#include "insert_completer.hh" #include "buffer_manager.hh" #include "buffer_utils.hh" #include "context.hh" #include "debug.hh" #include "display_buffer.hh" #include "face_registry.hh" #include "file.hh" #include "user_interface.hh" #include "window.hh" #include "word_db.hh" namespace Kakoune { using StringList = std::vector; namespace { WordDB& get_word_db(const Buffer& buffer) { static const ValueId word_db_id = ValueId::get_free_id(); Value& cache_val = buffer.values()[word_db_id]; if (not cache_val) cache_val = Value(WordDB{buffer}); return cache_val.as(); } template InsertCompletion complete_word(const Buffer& buffer, ByteCoord cursor_pos) { auto pos = buffer.iterator_at(cursor_pos); if (pos == buffer.begin() or not is_word(*utf8::previous(pos, buffer.begin()))) return {}; auto end = buffer.iterator_at(cursor_pos); auto begin = end-1; while (begin != buffer.begin() and is_word(*begin)) --begin; if (not is_word(*begin)) ++begin; String prefix{begin, end}; while (end != buffer.end() and is_word(*end)) ++end; String current_word{begin, end}; auto& word_db = get_word_db(buffer); std::unordered_set matches; auto bufmatches = subseq ? word_db.find_subsequence(prefix) : word_db.find_prefix(prefix); matches.insert(bufmatches.begin(), bufmatches.end()); if (word_db.get_word_occurences(current_word) <= 1) matches.erase(current_word); if (other_buffers) { for (const auto& buf : BufferManager::instance()) { if (buf.get() == &buffer) continue; auto buf_word_db = get_word_db(*buf); bufmatches = subseq ? buf_word_db.find_subsequence(prefix) : buf_word_db.find_prefix(prefix); matches.insert(bufmatches.begin(), bufmatches.end()); } } matches.erase(prefix); CandidateList result; std::copy(matches.begin(), matches.end(), inserter(result, result.begin())); std::sort(result.begin(), result.end()); return { begin.coord(), cursor_pos, std::move(result), buffer.timestamp() }; } template InsertCompletion complete_filename(const Buffer& buffer, ByteCoord cursor_pos, OptionManager& options) { auto pos = buffer.iterator_at(cursor_pos); auto begin = pos; auto is_filename = [](char c) { return isalnum(c) or c == '/' or c == '.' or c == '_' or c == '-'; }; while (begin != buffer.begin() and is_filename(*(begin-1))) --begin; if (begin == pos) return {}; String prefix{begin, pos}; if (require_slash and not contains(prefix, '/')) return {}; StringList res; if (prefix.front() == '/') res = Kakoune::complete_filename(prefix, Regex{}); else { for (auto dir : options["path"].get()) { if (not dir.empty() and dir.back() != '/') dir += '/'; for (auto& filename : Kakoune::complete_filename(dir + prefix, Regex{})) res.push_back(filename.substr(dir.length())); } } if (res.empty()) return {}; return { begin.coord(), pos.coord(), std::move(res), buffer.timestamp() }; } InsertCompletion complete_option(const Buffer& buffer, ByteCoord cursor_pos, OptionManager& options, StringView option_name) { const StringList& opt = options[option_name].get();; if (opt.empty()) return {}; auto& desc = opt[0]; static const Regex re(R"((\d+)\.(\d+)(?:\+(\d+))?@(\d+))"); boost::smatch match; if (boost::regex_match(desc.begin(), desc.end(), match, re)) { ByteCoord coord{ str_to_int(match[1].str()) - 1, str_to_int(match[2].str()) - 1 }; if (not buffer.is_valid(coord)) return {}; auto end = coord; if (match[3].matched) { ByteCount len = str_to_int(match[3].str()); end = buffer.advance(coord, len); } size_t timestamp = (size_t)str_to_int(match[4].str()); ByteCount longest_completion = 0; for (auto it = opt.begin() + 1; it != opt.end(); ++it) longest_completion = std::max(longest_completion, it->length()); if (timestamp == buffer.timestamp() and cursor_pos.line == coord.line and cursor_pos.column >= coord.column and buffer.distance(coord, cursor_pos) < longest_completion) return { coord, end, { opt.begin() + 1, opt.end() }, timestamp }; } return {}; } InsertCompletion complete_line(const Buffer& buffer, ByteCoord cursor_pos) { StringView prefix = buffer[cursor_pos.line].substr(0_byte, cursor_pos.column); StringList res; for (LineCount l = 0_line; l < buffer.line_count(); ++l) { if (l == cursor_pos.line) continue; ByteCount len = buffer[l].length(); if (len > cursor_pos.column and std::equal(prefix.begin(), prefix.end(), buffer[l].begin())) res.push_back(buffer[l].substr(0_byte, len-1)); } if (res.empty()) return {}; std::sort(res.begin(), res.end()); res.erase(std::unique(res.begin(), res.end()), res.end()); return { cursor_pos.line, cursor_pos, std::move(res), buffer.timestamp() }; } } InsertCompleter::InsertCompleter(const Context& context) : OptionManagerWatcher_AutoRegister(context.options()), m_context(context) {} void InsertCompleter::select(int offset) { if (not setup_ifn()) return; auto& buffer = m_context.buffer(); m_current_candidate = (m_current_candidate + offset) % (int)m_matching_candidates.size(); if (m_current_candidate < 0) m_current_candidate += m_matching_candidates.size(); const String& candidate = m_matching_candidates[m_current_candidate]; auto& selections = m_context.selections(); const auto& cursor_pos = selections.main().cursor(); const auto prefix_len = buffer.distance(m_completions.begin, cursor_pos); const auto suffix_len = std::max(0_byte, buffer.distance(cursor_pos, m_completions.end)); auto ref = buffer.string(m_completions.begin, m_completions.end); for (auto& sel : selections) { const auto& cursor = sel.cursor(); auto pos = buffer.iterator_at(cursor); if (cursor.column >= prefix_len and (pos + suffix_len) != buffer.end() and std::equal(ref.begin(), ref.end(), pos - prefix_len)) { pos = buffer.erase(pos - prefix_len, pos + suffix_len); buffer.insert(pos, candidate); const_cast(selections).update(); } } m_completions.end = cursor_pos; m_completions.begin = buffer.advance(cursor_pos, -candidate.length()); m_completions.timestamp = buffer.timestamp(); if (m_context.has_ui()) m_context.ui().menu_select(m_current_candidate); // when we select a match, remove non displayed matches from the candidates // which are considered as invalid with the new completion timestamp m_completions.candidates.clear(); std::copy(m_matching_candidates.begin(), m_matching_candidates.end()-1, std::back_inserter(m_completions.candidates)); } void InsertCompleter::update() { if (m_completions.is_valid()) { ByteCount longest_completion = 0; for (auto& candidate : m_completions.candidates) longest_completion = std::max(longest_completion, candidate.length()); ByteCoord cursor = m_context.selections().main().cursor(); ByteCoord compl_beg = m_completions.begin; if (cursor.line == compl_beg.line and is_in_range(cursor.column, compl_beg.column, compl_beg.column + longest_completion-1)) { String prefix = m_context.buffer().string(compl_beg, cursor); if (m_context.buffer().timestamp() == m_completions.timestamp) m_matching_candidates = m_completions.candidates; else { m_matching_candidates.clear(); for (auto& candidate : m_completions.candidates) { if (candidate.substr(0, prefix.length()) == prefix) m_matching_candidates.push_back(candidate); } } if (not m_matching_candidates.empty()) { m_current_candidate = m_matching_candidates.size(); m_completions.end = cursor; menu_show(); m_matching_candidates.push_back(prefix); return; } } } reset(); setup_ifn(); } void InsertCompleter::reset() { m_completions = InsertCompletion{}; if (m_context.has_ui()) m_context.ui().menu_hide(); } bool InsertCompleter::setup_ifn() { using namespace std::placeholders; if (not m_completions.is_valid()) { auto& completers = options()["completers"].get(); for (auto& completer : completers) { if (completer == "filename" and try_complete([this](const Buffer& buffer, ByteCoord cursor_pos) { return complete_filename(buffer, cursor_pos, options()); })) return true; if (completer.substr(0_byte, 7_byte) == "option=" and try_complete([&,this](const Buffer& buffer, ByteCoord cursor_pos) { return complete_option(buffer, cursor_pos, options(), completer.substr(7_byte)); })) return true; if (completer == "word=buffer" and (try_complete(complete_word) or try_complete(complete_word))) return true; if (completer == "word=all" and (try_complete(complete_word) or try_complete(complete_word))) return true; } return false; } return true; } void InsertCompleter::menu_show() { if (not m_context.has_ui()) return; CharCoord menu_pos = m_context.window().display_position(m_completions.begin); const CharCount tabstop = m_context.options()["tabstop"].get(); const CharCount column = get_column(m_context.buffer(), tabstop, m_completions.begin); std::vector menu_entries; for (auto& candidate : m_matching_candidates) menu_entries.push_back(expand_tabs(candidate, tabstop, column)); m_context.ui().menu_show(menu_entries, menu_pos, get_face("MenuForeground"), get_face("MenuBackground"), MenuStyle::Inline); m_context.ui().menu_select(m_current_candidate); } void InsertCompleter::on_option_changed(const Option& opt) { auto& completers = options()["completers"].get(); StringList option_names; for (auto& completer : completers) { if (completer.substr(0_byte, 7_byte) == "option=") option_names.emplace_back(completer.substr(7_byte)); } if (contains(option_names, opt.name())) { reset(); setup_ifn(); } } template bool InsertCompleter::try_complete(CompleteFunc complete_func) { auto& buffer = m_context.buffer(); ByteCoord cursor_pos = m_context.selections().main().cursor(); try { m_completions = complete_func(buffer, cursor_pos); } catch (runtime_error& e) { write_debug("error while trying to run completer: "_str + e.what()); return false; } if (not m_completions.is_valid()) return false; kak_assert(cursor_pos >= m_completions.begin); m_matching_candidates = m_completions.candidates; m_current_candidate = m_matching_candidates.size(); menu_show(); m_matching_candidates.push_back(buffer.string(m_completions.begin, m_completions.end)); return true; } void InsertCompleter::explicit_file_complete() { try_complete([this](const Buffer& buffer, ByteCoord cursor_pos) { return complete_filename(buffer, cursor_pos, options()); }); } void InsertCompleter::explicit_word_complete() { try_complete(complete_word); } void InsertCompleter::explicit_line_complete() { try_complete([this](const Buffer& buffer, ByteCoord cursor_pos) { return complete_line(buffer, cursor_pos); }); } }