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removed broken definitions

release/4.3a0
Frank Dellaert 2012-05-21 17:57:50 +00:00
parent 5a397f0c25
commit 8938c659b6
1 changed files with 0 additions and 155 deletions
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gtsam.h
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@ -535,158 +535,3 @@ class Graph {
// TODO: add factors, etc.
}///\namespace simulated2DOriented
//// These are considered to be broken and will be added back as they start working
//// It's assumed that there have been interface changes that might break this
//
//class Ordering{
// Ordering(string key);
// void print(string s) const;
// bool equals(const Ordering& ord, double tol) const;
// Ordering subtract(const Ordering& keys) const;
// void unique ();
// void reverse ();
// void push_back(string s);
//};
//
//class GaussianFactorSet {
// GaussianFactorSet();
// void push_back(GaussianFactor* factor);
//};
//
//class Simulated2DPosePrior {
// Simulated2DPosePrior(Point2& mu, const SharedDiagonal& model, int i);
// void print(string s) const;
// double error(const Simulated2DValues& c) const;
//};
//
//class Simulated2DOrientedPosePrior {
// Simulated2DOrientedPosePrior(Pose2& mu, const SharedDiagonal& model, int i);
// void print(string s) const;
// double error(const Simulated2DOrientedValues& c) const;
//};
//
//class Simulated2DPointPrior {
// Simulated2DPointPrior(Point2& mu, const SharedDiagonal& model, int i);
// void print(string s) const;
// double error(const Simulated2DValues& c) const;
//};
//
//class Simulated2DOdometry {
// Simulated2DOdometry(Point2& mu, const SharedDiagonal& model, int i1, int i2);
// void print(string s) const;
// double error(const Simulated2DValues& c) const;
//};
//
//class Simulated2DOrientedOdometry {
// Simulated2DOrientedOdometry(Pose2& mu, const SharedDiagonal& model, int i1, int i2);
// void print(string s) const;
// double error(const Simulated2DOrientedValues& c) const;
//};
//
//class Simulated2DMeasurement {
// Simulated2DMeasurement(Point2& mu, const SharedDiagonal& model, int i, int j);
// void print(string s) const;
// double error(const Simulated2DValues& c) const;
//};
//
//class GaussianFactor {
// GaussianFactor(string key1,
// Matrix A1,
// Vector b_in,
// const SharedDiagonal& model);
// GaussianFactor(string key1,
// Matrix A1,
// string key2,
// Matrix A2,
// Vector b_in,
// const SharedDiagonal& model);
// GaussianFactor(string key1,
// Matrix A1,
// string key2,
// Matrix A2,
// string key3,
// Matrix A3,
// Vector b_in,
// const SharedDiagonal& model);
// bool involves(string key) const;
// Matrix getA(string key) const;
// pair<Matrix,Vector> matrix(const Ordering& ordering) const;
// pair<GaussianConditional*,GaussianFactor*> eliminate(string key) const;
//};
//
//class GaussianFactorGraph {
// GaussianConditional* eliminateOne(string key);
// GaussianBayesNet* eliminate_(const Ordering& ordering);
// VectorValues* optimize_(const Ordering& ordering);
// pair<Matrix,Vector> matrix(const Ordering& ordering) const;
// VectorValues* steepestDescent_(const VectorValues& x0) const;
// VectorValues* conjugateGradientDescent_(const VectorValues& x0) const;
//};
//
//class gtsam::Pose2Values{
// Pose2Values();
// Pose2 get(string key) const;
// void insert(string name, const gtsam::Pose2& val);
// void print(string s) const;
// void clear();
// int size();
//};
//
//class gtsam::Pose2Factor {
// Pose2Factor(string key1, string key2,
// const gtsam::Pose2& measured, Matrix measurement_covariance);
// void print(string name) const;
// double error(const gtsam::Pose2Values& c) const;
// size_t size() const;
// GaussianFactor* linearize(const gtsam::Pose2Values& config) const;
//};
//
//class gtsam::pose2SLAM::Graph{
// pose2SLAM::Graph();
// void print(string s) const;
// GaussianFactorGraph* linearize_(const gtsam::Pose2Values& config) const;
// void push_back(Pose2Factor* factor);
//};
//
//class SymbolicFactor{
// SymbolicFactor(const Ordering& keys);
// void print(string s) const;
//};
//
//class Simulated2DPosePrior {
// GaussianFactor* linearize(const Simulated2DValues& config) const;
//};
//
//class Simulated2DOrientedPosePrior {
// GaussianFactor* linearize(const Simulated2DOrientedValues& config) const;
//};
//
//class Simulated2DPointPrior {
// GaussianFactor* linearize(const Simulated2DValues& config) const;
//};
//
//class Simulated2DOdometry {
// GaussianFactor* linearize(const Simulated2DValues& config) const;
//};
//
//class Simulated2DOrientedOdometry {
// GaussianFactor* linearize(const Simulated2DOrientedValues& config) const;
//};
//
//class Simulated2DMeasurement {
// GaussianFactor* linearize(const Simulated2DValues& config) const;
//};
//
//class gtsam::Pose2SLAMOptimizer {
// Pose2SLAMOptimizer(string dataset_name);
// void print(string s) const;
// void update(Vector x) const;
// Vector optimize() const;
// double error() const;
// Matrix a1() const;
// Matrix a2() const;
// Vector b1() const;
// Vector b2() const;
//};