203 lines
6.8 KiB
C++
203 lines
6.8 KiB
C++
/**
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* Matlab toolbox interface definition for gtsam_unstable
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*/
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// specify the classes from gtsam we are using
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virtual class gtsam::Value;
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virtual class gtsam::Point3;
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virtual class gtsam::Rot3;
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virtual class gtsam::Pose2;
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virtual class gtsam::Pose3;
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virtual class gtsam::noiseModel::Base;
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virtual class gtsam::NonlinearFactor;
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namespace gtsam {
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#include <gtsam_unstable/base/Dummy.h>
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class Dummy {
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Dummy();
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void print(string s) const;
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unsigned char dummyTwoVar(unsigned char a) const;
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};
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#include <gtsam_unstable/dynamics/PoseRTV.h>
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virtual class PoseRTV : gtsam::Value {
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PoseRTV();
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PoseRTV(Vector rtv);
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PoseRTV(const gtsam::Point3& pt, const gtsam::Rot3& rot, const gtsam::Point3& vel);
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PoseRTV(const gtsam::Rot3& rot, const gtsam::Point3& pt, const gtsam::Point3& vel);
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PoseRTV(const gtsam::Pose3& pose, const gtsam::Point3& vel);
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PoseRTV(const gtsam::Pose3& pose);
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PoseRTV(double roll, double pitch, double yaw, double x, double y, double z, double vx, double vy, double vz);
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// testable
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bool equals(const gtsam::PoseRTV& other, double tol) const;
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void print(string s) const;
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// access
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gtsam::Point3 translation() const;
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gtsam::Rot3 rotation() const;
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gtsam::Point3 velocity() const;
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gtsam::Pose3 pose() const;
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// Vector interfaces
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Vector vector() const;
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Vector translationVec() const;
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Vector velocityVec() const;
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// manifold/Lie
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static size_t Dim();
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size_t dim() const;
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gtsam::PoseRTV retract(Vector v) const;
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Vector localCoordinates(const gtsam::PoseRTV& p) const;
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static gtsam::PoseRTV Expmap(Vector v);
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static Vector Logmap(const gtsam::PoseRTV& p);
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gtsam::PoseRTV inverse() const;
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gtsam::PoseRTV compose(const gtsam::PoseRTV& p) const;
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gtsam::PoseRTV between(const gtsam::PoseRTV& p) const;
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// measurement
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double range(const gtsam::PoseRTV& other) const;
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gtsam::PoseRTV transformed_from(const gtsam::Pose3& trans) const;
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// IMU/dynamics
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gtsam::PoseRTV planarDynamics(double vel_rate, double heading_rate, double max_accel, double dt) const;
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gtsam::PoseRTV flyingDynamics(double pitch_rate, double heading_rate, double lift_control, double dt) const;
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gtsam::PoseRTV generalDynamics(Vector accel, Vector gyro, double dt) const;
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Vector imuPrediction(const gtsam::PoseRTV& x2, double dt) const;
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gtsam::Point3 translationIntegration(const gtsam::PoseRTV& x2, double dt) const;
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Vector translationIntegrationVec(const gtsam::PoseRTV& x2, double dt) const;
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};
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// Nonlinear factors from gtsam, for our Value types
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#include <gtsam/slam/PriorFactor.h>
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template<T = {gtsam::PoseRTV}>
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virtual class PriorFactor : gtsam::NonlinearFactor {
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PriorFactor(size_t key, const T& prior, const gtsam::noiseModel::Base* noiseModel);
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};
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#include <gtsam/slam/BetweenFactor.h>
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template<T = {gtsam::PoseRTV}>
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virtual class BetweenFactor : gtsam::NonlinearFactor {
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BetweenFactor(size_t key1, size_t key2, const T& relativePose, const gtsam::noiseModel::Base* noiseModel);
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};
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#include <gtsam/slam/RangeFactor.h>
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template<POSE, POINT>
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virtual class RangeFactor : gtsam::NonlinearFactor {
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RangeFactor(size_t key1, size_t key2, double measured, const gtsam::noiseModel::Base* noiseModel);
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};
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typedef gtsam::RangeFactor<gtsam::PoseRTV, gtsam::PoseRTV> RangeFactorRTV;
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#include <gtsam/nonlinear/NonlinearEquality.h>
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template<T = {gtsam::PoseRTV}>
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virtual class NonlinearEquality : gtsam::NonlinearFactor {
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// Constructor - forces exact evaluation
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NonlinearEquality(size_t j, const T& feasible);
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// Constructor - allows inexact evaluation
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NonlinearEquality(size_t j, const T& feasible, double error_gain);
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};
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#include <gtsam_unstable/dynamics/IMUFactor.h>
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template<POSE = {gtsam::PoseRTV}>
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virtual class IMUFactor : gtsam::NonlinearFactor {
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/** Standard constructor */
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IMUFactor(Vector accel, Vector gyro,
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double dt, size_t key1, size_t key2, const gtsam::noiseModel::Base* model);
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/** Full IMU vector specification */
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IMUFactor(Vector imu_vector,
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double dt, size_t key1, size_t key2, const gtsam::noiseModel::Base* model);
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Vector gyro() const;
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Vector accel() const;
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Vector z() const;
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size_t key1() const;
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size_t key2() const;
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};
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#include <gtsam_unstable/dynamics/FullIMUFactor.h>
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template<POSE = {gtsam::PoseRTV}>
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virtual class FullIMUFactor : gtsam::NonlinearFactor {
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/** Standard constructor */
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FullIMUFactor(Vector accel, Vector gyro,
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double dt, size_t key1, size_t key2, const gtsam::noiseModel::Base* model);
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/** Single IMU vector - imu = [accel, gyro] */
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FullIMUFactor(Vector imu,
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double dt, size_t key1, size_t key2, const gtsam::noiseModel::Base* model);
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Vector gyro() const;
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Vector accel() const;
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Vector z() const;
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size_t key1() const;
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size_t key2() const;
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};
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#include <gtsam_unstable/dynamics/DynamicsPriors.h>
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virtual class DHeightPrior : gtsam::NonlinearFactor {
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DHeightPrior(size_t key, double height, const gtsam::noiseModel::Base* model);
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};
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virtual class DRollPrior : gtsam::NonlinearFactor {
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/** allows for explicit roll parameterization - uses canonical coordinate */
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DRollPrior(size_t key, double wx, const gtsam::noiseModel::Base* model);
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/** Forces roll to zero */
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DRollPrior(size_t key, const gtsam::noiseModel::Base* model);
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};
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virtual class VelocityPrior : gtsam::NonlinearFactor {
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VelocityPrior(size_t key, Vector vel, const gtsam::noiseModel::Base* model);
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};
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virtual class DGroundConstraint : gtsam::NonlinearFactor {
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// Primary constructor allows for variable height of the "floor"
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DGroundConstraint(size_t key, double height, const gtsam::noiseModel::Base* model);
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// Fully specify vector - use only for debugging
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DGroundConstraint(size_t key, Vector constraint, const gtsam::noiseModel::Base* model);
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};
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//*************************************************************************
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// General nonlinear factor types
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//*************************************************************************
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#include <gtsam/geometry/Pose2.h>
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#include <gtsam_unstable/slam/PoseTranslationPrior.h>
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template<POSE>
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virtual class PoseTranslationPrior : gtsam::NonlinearFactor {
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PoseTranslationPrior(size_t key, const POSE& pose_z, const gtsam::noiseModel::Base* noiseModel);
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};
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typedef gtsam::PoseTranslationPrior<gtsam::Pose2> PoseTranslationPrior2D;
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typedef gtsam::PoseTranslationPrior<gtsam::Pose3> PoseTranslationPrior3D;
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#include <gtsam_unstable/slam/PoseRotationPrior.h>
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template<POSE>
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virtual class PoseRotationPrior : gtsam::NonlinearFactor {
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PoseRotationPrior(size_t key, const POSE& pose_z, const gtsam::noiseModel::Base* noiseModel);
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};
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typedef gtsam::PoseRotationPrior<gtsam::Pose2> PoseRotationPrior2D;
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typedef gtsam::PoseRotationPrior<gtsam::Pose3> PoseRotationPrior3D;
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#include <gtsam_unstable/slam/RelativeElevationFactor.h>
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virtual class RelativeElevationFactor: gtsam::NonlinearFactor {
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RelativeElevationFactor();
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RelativeElevationFactor(size_t poseKey, size_t pointKey, double measured,
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const gtsam::noiseModel::Base* model);
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double measured() const;
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void print(string s) const;
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};
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} //\namespace gtsam
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