/** * @file bukin_function.hpp * @author Marcus Edel * * Definition of the Booth function. * * ensmallen is free software; you may redistribute it and/or modify it under * the terms of the 3-clause BSD license. You should have received a copy of * the 3-clause BSD license along with ensmallen. If not, see * http://www.opensource.org/licenses/BSD-3-Clause for more information. */ #ifndef ENSMALLEN_PROBLEMS_BUKIN_FUNCTION_HPP #define ENSMALLEN_PROBLEMS_BUKIN_FUNCTION_HPP namespace ens { namespace test { /** * The Bukin function, defined by * * \f[ * f(x) = 100 * \sqrt(\left|x_2 - 0.01 * x_1^2 \right|) + * 0.01 * \left|x_1 + 10 \right| * \f] * * This should optimize to f(x) = 0, at x = [-10, 1]. * * For more information, please refer to: * * @code * @article{Jamil2013, * title = {A Literature Survey of Benchmark Functions For Global * Optimization Problems}, * author = {Momin Jamil and Xin{-}She Yang}, * journal = {CoRR}, * year = {2013}, * url = {http://arxiv.org/abs/1308.4008} * } * @endcode */ class BukinFunction { public: /** * Initialize the BukinFunction. * * @param epsilon Coefficient to avoid division by zero (numerical stability). */ BukinFunction(const double epsilon = 1e-8); /** * Shuffle the order of function visitation. This may be called by the * optimizer. */ void Shuffle(); //! Return 1 (the number of functions). size_t NumFunctions() const { return 1; } //! Get the starting point. template MatType GetInitialPoint() const { return MatType("-10; -2.0"); } /** * Evaluate a function for a particular batch-size. * * @param coordinates The function coordinates. * @param begin The first function. * @param batchSize Number of points to process. */ template typename MatType::elem_type Evaluate(const MatType& coordinates, const size_t begin, const size_t batchSize) const; /** * Evaluate a function with the given coordinates. * * @param coordinates The function coordinates. */ template typename MatType::elem_type Evaluate(const MatType& coordinates) const; /** * Evaluate the gradient of a function for a particular batch-size. * * @param coordinates The function coordinates. * @param begin The first function. * @param gradient The function gradient. * @param batchSize Number of points to process. */ template void Gradient(const MatType& coordinates, const size_t begin, GradType& gradient, const size_t batchSize) const; /** * Evaluate the gradient of a function with the given coordinates. * * @param coordinates The function coordinates. * @param gradient The function gradient. */ template void Gradient(const MatType& coordinates, GradType& gradient); //! Get the value used for numerical stability. double Epsilon() const { return epsilon; } //! Modify the value used for numerical stability. double& Epsilon() { return epsilon; } private: //! The value used for numerical stability. double epsilon; }; } // namespace test } // namespace ens // Include implementation. #include "bukin_function_impl.hpp" #endif // ENSMALLEN_PROBLEMS_BUKIN_FUNCTION_HPP