TriangulationFactor.h
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1 /* ----------------------------------------------------------------------------
2 
3  * GTSAM Copyright 2010, Georgia Tech Research Corporation,
4  * Atlanta, Georgia 30332-0415
5  * All Rights Reserved
6  * Authors: Frank Dellaert, et al. (see THANKS for the full author list)
7 
8  * See LICENSE for the license information
9 
10  * -------------------------------------------------------------------------- */
11 
18 #pragma once
19 
20 #include <gtsam/nonlinear/NonlinearFactor.h>
21 #include <gtsam/geometry/CalibratedCamera.h>
22 
23 namespace gtsam {
24 
30 template<class CAMERA>
31 class TriangulationFactor: public NoiseModelFactorN<Point3> {
32 
33 public:
34 
36  using Camera = CAMERA;
37 
38 protected:
39 
41  using Base = NoiseModelFactorN<Point3>;
42 
44  using This = TriangulationFactor<CAMERA>;
45 
47  using Measurement = typename CAMERA::Measurement;
48 
49  // Keep a copy of measurement and calibration for I/O
50  const CAMERA camera_;
51  const Measurement measured_;
52 
53  // verbosity handling for Cheirality Exceptions
54  const bool throwCheirality_;
55  const bool verboseCheirality_;
56 
57 public:
58  EIGEN_MAKE_ALIGNED_OPERATOR_NEW
59 
61  using shared_ptr = std::shared_ptr<This>;
62 
63  // Provide access to the Matrix& version of evaluateError:
64  using NoiseModelFactor1<Point3>::evaluateError;
65 
67  TriangulationFactor() :
68  throwCheirality_(false), verboseCheirality_(false) {
69  }
70 
80  TriangulationFactor(const CAMERA& camera, const Measurement& measured,
81  const SharedNoiseModel& model, Key pointKey, bool throwCheirality = false,
82  bool verboseCheirality = false) :
83  Base(model, pointKey), camera_(camera), measured_(measured), throwCheirality_(
84  throwCheirality), verboseCheirality_(verboseCheirality) {
85  if (model && model->dim() != traits<Measurement>::dimension)
86  throw std::invalid_argument(
87  "TriangulationFactor must be created with "
88  + std::to_string((int) traits<Measurement>::dimension)
89  + "-dimensional noise model.");
90  }
91 
93  ~TriangulationFactor() override {
94  }
95 
97  gtsam::NonlinearFactor::shared_ptr clone() const override {
98  return std::static_pointer_cast<gtsam::NonlinearFactor>(
99  gtsam::NonlinearFactor::shared_ptr(new This(*this)));
100  }
101 
107  void print(const std::string& s = "", const KeyFormatter& keyFormatter =
108  DefaultKeyFormatter) const override {
109  std::cout << s << "TriangulationFactor,";
110  camera_.print("camera");
111  traits<Measurement>::Print(measured_, "z");
112  Base::print("", keyFormatter);
113  }
114 
116  bool equals(const NonlinearFactor& p, double tol = 1e-9) const override {
117  const This *e = dynamic_cast<const This*>(&p);
118  return e && Base::equals(p, tol) && this->camera_.equals(e->camera_, tol)
119  && traits<Measurement>::Equals(this->measured_, e->measured_, tol);
120  }
121 
123  Vector evaluateError(const Point3& point, OptionalMatrixType H2) const override {
124  try {
125  return traits<Measurement>::Local(measured_, camera_.project2(point, OptionalNone, H2));
126  } catch (CheiralityException& e) {
127  if (H2)
128  *H2 = Matrix::Zero(traits<Measurement>::dimension, 3);
129  if (verboseCheirality_)
130  std::cout << e.what() << ": Landmark "
131  << DefaultKeyFormatter(this->key()) << " moved behind camera"
132  << std::endl;
133  if (throwCheirality_)
134  throw e;
135  return camera_.defaultErrorWhenTriangulatingBehindCamera();
136  }
137  }
138 
140  mutable VerticalBlockMatrix Ab;
141  mutable Matrix A;
142  mutable Vector b;
143 
149  std::shared_ptr<GaussianFactor> linearize(const Values& x) const override {
150  // Only linearize if the factor is active
151  if (!this->active(x))
152  return std::shared_ptr<JacobianFactor>();
153 
154  // Allocate memory for Jacobian factor, do only once
155  if (Ab.rows() == 0) {
156  std::vector<size_t> dimensions(1, 3);
157  Ab = VerticalBlockMatrix(dimensions, traits<Measurement>::dimension, true);
158  A.resize(traits<Measurement>::dimension,3);
159  b.resize(traits<Measurement>::dimension);
160  }
161 
162  // Would be even better if we could pass blocks to project
163  const Point3& point = x.at<Point3>(key());
164  b = traits<Measurement>::Local(camera_.project2(point, {}, A), measured_);
165  if (noiseModel_)
166  this->noiseModel_->WhitenSystem(A, b);
167 
168  Ab(0) = A;
169  Ab(1) = b;
170 
171  return std::make_shared<JacobianFactor>(this->keys_, Ab);
172  }
173 
175  const Measurement& measured() const {
176  return measured_;
177  }
178 
180  inline bool verboseCheirality() const {
181  return verboseCheirality_;
182  }
183 
185  inline bool throwCheirality() const {
186  return throwCheirality_;
187  }
188 
189 private:
190 
191 #ifdef GTSAM_ENABLE_BOOST_SERIALIZATION
192  friend class boost::serialization::access;
194  template<class ARCHIVE>
195  void serialize(ARCHIVE & ar, const unsigned int /*version*/) {
196  ar & BOOST_SERIALIZATION_BASE_OBJECT_NVP(Base);
197  ar & BOOST_SERIALIZATION_NVP(camera_);
198  ar & BOOST_SERIALIZATION_NVP(measured_);
199  ar & BOOST_SERIALIZATION_NVP(throwCheirality_);
200  ar & BOOST_SERIALIZATION_NVP(verboseCheirality_);
201  }
202 #endif
203 };
204 } // \ namespace gtsam
205 
gtsam::NonlinearFactor::shared_ptr
std::shared_ptr< This > shared_ptr
Definition: NonlinearFactor.h:78
gtsam::TriangulationFactor::TriangulationFactor
TriangulationFactor(const CAMERA &camera, const Measurement &measured, const SharedNoiseModel &model, Key pointKey, bool throwCheirality=false, bool verboseCheirality=false)
Definition: TriangulationFactor.h:80
dimensions
const std::vector< size_t > dimensions
Definition: testVerticalBlockMatrix.cpp:27
pointKey
const gtsam::Key pointKey
Definition: testRelativeElevationFactor.cpp:25
gtsam::TriangulationFactor::verboseCheirality
bool verboseCheirality() const
Definition: TriangulationFactor.h:180
gtsam::TriangulationFactor
Definition: TriangulationFactor.h:31
s
RealScalar s
Definition: level1_cplx_impl.h:126
e
Array< double, 1, 3 > e(1./3., 0.5, 2.)
Camera
Definition: camera.h:36
gtsam::TriangulationFactor::throwCheirality_
const bool throwCheirality_
If true, rethrows Cheirality exceptions (default: false)
Definition: TriangulationFactor.h:54
x
set noclip points set clip one set noclip two set bar set border lt lw set xdata set ydata set zdata set x2data set y2data set boxwidth set dummy x
Definition: gnuplot_common_settings.hh:12
gtsam::Matrix
Eigen::MatrixXd Matrix
Definition: base/Matrix.h:39
gtsam::Factor
Definition: Factor.h:69
gtsam::NoiseModelFactor::noiseModel_
SharedNoiseModel noiseModel_
Definition: NonlinearFactor.h:205
gtsam::Factor::shared_ptr
std::shared_ptr< Factor > shared_ptr
A shared_ptr to this class.
Definition: Factor.h:75
gtsam::NonlinearFactor::active
virtual bool active(const Values &) const
Definition: NonlinearFactor.h:141
gtsam::Vector
Eigen::VectorXd Vector
Definition: Vector.h:38
CalibratedCamera.h
Calibrated camera for which only pose is unknown.
gtsam::TriangulationFactor::b
Vector b
Definition: TriangulationFactor.h:142
gtsam::TriangulationFactor::measured
const Measurement & measured() const
Definition: TriangulationFactor.h:175
gtsam::DefaultKeyFormatter
KeyFormatter DefaultKeyFormatter
Assign default key formatter.
Definition: Key.cpp:30
gtsam::CheiralityException
Definition: CalibratedCamera.h:34
gtsam::TriangulationFactor::This
TriangulationFactor< CAMERA > This
shorthand for this class
Definition: TriangulationFactor.h:44
gtsam::TriangulationFactor::camera_
const CAMERA camera_
CAMERA in which this landmark was seen.
Definition: TriangulationFactor.h:50
gtsam::TriangulationFactor::evaluateError
Vector evaluateError(const Point3 &point, OptionalMatrixType H2) const override
Evaluate error h(x)-z and optionally derivatives.
Definition: TriangulationFactor.h:123
gtsam::TriangulationFactor::verboseCheirality_
const bool verboseCheirality_
If true, prints text for Cheirality exceptions (default: false)
Definition: TriangulationFactor.h:55
simulated2D::Measurement
GenericMeasurement< Point2, Point2 > Measurement
Definition: simulated2D.h:278
gtsam_unstable.tests.test_ProjectionFactorRollingShutter.point
point
Definition: test_ProjectionFactorRollingShutter.py:25
gtsam::TriangulationFactor::measured_
const Measurement measured_
2D measurement
Definition: TriangulationFactor.h:51
gtsam::TriangulationFactor::A
Matrix A
Definition: TriangulationFactor.h:141
gtsam::TriangulationFactor::TriangulationFactor
TriangulationFactor()
Default constructor.
Definition: TriangulationFactor.h:67
A
Definition: test_numpy_dtypes.cpp:298
gtsam::VerticalBlockMatrix
Definition: VerticalBlockMatrix.h:42
gtsam::TriangulationFactor::clone
gtsam::NonlinearFactor::shared_ptr clone() const override
Definition: TriangulationFactor.h:97
OptionalNone
#define OptionalNone
Definition: NonlinearFactor.h:49
gtsam::KeyFormatter
std::function< std::string(Key)> KeyFormatter
Typedef for a function to format a key, i.e. to convert it to a string.
Definition: Key.h:35
gtsam::NoiseModelFactorN
Definition: NonlinearFactor.h:431
gtsam::NoiseModelFactor::print
void print(const std::string &s="", const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
Definition: NonlinearFactor.cpp:72
gtsam::TriangulationFactor::equals
bool equals(const NonlinearFactor &p, double tol=1e-9) const override
equals
Definition: TriangulationFactor.h:116
gtsam::NoiseModelFactor::equals
bool equals(const NonlinearFactor &f, double tol=1e-9) const override
Definition: NonlinearFactor.cpp:80
gtsam::TriangulationFactor::print
void print(const std::string &s="", const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
Definition: TriangulationFactor.h:107
gtsam::SharedNoiseModel
noiseModel::Base::shared_ptr SharedNoiseModel
Definition: NoiseModel.h:741
EIGEN_MAKE_ALIGNED_OPERATOR_NEW
#define EIGEN_MAKE_ALIGNED_OPERATOR_NEW
Definition: Memory.h:841
model
noiseModel::Diagonal::shared_ptr model
Definition: doc/Code/Pose2SLAMExample.cpp:7
NonlinearFactor.h
Non-linear factor base classes.
gtsam::TriangulationFactor::linearize
std::shared_ptr< GaussianFactor > linearize(const Values &x) const override
Definition: TriangulationFactor.h:149
gtsam::TriangulationFactor::Measurement
typename CAMERA::Measurement Measurement
shorthand for measurement type, e.g. Point2 or StereoPoint2
Definition: TriangulationFactor.h:47
gtsam
traits
Definition: chartTesting.h:28
gtsam::Factor::keys_
KeyVector keys_
The keys involved in this factor.
Definition: Factor.h:87
gtsam::traits
Definition: Group.h:36
gtsam::TriangulationFactor::Ab
VerticalBlockMatrix Ab
thread-safe (?) scratch memory for linearize
Definition: TriangulationFactor.h:140
gtsam::Values
Definition: Values.h:65
gtsam::NonlinearFactor
Definition: NonlinearFactor.h:68
gtsam::TriangulationFactor::throwCheirality
bool throwCheirality() const
Definition: TriangulationFactor.h:185
p
float * p
Definition: Tutorial_Map_using.cpp:9
gtsam::Print
void Print(const CONTAINER &keys, const string &s, const KeyFormatter &keyFormatter)
Definition: Key.cpp:65
gtsam::VerticalBlockMatrix::rows
DenseIndex rows() const
Row size.
Definition: VerticalBlockMatrix.h:115
gtsam::tol
const G double tol
Definition: Group.h:79
gtsam::Point3
Vector3 Point3
Definition: Point3.h:38
gtsam::OptionalMatrixType
Matrix * OptionalMatrixType
Definition: NonlinearFactor.h:55
gtsam::TriangulationFactor::~TriangulationFactor
~TriangulationFactor() override
Definition: TriangulationFactor.h:93
gtsam::NoiseModelFactorN< Point3 >::key
Key key() const
Definition: NonlinearFactor.h:582
camera
static const CalibratedCamera camera(kDefaultPose)
Base
Definition: test_virtual_functions.cpp:156
gtsam::Key
std::uint64_t Key
Integer nonlinear key type.
Definition: types.h:97

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