// Copyright (C) 2007 Davis E. King (davis@dlib.net) // License: Boost Software License See LICENSE.txt for the full license. #undef DLIB_TUPLe_ABSTRACT_H_ #ifdef DLIB_TUPLe_ABSTRACT_H_ #include "../algs.h" #include "../serialize.h" #include "tuple_abstract.h" namespace dlib { // ---------------------------------------------------------------------------------------- struct null_type { /*! WHAT THIS OBJECT REPRESENTS This object is the default type used as the default template argument to the tuple object's template arguments. Also note that it has no state associated with it. !*/ }; inline void serialize ( const null_type& , std::ostream& ){} inline void deserialize ( null_type& , std::istream& ){} /*! Serialization support is provided for null_type because in some cases it makes your code a little more concise and easier to deal with when using tuple objects and serialization. The serialization literally does nothing though. !*/ // ---------------------------------------------------------------------------------------- template < typename T0 = null_type, typename T1 = null_type, typename T2 = null_type, typename T3 = null_type, ... typename T31 = null_type > class tuple { /*! INITIAL VALUE Each object in the tuple is default initialized by its own constructor. The tuple object itself does not modify them or add any additional state. WHAT THIS OBJECT REPRESENTS This object represents a container of between 0 and 31 objects where the objects contained are specified in the template arguments. EXAMPLE We can declare a tuple that contains an int, a float, and a char like so: tuple ex; Then we can access each of these by their index number. The index number is just the order each type has in the template argument list. So we have: ex.get<0>() = 5; // assign the int the value 5 ex.get<1>() = 3.14; // assign the float the value 3.14 ex.get<2>() = 'c'; // assign the char the value 'c' Also, since we only have one of each type in this example tuple we can unambiguously access each field in the tuple by their types. So for example, we can use this syntax to access our fields: ex.get() // returns 5 ex.get() // returns 3.14 ex.get() // returns 'c' We can also get the indexes of each of these fields like so: ex.index() // returns 0 ex.index() // returns 1 ex.index() // returns 2 !*/ public: // the maximum number of items this tuple template can contain const static long max_fields = 32; template struct get_type { typedef (the type of the Tindex template argument) type; }; template const get_type::type& get ( ) const; /*! requires - 0 <= index <= 31 ensures - returns a const reference to the index(th) object contained inside this tuple !*/ template get_type::type& get ( ); /*! requires - 0 <= index <= 31 ensures - returns a non-const reference to the index(th) object contained inside this tuple !*/ template const long index ( ) const; /*! requires - Q is a type of object contained in this tuple and there is only one object of that type in the tuple ensures - returns the index of the object in this tuple with type Q !*/ template const Q& get ( ) const; /*! requires - Q is a type of object contained in this tuple and there is only one object of that type in the tuple ensures - returns a const reference to the object in this tuple with type Q !*/ template Q& get ( ); /*! requires - Q is a type of object contained in this tuple and there is only one object of that type in the tuple ensures - returns a non-const reference to the object in this tuple with type Q !*/ template void for_each ( F& funct ); /*! requires - funct is a templated function object ensures - for each item X in this tuple that isn't a null_type object: - calls funct(X); !*/ template void for_each ( F& funct ) const; /*! requires - funct is a templated function object ensures - for each item X in this tuple that isn't a null_type object: - calls funct(X); !*/ template void for_each ( const F& funct ); /*! requires - funct is a templated function object ensures - for each item X in this tuple that isn't a null_type object: - calls funct(X); !*/ template void for_each ( const F& funct ) const; /*! requires - funct is a templated function object ensures - for each item X in this tuple that isn't a null_type object: - calls funct(X); !*/ template void for_index ( F& funct, long idx ); /*! requires - funct is a templated function object - 0 <= idx < max_fields && get_type::type != null_type (i.e. idx must be the index of a non-null_type object in this tuple) ensures - calls funct(this->get()); !*/ template void for_index ( F& funct, long idx ) const; /*! requires - funct is a templated function object - 0 <= idx < max_fields && get_type::type != null_type (i.e. idx must be the index of a non-null_type object in this tuple) ensures - calls funct(this->get()); !*/ template void for_index ( const F& funct, long idx ); /*! requires - funct is a templated function object - 0 <= idx < max_fields && get_type::type != null_type (i.e. idx must be the index of a non-null_type object in this tuple) ensures - calls funct(this->get()); !*/ template void for_index ( const F& funct, long idx ) const; /*! requires - funct is a templated function object - 0 <= idx < max_fields && get_type::type != null_type (i.e. idx must be the index of a non-null_type object in this tuple) ensures - calls funct(this->get()); !*/ void swap ( tuple& item ); /*! ensures - swaps *this and item !*/ // ------------------------------------------------- // global functions for tuple objects // ------------------------------------------------- friend void swap ( tuple& a, tuple& b ) { a.swap(b); } /*! provides a global swap function !*/ friend void serialize ( const tuple& item, std::ostream& out ); /*! provides serialization support !*/ friend void deserialize ( tuple& item, std::istream& in ); /*! provides deserialization support !*/ }; // ---------------------------------------------------------------------------------------- } #endif // DLIB_TUPLe_ABSTRACT_H_