kolibrios-gitea/contrib/sdk/sources/PDCurses/pdcurses/overlay.c
turbocat 3908f96f64 Added PDCurses library(uses SDL)
git-svn-id: svn://kolibrios.org@9214 a494cfbc-eb01-0410-851d-a64ba20cac60
2021-10-04 19:26:53 +00:00

215 lines
5.8 KiB
C

/* PDCurses */
#include <curspriv.h>
/*man-start**************************************************************
overlay
-------
### Synopsis
int overlay(const WINDOW *src_w, WINDOW *dst_w)
int overwrite(const WINDOW *src_w, WINDOW *dst_w)
int copywin(const WINDOW *src_w, WINDOW *dst_w, int src_tr,
int src_tc, int dst_tr, int dst_tc, int dst_br,
int dst_bc, int _overlay)
### Description
overlay() and overwrite() copy all the text from src_w into dst_w.
The windows need not be the same size. Those characters in the source
window that intersect with the destination window are copied, so that
the characters appear in the same physical position on the screen.
The difference between the two functions is that overlay() is non-
destructive (blanks are not copied) while overwrite() is destructive
(blanks are copied).
copywin() is similar, but doesn't require that the two windows
overlap. The arguments src_tc and src_tr specify the top left corner
of the region to be copied. dst_tc, dst_tr, dst_br, and dst_bc
specify the region within the destination window to copy to. The
argument "overlay", if TRUE, indicates that the copy is done non-
destructively (as in overlay()); blanks in the source window are not
copied to the destination window. When overlay is FALSE, blanks are
copied.
### Return Value
All functions return OK on success and ERR on error.
### Portability
X/Open ncurses NetBSD
overlay Y Y Y
overwrite Y Y Y
copywin Y Y Y
**man-end****************************************************************/
/* Thanks to Andreas Otte <venn@@uni-paderborn.de> for the
corrected overlay()/overwrite() behavior. */
static int _copy_win(const WINDOW *src_w, WINDOW *dst_w, int src_tr,
int src_tc, int src_br, int src_bc, int dst_tr,
int dst_tc, bool _overlay)
{
int col, line, y1, fc, *minchng, *maxchng;
chtype *w1ptr, *w2ptr;
int lc = 0;
int xdiff = src_bc - src_tc;
int ydiff = src_br - src_tr;
if (!src_w || !dst_w)
return ERR;
minchng = dst_w->_firstch;
maxchng = dst_w->_lastch;
for (y1 = 0; y1 < dst_tr; y1++)
{
minchng++;
maxchng++;
}
for (line = 0; line < ydiff; line++)
{
w1ptr = src_w->_y[line + src_tr] + src_tc;
w2ptr = dst_w->_y[line + dst_tr] + dst_tc;
fc = _NO_CHANGE;
for (col = 0; col < xdiff; col++)
{
if ((*w1ptr) != (*w2ptr) &&
!((*w1ptr & A_CHARTEXT) == ' ' && _overlay))
{
*w2ptr = *w1ptr;
if (fc == _NO_CHANGE)
fc = col + dst_tc;
lc = col + dst_tc;
}
w1ptr++;
w2ptr++;
}
if (*minchng == _NO_CHANGE)
{
*minchng = fc;
*maxchng = lc;
}
else if (fc != _NO_CHANGE)
{
if (fc < *minchng)
*minchng = fc;
if (lc > *maxchng)
*maxchng = lc;
}
minchng++;
maxchng++;
}
return OK;
}
int _copy_overlap(const WINDOW *src_w, WINDOW *dst_w, bool overlay)
{
int first_line, first_col, last_line, last_col;
int src_start_x, src_start_y, dst_start_x, dst_start_y;
int xdiff, ydiff;
if (!src_w || !dst_w)
return ERR;
first_col = max(dst_w->_begx, src_w->_begx);
first_line = max(dst_w->_begy, src_w->_begy);
last_col = min(src_w->_begx + src_w->_maxx, dst_w->_begx + dst_w->_maxx);
last_line = min(src_w->_begy + src_w->_maxy, dst_w->_begy + dst_w->_maxy);
/* determine the overlapping region of the two windows in real
coordinates */
/* if no overlapping region, do nothing */
if ((last_col < first_col) || (last_line < first_line))
return OK;
/* size of overlapping region */
xdiff = last_col - first_col;
ydiff = last_line - first_line;
if (src_w->_begx <= dst_w->_begx)
{
src_start_x = dst_w->_begx - src_w->_begx;
dst_start_x = 0;
}
else
{
dst_start_x = src_w->_begx - dst_w->_begx;
src_start_x = 0;
}
if (src_w->_begy <= dst_w->_begy)
{
src_start_y = dst_w->_begy - src_w->_begy;
dst_start_y = 0;
}
else
{
dst_start_y = src_w->_begy - dst_w->_begy;
src_start_y = 0;
}
return _copy_win(src_w, dst_w, src_start_y, src_start_x,
src_start_y + ydiff, src_start_x + xdiff,
dst_start_y, dst_start_x, overlay);
}
int overlay(const WINDOW *src_w, WINDOW *dst_w)
{
PDC_LOG(("overlay() - called\n"));
return _copy_overlap(src_w, dst_w, TRUE);
}
int overwrite(const WINDOW *src_w, WINDOW *dst_w)
{
PDC_LOG(("overwrite() - called\n"));
return _copy_overlap(src_w, dst_w, FALSE);
}
int copywin(const WINDOW *src_w, WINDOW *dst_w, int src_tr, int src_tc,
int dst_tr, int dst_tc, int dst_br, int dst_bc, int _overlay)
{
int src_end_x, src_end_y;
int src_rows, src_cols, dst_rows, dst_cols;
int min_rows, min_cols;
PDC_LOG(("copywin() - called\n"));
if (!src_w || !dst_w || dst_w == curscr || dst_br >= dst_w->_maxy
|| dst_bc >= dst_w->_maxx || dst_tr < 0 || dst_tc < 0)
return ERR;
src_rows = src_w->_maxy - src_tr;
src_cols = src_w->_maxx - src_tc;
dst_rows = dst_br - dst_tr + 1;
dst_cols = dst_bc - dst_tc + 1;
min_rows = min(src_rows, dst_rows);
min_cols = min(src_cols, dst_cols);
src_end_y = src_tr + min_rows;
src_end_x = src_tc + min_cols;
return _copy_win(src_w, dst_w, src_tr, src_tc, src_end_y, src_end_x,
dst_tr, dst_tc, _overlay);
}