#include "buffer.hh" #include "buffer_manager.hh" #include "window.hh" #include "assert.hh" #include namespace Kakoune { template T clamp(T min, T max, T val) { if (val < min) return min; if (val > max) return max; return val; } BufferIterator::BufferIterator(const Buffer& buffer, BufferPos position) : m_buffer(&buffer), m_position(std::max(0, std::min(position, (BufferPos)buffer.length()))) { } const Buffer& BufferIterator::buffer() const { assert(m_buffer); return *m_buffer; } BufferIterator& BufferIterator::operator=(const BufferIterator& iterator) { m_buffer == iterator.m_buffer; m_position = iterator.m_position; } bool BufferIterator::operator==(const BufferIterator& iterator) const { assert(m_buffer == iterator.m_buffer); return (m_position == iterator.m_position); } bool BufferIterator::operator!=(const BufferIterator& iterator) const { assert(m_buffer == iterator.m_buffer); return (m_position != iterator.m_position); } bool BufferIterator::operator<(const BufferIterator& iterator) const { assert(m_buffer == iterator.m_buffer); return (m_position < iterator.m_position); } bool BufferIterator::operator<=(const BufferIterator& iterator) const { assert(m_buffer == iterator.m_buffer); return (m_position <= iterator.m_position); } BufferChar BufferIterator::operator*() const { assert(m_buffer); return m_buffer->at(m_position); } BufferSize BufferIterator::operator-(const BufferIterator& iterator) const { assert(m_buffer == iterator.m_buffer); return static_cast(m_position) - static_cast(iterator.m_position); } BufferIterator BufferIterator::operator+(BufferSize size) const { assert(m_buffer); return BufferIterator(*m_buffer, m_position + size); } BufferIterator BufferIterator::operator-(BufferSize size) const { assert(m_buffer); return BufferIterator(*m_buffer, m_position - size); } BufferIterator& BufferIterator::operator+=(BufferSize size) { assert(m_buffer); m_position = std::max(0, std::min((BufferSize)m_position + size, m_buffer->length())); return *this; } BufferIterator& BufferIterator::operator-=(BufferSize size) { assert(m_buffer); m_position = std::max(0, std::min((BufferSize)m_position - size, m_buffer->length())); return *this; } BufferIterator& BufferIterator::operator++() { return (*this += 1); } BufferIterator& BufferIterator::operator--() { return (*this -= 1); } bool BufferIterator::is_begin() const { assert(m_buffer); return m_position == 0; } bool BufferIterator::is_end() const { assert(m_buffer); return m_position == m_buffer->length(); } Buffer::Buffer(const std::string& name, const BufferString& initial_content) : m_name(name), m_history(1), m_history_cursor(m_history.begin()), m_content(initial_content) { BufferManager::instance().register_buffer(this); compute_lines(); } void Buffer::erase(const BufferIterator& begin, const BufferIterator& end) { append_modification(Modification(Modification::Erase, begin, string(begin, end))); do_erase(begin, end); } void Buffer::insert(const BufferIterator& position, const BufferString& string) { append_modification(Modification(Modification::Insert, position, string)); do_insert(position, string); } void Buffer::do_erase(const BufferIterator& begin, const BufferIterator& end) { m_content.erase(begin.m_position, end - begin); compute_lines(); } void Buffer::do_insert(const BufferIterator& position, const BufferString& string) { m_content.insert(position.m_position, string); compute_lines(); } BufferIterator Buffer::iterator_at(const BufferCoord& line_and_column) const { if (m_lines.empty()) return begin(); BufferPos line = Kakoune::clamp(0, m_lines.size() - 1, line_and_column.line); BufferPos column = Kakoune::clamp(0, line_length(line), line_and_column.column); return BufferIterator(*this, m_lines[line] + column); } BufferCoord Buffer::line_and_column_at(const BufferIterator& iterator) const { BufferCoord result; if (not m_lines.empty()) { result.line = line_at(iterator); result.column = iterator.m_position - m_lines[result.line]; } return result; } BufferPos Buffer::line_at(const BufferIterator& iterator) const { for (unsigned i = 0; i < m_lines.size(); ++i) { if (m_lines[i] > iterator.m_position) return i - 1; } return m_lines.size() - 1; } BufferSize Buffer::line_length(BufferPos line) const { assert(not m_lines.empty()); BufferPos end = (line >= m_lines.size() - 1) ? m_content.size() : m_lines[line + 1] - 1; return end - m_lines[line]; } BufferCoord Buffer::clamp(const BufferCoord& line_and_column) const { if (m_lines.empty()) return BufferCoord(); BufferCoord result(line_and_column.line, line_and_column.column); result.line = Kakoune::clamp(0, m_lines.size() - 1, result.line); result.column = Kakoune::clamp(0, line_length(result.line), result.column); return result; } void Buffer::compute_lines() { m_lines.clear(); m_lines.push_back(0); for (BufferPos i = 0; i < m_content.size(); ++i) { if (m_content[i] == '\n') m_lines.push_back(i + 1); } } BufferIterator Buffer::begin() const { return BufferIterator(*this, 0); } BufferIterator Buffer::end() const { return BufferIterator(*this, length()); } BufferSize Buffer::length() const { return m_content.size(); } BufferString Buffer::string(const BufferIterator& begin, const BufferIterator& end) const { return m_content.substr(begin.m_position, end - begin); } BufferChar Buffer::at(BufferPos position) const { return m_content[position]; } void Buffer::begin_undo_group() { assert(m_current_undo_group.empty()); m_history.erase(m_history_cursor, m_history.end()); m_history_cursor = m_history.end(); } void Buffer::end_undo_group() { m_history.push_back(m_current_undo_group); m_history_cursor = m_history.end(); m_current_undo_group.clear(); } Buffer::Modification Buffer::Modification::inverse() const { Modification::Type inverse_type; switch (type) { case Modification::Insert: inverse_type = Erase; break; case Modification::Erase: inverse_type = Insert; break; default: assert(false); } return Modification(inverse_type, position, content); } bool Buffer::undo() { if (m_history_cursor == m_history.begin()) return false; --m_history_cursor; for (const Modification& modification : reversed(*m_history_cursor)) replay_modification(modification.inverse()); } bool Buffer::redo() { if (m_history_cursor == m_history.end()) return false; for (const Modification& modification : *m_history_cursor) replay_modification(modification); ++m_history_cursor; } void Buffer::replay_modification(const Modification& modification) { switch (modification.type) { case Modification::Insert: do_insert(modification.position, modification.content); break; case Modification::Erase: { BufferIterator begin = modification.position; BufferIterator end = begin + modification.content.size(); assert(string(begin, end) == modification.content); do_erase(begin, end); break; } default: assert(false); } } void Buffer::append_modification(Modification&& modification) { m_current_undo_group.push_back(modification); } Window* Buffer::get_or_create_window() { if (m_windows.empty()) m_windows.push_front(std::unique_ptr(new Window(*this))); return m_windows.front().get(); } void Buffer::delete_window(Window* window) { assert(&window->buffer() == this); auto window_it = std::find(m_windows.begin(), m_windows.end(), window); assert(window_it != m_windows.end()); m_windows.erase(window_it); } }