/////////////////////////////////////////////////////////////////////////////// /// \file proto_fwd.hpp /// Forward declarations of all of proto's public types and functions. // // Copyright 2007 Eric Niebler. 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) #ifndef BOOST_PROTO_FWD_HPP_EAN_04_01_2005 #define BOOST_PROTO_FWD_HPP_EAN_04_01_2005 #include // must be first include #include #include #include #include #include #include #include #include #include #include #ifndef BOOST_PROTO_MAX_ARITY # define BOOST_PROTO_MAX_ARITY 5 #endif #ifndef BOOST_PROTO_MAX_LOGICAL_ARITY # define BOOST_PROTO_MAX_LOGICAL_ARITY 8 #endif #if BOOST_WORKAROUND(__GNUC__, == 3) \ || BOOST_WORKAROUND(__EDG_VERSION__, BOOST_TESTED_AT(306)) # define BOOST_PROTO_BROKEN_CONST_OVERLOADS #endif #ifdef BOOST_PROTO_BROKEN_CONST_OVERLOADS # include # include # define BOOST_PROTO_DISABLE_IF_IS_CONST(T)\ , typename boost::disable_if >::type * = 0 #else # define BOOST_PROTO_DISABLE_IF_IS_CONST(T) #endif #include // must be last include namespace boost { namespace proto { namespace detail { typedef char yes_type; typedef char (&no_type)[2]; struct dont_care { dont_care(...); }; template struct remove_cv_ref : remove_cv::type> {}; } /////////////////////////////////////////////////////////////////////////////// // Operator tags namespace tag { struct terminal; struct posit; struct negate; struct dereference; struct complement; struct address_of; struct logical_not; struct pre_inc; struct pre_dec; struct post_inc; struct post_dec; struct shift_left; struct shift_right; struct multiplies; struct divides; struct modulus; struct plus; struct minus; struct less; struct greater; struct less_equal; struct greater_equal; struct equal_to; struct not_equal_to; struct logical_or; struct logical_and; struct bitwise_and; struct bitwise_or; struct bitwise_xor; struct comma; struct mem_ptr; struct assign; struct shift_left_assign; struct shift_right_assign; struct multiplies_assign; struct divides_assign; struct modulus_assign; struct plus_assign; struct minus_assign; struct bitwise_and_assign; struct bitwise_or_assign; struct bitwise_xor_assign; struct subscript; struct if_else_; struct function; // Fusion tags struct proto_expr; struct proto_ref; struct proto_ref_iterator; } namespace wildcardns_ { struct _; } using wildcardns_::_; namespace generatorns_ { struct default_generator; template class Extends> struct generator; template class Extends> struct pod_generator; template struct by_value_generator; } using generatorns_::default_generator; using generatorns_::generator; using generatorns_::pod_generator; using generatorns_::by_value_generator; namespace domainns_ { template struct domain; struct default_domain; struct deduce_domain; } using domainns_::domain; using domainns_::default_domain; using domainns_::deduce_domain; namespace exprns_ { template struct expr; template< typename Expr , typename Derived , typename Domain = default_domain , typename Tag = typename Expr::proto_tag > struct extends; struct is_proto_expr; } using exprns_::expr; using exprns_::extends; using exprns_::is_proto_expr; namespace refns_ { template struct ref_; } using refns_::ref_; namespace control { template< typename Grammar0 , typename Grammar1 , BOOST_PP_ENUM_PARAMS_WITH_A_DEFAULT(BOOST_PP_SUB(BOOST_PROTO_MAX_LOGICAL_ARITY,2), typename G, void) > struct or_; template< typename Grammar0 , typename Grammar1 , BOOST_PP_ENUM_PARAMS_WITH_A_DEFAULT(BOOST_PP_SUB(BOOST_PROTO_MAX_LOGICAL_ARITY,2), typename G, void) > struct and_; template struct if_; template struct switch_; template struct not_; template struct exact; template struct convertible_to; template struct vararg; int const N = INT_MAX; } using control::if_; using control::or_; using control::and_; using control::not_; using control::switch_; using control::exact; using control::convertible_to; using control::vararg; using control::N; namespace context { struct null_context; template struct null_eval; struct default_context; template struct default_eval; template struct callable_context; template struct callable_eval; } using context::null_context; using context::null_eval; using context::default_context; using context::default_eval; using context::callable_context; using context::callable_eval; namespace utility { template struct literal; } using utility::literal; namespace result_of { template struct as_expr; template struct as_arg; template > struct arg; template struct arg_c; template struct left; template struct right; template struct deep_copy; template struct unref; template struct eval; template< typename Tag BOOST_PP_ENUM_TRAILING_BINARY_PARAMS( BOOST_PROTO_MAX_ARITY , typename A , = void BOOST_PP_INTERCEPT ) , typename _1 = void , typename _2 = void > struct make_expr; template struct unpack_expr; template struct is_ref; template struct is_expr; template struct is_domain; template struct tag_of; template struct domain_of; template struct id; template struct matches; } using proto::result_of::is_ref; using proto::result_of::is_expr; using proto::result_of::is_domain; using proto::result_of::tag_of; using proto::result_of::domain_of; using proto::result_of::id; using proto::result_of::matches; namespace op { // Generic expression generators template struct unary_expr; template struct binary_expr; template struct nary_expr; // Specific expression generators, for convenience template struct terminal; template struct posit; template struct negate; template struct dereference; template struct complement; template struct address_of; template struct logical_not; template struct pre_inc; template struct pre_dec; template struct post_inc; template struct post_dec; template struct shift_left; template struct shift_right; template struct multiplies; template struct divides; template struct modulus; template struct plus; template struct minus; template struct less; template struct greater; template struct less_equal; template struct greater_equal; template struct equal_to; template struct not_equal_to; template struct logical_or; template struct logical_and; template struct bitwise_and; template struct bitwise_or; template struct bitwise_xor; template struct comma; template struct mem_ptr; template struct assign; template struct shift_left_assign; template struct shift_right_assign; template struct multiplies_assign; template struct divides_assign; template struct modulus_assign; template struct plus_assign; template struct minus_assign; template struct bitwise_and_assign; template struct bitwise_or_assign; template struct bitwise_xor_assign; template struct subscript; template struct if_else_; template struct function; } using namespace op; namespace functional { struct left; struct right; struct unref; struct deep_copy; template struct as_expr; template struct as_arg; template > struct arg; template struct arg_c; template struct make_expr; template struct unpack_expr; template struct unfused_expr_fun; template struct unfused_expr; } #define BOOST_PROTO_IDENTITY_TRANSFORM()\ template\ static Expr_ const &call(Expr_ const &expr_, State_ const &, Visitor_ &)\ {\ return expr_;\ }\ template\ struct apply\ {\ typedef Expr_ type;\ } namespace transform { namespace detail { using proto::detail::yes_type; using proto::detail::no_type; struct default_factory; no_type is_wildcard_expression_fun(...); template struct is_wildcard_expression; } template > struct arg; template struct arg_c; template struct left; template struct right; template struct state; template struct visitor; template struct identity; template struct always; template struct apply1; template struct apply2; template struct apply3; template struct branch; template struct fold; template struct reverse_fold; template struct fold_tree; template struct reverse_fold_tree; template struct function1; template struct function2; template struct function3; template struct list; template struct tail; template struct pass_through; template struct construct; template struct pod_construct; } namespace has_transformns_ { template struct has_pass_through_transform; struct has_identity_transform { BOOST_PROTO_IDENTITY_TRANSFORM(); }; } using has_transformns_::has_identity_transform; using has_transformns_::has_pass_through_transform; template struct is_transform; template struct is_extension; namespace exops {} }} // namespace boost::proto #endif