[ViewVC] Diff of: cvs/rxvt-unicode/src/command.C

Comparing rxvt-unicode/src/command.C (file contents):
Revision 1.7 by pcg, Tue Nov 25 17:34:47 2003 UTC vs.
Revision 1.12 by pcg, Fri Dec 5 04:05:13 2003 UTC

…		…
1	/---------------------------------C----------------------------------	1	/---------------------------------C----------------------------------
2	* File: command.c	2	* File: command.c
3	----------------------------------------------------------------------	3	----------------------------------------------------------------------
4	* $Id: command.C,v 1.7 2003/11/25 17:34:47 pcg Exp $	4	* $Id: command.C,v 1.12 2003/12/05 04:05:13 pcg Exp $
5	*	5	*
6	* All portions of code are copyright by their respective author/s.	6	* All portions of code are copyright by their respective author/s.
7	* Copyright (c) 1992 John Bovey, University of Kent at Canterbury <jdb@ukc.ac.uk>	7	* Copyright (c) 1992 John Bovey, University of Kent at Canterbury <jdb@ukc.ac.uk>
8	* - original version	8	* - original version
9	* Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com>	9	* Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com>
237	/* escape prefix */	237	/* escape prefix */
238	if (meta)	238	if (meta)
239	# ifdef META8_OPTION	239	# ifdef META8_OPTION
240	if (R->meta_char == C0_ESC)	240	if (R->meta_char == C0_ESC)
241	# endif	241	# endif
242	rxvt_tt_write(aR_ &ch, 1);	242	R->tt_write(&ch, 1);
243	rxvt_tt_write(aR_ kbuf0, l);	243	R->tt_write(kbuf0, l);
244	return;	244	return;
245	} else	245	} else
246	#endif	246	#endif
247	{	247	{
248	newlen = 1;	248	newlen = 1;
…		…
605	&& (R->meta_char == C0_ESC)	605	&& (R->meta_char == C0_ESC)
606	#endif	606	#endif
607	) {	607	) {
608	const unsigned char ch = C0_ESC;	608	const unsigned char ch = C0_ESC;
609		609
610	rxvt_tt_write(aR_ &ch, 1);	610	R->tt_write(&ch, 1);
611	}	611	}
612	#ifdef DEBUG_CMD	612	#ifdef DEBUG_CMD
613	if (debug_key) { /* Display keyboard buffer contents */	613	if (debug_key) { /* Display keyboard buffer contents */
614	char *p;	614	char *p;
615	int i;	615	int i;
…		…
618	for (i = 0, p = kbuf; i < len; i++, p++)	618	for (i = 0, p = kbuf; i < len; i++, p++)
619	fprintf(stderr, (p >= ' ' && p < '\177' ? "%c" : "\\%03o"), *p);	619	fprintf(stderr, (p >= ' ' && p < '\177' ? "%c" : "\\%03o"), *p);
620	fprintf(stderr, "'\n");	620	fprintf(stderr, "'\n");
621	}	621	}
622	#endif /* DEBUG_CMD */	622	#endif /* DEBUG_CMD */
623	rxvt_tt_write(aR_ kbuf, (unsigned int)len);	623	R->tt_write(kbuf, (unsigned int)len);
624	}	624	}
625	/}}} /	625	/}}} /
626		626
627	#if (MENUBAR_MAX)	627	#if (MENUBAR_MAX)
628	/{{{ rxvt_cmd_write(), rxvt_cmd_getc() /	628	/{{{ rxvt_cmd_write(), rxvt_cmd_getc() /
…		…
654	R->cmdbuf_ptr = cmdbuf_ptr;	654	R->cmdbuf_ptr = cmdbuf_ptr;
655	R->cmdbuf_endp = cmdbuf_endp;	655	R->cmdbuf_endp = cmdbuf_endp;
656	return 0;	656	return 0;
657	}	657	}
658	#endif /* MENUBAR_MAX */	658	#endif /* MENUBAR_MAX */
		659
		660	void
		661	rxvt_term::flush ()
		662	{
		663	#ifdef TRANSPARENT
		664	if (want_full_refresh)
		665	{
		666	want_full_refresh = 0;
		667	rxvt_scr_clear (this);
		668	rxvt_scr_touch (this, False);
		669	want_refresh = 1;
		670	}
		671	#endif
		672
		673	if (want_refresh)
		674	{
		675	rxvt_scr_refresh (this, refresh_type);
		676	rxvt_scrollbar_show (this, 1);
		677	#ifdef USE_XIM
		678	rxvt_IMSendSpot (this);
		679	#endif
		680	}
		681
		682	XFlush (Xdisplay);
		683	#if 0
		684	if (XPending (Xdisplay)) process_x_events ();
		685	if (XPending (Xdisplay)) process_x_events ();
		686	#endif
		687	}
		688
		689	void
		690	rxvt_term::check_cb (check_watcher &w)
		691	{
		692	SET_R (this);
		693
		694	flush ();
		695	}
659		696
660	void	697	void
661	rxvt_term::process_x_events ()	698	rxvt_term::process_x_events ()
662	{	699	{
663	do	700	do
…		…
704	}	741	}
705		742
706	void	743	void
707	rxvt_term::blink_cb (time_watcher &w)	744	rxvt_term::blink_cb (time_watcher &w)
708	{	745	{
		746	SET_R (this);
		747
709	w.at += BLINK_INTERVAL;	748	w.at += BLINK_INTERVAL;
710	hidden_cursor = !hidden_cursor;	749	hidden_cursor = !hidden_cursor;
711	want_refresh = 1;	750	want_refresh = 1;
712	flush();
713	}	751	}
714		752
715	void	753	void
716	rxvt_term::x_cb (io_watcher &w, short revents)	754	rxvt_term::x_cb (io_watcher &w, short revents)
717	{	755	{
		756	SET_R (this);
		757
718	process_x_events ();	758	process_x_events ();
		759	}
719		760
720	flush ();	761	bool
		762	rxvt_term::pty_fill ()
		763	{
		764	ssize_t n = cmdbuf_endp - cmdbuf_ptr;
		765
		766	memmove (cmdbuf_base, cmdbuf_ptr, n);
		767	cmdbuf_ptr = cmdbuf_base;
		768	cmdbuf_endp = cmdbuf_ptr + n;
		769
		770	n = read (cmd_fd, cmdbuf_endp, BUFSIZ - n);
		771
		772	if (n > 0)
		773	{
		774	cmdbuf_endp += n;
		775	return true;
		776	}
		777	else if (n < 0 && errno == EAGAIN)
		778	return false;
		779
		780	destroy ();
		781	}
		782
		783	void
		784	rxvt_term::pty_cb (io_watcher &w, short revents)
		785	{
		786	SET_R (this);
		787
		788	if (revents & EVENT_WRITE)
		789	tt_write (0, 0);
		790	else if (revents & EVENT_READ)
		791	{
		792	bool flag = true;
		793
		794	// loop, but don't allow a single term to monopolize us
		795	// the number of loops is fully arbitrary, and thus wrong
		796	while (flag && pty_fill ())
		797	{
		798	if (!seen_input)
		799	{
		800	seen_input = 1;
		801	/* once we know the shell is running, send the screen size. Again! */
		802	tt_winch ();
		803	}
		804
		805	uint32_t ch = NOCHAR;
		806
		807	for (;;)
		808	{
		809	if (ch == NOCHAR)
		810	ch = next_char ();
		811
		812	if (ch == NOCHAR) // TODO: improve
		813	break;
		814
		815	if (ch >= ' ' \|\| ch == '\t' \|\| ch == '\n' \|\| ch == '\r')
		816	{
		817	/* Read a text string from the input buffer */
		818	uint32_t buf[BUFSIZ];
		819	bool refreshnow = false;
		820	int nlines = 0;
		821	uint32_t *str = buf;
		822
		823	*str++ = ch;
		824
		825	for (;;)
		826	{
		827	ch = next_char ();
		828
		829	if (ch == NOCHAR \|\| (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
		830	break;
		831	else
		832	{
		833	*str++ = ch;
		834
		835	if (ch == '\n')
		836	{
		837	nlines++;
		838	refresh_count++;
		839
		840	if (!(Options & Opt_jumpScroll)
		841	\|\| (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
		842	{
		843	refreshnow = true;
		844	flag = false;
		845	ch = NOCHAR;
		846	break;
		847	}
		848	}
		849
		850	if (str >= buf + BUFSIZ)
		851	{
		852	ch = NOCHAR;
		853	break;
		854	}
		855	}
		856	}
		857
		858	rxvt_scr_add_lines (this, buf, nlines, str - buf);
		859
		860	/*
		861	* If there have been a lot of new lines, then update the screen
		862	* What the heck I'll cheat and only refresh less than every page-full.
		863	* the number of pages between refreshes is refresh_limit, which
		864	* is incremented here because we must be doing flat-out scrolling.
		865	*
		866	* refreshing should be correct for small scrolls, because of the
		867	* time-out
		868	*/
		869	if (refreshnow)
		870	{
		871	if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
		872	refresh_limit++;
		873
		874	rxvt_scr_refresh (this, refresh_type);
		875	}
		876
		877	}
		878	else
		879	{
		880	switch (ch)
		881	{
		882	default:
		883	rxvt_process_nonprinting (this, ch);
		884	break;
		885	case C0_ESC: /* escape char */
		886	rxvt_process_escape_seq (this);
		887	break;
		888	/case 0x9b: / /* CSI */
		889	/* rxvt_process_csi_seq (this); */
		890	}
		891
		892	ch = NOCHAR;
		893	}
		894	}
		895	}
		896	}
721	}	897	}
722		898
723	// read the next character, currently handles UTF-8	899	// read the next character, currently handles UTF-8
724	// will probably handle all sorts of other stuff in the future	900	// will probably handle all sorts of other stuff in the future
725	uint32_t	901	uint32_t
…		…
773	}	949	}
774		950
775	return NOCHAR;	951	return NOCHAR;
776	}	952	}
777		953
778	bool
779	rxvt_term::pty_fill (size_t count)
780	{
781	ssize_t n = cmdbuf_endp - cmdbuf_ptr;
782
783	memmove (cmdbuf_base, cmdbuf_ptr, n);
784	cmdbuf_ptr = cmdbuf_base;
785	cmdbuf_endp = cmdbuf_ptr + n;
786
787	n = read (cmd_fd, cmdbuf_endp, count);
788
789	if (n > 0)
790	{
791	cmdbuf_endp += n;
792	return true;
793	}
794	else if (n < 0 && errno == EAGAIN)
795	return false;
796
797	rxvt_clean_exit();
798	exit(EXIT_FAILURE); /* bad order of events? */
799	}
800
801	void
802	rxvt_term::pty_cb (io_watcher &w, short revents)
803	{
804	while (pty_fill (BUFSIZ - (cmdbuf_endp - cmdbuf_ptr)))
805	{
806	/* once we know the shell is running, send the screen size. Again! */
807	//ch = rxvt_cmd_getc(aR); /* wait for something */
808	//rxvt_tt_winsize(cmd_fd, TermWin.ncol, TermWin.nrow, cmd_pid);
809
810	uint32_t ch = NOCHAR;
811
812	for (;;)
813	{
814	if (ch == NOCHAR)
815	ch = next_char ();
816
817	if (ch == NOCHAR) // TODO: improve
818	break;
819
820	if (ch >= ' ' \|\| ch == '\t' \|\| ch == '\n' \|\| ch == '\r')
821	{
822	/* Read a text string from the input buffer */
823	uint32_t buf[BUFSIZ];
824	bool refreshnow = false;
825	int nlines = 0;
826	uint32_t *str = buf;
827
828	*str++ = ch;
829
830	for (;;)
831	{
832	ch = next_char ();
833
834	if (ch == NOCHAR \|\| (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
835	break;
836	else
837	{
838	*str++ = ch;
839
840	if (ch == '\n')
841	{
842	nlines++;
843	refresh_count++;
844
845	if (!(Options & Opt_jumpScroll)
846	\|\| (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
847	{
848	refreshnow = true;
849	ch = NOCHAR;
850	break;
851	}
852	}
853
854	if (str >= buf + BUFSIZ)
855	{
856	ch = NOCHAR;
857	break;
858	}
859	}
860	}
861
862	rxvt_scr_add_lines (this, buf, nlines, str - buf);
863
864	/*
865	* If there have been a lot of new lines, then update the screen
866	* What the heck I'll cheat and only refresh less than every page-full.
867	* the number of pages between refreshes is refresh_limit, which
868	* is incremented here because we must be doing flat-out scrolling.
869	*
870	* refreshing should be correct for small scrolls, because of the
871	* time-out
872	*/
873	if (refreshnow)
874	{
875	if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
876	refresh_limit++;
877
878	rxvt_scr_refresh (this, refresh_type);
879	}
880
881	}
882	else
883	{
884	switch (ch)
885	{
886	default:
887	rxvt_process_nonprinting (this, ch);
888	break;
889	case C0_ESC: /* escape char */
890	rxvt_process_escape_seq (this);
891	break;
892	/case 0x9b: / /* CSI */
893	/* rxvt_process_csi_seq (this); */
894	}
895
896	ch = NOCHAR;
897	}
898	}
899	}
900
901	flush ();
902	}
903
904	void
905	rxvt_term::flush ()
906	{
907	#ifdef TRANSPARENT
908	if (want_full_refresh)
909	{
910	want_full_refresh = 0;
911	rxvt_scr_clear (this);
912	rxvt_scr_touch (this, False);
913	want_refresh = 1;
914	}
915	#endif
916
917	if (want_refresh)
918	{
919	rxvt_scr_refresh (this, refresh_type);
920	rxvt_scrollbar_show (this, 1);
921	#ifdef USE_XIM
922	rxvt_IMSendSpot (this);
923	#endif
924	}
925
926	XFlush (Xdisplay);
927	}
928
929	/* rxvt_cmd_getc() - Return next input character */	954	/* rxvt_cmd_getc() - Return next input character */
930	/*	955	/*
931	* Return the next input character after first passing any keyboard input	956	* Return the next input character after first passing any keyboard input
932	* to the command.	957	* to the command.
933	*/	958	*/
…		…
942	return c;	967	return c;
943		968
944	// incomplete sequences should occur rarely, still, a better solution	969	// incomplete sequences should occur rarely, still, a better solution
945	// would be preferred. either setjmp/longjmp or better design.	970	// would be preferred. either setjmp/longjmp or better design.
946	fcntl (R->cmd_fd, F_SETFL, 0);	971	fcntl (R->cmd_fd, F_SETFL, 0);
947	R->pty_fill (1);	972	R->pty_fill ();
948	fcntl (R->cmd_fd, F_SETFL, O_NONBLOCK);	973	fcntl (R->cmd_fd, F_SETFL, O_NONBLOCK);
949	}	974	}
950		975
951	#if 0	976	#if 0
952	#define TIMEOUT_USEC 5000	977	#define TIMEOUT_USEC 5000
…		…
960		985
961	for (;;) {	986	for (;;) {
962	/* loop until we can return something */	987	/* loop until we can return something */
963		988
964	if (R->v_bufstr < R->v_bufptr) /* output any pending chars */	989	if (R->v_bufstr < R->v_bufptr) /* output any pending chars */
965	rxvt_tt_write(aR_ NULL, 0);	990	R->tt_write(NULL, 0);
966		991
967	#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)	992	#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
968	if (R->mouse_slip_wheel_speed) {	993	if (R->mouse_slip_wheel_speed) {
969	quick_timeout = 1;	994	quick_timeout = 1;
970	if (!R->mouse_slip_wheel_delay--	995	if (!R->mouse_slip_wheel_delay--
…		…
1038	}	1063	}
1039		1064
1040	void	1065	void
1041	rxvt_term::pointer_cb (time_watcher &w)	1066	rxvt_term::pointer_cb (time_watcher &w)
1042	{	1067	{
		1068	SET_R (this);
		1069
1043	pointer_blank ();	1070	pointer_blank ();
1044	}	1071	}
1045	#endif	1072	#endif
1046		1073
1047	/* INTPROTO */	1074	/* INTPROTO */
…		…
1101	fprintf(stderr, "]: <%d>, %d/%d\n",	1128	fprintf(stderr, "]: <%d>, %d/%d\n",
1102	button_number,	1129	button_number,
1103	x + 1,	1130	x + 1,
1104	y + 1);	1131	y + 1);
1105	#else	1132	#else
1106	rxvt_tt_printf(aR_ "\033[M%c%c%c",	1133	R->tt_printf("\033[M%c%c%c",
1107	(32 + button_number + key_state),	1134	(32 + button_number + key_state),
1108	(32 + x + 1),	1135	(32 + x + 1),
1109	(32 + y + 1));	1136	(32 + y + 1));
1110	#endif	1137	#endif
1111	}	1138	}
…		…
1244	break;	1271	break;
1245		1272
1246	case ClientMessage:	1273	case ClientMessage:
1247	if (ev->xclient.format == 32	1274	if (ev->xclient.format == 32
1248	&& (Atom)ev->xclient.data.l[0] == R->xa[XA_WMDELETEWINDOW])	1275	&& (Atom)ev->xclient.data.l[0] == R->xa[XA_WMDELETEWINDOW])
1249	exit(EXIT_SUCCESS);	1276	R->destroy ();
1250	#ifdef OFFIX_DND	1277	#ifdef OFFIX_DND
1251	/* OffiX Dnd (drag 'n' drop) protocol */	1278	/* OffiX Dnd (drag 'n' drop) protocol */
1252	if (ev->xclient.message_type == R->xa[XA_DNDPROTOCOL]	1279	else if (ev->xclient.message_type == R->xa[XA_DNDPROTOCOL]
1253	&& (ev->xclient.data.l[0] == DndFile	1280	&& (ev->xclient.data.l[0] == DndFile
1254	\|\| ev->xclient.data.l[0] == DndDir	1281	\|\| ev->xclient.data.l[0] == DndDir
1255	\|\| ev->xclient.data.l[0] == DndLink)) {	1282	\|\| ev->xclient.data.l[0] == DndLink)) {
1256	/* Get Dnd data */	1283	/* Get Dnd data */
1257	Atom ActualType;	1284	Atom ActualType;
…		…
1289	* in the GraphicsExpose parts, which means that after each refresh,	1316	* in the GraphicsExpose parts, which means that after each refresh,
1290	* we need to wait for the graphics expose or Noexpose events,	1317	* we need to wait for the graphics expose or Noexpose events,
1291	* which ought to make things real slow!	1318	* which ought to make things real slow!
1292	*/	1319	*/
1293	case VisibilityNotify:	1320	case VisibilityNotify:
1294	switch (ev->xvisibility.state) {	1321	switch (ev->xvisibility.state)
		1322	{
1295	case VisibilityUnobscured:	1323	case VisibilityUnobscured:
1296	R->refresh_type = FAST_REFRESH;	1324	R->refresh_type = FAST_REFRESH;
1297	break;	1325	break;
1298	case VisibilityPartiallyObscured:	1326	case VisibilityPartiallyObscured:
1299	R->refresh_type = SLOW_REFRESH;	1327	R->refresh_type = SLOW_REFRESH;
1300	break;	1328	break;
1301	default:	1329	default:
1302	R->refresh_type = NO_REFRESH;	1330	R->refresh_type = NO_REFRESH;
1303	break;	1331	break;
1304	}	1332	}
1305	break;	1333	break;
1306		1334
1307	case FocusIn:	1335	case FocusIn:
1308	if (!R->TermWin.focus) {	1336	if (!R->TermWin.focus) {
1309	R->TermWin.focus = 1;	1337	R->TermWin.focus = 1;
…		…
1652	*/	1680	*/
1653	if ((R->scrollBar.style == R_SB_NEXT	1681	if ((R->scrollBar.style == R_SB_NEXT
1654	&& scrollbarnext_upButton(ev->y))	1682	&& scrollbarnext_upButton(ev->y))
1655	\|\| (R->scrollBar.style == R_SB_RXVT	1683	\|\| (R->scrollBar.style == R_SB_RXVT
1656	&& scrollbarrxvt_upButton(ev->y)))	1684	&& scrollbarrxvt_upButton(ev->y)))
1657	rxvt_tt_printf(aR_ "\033[A");	1685	R->tt_printf("\033[A");
1658	else if ((R->scrollBar.style == R_SB_NEXT	1686	else if ((R->scrollBar.style == R_SB_NEXT
1659	&& scrollbarnext_dnButton(ev->y))	1687	&& scrollbarnext_dnButton(ev->y))
1660	\|\| (R->scrollBar.style == R_SB_RXVT	1688	\|\| (R->scrollBar.style == R_SB_RXVT
1661	&& scrollbarrxvt_dnButton(ev->y)))	1689	&& scrollbarrxvt_dnButton(ev->y)))
1662	rxvt_tt_printf(aR_ "\033[B");	1690	R->tt_printf("\033[B");
1663	else	1691	else
1664	switch (ev->button) {	1692	switch (ev->button) {
1665	case Button2:	1693	case Button2:
1666	rxvt_tt_printf(aR_ "\014");	1694	R->tt_printf("\014");
1667	break;	1695	break;
1668	case Button1:	1696	case Button1:
1669	rxvt_tt_printf(aR_ "\033[6~");	1697	R->tt_printf("\033[6~");
1670	break;	1698	break;
1671	case Button3:	1699	case Button3:
1672	rxvt_tt_printf(aR_ "\033[5~");	1700	R->tt_printf("\033[5~");
1673	break;	1701	break;
1674	}	1702	}
1675	}	1703	}
1676	else	1704	else
1677	#endif /* NO_SCROLLBAR_REPORT */	1705	#endif /* NO_SCROLLBAR_REPORT */
…		…
2078	return stream;	2106	return stream;
2079	}	2107	}
2080		2108
2081	/* EXTPROTO */	2109	/* EXTPROTO */
2082	int	2110	int
2083	rxvt_pclose_printer(FILE *stream)	2111	rxvt_pclose_printer (FILE *stream)
2084	{	2112	{
2085	fflush(stream);	2113	fflush (stream);
2086	/* pclose() reported not to work on SunOS 4.1.3 */	2114	/* pclose() reported not to work on SunOS 4.1.3 */
2087	# if defined (__sun__) /* TODO: RESOLVE THIS */	2115	# if defined (__sun__) /* TODO: RESOLVE THIS */
2088	/* pclose works provided SIGCHLD handler uses waitpid */	2116	/* pclose works provided SIGCHLD handler uses waitpid */
2089	return pclose(stream); /* return fclose (stream); */	2117	return pclose (stream); /* return fclose (stream); */
2090	# else	2118	# else
2091	return pclose(stream);	2119	return pclose (stream);
2092	# endif	2120	# endif
2093	}	2121	}
2094		2122
2095	/*	2123	/*
2096	* simulate attached vt100 printer	2124	* simulate attached vt100 printer
…		…
2159	rxvt_process_nonprinting(pR_ unsigned char ch)	2187	rxvt_process_nonprinting(pR_ unsigned char ch)
2160	{	2188	{
2161	switch (ch) {	2189	switch (ch) {
2162	case C0_ENQ: /* terminal Status */	2190	case C0_ENQ: /* terminal Status */
2163	if (R->rs[Rs_answerbackstring])	2191	if (R->rs[Rs_answerbackstring])
2164	rxvt_tt_write(aR_	2192	R->tt_write(
2165	(const unsigned char *)R->rs[Rs_answerbackstring],	2193	(const unsigned char *)R->rs[Rs_answerbackstring],
2166	(unsigned int)STRLEN(R->rs[Rs_answerbackstring]));	2194	(unsigned int)STRLEN(R->rs[Rs_answerbackstring]));
2167	else	2195	else
2168	rxvt_tt_write(aR_ (unsigned char *)VT100_ANS,	2196	R->tt_write((unsigned char *)VT100_ANS,
2169	(unsigned int)STRLEN(VT100_ANS));	2197	(unsigned int)STRLEN(VT100_ANS));
2170	break;	2198	break;
2171	case C0_BEL: /* bell */	2199	case C0_BEL: /* bell */
2172	rxvt_scr_bell(aR);	2200	rxvt_scr_bell(aR);
2173	break;	2201	break;
…		…
2236	row = rxvt_cmd_getc(aR) - ' ';	2264	row = rxvt_cmd_getc(aR) - ' ';
2237	col = rxvt_cmd_getc(aR) - ' ';	2265	col = rxvt_cmd_getc(aR) - ' ';
2238	rxvt_scr_gotorc(aR_ row, col, 0);	2266	rxvt_scr_gotorc(aR_ row, col, 0);
2239	break;	2267	break;
2240	case 'Z': /* identify the terminal type */	2268	case 'Z': /* identify the terminal type */
2241	rxvt_tt_printf(aR_ "\033/Z"); /* I am a VT100 emulating a VT52 */	2269	R->tt_printf("\033/Z"); /* I am a VT100 emulating a VT52 */
2242	break;	2270	break;
2243	case '<': /* turn off VT52 mode */	2271	case '<': /* turn off VT52 mode */
2244	PrivMode(0, PrivMode_vt52);	2272	PrivMode(0, PrivMode_vt52);
2245	break;	2273	break;
2246	case 'F': /* use special graphics character set */	2274	case 'F': /* use special graphics character set */
…		…
2353	rxvt_process_dcs_seq(aR);	2381	rxvt_process_dcs_seq(aR);
2354	break;	2382	break;
2355		2383
2356	/* 8.3.110: SINGLE CHARACTER INTRODUCER */	2384	/* 8.3.110: SINGLE CHARACTER INTRODUCER */
2357	case C1_SCI: /* ESC Z */	2385	case C1_SCI: /* ESC Z */
2358	rxvt_tt_write(aR_ (const unsigned char *)ESCZ_ANSWER,	2386	R->tt_write((const unsigned char *)ESCZ_ANSWER,
2359	(unsigned int)(sizeof(ESCZ_ANSWER) - 1));	2387	(unsigned int)(sizeof(ESCZ_ANSWER) - 1));
2360	break; /* steal obsolete ESC [ c */	2388	break; /* steal obsolete ESC [ c */
2361		2389
2362	/* 8.3.16: CONTROL SEQUENCE INTRODUCER */	2390	/* 8.3.16: CONTROL SEQUENCE INTRODUCER */
2363	case C1_CSI: /* ESC [ */	2391	case C1_CSI: /* ESC [ */
…		…
2484	*/	2512	*/
2485	if (priv) {	2513	if (priv) {
2486	switch (priv) {	2514	switch (priv) {
2487	case '>':	2515	case '>':
2488	if (ch == CSI_DA) /* secondary device attributes */	2516	if (ch == CSI_DA) /* secondary device attributes */
2489	rxvt_tt_printf(aR_ "\033[>%d;%-.8s;0c", 'R', VSTRING);	2517	R->tt_printf("\033[>%d;%-.8s;0c", 'R', VSTRING);
2490	break;	2518	break;
2491	case '?':	2519	case '?':
2492	if (ch == 'h' \|\| ch == 'l' \|\| ch == 'r' \|\| ch == 's' \|\| ch == 't')	2520	if (ch == 'h' \|\| ch == 'l' \|\| ch == 'r' \|\| ch == 's' \|\| ch == 't')
2493	rxvt_process_terminal_mode(aR_ ch, priv, nargs, arg);	2521	rxvt_process_terminal_mode(aR_ ch, priv, nargs, arg);
2494	break;	2522	break;
…		…
2601	case CSI_SU: /* 8.3.148: (1) SCROLL UP */	2629	case CSI_SU: /* 8.3.148: (1) SCROLL UP */
2602	rxvt_scroll_text(aR_ R->screen.tscroll, R->screen.bscroll, arg[0], 0);	2630	rxvt_scroll_text(aR_ R->screen.tscroll, R->screen.bscroll, arg[0], 0);
2603	break;	2631	break;
2604		2632
2605	case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */	2633	case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */
2606	rxvt_tt_write(aR_ (const unsigned char *)VT100_ANS,	2634	R->tt_write((const unsigned char *)VT100_ANS,
2607	(unsigned int)(sizeof(VT100_ANS) - 1));	2635	(unsigned int)(sizeof(VT100_ANS) - 1));
2608	break;	2636	break;
2609		2637
2610	case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */	2638	case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */
2611	rxvt_process_sgr_mode(aR_ nargs, arg);	2639	rxvt_process_sgr_mode(aR_ nargs, arg);
2612	break;	2640	break;
2613		2641
2614	case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */	2642	case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */
2615	switch (arg[0]) {	2643	switch (arg[0]) {
2616	case 5: /* DSR requested */	2644	case 5: /* DSR requested */
2617	rxvt_tt_printf(aR_ "\033[0n");	2645	R->tt_printf("\033[0n");
2618	break;	2646	break;
2619	case 6: /* CPR requested */	2647	case 6: /* CPR requested */
2620	rxvt_scr_report_position(aR);	2648	rxvt_scr_report_position(aR);
2621	break;	2649	break;
2622	#if defined (ENABLE_DISPLAY_ANSWER)	2650	#if defined (ENABLE_DISPLAY_ANSWER)
2623	case 7: /* unofficial extension */	2651	case 7: /* unofficial extension */
2624	rxvt_tt_printf(aR_ "%-.250s\n", R->rs[Rs_display_name]);	2652	R->tt_printf("%-.250s\n", R->rs[Rs_display_name]);
2625	break;	2653	break;
2626	#endif	2654	#endif
2627	case 8: /* unofficial extension */	2655	case 8: /* unofficial extension */
2628	rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST);	2656	rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST);
2629	break;	2657	break;
…		…
2698	break;	2726	break;
2699	#endif	2727	#endif
2700		2728
2701	case CSI_78: /* DECREQTPARM */	2729	case CSI_78: /* DECREQTPARM */
2702	if (arg[0] == 0 \|\| arg[0] == 1)	2730	if (arg[0] == 0 \|\| arg[0] == 1)
2703	rxvt_tt_printf(aR_ "\033[%d;1;1;112;112;1;0x", arg[0] + 2);	2731	R->tt_printf("\033[%d;1;1;112;112;1;0x", arg[0] + 2);
2704	/* FALLTHROUGH */	2732	/* FALLTHROUGH */
2705		2733
2706	default:	2734	default:
2707	break;	2735	break;
2708	}	2736	}
…		…
2762	/*	2790	/*
2763	* reports - some output format copied from XTerm	2791	* reports - some output format copied from XTerm
2764	*/	2792	*/
2765	case 11: /* report window state */	2793	case 11: /* report window state */
2766	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2794	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2767	rxvt_tt_printf(aR_ "\033[%dt", wattr.map_state == IsViewable ? 1 : 2);	2795	R->tt_printf("\033[%dt", wattr.map_state == IsViewable ? 1 : 2);
2768	break;	2796	break;
2769	case 13: /* report window position */	2797	case 13: /* report window position */
2770	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2798	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2771	XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], wattr.root,	2799	XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], wattr.root,
2772	-wattr.border_width, -wattr.border_width,	2800	-wattr.border_width, -wattr.border_width,
2773	&x, &y, &wdummy);	2801	&x, &y, &wdummy);
2774	rxvt_tt_printf(aR_ "\033[3;%d;%dt", x, y);	2802	R->tt_printf("\033[3;%d;%dt", x, y);
2775	break;	2803	break;
2776	case 14: /* report window size (pixels) */	2804	case 14: /* report window size (pixels) */
2777	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2805	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2778	rxvt_tt_printf(aR_ "\033[4;%d;%dt", wattr.height, wattr.width);	2806	R->tt_printf("\033[4;%d;%dt", wattr.height, wattr.width);
2779	break;	2807	break;
2780	case 18: /* report window size (chars) */	2808	case 18: /* report window size (chars) */
2781	rxvt_tt_printf(aR_ "\033[8;%d;%dt", R->TermWin.nrow, R->TermWin.ncol);	2809	R->tt_printf("\033[8;%d;%dt", R->TermWin.nrow, R->TermWin.ncol);
2782	break;	2810	break;
2783	#if 0 /* XXX: currently disabled due to security concerns */	2811	#if 0 /* XXX: currently disabled due to security concerns */
2784	case 20: /* report icon label */	2812	case 20: /* report icon label */
2785	XGetIconName(R->Xdisplay, R->TermWin.parent[0], &s);	2813	XGetIconName(R->Xdisplay, R->TermWin.parent[0], &s);
2786	rxvt_tt_printf(aR_ "\033]L%-.200s\234", s ? s : ""); /* 8bit ST */	2814	R->tt_printf("\033]L%-.200s\234", s ? s : ""); /* 8bit ST */
2787	break;	2815	break;
2788	case 21: /* report window title */	2816	case 21: /* report window title */
2789	XFetchName(R->Xdisplay, R->TermWin.parent[0], &s);	2817	XFetchName(R->Xdisplay, R->TermWin.parent[0], &s);
2790	rxvt_tt_printf(aR_ "\033]l%-.200s\234", s ? s : ""); /* 8bit ST */	2818	R->tt_printf("\033]l%-.200s\234", s ? s : ""); /* 8bit ST */
2791	break;	2819	break;
2792	#endif	2820	#endif
2793	}	2821	}
2794	}	2822	}
2795	#endif	2823	#endif
…		…
3338	{	3366	{
3339	unsigned char ch, cmd = rxvt_cmd_getc(aR);	3367	unsigned char ch, cmd = rxvt_cmd_getc(aR);
3340		3368
3341	#ifndef RXVT_GRAPHICS	3369	#ifndef RXVT_GRAPHICS
3342	if (cmd == 'Q') { /* query graphics */	3370	if (cmd == 'Q') { /* query graphics */
3343	rxvt_tt_printf(aR_ "\033G0\n"); /* no graphics */	3371	R->tt_printf("\033G0\n"); /* no graphics */
3344	return;	3372	return;
3345	}	3373	}
3346	/* swallow other graphics sequences until terminating ':' */	3374	/* swallow other graphics sequences until terminating ':' */
3347	do	3375	do
3348	ch = rxvt_cmd_getc(aR);	3376	ch = rxvt_cmd_getc(aR);
…		…
3351	unsigned int nargs;	3379	unsigned int nargs;
3352	int args[NGRX_PTS];	3380	int args[NGRX_PTS];
3353	unsigned char *text = NULL;	3381	unsigned char *text = NULL;
3354		3382
3355	if (cmd == 'Q') { /* query graphics */	3383	if (cmd == 'Q') { /* query graphics */
3356	rxvt_tt_printf(aR_ "\033G1\n"); /* yes, graphics (color) */	3384	R->tt_printf("\033G1\n"); /* yes, graphics (color) */
3357	return;	3385	return;
3358	}	3386	}
3359	for (nargs = 0; nargs < (sizeof(args) / sizeof(args[0])) - 1;) {	3387	for (nargs = 0; nargs < (sizeof(args) / sizeof(args[0])) - 1;) {
3360	int neg;	3388	int neg;
3361		3389
…		…
3395		3423
3396	/*	3424	/*
3397	* Send printf() formatted output to the command.	3425	* Send printf() formatted output to the command.
3398	* Only use for small amounts of data.	3426	* Only use for small amounts of data.
3399	*/	3427	*/
3400	/* EXTPROTO */
3401	void	3428	void
3402	rxvt_tt_printf(pR_ const char *fmt,...)	3429	rxvt_term::tt_printf (const char *fmt,...)
3403	{	3430	{
3404	va_list arg_ptr;	3431	va_list arg_ptr;
3405	unsigned char buf[256];	3432	unsigned char buf[256];
3406		3433
3407	va_start(arg_ptr, fmt);	3434	va_start (arg_ptr, fmt);
3408	vsprintf((char *)buf, fmt, arg_ptr);	3435	vsnprintf ((char *)buf, 256, fmt, arg_ptr);
3409	va_end(arg_ptr);	3436	va_end (arg_ptr);
3410	rxvt_tt_write(aR_ buf, (unsigned int)STRLEN(buf));	3437	tt_write (buf, STRLEN (buf));
3411	}	3438	}
3412		3439
3413	/* ---------------------------------------------------------------------- */	3440	/* ---------------------------------------------------------------------- */
3414	/* Addresses pasting large amounts of data and rxvt hang
3415	* code pinched from xterm (v_write()) and applied originally to
3416	* rxvt-2.18 - Hops
3417	* Write data to the pty as typed by the user, pasted with the mouse,	3441	/* Write data to the pty as typed by the user, pasted with the mouse,
3418	* or generated by us in response to a query ESC sequence.	3442	* or generated by us in response to a query ESC sequence.
3419	*/	3443	*/
3420	/* EXTPROTO */
3421	void	3444	void
3422	rxvt_tt_write(pR_ const unsigned char *d, unsigned int len)	3445	rxvt_term::tt_write (const unsigned char *data, unsigned int len)
3423	{	3446	{
3424	#define MAX_PTY_WRITE 256 /* POSIX minimum MAX_INPUT */	3447	enum { MAX_PTY_WRITE = 255 }; // minimum MAX_INPUT
3425	int riten;
3426	unsigned int p;
3427	unsigned char v_buffer, / start of physical buffer */
3428	v_bufstr, / start of current buffer pending */
3429	v_bufptr, / end of current buffer pending */
3430	v_bufend; / end of physical buffer */
3431		3448
3432	if (R->v_bufstr == NULL && len > 0) {	3449	if (len)
3433	p = (len / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3434	v_buffer = v_bufstr = v_bufptr = (unsigned char *)rxvt_malloc(p);
3435	v_bufend = v_buffer + p;
3436	} else {
3437	v_buffer = R->v_buffer;
3438	v_bufstr = R->v_bufstr;
3439	v_bufptr = R->v_bufptr;
3440	v_bufend = R->v_bufend;
3441	}	3450	{
		3451	if (v_buflen == 0)
		3452	{
		3453	int written = write (cmd_fd, data, min (MAX_PTY_WRITE, len));
		3454	if (written == len)
		3455	return;
3442		3456
3443	/*	3457	data += written;
3444	* Append to the block we already have. Always doing this simplifies the	3458	len -= written;
3445	* code, and isn't too bad, either. If this is a short block, it isn't	3459	}
3446	* too expensive, and if this is a long block, we won't be able to write	3460
3447	* it all anyway.	3461
3448	*/	3462	v_buffer = (unsigned char *)realloc (v_buffer, v_buflen + len);
3449	if (len > 0) {	3463
3450	if (v_bufend < v_bufptr + len) { /* run out of room */	3464	memcpy (v_buffer + v_buflen, data, len);
3451	if (v_bufstr != v_buffer) {	3465	v_buflen += len;
3452	/* there is unused space, move everything down */
3453	MEMMOVE(v_buffer, v_bufstr,
3454	(unsigned int)(v_bufptr - v_bufstr));
3455	v_bufptr -= v_bufstr - v_buffer;
3456	v_bufstr = v_buffer;
3457	}	3466	}
3458	if (v_bufend < v_bufptr + len) {
3459	/* still won't fit: get more space */
3460	/* use most basic realloc because an error is not fatal. */
3461	unsigned int size = v_bufptr - v_buffer;
3462	unsigned int reallocto;
3463		3467
3464	reallocto = ((size + len) / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;	3468	for (;;)
3465	v_buffer = (unsigned char *)realloc(v_buffer, reallocto);	3469	{
3466	/* save across realloc */	3470	int written = write (cmd_fd, v_buffer, min (MAX_PTY_WRITE, v_buflen));
3467	if (v_buffer) {	3471
3468	v_bufstr = v_buffer;	3472	if (written > 0)
3469	v_bufptr = v_buffer + size;	3473	{
3470	v_bufend = v_buffer + reallocto;	3474	v_buflen -= written;
3471	} else { /* no memory: ignore entire write request */	3475
3472	rxvt_print_error("data loss: cannot allocate buffer space");	3476	if (v_buflen == 0)
3473	v_buffer = v_bufstr; /* restore clobbered pointer */	3477	{
3474	}	3478	free (v_buffer);
		3479	v_buffer = 0;
		3480	v_buflen = 0;
		3481
		3482	pty_ev.set (EVENT_READ);
		3483	return;
		3484	}
		3485
		3486	memmove (v_buffer, v_buffer + written, v_buflen);
		3487	}
		3488	else if (written != -1 \|\| (errno != EAGAIN && errno != EINTR))
		3489	// original code just ignores this...
		3490	destroy ();
		3491	else
		3492	{
		3493	pty_ev.set (EVENT_READ \| EVENT_WRITE);
		3494	return;
		3495	}
3475	}	3496	}
3476	}
3477	if (v_bufend >= v_bufptr + len) { /* new stuff will fit */
3478	MEMCPY(v_bufptr, d, len);
3479	v_bufptr += len;
3480	}
3481	}
3482
3483	/*
3484	* Write out as much of the buffer as we can.
3485	* Be careful not to overflow the pty's input silo.
3486	* We are conservative here and only write a small amount at a time.
3487	*
3488	* If we can't push all the data into the pty yet, we expect write
3489	* to return a non-negative number less than the length requested
3490	* (if some data written) or -1 and set errno to EAGAIN,
3491	* EWOULDBLOCK, or EINTR (if no data written).
3492	*
3493	* (Not all systems do this, sigh, so the code is actually
3494	* a little more forgiving.)
3495	*/
3496	if ((p = v_bufptr - v_bufstr) > 0) {
3497	riten = write(R->cmd_fd, v_bufstr, min(p, MAX_PTY_WRITE));
3498	if (riten < 0)
3499	riten = 0;
3500	v_bufstr += riten;
3501	if (v_bufstr >= v_bufptr) /* we wrote it all */
3502	v_bufstr = v_bufptr = v_buffer;
3503	}
3504	/*
3505	* If we have lots of unused memory allocated, return it
3506	*/
3507	if (v_bufend - v_bufptr > MAX_PTY_WRITE * 8) { /* arbitrary hysteresis */
3508	/* save pointers across realloc */
3509	unsigned int start = v_bufstr - v_buffer;
3510	unsigned int size = v_bufptr - v_buffer;
3511	unsigned int reallocto;
3512
3513	reallocto = (size / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3514	v_buffer = (unsigned char *)realloc(v_buffer, reallocto);
3515	if (v_buffer) {
3516	v_bufstr = v_buffer + start;
3517	v_bufptr = v_buffer + size;
3518	v_bufend = v_buffer + reallocto;
3519	} else {
3520	/* should we print a warning if couldn't return memory? */
3521	v_buffer = v_bufstr - start; /* restore clobbered pointer */
3522	}
3523	}
3524	R->v_buffer = v_buffer;
3525	R->v_bufstr = v_bufstr;
3526	R->v_bufptr = v_bufptr;
3527	R->v_bufend = v_bufend;
3528	}	3497	}
		3498
3529	/----------------------- end-of-file (C source) -----------------------/	3499	/----------------------- end-of-file (C source) -----------------------/
3530		3500

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Comparing rxvt-unicode/src/command.C (file contents): Revision 1.7 by pcg, Tue Nov 25 17:34:47 2003 UTC vs. Revision 1.12 by pcg, Fri Dec 5 04:05:13 2003 UTC

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Comparing rxvt-unicode/src/command.C (file contents):
Revision 1.7 by pcg, Tue Nov 25 17:34:47 2003 UTC vs.
Revision 1.12 by pcg, Fri Dec 5 04:05:13 2003 UTC