genode/os/include/terminal/cell_array.h

153 lines
3.3 KiB
C++

/*
* \brief Array of character cells
* \author Norman Feske
* \date 2011-06-06
*/
/*
* Copyright (C) 2011-2013 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _TERMINAL__CELL_ARRAY_H_
#define _TERMINAL__CELL_ARRAY_H_
/* Genode includes */
#include <base/allocator.h>
/**
* \param CELL type of a single character cell that contains the information
* about the glyph and its attributes
*
* The 'CELL' type must have a default constructor and has to provide the
* function 'set_cursor()' and 'clear_cursor'.
*/
template <typename CELL>
class Cell_array
{
private:
unsigned _num_cols;
unsigned _num_lines;
Genode::Allocator *_alloc;
CELL **_array;
bool *_line_dirty;
typedef CELL *Char_cell_line;
void _clear_line(Char_cell_line line)
{
for (unsigned col = 0; col < _num_cols; col++)
*line++ = CELL();
}
void _mark_lines_as_dirty(int start, int end)
{
for (int line = start; line <= end; line++)
_line_dirty[line] = true;
}
void _scroll_vertically(int start, int end, bool up)
{
/* rotate lines of the scroll region */
Char_cell_line yanked_line = _array[up ? start : end];
if (up) {
for (int line = start; line <= end - 1; line++)
_array[line] = _array[line + 1];
} else {
for (int line = end; line >= start + 1; line--)
_array[line] = _array[line - 1];
}
_clear_line(yanked_line);
_array[up ? end: start] = yanked_line;
_mark_lines_as_dirty(start, end);
}
public:
Cell_array(unsigned num_cols, unsigned num_lines,
Genode::Allocator *alloc)
:
_num_cols(num_cols),
_num_lines(num_lines),
_alloc(alloc)
{
_array = new (alloc) Char_cell_line[num_lines];
_line_dirty = new (alloc) bool[num_lines];
for (unsigned i = 0; i < num_lines; i++)
_line_dirty[i] = false;
for (unsigned i = 0; i < num_lines; i++)
_array[i] = new (alloc) CELL[num_cols];
}
/* XXX destructor is missing */
void set_cell(int column, int line, CELL cell)
{
_array[line][column] = cell;
_line_dirty[line] = true;
}
CELL get_cell(int column, int line)
{
return _array[line][column];
}
bool line_dirty(int line) { return _line_dirty[line]; }
void mark_line_as_clean(int line)
{
_line_dirty[line] = false;
}
void mark_line_as_dirty(int line)
{
_line_dirty[line] = true;
}
void scroll_up(int region_start, int region_end)
{
_scroll_vertically(region_start, region_end, true);
}
void scroll_down(int region_start, int region_end)
{
_scroll_vertically(region_start, region_end, false);
}
void clear(int region_start, int region_end)
{
for (int line = region_start; line <= region_end; line++)
_clear_line(_array[line]);
_mark_lines_as_dirty(region_start, region_end);
}
void cursor(Terminal::Position pos, bool enable, bool mark_dirty = false)
{
CELL &cell = _array[pos.y][pos.x];
if (enable)
cell.set_cursor();
else
cell.clear_cursor();
if (mark_dirty)
_line_dirty[pos.y] = true;
}
unsigned num_cols() { return _num_cols; }
unsigned num_lines() { return _num_lines; }
};
#endif /* _TERMINAL__CELL_ARRAY_H_ */