// (C) Copyright Edward Diener 2011,2012 // Use, modification and distribution are subject to 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). #if !defined(BOOST_TTI_HAS_TEMPLATE_HPP) #define BOOST_TTI_HAS_TEMPLATE_HPP /* The succeeding comments in this file are in doxygen format. */ /** \file */ #include #include #include #if BOOST_PP_VARIADICS #include #include #include #include /// A macro which expands to a metafunction which tests whether an inner class template with a particular name exists. /** BOOST_TTI_TRAIT_HAS_TEMPLATE is a macro which expands to a metafunction. The metafunction tests whether an inner class template with a particular name exists. The macro takes the form of BOOST_TTI_TRAIT_HAS_TEMPLATE(trait,...) where trait = the name of the metafunction
... = variadic parameters. The first variadic parameter is the inner class template name. Following variadic parameters are optional. If no following variadic parameters exist, then the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. If the second variadic parameter is BOOST_PP_NIL and no other variadic parameter is given, then just as in the previous case the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. This form is allowed in order to be consistent with using the non-variadic form of this macro. If the second variadic parameter is a Boost preprocessor library array and no other variadic parameter is given, then the inner class template must have its template parameters matching the sequence in the tuple portion of the Boost PP array. This form is allowed in order to be consistent with using the non-variadic form of this macro. Otherwise the inner class template must have its template parameters matching the sequence of the optional variadic parameters. BOOST_TTI_TRAIT_HAS_TEMPLATE generates a metafunction called "trait" where 'trait' is the first macro parameter. @code template struct trait { static const value = unspecified; typedef mpl::bool_ type; }; The metafunction types and return: BOOST_TTI_TP_T = the enclosing type in which to look for our 'name'. The enclosing type can be a class, struct, or union. returns = 'value' is true if the 'name' template exists within the enclosing type, otherwise 'value' is false. @endcode Examples: @code 1) Search for an inner class template called 'MyTemplate', with all template type parameters, nested within the class 'MyClass' using a metafunction name of 'MyMeta'. BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate) or BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate,BOOST_PP_NIL) // Non-variadic macro form MyMeta::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. 2) Search for an inner class template called 'MyTemplate', with template parameters of 'class T,int x,template class U', nested within the class 'MyClass' using a metafunction name of 'MyMeta'. BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate,class,int,template class) or BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate,(3,(class,int,template class))) // Non-variadic macro form MyMeta::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. @endcode */ #define BOOST_TTI_TRAIT_HAS_TEMPLATE(trait,...) \ BOOST_PP_IIF \ ( \ BOOST_PP_EQUAL \ ( \ BOOST_PP_VARIADIC_SIZE(__VA_ARGS__), \ 1 \ ), \ BOOST_TTI_DETAIL_VM_TRAIT_HAS_TEMPLATE, \ BOOST_TTI_DETAIL_VM_CHECK_MORE_THAN_TWO \ ) \ (trait,__VA_ARGS__) \ /**/ /// A macro which expands to a metafunction which tests whether an inner class template with a particular name exists. /** BOOST_TTI_HAS_TEMPLATE is a macro which expands to a metafunction. The metafunction tests whether an inner class template with a particular name exists. The macro takes the form of BOOST_TTI_HAS_TEMPLATE(...) where ... = variadic parameters. The first variadic parameter is the inner class template name. Following variadic parameters are optional. If no following variadic parameters exist, then the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. If the second variadic parameter is BOOST_PP_NIL and no other variadic parameter is given, then just as in the previous case the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. This form is allowed in order to be consistent with using the non-variadic form of this macro. If the second variadic parameter is a Boost preprocessor library array and no other variadic parameter is given, then the inner class template must have its template parameters matching the sequence in the tuple portion of the Boost PP array. This form is allowed in order to be consistent with using the non-variadic form of this macro. Otherwise the inner class template must have its template parameters matching the sequence of the optional variadic parameters. BOOST_TTI_HAS_TEMPLATE generates a metafunction called "has_template_'name'" where 'name' is the first variadic parameter. @code template struct has_template_'name' { static const value = unspecified; typedef mpl::bool_ type; }; The metafunction types and return: BOOST_TTI_TP_T = the enclosing type in which to look for our 'name'. The enclosing type can be a class, struct, or union. returns = 'value' is true if the 'name' template exists within the enclosing type, otherwise 'value' is false. @endcode Examples: @code 1) Search for an inner class template called 'MyTemplate', with all template type parameters, nested within the class 'MyClass'. BOOST_TTI_HAS_TEMPLATE(MyTemplate) or BOOST_TTI_HAS_TEMPLATE(MyTemplate,BOOST_PP_NIL) // Non-variadic macro form has_template_MyTemplate::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. 2) Search for an inner class template called 'MyTemplate' with template parameters of 'class T,int x,template class U' nested within the class 'MyClass'. BOOST_TTI_HAS_TEMPLATE(MyTemplate,class,int,template class) or BOOST_TTI_HAS_TEMPLATE(MyTemplate,(3,(class,int,template class))) // Non-variadic macro form has_template_MyTemplate::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. @endcode */ #define BOOST_TTI_HAS_TEMPLATE(...) \ BOOST_TTI_TRAIT_HAS_TEMPLATE \ ( \ BOOST_TTI_HAS_TEMPLATE_GEN \ ( \ BOOST_PP_VARIADIC_ELEM(0,__VA_ARGS__) \ ), \ __VA_ARGS__ \ ) \ /**/ #else // !BOOST_PP_VARIADICS #include #include #include /// A macro which expands to a metafunction which tests whether an inner class template with a particular name exists. /** BOOST_TTI_TRAIT_HAS_TEMPLATE is a macro which expands to a metafunction. The metafunction tests whether an inner class template with a particular name exists. The macro takes the form of BOOST_TTI_TRAIT_HAS_TEMPLATE(trait,name,params) where trait = the name of the metafunction
name = the inner class template name
params = If the parameter is BOOST_PP_NIL the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. If the parameter is a Boost preprocessor library array, then the inner class template must have its template parameters matching the sequence in the tuple portion of the Boost PP array. If the parameter is anything else a compiler error occurs. BOOST_TTI_TRAIT_HAS_TEMPLATE generates a metafunction called "trait" where 'trait' is the first macro parameter. @code template struct trait { static const value = unspecified; typedef mpl::bool_ type; }; The metafunction types and return: BOOST_TTI_TP_T = the enclosing type in which to look for our 'name'. The enclosing type can be a class, struct, or union. returns = 'value' is true if the 'name' template exists within the enclosing type, otherwise 'value' is false. @endcode Examples: @code 1) Search for an inner class template called 'MyTemplate', with all template type parameters, nested within the class 'MyClass' using a metafunction name of 'MyMeta'. BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate,BOOST_PP_NIL) MyMeta::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. 2) Search for an inner class template called 'MyTemplate', with template parameters of 'class T,int x,template class U', nested within the class 'MyClass' using a metafunction name of 'MyMeta'. BOOST_TTI_TRAIT_HAS_TEMPLATE(MyMeta,MyTemplate,(3,(class,int,template class))) MyMeta::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. @endcode */ #define BOOST_TTI_TRAIT_HAS_TEMPLATE(trait,name,params) \ BOOST_PP_IIF \ ( \ BOOST_PP_IS_BINARY(params), \ BOOST_TTI_DETAIL_TRAIT_HAS_TEMPLATE_CHECK_PARAMS, \ BOOST_TTI_DETAIL_TRAIT_CHECK_IS_NIL \ ) \ (trait,name,params) \ /**/ /// A macro which expands to a metafunction which tests whether an inner class template with a particular name exists. /** BOOST_TTI_HAS_TEMPLATE is a macro which expands to a metafunction. The metafunction tests whether an inner class template with a particular name exists. The macro takes the form of BOOST_TTI_HAS_TEMPLATE(name,params) where name = the inner class template name
params = If the parameter is BOOST_PP_NIL the inner class template being introspected must be all template type parameters ( template parameters starting with `class` or `typename` ) and any number of template type parameters can occur. If the parameter is a Boost preprocessor library array, then the inner class template must have its template parameters matching the sequence in the tuple portion of the Boost PP array. If the parameter is anything else a compiler error occurs. BOOST_TTI_HAS_TEMPLATE generates a metafunction called "has_template_'name'" where 'name' is the first macro parameter. @code template struct has_template_'name' { static const value = unspecified; typedef mpl::bool_ type; }; The metafunction types and return: BOOST_TTI_TP_T = the enclosing type in which to look for our 'name'. The enclosing type can be a class, struct, or union. returns = 'value' is true if the 'name' template exists within the enclosing type, otherwise 'value' is false. @endcode Examples: @code 1) Search for an inner class template called 'MyTemplate', with all template type parameters, nested within the class 'MyClass'. BOOST_TTI_HAS_TEMPLATE(MyTemplate,BOOST_PP_NIL) has_template_MyTemplate::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. 2) Search for an inner class template called 'MyTemplate' with template parameters of 'class T,int x,template class U' nested within the class 'MyClass'. BOOST_TTI_HAS_TEMPLATE(MyTemplate,(3,(class,int,template class))) has_template_MyTemplate::value is a compile time boolean constant which is either 'true' or 'false' if the nested template exists. @endcode */ #define BOOST_TTI_HAS_TEMPLATE(name,params) \ BOOST_TTI_TRAIT_HAS_TEMPLATE \ ( \ BOOST_TTI_HAS_TEMPLATE_GEN(name), \ name, \ params \ ) \ /**/ #endif // BOOST_PP_VARIADICS #endif // BOOST_TTI_HAS_TEMPLATE_HPP