/** \file opt_traits.hpp */ #ifndef ARRAY_OPERATION #define ARRAY_OPERATION #define OPT_HEADER #include namespace opt_utilities { /** Get the size of an array object \param x the array object \return the size of the array object */ template inline size_t get_size(const T& x) { return x.size(); } /** \brief Trait class, in which the types of elements in an array are defined \tparam the type of the array object */ template class element_type_trait { public: /** Default definition of element_type */ typedef typename T::value_type element_type; }; /** \brief The return type trait of some certain data types. */ template class return_type_trait { public: typedef T value_type; typedef T& reference_type; typedef const T& const_reference_type; }; /** Help function to get the i-th element from an array \tparam T the type of the array object \param x the array object \param i the order of the element \return the fetched element value, const reference */ template inline typename return_type_trait::element_type>:: const_reference_type get_element(const T& x,size_t i) { return x[i]; } /** set ths i-th element by a given value \tparam T the type of the array object \tparam Tx the type of the element \param x the array object \param i the order of the element \param v the value of the element to be set */ template inline void set_element(T& x,size_t i, const TX& v) { x[i]=v; } /** resize an array object \tparam T the type of the array \param x the array object \param s the new size */ template inline void resize(T& x,size_t s) { x.resize(s); } /** Assignment operator of two array objects \tparam Tl the type of left-hand array \tparam Tr the type of right-hand array \param lhs the left-hand array \param rhs the right-hand array \return the reference of the left-hand array */ template inline Tl& opt_eq(Tl& lhs,const Tr& rhs) { return (lhs=rhs); } } #endif