/////////////////////////////////////////////////////////////////////////////// /// \file sub_match.hpp /// Contains the definition of the class template sub_match\<\> /// and associated helper 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_XPRESSIVE_SUB_MATCH_HPP_EAN_10_04_2005 #define BOOST_XPRESSIVE_SUB_MATCH_HPP_EAN_10_04_2005 // MS compatible compilers support #pragma once #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif #include #include #include #include #include #include #include #include #include //{{AFX_DOC_COMMENT /////////////////////////////////////////////////////////////////////////////// // This is a hack to get Doxygen to show the inheritance relation between // sub_match and std::pair. #ifdef BOOST_XPRESSIVE_DOXYGEN_INVOKED /// INTERNAL ONLY namespace std { /// INTERNAL ONLY template struct pair {}; } #endif //}}AFX_DOC_COMMENT namespace boost { namespace xpressive { /////////////////////////////////////////////////////////////////////////////// // sub_match // /// \brief Class template \c sub_match denotes the sequence of characters matched by a particular /// marked sub-expression. /// /// When the marked sub-expression denoted by an object of type \c sub_match\<\> participated in a /// regular expression match then member \c matched evaluates to \c true, and members \c first and \c second /// denote the range of characters [first,second) which formed that match. Otherwise \c matched is \c false, /// and members \c first and \c second contained undefined values. /// /// If an object of type \c sub_match\<\> represents sub-expression 0 - that is to say the whole match - /// then member \c matched is always \c true, unless a partial match was obtained as a result of the flag /// \c match_partial being passed to a regular expression algorithm, in which case member \c matched is /// \c false, and members \c first and \c second represent the character range that formed the partial match. template struct sub_match : std::pair { private: /// INTERNAL ONLY /// struct dummy { int i_; }; typedef int dummy::*bool_type; public: typedef typename iterator_value::type value_type; typedef typename iterator_difference::type difference_type; typedef typename detail::string_type::type string_type; typedef BidiIter iterator; sub_match() : std::pair() , matched(false) { } sub_match(BidiIter first, BidiIter second, bool matched_ = false) : std::pair(first, second) , matched(matched_) { } string_type str() const { return this->matched ? string_type(this->first, this->second) : string_type(); } operator string_type() const { return this->matched ? string_type(this->first, this->second) : string_type(); } difference_type length() const { return this->matched ? std::distance(this->first, this->second) : 0; } operator bool_type() const { return this->matched ? &dummy::i_ : 0; } bool operator !() const { return !this->matched; } /// \brief Performs a lexicographic string comparison /// \param str the string against which to compare /// \return the results of (*this).str().compare(str) int compare(string_type const &str) const { return this->str().compare(str); } /// \overload /// int compare(sub_match const &sub) const { return this->str().compare(sub.str()); } /// \overload /// int compare(value_type const *ptr) const { return this->str().compare(ptr); } /// \brief true if this sub-match participated in the full match. bool matched; }; /////////////////////////////////////////////////////////////////////////////// /// \brief \c range_begin() to make \c sub_match\<\> a valid range /// \param sub the \c sub_match\<\> object denoting the range /// \return \c sub.first /// \pre \c sub.first is not singular template inline BidiIter range_begin(sub_match &sub) { return sub.first; } /// \overload /// template inline BidiIter range_begin(sub_match const &sub) { return sub.first; } /////////////////////////////////////////////////////////////////////////////// /// \brief \c range_end() to make \c sub_match\<\> a valid range /// \param sub the \c sub_match\<\> object denoting the range /// \return \c sub.second /// \pre \c sub.second is not singular template inline BidiIter range_end(sub_match &sub) { return sub.second; } /// \overload /// template inline BidiIter range_end(sub_match const &sub) { return sub.second; } /////////////////////////////////////////////////////////////////////////////// /// \brief insertion operator for sending sub-matches to ostreams /// \param sout output stream. /// \param sub sub_match object to be written to the stream. /// \return sout \<\< sub.str() template inline std::basic_ostream &operator << ( std::basic_ostream &sout , sub_match const &sub ) { typedef typename iterator_value::type char_type; BOOST_MPL_ASSERT_MSG( (boost::is_same::value) , CHARACTER_TYPES_OF_STREAM_AND_SUB_MATCH_MUST_MATCH , (Char, char_type) ); if(sub.matched) { std::ostream_iterator iout(sout); std::copy(sub.first, sub.second, iout); } return sout; } // BUGBUG make these more efficient template bool operator == (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) == 0; } template bool operator != (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) != 0; } template bool operator < (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) < 0; } template bool operator <= (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) <= 0; } template bool operator >= (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) >= 0; } template bool operator > (sub_match const &lhs, sub_match const &rhs) { return lhs.compare(rhs) > 0; } template bool operator == (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs == rhs.str(); } template bool operator != (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs != rhs.str(); } template bool operator < (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs < rhs.str(); } template bool operator > (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs> rhs.str(); } template bool operator >= (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs >= rhs.str(); } template bool operator <= (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs <= rhs.str(); } template bool operator == (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() == rhs; } template bool operator != (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() != rhs; } template bool operator < (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() < rhs; } template bool operator > (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() > rhs; } template bool operator >= (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() >= rhs; } template bool operator <= (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() <= rhs; } template bool operator == (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs == rhs.str(); } template bool operator != (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs != rhs.str(); } template bool operator < (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs < rhs.str(); } template bool operator > (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs> rhs.str(); } template bool operator >= (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs >= rhs.str(); } template bool operator <= (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs <= rhs.str(); } template bool operator == (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() == rhs; } template bool operator != (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() != rhs; } template bool operator < (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() < rhs; } template bool operator > (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() > rhs; } template bool operator >= (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() >= rhs; } template bool operator <= (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() <= rhs; } // Operator+ convenience function template typename sub_match::string_type operator + (sub_match const &lhs, sub_match const &rhs) { return lhs.str() + rhs.str(); } template typename sub_match::string_type operator + (sub_match const &lhs, typename iterator_value::type const &rhs) { return lhs.str() + rhs; } template typename sub_match::string_type operator + (typename iterator_value::type const &lhs, sub_match const &rhs) { return lhs + rhs.str(); } template typename sub_match::string_type operator + (sub_match const &lhs, typename iterator_value::type const *rhs) { return lhs.str() + rhs; } template typename sub_match::string_type operator + (typename iterator_value::type const *lhs, sub_match const &rhs) { return lhs + rhs.str(); } template typename sub_match::string_type operator + (sub_match const &lhs, typename sub_match::string_type const &rhs) { return lhs.str() + rhs; } template typename sub_match::string_type operator + (typename sub_match::string_type const &lhs, sub_match const &rhs) { return lhs + rhs.str(); } }} // namespace boost::xpressive // Hook the Boost.Range customization points to make sub_match a valid range. namespace boost { /// INTERNAL ONLY /// template struct range_mutable_iterator; /// INTERNAL ONLY /// template struct range_mutable_iterator > { typedef BidiIter type; }; /// INTERNAL ONLY /// template struct range_const_iterator; /// INTERNAL ONLY /// template struct range_const_iterator > { typedef BidiIter type; }; } #endif