#ifndef buffer_iterator_inl_h_INCLUDED #define buffer_iterator_inl_h_INCLUDED #include "assert.hh" namespace Kakoune { inline BufferIterator::BufferIterator(const Buffer& buffer, BufferCoord coord) : m_buffer(&buffer), m_coord(coord) { kak_assert(is_valid()); } inline const Buffer& BufferIterator::buffer() const { kak_assert(m_buffer); return *m_buffer; } inline bool BufferIterator::is_valid() const { return m_buffer and m_buffer->is_valid(m_coord); } inline void BufferIterator::clamp(bool avoid_eol) { kak_assert(m_buffer); m_coord = m_buffer->clamp(m_coord, avoid_eol); } inline bool BufferIterator::operator==(const BufferIterator& iterator) const { return (m_buffer == iterator.m_buffer and m_coord == iterator.m_coord); } inline bool BufferIterator::operator!=(const BufferIterator& iterator) const { return (m_buffer != iterator.m_buffer or m_coord != iterator.m_coord); } inline bool BufferIterator::operator<(const BufferIterator& iterator) const { kak_assert(m_buffer == iterator.m_buffer); return (m_coord < iterator.m_coord); } inline bool BufferIterator::operator<=(const BufferIterator& iterator) const { kak_assert(m_buffer == iterator.m_buffer); return (m_coord <= iterator.m_coord); } inline bool BufferIterator::operator>(const BufferIterator& iterator) const { kak_assert(m_buffer == iterator.m_buffer); return (m_coord > iterator.m_coord); } inline bool BufferIterator::operator>=(const BufferIterator& iterator) const { kak_assert(m_buffer == iterator.m_buffer); return (m_coord >= iterator.m_coord); } inline char BufferIterator::operator*() const { return m_buffer->m_lines[m_coord.line].content[m_coord.column]; } inline ByteCount BufferIterator::offset() const { kak_assert(m_buffer); return line() >= m_buffer->line_count() ? m_buffer->character_count() : m_buffer->m_lines[line()].start + column(); } inline size_t BufferIterator::operator-(const BufferIterator& iterator) const { kak_assert(m_buffer == iterator.m_buffer); return (size_t)(int)(offset() - iterator.offset()); } inline BufferIterator BufferIterator::operator+(ByteCount size) const { kak_assert(m_buffer); if (size >= 0) { ByteCount o = std::min(m_buffer->character_count(), offset() + size); for (LineCount i = line() + 1; i < m_buffer->line_count(); ++i) { if (m_buffer->m_lines[i].start > o) return BufferIterator(*m_buffer, { i-1, o - m_buffer->m_lines[i-1].start }); } LineCount last_line = std::max(0_line, m_buffer->line_count() - 1); return BufferIterator(*m_buffer, { last_line, o - m_buffer->m_lines[last_line].start }); } return operator-(-size); } inline BufferIterator BufferIterator::operator-(ByteCount size) const { kak_assert(m_buffer); if (size >= 0) { ByteCount o = std::max(0_byte, offset() - size); for (LineCount i = line(); i >= 0; --i) { if (m_buffer->m_lines[i].start <= o) return BufferIterator(*m_buffer, { i, o - m_buffer->m_lines[i].start }); } kak_assert(false); } return operator+(-size); } inline BufferIterator& BufferIterator::operator+=(ByteCount size) { return *this = (*this + size); } inline BufferIterator& BufferIterator::operator-=(ByteCount size) { return *this = (*this - size); } inline BufferIterator& BufferIterator::operator++() { if (m_coord.column < m_buffer->m_lines[m_coord.line].length() - 1) ++m_coord.column; else if (m_coord.line == m_buffer->m_lines.size() - 1) m_coord.column = m_buffer->m_lines.back().length(); else { ++m_coord.line; m_coord.column = 0; } return *this; } inline BufferIterator& BufferIterator::operator--() { if (column() == 0) { if (line() > 0) { --m_coord.line; m_coord.column = m_buffer->m_lines[m_coord.line].length() - 1; } } else --m_coord.column; return *this; } inline BufferIterator BufferIterator::operator++(int) { BufferIterator save = *this; ++*this; return save; } inline BufferIterator BufferIterator::operator--(int) { BufferIterator save = *this; --*this; return save; } inline BufferIterator& BufferIterator::operator=(const BufferCoord& coord) { m_coord = coord; kak_assert(is_valid()); return *this; } inline bool BufferIterator::is_begin() const { kak_assert(m_buffer); return m_coord.line == 0 and m_coord.column == 0; } inline bool BufferIterator::is_end() const { kak_assert(m_buffer); if (m_coord.line == m_buffer->line_count()) { kak_assert(m_coord.column == 0); return true; } return offset() == m_buffer->character_count(); } } #endif // buffer_iterator_inl_h_INCLUDED