/*! @file Forward declares `boost::hana::Metafunction`. @copyright Louis Dionne 2013-2016 Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt) */ #ifndef BOOST_HANA_FWD_CONCEPT_METAFUNCTION_HPP #define BOOST_HANA_FWD_CONCEPT_METAFUNCTION_HPP #include BOOST_HANA_NAMESPACE_BEGIN //! @ingroup group-concepts //! @defgroup group-Metafunction Metafunction //! A `Metafunction` is a function that takes `hana::type`s as inputs and //! returns a `hana::type` as output. //! //! A `Metafunction` is an object satisfying the [FunctionObject][1] //! concept, but with additional requirements. First, it must be possible //! to apply a `Metafunction` to arguments whose tag is `type_tag`, and //! the result of such an application must be an object whose tag is also //! `type_tag`. Note that `hana::type` and `hana::basic_type` are the //! only such types. //! //! Secondly, a `Metafunction` must provide a nested `::%apply` template //! which allows performing the same type-level computation as is done by //! the call operator. In Boost.MPL parlance, a `Metafunction` `F` is //! hence a [MetafunctionClass][2] in addition to being a `FunctionObject`. //! Rigorously, the following must be satisfied by any object `f` of type //! `F` which is a `Metafunction`, and for arbitrary types `T...`: //! @code //! f(hana::type_c...) == hana::type_c::type> //! @endcode //! //! Thirdly, to ease the inter-operation of values and types, //! `Metafunction`s must also allow being called with arguments that //! are not `hana::type`s. In that case, the result is equivalent to //! calling the metafunction on the types of the arguments. Rigorously, //! this means that for arbitrary objects `x...`, //! @code //! f(x...) == f(hana::type_c...) //! @endcode //! //! //! Minimal complete definition //! --------------------------- //! The `Metafunction` concept does not have a minimal complete definition //! in terms of tag-dispatched methods. Instead, the syntactic requirements //! documented above should be satisfied, and the `Metafunction` struct //! should be specialized explicitly in Hana's namespace. //! //! //! Concrete models //! --------------- //! `hana::metafunction`, `hana::metafunction_class`, `hana::template_` //! //! //! Rationale: Why aren't `Metafunction`s `Comparable`? //! --------------------------------------------------- //! When seeing `hana::template_`, a question that naturally arises is //! whether `Metafunction`s should be made `Comparable`. Indeed, it //! would seem to make sense to compare two templates `F` and `G` with //! `template_ == template_`. However, in the case where `F` and/or //! `G` are alias templates, it makes sense to talk about two types of //! comparisons. The first one is _shallow_ comparison, and it determines //! that two alias templates are equal if they are the same alias //! template. The second one is _deep_ comparison, and it determines //! that two template aliases are equal if they alias the same type for //! any template argument. For example, given `F` and `G` defined as //! @code //! template //! using F = void; //! //! template //! using G = void; //! @endcode //! //! shallow comparison would determine that `F` and `G` are different //! because they are two different template aliases, while deep comparison //! would determine that `F` and `G` are equal because they always //! expand to the same type, `void`. Unfortunately, deep comparison is //! impossible to implement because one would have to check `F` and `G` //! on all possible types. On the other hand, shallow comparison is not //! satisfactory because `Metafunction`s are nothing but functions on //! `type`s, and the equality of two functions is normally defined with //! deep comparison. Hence, we adopt a conservative stance and avoid //! providing comparison for `Metafunction`s. //! //! [1]: http://en.cppreference.com/w/cpp/concept/FunctionObject //! [2]: http://www.boost.org/doc/libs/release/libs/mpl/doc/refmanual/metafunction-class.html template struct Metafunction; BOOST_HANA_NAMESPACE_END #endif // !BOOST_HANA_FWD_CONCEPT_METAFUNCTION_HPP