/////////////////////////////////////////////////////////////////////////////// /// \file proto_fwd.hpp /// Forward declarations of all of proto's public types and functions. // // Copyright 2008 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef BOOST_PROTO_MAX_ARITY # define BOOST_PROTO_MAX_ARITY 10 #endif #ifndef BOOST_PROTO_MAX_LOGICAL_ARITY # define BOOST_PROTO_MAX_LOGICAL_ARITY 10 #endif #ifndef BOOST_PROTO_MAX_FUNCTION_CALL_ARITY # define BOOST_PROTO_MAX_FUNCTION_CALL_ARITY BOOST_PROTO_MAX_ARITY #endif #if BOOST_PROTO_MAX_ARITY < 3 # error BOOST_PROTO_MAX_ARITY must be at least 3 #endif #if BOOST_PROTO_MAX_FUNCTION_CALL_ARITY > BOOST_PROTO_MAX_ARITY # error BOOST_PROTO_MAX_FUNCTION_CALL_ARITY cannot be larger than BOOST_PROTO_MAX_ARITY #endif #ifndef BOOST_PROTO_DONT_USE_PREPROCESSED_FILES #if 10 < BOOST_PROTO_MAX_ARITY || \ 10 < BOOST_PROTO_MAX_LOGICAL_ARITY || \ 10 < BOOST_PROTO_MAX_FUNCTION_CALL_ARITY #define BOOST_PROTO_DONT_USE_PREPROCESSED_FILES #endif #endif #ifndef BOOST_PROTO_BROKEN_CONST_OVERLOADS # if BOOST_WORKAROUND(__GNUC__, == 3) \ || BOOST_WORKAROUND(__EDG_VERSION__, BOOST_TESTED_AT(310)) # define BOOST_PROTO_BROKEN_CONST_OVERLOADS # endif #endif #ifndef BOOST_PROTO_BROKEN_CONST_QUALIFIED_FUNCTIONS # if BOOST_WORKAROUND(__GNUC__, == 3) \ || BOOST_WORKAROUND(__EDG_VERSION__, BOOST_TESTED_AT(310)) # define BOOST_PROTO_BROKEN_CONST_QUALIFIED_FUNCTIONS # endif #endif #ifdef BOOST_PROTO_BROKEN_CONST_OVERLOADS # include # include # define BOOST_PROTO_DISABLE_IF_IS_CONST(T)\ , typename boost::disable_if_c::value, boost::proto::detail::undefined>::type * = 0 #else # define BOOST_PROTO_DISABLE_IF_IS_CONST(T) #endif #ifdef BOOST_PROTO_BROKEN_CONST_QUALIFIED_FUNCTIONS # include # include # define BOOST_PROTO_DISABLE_IF_IS_FUNCTION(T)\ , typename boost::disable_if_c::value, boost::proto::detail::undefined>::type * = 0 #else # define BOOST_PROTO_DISABLE_IF_IS_FUNCTION(T) #endif #ifndef BOOST_PROTO_BROKEN_PTS # if BOOST_WORKAROUND(BOOST_MSVC, <= 1400) # define BOOST_PROTO_BROKEN_PTS # endif #endif #ifdef BOOST_NO_CXX11_DECLTYPE_N3276 # // Proto can only use the decltype-based result_of if N3276 has been # // implemented by the compiler. # // See http://www.open-std.org/JTC1/SC22/WG21/docs/papers/2011/n3276.pdf # ifndef BOOST_PROTO_USE_NORMAL_RESULT_OF # define BOOST_PROTO_USE_NORMAL_RESULT_OF # endif #endif // Unless compiler support is there, use tr1_result_of instead of // result_of to avoid the problems addressed by N3276. #ifdef BOOST_PROTO_USE_NORMAL_RESULT_OF # define BOOST_PROTO_RESULT_OF boost::result_of #else # define BOOST_PROTO_RESULT_OF boost::tr1_result_of #endif // If we're using the decltype-based result_of, we need to be a bit // stricter about the return types of some functions. #if defined(BOOST_RESULT_OF_USE_DECLTYPE) && defined(BOOST_PROTO_USE_NORMAL_RESULT_OF) # define BOOST_PROTO_STRICT_RESULT_OF # define BOOST_PROTO_RETURN_TYPE_STRICT_LOOSE(X, Y) X #else # define BOOST_PROTO_RETURN_TYPE_STRICT_LOOSE(X, Y) Y #endif #ifdef BOOST_MPL_CFG_EXTENDED_TEMPLATE_PARAMETERS_MATCHING # define BOOST_PROTO_EXTENDED_TEMPLATE_PARAMETERS_MATCHING #endif #if defined(_MSC_VER) && (_MSC_VER >= 1020) # define BOOST_PROTO_DISABLE_MSVC_C4522 __pragma(warning(disable : 4522)) // 'class' : multiple assignment operators specified # define BOOST_PROTO_DISABLE_MSVC_C4714 __pragma(warning(disable : 4714)) // function 'xxx' marked as __forceinline not inlined #else # define BOOST_PROTO_DISABLE_MSVC_C4522 # define BOOST_PROTO_DISABLE_MSVC_C4714 #endif namespace boost { namespace proto { namespace detail { typedef char yes_type; typedef char (&no_type)[2]; template struct sized_type { typedef char (&type)[N]; }; struct dont_care; struct undefined; // leave this undefined struct not_a_valid_type; struct private_type_ { private_type_ operator ,(int) const; }; template struct uncvref { typedef T type; }; template struct uncvref { typedef T type; }; template struct uncvref { typedef T type; }; template struct uncvref { typedef T type; }; template struct uncvref { typedef T type[N]; }; template struct uncvref { typedef T type[N]; }; template struct uncvref { typedef T type[N]; }; struct ignore { ignore() {} template ignore(T const &) {} }; /// INTERNAL ONLY /// #define BOOST_PROTO_UNCVREF(X) \ typename boost::proto::detail::uncvref::type \ /**/ struct _default; struct not_a_domain; struct not_a_grammar; struct not_a_generator; template struct is_transform_; template struct is_aggregate_; template struct flat_view; } typedef detail::ignore const ignore; namespace argsns_ { template struct term; #define M0(Z, N, DATA) \ template struct BOOST_PP_CAT(list, N); \ /**/ BOOST_PP_REPEAT_FROM_TO(1, BOOST_PP_INC(BOOST_PROTO_MAX_ARITY), M0, ~) #undef M0 } using namespace argsns_; /////////////////////////////////////////////////////////////////////////////// // Operator tags namespace tagns_ { namespace tag { struct terminal; struct unary_plus; 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 member; struct if_else_; struct function; // Fusion tags template struct proto_expr; template struct proto_expr_iterator; template struct proto_flat_view; } } using namespace tagns_; template struct tag_of; //////////////////////////////////////////////////////////////////////////////////////////////// struct _; //////////////////////////////////////////////////////////////////////////////////////////////// struct default_generator; struct basic_default_generator; template class Extends> struct generator; template class Extends> struct pod_generator; struct by_value_generator; template struct compose_generators; template struct wants_basic_expr; template struct use_basic_expr; //////////////////////////////////////////////////////////////////////////////////////////////// namespace domainns_ { typedef detail::not_a_domain no_super_domain; template< typename Generator = default_generator , typename Grammar = proto::_ , typename Super = no_super_domain > struct domain; struct default_domain; struct basic_default_domain; struct deduce_domain; template::value> struct base_expr; } using namespace domainns_; //////////////////////////////////////////////////////////////////////////////////////////////// namespace exprns_ { template struct basic_expr; template struct expr; template< typename Expr , typename Derived , typename Domain = default_domain , long Arity = Expr::proto_arity_c > struct extends; template struct virtual_member; struct is_proto_expr; } //////////////////////////////////////////////////////////////////////////////////////////////// using exprns_::expr; using exprns_::basic_expr; using exprns_::extends; using exprns_::is_proto_expr; template struct or_; template struct and_; template struct not_; template > struct if_; template()> struct switch_; template struct exact; template struct convertible_to; template struct vararg; struct pack; // Boost bug https://svn.boost.org/trac/boost/ticket/4602 //int const N = INT_MAX; int const N = (INT_MAX >> 10); 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_child; template > struct child; template struct child_c; template struct left; template struct right; template struct deep_copy; template struct eval; template< typename Tag , typename DomainOrA0 BOOST_PP_ENUM_TRAILING_BINARY_PARAMS( BOOST_PROTO_MAX_ARITY , typename A , = void BOOST_PP_INTERCEPT ) , typename Void = void > struct make_expr; template struct unpack_expr; template struct as_env; template struct has_env_var; template struct env_var; } template struct is_expr; template struct is_domain; template struct is_sub_domain_of; template struct is_env; template struct arity_of; template struct domain_of; template struct matches; // Generic expression metafunctions and // grammar elements template struct unary_expr; template struct binary_expr; template struct nary_expr; // Specific expression metafunctions and // grammar elements, for convenience template struct terminal; template struct unary_plus; 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 member; template struct if_else_; template struct function; namespace functional { struct left; struct right; struct eval; struct deep_copy; template struct as_expr; template struct as_child; template > struct child; template struct child_c; struct as_env; template struct has_env_var; template struct env_var; template struct make_expr; template struct unpack_expr; typedef make_expr make_terminal; typedef make_expr make_unary_plus; typedef make_expr make_negate; typedef make_expr make_dereference; typedef make_expr make_complement; typedef make_expr make_address_of; typedef make_expr make_logical_not; typedef make_expr make_pre_inc; typedef make_expr make_pre_dec; typedef make_expr make_post_inc; typedef make_expr make_post_dec; typedef make_expr make_shift_left; typedef make_expr make_shift_right; typedef make_expr make_multiplies; typedef make_expr make_divides; typedef make_expr make_modulus; typedef make_expr make_plus; typedef make_expr make_minus; typedef make_expr make_less; typedef make_expr make_greater; typedef make_expr make_less_equal; typedef make_expr make_greater_equal; typedef make_expr make_equal_to; typedef make_expr make_not_equal_to; typedef make_expr make_logical_or; typedef make_expr make_logical_and; typedef make_expr make_bitwise_and; typedef make_expr make_bitwise_or; typedef make_expr make_bitwise_xor; typedef make_expr make_comma; typedef make_expr make_mem_ptr; typedef make_expr make_assign; typedef make_expr make_shift_left_assign; typedef make_expr make_shift_right_assign; typedef make_expr make_multiplies_assign; typedef make_expr make_divides_assign; typedef make_expr make_modulus_assign; typedef make_expr make_plus_assign; typedef make_expr make_minus_assign; typedef make_expr make_bitwise_and_assign; typedef make_expr make_bitwise_or_assign; typedef make_expr make_bitwise_xor_assign; typedef make_expr make_subscript; typedef make_expr make_if_else; typedef make_expr make_function; struct flatten; struct make_pair; struct first; struct second; struct at; struct pop_front; struct push_front; struct pop_back; struct push_back; struct reverse; } typedef functional::flatten _flatten; typedef functional::make_pair _make_pair; typedef functional::first _first; typedef functional::second _second; typedef functional::pop_front _at; typedef functional::pop_front _pop_front; typedef functional::push_front _push_front; typedef functional::pop_back _pop_back; typedef functional::push_back _push_back; typedef functional::reverse _reverse; typedef functional::eval _eval; struct _deep_copy; typedef functional::make_expr _make_terminal; typedef functional::make_expr _make_unary_plus; typedef functional::make_expr _make_negate; typedef functional::make_expr _make_dereference; typedef functional::make_expr _make_complement; typedef functional::make_expr _make_address_of; typedef functional::make_expr _make_logical_not; typedef functional::make_expr _make_pre_inc; typedef functional::make_expr _make_pre_dec; typedef functional::make_expr _make_post_inc; typedef functional::make_expr _make_post_dec; typedef functional::make_expr _make_shift_left; typedef functional::make_expr _make_shift_right; typedef functional::make_expr _make_multiplies; typedef functional::make_expr _make_divides; typedef functional::make_expr _make_modulus; typedef functional::make_expr _make_plus; typedef functional::make_expr _make_minus; typedef functional::make_expr _make_less; typedef functional::make_expr _make_greater; typedef functional::make_expr _make_less_equal; typedef functional::make_expr _make_greater_equal; typedef functional::make_expr _make_equal_to; typedef functional::make_expr _make_not_equal_to; typedef functional::make_expr _make_logical_or; typedef functional::make_expr _make_logical_and; typedef functional::make_expr _make_bitwise_and; typedef functional::make_expr _make_bitwise_or; typedef functional::make_expr _make_bitwise_xor; typedef functional::make_expr _make_comma; typedef functional::make_expr _make_mem_ptr; typedef functional::make_expr _make_assign; typedef functional::make_expr _make_shift_left_assign; typedef functional::make_expr _make_shift_right_assign; typedef functional::make_expr _make_multiplies_assign; typedef functional::make_expr _make_divides_assign; typedef functional::make_expr _make_modulus_assign; typedef functional::make_expr _make_plus_assign; typedef functional::make_expr _make_minus_assign; typedef functional::make_expr _make_bitwise_and_assign; typedef functional::make_expr _make_bitwise_or_assign; typedef functional::make_expr _make_bitwise_xor_assign; typedef functional::make_expr _make_subscript; typedef functional::make_expr _make_if_else; typedef functional::make_expr _make_function; template struct is_callable; template struct is_transform; template struct is_aggregate; #define BOOST_PROTO_UNEXPR() typedef int proto_is_expr_; #define BOOST_PROTO_CALLABLE() typedef void proto_is_callable_; #define BOOST_PROTO_AGGREGATE() typedef void proto_is_aggregate_; #define BOOST_PROTO_USE_BASIC_EXPR() typedef void proto_use_basic_expr_; struct callable { BOOST_PROTO_CALLABLE() }; namespace envns_ { struct key_not_found; struct empty_env; typedef int empty_state; template struct env; struct data_type; struct transforms_type; } using envns_::key_not_found; using envns_::empty_env; using envns_::empty_state; using envns_::env; using envns_::data_type; using envns_::transforms_type; struct external_transform; template struct transform; template struct when; template struct otherwise; template struct call; template struct make; template struct protect; template struct noinvoke; template struct lazy; template struct fold; template struct reverse_fold; // Q: can we replace fold_tree with fold ? // A: once segmented Fusion works well. template struct fold_tree; template struct reverse_fold_tree; template struct pass_through; template struct _default; struct _expr; struct _state; struct _data; struct _value; struct _void; template struct integral_c; template struct char_; template struct int_; template struct long_; template struct size_t; template struct _child_c; typedef _child_c<0> _child0; typedef _child_c<1> _child1; typedef _child0 _child; typedef _child0 _left; typedef _child1 _right; // _child2, _child3, _child4, ... #define M0(Z, N, DATA) typedef _child_c BOOST_PP_CAT(_child, N); BOOST_PP_REPEAT_FROM_TO( 2 , BOOST_PP_DEC(BOOST_PROTO_MAX_ARITY) , M0 , ~ ) #undef M0 struct _byref; struct _byval; template struct _env_var; struct _env; template struct is_extension; namespace exops = exprns_; }} // namespace boost::proto #endif