kakoune/src/regex.hh

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#ifndef regex_hh_INCLUDED
#define regex_hh_INCLUDED
#include "string.hh"
#include "regex_impl.hh"
namespace Kakoune
{
// Regex that keeps track of its string representation
class Regex
{
public:
Regex() = default;
explicit Regex(StringView re, RegexCompileFlags flags = RegexCompileFlags::None);
bool empty() const { return m_str.empty(); }
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bool operator==(const Regex& other) const { return m_str == other.m_str; }
bool operator!=(const Regex& other) const { return m_str != other.m_str; }
const String& str() const { return m_str; }
size_t mark_count() const { return m_impl->save_count / 2 - 1; }
int named_capture_index(StringView name) const;
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static constexpr const char* option_type_name = "regex";
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const CompiledRegex* impl() const { return m_impl.get(); }
private:
RefPtr<CompiledRegex> m_impl;
String m_str;
};
template<typename Iterator>
struct MatchResults
{
struct SubMatch : std::pair<Iterator, Iterator>
{
SubMatch() = default;
SubMatch(Iterator begin, Iterator end)
: std::pair<Iterator, Iterator>{begin, end}, matched{begin != Iterator{}}
{}
bool matched = false;
};
struct iterator : std::iterator<std::bidirectional_iterator_tag, SubMatch, size_t, SubMatch*, SubMatch>
{
using It = typename Vector<Iterator, MemoryDomain::Regex>::const_iterator;
iterator() = default;
iterator(It it) : m_it{std::move(it)} {}
iterator& operator--() { m_it += 2; return *this; }
iterator& operator++() { m_it += 2; return *this; }
SubMatch operator*() const { return {*m_it, *(m_it+1)}; }
friend bool operator==(const iterator& lhs, const iterator& rhs) { return lhs.m_it == rhs.m_it; }
friend bool operator!=(const iterator& lhs, const iterator& rhs) { return lhs.m_it != rhs.m_it; }
private:
It m_it;
};
MatchResults() = default;
MatchResults(Vector<Iterator, MemoryDomain::Regex> values) : m_values{std::move(values)} {}
iterator begin() const { return iterator{m_values.begin()}; }
iterator cbegin() const { return iterator{m_values.cbegin()}; }
iterator end() const { return iterator{m_values.end()}; }
iterator cend() const { return iterator{m_values.cend()}; }
size_t size() const { return m_values.size() / 2; }
bool empty() const { return m_values.empty(); }
SubMatch operator[](size_t i) const
{
return i * 2 < m_values.size() ?
SubMatch{m_values[i*2], m_values[i*2+1]} : SubMatch{};
}
friend bool operator==(const MatchResults& lhs, const MatchResults& rhs)
{
return lhs.m_values == rhs.m_values;
}
friend bool operator!=(const MatchResults& lhs, const MatchResults& rhs)
{
return not (lhs == rhs);
}
void swap(MatchResults& other)
{
m_values.swap(other.m_values);
}
Vector<Iterator, MemoryDomain::Regex>& values() { return m_values; }
private:
Vector<Iterator, MemoryDomain::Regex> m_values;
};
inline RegexExecFlags match_flags(bool bol, bool eol, bool bow, bool eow)
{
return (bol ? RegexExecFlags::None : RegexExecFlags::NotBeginOfLine) |
(eol ? RegexExecFlags::None : RegexExecFlags::NotEndOfLine) |
(bow ? RegexExecFlags::None : RegexExecFlags::NotBeginOfWord) |
(eow ? RegexExecFlags::None : RegexExecFlags::NotEndOfWord);
}
template<typename It>
bool regex_match(It begin, It end, const Regex& re)
{
ThreadedRegexVM<It, MatchDirection::Forward> vm{*re.impl()};
return vm.exec(begin, end, begin, end, RegexExecFlags::AnyMatch | RegexExecFlags::NoSaves);
}
template<typename It>
bool regex_match(It begin, It end, MatchResults<It>& res, const Regex& re)
{
res.values().clear();
ThreadedRegexVM<It, MatchDirection::Forward> vm{*re.impl()};
if (vm.exec(begin, end, begin, end, RegexExecFlags::None))
{
std::copy(vm.captures().begin(), vm.captures().end(), std::back_inserter(res.values()));
return true;
}
return false;
}
template<typename It>
bool regex_search(It begin, It end, It subject_begin, It subject_end, const Regex& re,
RegexExecFlags flags = RegexExecFlags::None)
{
ThreadedRegexVM<It, MatchDirection::Forward> vm{*re.impl()};
return vm.exec(begin, end, subject_begin, subject_end,
flags | RegexExecFlags::Search | RegexExecFlags::AnyMatch | RegexExecFlags::NoSaves);
}
template<typename It, MatchDirection direction = MatchDirection::Forward>
bool regex_search(It begin, It end, It subject_begin, It subject_end,
MatchResults<It>& res, const Regex& re,
RegexExecFlags flags = RegexExecFlags::None)
{
res.values().clear();
ThreadedRegexVM<It, direction> vm{*re.impl()};
if (vm.exec(begin, end, subject_begin, subject_end, flags | RegexExecFlags::Search))
{
std::move(vm.captures().begin(), vm.captures().end(), std::back_inserter(res.values()));
return true;
}
return false;
}
template<typename It>
bool backward_regex_search(It begin, It end, It subject_begin, It subject_end,
MatchResults<It>& res, const Regex& re,
RegexExecFlags flags = RegexExecFlags::None)
{
return regex_search<It, MatchDirection::Backward>(begin, end, subject_begin, subject_end, res, re, flags);
}
String option_to_string(const Regex& re);
Regex option_from_string(Meta::Type<Regex>, StringView str);
template<typename Iterator, MatchDirection direction = MatchDirection::Forward,
typename VmArg = const Regex>
struct RegexIterator
{
using ValueType = MatchResults<Iterator>;
struct Sentinel{};
struct It
{
It(RegexIterator& base) : m_base(base), m_valid{m_base.next()} {}
const ValueType& operator*() const { kak_assert(m_valid); return m_base.m_results; }
const ValueType* operator->() const { kak_assert(m_valid); return &m_base.m_results; }
It& operator++() { m_valid = m_base.next(); return *this; }
bool operator==(Sentinel) const { return not m_valid; }
bool operator!=(Sentinel) const { return m_valid; }
RegexIterator& m_base;
bool m_valid;
};
RegexIterator(Iterator begin, Iterator end,
Iterator subject_begin, Iterator subject_end,
VmArg& vm_arg, RegexExecFlags flags = RegexExecFlags::None)
: m_vm{make_vm(vm_arg)}, m_next_pos{direction == MatchDirection::Forward ? begin : end},
m_begin{std::move(begin)}, m_end{std::move(end)},
m_subject_begin{std::move(subject_begin)}, m_subject_end{std::move(subject_end)},
m_flags{flags} {}
RegexIterator(const Iterator& begin, const Iterator& end,
VmArg& vm_arg, RegexExecFlags flags = RegexExecFlags::None)
: RegexIterator{begin, end, begin, end, vm_arg, flags} {}
It begin() { return {*this}; }
Sentinel end() const { return {}; }
private:
bool next()
{
auto additional_flags = RegexExecFlags::Search;
if (m_results.size() and m_results[0].first == m_results[0].second)
additional_flags |= RegexExecFlags::NotInitialNull;
constexpr bool forward = direction == MatchDirection::Forward;
if (not m_vm.exec(forward ? m_next_pos : m_begin, forward ? m_end : m_next_pos,
m_subject_begin, m_subject_end, m_flags | additional_flags))
return false;
m_results.values().clear();
std::move(m_vm.captures().begin(), m_vm.captures().end(), std::back_inserter(m_results.values()));
m_next_pos = (direction == MatchDirection::Forward) ? m_results[0].second : m_results[0].first;
return true;
}
using RegexVM = ThreadedRegexVM<Iterator, direction>;
static RegexVM& make_vm(RegexVM& vm) { return vm; }
static RegexVM make_vm(const Regex& regex) { return {*regex.impl()}; }
decltype(make_vm(std::declval<VmArg&>())) m_vm;
MatchResults<Iterator> m_results;
Iterator m_next_pos{};
const Iterator m_begin{};
const Iterator m_end{};
const Iterator m_subject_begin{};
const Iterator m_subject_end{};
const RegexExecFlags m_flags = RegexExecFlags::None;
};
}
#endif // regex_hh_INCLUDED