#include "selectors.hh" #include "string.hh" #include "utf8_iterator.hh" #include namespace Kakoune { using Utf8Iterator = utf8::utf8_iterator; namespace { template bool is_word(Codepoint c) { return Kakoune::is_word(c); } template<> bool is_word(Codepoint c) { return !is_blank(c) and !is_eol(c); } static bool is_punctuation(Codepoint c) { return not (is_word(c) or is_blank(c) or is_eol(c)); } enum class CharCategories { Blank, EndOfLine, Word, Punctuation, }; template CharCategories categorize(Codepoint c) { if (is_word(c)) return CharCategories::Word; if (is_eol(c)) return CharCategories::EndOfLine; if (is_blank(c)) return CharCategories::Blank; return punctuation_is_word ? CharCategories::Word : CharCategories::Punctuation; } bool is_begin(const BufferIterator& it) { return it.is_begin(); } bool is_end(const BufferIterator& it) { return it.is_end(); } bool is_begin(const Utf8Iterator& it) { return it.underlying_iterator().is_begin(); } bool is_end(const Utf8Iterator& it) { return it.underlying_iterator().is_end(); } template void skip_while(Iterator& it, T condition) { while (not is_end(it) and condition(*it)) ++it; } template void skip_while_reverse(Iterator& it, T condition) { while (not is_begin(it) and condition(*it)) --it; } Selection utf8_selection(const Utf8Iterator& first, const Utf8Iterator& last) { return Selection(first.underlying_iterator(), last.underlying_iterator()); } } typedef boost::regex_iterator RegexIterator; template Selection select_to_next_word(const Selection& selection) { Utf8Iterator begin = selection.last(); if (categorize(*begin) != categorize(*(begin+1))) ++begin; skip_while(begin, is_eol); Utf8Iterator end = begin+1; if (not punctuation_is_word and is_punctuation(*begin)) skip_while(end, is_punctuation); else if (is_word(*begin)) skip_while(end, is_word); skip_while(end, is_blank); return utf8_selection(begin, end-1); } template Selection select_to_next_word(const Selection&); template Selection select_to_next_word(const Selection&); template Selection select_to_next_word_end(const Selection& selection) { Utf8Iterator begin = selection.last(); if (categorize(*begin) != categorize(*(begin+1))) ++begin; skip_while(begin, is_eol); Utf8Iterator end = begin; skip_while(end, is_blank); if (not punctuation_is_word and is_punctuation(*end)) skip_while(end, is_punctuation); else if (is_word(*end)) skip_while(end, is_word); return utf8_selection(begin, end-1); } template Selection select_to_next_word_end(const Selection&); template Selection select_to_next_word_end(const Selection&); template Selection select_to_previous_word(const Selection& selection) { Utf8Iterator begin = selection.last(); if (categorize(*begin) != categorize(*(begin-1))) --begin; skip_while_reverse(begin, is_eol); Utf8Iterator end = begin; skip_while_reverse(end, is_blank); bool with_end = false; if (not punctuation_is_word and is_punctuation(*end)) { skip_while_reverse(end, is_punctuation); with_end = is_punctuation(*end); } else if (is_word(*end)) { skip_while_reverse(end, is_word); with_end = is_word(*end); } return utf8_selection(begin, with_end ? end : end+1); } template Selection select_to_previous_word(const Selection&); template Selection select_to_previous_word(const Selection&); Selection select_line(const Selection& selection) { Utf8Iterator first = selection.last(); if (*first == '\n' and not is_end(first + 1)) ++first; while (not is_begin(first) and *(first - 1) != '\n') --first; Utf8Iterator last = first; while (not is_end(last + 1) and *last != '\n') ++last; return utf8_selection(first, last); } Selection select_matching(const Selection& selection) { std::vector matching_pairs = { '(', ')', '{', '}', '[', ']', '<', '>' }; Utf8Iterator it = selection.last(); std::vector::iterator match = matching_pairs.end(); while (not is_eol(*it)) { match = std::find(matching_pairs.begin(), matching_pairs.end(), *it); if (match != matching_pairs.end()) break; ++it; } if (match == matching_pairs.end()) return selection; Utf8Iterator begin = it; if (((match - matching_pairs.begin()) % 2) == 0) { int level = 0; const Codepoint opening = *match; const Codepoint closing = *(match+1); while (not is_end(it)) { if (*it == opening) ++level; else if (*it == closing and --level == 0) return utf8_selection(begin, it); ++it; } } else { int level = 0; const Codepoint opening = *(match-1); const Codepoint closing = *match; while (true) { if (*it == closing) ++level; else if (*it == opening and --level == 0) return utf8_selection(begin, it); if (is_begin(it)) break; --it; } } return selection; } Selection select_surrounding(const Selection& selection, const CodepointPair& matching, bool inside) { int level = 0; Utf8Iterator first = selection.last(); while (not is_begin(first)) { if (first != selection.last() and *first == matching.second) ++level; else if (*first == matching.first) { if (level == 0) break; else --level; } --first; } if (level != 0 or *first != matching.first) return selection; level = 0; Utf8Iterator last = first + 1; while (not is_end(last)) { if (*last == matching.first) ++level; else if (*last == matching.second) { if (level == 0) break; else --level; } ++last; } if (level != 0 or *last != matching.second) return selection; if (inside) { ++first; if (first != last) --last; } return utf8_selection(first, last); } Selection select_to(const Selection& selection, Codepoint c, int count, bool inclusive) { Utf8Iterator begin = selection.last(); Utf8Iterator end = begin; do { ++end; skip_while(end, [c](Codepoint cur) { return not is_eol(cur) and cur != c; }); if (is_end(end) or is_eol(*end)) return selection; } while (--count > 0); return utf8_selection(begin, inclusive ? end : end-1); } Selection select_to_reverse(const Selection& selection, Codepoint c, int count, bool inclusive) { Utf8Iterator begin = selection.last(); Utf8Iterator end = begin; do { --end; skip_while_reverse(end, [c](Codepoint cur) { return not is_eol(cur) and cur != c; }); if (is_begin(end) or is_eol(*end)) return selection; } while (--count > 0); return utf8_selection(begin, inclusive ? end : end+1); } Selection select_to_eol(const Selection& selection) { Utf8Iterator begin = selection.last(); Utf8Iterator end = begin + 1; skip_while(end, [](Codepoint cur) { return not is_eol(cur); }); return utf8_selection(begin, end-1); } Selection select_to_eol_reverse(const Selection& selection) { Utf8Iterator begin = selection.last(); Utf8Iterator end = begin - 1; skip_while_reverse(end, [](Codepoint cur) { return not is_eol(cur); }); return utf8_selection(begin, is_begin(end) ? end : end+1); } template Selection select_whole_word(const Selection& selection, bool inner) { Utf8Iterator first = selection.last(); Utf8Iterator last = first; if (is_word(*first)) { skip_while_reverse(first, is_word); if (not is_word(*first)) ++first; skip_while(last, is_word); if (not inner) skip_while(last, is_blank); } else if (not inner) { skip_while_reverse(first, is_blank); if (is_blank(*first)) ++first; skip_while(last, is_blank); if (not is_word(*last)) return selection; skip_while(last, is_word); } --last; return utf8_selection(first, last); } template Selection select_whole_word(const Selection&, bool); template Selection select_whole_word(const Selection&, bool); Selection select_whole_lines(const Selection& selection) { // no need to be utf8 aware for is_eol as we only use \n as line seperator BufferIterator first = selection.first(); BufferIterator last = selection.last(); BufferIterator& to_line_start = first <= last ? first : last; BufferIterator& to_line_end = first <= last ? last : first; --to_line_start; skip_while_reverse(to_line_start, [](char cur) { return not is_eol(cur); }); if (is_eol(*to_line_start)) ++to_line_start; skip_while(to_line_end, [](char cur) { return not is_eol(cur); }); return Selection(first, last); } Selection select_whole_buffer(const Selection& selection) { const Buffer& buffer = selection.first().buffer(); return Selection(buffer.begin(), utf8::previous(buffer.end())); } Selection select_next_match(const Selection& selection, const String& regex) { try { // regex matching do not use Utf8Iterator as boost::regex handle utf8 // decoding itself BufferIterator begin = selection.last(); BufferIterator end = begin; CaptureList captures; Regex ex(regex.begin(), regex.end()); boost::match_results matches; if (boost::regex_search(utf8::next(begin), begin.buffer().end(), matches, ex)) { begin = matches[0].first; end = matches[0].second; for (auto& match : matches) captures.push_back(String(match.first, match.second)); } else if (boost::regex_search(begin.buffer().begin(), utf8::next(begin), matches, ex)) { begin = matches[0].first; end = matches[0].second; for (auto& match : matches) captures.push_back(String(match.first, match.second)); } else throw runtime_error("'" + regex + "': no matches found"); if (begin == end) ++end; return Selection(begin, utf8::previous(end), std::move(captures)); } catch (boost::regex_error& err) { throw runtime_error(String("regex error: ") + err.what()); } } SelectionList select_all_matches(const Selection& selection, const String& regex) { try { Regex ex(regex.begin(), regex.end()); RegexIterator re_it(selection.begin(), selection.end(), ex); RegexIterator re_end; SelectionList result; for (; re_it != re_end; ++re_it) { BufferIterator begin = (*re_it)[0].first; BufferIterator end = (*re_it)[0].second; if (begin == selection.end()) continue; CaptureList captures; for (auto& match : *re_it) captures.push_back(String(match.first, match.second)); result.push_back(Selection(begin, begin == end ? end : utf8::previous(end), std::move(captures))); } return result; } catch (boost::regex_error& err) { throw runtime_error(String("regex error: ") + err.what()); } } SelectionList split_selection(const Selection& selection, const String& separator_regex) { try { Regex ex(separator_regex.begin(), separator_regex.end()); RegexIterator re_it(selection.begin(), selection.end(), ex, boost::regex_constants::match_nosubs); RegexIterator re_end; SelectionList result; BufferIterator begin = selection.begin(); for (; re_it != re_end; ++re_it) { BufferIterator end = (*re_it)[0].first; result.push_back(Selection(begin, (begin == end) ? end : utf8::previous(end))); begin = (*re_it)[0].second; } result.push_back(Selection(begin, std::max(selection.first(), selection.last()))); return result; } catch (boost::regex_error& err) { throw runtime_error(String("regex error: ") + err.what()); } } }