/*============================================================================= Boost.Wave: A Standard compliant C++ preprocessor library http://www.boost.org/ State machine detecting include guards in an included file. This detects two forms of include guards: #ifndef INCLUDE_GUARD_MACRO #define INCLUDE_GUARD_MACRO ... #endif or if !defined(INCLUDE_GUARD_MACRO) #define INCLUDE_GUARD_MACRO ... #endif note, that the parenthesis are optional (i.e. !defined INCLUDE_GUARD_MACRO will work as well). The code allows for any whitespace, newline and single '#' tokens before the #if/#ifndef and after the final #endif. Copyright (c) 2001-2012 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(BOOST_DETECT_INCLUDE_GUARDS_HK060304_INCLUDED) #define BOOST_DETECT_INCLUDE_GUARDS_HK060304_INCLUDED #include #include // 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 cpplexer { template class include_guards { public: include_guards() : state(&include_guards::state_0), detected_guards(false), current_state(true), if_depth(0) {} Token& detect_guard(Token& t) { return current_state ? (this->*state)(t) : t; } bool detected(std::string& guard_name_) const { if (detected_guards) { guard_name_ = guard_name.c_str(); return true; } return false; } private: typedef Token& state_type(Token& t); state_type include_guards::* state; bool detected_guards; bool current_state; typename Token::string_type guard_name; int if_depth; state_type state_0, state_1, state_2, state_3, state_4, state_5; state_type state_1a, state_1b, state_1c, state_1d, state_1e; bool is_skippable(token_id id) const { return (T_POUND == BASE_TOKEN(id) || IS_CATEGORY(id, WhiteSpaceTokenType) || IS_CATEGORY(id, EOLTokenType)); } }; /////////////////////////////////////////////////////////////////////////////// // state 0: beginning of a file, tries to recognize #ifndef or #if tokens template inline Token& include_guards::state_0(Token& t) { token_id id = token_id(t); if (T_PP_IFNDEF == id) state = &include_guards::state_1; else if (T_PP_IF == id) state = &include_guards::state_1a; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1: found #ifndef, looking for T_IDENTIFIER template inline Token& include_guards::state_1(Token& t) { token_id id = token_id(t); if (T_IDENTIFIER == id) { guard_name = t.get_value(); state = &include_guards::state_2; } else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1a: found T_PP_IF, looking for T_NOT ("!") template inline Token& include_guards::state_1a(Token& t) { token_id id = token_id(t); if (T_NOT == BASE_TOKEN(id)) state = &include_guards::state_1b; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1b: found T_NOT, looking for 'defined' template inline Token& include_guards::state_1b(Token& t) { token_id id = token_id(t); if (T_IDENTIFIER == id && t.get_value() == "defined") state = &include_guards::state_1c; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1c: found 'defined', looking for (optional) T_LEFTPAREN template inline Token& include_guards::state_1c(Token& t) { token_id id = token_id(t); if (T_LEFTPAREN == id) state = &include_guards::state_1d; else if (T_IDENTIFIER == id) { guard_name = t.get_value(); state = &include_guards::state_2; } else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1d: found T_LEFTPAREN, looking for T_IDENTIFIER guard template inline Token& include_guards::state_1d(Token& t) { token_id id = token_id(t); if (T_IDENTIFIER == id) { guard_name = t.get_value(); state = &include_guards::state_1e; } else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 1e: found T_IDENTIFIER guard, looking for T_RIGHTPAREN template inline Token& include_guards::state_1e(Token& t) { token_id id = token_id(t); if (T_RIGHTPAREN == id) state = &include_guards::state_2; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 2: found T_IDENTIFIER, looking for #define template inline Token& include_guards::state_2(Token& t) { token_id id = token_id(t); if (T_PP_DEFINE == id) state = &include_guards::state_3; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 3: found #define, looking for T_IDENTIFIER as recognized by state 1 template inline Token& include_guards::state_3(Token& t) { token_id id = token_id(t); if (T_IDENTIFIER == id && t.get_value() == guard_name) state = &include_guards::state_4; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// // state 4: found guard T_IDENTIFIER, looking for #endif template inline Token& include_guards::state_4(Token& t) { token_id id = token_id(t); if (T_PP_IF == id || T_PP_IFDEF == id || T_PP_IFNDEF == id) ++if_depth; else if (T_PP_ENDIF == id) { if (if_depth > 0) --if_depth; else state = &include_guards::state_5; } return t; } /////////////////////////////////////////////////////////////////////////////// // state 5: found final #endif, looking for T_EOF template inline Token& include_guards::state_5(Token& t) { token_id id = token_id(t); if (T_EOF == id) detected_guards = current_state; else if (!is_skippable(id)) current_state = false; return t; } /////////////////////////////////////////////////////////////////////////////// } // namespace cpplexer } // namespace wave } // namespace boost // the suffix header occurs after all of the code #ifdef BOOST_HAS_ABI_HEADERS #include BOOST_ABI_SUFFIX #endif #endif // !BOOST_DETECT_INCLUDE_GUARDS_HK060304_INCLUDED