/*============================================================================= Boost.Wave: A Standard compliant C++ preprocessor library http://www.boost.org/ Copyright (c) 2001-2010 Hartmut Kaiser. 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) =============================================================================*/ #if !defined(INTERPRET_PRAGMA_HPP_B1F2315E_C5CE_4ED1_A343_0EF548B7942A_INCLUDED) #define INTERPRET_PRAGMA_HPP_B1F2315E_C5CE_4ED1_A343_0EF548B7942A_INCLUDED #include #include #include #include #include #include #include #include #include #include #include #include #include #if !defined(spirit_append_actor) #define spirit_append_actor(actor) boost::spirit::classic::push_back_a(actor) #define spirit_assign_actor(actor) boost::spirit::classic::assign_a(actor) #endif // !defined(spirit_append_actor) // this must occur after all of the includes and before any code appears #ifdef BOOST_HAS_ABI_HEADERS #include BOOST_ABI_PREFIX #endif /////////////////////////////////////////////////////////////////////////////// namespace boost { namespace wave { namespace util { /////////////////////////////////////////////////////////////////////////////// // // The function interpret_pragma interprets the given token sequence as the // body of a #pragma directive (or parameter to the _Pragma operator) and // executes the actions associated with recognized Wave specific options. // /////////////////////////////////////////////////////////////////////////////// template inline bool interpret_pragma(ContextT &ctx, typename ContextT::token_type const &act_token, IteratorT it, IteratorT const &end, ContainerT &pending) { typedef typename ContextT::token_type token_type; typedef typename token_type::string_type string_type; using namespace cpplexer; if (T_IDENTIFIER == token_id(*it)) { // check for pragma wave ... if ((*it).get_value() == BOOST_WAVE_PRAGMA_KEYWORD) { // this is a wave specific option, it should have the form: // // #pragma command option(value) // // where // 'command' is the value of the preprocessor constant // BOOST_WAVE_PRAGMA_KEYWORD (defaults to "wave") and // '(value)' is required only for some pragma directives (this is // optional) // // All recognized #pragma operators are forwarded to the supplied // preprocessing hook. using namespace boost::spirit::classic; token_type option; ContainerT values; if (!parse (++it, end, ( ch_p(T_IDENTIFIER) [ spirit_assign_actor(option) ] | pattern_p(KeywordTokenType, TokenTypeMask|PPTokenFlag) [ spirit_assign_actor(option) ] | pattern_p(OperatorTokenType|AltExtTokenType, ExtTokenTypeMask|PPTokenFlag) // and, bit_and etc. [ spirit_assign_actor(option) ] | pattern_p(BoolLiteralTokenType, TokenTypeMask|PPTokenFlag) [ spirit_assign_actor(option) ] ) >> !comment_nest_p( ch_p(T_LEFTPAREN), ch_p(T_RIGHTPAREN) )[spirit_assign_actor(values)], pattern_p(WhiteSpaceTokenType, TokenTypeMask|PPTokenFlag)).hit) { typename ContextT::string_type msg( impl::as_string(it, end)); BOOST_WAVE_THROW_CTX(ctx, preprocess_exception, ill_formed_pragma_option, msg.c_str(), act_token.get_position()); return false; } // remove the falsely matched surrounding parenthesis's if (values.size() >= 2) { BOOST_ASSERT(T_LEFTPAREN == values.front() && T_RIGHTPAREN == values.back()); values.erase(values.begin()); typename ContainerT::reverse_iterator rit = values.rbegin(); values.erase((++rit).base()); } // decode the option (call the context_policy hook) if (!ctx.get_hooks().interpret_pragma( ctx.derived(), pending, option, values, act_token)) { // unknown #pragma option string_type option_str ((*it).get_value()); option_str += option.get_value(); if (values.size() > 0) { option_str += "("; option_str += impl::as_string(values); option_str += ")"; } BOOST_WAVE_THROW_CTX(ctx, preprocess_exception, ill_formed_pragma_option, option_str.c_str(), act_token.get_position()); return false; } return true; } #if BOOST_WAVE_SUPPORT_PRAGMA_ONCE != 0 else if ((*it).get_value() == "once") { // #pragma once return ctx.add_pragma_once_header(act_token, ctx.get_current_filename()); } #endif #if BOOST_WAVE_SUPPORT_PRAGMA_MESSAGE != 0 else if ((*it).get_value() == "message") { // #pragma message(...) or #pragma message ... using namespace boost::spirit::classic; ContainerT values; if (!parse (++it, end, ( ( ch_p(T_LEFTPAREN) >> lexeme_d[ *(anychar_p[spirit_append_actor(values)] - ch_p(T_RIGHTPAREN)) ] >> ch_p(T_RIGHTPAREN) ) | lexeme_d[ *(anychar_p[spirit_append_actor(values)] - ch_p(T_NEWLINE)) ] ), pattern_p(WhiteSpaceTokenType, TokenTypeMask|PPTokenFlag) ).hit ) { typename ContextT::string_type msg( impl::as_string(it, end)); BOOST_WAVE_THROW_CTX(ctx, preprocess_exception, ill_formed_pragma_message, msg.c_str(), act_token.get_position()); return false; } // remove the falsely matched closing parenthesis/newline if (values.size() > 0) { BOOST_ASSERT(T_RIGHTPAREN == values.back() || T_NEWLINE == values.back()); typename ContainerT::reverse_iterator rit = values.rbegin(); values.erase((++rit).base()); } // output the message itself typename ContextT::string_type msg(impl::as_string(values)); BOOST_WAVE_THROW_CTX(ctx, preprocess_exception, pragma_message_directive, msg.c_str(), act_token.get_position()); return false; } #endif } return false; } /////////////////////////////////////////////////////////////////////////////// } // namespace util } // namespace wave } // namespace boost // the suffix header occurs after all of the code #ifdef BOOST_HAS_ABI_HEADERS #include BOOST_ABI_SUFFIX #endif #endif // !defined(INTERPRET_PRAGMA_HPP_B1F2315E_C5CE_4ED1_A343_0EF548B7942A_INCLUDED)