJointMultiBodyFixture, InverseDynamics) {
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for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
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unsigned int dof = reference_model.at(idx).dof_count;
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for (unsigned int i = 0; i < dof; i++) {
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q.at(idx)[i] = i * 9.133758561390194e-01;
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qdot.at(idx)[i] = i * 6.323592462254095e-01;
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qddot.at(idx)[i] = i * 9.754040499940952e-02;
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}
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//position
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VectorNd tauRef = VectorNd::Zero (reference_model.at(idx).qdot_size);
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VectorNd tauCus = VectorNd::Zero (reference_model.at(idx).qdot_size);
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InverseDynamics(reference_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx),
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tauRef);
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InverseDynamics(custom_model.at(idx),
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q.at(idx),
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qdot.at(idx),
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qddot.at(idx),
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tauCus);
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VectorNd tauErr = tauRef-tauCus;
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CHECK_ARRAY_CLOSE (
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tauRef.data(),
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tauCus.data(),
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tauRef.rows(),
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|
TEST_PREC);
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|
}
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|
}
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|
|
TEST_FIXTURE (CustomJointMultiBodyFixture, CompositeRigidBodyAlgorithm) {
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for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
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unsigned int dof = reference_model.at(idx).dof_count;
|
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for (unsigned int i = 0; i < dof; i++) {
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q.at(idx)[i] = (i+0.1) * 9.133758561390194e-01;
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qdot.at(idx)[i] = (i+0.1) * 6.323592462254095e-01;
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tau.at(idx)[i] = (i+0.1) * 9.754040499940952e-02;
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}
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MatrixNd h_ref = MatrixNd::Constant (dof, dof, 0.);
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VectorNd c_ref = VectorNd::Constant (dof, 0.);
|
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VectorNd qddot_zero_ref = VectorNd::Constant (dof, 0.);
|
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VectorNd qddot_crba_ref = VectorNd::Constant (dof, 0.);
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|
|
MatrixNd h_cus = MatrixNd::Constant (dof, dof, 0.);
|
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VectorNd c_cus = VectorNd::Constant (dof, 0.);
|
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VectorNd qddot_zero_cus = VectorNd::Constant (dof, 0.);
|
|
VectorNd qddot_crba_cus = VectorNd::Constant (dof, 0.);
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|
|
VectorNd qddotRef = VectorNd::Zero (dof);
|
|
VectorNd qddotCus = VectorNd::Zero (dof);
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|
|
//Ref
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ForwardDynamics(reference_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
tau.at(idx),
|
|
qddotRef);
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|
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CompositeRigidBodyAlgorithm (reference_model.at(idx),
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|
q.at(idx),
|
|
h_ref);
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|
InverseDynamics (reference_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
qddot_zero_ref,
|
|
c_ref);
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|
|
LinSolveGaussElimPivot (h_ref,
|
|
c_ref * -1. + tau.at(idx),
|
|
qddot_crba_ref);
|
|
|
|
//Custom
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|
ForwardDynamics(custom_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
tau.at(idx),
|
|
qddotCus);
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|
|
CompositeRigidBodyAlgorithm (custom_model.at(idx),
|
|
q.at(idx),
|
|
h_cus);
|
|
|
|
InverseDynamics (custom_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
qddot_zero_cus,
|
|
c_cus);
|
|
|
|
LinSolveGaussElimPivot (h_cus,
|
|
c_cus * -1. + tau.at(idx),
|
|
qddot_crba_cus);
|
|
|
|
CHECK_ARRAY_CLOSE(qddot_crba_ref.data(),
|
|
qddot_crba_cus.data(),
|
|
dof,
|
|
TEST_PREC);
|
|
}
|
|
}
|
|
|
|
TEST_FIXTURE (CustomJointMultiBodyFixture, ForwardDynamics) {
|
|
|
|
for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
|
|
unsigned int dof = reference_model.at(idx).dof_count;
|
|
for (unsigned int i = 0; i < dof; i++) {
|
|
q.at(idx)[i] = (i+0.1) * 9.133758561390194e-01;
|
|
qdot.at(idx)[i] = (i+0.1) * 6.323592462254095e-01;
|
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qddot.at(idx)[i] = (i+0.1) * 2.323592499940952e-01;
|
|
tau.at(idx)[i] = (i+0.1) * 9.754040499940952e-02;
|
|
}
|
|
|
|
|
|
VectorNd qddotRef = VectorNd::Zero (reference_model.at(idx).qdot_size);
|
|
VectorNd qddotCus = VectorNd::Zero (reference_model.at(idx).qdot_size);
|
|
|
|
ForwardDynamics(reference_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
tau.at(idx),
|
|
qddotRef);
|
|
|
|
ForwardDynamics(custom_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
tau.at(idx),
|
|
qddotCus);
|
|
|
|
CHECK_ARRAY_CLOSE (
|
|
qddotRef.data(),
|
|
qddotCus.data(),
|
|
dof,
|
|
TEST_PREC);
|
|
}
|
|
|
|
}
|
|
|
|
TEST_FIXTURE (CustomJointMultiBodyFixture, CalcMInvTimestau) {
|
|
|
|
for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
|
|
unsigned int dof = reference_model.at(idx).dof_count;
|
|
for (unsigned int i = 0; i < dof; i++) {
|
|
q.at(idx)[i] = (i+0.1) * 9.133758561390194e-01;
|
|
tau.at(idx)[i] = (i+0.1) * 9.754040499940952e-02;
|
|
|
|
}
|
|
|
|
//reference
|
|
VectorNd qddot_minv_ref = VectorNd::Zero(dof);
|
|
|
|
CalcMInvTimesTau(reference_model.at(idx),
|
|
q.at(idx),
|
|
tau.at(idx),
|
|
qddot_minv_ref,
|
|
true);
|
|
|
|
//custom
|
|
VectorNd qddot_minv_cus = VectorNd::Zero(dof);
|
|
CalcMInvTimesTau(custom_model.at(idx),
|
|
q.at(idx),
|
|
tau.at(idx),
|
|
qddot_minv_cus,
|
|
true);
|
|
|
|
//check.
|
|
CHECK_ARRAY_CLOSE(qddot_minv_ref.data(),
|
|
qddot_minv_cus.data(),
|
|
dof,
|
|
TEST_PREC);
|
|
}
|
|
|
|
}
|
|
|
|
TEST_FIXTURE (CustomJointMultiBodyFixture, ForwardDynamicsContactsKokkevis){
|
|
|
|
for(int idx =0; idx < NUMBER_OF_MODELS; ++idx){
|
|
unsigned int dof = reference_model.at(idx).dof_count;
|
|
//Adding a 1 constraint to a system with 1 dof is
|
|
//a no-no
|
|
if(dof > 1){
|
|
|
|
for (unsigned int i = 0; i < dof; i++) {
|
|
q.at(idx)[i] = (i+0.1) * 9.133758561390194e-01;
|
|
qdot.at(idx)[i] = (i+0.1) * 6.323592462254095e-01;
|
|
tau.at(idx)[i] = (i+0.1) * 9.754040499940952e-02;
|
|
}
|
|
|
|
VectorNd qddot_ref = VectorNd::Zero(dof);
|
|
VectorNd qddot_cus = VectorNd::Zero(dof);
|
|
|
|
VectorNd qdot_plus_ref = VectorNd::Zero(dof);
|
|
VectorNd qdot_plus_cus = VectorNd::Zero(dof);
|
|
|
|
Vector3d contact_point ( 0., 1., 0.);
|
|
|
|
ConstraintSet constraint_set_ref;
|
|
ConstraintSet constraint_set_cus;
|
|
|
|
|
|
//Reference
|
|
constraint_set_ref.AddContactConstraint(
|
|
reference_body_id.at(idx).at(NUMBER_OF_BODIES-1),
|
|
contact_point,
|
|
Vector3d (1., 0., 0.),
|
|
"ground_x");
|
|
|
|
constraint_set_ref.AddContactConstraint(
|
|
reference_body_id.at(idx).at(NUMBER_OF_BODIES-1),
|
|
contact_point,
|
|
Vector3d (0., 1., 0.),
|
|
"ground_y");
|
|
|
|
constraint_set_ref.Bind (reference_model.at(idx));
|
|
|
|
//Custom
|
|
constraint_set_cus.AddContactConstraint(
|
|
custom_body_id.at(idx).at(NUMBER_OF_BODIES-1),
|
|
contact_point,
|
|
Vector3d (1., 0., 0.),
|
|
"ground_x");
|
|
|
|
constraint_set_cus.AddContactConstraint(
|
|
custom_body_id.at(idx).at(NUMBER_OF_BODIES-1),
|
|
contact_point,
|
|
Vector3d (0., 1., 0.),
|
|
"ground_y");
|
|
|
|
constraint_set_cus.Bind (custom_model.at(idx));
|
|
|
|
ComputeConstraintImpulsesDirect(reference_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
constraint_set_ref,
|
|
qdot_plus_ref);
|
|
|
|
ForwardDynamicsContactsKokkevis (reference_model.at(idx),
|
|
q.at(idx),
|
|
qdot_plus_ref,
|
|
tau.at(idx),
|
|
constraint_set_ref,
|
|
qddot_ref);
|
|
|
|
ComputeConstraintImpulsesDirect(custom_model.at(idx),
|
|
q.at(idx),
|
|
qdot.at(idx),
|
|
constraint_set_cus,
|
|
qdot_plus_cus);
|
|
|
|
ForwardDynamicsContactsKokkevis (custom_model.at(idx),
|
|
q.at(idx),
|
|
qdot_plus_cus,
|
|
tau.at(idx),
|
|
constraint_set_cus,
|
|
qddot_cus);
|
|
|
|
VectorNd qdot_plus_error = qdot_plus_ref - qdot_plus_cus;
|
|
VectorNd qddot_error = qddot_ref - qddot_cus;
|
|
|
|
CHECK_ARRAY_CLOSE (qdot_plus_ref.data(),
|
|
qdot_plus_cus.data(),
|
|
dof,
|
|
TEST_PREC);
|
|
|
|
CHECK_ARRAY_CLOSE (qddot_ref.data(),
|
|
qddot_cus.data(),
|
|
dof,
|
|
TEST_PREC);
|
|
}
|
|
}
|
|
|
|
}
|
|
|
|
//
|
|
//Completed?
|
|
// x : implement test for UpdateKinematicsCustom
|
|
// x : implement test for Jacobians
|
|
// x : implement test for InverseDynamics
|
|
// x : implement test for CompositeRigidBodyAlgorithm
|
|
// x : implement test for ForwardDynamics
|
|
// x : implement test for CalcMInvTimestau
|
|
// x : implement test for ForwardDynamicsContactsKokkevis
|