Google Git
Sign in
nest-open-source / nest-learning-thermostat / 5.1.5 / ncurses / e9425758973cf2c7c221602893c1dfda7f38ebf3 / . / ncurses-5.7 / ncurses / tty / tty_update.c
blob: 6a3a0c8e9341ece94e67edc7ec78db47a5845c82 [file] [log] [blame]
/****************************************************************************
* Copyright (c) 1998-2007,2008 Free Software Foundation, Inc. *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the *
* "Software"), to deal in the Software without restriction, including *
* without limitation the rights to use, copy, modify, merge, publish, *
* distribute, distribute with modifications, sublicense, and/or sell *
* copies of the Software, and to permit persons to whom the Software is *
* furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included *
* in all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS *
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF *
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. *
* IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR *
* THE USE OR OTHER DEALINGS IN THE SOFTWARE. *
* *
* Except as contained in this notice, the name(s) of the above copyright *
* holders shall not be used in advertising or otherwise to promote the *
* sale, use or other dealings in this Software without prior written *
* authorization. *
****************************************************************************/
/****************************************************************************
* Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995 *
* and: Eric S. Raymond <esr@snark.thyrsus.com> *
* and: Thomas E. Dickey 1996-on *
****************************************************************************/
/*-----------------------------------------------------------------
*
* lib_doupdate.c
*
* The routine doupdate() and its dependents.
* All physical output is concentrated here (except _nc_outch()
* in lib_tputs.c).
*
*-----------------------------------------------------------------*/
#include <curses.priv.h>
#if defined __HAIKU__ && defined __BEOS__
#undef __BEOS__
#endif
#ifdef __BEOS__
#undef false
#undef true
#include <OS.h>
#endif
#if defined(TRACE) && HAVE_SYS_TIMES_H && HAVE_TIMES
#define USE_TRACE_TIMES 1
#else
#define USE_TRACE_TIMES 0
#endif
#if HAVE_SYS_TIME_H && HAVE_SYS_TIME_SELECT
#include <sys/time.h>
#endif
#if USE_TRACE_TIMES
#include <sys/times.h>
#endif
#if USE_FUNC_POLL
#elif HAVE_SELECT
#if HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif
#endif
#include <ctype.h>
#include <term.h>
MODULE_ID("$Id: tty_update.c,v 1.246 2008/08/30 20:08:19 tom Exp $")
/*
* This define controls the line-breakout optimization. Every once in a
* while during screen refresh, we want to check for input and abort the
* update if there's some waiting. CHECK_INTERVAL controls the number of
* changed lines to be emitted between input checks.
*
* Note: Input-check-and-abort is no longer done if the screen is being
* updated from scratch. This is a feature, not a bug.
*/
#define CHECK_INTERVAL 5
#define FILL_BCE() (SP->_coloron && !SP->_default_color && !back_color_erase)
static const NCURSES_CH_T blankchar = NewChar(BLANK_TEXT);
static NCURSES_CH_T normal = NewChar(BLANK_TEXT);
/*
* Enable checking to see if doupdate and friends are tracking the true
* cursor position correctly. NOTE: this is a debugging hack which will
* work ONLY on ANSI-compatible terminals!
*/
/* #define POSITION_DEBUG */
static NCURSES_INLINE NCURSES_CH_T ClrBlank(WINDOW *win);
static int ClrBottom(int total);
static void ClearScreen(NCURSES_CH_T blank);
static void ClrUpdate(void);
static void DelChar(int count);
static void InsStr(NCURSES_CH_T * line, int count);
static void TransformLine(int const lineno);
#ifdef POSITION_DEBUG
/****************************************************************************
*
* Debugging code. Only works on ANSI-standard terminals.
*
****************************************************************************/
static void
position_check(int expected_y, int expected_x, char *legend)
/* check to see if the real cursor position matches the virtual */
{
char buf[20];
char *s;
int y, x;
if (!_nc_tracing || (expected_y < 0 && expected_x < 0))
return;
_nc_flush();
memset(buf, '\0', sizeof(buf));
putp("\033[6n"); /* only works on ANSI-compatibles */
_nc_flush();
*(s = buf) = 0;
do {
int ask = sizeof(buf) - 1 - (s - buf);
int got = read(0, s, ask);
if (got == 0)
break;
s += got;
} while (strchr(buf, 'R') == 0);
_tracef("probe returned %s", _nc_visbuf(buf));
/* try to interpret as a position report */
if (sscanf(buf, "\033[%d;%dR", &y, &x) != 2) {
_tracef("position probe failed in %s", legend);
} else {
if (expected_x < 0)
expected_x = x - 1;
if (expected_y < 0)
expected_y = y - 1;
if (y - 1 != expected_y || x - 1 != expected_x) {
beep();
tputs(tparm("\033[%d;%dH", expected_y + 1, expected_x + 1), 1, _nc_outch);
_tracef("position seen (%d, %d) doesn't match expected one (%d, %d) in %s",
y - 1, x - 1, expected_y, expected_x, legend);
} else {
_tracef("position matches OK in %s", legend);
}
}
}
#else
#define position_check(expected_y, expected_x, legend) /* nothing */
#endif /* POSITION_DEBUG */
/****************************************************************************
*
* Optimized update code
*
****************************************************************************/
static NCURSES_INLINE void
GoTo(int const row, int const col)
{
TR(TRACE_MOVE, ("GoTo(%d, %d) from (%d, %d)",
row, col, SP->_cursrow, SP->_curscol));
position_check(SP->_cursrow, SP->_curscol, "GoTo");
mvcur(SP->_cursrow, SP->_curscol, row, col);
position_check(SP->_cursrow, SP->_curscol, "GoTo2");
}
static NCURSES_INLINE void
PutAttrChar(CARG_CH_T ch)
{
int chlen = 1;
NCURSES_CH_T my_ch;
PUTC_DATA;
NCURSES_CH_T tilde;
NCURSES_CH_T attr = CHDEREF(ch);
TR(TRACE_CHARPUT, ("PutAttrChar(%s) at (%d, %d)",
_tracech_t(ch),
SP->_cursrow, SP->_curscol));
#if USE_WIDEC_SUPPORT
/*
* If this is not a valid character, there is nothing more to do.
*/
if (isWidecExt(CHDEREF(ch))) {
TR(TRACE_CHARPUT, ("...skip"));
return;
}
/*
* Determine the number of character cells which the 'ch' value will use
* on the screen. It should be at least one.
*/
if ((chlen = wcwidth(CharOf(CHDEREF(ch)))) <= 0) {
static const NCURSES_CH_T blank = NewChar(BLANK_TEXT);
/*
* If the character falls into any of these special cases, do
* not force the result to a blank:
*
* a) it is printable (this works around a bug in wcwidth()).
* b) use_legacy_coding() has been called to modify the treatment
* of codes 128-255.
* c) the acs_map[] has been initialized to allow codes 0-31
* to be rendered. This supports Linux console's "PC"
* characters. Codes 128-255 are allowed though this is
* not checked.
*/
if (is8bits(CharOf(CHDEREF(ch)))
&& (isprint(CharOf(CHDEREF(ch)))
|| (SP->_legacy_coding > 0 && CharOf(CHDEREF(ch)) >= 160)
|| (SP->_legacy_coding > 1 && CharOf(CHDEREF(ch)) >= 128)
|| (AttrOf(attr) & A_ALTCHARSET
&& ((CharOfD(ch) < ACS_LEN
&& SP->_acs_map != 0
&& SP->_acs_map[CharOfD(ch)] != 0)
|| (CharOfD(ch) >= 128))))) {
;
} else {
ch = CHREF(blank);
TR(TRACE_CHARPUT, ("forced to blank"));
}
chlen = 1;
}
#endif
if ((AttrOf(attr) & A_ALTCHARSET)
&& SP->_acs_map != 0
&& CharOfD(ch) < ACS_LEN) {
my_ch = CHDEREF(ch); /* work around const param */
#if USE_WIDEC_SUPPORT
/*
* This is crude & ugly, but works most of the time. It checks if the
* acs_chars string specified that we have a mapping for this
* character, and uses the wide-character mapping when we expect the
* normal one to be broken (by mis-design ;-).
*/
if (SP->_screen_acs_fix
&& SP->_screen_acs_map[CharOf(my_ch)]) {
RemAttr(attr, A_ALTCHARSET);
my_ch = _nc_wacs[CharOf(my_ch)];
}
#endif
/*
* If we (still) have alternate character set, it is the normal 8bit
* flavor. The _screen_acs_map[] array tells if the character was
* really in acs_chars, needed because of the way wide/normal line
* drawing flavors are integrated.
*/
if (AttrOf(attr) & A_ALTCHARSET) {
int j = CharOfD(ch);
chtype temp = UChar(SP->_acs_map[j]);
if (!(SP->_screen_acs_map[j])) {
RemAttr(attr, A_ALTCHARSET);
if (temp == 0)
temp = ' ';
}
if (temp != 0)
SetChar(my_ch, temp, AttrOf(attr));
}
ch = CHREF(my_ch);
}
if (tilde_glitch && (CharOfD(ch) == L('~'))) {
SetChar(tilde, L('`'), AttrOf(attr));
ch = CHREF(tilde);
}
UpdateAttrs(attr);
#if !USE_WIDEC_SUPPORT
/* FIXME - we do this special case for signal handling, should see how to
* make it work for wide characters.
*/
if (SP->_outch != 0) {
SP->_outch(UChar(ch));
} else
#endif
{
PUTC(CHDEREF(ch), SP->_ofp); /* macro's fastest... */
COUNT_OUTCHARS(1);
}
SP->_curscol += chlen;
if (char_padding) {
TPUTS_TRACE("char_padding");
putp(char_padding);
}
}
static bool
check_pending(void)
/* check for pending input */
{
bool have_pending = FALSE;
/*
* Only carry out this check when the flag is zero, otherwise we'll
* have the refreshing slow down drastically (or stop) if there's an
* unread character available.
*/
if (SP->_fifohold != 0)
return FALSE;
if (SP->_checkfd >= 0) {
#if USE_FUNC_POLL
struct pollfd fds[1];
fds[0].fd = SP->_checkfd;
fds[0].events = POLLIN;
if (poll(fds, 1, 0) > 0) {
have_pending = TRUE;
}
#elif defined(__BEOS__)
/*
* BeOS's select() is declared in socket.h, so the configure script does
* not see it. That's just as well, since that function works only for
* sockets. This (using snooze and ioctl) was distilled from Be's patch
* for ncurses which uses a separate thread to simulate select().
*
* FIXME: the return values from the ioctl aren't very clear if we get
* interrupted.
*/
int n = 0;
int howmany = ioctl(0, 'ichr', &n);
if (howmany >= 0 && n > 0) {
have_pending = TRUE;
}
#elif HAVE_SELECT
fd_set fdset;
struct timeval ktimeout;
ktimeout.tv_sec =
ktimeout.tv_usec = 0;
FD_ZERO(&fdset);
FD_SET(SP->_checkfd, &fdset);
if (select(SP->_checkfd + 1, &fdset, NULL, NULL, &ktimeout) != 0) {
have_pending = TRUE;
}
#endif
}
if (have_pending) {
SP->_fifohold = 5;
_nc_flush();
}
return FALSE;
}
/* put char at lower right corner */
static void
PutCharLR(const ARG_CH_T ch)
{
if (!auto_right_margin) {
/* we can put the char directly */
PutAttrChar(ch);
} else if (enter_am_mode && exit_am_mode) {
/* we can suppress automargin */
TPUTS_TRACE("exit_am_mode");
putp(exit_am_mode);
PutAttrChar(ch);
SP->_curscol--;
position_check(SP->_cursrow, SP->_curscol, "exit_am_mode");
TPUTS_TRACE("enter_am_mode");
putp(enter_am_mode);
} else if ((enter_insert_mode && exit_insert_mode)
|| insert_character || parm_ich) {
GoTo(screen_lines - 1, screen_columns - 2);
PutAttrChar(ch);
GoTo(screen_lines - 1, screen_columns - 2);
InsStr(newscr->_line[screen_lines - 1].text + screen_columns - 2, 1);
}
}
/*
* Wrap the cursor position, i.e., advance to the beginning of the next line.
*/
static void
wrap_cursor(void)
{
if (eat_newline_glitch) {
/*
* xenl can manifest two different ways. The vt100 way is that, when
* you'd expect the cursor to wrap, it stays hung at the right margin
* (on top of the character just emitted) and doesn't wrap until the
* *next* graphic char is emitted. The c100 way is to ignore LF
* received just after an am wrap.
*
* An aggressive way to handle this would be to emit CR/LF after the
* char and then assume the wrap is done, you're on the first position
* of the next line, and the terminal out of its weird state. Here
* it's safe to just tell the code that the cursor is in hyperspace and
* let the next mvcur() call straighten things out.
*/
SP->_curscol = -1;
SP->_cursrow = -1;
} else if (auto_right_margin) {
SP->_curscol = 0;
SP->_cursrow++;
/*
* We've actually moved - but may have to work around problems with
* video attributes not working.
*/
if (!move_standout_mode && AttrOf(SCREEN_ATTRS(SP))) {
TR(TRACE_CHARPUT, ("turning off (%#lx) %s before wrapping",
(unsigned long) AttrOf(SCREEN_ATTRS(SP)),
_traceattr(AttrOf(SCREEN_ATTRS(SP)))));
(void) VIDATTR(A_NORMAL, 0);
}
} else {
SP->_curscol--;
}
position_check(SP->_cursrow, SP->_curscol, "wrap_cursor");
}
static NCURSES_INLINE void
PutChar(const ARG_CH_T ch)
/* insert character, handling automargin stuff */
{
if (SP->_cursrow == screen_lines - 1 && SP->_curscol == screen_columns - 1)
PutCharLR(ch);
else
PutAttrChar(ch);
if (SP->_curscol >= screen_columns)
wrap_cursor();
position_check(SP->_cursrow, SP->_curscol, "PutChar");
}
/*
* Check whether the given character can be output by clearing commands. This
* includes test for being a space and not including any 'bad' attributes, such
* as A_REVERSE. All attribute flags which don't affect appearance of a space
* or can be output by clearing (A_COLOR in case of bce-terminal) are excluded.
*/
static NCURSES_INLINE bool
can_clear_with(ARG_CH_T ch)
{
if (!back_color_erase && SP->_coloron) {
#if NCURSES_EXT_FUNCS
int pair;
if (!SP->_default_color)
return FALSE;
if (SP->_default_fg != C_MASK || SP->_default_bg != C_MASK)
return FALSE;
if ((pair = GetPair(CHDEREF(ch))) != 0) {
short fg, bg;
pair_content(pair, &fg, &bg);
if (fg != C_MASK || bg != C_MASK)
return FALSE;
}
#else
if (AttrOfD(ch) & A_COLOR)
return FALSE;
#endif
}
return (ISBLANK(CHDEREF(ch)) &&
(AttrOfD(ch) & ~(NONBLANK_ATTR | A_COLOR)) == BLANK_ATTR);
}
/*
* Issue a given span of characters from an array.
* Must be functionally equivalent to:
* for (i = 0; i < num; i++)
* PutChar(ntext[i]);
* but can leave the cursor positioned at the middle of the interval.
*
* Returns: 0 - cursor is at the end of interval
* 1 - cursor is somewhere in the middle
*
* This code is optimized using ech and rep.
*/
static int
EmitRange(const NCURSES_CH_T * ntext, int num)
{
int i;
TR(TRACE_CHARPUT, ("EmitRange %d:%s", num, _nc_viscbuf(ntext, num)));
if (erase_chars || repeat_char) {
while (num > 0) {
int runcount;
NCURSES_CH_T ntext0;
while (num > 1 && !CharEq(ntext[0], ntext[1])) {
PutChar(CHREF(ntext[0]));
ntext++;
num--;
}
ntext0 = ntext[0];
if (num == 1) {
PutChar(CHREF(ntext0));
return 0;
}
runcount = 2;
while (runcount < num && CharEq(ntext[runcount], ntext0))
runcount++;
/*
* The cost expression in the middle isn't exactly right.
* _cup_ch_cost is an upper bound on the cost for moving to the
* end of the erased area, but not the cost itself (which we
* can't compute without emitting the move). This may result
* in erase_chars not getting used in some situations for
* which it would be marginally advantageous.
*/
if (erase_chars
&& runcount > SP->_ech_cost + SP->_cup_ch_cost
&& can_clear_with(CHREF(ntext0))) {
UpdateAttrs(ntext0);
putp(TPARM_1(erase_chars, runcount));
/*
* If this is the last part of the given interval,
* don't bother moving cursor, since it can be the
* last update on the line.
*/
if (runcount < num) {
GoTo(SP->_cursrow, SP->_curscol + runcount);
} else {
return 1; /* cursor stays in the middle */
}
} else if (repeat_char && runcount > SP->_rep_cost) {
bool wrap_possible = (SP->_curscol + runcount >= screen_columns);
int rep_count = runcount;
if (wrap_possible)
rep_count--;
UpdateAttrs(ntext0);
tputs(TPARM_2(repeat_char, CharOf(ntext0), rep_count),
rep_count, _nc_outch);
SP->_curscol += rep_count;
if (wrap_possible)
PutChar(CHREF(ntext0));
} else {
for (i = 0; i < runcount; i++)
PutChar(CHREF(ntext[i]));
}
ntext += runcount;
num -= runcount;
}
return 0;
}
for (i = 0; i < num; i++)
PutChar(CHREF(ntext[i]));
return 0;
}
/*
* Output the line in the given range [first .. last]
*
* If there's a run of identical characters that's long enough to justify
* cursor movement, use that also.
*
* Returns: same as EmitRange
*/
static int
PutRange(const NCURSES_CH_T * otext,
const NCURSES_CH_T * ntext,
int row,
int first, int last)
{
int i, j, same;
TR(TRACE_CHARPUT, ("PutRange(%p, %p, %d, %d, %d)",
otext, ntext, row, first, last));
if (otext != ntext
&& (last - first + 1) > SP->_inline_cost) {
for (j = first, same = 0; j <= last; j++) {
if (!same && isWidecExt(otext[j]))
continue;
if (CharEq(otext[j], ntext[j])) {
same++;
} else {
if (same > SP->_inline_cost) {
EmitRange(ntext + first, j - same - first);
GoTo(row, first = j);
}
same = 0;
}
}
i = EmitRange(ntext + first, j - same - first);
/*
* Always return 1 for the next GoTo() after a PutRange() if we found
* identical characters at end of interval
*/
return (same == 0 ? i : 1);
}
return EmitRange(ntext + first, last - first + 1);
}
/* leave unbracketed here so 'indent' works */
#define MARK_NOCHANGE(win,row) \
win->_line[row].firstchar = _NOCHANGE; \
win->_line[row].lastchar = _NOCHANGE; \
if_USE_SCROLL_HINTS(win->_line[row].oldindex = row)
NCURSES_EXPORT(int)
doupdate(void)
{
int i;
int nonempty;
#if USE_TRACE_TIMES
struct tms before, after;
#endif /* USE_TRACE_TIMES */
T((T_CALLED("doupdate()")));
if (curscr == 0
|| newscr == 0)
returnCode(ERR);
#ifdef TRACE
if (USE_TRACEF(TRACE_UPDATE)) {
if (curscr->_clear)
_tracef("curscr is clear");
else
_tracedump("curscr", curscr);
_tracedump("newscr", newscr);
_nc_unlock_global(tracef);
}
#endif /* TRACE */
_nc_signal_handler(FALSE);
if (SP->_fifohold)
SP->_fifohold--;
#if USE_SIZECHANGE
if (SP->_endwin || _nc_handle_sigwinch(SP)) {
/*
* This is a transparent extension: XSI does not address it,
* and applications need not know that ncurses can do it.
*
* Check if the terminal size has changed while curses was off
* (this can happen in an xterm, for example), and resize the
* ncurses data structures accordingly.
*/
_nc_update_screensize(SP);
}
#endif
if (SP->_endwin) {
T(("coming back from shell mode"));
reset_prog_mode();
_nc_mvcur_resume();
_nc_screen_resume();
SP->_mouse_resume(SP);
SP->_endwin = FALSE;
}
#if USE_TRACE_TIMES
/* zero the metering machinery */
RESET_OUTCHARS();
(void) times(&before);
#endif /* USE_TRACE_TIMES */
/*
* This is the support for magic-cookie terminals. The theory: we scan
* the virtual screen looking for attribute turnons. Where we find one,
* check to make sure it's realizable by seeing if the required number of
* un-attributed blanks are present before and after the attributed range;
* try to shift the range boundaries over blanks (not changing the screen
* display) so this becomes true. If it is, shift the beginning attribute
* change appropriately (the end one, if we've gotten this far, is
* guaranteed room for its cookie). If not, nuke the added attributes out
* of the span.
*/
#if USE_XMC_SUPPORT
if (magic_cookie_glitch > 0) {
int j, k;
attr_t rattr = A_NORMAL;
for (i = 0; i < screen_lines; i++) {
for (j = 0; j < screen_columns; j++) {
bool failed = FALSE;
NCURSES_CH_T *thisline = newscr->_line[i].text;
attr_t thisattr = AttrOf(thisline[j]) & SP->_xmc_triggers;
attr_t turnon = thisattr & ~rattr;
/* is an attribute turned on here? */
if (turnon == 0) {
rattr = thisattr;
continue;
}
TR(TRACE_ATTRS, ("At (%d, %d): from %s...", i, j, _traceattr(rattr)));
TR(TRACE_ATTRS, ("...to %s", _traceattr(turnon)));
/*
* If the attribute change location is a blank with a "safe"
* attribute, undo the attribute turnon. This may ensure
* there's enough room to set the attribute before the first
* non-blank in the run.
*/
#define SAFE(a) (!((a) & SP->_xmc_triggers))
if (ISBLANK(thisline[j]) && SAFE(turnon)) {
RemAttr(thisline[j], turnon);
continue;
}
/* check that there's enough room at start of span */
for (k = 1; k <= magic_cookie_glitch; k++) {
if (j - k < 0
|| !ISBLANK(thisline[j - k])
|| !SAFE(AttrOf(thisline[j - k]))) {
failed = TRUE;
TR(TRACE_ATTRS, ("No room at start in %d,%d%s%s",
i, j - k,
(ISBLANK(thisline[j - k])
? ""
: ":nonblank"),
(SAFE(AttrOf(thisline[j - k]))
? ""
: ":unsafe")));
break;
}
}
if (!failed) {
bool end_onscreen = FALSE;
int m, n = j;
/* find end of span, if it's onscreen */
for (m = i; m < screen_lines; m++) {
for (; n < screen_columns; n++) {
attr_t testattr = AttrOf(newscr->_line[m].text[n]);
if ((testattr & SP->_xmc_triggers) == rattr) {
end_onscreen = TRUE;
TR(TRACE_ATTRS,
("Range attributed with %s ends at (%d, %d)",
_traceattr(turnon), m, n));
goto foundit;
}
}
n = 0;
}
TR(TRACE_ATTRS,
("Range attributed with %s ends offscreen",
_traceattr(turnon)));
foundit:;
if (end_onscreen) {
NCURSES_CH_T *lastline = newscr->_line[m].text;
/*
* If there are safely-attributed blanks at the end of
* the range, shorten the range. This will help ensure
* that there is enough room at end of span.
*/
while (n >= 0
&& ISBLANK(lastline[n])
&& SAFE(AttrOf(lastline[n]))) {
RemAttr(lastline[n--], turnon);
}
/* check that there's enough room at end of span */
for (k = 1; k <= magic_cookie_glitch; k++) {
if (n + k >= screen_columns
|| !ISBLANK(lastline[n + k])
|| !SAFE(AttrOf(lastline[n + k]))) {
failed = TRUE;
TR(TRACE_ATTRS,
("No room at end in %d,%d%s%s",
i, j - k,
(ISBLANK(lastline[n + k])
? ""
: ":nonblank"),
(SAFE(AttrOf(lastline[n + k]))
? ""
: ":unsafe")));
break;
}
}
}
}
if (failed) {
int p, q = j;
TR(TRACE_ATTRS,
("Clearing %s beginning at (%d, %d)",
_traceattr(turnon), i, j));
/* turn off new attributes over span */
for (p = i; p < screen_lines; p++) {
for (; q < screen_columns; q++) {
attr_t testattr = AttrOf(newscr->_line[p].text[q]);
if ((testattr & SP->_xmc_triggers) == rattr)
goto foundend;
RemAttr(newscr->_line[p].text[q], turnon);
}
q = 0;
}
foundend:;
} else {
TR(TRACE_ATTRS,
("Cookie space for %s found before (%d, %d)",
_traceattr(turnon), i, j));
/*
* Back up the start of range so there's room for cookies
* before the first nonblank character.
*/
for (k = 1; k <= magic_cookie_glitch; k++)
AddAttr(thisline[j - k], turnon);
}
rattr = thisattr;
}
}
#ifdef TRACE
/* show altered highlights after magic-cookie check */
if (USE_TRACEF(TRACE_UPDATE)) {
_tracef("After magic-cookie check...");
_tracedump("newscr", newscr);
_nc_unlock_global(tracef);
}
#endif /* TRACE */
}
#endif /* USE_XMC_SUPPORT */
nonempty = 0;
if (curscr->_clear || newscr->_clear) { /* force refresh ? */
ClrUpdate();
curscr->_clear = FALSE; /* reset flag */
newscr->_clear = FALSE; /* reset flag */
} else {
int changedlines = CHECK_INTERVAL;
if (check_pending())
goto cleanup;
nonempty = min(screen_lines, newscr->_maxy + 1);
if (SP->_scrolling) {
_nc_scroll_optimize();
}
nonempty = ClrBottom(nonempty);
TR(TRACE_UPDATE, ("Transforming lines, nonempty %d", nonempty));
for (i = 0; i < nonempty; i++) {
/*
* Here is our line-breakout optimization.
*/
if (changedlines == CHECK_INTERVAL) {
if (check_pending())
goto cleanup;
changedlines = 0;
}
/*
* newscr->line[i].firstchar is normally set
* by wnoutrefresh. curscr->line[i].firstchar
* is normally set by _nc_scroll_window in the
* vertical-movement optimization code,
*/
if (newscr->_line[i].firstchar != _NOCHANGE
|| curscr->_line[i].firstchar != _NOCHANGE) {
TransformLine(i);
changedlines++;
}
/* mark line changed successfully */
if (i <= newscr->_maxy) {
MARK_NOCHANGE(newscr, i);
}
if (i <= curscr->_maxy) {
MARK_NOCHANGE(curscr, i);
}
}
}
/* put everything back in sync */
for (i = nonempty; i <= newscr->_maxy; i++) {
MARK_NOCHANGE(newscr, i);
}
for (i = nonempty; i <= curscr->_maxy; i++) {
MARK_NOCHANGE(curscr, i);
}
if (!newscr->_leaveok) {
curscr->_curx = newscr->_curx;
curscr->_cury = newscr->_cury;
GoTo(curscr->_cury, curscr->_curx);
}
cleanup:
/*
* We would like to keep the physical screen in normal mode in case we get
* other processes writing to the screen. This goal cannot be met for
* magic cookies since it interferes with attributes that may propagate
* past the current position.
*/
#if USE_XMC_SUPPORT
if (magic_cookie_glitch != 0)
#endif
UpdateAttrs(normal);
_nc_flush();
WINDOW_ATTRS(curscr) = WINDOW_ATTRS(newscr);
#if USE_TRACE_TIMES
(void) times(&after);
TR(TRACE_TIMES,
("Update cost: %ld chars, %ld clocks system time, %ld clocks user time",
_nc_outchars,
(long) (after.tms_stime - before.tms_stime),
(long) (after.tms_utime - before.tms_utime)));
#endif /* USE_TRACE_TIMES */
_nc_signal_handler(TRUE);
returnCode(OK);
}
/*
* ClrBlank(win)
*
* Returns the attributed character that corresponds to the "cleared"
* screen. If the terminal has the back-color-erase feature, this will be
* colored according to the wbkgd() call.
*
* We treat 'curscr' specially because it isn't supposed to be set directly
* in the wbkgd() call. Assume 'stdscr' for this case.
*/
#define BCE_ATTRS (A_NORMAL|A_COLOR)
#define BCE_BKGD(win) (((win) == curscr ? stdscr : (win))->_nc_bkgd)
static NCURSES_INLINE NCURSES_CH_T
ClrBlank(WINDOW *win)
{
NCURSES_CH_T blank = blankchar;
if (back_color_erase)
AddAttr(blank, (AttrOf(BCE_BKGD(win)) & BCE_ATTRS));
return blank;
}
/*
** ClrUpdate()
**
** Update by clearing and redrawing the entire screen.
**
*/
static void
ClrUpdate(void)
{
int i;
NCURSES_CH_T blank = ClrBlank(stdscr);
int nonempty = min(screen_lines, newscr->_maxy + 1);
TR(TRACE_UPDATE, (T_CALLED("ClrUpdate")));
ClearScreen(blank);
TR(TRACE_UPDATE, ("updating screen from scratch"));
nonempty = ClrBottom(nonempty);
for (i = 0; i < nonempty; i++)
TransformLine(i);
TR(TRACE_UPDATE, (T_RETURN("")));
}
/*
** ClrToEOL(blank)
**
** Clear to end of current line, starting at the cursor position
*/
static void
ClrToEOL(NCURSES_CH_T blank, bool needclear)
{
int j;
if (curscr != 0
&& SP->_cursrow >= 0) {
for (j = SP->_curscol; j < screen_columns; j++) {
if (j >= 0) {
NCURSES_CH_T *cp = &(curscr->_line[SP->_cursrow].text[j]);
if (!CharEq(*cp, blank)) {
*cp = blank;
needclear = TRUE;
}
}
}
} else {
needclear = TRUE;
}
if (needclear) {
UpdateAttrs(blank);
TPUTS_TRACE("clr_eol");
if (clr_eol && SP->_el_cost <= (screen_columns - SP->_curscol)) {
putp(clr_eol);
} else {
int count = (screen_columns - SP->_curscol);
while (count-- > 0)
PutChar(CHREF(blank));
}
}
}
/*
** ClrToEOS(blank)
**
** Clear to end of screen, starting at the cursor position
*/
static void
ClrToEOS(NCURSES_CH_T blank)
{
int row, col;
row = SP->_cursrow;
col = SP->_curscol;
UpdateAttrs(blank);
TPUTS_TRACE("clr_eos");
tputs(clr_eos, screen_lines - row, _nc_outch);
while (col < screen_columns)
curscr->_line[row].text[col++] = blank;
for (row++; row < screen_lines; row++) {
for (col = 0; col < screen_columns; col++)
curscr->_line[row].text[col] = blank;
}
}
/*
* ClrBottom(total)
*
* Test if clearing the end of the screen would satisfy part of the
* screen-update. Do this by scanning backwards through the lines in the
* screen, checking if each is blank, and one or more are changed.
*/
static int
ClrBottom(int total)
{
int row;
int col;
int top = total;
int last = min(screen_columns, newscr->_maxx + 1);
NCURSES_CH_T blank = newscr->_line[total - 1].text[last - 1];
bool ok;
if (clr_eos && can_clear_with(CHREF(blank))) {
for (row = total - 1; row >= 0; row--) {
for (col = 0, ok = TRUE; ok && col < last; col++) {
ok = (CharEq(newscr->_line[row].text[col], blank));
}
if (!ok)
break;
for (col = 0; ok && col < last; col++) {
ok = (CharEq(curscr->_line[row].text[col], blank));
}
if (!ok)
top = row;
}
/* don't use clr_eos for just one line if clr_eol available */
if (top < total) {
GoTo(top, 0);
ClrToEOS(blank);
if (SP->oldhash && SP->newhash) {
for (row = top; row < screen_lines; row++)
SP->oldhash[row] = SP->newhash[row];
}
}
}
return top;
}
#if USE_XMC_SUPPORT
#if USE_WIDEC_SUPPORT
#define check_xmc_transition(a, b) \
((((a)->attr ^ (b)->attr) & ~((a)->attr) & SP->_xmc_triggers) != 0)
#define xmc_turn_on(a,b) check_xmc_transition(&(a), &(b))
#else
#define xmc_turn_on(a,b) ((((a)^(b)) & ~(a) & SP->_xmc_triggers) != 0)
#endif
#define xmc_new(r,c) newscr->_line[r].text[c]
#define xmc_turn_off(a,b) xmc_turn_on(b,a)
#endif /* USE_XMC_SUPPORT */
/*
** TransformLine(lineno)
**
** Transform the given line in curscr to the one in newscr, using
** Insert/Delete Character if _nc_idcok && has_ic().
**
** firstChar = position of first different character in line
** oLastChar = position of last different character in old line
** nLastChar = position of last different character in new line
**
** move to firstChar
** overwrite chars up to min(oLastChar, nLastChar)
** if oLastChar < nLastChar
** insert newLine[oLastChar+1..nLastChar]
** else
** delete oLastChar - nLastChar spaces
*/
static void
TransformLine(int const lineno)
{
int firstChar, oLastChar, nLastChar;
NCURSES_CH_T *newLine = newscr->_line[lineno].text;
NCURSES_CH_T *oldLine = curscr->_line[lineno].text;
int n;
bool attrchanged = FALSE;
TR(TRACE_UPDATE, (T_CALLED("TransformLine(%d)"), lineno));
/* copy new hash value to old one */
if (SP->oldhash && SP->newhash)
SP->oldhash[lineno] = SP->newhash[lineno];
/*
* If we have colors, there is the possibility of having two color pairs
* that display as the same colors. For instance, Lynx does this. Check
* for this case, and update the old line with the new line's colors when
* they are equivalent.
*/
if (SP->_coloron) {
int oldPair;
int newPair;
for (n = 0; n < screen_columns; n++) {
if (!CharEq(newLine[n], oldLine[n])) {
oldPair = GetPair(oldLine[n]);
newPair = GetPair(newLine[n]);
if (oldPair != newPair
&& unColor(oldLine[n]) == unColor(newLine[n])) {
if (oldPair < COLOR_PAIRS
&& newPair < COLOR_PAIRS
&& SP->_color_pairs[oldPair] == SP->_color_pairs[newPair]) {
SetPair(oldLine[n], GetPair(newLine[n]));
}
}
}
}
}
if (ceol_standout_glitch && clr_eol) {
firstChar = 0;
while (firstChar < screen_columns) {
if (!SameAttrOf(newLine[firstChar], oldLine[firstChar])) {
attrchanged = TRUE;
break;
}
firstChar++;
}
}
firstChar = 0;
if (attrchanged) { /* we may have to disregard the whole line */
GoTo(lineno, firstChar);
ClrToEOL(ClrBlank(curscr), FALSE);
PutRange(oldLine, newLine, lineno, 0, (screen_columns - 1));
#if USE_XMC_SUPPORT
/*
* This is a very simple loop to paint characters which may have the
* magic cookie glitch embedded. It doesn't know much about video
* attributes which are continued from one line to the next. It
* assumes that we have filtered out requests for attribute changes
* that do not get mapped to blank positions.
*
* FIXME: we are not keeping track of where we put the cookies, so this
* will work properly only once, since we may overwrite a cookie in a
* following operation.
*/
} else if (magic_cookie_glitch > 0) {
GoTo(lineno, firstChar);
for (n = 0; n < screen_columns; n++) {
int m = n + magic_cookie_glitch;
/* check for turn-on:
* If we are writing an attributed blank, where the
* previous cell is not attributed.
*/
if (ISBLANK(newLine[n])
&& ((n > 0
&& xmc_turn_on(newLine[n - 1], newLine[n]))
|| (n == 0
&& lineno > 0
&& xmc_turn_on(xmc_new(lineno - 1, screen_columns - 1),
newLine[n])))) {
n = m;
}
PutChar(CHREF(newLine[n]));
/* check for turn-off:
* If we are writing an attributed non-blank, where the
* next cell is blank, and not attributed.
*/
if (!ISBLANK(newLine[n])
&& ((n + 1 < screen_columns
&& xmc_turn_off(newLine[n], newLine[n + 1]))
|| (n + 1 >= screen_columns
&& lineno + 1 < screen_lines
&& xmc_turn_off(newLine[n], xmc_new(lineno + 1, 0))))) {
n = m;
}
}
#endif
} else {
NCURSES_CH_T blank;
/* it may be cheap to clear leading whitespace with clr_bol */
blank = newLine[0];
if (clr_bol && can_clear_with(CHREF(blank))) {
int oFirstChar, nFirstChar;
for (oFirstChar = 0; oFirstChar < screen_columns; oFirstChar++)
if (!CharEq(oldLine[oFirstChar], blank))
break;
for (nFirstChar = 0; nFirstChar < screen_columns; nFirstChar++)
if (!CharEq(newLine[nFirstChar], blank))
break;
if (nFirstChar == oFirstChar) {
firstChar = nFirstChar;
/* find the first differing character */
while (firstChar < screen_columns
&& CharEq(newLine[firstChar], oldLine[firstChar]))
firstChar++;
} else if (oFirstChar > nFirstChar) {
firstChar = nFirstChar;
} else { /* oFirstChar < nFirstChar */
firstChar = oFirstChar;
if (SP->_el1_cost < nFirstChar - oFirstChar) {
if (nFirstChar >= screen_columns
&& SP->_el_cost <= SP->_el1_cost) {
GoTo(lineno, 0);
UpdateAttrs(blank);
TPUTS_TRACE("clr_eol");
putp(clr_eol);
} else {
GoTo(lineno, nFirstChar - 1);
UpdateAttrs(blank);
TPUTS_TRACE("clr_bol");
putp(clr_bol);
}
while (firstChar < nFirstChar)
oldLine[firstChar++] = blank;
}
}
} else {
/* find the first differing character */
while (firstChar < screen_columns
&& CharEq(newLine[firstChar], oldLine[firstChar]))
firstChar++;
}
/* if there wasn't one, we're done */
if (firstChar >= screen_columns) {
TR(TRACE_UPDATE, (T_RETURN("")));
return;
}
blank = newLine[screen_columns - 1];
if (!can_clear_with(CHREF(blank))) {
/* find the last differing character */
nLastChar = screen_columns - 1;
while (nLastChar > firstChar
&& CharEq(newLine[nLastChar], oldLine[nLastChar]))
nLastChar--;
if (nLastChar >= firstChar) {
GoTo(lineno, firstChar);
PutRange(oldLine, newLine, lineno, firstChar, nLastChar);
memcpy(oldLine + firstChar,
newLine + firstChar,
(nLastChar - firstChar + 1) * sizeof(NCURSES_CH_T));
}
TR(TRACE_UPDATE, (T_RETURN("")));
return;
}
/* find last non-blank character on old line */
oLastChar = screen_columns - 1;
while (oLastChar > firstChar && CharEq(oldLine[oLastChar], blank))
oLastChar--;
/* find last non-blank character on new line */
nLastChar = screen_columns - 1;
while (nLastChar > firstChar && CharEq(newLine[nLastChar], blank))
nLastChar--;
if ((nLastChar == firstChar)
&& (SP->_el_cost < (oLastChar - nLastChar))) {
GoTo(lineno, firstChar);
if (!CharEq(newLine[firstChar], blank))
PutChar(CHREF(newLine[firstChar]));
ClrToEOL(blank, FALSE);
} else if ((nLastChar != oLastChar)
&& (!CharEq(newLine[nLastChar], oldLine[oLastChar])
|| !(_nc_idcok && has_ic()))) {
GoTo(lineno, firstChar);
if ((oLastChar - nLastChar) > SP->_el_cost) {
if (PutRange(oldLine, newLine, lineno, firstChar, nLastChar))
GoTo(lineno, nLastChar + 1);
ClrToEOL(blank, FALSE);
} else {
n = max(nLastChar, oLastChar);
PutRange(oldLine, newLine, lineno, firstChar, n);
}
} else {
int nLastNonblank = nLastChar;
int oLastNonblank = oLastChar;
/* find the last characters that really differ */
/* can be -1 if no characters differ */
while (CharEq(newLine[nLastChar], oldLine[oLastChar])) {
/* don't split a wide char */
if (isWidecExt(newLine[nLastChar]) &&
!CharEq(newLine[nLastChar - 1], oldLine[oLastChar - 1]))
break;
nLastChar--;
oLastChar--;
if (nLastChar == -1 || oLastChar == -1)
break;
}
n = min(oLastChar, nLastChar);
if (n >= firstChar) {
GoTo(lineno, firstChar);
PutRange(oldLine, newLine, lineno, firstChar, n);
}
if (oLastChar < nLastChar) {
int m = max(nLastNonblank, oLastNonblank);
#if USE_WIDEC_SUPPORT
while (isWidecExt(newLine[n + 1]) && n) {
--n;
--oLastChar;
}
#endif
GoTo(lineno, n + 1);
if ((nLastChar < nLastNonblank)
|| InsCharCost(nLastChar - oLastChar) > (m - n)) {
PutRange(oldLine, newLine, lineno, n + 1, m);
} else {
InsStr(&newLine[n + 1], nLastChar - oLastChar);
}
} else if (oLastChar > nLastChar) {
GoTo(lineno, n + 1);
if (DelCharCost(oLastChar - nLastChar)
> SP->_el_cost + nLastNonblank - (n + 1)) {
if (PutRange(oldLine, newLine, lineno,
n + 1, nLastNonblank))
GoTo(lineno, nLastNonblank + 1);
ClrToEOL(blank, FALSE);
} else {
/*
* The delete-char sequence will
* effectively shift in blanks from the
* right margin of the screen. Ensure
* that they are the right color by
* setting the video attributes from
* the last character on the row.
*/
UpdateAttrs(blank);
DelChar(oLastChar - nLastChar);
}
}
}
}
/* update the code's internal representation */
if (screen_columns > firstChar)
memcpy(oldLine + firstChar,
newLine + firstChar,
(screen_columns - firstChar) * sizeof(NCURSES_CH_T));
TR(TRACE_UPDATE, (T_RETURN("")));
return;
}
/*
** ClearScreen(blank)
**
** Clear the physical screen and put cursor at home
**
*/
static void
ClearScreen(NCURSES_CH_T blank)
{
int i, j;
bool fast_clear = (clear_screen || clr_eos || clr_eol);
TR(TRACE_UPDATE, ("ClearScreen() called"));
#if NCURSES_EXT_FUNCS
if (SP->_coloron
&& !SP->_default_color) {
_nc_do_color(GET_SCREEN_PAIR(SP), 0, FALSE, _nc_outch);
if (!back_color_erase) {
fast_clear = FALSE;
}
}
#endif
if (fast_clear) {
if (clear_screen) {
UpdateAttrs(blank);
TPUTS_TRACE("clear_screen");
putp(clear_screen);
SP->_cursrow = SP->_curscol = 0;
position_check(SP->_cursrow, SP->_curscol, "ClearScreen");
} else if (clr_eos) {
SP->_cursrow = SP->_curscol = -1;
GoTo(0, 0);
UpdateAttrs(blank);
TPUTS_TRACE("clr_eos");
tputs(clr_eos, screen_lines, _nc_outch);
} else if (clr_eol) {
SP->_cursrow = SP->_curscol = -1;
UpdateAttrs(blank);
for (i = 0; i < screen_lines; i++) {
GoTo(i, 0);
TPUTS_TRACE("clr_eol");
putp(clr_eol);
}
GoTo(0, 0);
}
} else {
UpdateAttrs(blank);
for (i = 0; i < screen_lines; i++) {
GoTo(i, 0);
for (j = 0; j < screen_columns; j++)
PutChar(CHREF(blank));
}
GoTo(0, 0);
}
for (i = 0; i < screen_lines; i++) {
for (j = 0; j < screen_columns; j++)
curscr->_line[i].text[j] = blank;
}
TR(TRACE_UPDATE, ("screen cleared"));
}
/*
** InsStr(line, count)
**
** Insert the count characters pointed to by line.
**
*/
static void
InsStr(NCURSES_CH_T * line, int count)
{
TR(TRACE_UPDATE, ("InsStr(%p,%d) called", line, count));
/* Prefer parm_ich as it has the smallest cost - no need to shift
* the whole line on each character. */
/* The order must match that of InsCharCost. */
if (parm_ich) {
TPUTS_TRACE("parm_ich");
tputs(TPARM_1(parm_ich, count), count, _nc_outch);
while (count) {
PutAttrChar(CHREF(*line));
line++;
count--;
}
} else if (enter_insert_mode && exit_insert_mode) {
TPUTS_TRACE("enter_insert_mode");
putp(enter_insert_mode);
while (count) {
PutAttrChar(CHREF(*line));
if (insert_padding) {
TPUTS_TRACE("insert_padding");
putp(insert_padding);
}
line++;
count--;
}
TPUTS_TRACE("exit_insert_mode");
putp(exit_insert_mode);
} else {
while (count) {
TPUTS_TRACE("insert_character");
putp(insert_character);
PutAttrChar(CHREF(*line));
if (insert_padding) {
TPUTS_TRACE("insert_padding");
putp(insert_padding);
}
line++;
count--;
}
}
position_check(SP->_cursrow, SP->_curscol, "InsStr");
}
/*
** DelChar(count)
**
** Delete count characters at current position
**
*/
static void
DelChar(int count)
{
int n;
TR(TRACE_UPDATE, ("DelChar(%d) called, position = (%ld,%ld)",
count,
(long) newscr->_cury,
(long) newscr->_curx));
if (parm_dch) {
TPUTS_TRACE("parm_dch");
tputs(TPARM_1(parm_dch, count), count, _nc_outch);
} else {
for (n = 0; n < count; n++) {
TPUTS_TRACE("delete_character");
putp(delete_character);
}
}
}
/*
* Physical-scrolling support
*
* This code was adapted from Keith Bostic's hardware scrolling
* support for 4.4BSD curses. I (esr) translated it to use terminfo
* capabilities, narrowed the call interface slightly, and cleaned
* up some convoluted tests. I also added support for the memory_above
* memory_below, and non_dest_scroll_region capabilities.
*
* For this code to work, we must have either
* change_scroll_region and scroll forward/reverse commands, or
* insert and delete line capabilities.
* When the scrolling region has been set, the cursor has to
* be at the last line of the region to make the scroll up
* happen, or on the first line of region to scroll down.
*
* This code makes one aesthetic decision in the opposite way from
* BSD curses. BSD curses preferred pairs of il/dl operations
* over scrolls, allegedly because il/dl looked faster. We, on
* the other hand, prefer scrolls because (a) they're just as fast
* on many terminals and (b) using them avoids bouncing an
* unchanged bottom section of the screen up and down, which is
* visually nasty.
*
* (lav): added more cases, used dl/il when bot==maxy and in csr case.
*
* I used assumption that capabilities il/il1/dl/dl1 work inside
* changed scroll region not shifting screen contents outside of it.
* If there are any terminals behaving different way, it would be
* necessary to add some conditions to scroll_csr_forward/backward.
*/
/* Try to scroll up assuming given csr (miny, maxy). Returns ERR on failure */
static int
scroll_csr_forward(int n, int top, int bot, int miny, int maxy, NCURSES_CH_T blank)
{
int i;
if (n == 1 && scroll_forward && top == miny && bot == maxy) {
GoTo(bot, 0);
UpdateAttrs(blank);
TPUTS_TRACE("scroll_forward");
putp(scroll_forward);
} else if (n == 1 && delete_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("delete_line");
putp(delete_line);
} else if (parm_index && top == miny && bot == maxy) {
GoTo(bot, 0);
UpdateAttrs(blank);
TPUTS_TRACE("parm_index");
tputs(TPARM_2(parm_index, n, 0), n, _nc_outch);
} else if (parm_delete_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("parm_delete_line");
tputs(TPARM_2(parm_delete_line, n, 0), n, _nc_outch);
} else if (scroll_forward && top == miny && bot == maxy) {
GoTo(bot, 0);
UpdateAttrs(blank);
for (i = 0; i < n; i++) {
TPUTS_TRACE("scroll_forward");
putp(scroll_forward);
}
} else if (delete_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
for (i = 0; i < n; i++) {
TPUTS_TRACE("delete_line");
putp(delete_line);
}
} else
return ERR;
#if NCURSES_EXT_FUNCS
if (FILL_BCE()) {
int j;
for (i = 0; i < n; i++) {
GoTo(bot - i, 0);
for (j = 0; j < screen_columns; j++)
PutChar(CHREF(blank));
}
}
#endif
return OK;
}
/* Try to scroll down assuming given csr (miny, maxy). Returns ERR on failure */
/* n > 0 */
static int
scroll_csr_backward(int n, int top, int bot, int miny, int maxy,
NCURSES_CH_T blank)
{
int i;
if (n == 1 && scroll_reverse && top == miny && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("scroll_reverse");
putp(scroll_reverse);
} else if (n == 1 && insert_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("insert_line");
putp(insert_line);
} else if (parm_rindex && top == miny && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("parm_rindex");
tputs(TPARM_2(parm_rindex, n, 0), n, _nc_outch);
} else if (parm_insert_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
TPUTS_TRACE("parm_insert_line");
tputs(TPARM_2(parm_insert_line, n, 0), n, _nc_outch);
} else if (scroll_reverse && top == miny && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
for (i = 0; i < n; i++) {
TPUTS_TRACE("scroll_reverse");
putp(scroll_reverse);
}
} else if (insert_line && bot == maxy) {
GoTo(top, 0);
UpdateAttrs(blank);
for (i = 0; i < n; i++) {
TPUTS_TRACE("insert_line");
putp(insert_line);
}
} else
return ERR;
#if NCURSES_EXT_FUNCS
if (FILL_BCE()) {
int j;
for (i = 0; i < n; i++) {
GoTo(top + i, 0);
for (j = 0; j < screen_columns; j++)
PutChar(CHREF(blank));
}
}
#endif
return OK;
}
/* scroll by using delete_line at del and insert_line at ins */
/* n > 0 */
static int
scroll_idl(int n, int del, int ins, NCURSES_CH_T blank)
{
int i;
if (!((parm_delete_line || delete_line) && (parm_insert_line || insert_line)))
return ERR;
GoTo(del, 0);
UpdateAttrs(blank);
if (n == 1 && delete_line) {
TPUTS_TRACE("delete_line");
putp(delete_line);
} else if (parm_delete_line) {
TPUTS_TRACE("parm_delete_line");
tputs(TPARM_2(parm_delete_line, n, 0), n, _nc_outch);
} else { /* if (delete_line) */
for (i = 0; i < n; i++) {
TPUTS_TRACE("delete_line");
putp(delete_line);
}
}
GoTo(ins, 0);
UpdateAttrs(blank);
if (n == 1 && insert_line) {
TPUTS_TRACE("insert_line");
putp(insert_line);
} else if (parm_insert_line) {
TPUTS_TRACE("parm_insert_line");
tputs(TPARM_2(parm_insert_line, n, 0), n, _nc_outch);
} else { /* if (insert_line) */
for (i = 0; i < n; i++) {
TPUTS_TRACE("insert_line");
putp(insert_line);
}
}
return OK;
}
/*
* Note: some terminals require the cursor to be within the scrolling margins
* before setting them. Generally, the cursor must be at the appropriate end
* of the scrolling margins when issuing an indexing operation (it is not
* apparent whether it must also be at the left margin; we do this just to be
* safe). To make the related cursor movement a little faster, we use the
* save/restore cursor capabilities if the terminal has them.
*/
NCURSES_EXPORT(int)
_nc_scrolln(int n, int top, int bot, int maxy)
/* scroll region from top to bot by n lines */
{
NCURSES_CH_T blank = ClrBlank(stdscr);
int i;
bool cursor_saved = FALSE;
int res;
TR(TRACE_MOVE, ("mvcur_scrolln(%d, %d, %d, %d)", n, top, bot, maxy));
#if USE_XMC_SUPPORT
/*
* If we scroll, we might remove a cookie.
*/
if (magic_cookie_glitch > 0) {
return (ERR);
}
#endif
if (n > 0) { /* scroll up (forward) */
/*
* Explicitly clear if stuff pushed off top of region might
* be saved by the terminal.
*/
res = scroll_csr_forward(n, top, bot, 0, maxy, blank);
if (res == ERR && change_scroll_region) {
if ((((n == 1 && scroll_forward) || parm_index)
&& (SP->_cursrow == bot || SP->_cursrow == bot - 1))
&& save_cursor && restore_cursor) {
cursor_saved = TRUE;
TPUTS_TRACE("save_cursor");
putp(save_cursor);
}
TPUTS_TRACE("change_scroll_region");
putp(TPARM_2(change_scroll_region, top, bot));
if (cursor_saved) {
TPUTS_TRACE("restore_cursor");
putp(restore_cursor);
} else {
SP->_cursrow = SP->_curscol = -1;
}
res = scroll_csr_forward(n, top, bot, top, bot, blank);
TPUTS_TRACE("change_scroll_region");
putp(TPARM_2(change_scroll_region, 0, maxy));
SP->_cursrow = SP->_curscol = -1;
}
if (res == ERR && _nc_idlok)
res = scroll_idl(n, top, bot - n + 1, blank);
/*
* Clear the newly shifted-in text.
*/
if (res != ERR
&& (non_dest_scroll_region || (memory_below && bot == maxy))) {
static const NCURSES_CH_T blank2 = NewChar(BLANK_TEXT);
if (bot == maxy && clr_eos) {
GoTo(bot - n + 1, 0);
ClrToEOS(blank2);
} else {
for (i = 0; i < n; i++) {
GoTo(bot - i, 0);
ClrToEOL(blank2, FALSE);
}
}
}
} else { /* (n < 0) - scroll down (backward) */
res = scroll_csr_backward(-n, top, bot, 0, maxy, blank);
if (res == ERR && change_scroll_region) {
if (top != 0 && (SP->_cursrow == top || SP->_cursrow == top - 1)
&& save_cursor && restore_cursor) {
cursor_saved = TRUE;
TPUTS_TRACE("save_cursor");
putp(save_cursor);
}
TPUTS_TRACE("change_scroll_region");
putp(TPARM_2(change_scroll_region, top, bot));
if (cursor_saved) {
TPUTS_TRACE("restore_cursor");
putp(restore_cursor);
} else {
SP->_cursrow = SP->_curscol = -1;
}
res = scroll_csr_backward(-n, top, bot, top, bot, blank);
TPUTS_TRACE("change_scroll_region");
putp(TPARM_2(change_scroll_region, 0, maxy));
SP->_cursrow = SP->_curscol = -1;
}
if (res == ERR && _nc_idlok)
res = scroll_idl(-n, bot + n + 1, top, blank);
/*
* Clear the newly shifted-in text.
*/
if (res != ERR
&& (non_dest_scroll_region || (memory_above && top == 0))) {
static const NCURSES_CH_T blank2 = NewChar(BLANK_TEXT);
for (i = 0; i < -n; i++) {
GoTo(i + top, 0);
ClrToEOL(blank2, FALSE);
}
}
}
if (res == ERR)
return (ERR);
_nc_scroll_window(curscr, n, top, bot, blank);
/* shift hash values too - they can be reused */
_nc_scroll_oldhash(n, top, bot);
return (OK);
}
NCURSES_EXPORT(void)
_nc_screen_resume(void)
{
/* make sure terminal is in a sane known state */
SetAttr(SCREEN_ATTRS(SP), A_NORMAL);
newscr->_clear = TRUE;
/* reset color pairs and definitions */
if (SP->_coloron || SP->_color_defs)
_nc_reset_colors();
/* restore user-defined colors, if any */
if (SP->_color_defs < 0) {
int n;
SP->_color_defs = -(SP->_color_defs);
for (n = 0; n < SP->_color_defs; ++n) {
if (SP->_color_table[n].init) {
init_color(n,
SP->_color_table[n].r,
SP->_color_table[n].g,
SP->_color_table[n].b);
}
}
}
if (exit_attribute_mode)
putp(exit_attribute_mode);
else {
/* turn off attributes */
if (exit_alt_charset_mode)
putp(exit_alt_charset_mode);
if (exit_standout_mode)
putp(exit_standout_mode);
if (exit_underline_mode)
putp(exit_underline_mode);
}
if (exit_insert_mode)
putp(exit_insert_mode);
if (enter_am_mode && exit_am_mode)
putp(auto_right_margin ? enter_am_mode : exit_am_mode);
}
NCURSES_EXPORT(void)
_nc_screen_init(void)
{
_nc_screen_resume();
}
/* wrap up screen handling */
NCURSES_EXPORT(void)
_nc_screen_wrap(void)
{
UpdateAttrs(normal);
#if NCURSES_EXT_FUNCS
if (SP->_coloron
&& !SP->_default_color) {
static const NCURSES_CH_T blank = NewChar(BLANK_TEXT);
SP->_default_color = TRUE;
_nc_do_color(-1, 0, FALSE, _nc_outch);
SP->_default_color = FALSE;
mvcur(SP->_cursrow, SP->_curscol, screen_lines - 1, 0);
ClrToEOL(blank, TRUE);
}
#endif
if (SP->_color_defs) {
_nc_reset_colors();
}
}
#if USE_XMC_SUPPORT
NCURSES_EXPORT(void)
_nc_do_xmc_glitch(attr_t previous)
{
attr_t chg = XMC_CHANGES(previous ^ AttrOf(SCREEN_ATTRS(SP)));
while (chg != 0) {
if (chg & 1) {
SP->_curscol += magic_cookie_glitch;
if (SP->_curscol >= SP->_columns)
wrap_cursor();
TR(TRACE_UPDATE, ("bumped to %d,%d after cookie", SP->_cursrow, SP->_curscol));
}
chg >>= 1;
}
}
#endif /* USE_XMC_SUPPORT */