37 boost::optional<POSE> body_P_sensor_;
40 GTSAM_CONCEPT_TESTABLE_TYPE(POSE)
41 GTSAM_CONCEPT_POSE_TYPE(POSE)
45 typedef typename boost::shared_ptr<PosePriorFactor<POSE> >
shared_ptr;
54 boost::optional<POSE> body_P_sensor = boost::none) :
55 Base(model, key), prior_(prior), body_P_sensor_(body_P_sensor) {
59 gtsam::NonlinearFactor::shared_ptr
clone()
const override {
60 return boost::static_pointer_cast<gtsam::NonlinearFactor>(
61 gtsam::NonlinearFactor::shared_ptr(
new This(*
this))); }
66 void print(
const std::string& s,
const KeyFormatter& keyFormatter = DefaultKeyFormatter)
const override {
67 std::cout << s <<
"PriorFactor on " << keyFormatter(this->key()) <<
"\n";
68 prior_.print(
" prior mean: ");
69 if(this->body_P_sensor_)
70 this->body_P_sensor_->print(
" sensor pose in body frame: ");
71 this->noiseModel_->print(
" noise model: ");
76 const This* e =
dynamic_cast<const This*
> (&expected);
79 && this->prior_.equals(e->prior_, tol)
80 && ((!body_P_sensor_ && !e->body_P_sensor_) || (body_P_sensor_ && e->body_P_sensor_ && body_P_sensor_->
equals(*e->body_P_sensor_)));
86 Vector
evaluateError(
const POSE& p, boost::optional<Matrix&> H = boost::none)
const override {
89 return prior_.localCoordinates(p.compose(*body_P_sensor_, H));
93 return prior_.localCoordinates(p);
97 const POSE& prior()
const {
return prior_; }
103 template<
class ARCHIVE>
104 void serialize(ARCHIVE & ar,
const unsigned int ) {
105 ar & BOOST_SERIALIZATION_BASE_OBJECT_NVP(
Base);
106 ar & BOOST_SERIALIZATION_NVP(prior_);
107 ar & BOOST_SERIALIZATION_NVP(body_P_sensor_);
Concept check for values that can be used in unit tests.
Non-linear factor base classes.
Global functions in a separate testing namespace.
Definition: chartTesting.h:28
noiseModel::Base::shared_ptr SharedNoiseModel
Note, deliberately not in noiseModel namespace.
Definition: NoiseModel.h:736
std::uint64_t Key
Integer nonlinear key type.
Definition: types.h:69
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
This is the base class for all factor types.
Definition: Factor.h:56
bool equals(const This &other, double tol=1e-9) const
check equality
Definition: Factor.cpp:42
Nonlinear factor base class.
Definition: NonlinearFactor.h:43
bool equals(const NonlinearFactor &f, double tol=1e-9) const override
Check if two factors are equal.
Definition: NonlinearFactor.cpp:71
A convenient base class for creating your own NoiseModelFactor with 1 variable.
Definition: NonlinearFactor.h:285
Definition: PosePriorFactor.h:29
boost::shared_ptr< PosePriorFactor< POSE > > shared_ptr
concept check by type
Definition: PosePriorFactor.h:45
void print(const std::string &s, const KeyFormatter &keyFormatter=DefaultKeyFormatter) const override
implement functions needed for Testable
Definition: PosePriorFactor.h:66
PosePriorFactor()
default constructor - only use for serialization
Definition: PosePriorFactor.h:48
bool equals(const NonlinearFactor &expected, double tol=1e-9) const override
equals
Definition: PosePriorFactor.h:75
Vector evaluateError(const POSE &p, boost::optional< Matrix & > H=boost::none) const override
implement functions needed to derive from Factor
Definition: PosePriorFactor.h:86
PosePriorFactor(Key key, const POSE &prior, const SharedNoiseModel &model, boost::optional< POSE > body_P_sensor=boost::none)
Constructor.
Definition: PosePriorFactor.h:53
friend class boost::serialization::access
Serialization function.
Definition: PosePriorFactor.h:102
gtsam::NonlinearFactor::shared_ptr clone() const override
Definition: PosePriorFactor.h:59
Concept-checking macros for geometric objects Each macro instantiates a concept check structure,...