#include "display_buffer.hh" #include "assert.hh" #include "buffer.hh" #include "utf8.hh" namespace Kakoune { StringView DisplayAtom::content() const { switch (m_type) { case BufferRange: { auto line = (*m_buffer)[m_range.begin.line]; if (m_range.begin.line == m_range.end.line) return line.substr(m_range.begin.column, m_range.end.column - m_range.begin.column); else if (m_range.begin.line+1 == m_range.end.line and m_range.end.column == 0) return line.substr(m_range.begin.column); break; } case Text: case ReplacedBufferRange: return m_text; } kak_assert(false); return {}; } CharCount DisplayAtom::length() const { switch (m_type) { case BufferRange: return utf8::distance(m_buffer->iterator_at(m_range.begin), m_buffer->iterator_at(m_range.end)); case Text: case ReplacedBufferRange: return m_text.char_length(); } kak_assert(false); return 0; } void DisplayAtom::trim_begin(CharCount count) { if (m_type == BufferRange) m_range.begin = utf8::advance(m_buffer->iterator_at(m_range.begin), m_buffer->iterator_at(m_range.end), count).coord(); else m_text = m_text.substr(count).str(); check_invariant(); } void DisplayAtom::trim_end(CharCount count) { if (m_type == BufferRange) m_range.end = utf8::advance(m_buffer->iterator_at(m_range.end), m_buffer->iterator_at(m_range.begin), -count).coord(); else m_text = m_text.substr(0, m_text.char_length() - count).str(); check_invariant(); } void DisplayAtom::check_invariant() const { #ifdef KAK_DEBUG if (has_buffer_range()) { kak_assert(m_buffer->is_valid(m_range.begin)); kak_assert(m_buffer->is_valid(m_range.end)); } #endif } DisplayLine::DisplayLine(AtomList atoms) : m_atoms(std::move(atoms)) { compute_range(); } DisplayLine::iterator DisplayLine::split(iterator it, ByteCoord pos) { kak_assert(it->type() == DisplayAtom::BufferRange); kak_assert(it->begin() < pos); kak_assert(it->end() > pos); DisplayAtom atom = *it; atom.m_range.end = pos; it->m_range.begin = pos; atom.check_invariant(); it->check_invariant(); return m_atoms.insert(it, std::move(atom)); } DisplayLine::iterator DisplayLine::split(iterator it, CharCount pos) { kak_assert(it->type() == DisplayAtom::Text); kak_assert(pos > 0); kak_assert(pos < it->length()); DisplayAtom atom(it->m_text.substr(0, pos).str()); it->m_text = it->m_text.substr(pos).str(); atom.check_invariant(); it->check_invariant(); return m_atoms.insert(it, std::move(atom)); } DisplayLine::iterator DisplayLine::insert(iterator it, DisplayAtom atom) { if (atom.has_buffer_range()) { m_range.begin = std::min(m_range.begin, atom.begin()); m_range.end = std::max(m_range.end, atom.end()); } return m_atoms.insert(it, std::move(atom)); } void DisplayLine::push_back(DisplayAtom atom) { if (atom.has_buffer_range()) { m_range.begin = std::min(m_range.begin, atom.begin()); m_range.end = std::max(m_range.end, atom.end()); } m_atoms.push_back(std::move(atom)); } DisplayLine::iterator DisplayLine::erase(iterator beg, iterator end) { iterator res = m_atoms.erase(beg, end); compute_range(); return res; } void DisplayLine::optimize() { if (m_atoms.empty()) return; auto atom_it = m_atoms.begin(); auto next_atom_it = atom_it + 1; while (next_atom_it != m_atoms.end()) { auto& atom = *atom_it; auto& next_atom = *next_atom_it; bool merged = false; if (atom.face == next_atom.face and atom.type() == next_atom.type()) { auto type = atom.type(); if ((type == DisplayAtom::BufferRange or type == DisplayAtom::ReplacedBufferRange) and next_atom.begin() == atom.end()) { atom.m_range.end = next_atom.end(); if (type == DisplayAtom::ReplacedBufferRange) atom.m_text += next_atom.m_text; merged = true; } if (type == DisplayAtom::Text) { atom.m_text += next_atom.m_text; merged = true; } } if (merged) next_atom_it = m_atoms.erase(next_atom_it); else atom_it = next_atom_it++; atom_it->check_invariant(); } } CharCount DisplayLine::length() const { CharCount len = 0; for (auto& atom : m_atoms) len += atom.length(); return len; } void DisplayLine::trim(CharCount first_char, CharCount char_count, bool only_buffer) { for (auto it = begin(); first_char > 0 and it != end(); ) { if (only_buffer and not it->has_buffer_range()) { ++it; continue; } auto len = it->length(); if (len <= first_char) { m_atoms.erase(it); first_char -= len; } else { it->trim_begin(first_char); first_char = 0; } } auto it = begin(); for (; it != end() and char_count > 0; ++it) char_count -= it->length(); if (char_count < 0) (it-1)->trim_end(-char_count); m_atoms.erase(it, end()); compute_range(); } const BufferRange init_range{ {INT_MAX, INT_MAX}, {INT_MIN, INT_MIN} }; void DisplayLine::compute_range() { m_range = init_range; for (auto& atom : m_atoms) { if (not atom.has_buffer_range()) continue; m_range.begin = std::min(m_range.begin, atom.begin()); m_range.end = std::max(m_range.end, atom.end()); } if (m_range == init_range) m_range = { { 0, 0 }, { 0, 0 } }; kak_assert(m_range.begin <= m_range.end); } void DisplayBuffer::compute_range() { m_range = init_range; for (auto& line : m_lines) { m_range.begin = std::min(line.range().begin, m_range.begin); m_range.end = std::max(line.range().end, m_range.end); } if (m_range == init_range) m_range = { { 0, 0 }, { 0, 0 } }; kak_assert(m_range.begin <= m_range.end); } void DisplayBuffer::optimize() { for (auto& line : m_lines) line.optimize(); } }