.. Metafunctions/Concepts//Metafunction |10 Metafunction ============ Description ----------- .. _`nullary-metafunction`: A *metafunction* is a class or a class template that represents a function invocable at compile-time. An non-nullary metafunction is invoked by instantiating the class template with particular template parameters (metafunction arguments); the result of the metafunction application is accessible through the instantiation's nested ``type`` typedef. All metafunction's arguments must be types (i.e. only *type template parameters* are allowed). A metafunction can have a variable number of parameters. A *nullary metafunction* is represented as a (template) class with a nested ``type`` typename member. .. |nullary metafunction| replace:: `nullary-metafunction`_ Expression requirements ----------------------- |In the following table...| ``f`` is a |Metafunction|. +-------------------------------+-----------------------+---------------------------+ | Expression | Type | Complexity | +===============================+=======================+===========================+ | ``f::type`` | Any type | Unspecified. | +-------------------------------+-----------------------+---------------------------+ | ``f<>::type`` | Any type | Unspecified. | +-------------------------------+-----------------------+---------------------------+ | ``f::type`` | Any type | Unspecified. | +-------------------------------+-----------------------+---------------------------+ Expression semantics -------------------- .. parsed-literal:: typedef f::type x; :Precondition: ``f`` is a nullary |Metafunction|; ``f::type`` is a *type-name*. :Semantics: ``x`` is the result of the metafunction invocation. .. ................................................................................... .. parsed-literal:: typedef f<>::type x; :Precondition: ``f`` is a nullary |Metafunction|; ``f<>::type`` is a *type-name*. :Semantics: ``x`` is the result of the metafunction invocation. .. ................................................................................... .. parsed-literal:: typedef f::type x; :Precondition: ``f`` is an *n*-ary |Metafunction|; |a1...an| are types; ``f::type`` is a *type-name*. :Semantics: ``x`` is the result of the metafunction invocation with the actual arguments |a1...an|. Models ------ * |identity| * |plus| * |begin| * |insert| * |fold| See also -------- |Metafunctions|, |Metafunction Class|, |Lambda Expression|, |Invocation|, |apply|, |lambda|, |bind| .. copyright:: Copyright © 2001-2009 Aleksey Gurtovoy and David Abrahams Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)