From 8286ac511144e4f17d34eac9affb97e50646344a Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?J=C3=B6rg=20Frings-F=C3=BCrst?= Date: Wed, 23 Jul 2014 15:25:44 +0200 Subject: Imported Upstream version 4.0.0 --- .../details/boost/regex/v4/perl_matcher_common.hpp | 996 +++++++++++++++++++++ 1 file changed, 996 insertions(+) create mode 100644 libcutl/cutl/details/boost/regex/v4/perl_matcher_common.hpp (limited to 'libcutl/cutl/details/boost/regex/v4/perl_matcher_common.hpp') diff --git a/libcutl/cutl/details/boost/regex/v4/perl_matcher_common.hpp b/libcutl/cutl/details/boost/regex/v4/perl_matcher_common.hpp new file mode 100644 index 0000000..e5dbfd2 --- /dev/null +++ b/libcutl/cutl/details/boost/regex/v4/perl_matcher_common.hpp @@ -0,0 +1,996 @@ +/* + * + * Copyright (c) 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 perl_matcher_common.cpp + * VERSION see + * DESCRIPTION: Definitions of perl_matcher member functions that are + * common to both the recursive and non-recursive versions. + */ + +#ifndef BOOST_REGEX_V4_PERL_MATCHER_COMMON_HPP +#define BOOST_REGEX_V4_PERL_MATCHER_COMMON_HPP + +#ifdef BOOST_MSVC +#pragma warning(push) +#pragma warning(disable: 4103) +#endif +#ifdef BOOST_HAS_ABI_HEADERS +# include BOOST_ABI_PREFIX +#endif +#ifdef BOOST_MSVC +#pragma warning(pop) +#endif + +#ifdef __BORLANDC__ +# pragma option push -w-8008 -w-8066 +#endif +#ifdef BOOST_MSVC +# pragma warning(push) +# pragma warning(disable: 4800) +#endif + +namespace cutl_details_boost{ +namespace re_detail{ + +template +void perl_matcher::construct_init(const basic_regex& e, match_flag_type f) +{ + typedef typename regex_iterator_traits::iterator_category category; + typedef typename basic_regex::flag_type expression_flag_type; + + if(e.empty()) + { + // precondition failure: e is not a valid regex. + std::invalid_argument ex("Invalid regular expression object"); + cutl_details_boost::throw_exception(ex); + } + pstate = 0; + m_match_flags = f; + estimate_max_state_count(static_cast(0)); + expression_flag_type re_f = re.flags(); + icase = re_f & regex_constants::icase; + if(!(m_match_flags & (match_perl|match_posix))) + { + if((re_f & (regbase::main_option_type|regbase::no_perl_ex)) == 0) + m_match_flags |= match_perl; + else if((re_f & (regbase::main_option_type|regbase::emacs_ex)) == (regbase::basic_syntax_group|regbase::emacs_ex)) + m_match_flags |= match_perl; + else if((re_f & (regbase::main_option_type|regbase::literal)) == (regbase::literal)) + m_match_flags |= match_perl; + else + m_match_flags |= match_posix; + } + if(m_match_flags & match_posix) + { + m_temp_match.reset(new match_results()); + m_presult = m_temp_match.get(); + } + else + m_presult = &m_result; +#ifdef BOOST_REGEX_NON_RECURSIVE + m_stack_base = 0; + m_backup_state = 0; +#endif + // find the value to use for matching word boundaries: + m_word_mask = re.get_data().m_word_mask; + // find bitmask to use for matching '.': + match_any_mask = static_cast((f & match_not_dot_newline) ? re_detail::test_not_newline : re_detail::test_newline); +} + +template +void perl_matcher::estimate_max_state_count(std::random_access_iterator_tag*) +{ + // + // How many states should we allow our machine to visit before giving up? + // This is a heuristic: it takes the greater of O(N^2) and O(NS^2) + // where N is the length of the string, and S is the number of states + // in the machine. It's tempting to up this to O(N^2S) or even O(N^2S^2) + // but these take unreasonably amounts of time to bale out in pathological + // cases. + // + // Calculate NS^2 first: + // + static const std::ptrdiff_t k = 100000; + std::ptrdiff_t dist = cutl_details_boost::re_detail::distance(base, last); + if(dist == 0) + dist = 1; + std::ptrdiff_t states = re.size(); + if(states == 0) + states = 1; + states *= states; + if((std::numeric_limits::max)() / dist < states) + { + max_state_count = (std::min)((std::ptrdiff_t)BOOST_REGEX_MAX_STATE_COUNT, (std::numeric_limits::max)() - 2); + return; + } + states *= dist; + if((std::numeric_limits::max)() - k < states) + { + max_state_count = (std::min)((std::ptrdiff_t)BOOST_REGEX_MAX_STATE_COUNT, (std::numeric_limits::max)() - 2); + return; + } + states += k; + + max_state_count = states; + + // + // Now calculate N^2: + // + states = dist; + if((std::numeric_limits::max)() / dist < states) + { + max_state_count = (std::min)((std::ptrdiff_t)BOOST_REGEX_MAX_STATE_COUNT, (std::numeric_limits::max)() - 2); + return; + } + states *= dist; + if((std::numeric_limits::max)() - k < states) + { + max_state_count = (std::min)((std::ptrdiff_t)BOOST_REGEX_MAX_STATE_COUNT, (std::numeric_limits::max)() - 2); + return; + } + states += k; + // + // N^2 can be a very large number indeed, to prevent things getting out + // of control, cap the max states: + // + if(states > BOOST_REGEX_MAX_STATE_COUNT) + states = BOOST_REGEX_MAX_STATE_COUNT; + // + // If (the possibly capped) N^2 is larger than our first estimate, + // use this instead: + // + if(states > max_state_count) + max_state_count = states; +} + +template +inline void perl_matcher::estimate_max_state_count(void*) +{ + // we don't know how long the sequence is: + max_state_count = BOOST_REGEX_MAX_STATE_COUNT; +} + +#ifdef BOOST_REGEX_HAS_MS_STACK_GUARD +template +inline bool perl_matcher::protected_call( + protected_proc_type proc) +{ + ::cutl_details_boost::re_detail::concrete_protected_call + > + obj(this, proc); + return obj.execute(); + +} +#endif + +template +inline bool perl_matcher::match() +{ +#ifdef BOOST_REGEX_HAS_MS_STACK_GUARD + return protected_call(&perl_matcher::match_imp); +#else + return match_imp(); +#endif +} + +template +bool perl_matcher::match_imp() +{ + // initialise our stack if we are non-recursive: +#ifdef BOOST_REGEX_NON_RECURSIVE + save_state_init init(&m_stack_base, &m_backup_state); + used_block_count = BOOST_REGEX_MAX_BLOCKS; +#if !defined(BOOST_NO_EXCEPTIONS) + try{ +#endif +#endif + + // reset our state machine: + position = base; + search_base = base; + state_count = 0; + m_match_flags |= regex_constants::match_all; + m_presult->set_size((m_match_flags & match_nosubs) ? 1 : re.mark_count(), search_base, last); + m_presult->set_base(base); + m_presult->set_named_subs(this->re.get_named_subs()); + if(m_match_flags & match_posix) + m_result = *m_presult; + verify_options(re.flags(), m_match_flags); + if(0 == match_prefix()) + return false; + return (m_result[0].second == last) && (m_result[0].first == base); + +#if defined(BOOST_REGEX_NON_RECURSIVE) && !defined(BOOST_NO_EXCEPTIONS) + } + catch(...) + { + // unwind all pushed states, apart from anything else this + // ensures that all the states are correctly destructed + // not just the memory freed. + while(unwind(true)){} + throw; + } +#endif +} + +template +inline bool perl_matcher::find() +{ +#ifdef BOOST_REGEX_HAS_MS_STACK_GUARD + return protected_call(&perl_matcher::find_imp); +#else + return find_imp(); +#endif +} + +template +bool perl_matcher::find_imp() +{ + static matcher_proc_type const s_find_vtable[7] = + { + &perl_matcher::find_restart_any, + &perl_matcher::find_restart_word, + &perl_matcher::find_restart_line, + &perl_matcher::find_restart_buf, + &perl_matcher::match_prefix, + &perl_matcher::find_restart_lit, + &perl_matcher::find_restart_lit, + }; + + // initialise our stack if we are non-recursive: +#ifdef BOOST_REGEX_NON_RECURSIVE + save_state_init init(&m_stack_base, &m_backup_state); + used_block_count = BOOST_REGEX_MAX_BLOCKS; +#if !defined(BOOST_NO_EXCEPTIONS) + try{ +#endif +#endif + + state_count = 0; + if((m_match_flags & regex_constants::match_init) == 0) + { + // reset our state machine: + search_base = position = base; + pstate = re.get_first_state(); + m_presult->set_size((m_match_flags & match_nosubs) ? 1 : re.mark_count(), base, last); + m_presult->set_base(base); + m_presult->set_named_subs(this->re.get_named_subs()); + m_match_flags |= regex_constants::match_init; + } + else + { + // start again: + search_base = position = m_result[0].second; + // If last match was null and match_not_null was not set then increment + // our start position, otherwise we go into an infinite loop: + if(((m_match_flags & match_not_null) == 0) && (m_result.length() == 0)) + { + if(position == last) + return false; + else + ++position; + } + // reset $` start: + m_presult->set_size((m_match_flags & match_nosubs) ? 1 : re.mark_count(), search_base, last); + //if((base != search_base) && (base == backstop)) + // m_match_flags |= match_prev_avail; + } + if(m_match_flags & match_posix) + { + m_result.set_size(re.mark_count(), base, last); + m_result.set_base(base); + } + + verify_options(re.flags(), m_match_flags); + // find out what kind of expression we have: + unsigned type = (m_match_flags & match_continuous) ? + static_cast(regbase::restart_continue) + : static_cast(re.get_restart_type()); + + // call the appropriate search routine: + matcher_proc_type proc = s_find_vtable[type]; + return (this->*proc)(); + +#if defined(BOOST_REGEX_NON_RECURSIVE) && !defined(BOOST_NO_EXCEPTIONS) + } + catch(...) + { + // unwind all pushed states, apart from anything else this + // ensures that all the states are correctly destructed + // not just the memory freed. + while(unwind(true)){} + throw; + } +#endif +} + +template +bool perl_matcher::match_prefix() +{ + m_has_partial_match = false; + m_has_found_match = false; + pstate = re.get_first_state(); + m_presult->set_first(position); + restart = position; + match_all_states(); + if(!m_has_found_match && m_has_partial_match && (m_match_flags & match_partial)) + { + m_has_found_match = true; + m_presult->set_second(last, 0, false); + position = last; + if((m_match_flags & match_posix) == match_posix) + { + m_result.maybe_assign(*m_presult); + } + } +#ifdef BOOST_REGEX_MATCH_EXTRA + if(m_has_found_match && (match_extra & m_match_flags)) + { + // + // we have a match, reverse the capture information: + // + for(unsigned i = 0; i < m_presult->size(); ++i) + { + typename sub_match::capture_sequence_type & seq = ((*m_presult)[i]).get_captures(); + std::reverse(seq.begin(), seq.end()); + } + } +#endif + if(!m_has_found_match) + position = restart; // reset search postion + return m_has_found_match; +} + +template +bool perl_matcher::match_literal() +{ + unsigned int len = static_cast(pstate)->length; + const char_type* what = reinterpret_cast(static_cast(pstate) + 1); + // + // compare string with what we stored in + // our records: + for(unsigned int i = 0; i < len; ++i, ++position) + { + if((position == last) || (traits_inst.translate(*position, icase) != what[i])) + return false; + } + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_start_line() +{ + if(position == backstop) + { + if((m_match_flags & match_prev_avail) == 0) + { + if((m_match_flags & match_not_bol) == 0) + { + pstate = pstate->next.p; + return true; + } + return false; + } + } + else if(m_match_flags & match_single_line) + return false; + + // check the previous value character: + BidiIterator t(position); + --t; + if(position != last) + { + if(is_separator(*t) && !((*t == static_cast('\r')) && (*position == static_cast('\n'))) ) + { + pstate = pstate->next.p; + return true; + } + } + else if(is_separator(*t)) + { + pstate = pstate->next.p; + return true; + } + return false; +} + +template +bool perl_matcher::match_end_line() +{ + if(position != last) + { + if(m_match_flags & match_single_line) + return false; + // we're not yet at the end so *first is always valid: + if(is_separator(*position)) + { + if((position != backstop) || (m_match_flags & match_prev_avail)) + { + // check that we're not in the middle of \r\n sequence + BidiIterator t(position); + --t; + if((*t == static_cast('\r')) && (*position == static_cast('\n'))) + { + return false; + } + } + pstate = pstate->next.p; + return true; + } + } + else if((m_match_flags & match_not_eol) == 0) + { + pstate = pstate->next.p; + return true; + } + return false; +} + +template +bool perl_matcher::match_wild() +{ + if(position == last) + return false; + if(is_separator(*position) && ((match_any_mask & static_cast(pstate)->mask) == 0)) + return false; + if((*position == char_type(0)) && (m_match_flags & match_not_dot_null)) + return false; + pstate = pstate->next.p; + ++position; + return true; +} + +template +bool perl_matcher::match_word_boundary() +{ + bool b; // indcates whether next character is a word character + if(position != last) + { + // prev and this character must be opposites: + #if defined(BOOST_REGEX_USE_C_LOCALE) && defined(__GNUC__) && (__GNUC__ == 2) && (__GNUC_MINOR__ < 95) + b = traits::isctype(*position, m_word_mask); + #else + b = traits_inst.isctype(*position, m_word_mask); + #endif + } + else + { + b = (m_match_flags & match_not_eow) ? true : false; + } + if((position == backstop) && ((m_match_flags & match_prev_avail) == 0)) + { + if(m_match_flags & match_not_bow) + b ^= true; + else + b ^= false; + } + else + { + --position; + b ^= traits_inst.isctype(*position, m_word_mask); + ++position; + } + if(b) + { + pstate = pstate->next.p; + return true; + } + return false; // no match if we get to here... +} + +template +bool perl_matcher::match_within_word() +{ + if(position == last) + return false; + // both prev and this character must be m_word_mask: + bool prev = traits_inst.isctype(*position, m_word_mask); + { + bool b; + if((position == backstop) && ((m_match_flags & match_prev_avail) == 0)) + return false; + else + { + --position; + b = traits_inst.isctype(*position, m_word_mask); + ++position; + } + if(b == prev) + { + pstate = pstate->next.p; + return true; + } + } + return false; +} + +template +bool perl_matcher::match_word_start() +{ + if(position == last) + return false; // can't be starting a word if we're already at the end of input + if(!traits_inst.isctype(*position, m_word_mask)) + return false; // next character isn't a word character + if((position == backstop) && ((m_match_flags & match_prev_avail) == 0)) + { + if(m_match_flags & match_not_bow) + return false; // no previous input + } + else + { + // otherwise inside buffer: + BidiIterator t(position); + --t; + if(traits_inst.isctype(*t, m_word_mask)) + return false; // previous character not non-word + } + // OK we have a match: + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_word_end() +{ + if((position == backstop) && ((m_match_flags & match_prev_avail) == 0)) + return false; // start of buffer can't be end of word + BidiIterator t(position); + --t; + if(traits_inst.isctype(*t, m_word_mask) == false) + return false; // previous character wasn't a word character + + if(position == last) + { + if(m_match_flags & match_not_eow) + return false; // end of buffer but not end of word + } + else + { + // otherwise inside buffer: + if(traits_inst.isctype(*position, m_word_mask)) + return false; // next character is a word character + } + pstate = pstate->next.p; + return true; // if we fall through to here then we've succeeded +} + +template +bool perl_matcher::match_buffer_start() +{ + if((position != backstop) || (m_match_flags & match_not_bob)) + return false; + // OK match: + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_buffer_end() +{ + if((position != last) || (m_match_flags & match_not_eob)) + return false; + // OK match: + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_backref() +{ + // + // Compare with what we previously matched. + // Note that this succeeds if the backref did not partisipate + // in the match, this is in line with ECMAScript, but not Perl + // or PCRE. + // + int index = static_cast(pstate)->index; + if(index >= 10000) + { + named_subexpressions::range_type r = re.get_data().equal_range(index); + BOOST_ASSERT(r.first != r.second); + do + { + index = r.first->index; + ++r.first; + }while((r.first != r.second) && ((*m_presult)[index].matched != true)); + } + + if((m_match_flags & match_perl) && !(*m_presult)[index].matched) + return false; + + BidiIterator i = (*m_presult)[index].first; + BidiIterator j = (*m_presult)[index].second; + while(i != j) + { + if((position == last) || (traits_inst.translate(*position, icase) != traits_inst.translate(*i, icase))) + return false; + ++i; + ++position; + } + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_long_set() +{ + typedef typename traits::char_class_type char_class_type; + // let the traits class do the work: + if(position == last) + return false; + BidiIterator t = re_is_set_member(position, last, static_cast*>(pstate), re.get_data(), icase); + if(t != position) + { + pstate = pstate->next.p; + position = t; + return true; + } + return false; +} + +template +bool perl_matcher::match_set() +{ + if(position == last) + return false; + if(static_cast(pstate)->_map[static_cast(traits_inst.translate(*position, icase))]) + { + pstate = pstate->next.p; + ++position; + return true; + } + return false; +} + +template +bool perl_matcher::match_jump() +{ + pstate = static_cast(pstate)->alt.p; + return true; +} + +template +bool perl_matcher::match_combining() +{ + if(position == last) + return false; + if(is_combining(traits_inst.translate(*position, icase))) + return false; + ++position; + while((position != last) && is_combining(traits_inst.translate(*position, icase))) + ++position; + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_soft_buffer_end() +{ + if(m_match_flags & match_not_eob) + return false; + BidiIterator p(position); + while((p != last) && is_separator(traits_inst.translate(*p, icase)))++p; + if(p != last) + return false; + pstate = pstate->next.p; + return true; +} + +template +bool perl_matcher::match_restart_continue() +{ + if(position == search_base) + { + pstate = pstate->next.p; + return true; + } + return false; +} + +template +bool perl_matcher::match_backstep() +{ +#ifdef BOOST_MSVC +#pragma warning(push) +#pragma warning(disable:4127) +#endif + if( ::cutl_details_boost::is_random_access_iterator::value) + { + std::ptrdiff_t maxlen = ::cutl_details_boost::re_detail::distance(backstop, position); + if(maxlen < static_cast(pstate)->index) + return false; + std::advance(position, -static_cast(pstate)->index); + } + else + { + int c = static_cast(pstate)->index; + while(c--) + { + if(position == backstop) + return false; + --position; + } + } + pstate = pstate->next.p; + return true; +#ifdef BOOST_MSVC +#pragma warning(pop) +#endif +} + +template +inline bool perl_matcher::match_assert_backref() +{ + // return true if marked sub-expression N has been matched: + int index = static_cast(pstate)->index; + bool result = false; + if(index == 9999) + { + // Magic value for a (DEFINE) block: + return false; + } + else if(index > 0) + { + // Have we matched subexpression "index"? + // Check if index is a hash value: + if(index >= 10000) + { + named_subexpressions::range_type r = re.get_data().equal_range(index); + while(r.first != r.second) + { + if((*m_presult)[r.first->index].matched) + { + result = true; + break; + } + ++r.first; + } + } + else + { + result = (*m_presult)[index].matched; + } + pstate = pstate->next.p; + } + else + { + // Have we recursed into subexpression "index"? + // If index == 0 then check for any recursion at all, otherwise for recursion to -index-1. + int idx = -index-1; + if(idx >= 10000) + { + named_subexpressions::range_type r = re.get_data().equal_range(idx); + int stack_index = recursion_stack.empty() ? -1 : recursion_stack.back().idx; + while(r.first != r.second) + { + result |= (stack_index == r.first->index); + if(result)break; + ++r.first; + } + } + else + { + result = !recursion_stack.empty() && ((recursion_stack.back().idx == idx) || (index == 0)); + } + pstate = pstate->next.p; + } + return result; +} + +template +bool perl_matcher::match_toggle_case() +{ + // change our case sensitivity: + this->icase = static_cast(pstate)->icase; + pstate = pstate->next.p; + return true; +} + + +template +bool perl_matcher::find_restart_any() +{ +#ifdef BOOST_MSVC +#pragma warning(push) +#pragma warning(disable:4127) +#endif + const unsigned char* _map = re.get_map(); + while(true) + { + // skip everything we can't match: + while((position != last) && !can_start(*position, _map, (unsigned char)mask_any) ) + ++position; + if(position == last) + { + // run out of characters, try a null match if possible: + if(re.can_be_null()) + return match_prefix(); + break; + } + // now try and obtain a match: + if(match_prefix()) + return true; + if(position == last) + return false; + ++position; + } + return false; +#ifdef BOOST_MSVC +#pragma warning(pop) +#endif +} + +template +bool perl_matcher::find_restart_word() +{ +#ifdef BOOST_MSVC +#pragma warning(push) +#pragma warning(disable:4127) +#endif + // do search optimised for word starts: + const unsigned char* _map = re.get_map(); + if((m_match_flags & match_prev_avail) || (position != base)) + --position; + else if(match_prefix()) + return true; + do + { + while((position != last) && traits_inst.isctype(*position, m_word_mask)) + ++position; + while((position != last) && !traits_inst.isctype(*position, m_word_mask)) + ++position; + if(position == last) + break; + + if(can_start(*position, _map, (unsigned char)mask_any) ) + { + if(match_prefix()) + return true; + } + if(position == last) + break; + } while(true); + return false; +#ifdef BOOST_MSVC +#pragma warning(pop) +#endif +} + +template +bool perl_matcher::find_restart_line() +{ + // do search optimised for line starts: + const unsigned char* _map = re.get_map(); + if(match_prefix()) + return true; + while(position != last) + { + while((position != last) && !is_separator(*position)) + ++position; + if(position == last) + return false; + ++position; + if(position == last) + { + if(re.can_be_null() && match_prefix()) + return true; + return false; + } + + if( can_start(*position, _map, (unsigned char)mask_any) ) + { + if(match_prefix()) + return true; + } + if(position == last) + return false; + //++position; + } + return false; +} + +template +bool perl_matcher::find_restart_buf() +{ + if((position == base) && ((m_match_flags & match_not_bob) == 0)) + return match_prefix(); + return false; +} + +template +bool perl_matcher::find_restart_lit() +{ +#if 0 + if(position == last) + return false; // can't possibly match if we're at the end already + + unsigned type = (m_match_flags & match_continuous) ? + static_cast(regbase::restart_continue) + : static_cast(re.get_restart_type()); + + const kmp_info* info = access::get_kmp(re); + int len = info->len; + const char_type* x = info->pstr; + int j = 0; + while (position != last) + { + while((j > -1) && (x[j] != traits_inst.translate(*position, icase))) + j = info->kmp_next[j]; + ++position; + ++j; + if(j >= len) + { + if(type == regbase::restart_fixed_lit) + { + std::advance(position, -j); + restart = position; + std::advance(restart, len); + m_result.set_first(position); + m_result.set_second(restart); + position = restart; + return true; + } + else + { + restart = position; + std::advance(position, -j); + if(match_prefix()) + return true; + else + { + for(int k = 0; (restart != position) && (k < j); ++k, --restart) + {} // dwa 10/20/2000 - warning suppression for MWCW + if(restart != last) + ++restart; + position = restart; + j = 0; //we could do better than this... + } + } + } + } + if((m_match_flags & match_partial) && (position == last) && j) + { + // we need to check for a partial match: + restart = position; + std::advance(position, -j); + return match_prefix(); + } +#endif + return false; +} + +} // namespace re_detail + +} // namespace cutl_details_boost + +#ifdef BOOST_MSVC +# pragma warning(pop) +#endif + +#ifdef __BORLANDC__ +# pragma option pop +#endif +#ifdef BOOST_MSVC +#pragma warning(push) +#pragma warning(disable: 4103) +#endif +#ifdef BOOST_HAS_ABI_HEADERS +# include BOOST_ABI_SUFFIX +#endif +#ifdef BOOST_MSVC +#pragma warning(pop) +#endif + +#endif + -- cgit v1.2.3