screen_size_x
sx = screen_size_x(&wp->base);
if (cx >= screen_size_x(s) - 1)
} while (cx < screen_size_x(s) - 1);
if (s->cx < screen_size_x(s))
if (cx > screen_size_x(s) - 1)
cx = screen_size_x(s) - 1;
m = screen_size_x(s) - s->cx;
if (s->cx < screen_size_x(s))
bit_nclear(s->tabs, 0, screen_size_x(s) - 1);
u_int x = screen_size_x(s), y = screen_size_y(s);
screen_init(*s, screen_size_x(&wp->base), screen_size_y(&wp->base), 0);
mtd->width = screen_size_x(s);
if ((u_int)cx > screen_size_x(s)) /* allow last column */
cx = screen_size_x(s) - 1;
if (nx > screen_size_x(s) - 1 - cx)
nx = screen_size_x(s) - 1 - cx;
cx = screen_size_x(s) - 1;
for (xx = 0; xx < screen_size_x(s); xx++)
if (nx > screen_size_x(s) - s->cx)
nx = screen_size_x(s) - s->cx;
if (s->cx > screen_size_x(s) - 1)
if (nx > screen_size_x(s) - s->cx)
nx = screen_size_x(s) - s->cx;
if (s->cx > screen_size_x(s) - 1)
if (nx > screen_size_x(s) - s->cx)
nx = screen_size_x(s) - s->cx;
if (s->cx > screen_size_x(s) - 1)
u_int sx = screen_size_x(s);
u_int sx = screen_size_x(s);
u_int sx = screen_size_x(s);
if (px != -1 && (u_int)px > screen_size_x(s) - 1)
px = screen_size_x(s) - 1;
u_int sx = screen_size_x(s), sy = screen_size_y(s);
u_int sx = screen_size_x(s);
u_int sx = screen_size_x(s), sy = screen_size_y(s);
ci->used = screen_size_x(s);
ttyctx->sx = screen_size_x(s);
for (xx = s->cx; xx < screen_size_x(s); xx++) {
u_int sx = screen_size_x(s);
ctx->s->write_list[s->cy].data = xmalloc(screen_size_x(ctx->s));
u_int sx = screen_size_x(s), sy = screen_size_y(s);
while (++xx < screen_size_x(s)) {
__func__, screen_size_x(ctx->s), screen_size_y(ctx->s),
screen_size_x(ctx->s), screen_size_y(ctx->s));
screen_size_x(ctx->s), screen_size_y(ctx->s));
if (px + nx > screen_size_x(src)) {
if (nx > screen_size_x(src))
px = screen_size_x(src) - nx;
if (cx == screen_size_x(s))
if (cx == screen_size_x(s))
if ((s->tabs = bit_alloc(screen_size_x(s))) == NULL)
for (i = 8; i < screen_size_x(s); i += 8)
__func__, sx, sy, screen_size_x(s), screen_size_y(s), s->cx, s->cy,
if (sx != screen_size_x(s)) {
sx = screen_size_x(s);
u_int sx = screen_size_x(s), sy = screen_size_y(s);
if (s->cx > screen_size_x(s) - 1)
s->cx = screen_size_x(s) - 1;
if (s->cx > screen_size_x(s) - 1)
s->cx = screen_size_x(s) - 1;
u_int sx = screen_size_x(&wp->base);
ws.ws_col = screen_size_x(&new_wp->base);
if (screen_size_x(&sl->screen) != width ||
if (screen_size_x(s) > cellsize)
ex = screen_size_x(s);
tty_draw_line(tty, s, 0, s->cy, screen_size_x(s),
screen_init(s, screen_size_x(&wp->base), screen_size_y(&wp->base), 0);
if (screen_size_x(s) < 6 * strlen(tim) || screen_size_y(s) < 6) {
if (screen_size_x(s) >= strlen(tim) && screen_size_y(s) != 0) {
x = (screen_size_x(s) / 2) - (strlen(tim) / 2);
x = (screen_size_x(s) / 2) - 3 * strlen(tim);
GRID_LINE_WRAPPED && nextx > screen_size_x(data->backing) - 1) {
screen_size_x(src), sy, screen_size_x(hint),
screen_init(dst, screen_size_x(src), sy, screen_hlimit(src));
reflow = (screen_size_x(hint) != screen_size_x(dst));
*fx = screen_size_x(s) - 1;
*fx = screen_size_x(s) - 1;
if (*fx == screen_size_x(s) - 1) { /* right */
screen_resize_cursor(dst, screen_size_x(hint), screen_size_y(hint), 1,
*fx == screen_size_x(s) - 1 &&
screen_init(&data->screen, screen_size_x(base), screen_size_y(base), 0);
width = screen_size_x(ssp);
u_int sx = screen_size_x(data->backing);
u_int sx = screen_size_x(s);
screen_size_x(s), &mgc, &cgc, &mkgc);
if (py == data->cy && data->cx == screen_size_x(s)) {
screen_write_cursormove(ctx, screen_size_x(s) - 1, py, 0);
if (old_cx == screen_size_x(s))
if (data->cx == screen_size_x(s))
u_int sx = screen_size_x(base);
sx = screen_size_x(s) - 1;
xx = screen_size_x(s);
px = screen_size_x(data->backing);
px = screen_size_x(data->backing);
line = grid_view_string_cells(s->grid, 0, i, screen_size_x(s));