/* * PairPotential_Morse.hpp * * Created on: Oct 03, 2012 * Author: heber */ #ifndef PAIRPOTENTIAL_MORSE_HPP_ #define PAIRPOTENTIAL_MORSE_HPP_ // include config.h #ifdef HAVE_CONFIG_H #include #endif #include #include "Potentials/EmpiricalPotential.hpp" class PotentialFactory; class TrainingData; /** This is the implementation of a harmonic pair potential. * * This evaluates \f$ k \cdot (r -r_0)^2 \f$. * */ class PairPotential_Morse : public EmpiricalPotential { //!> grant unit test access to internal parts friend class PairPotential_MorseTest; //!> grant PotentialFactory access to default cstor friend class PotentialFactory; // some repeated typedefs to avoid ambiguities typedef FunctionModel::arguments_t arguments_t; typedef FunctionModel::result_t result_t; typedef FunctionModel::results_t results_t; typedef EmpiricalPotential::derivative_components_t derivative_components_t; typedef FunctionModel::parameters_t parameters_t; private: /** Private default constructor. * * This prevents creation of potential without set ParticleTypes_t. * * \note PotentialFactory may use this default cstor * */ PairPotential_Morse(); public: PairPotential_Morse(const ParticleTypes_t &_ParticleTypes); PairPotential_Morse( const ParticleTypes_t &_ParticleTypes, const double _spring_constant, const double _equilibrium_distance, const double _dissociation_energy); virtual ~PairPotential_Morse() {} /** Setter for parameters as required by FunctionModel interface. * * \param _params given set of parameters */ void setParameters(const parameters_t &_params); /** Getter for parameters as required by FunctionModel interface. * * \return set of parameters */ parameters_t getParameters() const { return params; } /** Sets the parameter randomly within the sensible range of each parameter. * * \param data container with training data for guesstimating range */ void setParametersToRandomInitialValues(const TrainingData &data); /** Getter for the number of parameters of this model function. * * \return number of parameters */ size_t getParameterDimension() const { return MAXPARAMS; } /** Evaluates the harmonic potential function for the given arguments. * * @param arguments single distance * @return value of the potential function */ results_t operator()(const arguments_t &arguments) const; /** Evaluates the derivative of the potential function. * * @param arguments single distance * @return vector with derivative with respect to the input degrees of freedom */ derivative_components_t derivative(const arguments_t &arguments) const; /** Evaluates the derivative of the function with the given \a arguments * with respect to a specific parameter indicated by \a index. * * \param arguments set of arguments as input variables to the function * \param index derivative of which parameter * \return result vector containing the derivative with respect to the given * input */ results_t parameter_derivative(const arguments_t &arguments, const size_t index) const; /** Return the token name of this specific potential. * * \return token name of the potential */ const std::string& getToken() const { return potential_token; } /** Returns a vector of parameter names. * * This is required from the specific implementation * * \return vector of strings containing parameter names */ const ParameterNames_t& getParameterNames() const { return ParameterNames; } /** States whether lower and upper boundaries should be used to constraint * the parameter search for this function model. * * \return true - constraints should be used, false - else */ bool isBoxConstraint() const { return true; } /** Returns a vector which are the lower boundaries for each parameter_t * of this FunctionModel. * * \return vector of parameter_t resembling lowest allowed values */ parameters_t getLowerBoxConstraints() const { parameters_t lowerbound(getParameterDimension(), -std::numeric_limits::max()); lowerbound[equilibrium_distance] = 0.; return lowerbound; } /** Returns a vector which are the upper boundaries for each parameter_t * of this FunctionModel. * * \return vector of parameter_t resembling highest allowed values */ parameters_t getUpperBoxConstraints() const { return parameters_t(getParameterDimension(), std::numeric_limits::max()); } /** Returns a bound function to be used with TrainingData, extracting distances * from a Fragment. * * \return bound function extracting distances from a fragment */ FunctionModel::extractor_t getFragmentSpecificExtractor() const; enum parameter_enum_t { spring_constant=0, equilibrium_distance=1, dissociation_energy=2, MAXPARAMS }; private: //!> parameter vector with parameters as in enum parameter_enum_t parameters_t params; //!> static definitions of the parameter name for this potential static const ParameterNames_t ParameterNames; //!> static token of this potential type static const std::string potential_token; }; #endif /* PAIRPOTENTIAL_MORSE_HPP_ */