Initial check-in
Frank Dellaert
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ff9a399117
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f6ed30d498
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/*
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* @file FundamentalMatrix.h
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* @brief FundamentalMatrix class
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* @author Frank Dellaert
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* @date Oct 23, 2024
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*/
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#pragma once
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#include <gtsam/geometry/Rot3.h>
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#include <gtsam/geometry/Unit3.h>
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namespace gtsam {
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class FundamentalMatrix {
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private:
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Rot3 U_; ///< Left rotation
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double s_; ///< Scalar parameter for S
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Rot3 V_; ///< Right rotation
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public:
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/// Default constructor
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FundamentalMatrix() : U_(Rot3()), s_(1.0), V_(Rot3()) {}
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/// Construct from U, V, and scalar s
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FundamentalMatrix(const Rot3& U, double s, const Rot3& V)
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: U_(U), s_(s), V_(V) {}
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/// Return the fundamental matrix representation
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Matrix3 matrix() const {
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return U_.matrix() * Vector3(1, s_, 1).asDiagonal() *
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V_.transpose().matrix();
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}
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/// @name Testable
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/// @{
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/// Print the FundamentalMatrix
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void print(const std::string& s = "") const {
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std::cout << s << "U:\n"
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<< U_.matrix() << "\ns: " << s_ << "\nV:\n"
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<< V_.matrix() << std::endl;
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}
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/// Check if the FundamentalMatrix is equal to another within a tolerance
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bool equals(const FundamentalMatrix& other, double tol = 1e-9) const {
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return U_.equals(other.U_, tol) && std::abs(s_ - other.s_) < tol &&
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V_.equals(other.V_, tol);
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}
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/// @}
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/// @name Manifold
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/// @{
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enum { dimension = 7 }; // 3 for U, 1 for s, 3 for V
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inline static size_t Dim() { return dimension; }
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inline size_t dim() const { return dimension; }
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/// Return local coordinates with respect to another FundamentalMatrix
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Vector localCoordinates(const FundamentalMatrix& F) const {
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Vector result(7);
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result.head<3>() = U_.localCoordinates(F.U_);
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result(3) = F.s_ - s_; // Difference in scalar
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result.tail<3>() = V_.localCoordinates(F.V_);
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return result;
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}
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/// Retract the given vector to get a new FundamentalMatrix
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FundamentalMatrix retract(const Vector& delta) const {
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Rot3 newU = U_.retract(delta.head<3>());
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double newS = s_ + delta(3); // Update scalar
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Rot3 newV = V_.retract(delta.tail<3>());
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return FundamentalMatrix(newU, newS, newV);
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}
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/// @}
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};
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template <>
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struct traits<FundamentalMatrix>
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: public internal::Manifold<FundamentalMatrix> {};
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} // namespace gtsam
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/*
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* @file testFundamentalMatrix.cpp
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* @brief Test FundamentalMatrix class
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* @author Frank Dellaert
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* @date October 23, 2024
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*/
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#include <CppUnitLite/TestHarness.h>
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#include <gtsam/base/Testable.h>
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#include <gtsam/base/numericalDerivative.h>
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#include <gtsam/geometry/FundamentalMatrix.h>
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#include <gtsam/geometry/Rot3.h>
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#include <gtsam/geometry/Unit3.h>
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using namespace std::placeholders;
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using namespace std;
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using namespace gtsam;
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GTSAM_CONCEPT_TESTABLE_INST(FundamentalMatrix)
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GTSAM_CONCEPT_MANIFOLD_INST(FundamentalMatrix)
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//*************************************************************************
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// Create two rotations and corresponding fundamental matrix F
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Rot3 trueU = Rot3::Yaw(M_PI_2);
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Rot3 trueV = Rot3::Yaw(M_PI_4);
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double trueS = 0.5;
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FundamentalMatrix trueF(trueU, trueS, trueV);
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//*************************************************************************
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TEST(FundamentalMatrix, localCoordinates) {
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Vector expected = Z_7x1; // Assuming 7 dimensions for U, V, and s
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Vector actual = trueF.localCoordinates(trueF);
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EXPECT(assert_equal(expected, actual, 1e-8));
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}
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//*************************************************************************
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TEST(FundamentalMatrix, retract) {
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FundamentalMatrix actual = trueF.retract(Z_7x1);
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EXPECT(assert_equal(trueF, actual));
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}
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//*************************************************************************
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TEST(FundamentalMatrix, RoundTrip) {
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Vector7 d;
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d << 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7;
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FundamentalMatrix hx = trueF.retract(d);
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Vector actual = trueF.localCoordinates(hx);
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EXPECT(assert_equal(d, actual, 1e-8));
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}
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//*************************************************************************
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int main() {
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TestResult tr;
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return TestRegistry::runAllTests(tr);
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}
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/* ************************************************************************* */
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