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gtsam/gtsam_unstable/geometry/tests/testSimilarity3.cpp

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/* ----------------------------------------------------------------------------
* GTSAM Copyright 2010, Georgia Tech Research Corporation,
* Atlanta, Georgia 30332-0415
* All Rights Reserved
* Authors: Frank Dellaert, et al. (see THANKS for the full author list)
* See LICENSE for the license information
* -------------------------------------------------------------------------- */
/**
* @file testSimilarity3.cpp
* @brief Unit tests for Similarity3 class
*/
#include <gtsam/geometry/Rot3.h>
#include <gtsam/geometry/Point3.h>
#include <gtsam/base/Manifold.h>
namespace gtsam {
/**
* 3D similarity transform
*/
class Similarity3: public LieGroup<Similarity3, 7> {
/** Pose Concept requirements */
typedef Rot3 Rotation;
typedef Point3 Translation;
private:
Rot3 R_;
Point3 t_;
double s_;
public:
/// Construct from Eigen types
Similarity3(const Matrix3& R, const Vector3& t, double s) {
R_ = R;
t_ = t;
s_ = s;
}
/// Return the translation
const Vector3 t() const {
return t_.vector();
}
/// Return the rotation matrix
const Matrix3 R() const {
return R_.matrix();
}
public:
Similarity3() :
R_(), t_(), s_(1){
}
/// Construct pure scaling
Similarity3(double s) {
s_ = s;
}
/// Construct from GTSAM types
Similarity3(const Rot3& R, const Point3& t, double s) {
R_ = R;
t_ = t;
s_ = s;
}
bool operator==(const Similarity3& other) const {
return (R_.equals(other.R_)) && (t_ == other.t_) && (s_ == other.s_);
}
/// Compare with tolerance
bool equals(const Similarity3& sim, double tol) const {
return rotation().equals(sim.rotation(), tol) && translation().equals(sim.translation(), tol)
&& scale() < (sim.scale()+tol) && scale() > (sim.scale()-tol);
}
Point3 transform_from(const Point3& p) const {
/*if (Dpose) {
const Matrix3 R = R_.matrix();
Matrix3 DR = R * skewSymmetric(-p.x(), -p.y(), -p.z());
(*Dpose) << DR, R;
}
if (Dpoint)
*Dpoint = R_.matrix();*/
return R_ * (s_ * p) + t_;
}
Matrix7 AdjointMap() const{
const Matrix3 R = R_.matrix();
const Vector3 t = t_.vector();
Matrix3 A = s_ * skewSymmetric(t) * R;
Matrix7 adj;
adj << s_*R, A, -s_*t, Z_3x3, R, Eigen::Matrix<double, 3, 1>::Zero(), Eigen::Matrix<double, 1, 6>::Zero(), 1;
return adj;
}
/** syntactic sugar for transform_from */
inline Point3 operator*(const Point3& p) const {
return transform_from(p);
}
Similarity3 inverse() const {
Rot3 Rt = R_.inverse();
Point3 sRt = R_.inverse() * (-s_ * t_);
return Similarity3(Rt, sRt, 1.0/s_);
}
Similarity3 operator*(const Similarity3& T) const {
return Similarity3(R_ * T.R_, ((1.0/T.s_)*t_) + R_ * T.t_, s_*T.s_);
}
void print(const std::string& s) const {
std::cout << std::endl;
std::cout << s;
rotation().print("R:\n");
translation().print("t: ");
std::cout << "s: " << scale() << std::endl;
}
/// @name Manifold
/// @{
/// Dimensionality of tangent space = 7 DOF - used to autodetect sizes
inline static size_t Dim() {
return 7;
}
/// Dimensionality of tangent space = 7 DOF
inline size_t dim() const {
return 7;
}
/// Return the rotation matrix
Rot3 rotation() const {
return R_;
}
/// Return the translation
Point3 translation() const {
return t_;
}
/// Return the scale
double scale() const {
return s_;
}
/// Update Similarity transform via 7-dim vector in tangent space
struct ChartAtOrigin {
static Similarity3 Retract(const Vector7& v, ChartJacobian H = boost::none) {
// Will retracting or localCoordinating R work if R is not a unit rotation?
// Also, how do we actually get s out? Seems like we need to store it somewhere.
Rot3 r; //Create a zero rotation to do our retraction.
return Similarity3( //
r.retract(v.head<3>()), // retract rotation using v[0,1,2]
Point3(v.segment<3>(3)), // Retract the translation
1.0 + v[6]); //finally, update scale using v[6]
}
/// 7-dimensional vector v in tangent space that makes other = this->retract(v)
static Vector7 Local(const Similarity3& other, ChartJacobian H = boost::none) {
Rot3 r; //Create a zero rotation to do the retraction
Vector7 v;
v.head<3>() = r.localCoordinates(other.R_);
v.segment<3>(3) = other.t_.vector();
//v.segment<3>(3) = translation().localCoordinates(other.translation());
v[6] = other.s_ - 1.0;
return v;
}
};
using LieGroup<Similarity3, 7>::inverse; // version with derivative
/// @}
/// @name Lie Group
/// @{
// compose T1*T2
// between T2*inverse(T1)
// identity I4
// inverse inverse(T)
/// @}
};
template<>
struct traits<Similarity3> : public internal::LieGroupTraits<Similarity3> {};
}
#include <gtsam/inference/Symbol.h>
#include <gtsam/slam/PriorFactor.h>
#include <gtsam/nonlinear/NonlinearFactorGraph.h>
#include <gtsam/nonlinear/Values.h>
#include <gtsam/nonlinear/LevenbergMarquardtOptimizer.h>
#include <gtsam/base/Testable.h>
#include <CppUnitLite/TestHarness.h>
using namespace gtsam;
using namespace std;
GTSAM_CONCEPT_TESTABLE_INST(Similarity3)
static Point3 P(0.2,0.7,-2);
static Rot3 R = Rot3::rodriguez(0.3,0,0);
static Similarity3 T(R,Point3(3.5,-8.2,4.2),1);
static Similarity3 T2(Rot3::rodriguez(0.3,0.2,0.1),Point3(3.5,-8.2,4.2),1);
static Similarity3 T3(Rot3::rodriguez(-90, 0, 0), Point3(1, 2, 3), 1);
//******************************************************************************
TEST(Similarity3, Constructors) {
Similarity3 test;
}
//******************************************************************************
TEST(Similarity3, Getters) {
Similarity3 test;
EXPECT(assert_equal(Rot3(), test.rotation()));
EXPECT(assert_equal(Point3(), test.translation()));
EXPECT_DOUBLES_EQUAL(1.0, test.scale(), 1e-9);
}
//******************************************************************************
TEST(Similarity3, Getters2) {
Similarity3 test(Rot3::ypr(1, 2, 3), Point3(4, 5, 6), 7);
EXPECT(assert_equal(Rot3::ypr(1, 2, 3), test.rotation()));
EXPECT(assert_equal(Point3(4, 5, 6), test.translation()));
EXPECT_DOUBLES_EQUAL(7.0, test.scale(), 1e-9);
}
TEST(Similarity3, AdjointMap) {
Similarity3 test(Rot3::ypr(1,2,3).inverse(), Point3(4,5,6), 7);
Matrix7 result;
result << -1.5739, -2.4512, -6.3651, -50.7671, -11.2503, 16.8859, -28.0000,
6.3167, -2.9884, -0.4111, 0.8502, 8.6373, -49.7260, -35.0000,
-2.5734, -5.8362, 2.8839, 33.1363, 0.3024, 30.1811, -42.0000,
0, 0, 0, -0.2248, -0.3502, -0.9093, 0,
0, 0, 0, 0.9024, -0.4269, -0.0587, 0,
0, 0, 0, -0.3676, -0.8337, 0.4120, 0,
0, 0, 0, 0, 0, 0, 1.0000;
EXPECT(assert_equal(result, test.AdjointMap(), 1e-3));
}
TEST(Similarity3, inverse) {
Similarity3 test(Rot3::ypr(1,2,3).inverse(), Point3(4,5,6), 7);
Matrix3 Re;
Re << -0.2248, 0.9024, -0.3676,
-0.3502, -0.4269, -0.8337,
-0.9093, -0.0587, 0.4120;
Vector3 te(-9.8472, 59.7640, 10.2125);
Similarity3 expected(Re, te, 1.0/7.0);
EXPECT(assert_equal(expected, test.inverse(), 1e-3));
}
TEST(Similarity3, multiplication) {
Similarity3 test1(Rot3::ypr(1,2,3).inverse(), Point3(4,5,6), 7);
Similarity3 test2(Rot3::ypr(1,2,3).inverse(), Point3(8,9,10), 11);
Matrix3 re;
re << 0.0688, 0.9863, -0.1496,
-0.5665, -0.0848, -0.8197,
-0.8211, 0.1412, 0.5530;
Vector3 te(-13.6797, 3.2441, -5.7794);
Similarity3 expected(re, te, 77);
EXPECT(assert_equal(expected, test1*test2, 1e-2));
}
//******************************************************************************
TEST(Similarity3, Manifold) {
EXPECT_LONGS_EQUAL(7, Similarity3::Dim());
Vector z = Vector7::Zero();
Similarity3 sim;
EXPECT(sim.retract(z) == sim);
Vector7 v = Vector7::Zero();
v(6) = 2;
Similarity3 sim2;
EXPECT(sim2.retract(z) == sim2);
EXPECT(assert_equal(z, sim2.localCoordinates(sim)));
Similarity3 sim3 = Similarity3(Rot3(), Point3(1, 2, 3), 1);
Vector v3(7);
v3 << 0, 0, 0, 1, 2, 3, 0;
EXPECT(assert_equal(v3, sim2.localCoordinates(sim3)));
// Similarity3 other = Similarity3(Rot3::ypr(0.01, 0.02, 0.03), Point3(0.4, 0.5, 0.6), 1);
Similarity3 other = Similarity3(Rot3::ypr(0.1, 0.2, 0.3),Point3(4,5,6),1);
Vector vlocal = sim.localCoordinates(other);
EXPECT(assert_equal(sim.retract(vlocal), other, 1e-2));
Similarity3 other2 = Similarity3(Rot3::ypr(0.3, 0, 0),Point3(4,5,6),1);
Rot3 R = Rot3::rodriguez(0.3,0,0);
Vector vlocal2 = sim.localCoordinates(other2);
EXPECT(assert_equal(sim.retract(vlocal2), other2, 1e-2));
// TODO add unit tests for retract and localCoordinates
}
/* ************************************************************************* */
TEST( Similarity3, retract_first_order)
{
Similarity3 id;
Vector v = zero(7);
v(0) = 0.3;
EXPECT(assert_equal(Similarity3(R, Point3(), 1), id.retract(v),1e-2));
v(3)=0.2;v(4)=0.7;v(5)=-2;
EXPECT(assert_equal(Similarity3(R, P, 1),id.retract(v),1e-2));
}
/* ************************************************************************* */
TEST(Similarity3, localCoordinates_first_order)
{
Vector d12 = repeat(7,0.1);
d12(6) = 1.0;
Similarity3 t1 = T, t2 = t1.retract(d12);
EXPECT(assert_equal(d12, t1.localCoordinates(t2)));
}
/* ************************************************************************* */
TEST(Similarity3, manifold_first_order)
{
Similarity3 t1 = T;
Similarity3 t2 = T3;
Similarity3 origin;
Vector d12 = t1.localCoordinates(t2);
EXPECT(assert_equal(t2, t1.retract(d12)));
Vector d21 = t2.localCoordinates(t1);
EXPECT(assert_equal(t1, t2.retract(d21)));
}
TEST(Similarity3, Optimization) {
Similarity3 prior = Similarity3(Rot3::ypr(0.1, 0.2, 0.3), Point3(1, 2, 3), 4);
//prior.print("Goal Transform");
noiseModel::Isotropic::shared_ptr model = noiseModel::Isotropic::Sigma(7, 1);
Symbol key('x',1);
PriorFactor<Similarity3> factor(key, prior, model);
NonlinearFactorGraph graph;
graph.push_back(factor);
//graph.print("Full Graph");
Values initial;
initial.insert<Similarity3>(key, Similarity3());
//initial.print("Initial Estimate");
Values result;
LevenbergMarquardtParams params;
params.setVerbosityLM("TRYCONFIG");
result = LevenbergMarquardtOptimizer(graph, initial).optimize();
//result.print("Optimized Estimate");
EXPECT(assert_equal(prior, result.at<Similarity3>(key), 1e-4));
}
//******************************************************************************
int main() {
TestResult tr;
return TestRegistry::runAllTests(tr);
}
//******************************************************************************
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