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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\xpressive\regex_algorithms.hpp
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/////////////////////////////////////////////////////////////////////////////// /// \file regex_algorithms.hpp /// Contains the regex_match(), regex_search() and regex_replace() algorithms. // // Copyright 2007 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_ALGORITHMS_HPP_EAN_10_04_2005 #define BOOST_XPRESSIVE_ALGORITHMS_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
#include
/// INTERNAL ONLY /// #define BOOST_XPR_NONDEDUCED_TYPE_(x) typename mpl::identity
::type namespace boost { namespace xpressive { /////////////////////////////////////////////////////////////////////////////// // regex_match /////////////////////////////////////////////////////////////////////////////// /// \brief See if a regex matches a sequence from beginning to end. /// /// Determines whether there is an exact match between the regular expression re, /// and all of the sequence [begin, end). /// /// \pre Types BidiIter and OtherBidiIter meet the requirements of a Bidirectional Iterator (24.1.4). /// \pre OtherBidiIter is convertible to BidiIter. /// \pre [begin,end) denotes a valid iterator range. /// \param begin The beginning of the sequence. /// \param end The end of the sequence. /// \param what The match_results struct into which the sub_matches will be written /// \param re The regular expression object to use /// \param flags Optional match flags, used to control how the expression is matched against the sequence. (See match_flag_type.) /// \return true if a match is found, false otherwise /// \throw regex_error on stack exhaustion template
inline bool regex_match ( OtherBidiIter begin , OtherBidiIter end , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { typedef detail::core_access
access; // an invlid regex matches nothing if(!access::invalid(re)) { // the state object holds matching state and // is passed by reference to all the matchers detail::match_state
state(begin, end, what, *access::get_regex_impl(re), flags); state.flags_.match_all_ = true; state.sub_match(0).begin_ = begin; if(access::match(re, state)) { access::set_prefix_suffix(what, begin, end); return true; } // handle partial matches else if(state.found_partial_match_ && 0 != (flags & regex_constants::match_partial)) { state.set_partial_match(); return true; } } access::reset(what); return false; } /// \overload /// template
inline bool regex_match ( OtherBidiIter begin , OtherBidiIter end , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient match_results
what; return regex_match(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_match ( BOOST_XPR_NONDEDUCED_TYPE_(Char) *begin , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient typedef typename remove_const
::type char_type; Char *end = begin + std::char_traits
::length(begin); return regex_match(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_match ( BidiRange &rng , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // Note that the result iterator of the range must be convertible // to BidiIter here. BidiIter begin = boost::begin(rng), end = boost::end(rng); return regex_match(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_match ( BidiRange const &rng , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // Note that the result iterator of the range must be convertible // to BidiIter here. BidiIter begin = boost::begin(rng), end = boost::end(rng); return regex_match(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_match ( BOOST_XPR_NONDEDUCED_TYPE_(Char) *begin , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient match_results
what; return regex_match(begin, what, re, flags); } /// \overload /// template
inline bool regex_match ( BidiRange &rng , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // BUGBUG this is inefficient match_results
what; return regex_match(rng, what, re, flags); } /// \overload /// template
inline bool regex_match ( BidiRange const &rng , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // BUGBUG this is inefficient match_results
what; return regex_match(rng, what, re, flags); } /////////////////////////////////////////////////////////////////////////////// // regex_search /////////////////////////////////////////////////////////////////////////////// namespace detail { /////////////////////////////////////////////////////////////////////////////// // regex_search_impl template
inline bool regex_search_impl ( match_state
&state , basic_regex
const &re , bool not_initial_null = false ) { typedef core_access
access; typedef typename iterator_value
::type char_type; match_results
&what = *state.context_.results_ptr_; // an invlid regex matches nothing if(!access::invalid(re)) { bool const partial_ok = state.flags_.match_partial_; save_restore
not_null(state.flags_.match_not_null_, state.flags_.match_not_null_ || not_initial_null); state.flags_.match_prev_avail_ = state.flags_.match_prev_avail_ || !state.bos(); regex_impl
const &impl = *access::get_regex_impl(re); BidiIter const begin = state.cur_, end = state.end_; BidiIter &sub0begin = state.sub_match(0).begin_; sub0begin = state.cur_; // If match_continuous is set, we only need to check for a match at the current position if(state.flags_.match_continuous_) { if(access::match(re, state)) { access::set_prefix_suffix(what, begin, end); return true; } // handle partial matches else if(partial_ok && state.found_partial_match_) { state.set_partial_match(); return true; } } // If we have a finder, use it to find where a potential match can start else if(impl.finder_ && (!partial_ok || impl.finder_->ok_for_partial_matches())) { finder
const &find = *impl.finder_; if(find(state)) { if(state.cur_ != begin) { not_null.restore(); } do { sub0begin = state.cur_; if(access::match(re, state)) { access::set_prefix_suffix(what, begin, end); return true; } // handle partial matches else if(partial_ok && state.found_partial_match_) { state.set_partial_match(); return true; } BOOST_ASSERT(state.cur_ == sub0begin); not_null.restore(); } while(state.cur_ != state.end_ && (++state.cur_, find(state))); } } // Otherwise, use brute force search at every position. else { for(;;) { if(access::match(re, state)) { access::set_prefix_suffix(what, begin, end); return true; } // handle partial matches else if(partial_ok && state.found_partial_match_) { state.set_partial_match(); return true; } else if(end == sub0begin) { break; } BOOST_ASSERT(state.cur_ == sub0begin); state.cur_ = ++sub0begin; not_null.restore(); } } } access::reset(what); return false; } } // namespace detail /// \brief Determines whether there is some sub-sequence within [begin,end) that matches the regular expression re. /// /// Determines whether there is some sub-sequence within [begin,end) that matches the regular expression re. /// /// \pre Types BidiIter and OtherBidiIter meet the requirements of a Bidirectional Iterator (24.1.4). /// \pre OtherBidiIter is convertible to BidiIter. /// \pre [begin,end) denotes a valid iterator range. /// \param begin The beginning of the sequence /// \param end The end of the sequence /// \param what The match_results struct into which the sub_matches will be written /// \param re The regular expression object to use /// \param flags Optional match flags, used to control how the expression is matched against the sequence. (See match_flag_type.) /// \return true if a match is found, false otherwise /// \throw regex_error on stack exhaustion template
inline bool regex_search ( OtherBidiIter begin , OtherBidiIter end , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { typedef detail::core_access
access; // an invlid regex matches nothing if(!access::invalid(re)) { // the state object holds matching state and // is passed by reference to all the matchers detail::match_state
state(begin, end, what, *access::get_regex_impl(re), flags); return detail::regex_search_impl(state, re); } access::reset(what); return false; } /// \overload /// template
inline bool regex_search ( OtherBidiIter begin , OtherBidiIter end , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient match_results
what; return regex_search(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_search ( BOOST_XPR_NONDEDUCED_TYPE_(Char) *begin , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient typedef typename remove_const
::type char_type; Char *end = begin + std::char_traits
::length(begin); return regex_search(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_search ( BidiRange &rng , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // Note that the result iterator of the range must be convertible // to BidiIter here. BidiIter begin = boost::begin(rng), end = boost::end(rng); return regex_search(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_search ( BidiRange const &rng , match_results
&what , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // Note that the result iterator of the range must be convertible // to BidiIter here. BidiIter begin = boost::begin(rng), end = boost::end(rng); return regex_search(begin, end, what, re, flags); } /// \overload /// template
inline bool regex_search ( BOOST_XPR_NONDEDUCED_TYPE_(Char) *begin , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default ) { // BUGBUG this is inefficient match_results
what; return regex_search(begin, what, re, flags); } /// \overload /// template
inline bool regex_search ( BidiRange &rng , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // BUGBUG this is inefficient match_results
what; return regex_search(rng, what, re, flags); } /// \overload /// template
inline bool regex_search ( BidiRange const &rng , basic_regex
const &re , regex_constants::match_flag_type flags = regex_constants::match_default , typename disable_if
>::type * = 0 ) { // BUGBUG this is inefficient match_results
what; return regex_search(rng, what, re, flags); } /////////////////////////////////////////////////////////////////////////////// // regex_replace /////////////////////////////////////////////////////////////////////////////// /// \brief Build an output sequence given an input sequence, a regex, and a format string. /// /// Constructs a regex_iterator object: regex_iterator\< BidiIter \> i(begin, end, re, flags), /// and uses i to enumerate through all of the matches m of type match_results\< BidiIter \> that /// occur within the sequence [begin, end). If no such matches are found and !(flags \& format_no_copy) /// then calls std::copy(begin, end, out). Otherwise, for each match found, if !(flags \& format_no_copy) /// calls std::copy(m.prefix().first, m.prefix().second, out), and then calls m.format(out, fmt, flags). /// Finally if !(flags \& format_no_copy) calls std::copy(last_m.suffix().first, last_m.suffix().second, out) /// where last_m is a copy of the last match found. If flags \& format_first_only is non-zero then only /// the first match found is replaced. /// /// \pre Types BidiIter and OtherBidiIter meet the requirements of a Bidirectional Iterator (24.1.4). /// \pre Type OutIter meets the requirements of an Output Iterator (24.1.2). /// \pre OtherBidiIter is convertible to BidiIter. /// \pre [begin,end) denotes a valid iterator range. /// /// \param out An output iterator into which the output sequence is written. /// \param begin The beginning of the input sequence. /// \param end The end of the input sequence. /// \param re The regular expression object to use. /// \param fmt The format string used to format the replacement sequence. /// \param flags Optional match flags, used to control how the expression is matched against the sequence. (See match_flag_type.) /// \return The value of the output iterator after the output sequence has been written to it. /// \throw regex_error on stack exhaustion or invalid format string. template
inline OutIter regex_replace ( OutIter out , OtherBidiIter begin , OtherBidiIter end , basic_regex
const &re , std::basic_string
::type> const &fmt , regex_constants::match_flag_type flags = regex_constants::match_default ) { using namespace regex_constants; typedef detail::core_access
access; BidiIter cur = begin; match_results
what; detail::match_state
state(begin, end, what, *access::get_regex_impl(re), flags); bool const yes_copy = (0 == (flags & format_no_copy)); if(detail::regex_search_impl(state, re)) { if(yes_copy) { out = std::copy(cur, what[0].first, out); } out = what.format(out, fmt, flags); cur = state.cur_ = what[0].second; if(0 == (flags & format_first_only)) { bool not_null = (0 == what.length()); state.reset(what, *access::get_regex_impl(re)); while(detail::regex_search_impl(state, re, not_null)) { if(yes_copy) { out = std::copy(cur, what[0].first, out); } access::set_prefix_suffix(what, begin, end); out = what.format(out, fmt, flags); cur = state.cur_ = what[0].second; not_null = (0 == what.length()); state.reset(what, *access::get_regex_impl(re)); } } } if(yes_copy) { out = std::copy(cur, static_cast
(end), out); } return out; } /// \overload /// template
inline std::basic_string
regex_replace ( std::basic_string
const &str , basic_regex
::const_iterator> const &re , std::basic_string
const &fmt , regex_constants::match_flag_type flags = regex_constants::match_default ) { std::basic_string
result; result.reserve(fmt.length() * 2); regex_replace(std::back_inserter(result), str.begin(), str.end(), re, fmt, flags); return result; } }} // namespace boost::xpressive #endif
regex_algorithms.hpp
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