/*============================================================================= Boost.Wave: A Standard compliant C++ preprocessor library A generic C++ lexer token definition http://www.boost.org/ 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_CPP_TOKEN_HPP_53A13BD2_FBAA_444B_9B8B_FCB225C2BBA8_INCLUDED) #define BOOST_CPP_TOKEN_HPP_53A13BD2_FBAA_444B_9B8B_FCB225C2BBA8_INCLUDED #include #if BOOST_WAVE_SERIALIZATION != 0 #include #endif #include #include #include #include #include #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 { namespace impl { template class token_data { public: typedef StringTypeT string_type; typedef PositionT position_type; // default constructed tokens correspond to EOI tokens token_data() : id(T_EOI), refcnt(1) {} // construct an invalid token explicit token_data(int) : id(T_UNKNOWN), refcnt(1) {} token_data(token_id id_, string_type const &value_, position_type const &pos_, optional const & expand_pos_ = boost::none) : id(id_), value(value_), pos(pos_), expand_pos(expand_pos_), refcnt(1) {} token_data(token_data const& rhs) : id(rhs.id), value(rhs.value), pos(rhs.pos), expand_pos(rhs.expand_pos), refcnt(1) {} ~token_data() {} std::size_t addref() { return ++refcnt; } std::size_t release() { return --refcnt; } std::size_t get_refcnt() const { return refcnt; } // accessors operator token_id() const { return id; } string_type const &get_value() const { return value; } position_type const &get_position() const { return pos; } position_type const &get_expand_position() const { if (expand_pos) return *expand_pos; else return pos; } void set_token_id (token_id id_) { id = id_; } void set_value (string_type const &value_) { value = value_; } void set_position (position_type const &pos_) { pos = pos_; } void set_expand_position (position_type const & pos_) { expand_pos = pos_; } friend bool operator== (token_data const& lhs, token_data const& rhs) { // two tokens are considered equal even if they refer to different // positions return (lhs.id == rhs.id && lhs.value == rhs.value) ? true : false; } void init(token_id id_, string_type const &value_, position_type const &pos_) { BOOST_ASSERT(refcnt == 1); id = id_; value = value_; pos = pos_; } void init(token_data const& rhs) { BOOST_ASSERT(refcnt == 1); id = rhs.id; value = rhs.value; pos = rhs.pos; } static void *operator new(std::size_t size); static void operator delete(void *p, std::size_t size); #if defined(BOOST_SPIRIT_DEBUG) // debug support void print (std::ostream &stream) const { stream << get_token_name(id) << "("; for (std::size_t i = 0; i < value.size(); ++i) { switch (value[i]) { case '\r': stream << "\\r"; break; case '\n': stream << "\\n"; break; default: stream << value[i]; break; } } stream << ")"; } #endif // defined(BOOST_SPIRIT_DEBUG) #if BOOST_WAVE_SERIALIZATION != 0 friend class boost::serialization::access; template void serialize(Archive &ar, const unsigned int version) { using namespace boost::serialization; ar & make_nvp("id", id); ar & make_nvp("value", value); ar & make_nvp("position", pos); } #endif private: token_id id; // the token id string_type value; // the text, which was parsed into this token position_type pos; // the original file position boost::optional expand_pos; // where this token was expanded boost::detail::atomic_count refcnt; }; /////////////////////////////////////////////////////////////////////////////// struct token_data_tag {}; template inline void * token_data::operator new(std::size_t size) { BOOST_ASSERT(sizeof(token_data) == size); typedef boost::singleton_pool< token_data_tag, sizeof(token_data) > pool_type; void *ret = pool_type::malloc(); if (0 == ret) boost::throw_exception(std::bad_alloc()); return ret; } template inline void token_data::operator delete(void *p, std::size_t size) { BOOST_ASSERT(sizeof(token_data) == size); typedef boost::singleton_pool< token_data_tag, sizeof(token_data) > pool_type; if (0 != p) pool_type::free(p); } } // namespace impl /////////////////////////////////////////////////////////////////////////////// // forward declaration of the token type template class lex_token; /////////////////////////////////////////////////////////////////////////////// // // lex_token // /////////////////////////////////////////////////////////////////////////////// template class lex_token { public: typedef BOOST_WAVE_STRINGTYPE string_type; typedef PositionT position_type; private: typedef impl::token_data data_type; public: // default constructed tokens correspond to EOI tokens lex_token() : data(0) {} // construct an invalid token explicit lex_token(int) : data(new data_type(0)) {} lex_token(lex_token const& rhs) : data(rhs.data) { if (0 != data) data->addref(); } lex_token(token_id id_, string_type const &value_, PositionT const &pos_) : data(new data_type(id_, value_, pos_)) {} ~lex_token() { if (0 != data && 0 == data->release()) delete data; data = 0; } lex_token& operator=(lex_token const& rhs) { if (&rhs != this) { if (0 != data && 0 == data->release()) delete data; data = rhs.data; if (0 != data) data->addref(); } return *this; } // accessors operator token_id() const { return 0 != data ? token_id(*data) : T_EOI; } string_type const &get_value() const { return data->get_value(); } position_type const &get_position() const { return data->get_position(); } position_type const &get_expand_position() const { return data->get_expand_position(); } bool is_eoi() const { return 0 == data || token_id(*data) == T_EOI; } bool is_valid() const { return 0 != data && token_id(*data) != T_UNKNOWN; } void set_token_id (token_id id_) { make_unique(); data->set_token_id(id_); } void set_value (string_type const &value_) { make_unique(); data->set_value(value_); } void set_position (position_type const &pos_) { make_unique(); data->set_position(pos_); } void set_expand_position (position_type const &pos_) { make_unique(); data->set_expand_position(pos_); } friend bool operator== (lex_token const& lhs, lex_token const& rhs) { if (0 == rhs.data) return 0 == lhs.data; if (0 == lhs.data) return false; return *(lhs.data) == *(rhs.data); } // debug support #if BOOST_WAVE_DUMP_PARSE_TREE != 0 // access functions for the tree_to_xml functionality static int get_token_id(lex_token const &t) { return token_id(t); } static string_type get_token_value(lex_token const &t) { return t.get_value(); } #endif #if defined(BOOST_SPIRIT_DEBUG) // debug support void print (std::ostream &stream) const { data->print(stream); } #endif // defined(BOOST_SPIRIT_DEBUG) private: #if BOOST_WAVE_SERIALIZATION != 0 friend class boost::serialization::access; template void serialize(Archive &ar, const unsigned int version) { data->serialize(ar, version); } #endif // make a unique copy of the current object void make_unique() { if (1 == data->get_refcnt()) return; data_type* newdata = new data_type(*data) ; data->release(); // release this reference, can't get zero data = newdata; } data_type* data; }; /////////////////////////////////////////////////////////////////////////////// // This overload is needed by the multi_pass/functor_input_policy to // validate a token instance. It has to be defined in the same namespace // as the token class itself to allow ADL to find it. /////////////////////////////////////////////////////////////////////////////// template inline bool token_is_valid(lex_token const& t) { return t.is_valid(); } /////////////////////////////////////////////////////////////////////////////// #if defined(BOOST_SPIRIT_DEBUG) template inline std::ostream & operator<< (std::ostream &stream, lex_token const &object) { object.print(stream); return stream; } #endif // defined(BOOST_SPIRIT_DEBUG) /////////////////////////////////////////////////////////////////////////////// } // 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 // !defined(BOOST_CPP_TOKEN_HPP_53A13BD2_FBAA_444B_9B8B_FCB225C2BBA8_INCLUDED)