ndnboost/functional/overloaded_function.hpp - ndn-cxx - Gitiles


 // Copyright (C) 2009-2012 Lorenzo Caminiti
 // Distributed under the Boost Software License, Version 1.0
 // (see accompanying file LICENSE_1_0.txt or a copy at
 // http://www.boost.org/LICENSE_1_0.txt)
 // Home at http://www.boost.org/libs/functional/overloaded_function

 #ifndef DOXYGEN // Doxygen documentation only.

 #if !BOOST_PP_IS_ITERATING
 #   ifndef BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_HPP_
 #       define BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_HPP_

 #       include <ndnboost/functional/overloaded_function/detail/base.hpp>
 #       include <ndnboost/functional/overloaded_function/detail/function_type.hpp>
 #       include <ndnboost/functional/overloaded_function/config.hpp>
 #       include <ndnboost/typeof/typeof.hpp>
 #       include <ndnboost/preprocessor/iteration/iterate.hpp>
 #       include <ndnboost/preprocessor/repetition/enum.hpp>
 #       include <ndnboost/preprocessor/repetition/repeat.hpp>
 #       include <ndnboost/preprocessor/control/expr_iif.hpp>
 #       include <ndnboost/preprocessor/control/expr_if.hpp>
 #       include <ndnboost/preprocessor/comparison/greater.hpp>
 #       include <ndnboost/preprocessor/comparison/less.hpp>
 #       include <ndnboost/preprocessor/cat.hpp>
 #       include <ndnboost/preprocessor/arithmetic/add.hpp>
 #       include <ndnboost/preprocessor/arithmetic/sub.hpp>
 #       include <ndnboost/preprocessor/tuple/eat.hpp>
 #       include <ndnboost/preprocessor/logical/and.hpp>
 #       include <ndnboost/preprocessor/logical/not.hpp>
 #       include <ndnboost/preprocessor/facilities/expand.hpp>

 #define BOOST_FUNCTIONAL_f_type(z, n, unused) \
     BOOST_PP_CAT(F, n)

 #define BOOST_FUNCTIONAL_f_arg(z, n, unused) \
     BOOST_PP_CAT(f, n)

 #define BOOST_FUNCTIONAL_f_tparam(z, n, unused) \
     typename BOOST_FUNCTIONAL_f_type(z, n, ~) \

 #define BOOST_FUNCTIONAL_f_tparam_dflt(z, n, is_tspec) \
     BOOST_FUNCTIONAL_f_tparam(z, n, ~) \
     /* overload requires at least 2 functors so F0 and F1 not optional */ \
     BOOST_PP_EXPR_IIF(BOOST_PP_AND(BOOST_PP_NOT(is_tspec), \
             BOOST_PP_GREATER(n, 1)), \
         = void \
     )

 #define BOOST_FUNCTIONAL_f_arg_decl(z, n, unused) \
     BOOST_FUNCTIONAL_f_type(z, n, ~) /* no qualifier to deduce tparam */ \
     BOOST_FUNCTIONAL_f_arg(z, n, ~)

 #define BOOST_FUNCTIONAL_g_type(z, n, unused) \
     BOOST_PP_CAT(G, n)

 #define BOOST_FUNCTIONAL_g_arg(z, n, unused) \
     BOOST_PP_CAT(g, n)

 #define BOOST_FUNCTIONAL_g_tparam(z, n, unused) \
     typename BOOST_FUNCTIONAL_g_type(z, n, ~)

 #define BOOST_FUNCTIONAL_g_arg_decl(z, n, unused) \
     BOOST_FUNCTIONAL_g_type(z, n, ~) /* no qualifier to deduce tparam */ \
     BOOST_FUNCTIONAL_g_arg(z, n, ~)

 #define BOOST_FUNCTIONAL_base(z, n, unused) \
     ::ndnboost::overloaded_function_detail::base< \
         BOOST_FUNCTIONAL_f_type(z, n, ~) \
     >

 #define BOOST_FUNCTIONAL_inherit(z, n, unused) \
     public BOOST_FUNCTIONAL_base(z, n, ~)

 #define BOOST_FUNCTIONAL_base_init(z, n, unused) \
     BOOST_FUNCTIONAL_base(z, n, ~)(BOOST_FUNCTIONAL_g_arg(z, n, ~))

 #define BOOST_FUNCTIONAL_using_operator_call(z, n, unused) \
     using BOOST_FUNCTIONAL_base(z, n, ~)::operator();

 #define BOOST_FUNCTIONAL_function_type(z, n, unused) \
     typename ::ndnboost::overloaded_function_detail::function_type< \
         BOOST_FUNCTIONAL_f_type(z, n, ~) \
     >::type

 #       define BOOST_PP_ITERATION_PARAMS_1 \
             /* at least 2 func to overload so start from 2 to MAX */ \
             /* (cannot iterate [0, MAX-2) because error on Sun) */ \
             (3, (2, BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX, \
             "ndnboost/functional/overloaded_function.hpp"))
 #       include BOOST_PP_ITERATE() // Iterate over function arity.

 #undef BOOST_FUNCTIONAL_f_type
 #undef BOOST_FUNCTIONAL_f_arg
 #undef BOOST_FUNCTIONAL_f_tparam
 #undef BOOST_FUNCTIONAL_f_arg_decl
 #undef BOOST_FUNCTIONAL_f_tparam_dflt
 #undef BOOST_FUNCTIONAL_g_type
 #undef BOOST_FUNCTIONAL_g_arg
 #undef BOOST_FUNCTIONAL_g_tparam
 #undef BOOST_FUNCTIONAL_g_arg_decl
 #undef BOOST_FUNCTIONAL_base
 #undef BOOST_FUNCTIONAL_inherit
 #undef BOOST_FUNCTIONAL_base_init
 #undef BOOST_FUNCTIONAL_using_operator_call
 #undef BOOST_FUNCTIONAL_function_type

 #   endif // #include guard

 #elif BOOST_PP_ITERATION_DEPTH() == 1
 #   define BOOST_FUNCTIONAL_overloads \
         /* iterate as OVERLOADS, OVERLOADS-1, OVERLOADS-2, ... */ \
         /* (add 2 because iteration started from 2 to MAX) */ \
         BOOST_PP_ADD(2, BOOST_PP_SUB( \
                 BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX, \
                 BOOST_PP_FRAME_ITERATION(1)))
 #   define BOOST_FUNCTIONAL_is_tspec \
         /* if template specialization */ \
         BOOST_PP_LESS(BOOST_FUNCTIONAL_overloads, \
                 BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX)

 // For type-of emulation: This must be included at this pp iteration level.
 #   include BOOST_TYPEOF_INCREMENT_REGISTRATION_GROUP()

 namespace ndnboost {

 template<
     BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_tparam_dflt,
             BOOST_FUNCTIONAL_is_tspec)
 >
 class overloaded_function
     // Template specialization.
     BOOST_PP_EXPR_IIF(BOOST_PP_EXPAND(BOOST_FUNCTIONAL_is_tspec), <)
     BOOST_PP_IIF(BOOST_FUNCTIONAL_is_tspec,
         BOOST_PP_ENUM
     ,
         BOOST_PP_TUPLE_EAT(3)
     )(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_type, ~)
     BOOST_PP_EXPR_IIF(BOOST_PP_EXPAND(BOOST_FUNCTIONAL_is_tspec), >)
     // Bases (overloads >= 2 so always at least 2 bases).
     : BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
             BOOST_FUNCTIONAL_inherit, ~)
 {
 public:
     template<
         BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_g_tparam, ~)
     > /* implicit */ inline overloaded_function(
             BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
                     BOOST_FUNCTIONAL_g_arg_decl, ~))
             // Overloads >= 2 so always at least 2 bases to initialize.
             : BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
                     BOOST_FUNCTIONAL_base_init, ~)
     {}

     BOOST_PP_REPEAT(BOOST_FUNCTIONAL_overloads,
             BOOST_FUNCTIONAL_using_operator_call, ~)
 };

 template<
     BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_tparam, ~)
 >
 overloaded_function<
     BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_function_type, ~)
 > make_overloaded_function(
     BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_arg_decl, ~)
 ) {
     return overloaded_function<
         BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
                 BOOST_FUNCTIONAL_function_type, ~)
     >(BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_arg, ~));
 }

 } // namespace

 // For type-of emulation: Register overloaded function type (for _AUTO, etc).
 BOOST_TYPEOF_REGISTER_TEMPLATE(ndnboost::overloaded_function,
     BOOST_FUNCTIONAL_overloads)

 #   undef BOOST_FUNCTIONAL_overloads
 #   undef BOOST_FUNCTIONAL_is_tspec
 #endif // iteration

 // DOCUMENTATION //

 #else // DOXYGEN

 /** @file
 @brief Overload distinct function pointers, function references, and
 monomorphic function objects into a single function object.
 */

 namespace ndnboost {

 /**
 @brief Function object to overload functions with distinct signatures.

 This function object aggregates together calls to functions of all the
 specified function types <c>F1</c>, <c>F2</c>, etc which must have distinct
 function signatures from one another.

 @Params
 @Param{F<em>i</em>,
 Each function type must be specified using the following syntax (which is
 Boost.Function's preferred syntax):
 @code
     result_type (argument1_type\, argumgnet2_type\, ...)
 @endcode
 }
 @EndParams

 In some cases, the @RefFunc{make_overloaded_function} function template can be
 useful to construct an overloaded function object without explicitly
 specifying the function types.

 At least two distinct function types must be specified (because there is
 nothing to overload between one or zero functions).
 The maximum number of functions to overload is given by the
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}
 configuration macro.
 The maximum number of function parameters for each of the specified function
 types is given by the
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_ARITY_MAX}
 configuration macro.

 @See @RefSect{tutorial, Tutorial} section, @RefFunc{make_overloaded_function},
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX},
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_ARITY_MAX},
 Boost.Function.
 */
 template<typename F1, typename F2, ...>
 class overloaded_function {
 public:
     /**
     @brief Construct the overloaded function object.

     Any function pointer, function reference, and monomorphic function object
     that can be converted to a <c>ndnboost::function</c> function object can be
     specified as parameter.

     @Note Unfortunately, it is not possible to support polymorphic function
     objects (as explained <a
     href="http://lists.boost.org/Archives/boost/2012/03/191744.php">here</a>).
     */
     overloaded_function(const ndnboost::function<F1>&,
             const ndnboost::function<F2>&, ...);

     /**
     @brief Call operator matching the signature of the function type specified
     as 1st template parameter.

     This will in turn invoke the call operator of the 1st function passed to
     the constructor.
     */
     typename ndnboost::function_traits<F1>::result_type operator()(
             typename ndnboost::function_traits<F1>::arg1_type,
             typename ndnboost::function_traits<F1>::arg2_type,
             ...) const;

     /**
     @brief Call operator matching the signature of the function type specified
     as 2nd template parameter.

     This will in turn invoke the call operator of the 2nd function passed to
     the constructor.

     @Note Similar call operators are present for all specified function types
     <c>F1</c>, <c>F2</c>, etc (even if not exhaustively listed by this
     documentation).
     */
     typename ndnboost::function_traits<F2>::result_type operator()(
             typename ndnboost::function_traits<F2>::arg1_type,
             typename ndnboost::function_traits<F2>::arg2_type,
             ...) const;
 };

 /**
 @brief Make an overloaded function object without explicitly specifying the
 function types.

 This function template creates and returns an @RefClass{overloaded_function}
 object that overloads all the specified functions <c>f1</c>, <c>f2</c>, etc.

 The function types are internally determined from the template parameter types
 so they do not need to be explicitly specified.
 Therefore, this function template usually has a more concise syntax when
 compared with @RefClass{overloaded_function}.
 This is especially useful when the explicit type of the returned
 @RefClass{overloaded_function} object does not need to be known (e.g., when
 used with Boost.Typeof's <c>BOOST_AUTO</c>, C++11 <c>auto</c>, or when the
 overloaded function object is handled using a function template parameter, see
 the @RefSect{tutorial, Tutorial} section).

 The maximum number of functions to overload is given by the
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}
 configuration macro.

 @Note In this documentation, <c>__function_type__</c> is a placeholder for a
 symbol that is specific to the implementation of this library.

 @See @RefSect{tutorial, Tutorial} section, @RefClass{overloaded_function},
 @RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}.
 */
 template<typename F1, typename F2, ...>
 overloaded_function<
     __function_type__<F1>, __function_type__<F2>, ...
 > make_overloaded_function(F1 f1, F2 f2, ...);

 } // namespace

 #endif // DOXYGEN

	// Copyright (C) 2009-2012 Lorenzo Caminiti
	// Distributed under the Boost Software License, Version 1.0
	// (see accompanying file LICENSE_1_0.txt or a copy at
	// http://www.boost.org/LICENSE_1_0.txt)
	// Home at http://www.boost.org/libs/functional/overloaded_function

	#ifndef DOXYGEN // Doxygen documentation only.

	#if !BOOST_PP_IS_ITERATING
	# ifndef BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_HPP_
	# define BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_HPP_

	# include <ndnboost/functional/overloaded_function/detail/base.hpp>
	# include <ndnboost/functional/overloaded_function/detail/function_type.hpp>
	# include <ndnboost/functional/overloaded_function/config.hpp>
	# include <ndnboost/typeof/typeof.hpp>
	# include <ndnboost/preprocessor/iteration/iterate.hpp>
	# include <ndnboost/preprocessor/repetition/enum.hpp>
	# include <ndnboost/preprocessor/repetition/repeat.hpp>
	# include <ndnboost/preprocessor/control/expr_iif.hpp>
	# include <ndnboost/preprocessor/control/expr_if.hpp>
	# include <ndnboost/preprocessor/comparison/greater.hpp>
	# include <ndnboost/preprocessor/comparison/less.hpp>
	# include <ndnboost/preprocessor/cat.hpp>
	# include <ndnboost/preprocessor/arithmetic/add.hpp>
	# include <ndnboost/preprocessor/arithmetic/sub.hpp>
	# include <ndnboost/preprocessor/tuple/eat.hpp>
	# include <ndnboost/preprocessor/logical/and.hpp>
	# include <ndnboost/preprocessor/logical/not.hpp>
	# include <ndnboost/preprocessor/facilities/expand.hpp>

	#define BOOST_FUNCTIONAL_f_type(z, n, unused) \
	BOOST_PP_CAT(F, n)

	#define BOOST_FUNCTIONAL_f_arg(z, n, unused) \
	BOOST_PP_CAT(f, n)

	#define BOOST_FUNCTIONAL_f_tparam(z, n, unused) \
	typename BOOST_FUNCTIONAL_f_type(z, n, ~) \

	#define BOOST_FUNCTIONAL_f_tparam_dflt(z, n, is_tspec) \
	BOOST_FUNCTIONAL_f_tparam(z, n, ~) \
	/* overload requires at least 2 functors so F0 and F1 not optional */ \
	BOOST_PP_EXPR_IIF(BOOST_PP_AND(BOOST_PP_NOT(is_tspec), \
	BOOST_PP_GREATER(n, 1)), \
	= void \
	)

	#define BOOST_FUNCTIONAL_f_arg_decl(z, n, unused) \
	BOOST_FUNCTIONAL_f_type(z, n, ~) /* no qualifier to deduce tparam */ \
	BOOST_FUNCTIONAL_f_arg(z, n, ~)

	#define BOOST_FUNCTIONAL_g_type(z, n, unused) \
	BOOST_PP_CAT(G, n)

	#define BOOST_FUNCTIONAL_g_arg(z, n, unused) \
	BOOST_PP_CAT(g, n)

	#define BOOST_FUNCTIONAL_g_tparam(z, n, unused) \
	typename BOOST_FUNCTIONAL_g_type(z, n, ~)

	#define BOOST_FUNCTIONAL_g_arg_decl(z, n, unused) \
	BOOST_FUNCTIONAL_g_type(z, n, ~) /* no qualifier to deduce tparam */ \
	BOOST_FUNCTIONAL_g_arg(z, n, ~)

	#define BOOST_FUNCTIONAL_base(z, n, unused) \
	::ndnboost::overloaded_function_detail::base< \
	BOOST_FUNCTIONAL_f_type(z, n, ~) \
	>

	#define BOOST_FUNCTIONAL_inherit(z, n, unused) \
	public BOOST_FUNCTIONAL_base(z, n, ~)

	#define BOOST_FUNCTIONAL_base_init(z, n, unused) \
	BOOST_FUNCTIONAL_base(z, n, ~)(BOOST_FUNCTIONAL_g_arg(z, n, ~))

	#define BOOST_FUNCTIONAL_using_operator_call(z, n, unused) \
	using BOOST_FUNCTIONAL_base(z, n, ~)::operator();

	#define BOOST_FUNCTIONAL_function_type(z, n, unused) \
	typename ::ndnboost::overloaded_function_detail::function_type< \
	BOOST_FUNCTIONAL_f_type(z, n, ~) \
	>::type

	# define BOOST_PP_ITERATION_PARAMS_1 \
	/* at least 2 func to overload so start from 2 to MAX */ \
	/* (cannot iterate [0, MAX-2) because error on Sun) */ \
	(3, (2, BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX, \
	"ndnboost/functional/overloaded_function.hpp"))
	# include BOOST_PP_ITERATE() // Iterate over function arity.

	#undef BOOST_FUNCTIONAL_f_type
	#undef BOOST_FUNCTIONAL_f_arg
	#undef BOOST_FUNCTIONAL_f_tparam
	#undef BOOST_FUNCTIONAL_f_arg_decl
	#undef BOOST_FUNCTIONAL_f_tparam_dflt
	#undef BOOST_FUNCTIONAL_g_type
	#undef BOOST_FUNCTIONAL_g_arg
	#undef BOOST_FUNCTIONAL_g_tparam
	#undef BOOST_FUNCTIONAL_g_arg_decl
	#undef BOOST_FUNCTIONAL_base
	#undef BOOST_FUNCTIONAL_inherit
	#undef BOOST_FUNCTIONAL_base_init
	#undef BOOST_FUNCTIONAL_using_operator_call
	#undef BOOST_FUNCTIONAL_function_type

	# endif // #include guard

	#elif BOOST_PP_ITERATION_DEPTH() == 1
	# define BOOST_FUNCTIONAL_overloads \
	/* iterate as OVERLOADS, OVERLOADS-1, OVERLOADS-2, ... */ \
	/* (add 2 because iteration started from 2 to MAX) */ \
	BOOST_PP_ADD(2, BOOST_PP_SUB( \
	BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX, \
	BOOST_PP_FRAME_ITERATION(1)))
	# define BOOST_FUNCTIONAL_is_tspec \
	/* if template specialization */ \
	BOOST_PP_LESS(BOOST_FUNCTIONAL_overloads, \
	BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX)

	// For type-of emulation: This must be included at this pp iteration level.
	# include BOOST_TYPEOF_INCREMENT_REGISTRATION_GROUP()

	namespace ndnboost {

	template<
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_tparam_dflt,
	BOOST_FUNCTIONAL_is_tspec)
	>
	class overloaded_function
	// Template specialization.
	BOOST_PP_EXPR_IIF(BOOST_PP_EXPAND(BOOST_FUNCTIONAL_is_tspec), <)
	BOOST_PP_IIF(BOOST_FUNCTIONAL_is_tspec,
	BOOST_PP_ENUM
	,
	BOOST_PP_TUPLE_EAT(3)
	)(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_type, ~)
	BOOST_PP_EXPR_IIF(BOOST_PP_EXPAND(BOOST_FUNCTIONAL_is_tspec), >)
	// Bases (overloads >= 2 so always at least 2 bases).
	: BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
	BOOST_FUNCTIONAL_inherit, ~)
	{
	public:
	template<
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_g_tparam, ~)
	> /* implicit */ inline overloaded_function(
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
	BOOST_FUNCTIONAL_g_arg_decl, ~))
	// Overloads >= 2 so always at least 2 bases to initialize.
	: BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
	BOOST_FUNCTIONAL_base_init, ~)
	{}

	BOOST_PP_REPEAT(BOOST_FUNCTIONAL_overloads,
	BOOST_FUNCTIONAL_using_operator_call, ~)
	};

	template<
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_tparam, ~)
	>
	overloaded_function<
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_function_type, ~)
	> make_overloaded_function(
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_arg_decl, ~)
	) {
	return overloaded_function<
	BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads,
	BOOST_FUNCTIONAL_function_type, ~)
	>(BOOST_PP_ENUM(BOOST_FUNCTIONAL_overloads, BOOST_FUNCTIONAL_f_arg, ~));
	}

	} // namespace

	// For type-of emulation: Register overloaded function type (for _AUTO, etc).
	BOOST_TYPEOF_REGISTER_TEMPLATE(ndnboost::overloaded_function,
	BOOST_FUNCTIONAL_overloads)

	# undef BOOST_FUNCTIONAL_overloads
	# undef BOOST_FUNCTIONAL_is_tspec
	#endif // iteration

	// DOCUMENTATION //

	#else // DOXYGEN

	/** @file
	@brief Overload distinct function pointers, function references, and
	monomorphic function objects into a single function object.
	*/

	namespace ndnboost {

	/**
	@brief Function object to overload functions with distinct signatures.

	This function object aggregates together calls to functions of all the
	specified function types <c>F1</c>, <c>F2</c>, etc which must have distinct
	function signatures from one another.

	@Params
	@Param{F<em>i</em>,
	Each function type must be specified using the following syntax (which is
	Boost.Function's preferred syntax):
	@code
	result_type (argument1_type\, argumgnet2_type\, ...)
	@endcode
	}
	@EndParams

	In some cases, the @RefFunc{make_overloaded_function} function template can be
	useful to construct an overloaded function object without explicitly
	specifying the function types.

	At least two distinct function types must be specified (because there is
	nothing to overload between one or zero functions).
	The maximum number of functions to overload is given by the
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}
	configuration macro.
	The maximum number of function parameters for each of the specified function
	types is given by the
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_ARITY_MAX}
	configuration macro.

	@See @RefSect{tutorial, Tutorial} section, @RefFunc{make_overloaded_function},
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX},
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_ARITY_MAX},
	Boost.Function.
	*/
	template<typename F1, typename F2, ...>
	class overloaded_function {
	public:
	/**
	@brief Construct the overloaded function object.

	Any function pointer, function reference, and monomorphic function object
	that can be converted to a <c>ndnboost::function</c> function object can be
	specified as parameter.

	@Note Unfortunately, it is not possible to support polymorphic function
	objects (as explained <a
	href="http://lists.boost.org/Archives/boost/2012/03/191744.php">here</a>).
	*/
	overloaded_function(const ndnboost::function<F1>&,
	const ndnboost::function<F2>&, ...);

	/**
	@brief Call operator matching the signature of the function type specified
	as 1st template parameter.

	This will in turn invoke the call operator of the 1st function passed to
	the constructor.
	*/
	typename ndnboost::function_traits<F1>::result_type operator()(
	typename ndnboost::function_traits<F1>::arg1_type,
	typename ndnboost::function_traits<F1>::arg2_type,
	...) const;

	/**
	@brief Call operator matching the signature of the function type specified
	as 2nd template parameter.

	This will in turn invoke the call operator of the 2nd function passed to
	the constructor.

	@Note Similar call operators are present for all specified function types
	<c>F1</c>, <c>F2</c>, etc (even if not exhaustively listed by this
	documentation).
	*/
	typename ndnboost::function_traits<F2>::result_type operator()(
	typename ndnboost::function_traits<F2>::arg1_type,
	typename ndnboost::function_traits<F2>::arg2_type,
	...) const;
	};

	/**
	@brief Make an overloaded function object without explicitly specifying the
	function types.

	This function template creates and returns an @RefClass{overloaded_function}
	object that overloads all the specified functions <c>f1</c>, <c>f2</c>, etc.

	The function types are internally determined from the template parameter types
	so they do not need to be explicitly specified.
	Therefore, this function template usually has a more concise syntax when
	compared with @RefClass{overloaded_function}.
	This is especially useful when the explicit type of the returned
	@RefClass{overloaded_function} object does not need to be known (e.g., when
	used with Boost.Typeof's <c>BOOST_AUTO</c>, C++11 <c>auto</c>, or when the
	overloaded function object is handled using a function template parameter, see
	the @RefSect{tutorial, Tutorial} section).

	The maximum number of functions to overload is given by the
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}
	configuration macro.

	@Note In this documentation, <c>__function_type__</c> is a placeholder for a
	symbol that is specific to the implementation of this library.

	@See @RefSect{tutorial, Tutorial} section, @RefClass{overloaded_function},
	@RefMacro{BOOST_FUNCTIONAL_OVERLOADED_FUNCTION_CONFIG_OVERLOAD_MAX}.
	*/
	template<typename F1, typename F2, ...>
	overloaded_function<
	__function_type__<F1>, __function_type__<F2>, ...
	> make_overloaded_function(F1 f1, F2 f2, ...);

	} // namespace

	#endif // DOXYGEN