/* ---------------------------------------------------------------------------- * GTSAM Copyright 2010, Georgia Tech Research Corporation, * Atlanta, Georgia 30332-0415 * All Rights Reserved * Authors: Frank Dellaert, et al. (see THANKS for the full author list) * See LICENSE for the license information * -------------------------------------------------------------------------- */ /** * @file LinearEqualityManifoldFactorGraph.h * @author Duy-Nguyen Ta * @author Krunal Chande * @author Luca Carlone * @date Dec 15, 2014 */ #pragma once #include #include #include namespace gtsam { class LinearEqualityManifoldFactorGraph: public FactorGraph { public: /// default constructor LinearEqualityManifoldFactorGraph() { } /// linearize to a LinearEqualityFactorGraph LinearEqualityFactorGraph::shared_ptr linearize( const Values& linearizationPoint) const { LinearEqualityFactorGraph::shared_ptr linearGraph( new LinearEqualityFactorGraph()); BOOST_FOREACH(const NonlinearFactor::shared_ptr& factor, *this){ JacobianFactor::shared_ptr jacobian = boost::dynamic_pointer_cast( factor->linearize(linearizationPoint)); NonlinearConstraint::shared_ptr constraint = boost::dynamic_pointer_cast(factor); linearGraph->add(LinearEquality(*jacobian, constraint->dualKey())); } return linearGraph; } /** * Return true if the max absolute error all factors is less than a tolerance */ bool checkFeasibility(const Values& values, double tol) const { BOOST_FOREACH(const NonlinearFactor::shared_ptr& factor, *this){ NoiseModelFactor::shared_ptr noiseModelFactor = boost::dynamic_pointer_cast( factor); Vector error = noiseModelFactor->unwhitenedError(values); if (error.lpNorm() > tol) { return false; } } return true; } }; }