#include "buffer.hh" #include "assert.hh" #include "buffer_manager.hh" #include "client.hh" #include "containers.hh" #include "context.hh" #include "file.hh" #include "shared_string.hh" #include "utils.hh" #include "window.hh" #include namespace Kakoune { Buffer::Buffer(String name, Flags flags, BufferLines lines, time_t fs_timestamp) : Scope(GlobalScope::instance()), m_name(flags & Flags::File ? real_path(parse_filename(name)) : std::move(name)), m_flags(flags | Flags::NoUndo), m_history(), m_history_cursor(m_history.begin()), m_last_save_undo_index(0), m_fs_timestamp(fs_timestamp) { BufferManager::instance().register_buffer(*this); options().register_watcher(*this); if (lines.empty()) lines.emplace_back(StringData::create("\n")); #ifdef KAK_DEBUG for (auto& line : lines) kak_assert(not (line->length == 0) and line->data()[line->length-1] == '\n'); #endif static_cast(m_lines) = std::move(lines); m_changes.push_back({ Change::Insert, true, {0,0}, line_count() }); if (flags & Flags::File) { if (flags & Flags::New) run_hook_in_own_context("BufNew", m_name); else { kak_assert(m_fs_timestamp != InvalidTime); run_hook_in_own_context("BufOpen", m_name); } } run_hook_in_own_context("BufCreate", m_name); // now we may begin to record undo data m_flags = flags; for (auto& option : options().flatten_options()) on_option_changed(*option); } Buffer::~Buffer() { run_hook_in_own_context("BufClose", m_name); options().unregister_watcher(*this); BufferManager::instance().unregister_buffer(*this); m_values.clear(); } String Buffer::display_name() const { if (m_flags & Flags::File) return compact_path(m_name); return m_name; } bool Buffer::set_name(String name) { Buffer* other = BufferManager::instance().get_buffer_ifp(name); if (other == nullptr or other == this) { if (m_flags & Flags::File) m_name = real_path(name); else m_name = std::move(name); return true; } return false; } BufferIterator Buffer::iterator_at(ByteCoord coord) const { return is_end(coord) ? end() : BufferIterator(*this, clamp(coord)); } ByteCoord Buffer::clamp(ByteCoord coord) const { if (m_lines.empty()) return ByteCoord{}; coord.line = Kakoune::clamp(coord.line, 0_line, line_count() - 1); ByteCount max_col = std::max(0_byte, m_lines[coord.line].length() - 1); coord.column = Kakoune::clamp(coord.column, 0_byte, max_col); return coord; } ByteCoord Buffer::offset_coord(ByteCoord coord, CharCount offset) { StringView line = m_lines[coord.line]; auto character = std::max(0_char, std::min(line.char_count_to(coord.column) + offset, line.char_length() - 1)); return {coord.line, line.byte_count_to(character)}; } ByteCoordAndTarget Buffer::offset_coord(ByteCoordAndTarget coord, LineCount offset) { auto character = coord.target == -1 ? m_lines[coord.line].char_count_to(coord.column) : coord.target; auto line = Kakoune::clamp(coord.line + offset, 0_line, line_count()-1); StringView content = m_lines[line]; character = std::max(0_char, std::min(character, content.char_length() - 2)); return {line, content.byte_count_to(character), character}; } String Buffer::string(ByteCoord begin, ByteCoord end) const { String res; for (auto line = begin.line; line <= end.line and line < line_count(); ++line) { ByteCount start = 0; if (line == begin.line) start = begin.column; ByteCount count = -1; if (line == end.line) count = end.column - start; res += m_lines[line].substr(start, count); } return res; } // A Modification holds a single atomic modification to Buffer struct Buffer::Modification { enum Type { Insert, Erase }; Type type; ByteCoord coord; SharedString content; Modification(Type type, ByteCoord coord, SharedString content) : type(type), coord(coord), content(std::move(content)) {} Modification inverse() const { return {type == Insert ? Erase : Insert, coord, content}; } }; void Buffer::reload(BufferLines lines, time_t fs_timestamp) { m_changes.push_back({ Change::Erase, true, {0,0}, line_count() }); commit_undo_group(); if (not (m_flags & Flags::NoUndo)) { for (auto line = line_count()-1; line >= 0; --line) m_current_undo_group.emplace_back( Modification::Erase, line, SharedString{m_lines.get_storage(line)}); } if (lines.empty()) lines.emplace_back(StringData::create("\n")); for (size_t l = 0; l < lines.size(); ++l) { auto& line = lines[l]; kak_assert(not (line->length == 0) and line->data()[line->length-1] == '\n'); if (not (m_flags & Flags::NoUndo)) m_current_undo_group.emplace_back( Modification::Insert, LineCount{(int)l}, SharedString{line}); } static_cast(m_lines) = std::move(lines); commit_undo_group(); m_last_save_undo_index = m_history_cursor - m_history.begin(); m_fs_timestamp = fs_timestamp; m_changes.push_back({ Change::Insert, true, {0,0}, line_count() }); } void Buffer::commit_undo_group() { if (m_flags & Flags::NoUndo) return; if (m_current_undo_group.empty()) return; m_history.erase(m_history_cursor, m_history.end()); m_history.push_back(std::move(m_current_undo_group)); m_current_undo_group.clear(); m_history_cursor = m_history.end(); if (m_history.size() < m_last_save_undo_index) m_last_save_undo_index = -1; } bool Buffer::undo() { commit_undo_group(); if (m_history_cursor == m_history.begin()) return false; --m_history_cursor; for (const Modification& modification : reversed(*m_history_cursor)) apply_modification(modification.inverse()); return true; } bool Buffer::redo() { if (m_history_cursor == m_history.end()) return false; kak_assert(m_current_undo_group.empty()); for (const Modification& modification : *m_history_cursor) apply_modification(modification); ++m_history_cursor; return true; } void Buffer::check_invariant() const { #ifdef KAK_DEBUG kak_assert(not m_lines.empty()); for (auto& line : m_lines) { kak_assert(line->strview().length() > 0); kak_assert(line->strview().back() == '\n'); } #endif } ByteCoord Buffer::do_insert(ByteCoord pos, StringView content) { kak_assert(is_valid(pos)); if (content.empty()) return pos; ByteCoord begin; ByteCoord end; bool at_end = false; // if we inserted at the end of the buffer, we have created a new // line without inserting a '\n' if (is_end(pos)) { ByteCount start = 0; for (ByteCount i = 0; i < content.length(); ++i) { if (content[i] == '\n') { m_lines.push_back(StringData::create(content.substr(start, i + 1 - start))); start = i + 1; } } if (start != content.length()) m_lines.push_back(StringData::create(content.substr(start))); begin = pos.column == 0 ? pos : ByteCoord{ pos.line + 1, 0 }; end = ByteCoord{ line_count(), 0 }; at_end = true; } else { StringView prefix = m_lines[pos.line].substr(0, pos.column); StringView suffix = m_lines[pos.line].substr(pos.column); LineList new_lines; ByteCount start = 0; for (ByteCount i = 0; i < content.length(); ++i) { if (content[i] == '\n') { StringView line_content = content.substr(start, i + 1 - start); if (start == 0) new_lines.emplace_back(StringData::create(prefix + line_content)); else new_lines.push_back(StringData::create(line_content)); start = i + 1; } } if (start == 0) new_lines.emplace_back(StringData::create(prefix + content + suffix)); else if (start != content.length() or not suffix.empty()) new_lines.emplace_back(StringData::create(content.substr(start) + suffix)); LineCount last_line = pos.line + new_lines.size() - 1; auto line_it = m_lines.begin() + (int)pos.line; *line_it = std::move(*new_lines.begin()); m_lines.insert(line_it+1, std::make_move_iterator(new_lines.begin() + 1), std::make_move_iterator(new_lines.end())); begin = pos; end = ByteCoord{ last_line, m_lines[last_line].length() - suffix.length() }; } m_changes.push_back({ Change::Insert, at_end, begin, end }); return begin; } ByteCoord Buffer::do_erase(ByteCoord begin, ByteCoord end) { kak_assert(is_valid(begin)); kak_assert(is_valid(end)); StringView prefix = m_lines[begin.line].substr(0, begin.column); StringView suffix = m_lines[end.line].substr(end.column); String new_line = prefix + suffix; ByteCoord next; if (new_line.length() != 0) { m_lines.erase(m_lines.begin() + (int)begin.line, m_lines.begin() + (int)end.line); m_lines.get_storage(begin.line) = StringData::create(new_line); next = begin; } else { m_lines.erase(m_lines.begin() + (int)begin.line, m_lines.begin() + (int)end.line + 1); next = is_end(begin) ? end_coord() : ByteCoord{begin.line, 0}; } m_changes.push_back({ Change::Erase, is_end(begin), begin, end }); return next; } void Buffer::apply_modification(const Modification& modification) { StringView content = modification.content; ByteCoord coord = modification.coord; kak_assert(is_valid(coord)); // in modifications, end coords should be {line_count(), 0} kak_assert((m_lines.empty() and coord == ByteCoord{0,0} ) or coord != ByteCoord(line_count()-1, m_lines.back().length())); switch (modification.type) { case Modification::Insert: { do_insert(coord, content); break; } case Modification::Erase: { ByteCount count = content.length(); ByteCoord end = advance(coord, count); kak_assert(string(coord, end) == content); do_erase(coord, end); break; } default: kak_assert(false); } } BufferIterator Buffer::insert(const BufferIterator& pos, StringView content) { kak_assert(is_valid(pos.coord())); if (content.empty()) return pos; SharedString real_content; if (pos == end() and content.back() != '\n') real_content = intern(content + "\n"); else real_content = intern(content); // for undo and redo purpose it is better to use one past last line rather // than one past last char coord. auto coord = pos == end() ? ByteCoord{line_count()} : pos.coord(); if (not (m_flags & Flags::NoUndo)) m_current_undo_group.emplace_back(Modification::Insert, coord, real_content); return {*this, do_insert(pos.coord(), real_content)}; } BufferIterator Buffer::erase(BufferIterator begin, BufferIterator end) { // do not erase last \n except if we erase from the start of a line if (end == this->end() and (begin.coord().column != 0 or begin == this->begin())) --end; if (begin == end) return begin; if (not (m_flags & Flags::NoUndo)) m_current_undo_group.emplace_back(Modification::Erase, begin.coord(), intern(string(begin.coord(), end.coord()))); return {*this, do_erase(begin.coord(), end.coord())}; } bool Buffer::is_modified() const { size_t history_cursor_index = m_history_cursor - m_history.begin(); return m_last_save_undo_index != history_cursor_index or not m_current_undo_group.empty(); } void Buffer::notify_saved() { if (not m_current_undo_group.empty()) commit_undo_group(); m_flags &= ~Flags::New; size_t history_cursor_index = m_history_cursor - m_history.begin(); if (m_last_save_undo_index != history_cursor_index) m_last_save_undo_index = history_cursor_index; m_fs_timestamp = get_fs_timestamp(m_name); } ByteCoord Buffer::advance(ByteCoord coord, ByteCount count) const { if (count > 0) { auto line = coord.line; count += coord.column; while (count >= m_lines[line].length()) { count -= m_lines[line++].length(); if (line == line_count()) return end_coord(); } return { line, count }; } else if (count < 0) { auto line = coord.line; count += coord.column; while (count < 0) { count += m_lines[--line].length(); if (line < 0) return {0, 0}; } return { line, count }; } return coord; } ByteCoord Buffer::char_next(ByteCoord coord) const { if (coord.column < m_lines[coord.line].length() - 1) { auto line = m_lines[coord.line]; coord.column += utf8::codepoint_size(line[coord.column]); // Handle invalid utf-8 if (coord.column >= line.length()) { ++coord.line; coord.column = 0; } } else if (coord.line == m_lines.size() - 1) coord.column = m_lines.back().length(); else { ++coord.line; coord.column = 0; } return coord; } ByteCoord Buffer::char_prev(ByteCoord coord) const { kak_assert(is_valid(coord)); if (is_end(coord)) return coord = {(int)m_lines.size()-1, m_lines.back().length() - 1}; else if (coord.column == 0) { if (coord.line > 0) coord.column = m_lines[--coord.line].length() - 1; } else { auto line = m_lines[coord.line]; coord.column = (int)(utf8::character_start(line.begin() + (int)coord.column - 1, line.begin()) - line.begin()); } return coord; } time_t Buffer::fs_timestamp() const { kak_assert(m_flags & Flags::File); return m_fs_timestamp; } void Buffer::set_fs_timestamp(time_t ts) { kak_assert(m_flags & Flags::File); m_fs_timestamp = ts; } void Buffer::on_option_changed(const Option& option) { run_hook_in_own_context("BufSetOption", option.name() + "=" + option.get_as_string()); } void Buffer::run_hook_in_own_context(StringView hook_name, StringView param) { InputHandler hook_handler({ *this, Selection{} }, Context::Flags::Transient); hooks().run_hook(hook_name, param, hook_handler.context()); } ByteCoord Buffer::last_modification_coord() const { if (m_history.empty()) return {}; return m_history.back().back().coord; } String Buffer::debug_description() const { String res = display_name() + "\n"; res += " Flags: "; if (m_flags & Flags::File) res += "File (" + name() + ") "; if (m_flags & Flags::New) res += "New "; if (m_flags & Flags::Fifo) res += "Fifo "; if (m_flags & Flags::NoUndo) res += "NoUndo "; res += "\n"; size_t content_size = 0; for (auto& line : m_lines) content_size += (int)line->strview().length(); size_t additional_size = 0; for (auto& undo_group : m_history) additional_size += undo_group.size() * sizeof(Modification); additional_size += m_changes.size() * sizeof(Change); res += " Used mem: content=" + to_string(content_size) + " additional=" + to_string(additional_size) + "\n"; return res; } }