35 Base(model, key), p_(
Rot3::Logmap(P)), z_(
Rot3::Logmap(Z)) {
44 void print(
const std::string&
s =
"",
47 std::cout <<
"RotateFactor:]\n";
48 std::cout <<
"p: " << p_.transpose() << std::endl;
49 std::cout <<
"z: " << z_.transpose() << std::endl;
54 boost::optional<Matrix&>
H = boost::none)
const override {
58 return (
Vector(3) << q.x()-p_.x(), q.y()-p_.y(), q.z()-p_.z()).finished();
79 Base(model, key), i_p_(i_p), c_z_(c_z) {
96 void print(
const std::string&
s =
"",
99 std::cout <<
"RotateDirectionsFactor:" << std::endl;
106 Unit3 i_q = iRc * c_z_;
double error(const Values &c) const override
RotateDirectionsFactor This
RotateDirectionsFactor(Key key, const Unit3 &i_p, const Unit3 &c_z, const SharedNoiseModel &model)
Constructor.
noiseModel::Diagonal::shared_ptr model
Vector evaluateError(const Rot3 &R, boost::optional< Matrix & > H=boost::none) const override
vector of errors returns 2D vector
static const Rot3 iRc(cameraX, cameraY, cameraZ)
Rot2 R(Rot2::fromAngle(0.1))
GTSAM_EXPORT Vector3 unitVector(OptionalJacobian< 3, 2 > H=boost::none) const
Return unit-norm Vector.
void print(const std::string &s="", const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
print
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gtsam::NonlinearFactor::shared_ptr clone() const override
gtsam::NonlinearFactor::shared_ptr clone() const override
Point3 rotate(const Point3 &p, OptionalJacobian< 3, 3 > H1=boost::none, OptionalJacobian< 3, 3 > H2=boost::none) const
static const KeyFormatter DefaultKeyFormatter
RotateFactor(Key key, const Rot3 &P, const Rot3 &Z, const SharedNoiseModel &model)
Constructor.
EIGEN_DEVICE_FUNC Derived & setFromTwoVectors(const MatrixBase< Derived1 > &a, const MatrixBase< Derived2 > &b)
Represents a 3D point on a unit sphere.
void print(const std::string &s="", const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
print
Point3 z_
Predicted and measured directions, p = iRc * z.
boost::shared_ptr< This > shared_ptr
std::function< std::string(Key)> KeyFormatter
Typedef for a function to format a key, i.e. to convert it to a string.
EIGEN_DEVICE_FUNC const Scalar & q
GTSAM_EXPORT Vector2 error(const Unit3 &q, OptionalJacobian< 2, 2 > H_q=boost::none) const
Vector evaluateError(const Rot3 &iRc, boost::optional< Matrix & > H=boost::none) const override
vector of errors returns 2D vector
GTSAM_EXPORT void print(const std::string &s=std::string()) const
The print fuction.
void print(const std::string &s="", const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
Non-linear factor base classes.
The quaternion class used to represent 3D orientations and rotations.
NoiseModelFactor1< Rot3 > Base
#define GTSAM_MAKE_ALIGNED_OPERATOR_NEW
std::uint64_t Key
Integer nonlinear key type.
static Rot3 Initialize(const Unit3 &i_p, const Unit3 &c_z)
Initialize rotation iRc such that i_p = iRc * c_z.
NoiseModelFactor1< Rot3 > Base
noiseModel::Base::shared_ptr SharedNoiseModel
3D rotation represented as a rotation matrix or quaternion