home/src/buffer.cc

273 lines
6.6 KiB
C++

#include "buffer.hh"
#include "buffer_manager.hh"
#include "window.hh"
#include "assert.hh"
#include "utils.hh"
#include "hooks_manager.hh"
#include "context.hh"
namespace Kakoune
{
template<typename T>
T clamp(T min, T max, T val)
{
if (val < min)
return min;
if (val > max)
return max;
return val;
}
Buffer::Buffer(const std::string& name, Type type,
const BufferString& initial_content)
: m_name(name), m_type(type),
m_history(1), m_history_cursor(m_history.begin()),
m_content(initial_content), m_last_save_undo_index(0)
{
BufferManager::instance().register_buffer(this);
GlobalHooksManager::instance().run_hook("BufCreate", name, Context(*this));
compute_lines();
}
Buffer::~Buffer()
{
m_windows.clear();
assert(m_modification_listeners.empty());
}
BufferIterator Buffer::iterator_at(const BufferCoord& line_and_column) const
{
if (m_lines.empty())
return begin();
BufferCoord clamped = clamp(line_and_column);
return BufferIterator(*this, m_lines[clamped.line] + clamped.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 < line_count(); ++i)
{
if (m_lines[i] > iterator.m_position)
return i - 1;
}
return line_count() - 1;
}
BufferSize Buffer::line_length(BufferPos line) const
{
assert(not m_lines.empty());
BufferPos end = (line >= line_count() - 1) ?
m_content.size() - 1 : 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<int>(0, line_count() - 1, result.line);
int max_col = std::max(0, line_length(result.line)-1);
result.column = Kakoune::clamp<int>(0, max_col, result.column);
return result;
}
BufferIterator Buffer::iterator_at_line_begin(const BufferIterator& iterator) const
{
return BufferIterator(*this, m_lines[line_at(iterator)]);
}
BufferIterator Buffer::iterator_at_line_end(const BufferIterator& iterator) const
{
BufferPos line = line_at(iterator) + 1;
return line < m_lines.size() ? BufferIterator(*this, m_lines[line]) : end();
}
void Buffer::compute_lines()
{
m_lines.clear();
m_lines.push_back(0);
for (BufferPos i = 0; i + 1 < 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();
}
BufferSize Buffer::line_count() const
{
return m_lines.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());
if (m_history.size() < m_last_save_undo_index)
m_last_save_undo_index = -1;
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();
}
Modification Modification::inverse() const
{
Type inverse_type;
switch (type)
{
case Insert: inverse_type = Erase; break;
case 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))
apply_modification(modification.inverse());
}
bool Buffer::redo()
{
if (m_history_cursor == m_history.end())
return false;
for (const Modification& modification : *m_history_cursor)
apply_modification(modification);
++m_history_cursor;
}
void Buffer::apply_modification(const Modification& modification)
{
switch (modification.type)
{
case Modification::Insert:
m_content.insert(modification.position.m_position,
modification.content);
break;
case Modification::Erase:
{
size_t size = modification.content.size();
assert(string(modification.position, modification.position + size)
== modification.content);
m_content.erase(modification.position.m_position, size);
break;
}
default:
assert(false);
}
compute_lines();
for (auto listener : m_modification_listeners)
listener->on_modification(modification);
}
void Buffer::modify(Modification&& modification)
{
apply_modification(modification);
m_current_undo_group.push_back(std::move(modification));
}
Window* Buffer::get_or_create_window()
{
if (m_windows.empty())
m_windows.push_front(std::unique_ptr<Window>(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);
}
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()
{
size_t history_cursor_index = m_history_cursor - m_history.begin();
m_last_save_undo_index = history_cursor_index;
}
void Buffer::register_modification_listener(ModificationListener* listener)
{
assert(listener);
assert(not contains(m_modification_listeners, listener));
m_modification_listeners.push_back(listener);
}
void Buffer::unregister_modification_listener(ModificationListener* listener)
{
assert(listener);
auto it = std::find(m_modification_listeners.begin(),
m_modification_listeners.end(),
listener);
assert(it != m_modification_listeners.end());
m_modification_listeners.erase(it);
}
}