PATH:
opt
/
cpanel
/
ea-ruby27
/
src
/
passenger-release-6.1.2
/
src
/
cxx_supportlib
/
vendor-modified
/
boost
/
regex
/
v5
/* * * Copyright (c) 1998-2002 * John Maddock * * Use, modification and distribution are subject to 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) * */ /* * LOCATION: see http://www.boost.org for most recent version. * FILE: primary_transform.hpp * VERSION: see <boost/version.hpp> * DESCRIPTION: Heuristically determines the sort string format in use * by the current locale. */ #ifndef BOOST_REGEX_PRIMARY_TRANSFORM #define BOOST_REGEX_PRIMARY_TRANSFORM namespace boost{ namespace BOOST_REGEX_DETAIL_NS{ enum{ sort_C, sort_fixed, sort_delim, sort_unknown }; template <class S, class charT> unsigned count_chars(const S& s, charT c) { // // Count how many occurrences of character c occur // in string s: if c is a delimeter between collation // fields, then this should be the same value for all // sort keys: // unsigned int count = 0; for(unsigned pos = 0; pos < s.size(); ++pos) { if(s[pos] == c) ++count; } return count; } template <class traits, class charT> unsigned find_sort_syntax(const traits* pt, charT* delim) { // // compare 'a' with 'A' to see how similar they are, // should really use a-accute but we can't portably do that, // typedef typename traits::string_type string_type; typedef typename traits::char_type char_type; // Suppress incorrect warning for MSVC (void)pt; char_type a[2] = {'a', '\0', }; string_type sa(pt->transform(a, a+1)); if(sa == a) { *delim = 0; return sort_C; } char_type A[2] = { 'A', '\0', }; string_type sA(pt->transform(A, A+1)); char_type c[2] = { ';', '\0', }; string_type sc(pt->transform(c, c+1)); int pos = 0; while((pos <= static_cast<int>(sa.size())) && (pos <= static_cast<int>(sA.size())) && (sa[pos] == sA[pos])) ++pos; --pos; if(pos < 0) { *delim = 0; return sort_unknown; } // // at this point sa[pos] is either the end of a fixed width field // or the character that acts as a delimiter: // charT maybe_delim = sa[pos]; if((pos != 0) && (count_chars(sa, maybe_delim) == count_chars(sA, maybe_delim)) && (count_chars(sa, maybe_delim) == count_chars(sc, maybe_delim))) { *delim = maybe_delim; return sort_delim; } // // OK doen't look like a delimiter, try for fixed width field: // if((sa.size() == sA.size()) && (sa.size() == sc.size())) { // note assumes that the fixed width field is less than // (numeric_limits<charT>::max)(), should be true for all types // I can't imagine 127 character fields... *delim = static_cast<charT>(++pos); return sort_fixed; } // // don't know what it is: // *delim = 0; return sort_unknown; } } // namespace BOOST_REGEX_DETAIL_NS } // namespace boost #endif
[-] match_flags.hpp
[edit]
[-] match_results.hpp
[edit]
[-] syntax_type.hpp
[edit]
[-] regex_match.hpp
[edit]
[-] cpp_regex_traits.hpp
[edit]
[-] iterator_category.hpp
[edit]
[-] error_type.hpp
[edit]
[-] perl_matcher_non_recursive.hpp
[edit]
[-] icu.hpp
[edit]
[-] regex_merge.hpp
[edit]
[-] unicode_iterator.hpp
[edit]
[-] regex_split.hpp
[edit]
[-] regex_grep.hpp
[edit]
[-] pattern_except.hpp
[edit]
[-] u32regex_token_iterator.hpp
[edit]
[-] regex_fwd.hpp
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[-] basic_regex.hpp
[edit]
[-] perl_matcher.hpp
[edit]
[-] perl_matcher_common.hpp
[edit]
[-] mem_block_cache.hpp
[edit]
[-] regex_iterator.hpp
[edit]
[+]
..
[-] basic_regex_creator.hpp
[edit]
[-] regex_traits_defaults.hpp
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[-] char_regex_traits.hpp
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[-] object_cache.hpp
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[-] regex_search.hpp
[edit]
[-] sub_match.hpp
[edit]
[-] regex_format.hpp
[edit]
[-] c_regex_traits.hpp
[edit]
[-] iterator_traits.hpp
[edit]
[-] regex_replace.hpp
[edit]
[-] regex_raw_buffer.hpp
[edit]
[-] basic_regex_parser.hpp
[edit]
[-] regbase.hpp
[edit]
[-] regex_traits.hpp
[edit]
[-] regex.hpp
[edit]
[-] regex_workaround.hpp
[edit]
[-] regex_token_iterator.hpp
[edit]
[-] states.hpp
[edit]
[-] primary_transform.hpp
[edit]
[-] w32_regex_traits.hpp
[edit]
[-] cregex.hpp
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[-] u32regex_iterator.hpp
[edit]