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Comparing rxvt-unicode/src/command.C (file contents):
Revision 1.4 by pcg, Tue Nov 25 15:25:16 2003 UTC vs.
Revision 1.60 by pcg, Fri Feb 27 02:52:51 2004 UTC

1	/*--------------------------------*-C-*---------------------------------*	1	/*--------------------------------*-C-*---------------------------------*
2	* File: command.c	2	* File: command.c
3	*----------------------------------------------------------------------*	3	*----------------------------------------------------------------------*
4	* $Id: command.C,v 1.4 2003/11/25 15:25:16 pcg Exp $
5	*	4	*
6	* All portions of code are copyright by their respective author/s.	5	* 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>	6	* Copyright (c) 1992 John Bovey, University of Kent at Canterbury <jdb@ukc.ac.uk>
8	* - original version	7	* - original version
9	* Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com>	8	* Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com>
…		…
26	* - extensive modifications	25	* - extensive modifications
27	* Copyright (c) 1998 Alfredo K. Kojima <kojima@windowmaker.org>	26	* Copyright (c) 1998 Alfredo K. Kojima <kojima@windowmaker.org>
28	* Copyright (c) 2001 Marius Gedminas	27	* Copyright (c) 2001 Marius Gedminas
29	* - Ctrl/Mod4+Tab works like Meta+Tab (options)	28	* - Ctrl/Mod4+Tab works like Meta+Tab (options)
30	* Copyright (c) 2003 Rob McMullen <robm@flipturn.org>	29	* Copyright (c) 2003 Rob McMullen <robm@flipturn.org>
		30	* Copyright (c) 2003-2004 Marc Lehmann <pcg@goof.com>
31	*	31	*
32	* This program is free software; you can redistribute it and/or modify	32	* This program is free software; you can redistribute it and/or modify
33	* it under the terms of the GNU General Public License as published by	33	* it under the terms of the GNU General Public License as published by
34	* the Free Software Foundation; either version 2 of the License, or	34	* the Free Software Foundation; either version 2 of the License, or
35	* (at your option) any later version.	35	* (at your option) any later version.
…		…
48	#include "../config.h" /* NECESSARY */	48	#include "../config.h" /* NECESSARY */
49	#include "rxvt.h" /* NECESSARY */	49	#include "rxvt.h" /* NECESSARY */
50	#include "version.h"	50	#include "version.h"
51	#include "command.h"	51	#include "command.h"
52		52
		53	#include <wchar.h>
		54
53	/*----------------------------------------------------------------------*/	55	/*----------------------------------------------------------------------*/
54		56
55	/*{{{ Convert the keypress event into a string */	57	/*{{{ Convert the keypress event into a string */
56	/* INTPROTO */
57	void	58	void
58	rxvt_lookup_key(pR_ XKeyEvent *ev)	59	rxvt_term::lookup_key (XKeyEvent &ev)
59	{	60	{
60	int ctrl, meta, shft, len;	61	int ctrl, meta, shft, len;
61	unsigned int newlen;	62	unsigned int newlen;
62	KeySym keysym;	63	KeySym keysym;
63	#ifdef DEBUG_CMD	64	#ifdef DEBUG_CMD
64	static int debug_key = 1; /* accessible by a debugger only */	65	static int debug_key = 1; /* accessible by a debugger only */
65	#endif	66	#endif
		67	int valid_keysym;
		68	unsigned char kbuf[KBUFSZ];
		69
		70	/*
		71	* use Num_Lock to toggle Keypad on/off. If Num_Lock is off, allow an
		72	* escape sequence to toggle the Keypad.
		73	*
		74	* Always permit `shift' to override the current setting
		75	*/
		76	shft = (ev.state & ShiftMask);
		77	ctrl = (ev.state & ControlMask);
		78	meta = (ev.state & ModMetaMask);
		79
		80	if (numlock_state || (ev.state & ModNumLockMask))
		81	{
		82	numlock_state = (ev.state & ModNumLockMask);
		83	PrivMode ((!numlock_state), PrivMode_aplKP);
		84	}
		85
		86	kbuf[0] = 0;
		87
66	#ifdef USE_XIM	88	#ifdef USE_XIM
67	int valid_keysym;	89	if (Input_Context)
68	#endif
69	unsigned char *kbuf = R->kbuf;
70
71	/*
72	* use Num_Lock to toggle Keypad on/off. If Num_Lock is off, allow an
73	* escape sequence to toggle the Keypad.
74	*
75	* Always permit `shift' to override the current setting
76	*/
77	shft = (ev->state & ShiftMask);
78	ctrl = (ev->state & ControlMask);
79	meta = (ev->state & R->ModMetaMask);
80	if (R->numlock_state || (ev->state & R->ModNumLockMask)) {
81	R->numlock_state = (ev->state & R->ModNumLockMask);
82	PrivMode((!R->numlock_state), PrivMode_aplKP);
83	}	90	{
84	#ifdef USE_XIM	91	Status status_return;
85	if (R->Input_Context != NULL) {
86	Status status_return;
87		92
88	kbuf[0] = '\0';
89	#ifdef X_HAVE_UTF8_STRING	93	#ifdef X_HAVE_UTF8_STRING
		94	if (enc_utf8 && 0) // currently disabled, doesn't seem to work, nor is useful
90	len = Xutf8LookupString(R->Input_Context, ev, (char *)kbuf,	95	len = Xutf8LookupString (Input_Context, &ev, (char *)kbuf,
91	KBUFSZ, &keysym, &status_return);	96	KBUFSZ, &keysym, &status_return);
92	#else	97	else
		98	#endif
		99	{
		100	wchar_t wkbuf[KBUFSZ + 1];
		101
		102	// the XOpenIM manpage lies about hardcoding the locale
		103	// at the point of XOpenIM, so temporarily switch locales
		104	if (rs[Rs_imLocale])
		105	SET_LOCALE (rs[Rs_imLocale]);
		106	// assume wchar_t == unicode or better
93	len = XmbLookupString(R->Input_Context, ev, (char *)kbuf,	107	len = XwcLookupString (Input_Context, &ev, wkbuf,
94	KBUFSZ, &keysym, &status_return);	108	KBUFSZ, &keysym, &status_return);
95	#endif	109	if (rs[Rs_imLocale])
		110	SET_LOCALE (locale);
		111
		112	if (status_return == XLookupChars
		113	|| status_return == XLookupBoth)
		114	{
		115	/* make sure the user can type ctrl-@, i.e. NUL */
		116	if (len == 1 && *wkbuf == 0)
		117	{
		118	kbuf[0] = 0;
		119	len = 1;
		120	}
		121	else
		122	{
		123	wkbuf[len] = 0;
		124	len = wcstombs ((char *)kbuf, wkbuf, KBUFSZ);
		125	if (len < 0)
		126	len = 0;
		127	}
		128	}
		129	else
		130	len = 0;
		131	}
		132
96	valid_keysym = ((status_return == XLookupKeySym)	133	valid_keysym = status_return == XLookupKeySym
97	|| (status_return == XLookupBoth));	134	|| status_return == XLookupBoth;
98	} else {	135	}
99	len = XLookupString(ev, (char *)kbuf, KBUFSZ, &keysym,	136	else
100	&R->compose);	137	#endif
101	valid_keysym = 1;
102	}	138	{
103	#else /* USE_XIM */
104	len = XLookupString(ev, (char *)kbuf, KBUFSZ, &keysym,	139	len = XLookupString (&ev, (char *)kbuf, KBUFSZ, &keysym, &compose);
105	&R->compose);	140	valid_keysym = keysym != NoSymbol;
106	/*
107	* map unmapped Latin[2-4]/Katakana/Arabic/Cyrillic/Greek entries -> Latin1
108	* good for installations with correct fonts, but without XLOCALE
109	*/
110	if (!len) {
111	if ((keysym >= 0x0100) && (keysym < 0x0800)) {
112	kbuf[0] = (keysym & 0xFF);
113	kbuf[1] = '\0';
114	len = 1;
115	} else
116	kbuf[0] = '\0';
117	}	141	}
118	#endif /* USE_XIM */
119		142
120	#ifdef USE_XIM
121	if (valid_keysym)	143	if (valid_keysym)
122	#endif
123	{	144	{
124	/* for some backwards compatibility */	145	/* for some backwards compatibility */
125	#if defined(HOTKEY_CTRL) || defined(HOTKEY_META)	146	#if defined(HOTKEY_CTRL) || defined(HOTKEY_META)
126	# ifdef HOTKEY_CTRL	147	# ifdef HOTKEY_CTRL
127	if (ctrl) {	148	if (ctrl)
128	# else	149	# else
129	if (meta) {	150	if (meta)
130	# endif	151	# endif
		152	{
131	if (keysym == R->ks_bigfont) {	153	if (keysym == ks_bigfont)
132	rxvt_change_font(aR_ 0, FONT_UP);	154	{
133	return;	155	change_font (FONT_UP);
		156	return;
		157	}
134	} else if (keysym == R->ks_smallfont) {	158	else if (keysym == ks_smallfont)
135	rxvt_change_font(aR_ 0, FONT_DN);	159	{
136	return;	160	change_font (FONT_DN);
137	}	161	return;
138	}	162	}
		163	}
139	#endif	164	#endif
140		165
141	if (R->TermWin.saveLines) {	166	if (TermWin.saveLines)
		167	{
142	#ifdef UNSHIFTED_SCROLLKEYS	168	#ifdef UNSHIFTED_SCROLLKEYS
143	if (!ctrl && !meta) {	169	if (!ctrl && !meta)
		170	{
144	#else	171	#else
145	if (IS_SCROLL_MOD) {	172	if (IS_SCROLL_MOD)
		173	{
146	#endif	174	#endif
147	int lnsppg;	175	int lnsppg;
148		176
149	#ifdef PAGING_CONTEXT_LINES	177	#ifdef PAGING_CONTEXT_LINES
150	lnsppg = R->TermWin.nrow - PAGING_CONTEXT_LINES;	178	lnsppg = TermWin.nrow - PAGING_CONTEXT_LINES;
151	#else	179	#else
152	lnsppg = R->TermWin.nrow * 4 / 5;	180	lnsppg = TermWin.nrow * 4 / 5;
153	#endif	181	#endif
154	if (keysym == XK_Prior) {	182	if (keysym == XK_Prior)
155	rxvt_scr_page(aR_ UP, lnsppg);	183	{
156	return;	184	scr_page (UP, lnsppg);
		185	return;
		186	}
157	} else if (keysym == XK_Next) {	187	else if (keysym == XK_Next)
158	rxvt_scr_page(aR_ DN, lnsppg);	188	{
159	return;	189	scr_page (DN, lnsppg);
160	}	190	return;
161	}	191	}
		192	}
162	#ifdef SCROLL_ON_UPDOWN_KEYS	193	#ifdef SCROLL_ON_UPDOWN_KEYS
163	if (IS_SCROLL_MOD) {	194	if (IS_SCROLL_MOD)
164	if (keysym == XK_Up) {	195	{
165	rxvt_scr_page(aR_ UP, 1);	196	if (keysym == XK_Up)
166	return;	197	{
		198	scr_page (UP, 1);
		199	return;
		200	}
167	} else if (keysym == XK_Down) {	201	else if (keysym == XK_Down)
168	rxvt_scr_page(aR_ DN, 1);	202	{
169	return;	203	scr_page (DN, 1);
170	}	204	return;
171	}	205	}
		206	}
172	#endif	207	#endif
173	#ifdef SCROLL_ON_HOMEEND_KEYS	208	#ifdef SCROLL_ON_HOMEEND_KEYS
174	if (IS_SCROLL_MOD) {	209	if (IS_SCROLL_MOD)
175	if (keysym == XK_Home) {	210	{
176	rxvt_scr_move_to(aR_ 0, 1);	211	if (keysym == XK_Home)
177	return;	212	{
		213	scr_move_to (0, 1);
		214	return;
		215	}
178	} else if (keysym == XK_End) {	216	else if (keysym == XK_End)
179	rxvt_scr_move_to(aR_ 1, 0);	217	{
180	return;	218	scr_move_to (1, 0);
181	}	219	return;
182	}	220	}
		221	}
183	#endif	222	#endif
184	}	223	}
185		224
186	if (shft) {	225	if (shft)
		226	{
187	/* Shift + F1 - F10 generates F11 - F20 */	227	/* Shift + F1 - F10 generates F11 - F20 */
188	if (keysym >= XK_F1 && keysym <= XK_F10) {	228	if (keysym >= XK_F1 && keysym <= XK_F10)
		229	{
189	keysym += (XK_F11 - XK_F1);	230	keysym += (XK_F11 - XK_F1);
190	shft = 0; /* turn off Shift */	231	shft = 0; /* turn off Shift */
		232	}
191	} else if (!ctrl && !meta && (R->PrivateModes & PrivMode_ShiftKeys)) {	233	else if (!ctrl && !meta && (PrivateModes & PrivMode_ShiftKeys))
192	switch (keysym) {	234	{
193	/* normal XTerm key bindings */	235	switch (keysym)
		236	{
		237	/* normal XTerm key bindings */
194	case XK_Insert: /* Shift+Insert = paste mouse selection */	238	case XK_Insert: /* Shift+Insert = paste mouse selection */
195	rxvt_selection_request(aR_ ev->time, 0, 0);	239	selection_request (ev.time, 0, 0);
196	return;	240	return;
197	/* rxvt extras */	241	/* rxvt extras */
198	case XK_KP_Add: /* Shift+KP_Add = bigger font */	242	case XK_KP_Add: /* Shift+KP_Add = bigger font */
199	rxvt_change_font(aR_ 0, FONT_UP);	243	change_font (FONT_UP);
200	return;	244	return;
201	case XK_KP_Subtract: /* Shift+KP_Subtract = smaller font */	245	case XK_KP_Subtract: /* Shift+KP_Subtract = smaller font */
202	rxvt_change_font(aR_ 0, FONT_DN);	246	change_font (FONT_DN);
203	return;	247	return;
204	}	248	}
205	}	249	}
206	}	250	}
207	#ifdef PRINTPIPE	251	#ifdef PRINTPIPE
208	if (keysym == XK_Print) {	252	if (keysym == XK_Print)
209	rxvt_scr_printscreen(aR_ ctrl | shft);	253	{
		254	scr_printscreen (ctrl | shft);
210	return;	255	return;
211	}	256	}
212	#endif	257	#endif
213	#ifdef GREEK_SUPPORT
214	if (keysym == R->ks_greekmodeswith) {
215	R->greek_mode = !R->greek_mode;
216	if (R->greek_mode) {
217	rxvt_xterm_seq(aR_ XTerm_title,
218	(greek_getmode() == GREEK_ELOT928
219	? "[Greek: iso]" : "[Greek: ibm]"), CHAR_ST);
220	greek_reset();
221	} else
222	rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST);
223	return;
224	}
225	#endif
226		258
227	if (keysym >= 0xFF00 && keysym <= 0xFFFF) {	259	if (keysym >= 0xFF00 && keysym <= 0xFFFF)
		260	{
228	#ifdef KEYSYM_RESOURCE	261	#ifdef KEYSYM_RESOURCE
229	if (!(shft | ctrl) && R->Keysym_map[keysym & 0xFF] != NULL) {	262	if (! (shft | ctrl) && Keysym_map[keysym & 0xFF] != NULL)
230	unsigned int l;	263	{
		264	unsigned int l;
231	const unsigned char *kbuf0;	265	const unsigned char *kbuf0;
232	const unsigned char ch = C0_ESC;	266	const unsigned char ch = C0_ESC;
233		267
234	kbuf0 = (R->Keysym_map[keysym & 0xFF]);	268	kbuf0 = (Keysym_map[keysym & 0xFF]);
235	l = (unsigned int)*kbuf0++;	269	l = (unsigned int)*kbuf0++;
236		270
237	/* escape prefix */	271	/* escape prefix */
238	if (meta)	272	if (meta)
239	# ifdef META8_OPTION	273	# ifdef META8_OPTION
240	if (R->meta_char == C0_ESC)	274	if (meta_char == C0_ESC)
241	# endif	275	# endif
242	rxvt_tt_write(aR_ &ch, 1);	276	tt_write (&ch, 1);
243	rxvt_tt_write(aR_ kbuf0, l);	277	tt_write (kbuf0, l);
244	return;	278	return;
245	} else	279	}
		280	else
246	#endif	281	#endif
247	{	282	{
248	newlen = 1;	283	newlen = 1;
249	switch (keysym) {	284	switch (keysym)
		285	{
250	#ifndef NO_BACKSPACE_KEY	286	#ifndef NO_BACKSPACE_KEY
251	case XK_BackSpace:	287	case XK_BackSpace:
252	if (R->PrivateModes & PrivMode_HaveBackSpace) {	288	if (PrivateModes & PrivMode_HaveBackSpace)
		289	{
253	kbuf[0] = (!!(R->PrivateModes & PrivMode_BackSpace)	290	kbuf[0] = (!! (PrivateModes & PrivMode_BackSpace)
254	^ !!ctrl) ? '\b' : '\177';	291	^ !!ctrl) ? '\b' : '\177';
255	kbuf[1] = '\0';	292	kbuf[1] = '\0';
256	} else	293	}
257	STRCPY(kbuf, R->key_backspace);	294	else
		295	STRCPY (kbuf, key_backspace);
258	# ifdef MULTICHAR_SET	296	# ifdef MULTICHAR_SET
259	if ((R->Options & Opt_mc_hack) && R->screen.cur.col > 0) {	297	if ((Options & Opt_mc_hack) && screen.cur.col > 0)
260	int col, row;	298	{
		299	int col, row;
261		300
262	newlen = STRLEN(kbuf);	301	newlen = STRLEN (kbuf);
263	col = R->screen.cur.col - 1;	302	col = screen.cur.col - 1;
264	row = R->screen.cur.row + R->TermWin.saveLines;	303	row = screen.cur.row + TermWin.saveLines;
265	if (IS_MULTI2(R->screen.rend[row][col]))	304	if (IS_MULTI2 (screen.rend[row][col]))
266	MEMMOVE(kbuf + newlen, kbuf, newlen + 1);	305	MEMMOVE (kbuf + newlen, kbuf, newlen + 1);
267	}	306	}
268	# endif	307	# endif
269	break;	308	break;
270	#endif	309	#endif
271	#ifndef NO_DELETE_KEY	310	#ifndef NO_DELETE_KEY
272	case XK_Delete:	311	case XK_Delete:
273	STRCPY(kbuf, R->key_delete);	312	STRCPY (kbuf, key_delete);
274	# ifdef MULTICHAR_SET	313	# ifdef MULTICHAR_SET
275	if (R->Options & Opt_mc_hack) {	314	if (Options & Opt_mc_hack)
276	int col, row;	315	{
277		316	int col, row;
278	newlen = STRLEN(kbuf);	317
279	col = R->screen.cur.col;	318	newlen = STRLEN (kbuf);
280	row = R->screen.cur.row + R->TermWin.saveLines;	319	col = screen.cur.col;
281	if (IS_MULTI1(R->screen.rend[row][col]))	320	row = screen.cur.row + TermWin.saveLines;
		321	if (IS_MULTI1 (screen.rend[row][col]))
282	MEMMOVE(kbuf + newlen, kbuf, newlen + 1);	322	MEMMOVE (kbuf + newlen, kbuf, newlen + 1);
283	}	323	}
284	# endif	324	# endif
285	break;	325	break;
286	#endif	326	#endif
287	case XK_Tab:	327	case XK_Tab:
288	if (shft)	328	if (shft)
289	STRCPY(kbuf, "\033[Z");	329	STRCPY (kbuf, "\033[Z");
290	else {	330	else
		331	{
291	#ifdef CTRL_TAB_MAKES_META	332	#ifdef CTRL_TAB_MAKES_META
292	if (ctrl)	333	if (ctrl)
293	meta = 1;	334	meta = 1;
294	#endif	335	#endif
295	#ifdef MOD4_TAB_MAKES_META	336	#ifdef MOD4_TAB_MAKES_META
296	if (ev->state & Mod4Mask)	337	if (ev.state & Mod4Mask)
297	meta = 1;	338	meta = 1;
298	#endif	339	#endif
299	newlen = 0;	340	newlen = 0;
300	}	341	}
301	break;	342	break;
302
303		343
304	#ifdef XK_KP_Left	344	#ifdef XK_KP_Left
305	case XK_KP_Up: /* \033Ox or standard */	345	case XK_KP_Up: /* \033Ox or standard */
306	case XK_KP_Down: /* \033Or or standard */	346	case XK_KP_Down: /* \033Or or standard */
307	case XK_KP_Right: /* \033Ov or standard */	347	case XK_KP_Right: /* \033Ov or standard */
308	case XK_KP_Left: /* \033Ot or standard */	348	case XK_KP_Left: /* \033Ot or standard */
309	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	349	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
310	STRCPY(kbuf, "\033OZ");	350	{
311	kbuf[2] = ("txvr"[keysym - XK_KP_Left]);	351	STRCPY (kbuf, "\033OZ");
312	break;	352	kbuf[2] = "txvr"[keysym - XK_KP_Left];
313	} else	353	break;
		354	}
		355	else
314	/* translate to std. cursor key */	356	/* translate to std. cursor key */
315	keysym = XK_Left + (keysym - XK_KP_Left);	357	keysym = XK_Left + (keysym - XK_KP_Left);
316	/* FALLTHROUGH */	358	/* FALLTHROUGH */
317	#endif	359	#endif
318	case XK_Up: /* "\033[A" */	360	case XK_Up: /* "\033[A" */
319	case XK_Down: /* "\033[B" */	361	case XK_Down: /* "\033[B" */
320	case XK_Right: /* "\033[C" */	362	case XK_Right: /* "\033[C" */
321	case XK_Left: /* "\033[D" */	363	case XK_Left: /* "\033[D" */
322	STRCPY(kbuf, "\033[Z");	364	STRCPY (kbuf, "\033[Z");
323	kbuf[2] = ("DACB"[keysym - XK_Left]);	365	kbuf[2] = "DACB"[keysym - XK_Left];
324	/* do Shift first */	366	/* do Shift first */
325	if (shft)	367	if (shft)
326	kbuf[2] = ("dacb"[keysym - XK_Left]);	368	kbuf[2] = "dacb"[keysym - XK_Left];
327	else if (ctrl) {	369	else if (ctrl)
328	kbuf[1] = 'O';	370	{
329	kbuf[2] = ("dacb"[keysym - XK_Left]);	371	kbuf[1] = 'O';
330	} else if (R->PrivateModes & PrivMode_aplCUR)	372	kbuf[2] = "dacb"[keysym - XK_Left];
331	kbuf[1] = 'O';	373	}
		374	else if (PrivateModes & PrivMode_aplCUR)
		375	kbuf[1] = 'O';
332	#ifdef MULTICHAR_SET	376	#ifdef MULTICHAR_SET
333	//TODO: ??	377	//TODO: ??
334	if (R->Options & Opt_mc_hack) {	378	if (Options & Opt_mc_hack)
335	int col, row, m;	379	{
		380	int col, row, m;
336		381
337	col = R->screen.cur.col;	382	col = screen.cur.col;
338	row = R->screen.cur.row + R->TermWin.saveLines;	383	row = screen.cur.row + TermWin.saveLines;
339	m = 0;	384	m = 0;
340	if (keysym == XK_Right	385	if (keysym == XK_Right
341	&& IS_MULTI1(R->screen.rend[row][col]))	386	&& IS_MULTI1 (screen.rend[row][col]))
342	m = 1;	387	m = 1;
343	else if (keysym == XK_Left) {	388	else if (keysym == XK_Left)
344	if (col > 0) {	389	{
345	if (IS_MULTI2(R->screen.rend[row][col - 1]))	390	if (col > 0)
346	m = 1;	391	{
347	} else if (R->screen.cur.row > 0) {	392	if (IS_MULTI2 (screen.rend[row][col - 1]))
348	col = R->screen.tlen[--row];	393	m = 1;
349	if (col == -1)	394	}
350	col = R->TermWin.ncol - 1;	395	else if (screen.cur.row > 0)
351	else	396	{
352	col--;	397	col = screen.tlen[--row];
353	if (col > 0	398	if (col == -1)
354	&& IS_MULTI2(R->screen.rend[row][col]))	399	col = TermWin.ncol - 1;
355	m = 1;	400	else
356	}	401	col--;
357	}	402	if (col > 0
358	if (m)	403	&& IS_MULTI2 (screen.rend[row][col]))
359	MEMMOVE(kbuf + 3, kbuf, 3 + 1);	404	m = 1;
360	}	405	}
		406	}
		407	if (m)
		408	MEMMOVE (kbuf + 3, kbuf, 3 + 1);
		409	}
361	#endif	410	#endif
362	break;	411	break;
363		412
364	#ifndef UNSHIFTED_SCROLLKEYS	413	#ifndef UNSHIFTED_SCROLLKEYS
365	# ifdef XK_KP_Prior	414	# ifdef XK_KP_Prior
366	case XK_KP_Prior:	415	case XK_KP_Prior:
367	/* allow shift to override */	416	/* allow shift to override */
368	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	417	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
369	STRCPY(kbuf, "\033Oy");	418	{
370	break;	419	STRCPY (kbuf, "\033Oy");
371	}	420	break;
372	/* FALLTHROUGH */	421	}
		422	/* FALLTHROUGH */
373	# endif	423	# endif
374	case XK_Prior:	424	case XK_Prior:
375	STRCPY(kbuf, "\033[5~");	425	STRCPY (kbuf, "\033[5~");
376	break;	426	break;
377	# ifdef XK_KP_Next	427	# ifdef XK_KP_Next
378	case XK_KP_Next:	428	case XK_KP_Next:
379	/* allow shift to override */	429	/* allow shift to override */
380	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	430	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
381	STRCPY(kbuf, "\033Os");	431	{
382	break;	432	STRCPY (kbuf, "\033Os");
383	}	433	break;
384	/* FALLTHROUGH */	434	}
		435	/* FALLTHROUGH */
385	# endif	436	# endif
386	case XK_Next:	437	case XK_Next:
387	STRCPY(kbuf, "\033[6~");	438	STRCPY (kbuf, "\033[6~");
388	break;	439	break;
389	#endif	440	#endif
390	case XK_KP_Enter:	441	case XK_KP_Enter:
391	/* allow shift to override */	442	/* allow shift to override */
392	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	443	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
393	STRCPY(kbuf, "\033OM");	444	{
394	} else {	445	STRCPY (kbuf, "\033OM");
395	kbuf[0] = '\r';	446	}
396	kbuf[1] = '\0';	447	else
397	}	448	{
398	break;	449	kbuf[0] = '\r';
		450	kbuf[1] = '\0';
		451	}
		452	break;
399		453
400	#ifdef XK_KP_Begin	454	#ifdef XK_KP_Begin
401	case XK_KP_Begin:	455	case XK_KP_Begin:
402	STRCPY(kbuf, "\033Ou");	456	STRCPY (kbuf, "\033Ou");
403	break;	457	break;
404		458
405	case XK_KP_Insert:	459	case XK_KP_Insert:
406	STRCPY(kbuf, "\033Op");	460	STRCPY (kbuf, "\033Op");
407	break;	461	break;
408		462
409	case XK_KP_Delete:	463	case XK_KP_Delete:
410	STRCPY(kbuf, "\033On");	464	STRCPY (kbuf, "\033On");
411	break;	465	break;
412	#endif	466	#endif
413	case XK_KP_F1: /* "\033OP" */	467	case XK_KP_F1: /* "\033OP" */
414	case XK_KP_F2: /* "\033OQ" */	468	case XK_KP_F2: /* "\033OQ" */
415	case XK_KP_F3: /* "\033OR" */	469	case XK_KP_F3: /* "\033OR" */
416	case XK_KP_F4: /* "\033OS" */	470	case XK_KP_F4: /* "\033OS" */
417	STRCPY(kbuf, "\033OP");	471	STRCPY (kbuf, "\033OP");
418	kbuf[2] += (keysym - XK_KP_F1);	472	kbuf[2] += (keysym - XK_KP_F1);
419	break;	473	break;
420		474
421	case XK_KP_Multiply: /* "\033Oj" : "*" */	475	case XK_KP_Multiply: /* "\033Oj" : "*" */
422	case XK_KP_Add: /* "\033Ok" : "+" */	476	case XK_KP_Add: /* "\033Ok" : "+" */
423	case XK_KP_Separator: /* "\033Ol" : "," */	477	case XK_KP_Separator: /* "\033Ol" : "," */
424	case XK_KP_Subtract: /* "\033Om" : "-" */	478	case XK_KP_Subtract: /* "\033Om" : "-" */
425	case XK_KP_Decimal: /* "\033On" : "." */	479	case XK_KP_Decimal: /* "\033On" : "." */
426	case XK_KP_Divide: /* "\033Oo" : "/" */	480	case XK_KP_Divide: /* "\033Oo" : "/" */
427	case XK_KP_0: /* "\033Op" : "0" */	481	case XK_KP_0: /* "\033Op" : "0" */
428	case XK_KP_1: /* "\033Oq" : "1" */	482	case XK_KP_1: /* "\033Oq" : "1" */
429	case XK_KP_2: /* "\033Or" : "2" */	483	case XK_KP_2: /* "\033Or" : "2" */
430	case XK_KP_3: /* "\033Os" : "3" */	484	case XK_KP_3: /* "\033Os" : "3" */
431	case XK_KP_4: /* "\033Ot" : "4" */	485	case XK_KP_4: /* "\033Ot" : "4" */
432	case XK_KP_5: /* "\033Ou" : "5" */	486	case XK_KP_5: /* "\033Ou" : "5" */
433	case XK_KP_6: /* "\033Ov" : "6" */	487	case XK_KP_6: /* "\033Ov" : "6" */
434	case XK_KP_7: /* "\033Ow" : "7" */	488	case XK_KP_7: /* "\033Ow" : "7" */
435	case XK_KP_8: /* "\033Ox" : "8" */	489	case XK_KP_8: /* "\033Ox" : "8" */
436	case XK_KP_9: /* "\033Oy" : "9" */	490	case XK_KP_9: /* "\033Oy" : "9" */
437	/* allow shift to override */	491	/* allow shift to override */
438	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	492	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
439	STRCPY(kbuf, "\033Oj");	493	{
440	kbuf[2] += (keysym - XK_KP_Multiply);	494	STRCPY (kbuf, "\033Oj");
441	} else {	495	kbuf[2] += (keysym - XK_KP_Multiply);
		496	}
		497	else
		498	{
442	kbuf[0] = ('*' + (keysym - XK_KP_Multiply));	499	kbuf[0] = ('*' + (keysym - XK_KP_Multiply));
443	kbuf[1] = '\0';	500	kbuf[1] = '\0';
444	}	501	}
445	break;	502	break;
446		503
447	case XK_Find:	504	case XK_Find:
448	STRCPY(kbuf, "\033[1~");	505	STRCPY (kbuf, "\033[1~");
449	break;	506	break;
450	case XK_Insert:	507	case XK_Insert:
451	STRCPY(kbuf, "\033[2~");	508	STRCPY (kbuf, "\033[2~");
452	break;	509	break;
453	#ifdef DXK_Remove /* support for DEC remove like key */	510	#ifdef DXK_Remove /* support for DEC remove like key */
454	case DXK_Remove:	511	case DXK_Remove:
455	/* FALLTHROUGH */	512	/* FALLTHROUGH */
456	#endif	513	#endif
457	case XK_Execute:	514	case XK_Execute:
458	STRCPY(kbuf, "\033[3~");	515	STRCPY (kbuf, "\033[3~");
459	break;	516	break;
460	case XK_Select:	517	case XK_Select:
461	STRCPY(kbuf, "\033[4~");	518	STRCPY (kbuf, "\033[4~");
462	break;	519	break;
463	#ifdef XK_KP_End	520	#ifdef XK_KP_End
464	case XK_KP_End:	521	case XK_KP_End:
465	/* allow shift to override */	522	/* allow shift to override */
466	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	523	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
467	STRCPY(kbuf, "\033Oq");	524	{
468	break;	525	STRCPY (kbuf, "\033Oq");
469	}	526	break;
470	/* FALLTHROUGH */	527	}
		528	/* FALLTHROUGH */
471	#endif	529	#endif
472	case XK_End:	530	case XK_End:
473	STRCPY(kbuf, KS_END);	531	STRCPY (kbuf, KS_END);
474	break;	532	break;
475	#ifdef XK_KP_Home	533	#ifdef XK_KP_Home
476	case XK_KP_Home:	534	case XK_KP_Home:
477	/* allow shift to override */	535	/* allow shift to override */
478	if ((R->PrivateModes & PrivMode_aplKP) ? !shft : shft) {	536	if ((PrivateModes & PrivMode_aplKP) ? !shft : shft)
479	STRCPY(kbuf, "\033Ow");	537	{
480	break;	538	STRCPY (kbuf, "\033Ow");
481	}	539	break;
482	/* FALLTHROUGH */	540	}
		541	/* FALLTHROUGH */
483	#endif	542	#endif
484	case XK_Home:	543	case XK_Home:
485	STRCPY(kbuf, KS_HOME);	544	STRCPY (kbuf, KS_HOME);
486	break;	545	break;
487		546
488	#define FKEY(n, fkey) \	547	#define FKEY(n, fkey) \
489	sprintf((char *)kbuf,"\033[%2d~", (int)((n) + (keysym - fkey)))	548	sprintf ((char *)kbuf,"\033[%2d~", (int) ((n) + (keysym - fkey)))
490		549
491	case XK_F1: /* "\033[11~" */	550	case XK_F1: /* "\033[11~" */
492	case XK_F2: /* "\033[12~" */	551	case XK_F2: /* "\033[12~" */
493	case XK_F3: /* "\033[13~" */	552	case XK_F3: /* "\033[13~" */
494	case XK_F4: /* "\033[14~" */	553	case XK_F4: /* "\033[14~" */
495	case XK_F5: /* "\033[15~" */	554	case XK_F5: /* "\033[15~" */
496	FKEY(11, XK_F1);	555	FKEY (11, XK_F1);
497	break;	556	break;
498	case XK_F6: /* "\033[17~" */	557	case XK_F6: /* "\033[17~" */
499	case XK_F7: /* "\033[18~" */	558	case XK_F7: /* "\033[18~" */
500	case XK_F8: /* "\033[19~" */	559	case XK_F8: /* "\033[19~" */
501	case XK_F9: /* "\033[20~" */	560	case XK_F9: /* "\033[20~" */
502	case XK_F10: /* "\033[21~" */	561	case XK_F10: /* "\033[21~" */
503	FKEY(17, XK_F6);	562	FKEY (17, XK_F6);
504	break;	563	break;
505	case XK_F11: /* "\033[23~" */	564	case XK_F11: /* "\033[23~" */
506	case XK_F12: /* "\033[24~" */	565	case XK_F12: /* "\033[24~" */
507	case XK_F13: /* "\033[25~" */	566	case XK_F13: /* "\033[25~" */
508	case XK_F14: /* "\033[26~" */	567	case XK_F14: /* "\033[26~" */
509	FKEY(23, XK_F11);	568	FKEY (23, XK_F11);
510	break;	569	break;
511	case XK_F15: /* "\033[28~" */	570	case XK_F15: /* "\033[28~" */
512	case XK_F16: /* "\033[29~" */	571	case XK_F16: /* "\033[29~" */
513	FKEY(28, XK_F15);	572	FKEY (28, XK_F15);
514	break;	573	break;
515	case XK_Help: /* "\033[28~" */	574	case XK_Help: /* "\033[28~" */
516	FKEY(28, XK_Help);	575	FKEY (28, XK_Help);
517	break;	576	break;
518	case XK_Menu: /* "\033[29~" */	577	case XK_Menu: /* "\033[29~" */
519	FKEY(29, XK_Menu);	578	FKEY (29, XK_Menu);
520	break;	579	break;
521	case XK_F17: /* "\033[31~" */	580	case XK_F17: /* "\033[31~" */
522	case XK_F18: /* "\033[32~" */	581	case XK_F18: /* "\033[32~" */
523	case XK_F19: /* "\033[33~" */	582	case XK_F19: /* "\033[33~" */
524	case XK_F20: /* "\033[34~" */	583	case XK_F20: /* "\033[34~" */
525	case XK_F21: /* "\033[35~" */	584	case XK_F21: /* "\033[35~" */
526	case XK_F22: /* "\033[36~" */	585	case XK_F22: /* "\033[36~" */
527	case XK_F23: /* "\033[37~" */	586	case XK_F23: /* "\033[37~" */
528	case XK_F24: /* "\033[38~" */	587	case XK_F24: /* "\033[38~" */
529	case XK_F25: /* "\033[39~" */	588	case XK_F25: /* "\033[39~" */
530	case XK_F26: /* "\033[40~" */	589	case XK_F26: /* "\033[40~" */
531	case XK_F27: /* "\033[41~" */	590	case XK_F27: /* "\033[41~" */
532	case XK_F28: /* "\033[42~" */	591	case XK_F28: /* "\033[42~" */
533	case XK_F29: /* "\033[43~" */	592	case XK_F29: /* "\033[43~" */
534	case XK_F30: /* "\033[44~" */	593	case XK_F30: /* "\033[44~" */
535	case XK_F31: /* "\033[45~" */	594	case XK_F31: /* "\033[45~" */
536	case XK_F32: /* "\033[46~" */	595	case XK_F32: /* "\033[46~" */
537	case XK_F33: /* "\033[47~" */	596	case XK_F33: /* "\033[47~" */
538	case XK_F34: /* "\033[48~" */	597	case XK_F34: /* "\033[48~" */
539	case XK_F35: /* "\033[49~" */	598	case XK_F35: /* "\033[49~" */
540	FKEY(31, XK_F17);	599	FKEY (31, XK_F17);
541	break;	600	break;
542	#undef FKEY	601	#undef FKEY
543	default:	602	default:
544	newlen = 0;	603	newlen = 0;
545	break;	604	break;
546	}	605	}
547	if (newlen)	606	if (newlen)
548	len = STRLEN(kbuf);	607	len = STRLEN (kbuf);
549	}	608	}
550	/*	609	/*
551	* Pass meta for all function keys, if 'meta' option set	610	* Pass meta for all function keys, if 'meta' option set
552	*/	611	*/
553	#ifdef META8_OPTION	612	#ifdef META8_OPTION
554	if (meta && (R->meta_char == 0x80) && len > 0)	613	if (meta && (meta_char == 0x80) && len > 0)
555	kbuf[len - 1] |= 0x80;	614	kbuf[len - 1] |= 0x80;
556	#endif	615	#endif
		616
		617	}
557	} else if (ctrl && keysym == XK_minus) {	618	else if (ctrl && keysym == XK_minus)
		619	{
558	len = 1;	620	len = 1;
559	kbuf[0] = '\037'; /* Ctrl-Minus generates ^_ (31) */	621	kbuf[0] = '\037'; /* Ctrl-Minus generates ^_ (31) */
560	} else {	622	}
		623	else
		624	{
561	#ifdef META8_OPTION	625	#ifdef META8_OPTION
562	/* set 8-bit on */	626	/* set 8-bit on */
563	if (meta && (R->meta_char == 0x80)) {	627	if (meta && (meta_char == 0x80))
564	unsigned char *ch;	628	{
		629	unsigned char *ch;
565		630
566	for (ch = kbuf; ch < kbuf + len; ch++)	631	for (ch = kbuf; ch < kbuf + len; ch++)
567	*ch |= 0x80;	632	*ch |= 0x80;
568	meta = 0;	633	meta = 0;
		634	}
		635	#endif
		636	/* nil */ ;
		637	}
569	}	638	}
570	#endif
571	#ifdef GREEK_SUPPORT
572	if (R->greek_mode)
573	len = greek_xlat(kbuf, len);
574	#endif
575	/* nil */ ;
576	}
577	}
578		639
579	if (len <= 0)	640	if (len <= 0)
580	return; /* not mapped */	641	return; /* not mapped */
581		642
582	if (R->Options & Opt_scrollTtyKeypress)	643	if (Options & Opt_scrollTtyKeypress)
583	if (R->TermWin.view_start) {	644	if (TermWin.view_start)
584	R->TermWin.view_start = 0;	645	{
585	R->want_refresh = 1;	646	TermWin.view_start = 0;
586	}	647	want_refresh = 1;
		648	}
587		649
588	/*	650	/*
589	* these modifications only affect the static keybuffer	651	* these modifications only affect the static keybuffer
590	* pass Shift/Control indicators for function keys ending with `~'	652	* pass Shift/Control indicators for function keys ending with `~'
591	*	653	*
592	* eg,	654	* eg,
593	* Prior = "ESC[5~"	655	* Prior = "ESC[5~"
594	* Shift+Prior = "ESC[5$"	656	* Shift+Prior = "ESC[5$"
595	* Ctrl+Prior = "ESC[5^"	657	* Ctrl+Prior = "ESC[5^"
596	* Ctrl+Shift+Prior = "ESC[5@"	658	* Ctrl+Shift+Prior = "ESC[5@"
597	* Meta adds an Escape prefix (with META8_OPTION, if meta == <escape>).	659	* Meta adds an Escape prefix (with META8_OPTION, if meta == <escape>).
598	*/	660	*/
599	if (kbuf[0] == C0_ESC && kbuf[1] == '[' && kbuf[len - 1] == '~')	661	if (kbuf[0] == C0_ESC && kbuf[1] == '[' && kbuf[len - 1] == '~')
600	kbuf[len - 1] = (shft ? (ctrl ? '@' : '$') : (ctrl ? '^' : '~'));	662	kbuf[len - 1] = (shft ? (ctrl ? '@' : '$') : (ctrl ? '^' : '~'));
601		663
602	/* escape prefix */	664	/* escape prefix */
603	if (meta	665	if (meta
604	#ifdef META8_OPTION	666	#ifdef META8_OPTION
605	&& (R->meta_char == C0_ESC)	667	&& meta_char == C0_ESC
606	#endif	668	#endif
607	) {	669	)
		670	{
608	const unsigned char ch = C0_ESC;	671	const unsigned char ch = C0_ESC;
609		672	tt_write (&ch, 1);
610	rxvt_tt_write(aR_ &ch, 1);
611	}	673	}
		674
612	#ifdef DEBUG_CMD	675	#if defined(DEBUG_CMD)
613	if (debug_key) { /* Display keyboard buffer contents */	676	/* Display keyboard buffer contents */
614	char *p;	677	unsigned char *p;
615	int i;	678	int i;
616		679
617	fprintf(stderr, "key 0x%04X [%d]: `", (unsigned int)keysym, len);	680	fprintf (stderr, "key 0x%04X [%d]: `", (unsigned int)keysym, len);
618	for (i = 0, p = kbuf; i < len; i++, p++)	681	for (i = 0, p = kbuf; i < len; i++, p++)
619	fprintf(stderr, (*p >= ' ' && *p < '\177' ? "%c" : "\\%03o"), *p);	682	fprintf (stderr, (*p >= ' ' && *p < '\177' ? "%c" : "\\%03o"), *p);
620	fprintf(stderr, "'\n");	683	fprintf (stderr, "'\n");
621	}
622	#endif /* DEBUG_CMD */	684	#endif /* DEBUG_CMD */
623	rxvt_tt_write(aR_ kbuf, (unsigned int)len);	685	tt_write (kbuf, (unsigned int)len);
624	}	686	}
625	/*}}} */	687	/*}}} */
626		688
627	#if (MENUBAR_MAX)	689	#if (MENUBAR_MAX)
628	/*{{{ rxvt_cmd_write(), rxvt_cmd_getc() */	690	/*{{{ rxvt_cmd_write (), rxvt_cmd_getc () */
629	/* attempt to `write' count to the input buffer */	691	/* attempt to `write' count to the input buffer */
630	/* EXTPROTO */
631	unsigned int	692	unsigned int
632	rxvt_cmd_write(pR_ const unsigned char *str, unsigned int count)	693	rxvt_term::cmd_write (const unsigned char *str, unsigned int count)
633	{	694	{
634	unsigned int n, s;	695	unsigned int n, s;
635	unsigned char *cmdbuf_base = R->cmdbuf_base,
636	*cmdbuf_endp = R->cmdbuf_endp,
637	*cmdbuf_ptr = R->cmdbuf_ptr;
638		696
639	n = cmdbuf_ptr - cmdbuf_base;	697	n = cmdbuf_ptr - cmdbuf_base;
640	s = cmdbuf_base + BUFSIZ - 1 - cmdbuf_endp;	698	s = cmdbuf_base + BUFSIZ - 1 - cmdbuf_endp;
		699
641	if (n > 0 && s < count) {	700	if (n > 0 && s < count)
		701	{
642	MEMMOVE(cmdbuf_base, cmdbuf_ptr,	702	MEMMOVE (cmdbuf_base, cmdbuf_ptr,
643	(unsigned int)(cmdbuf_endp - cmdbuf_ptr));	703	(unsigned int) (cmdbuf_endp - cmdbuf_ptr));
644	cmdbuf_ptr = cmdbuf_base;	704	cmdbuf_ptr = cmdbuf_base;
645	cmdbuf_endp -= n;	705	cmdbuf_endp -= n;
646	s += n;	706	s += n;
647	}	707	}
		708
648	if (count > s) {	709	if (count > s)
		710	{
649	rxvt_print_error("data loss: cmd_write too large");	711	rxvt_print_error ("data loss: cmd_write too large");
650	count = s;	712	count = s;
651	}	713	}
		714
652	for (; count--;)	715	for (; count--;)
653	*cmdbuf_endp++ = *str++;	716	*cmdbuf_endp++ = *str++;
654	R->cmdbuf_ptr = cmdbuf_ptr;	717
655	R->cmdbuf_endp = cmdbuf_endp;	718	cmd_parse ();
		719
656	return 0;	720	return 0;
657	}	721	}
658	#endif /* MENUBAR_MAX */	722	#endif /* MENUBAR_MAX */
659		723
660	void	724	void
661	rxvt_term::process_x_events ()	725	rxvt_term::flush ()
662	{	726	{
663	do	727	#ifdef TRANSPARENT
		728	if (want_full_refresh)
664	{	729	{
665	XEvent xev;	730	want_full_refresh = 0;
666		731	scr_clear ();
667	XNextEvent (Xdisplay, &xev);	732	scr_touch (false);
668	#if defined(CURSOR_BLINK)
669	if ((Options & Opt_cursorBlink)
670	&& xev.type == KeyPress) {
671	if (hidden_cursor) {
672	hidden_cursor = 0;
673	want_refresh = 1;	733	want_refresh = 1;
674	}
675	want_keypress_time = 1;
676	}	734	}
677	#endif	735	#endif
678		736
679	#if defined(POINTER_BLANK)	737	if (want_refresh)
680	if ((Options & Opt_pointerBlank)	738	{
681	&& (pointerBlankDelay > 0)) {	739	scr_refresh (refresh_type);
682	if (xev.type == MotionNotify	740	scrollbar_show (1);
683	|| xev.type == ButtonPress
684	|| xev.type == ButtonRelease) {
685	if (hidden_pointer)
686	rxvt_pointer_unblank(aR);
687	want_motion_time = 1;
688	}
689	if (xev.type == KeyPress && hidden_pointer == 0)
690	rxvt_pointer_blank (this);
691	}
692	#endif
693
694	#ifdef USE_XIM	741	#ifdef USE_XIM
695	if (!XFilterEvent (&xev, xev.xany.window))	742	IMSendSpot ();
696	#endif	743	#endif
697	rxvt_process_x_event (this, &xev);	744
698	}	745	}
699	while (XPending (Xdisplay));	746
		747	display->flush ();
700	}	748	}
701		749
702	void	750	void
703	rxvt_term::x_cb (io_watcher &w, short revents)	751	rxvt_term::check_cb (check_watcher &w)
704	{	752	{
705	process_x_events ();	753	SET_R (this);
		754	SET_LOCALE (locale);
706		755
707	flush ();	756	flush ();
		757	}
		758
		759	#ifdef CURSOR_BLINK
		760	void
		761	rxvt_term::cursor_blink_cb (time_watcher &w)
		762	{
		763	hidden_cursor = !hidden_cursor;
		764	want_refresh = 1;
		765
		766	w.start (w.at + BLINK_INTERVAL);
		767	}
		768	#endif
		769
		770	#ifdef TEXT_BLINK
		771	void
		772	rxvt_term::text_blink_cb (time_watcher &w)
		773	{
		774	if (scr_refresh_rend (RS_Blink, RS_Blink))
		775	{
		776	hidden_text = !hidden_text;
		777	want_refresh = 1;
		778	w.start (w.at + TEXT_BLINK_INTERVAL);
		779	}
		780	}
		781	#endif
		782
		783	bool
		784	rxvt_term::pty_fill ()
		785	{
		786	ssize_t n = cmdbuf_endp - cmdbuf_ptr;
		787
		788	memmove (cmdbuf_base, cmdbuf_ptr, n);
		789	cmdbuf_ptr = cmdbuf_base;
		790	cmdbuf_endp = cmdbuf_ptr + n;
		791
		792	n = read (cmd_fd, cmdbuf_endp, BUFSIZ - n);
		793
		794	if (n > 0)
		795	{
		796	cmdbuf_endp += n;
		797	return true;
		798	}
		799	else if (n < 0 && errno != EAGAIN)
		800	destroy ();
		801
		802	return false;
		803	}
		804
		805	void
		806	rxvt_term::pty_cb (io_watcher &w, short revents)
		807	{
		808	SET_R (this);
		809	SET_LOCALE (locale);
		810
		811	if (revents & EVENT_WRITE)
		812	tt_write (0, 0);
		813	else if (revents & EVENT_READ)
		814	{
		815	bool flag = true;
		816
		817	// loop, but don't allow a single term to monopolize us
		818	// the number of loops is fully arbitrary, and thus wrong
		819	while (flag && pty_fill ())
		820	{
		821	if (!seen_input)
		822	{
		823	seen_input = 1;
		824	/* once we know the shell is running, send the screen size. Again! */
		825	tt_winch ();
		826	}
		827
		828	if (cmd_parse ())
		829	break;
		830	}
		831	}
		832	}
		833
		834	bool
		835	rxvt_term::cmd_parse ()
		836	{
		837	bool flag = false;
		838	uint32_t ch = NOCHAR;
		839
		840	for (;;)
		841	{
		842	if (ch == NOCHAR)
		843	ch = next_char ();
		844
		845	if (ch == NOCHAR) // TODO: improve
		846	break;
		847
		848	if (ch >= ' ' || ch == '\t' || ch == '\n' || ch == '\r')
		849	{
		850	/* Read a text string from the input buffer */
		851	uint32_t buf[BUFSIZ];
		852	bool refreshnow = false;
		853	int nlines = 0;
		854	uint32_t *str = buf;
		855
		856	*str++ = ch;
		857
		858	for (;;)
		859	{
		860	ch = next_char ();
		861
		862	if (ch == NOCHAR || (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
		863	break;
		864	else
		865	{
		866	*str++ = ch;
		867
		868	if (ch == '\n')
		869	{
		870	nlines++;
		871	refresh_count++;
		872
		873	if (! (Options & Opt_jumpScroll)
		874	|| (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
		875	{
		876	refreshnow = true;
		877	flag = false;
		878	ch = NOCHAR;
		879	break;
		880	}
		881
		882	// scr_add_lines only works for nlines < TermWin.nrow - 1.
		883	if (nlines >= TermWin.nrow - 1)
		884	{
		885	scr_add_lines (buf, nlines, str - buf);
		886	nlines = 0;
		887	str = buf;
		888	}
		889	}
		890
		891	if (str >= buf + BUFSIZ)
		892	{
		893	ch = NOCHAR;
		894	break;
		895	}
		896	}
		897	}
		898
		899	scr_add_lines (buf, nlines, str - buf);
		900
		901	/*
		902	* If there have been a lot of new lines, then update the screen
		903	* What the heck I'll cheat and only refresh less than every page-full.
		904	* the number of pages between refreshes is refresh_limit, which
		905	* is incremented here because we must be doing flat-out scrolling.
		906	*
		907	* refreshing should be correct for small scrolls, because of the
		908	* time-out
		909	*/
		910	if (refreshnow)
		911	{
		912	if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
		913	refresh_limit++;
		914
		915	scr_refresh (refresh_type);
		916	}
		917
		918	}
		919	else
		920	{
		921	switch (ch)
		922	{
		923	default:
		924	process_nonprinting (ch);
		925	break;
		926	case C0_ESC: /* escape char */
		927	process_escape_seq ();
		928	break;
		929	/*case 0x9b: */ /* CSI */
		930	/* process_csi_seq (); */
		931	}
		932
		933	ch = NOCHAR;
		934	}
		935	}
		936
		937	return flag;
708	}	938	}
709		939
710	// read the next character, currently handles UTF-8	940	// read the next character, currently handles UTF-8
711	// will probably handle all sorts of other stuff in the future	941	// will probably handle all sorts of other stuff in the future
712	uint32_t	942	uint32_t
713	rxvt_term::next_char ()	943	rxvt_term::next_char ()
714	{	944	{
715	struct mbstate &s = mbstate;
716
717	while (cmdbuf_ptr < cmdbuf_endp)	945	while (cmdbuf_ptr < cmdbuf_endp)
718	{	946	{
719	uint8_t ch = *cmdbuf_ptr;	947	if (*cmdbuf_ptr < 0x80) // assume < 0x80 to be ascii ALWAYS (all shift-states etc.) uh-oh
720
721	if (s.cnt)
722	{
723	if ((ch & 0xc0) == 0x80)
724	{
725	cmdbuf_ptr++;
726
727	/* continuation */
728	s.reg = (s.reg << 6) | (ch & 0x7f);
729
730	if (--s.cnt == 0 && s.reg >= 128) /* if !inrange then corruption or Racking */
731	return s.reg;
732
733	continue;
734	}
735	else
736	{
737	s.cnt = 0;
738	return s.orig; /* the _occasional_ non-utf-8 character may slip through... */
739	}
740	}
741
742	if ((ch & 0xc0) == 0xc0)
743	{
744	cmdbuf_ptr++;	948	return *cmdbuf_ptr++;
745		949
746	/* first byte */	950	wchar_t wc;
747	s.orig = ch; /* for broken encodings */	951	size_t len = mbrtowc (&wc, (char *)cmdbuf_ptr, cmdbuf_endp - cmdbuf_ptr, mbstate);
748	s.reg = ch;	952
749	if ((ch & 0xe0) == 0xc0) { s.reg &= 0x1f; s.cnt = 1; }	953	if (len == (size_t)-2)
750	if ((ch & 0xf0) == 0xe0) { s.reg &= 0x0f; s.cnt = 2; }	954	return NOCHAR;
751	if ((ch & 0xf8) == 0xf0) { s.reg &= 0x07; s.cnt = 3; }	955
752	if ((ch & 0xfc) == 0xf8) { s.reg &= 0x03; s.cnt = 4; }	956	if (len == (size_t)-1)
753	if ((ch & 0xfe) == 0xfc) { s.reg &= 0x01; s.cnt = 5; }	957	return *cmdbuf_ptr++; // the _occasional_ latin1 character is allowed to slip through
754	}	958
755	else	959	// assume wchar == unicode
756	{	960	cmdbuf_ptr += len;
757	cmdbuf_ptr++; /* _occasional_ non-utf8 may slip through... */
758	return ch;	961	return wc;
759	}
760	}	962	}
761		963
762	return NOCHAR;	964	return NOCHAR;
763	}	965	}
764		966
765	bool
766	rxvt_term::pty_fill (size_t count)
767	{
768	ssize_t n = cmdbuf_endp - cmdbuf_ptr;
769
770	memmove (cmdbuf_base, cmdbuf_ptr, n);
771	cmdbuf_ptr = cmdbuf_base;
772	cmdbuf_endp = cmdbuf_ptr + n;
773
774	n = read (cmd_fd, cmdbuf_endp, count);
775
776	if (n > 0)
777	{
778	cmdbuf_endp += n;
779	return true;
780	}
781	else if (n < 0 && errno == EAGAIN)
782	return false;
783
784	rxvt_clean_exit();
785	exit(EXIT_FAILURE); /* bad order of events? */
786	}
787
788	void
789	rxvt_term::pty_cb (io_watcher &w, short revents)
790	{
791	while (pty_fill (BUFSIZ - (cmdbuf_endp - cmdbuf_ptr)))
792	{
793	/* once we know the shell is running, send the screen size. Again! */
794	//ch = rxvt_cmd_getc(aR); /* wait for something */
795	//rxvt_tt_winsize(cmd_fd, TermWin.ncol, TermWin.nrow, cmd_pid);
796
797	uint32_t ch = NOCHAR;
798
799	for (;;)
800	{
801	if (ch == NOCHAR)
802	ch = next_char ();
803
804	if (ch == NOCHAR) // TODO: improve
805	break;
806
807	if (ch >= ' ' || ch == '\t' || ch == '\n' || ch == '\r')
808	{
809	/* Read a text string from the input buffer */
810	uint32_t buf[BUFSIZ];
811	bool refreshnow = false;
812	int nlines = 0;
813	uint32_t *str = buf;
814
815	*str++ = ch;
816
817	for (;;)
818	{
819	ch = next_char ();
820
821	if (ch == NOCHAR || (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
822	break;
823	else
824	{
825	*str++ = ch;
826
827	if (ch == '\n')
828	{
829	nlines++;
830	refresh_count++;
831
832	if (!(Options & Opt_jumpScroll)
833	|| (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
834	{
835	refreshnow = true;
836	ch = NOCHAR;
837	break;
838	}
839	}
840
841	if (str >= buf + BUFSIZ)
842	{
843	ch = NOCHAR;
844	break;
845	}
846	}
847	}
848
849	rxvt_scr_add_lines (this, buf, nlines, str - buf);
850
851	/*
852	* If there have been a lot of new lines, then update the screen
853	* What the heck I'll cheat and only refresh less than every page-full.
854	* the number of pages between refreshes is refresh_limit, which
855	* is incremented here because we must be doing flat-out scrolling.
856	*
857	* refreshing should be correct for small scrolls, because of the
858	* time-out
859	*/
860	if (refreshnow)
861	{
862	if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
863	refresh_limit++;
864
865	rxvt_scr_refresh (this, refresh_type);
866	}
867
868	}
869	else
870	{
871	switch (ch)
872	{
873	default:
874	rxvt_process_nonprinting (this, ch);
875	break;
876	case C0_ESC: /* escape char */
877	rxvt_process_escape_seq (this);
878	break;
879	/*case 0x9b: */ /* CSI */
880	/* rxvt_process_csi_seq (this); */
881	}
882
883	ch = NOCHAR;
884	}
885	}
886	}
887
888	flush ();
889	}
890
891	void
892	rxvt_term::flush ()
893	{
894	#ifdef TRANSPARENT
895	if (want_full_refresh)
896	{
897	want_full_refresh = 0;
898	rxvt_scr_clear (this);
899	rxvt_scr_touch (this, False);
900	want_refresh = 1;
901	}
902	#endif
903
904	if (want_refresh)
905	{
906	rxvt_scr_refresh (this, refresh_type);
907	rxvt_scrollbar_show (this, 1);
908	#ifdef USE_XIM
909	rxvt_IMSendSpot (this);
910	#endif
911	}
912
913	XFlush (Xdisplay);
914	}
915
916	/* rxvt_cmd_getc() - Return next input character */	967	/* rxvt_cmd_getc () - Return next input character */
917	/*	968	/*
918	* Return the next input character after first passing any keyboard input	969	* Return the next input character after first passing any keyboard input
919	* to the command.	970	* to the command.
920	*/	971	*/
921	/* INTPROTO */
922	uint32_t	972	uint32_t
923	rxvt_cmd_getc(pR)	973	rxvt_term::cmd_getc ()
924	{	974	{
925	for (;;)	975	for (;;)
926	{	976	{
927	uint32_t c = R->next_char ();	977	uint32_t c = next_char ();
928	if (c != NOCHAR)	978	if (c != NOCHAR)
929	return c;	979	return c;
930		980
931	// incomplete sequences should occur rarely, still, a better solution	981	// incomplete sequences should occur rarely, still, a better solution
932	// would be preferred. either setjmp/longjmp or better design.	982	// would be preferred. either setjmp/longjmp or better design.
933	fcntl (R->cmd_fd, F_SETFL, 0);	983	fcntl (cmd_fd, F_SETFL, 0);
934	R->pty_fill (1);	984	pty_fill ();
935	fcntl (R->cmd_fd, F_SETFL, O_NONBLOCK);	985	fcntl (cmd_fd, F_SETFL, O_NONBLOCK);
		986	}
		987	}
		988
		989	#ifdef POINTER_BLANK
		990	void
		991	rxvt_term::pointer_unblank ()
		992	{
		993	XDefineCursor (display->display, TermWin.vt, TermWin_cursor);
		994	recolour_cursor ();
		995
		996	hidden_pointer = 0;
		997
		998	if (Options & Opt_pointerBlank)
		999	pointer_ev.start (NOW + pointerBlankDelay);
		1000	}
		1001
		1002	void
		1003	rxvt_term::pointer_blank ()
		1004	{
		1005	if (! (Options & Opt_pointerBlank))
		1006	return;
		1007
		1008	XDefineCursor (display->display, TermWin.vt, blank_cursor);
		1009	XFlush (display->display);
		1010
		1011	hidden_pointer = 1;
		1012	}
		1013
		1014	void
		1015	rxvt_term::pointer_cb (time_watcher &w)
		1016	{
		1017	SET_R (this);
		1018	SET_LOCALE (locale);
		1019
		1020	pointer_blank ();
		1021	}
		1022	#endif
		1023
		1024	void
		1025	rxvt_term::mouse_report (XButtonEvent &ev)
		1026	{
		1027	int button_number, key_state = 0;
		1028	int x, y;
		1029
		1030	x = ev.x;
		1031	y = ev.y;
		1032	pixel_position (&x, &y);
		1033
		1034	if (MEvent.button == AnyButton)
936	}	1035	{
		1036	button_number = 3;
		1037	}
		1038	else
		1039	{
		1040	button_number = MEvent.button - Button1;
		1041	/* add 0x3D for wheel events, like xterm does */
		1042	if (button_number >= 3)
		1043	button_number += (64 - 3);
		1044	}
937		1045
938	#define TIMEOUT_USEC 5000	1046	if (PrivateModes & PrivMode_MouseX10)
939	fd_set readfds;	1047	{
940	int quick_timeout, select_res;	1048	/*
941	int want_motion_time, want_keypress_time;	1049	* do not report ButtonRelease
942	struct timeval value;	1050	* no state info allowed
943	#if defined(POINTER_BLANK) || defined(CURSOR_BLINK)	1051	*/
944	struct timeval tp;	1052	key_state = 0;
		1053	if (button_number == 3)
		1054	return;
		1055	}
		1056	else
		1057	{
		1058	/* XTerm mouse reporting needs these values:
		1059	* 4 = Shift
		1060	* 8 = Meta
		1061	* 16 = Control
		1062	* plus will add in our own Double-Click reporting
		1063	* 32 = Double Click
		1064	*/
		1065	key_state = ((MEvent.state & ShiftMask) ? 4 : 0)
		1066	+ ((MEvent.state & ModMetaMask) ? 8 : 0)
		1067	+ ((MEvent.state & ControlMask) ? 16 : 0);
		1068	#ifdef MOUSE_REPORT_DOUBLECLICK
		1069	key_state += ((MEvent.clicks > 1) ? 32 : 0);
945	#endif	1070	#endif
946		1071
947	for (;;) {	1072	}
948	/* loop until we can return something */
949		1073
950	if (R->v_bufstr < R->v_bufptr) /* output any pending chars */	1074	#ifdef DEBUG_MOUSEREPORT
951	rxvt_tt_write(aR_ NULL, 0);	1075	fprintf (stderr, "Mouse [");
952		1076	if (key_state & 16)
953	#if defined(POINTER_BLANK) || defined(CURSOR_BLINK)	1077	fputc ('C', stderr);
954	tp.tv_sec = 0; /* presume == 0 implies time not yet retrieved */	1078	if (key_state & 4)
		1079	fputc ('S', stderr);
		1080	if (key_state & 8)
		1081	fputc ('A', stderr);
		1082	if (key_state & 32)
		1083	fputc ('2', stderr);
		1084	fprintf (stderr, "]: <%d>, %d/%d\n",
		1085	button_number,
		1086	x + 1,
		1087	y + 1);
		1088	#else
		1089	tt_printf ("\033[M%c%c%c",
		1090	(32 + button_number + key_state),
		1091	(32 + x + 1),
		1092	(32 + y + 1));
955	#endif	1093	#endif
		1094	}
		1095
		1096	#ifdef USING_W11LIB
		1097	void
		1098	rxvt_W11_process_x_event (XEvent *ev)
		1099	{
		1100	rxvt_t *r = rxvt_get_r ();
		1101
		1102	x_cb (*ev);
		1103	}
		1104	#endif
		1105
		1106	/*{{{ process an X event */
		1107	void
		1108	rxvt_term::x_cb (XEvent &ev)
		1109	{
		1110	SET_R (this);
		1111	SET_LOCALE (locale);
		1112
956	#if defined(CURSOR_BLINK)	1113	#if defined(CURSOR_BLINK)
957	want_keypress_time = 0;	1114	if ((Options & Opt_cursorBlink) && ev.type == KeyPress)
		1115	{
		1116	if (hidden_cursor)
		1117	{
		1118	hidden_cursor = 0;
		1119	want_refresh = 1;
		1120	}
		1121
		1122	cursor_blink_ev.start (NOW + BLINK_INTERVAL);
		1123	}
958	#endif	1124	#endif
		1125
959	#if defined(POINTER_BLANK)	1126	#if defined(POINTER_BLANK)
960	want_motion_time = 0;	1127	if ((Options & Opt_pointerBlank) && pointerBlankDelay > 0)
961	#endif	1128	{
		1129	if (ev.type == MotionNotify
		1130	|| ev.type == ButtonPress
		1131	|| ev.type == ButtonRelease)
		1132	if (hidden_pointer)
		1133	pointer_unblank ();
962		1134
963	if (XPending (R->Xdisplay))	1135	if (ev.type == KeyPress && hidden_pointer == 0)
		1136	pointer_blank ();
		1137	}
		1138	#endif
		1139
		1140	#ifdef USE_XIM
		1141	if (XFilterEvent (&ev, None))
		1142	return;
		1143	#endif
		1144
		1145	Window unused_root, unused_child;
		1146	int unused_root_x, unused_root_y;
		1147	unsigned int unused_mask;
		1148
		1149	#ifdef DEBUG_X
		1150	const char *const eventnames[] =
		1151	{ /* mason - this matches my system */
		1152	"",
		1153	"",
		1154	"KeyPress",
		1155	"KeyRelease",
		1156	"ButtonPress",
		1157	"ButtonRelease",
		1158	"MotionNotify",
		1159	"EnterNotify",
		1160	"LeaveNotify",
		1161	"FocusIn",
		1162	"FocusOut",
		1163	"KeymapNotify",
		1164	"Expose",
		1165	"GraphicsExpose",
		1166	"NoExpose",
		1167	"VisibilityNotify",
		1168	"CreateNotify",
		1169	"DestroyNotify",
		1170	"UnmapNotify",
		1171	"MapNotify",
		1172	"MapRequest",
		1173	"ReparentNotify",
		1174	"ConfigureNotify",
		1175	"ConfigureRequest",
		1176	"GravityNotify",
		1177	"ResizeRequest",
		1178	"CirculateNotify",
		1179	"CirculateRequest",
		1180	"PropertyNotify",
		1181	"SelectionClear",
		1182	"SelectionRequest",
		1183	"SelectionNotify",
		1184	"ColormapNotify",
		1185	"ClientMessage",
		1186	"MappingNotify"
		1187	};
		1188	#endif
		1189
		1190	#ifdef DEBUG_X
		1191	struct timeval tp;
		1192	struct tm *ltt;
		1193	(void)gettimeofday (&tp, NULL);
		1194	ltt = localtime (& (tp.tv_sec));
		1195	D_X ((stderr, "Event: %-16s %-7s %08lx (%4d-%02d-%02d %02d:%02d:%02d.%.6ld) %s %lu", eventnames[ev.type], (ev.xany.window == TermWin.parent[0] ? "parent" : (ev.xany.window == TermWin.vt ? "vt" : (ev.xany.window == scrollBar.win ? "scroll" : (ev.xany.window == menuBar.win ? "menubar" : "UNKNOWN")))), (ev.xany.window == TermWin.parent[0] ? TermWin.parent[0] : (ev.xany.window == TermWin.vt ? TermWin.vt : (ev.xany.window == scrollBar.win ? scrollBar.win : (ev.xany.window == menuBar.win ? menuBar.win : 0)))), ltt->tm_year + 1900, ltt->tm_mon + 1, ltt->tm_mday, ltt->tm_hour, ltt->tm_min, ltt->tm_sec, tp.tv_usec, ev.xany.send_event ? "S" : " ", ev.xany.serial));
		1196	#endif
		1197
		1198	switch (ev.type)
		1199	{
		1200	case KeyPress:
		1201	lookup_key (ev.xkey);
		1202	break;
		1203
		1204	#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
		1205	case KeyRelease:
		1206	{
		1207	if (! (ev.xkey.state & ControlMask))
		1208	mouse_slip_wheel_speed = 0;
		1209	else
		1210	{
		1211	KeySym ks;
		1212
		1213	ks = XKeycodeToKeysym (display->display, ev.xkey.keycode, 0);
		1214	if (ks == XK_Control_L || ks == XK_Control_R)
		1215	mouse_slip_wheel_speed = 0;
		1216	}
		1217	break;
		1218	}
		1219	#endif
		1220
		1221	case ButtonPress:
		1222	button_press (ev.xbutton);
		1223	break;
		1224
		1225	case ButtonRelease:
		1226	button_release (ev.xbutton);
		1227	break;
		1228
		1229	case ClientMessage:
		1230	if (ev.xclient.format == 32
		1231	&& (Atom)ev.xclient.data.l[0] == xa[XA_WMDELETEWINDOW])
		1232	destroy ();
		1233	#ifdef OFFIX_DND
		1234	/* OffiX Dnd (drag 'n' drop) protocol */
		1235	else if (ev.xclient.message_type == xa[XA_DNDPROTOCOL]
		1236	&& (ev.xclient.data.l[0] == DndFile
		1237	|| ev.xclient.data.l[0] == DndDir
		1238	|| ev.xclient.data.l[0] == DndLink))
964	{	1239	{
965	R->process_x_events ();	1240	/* Get Dnd data */
		1241	Atom ActualType;
		1242	int ActualFormat;
		1243	unsigned char *data;
		1244	unsigned long Size, RemainingBytes;
966		1245
967	/* in case button actions pushed chars to cmdbuf */	1246	XGetWindowProperty (display->display, display->root,
968	if (R->cmdbuf_ptr < R->cmdbuf_endp)	1247	xa[XA_DNDSELECTION],
969	return *R->cmdbuf_ptr++;	1248	0L, 1000000L,
970	}	1249	False, AnyPropertyType,
		1250	&ActualType, &ActualFormat,
		1251	&Size, &RemainingBytes,
		1252	&data);
		1253	XChangeProperty (display->display, display->root,
		1254	XA_CUT_BUFFER0, XA_STRING,
		1255	8, PropModeReplace,
		1256	data, STRLEN (data));
		1257	selection_paste (display->root, XA_CUT_BUFFER0, True);
		1258	XSetInputFocus (display->display, display->root, RevertToNone, CurrentTime);
		1259	}
		1260	#endif /* OFFIX_DND */
		1261	break;
971		1262
		1263	case MappingNotify:
		1264	XRefreshKeyboardMapping (& (ev.xmapping));
		1265	break;
		1266
		1267	/*
		1268	* XXX: this is not the _current_ arrangement
		1269	* Here's my conclusion:
		1270	* If the window is completely unobscured, use bitblt's
		1271	* to scroll. Even then, they're only used when doing partial
		1272	* screen scrolling. When partially obscured, we have to fill
		1273	* in the GraphicsExpose parts, which means that after each refresh,
		1274	* we need to wait for the graphics expose or Noexpose events,
		1275	* which ought to make things real slow!
		1276	*/
		1277	case VisibilityNotify:
		1278	switch (ev.xvisibility.state)
		1279	{
		1280	case VisibilityUnobscured:
		1281	refresh_type = FAST_REFRESH;
		1282	break;
		1283	case VisibilityPartiallyObscured:
		1284	refresh_type = SLOW_REFRESH;
		1285	break;
		1286	default:
		1287	refresh_type = NO_REFRESH;
		1288	break;
		1289	}
		1290	break;
		1291
		1292	case FocusIn:
		1293	if (!TermWin.focus)
		1294	{
		1295	TermWin.focus = 1;
		1296	want_refresh = 1;
		1297	#ifdef USE_XIM
		1298	if (Input_Context != NULL)
		1299	XSetICFocus (Input_Context);
		1300	#endif
972	#if defined(CURSOR_BLINK)	1301	#ifdef CURSOR_BLINK
973	if (want_keypress_time) {	1302	if (Options & Opt_cursorBlink)
974	(void)gettimeofday(&tp, NULL);	1303	cursor_blink_ev.start (NOW + BLINK_INTERVAL);
975	R->lastcursorchange.tv_sec = tp.tv_sec;
976	R->lastcursorchange.tv_usec = tp.tv_usec;
977	}
978	#endif	1304	#endif
979	#if defined(POINTER_BLANK)
980	if (want_motion_time) {
981	if (!tp.tv_sec)
982	(void)gettimeofday(&tp, NULL);
983	R->lastmotion.tv_sec = tp.tv_sec;
984	R->lastmotion.tv_usec = tp.tv_usec;
985	}
986	#endif
987		1305
988	/*	1306	}
989	* the command input buffer is empty and we have no pending X events	1307	break;
990	*/
991	quick_timeout = 0;
992		1308
993	#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)	1309	case FocusOut:
994	if (R->mouse_slip_wheel_speed) {	1310	if (TermWin.focus)
995	quick_timeout = 1;	1311	{
996	if (!R->mouse_slip_wheel_delay--	1312	TermWin.focus = 0;
997	&& rxvt_scr_page(aR_ R->mouse_slip_wheel_speed > 0 ? UP : DN,	1313	want_refresh = 1;
998	abs(R->mouse_slip_wheel_speed))) {	1314	#ifdef USE_XIM
999	R->mouse_slip_wheel_delay = SCROLLBAR_CONTINUOUS_DELAY;	1315	if (Input_Context != NULL)
1000	R->refresh_type |= SMOOTH_REFRESH;	1316	XUnsetICFocus (Input_Context);
1001	R->want_refresh = 1;
1002	}
1003	}
1004	#endif /* MOUSE_WHEEL && MOUSE_SLIP_WHEELING */
1005	#ifdef SELECTION_SCROLLING
1006	if (R->pending_scroll_selection) {
1007	quick_timeout = 1;
1008	if (!R->scroll_selection_delay--
1009	&& rxvt_scr_page(aR_ R->scroll_selection_dir,
1010	R->scroll_selection_lines)) {
1011	rxvt_selection_extend(aR_ R->selection_save_x,
1012	R->selection_save_y, R->selection_save_state);
1013	R->scroll_selection_delay = SCROLLBAR_CONTINUOUS_DELAY;
1014	R->refresh_type |= SMOOTH_REFRESH;
1015	R->want_refresh = 1;
1016	}
1017	}
1018	#endif	1317	#endif
1019	#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING	1318	#ifdef CURSOR_BLINK
1020	if (scrollbar_isUp() || scrollbar_isDn()) {	1319	if (Options & Opt_cursorBlink)
1021	quick_timeout = 1;	1320	cursor_blink_ev.stop ();
1022	if (!R->scroll_arrow_delay--	1321	hidden_cursor = 0;
1023	&& rxvt_scr_page(aR_ scrollbar_isUp() ? UP : DN, 1)) {	1322	#endif
1024	R->scroll_arrow_delay = SCROLLBAR_CONTINUOUS_DELAY;
1025	R->refresh_type |= SMOOTH_REFRESH;
1026	R->want_refresh = 1;
1027	}
1028	}
1029	#endif /* NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING */
1030		1323
1031	FD_ZERO(&readfds);	1324	}
1032	FD_SET(R->cmd_fd, &readfds);	1325	break;
1033	FD_SET(R->Xfd, &readfds);
1034	value.tv_usec = TIMEOUT_USEC;
1035	value.tv_sec = 0;
1036		1326
1037	if (!R->TermWin.mapped)	1327	case ConfigureNotify:
1038	quick_timeout = 0;	1328	if (ev.xconfigure.window == TermWin.parent[0])
1039	else {	1329	{
1040	quick_timeout |= R->want_refresh;	1330	int height, width;
		1331
		1332	do
		1333	{ /* Wrap lots of configures into one */
		1334	width = ev.xconfigure.width;
		1335	height = ev.xconfigure.height;
		1336	D_SIZE ((stderr, "Size: ConfigureNotify: %4d x %4d", width, height));
		1337	}
		1338	while (XCheckTypedWindowEvent (display->display, ev.xconfigure.window, ConfigureNotify, &ev));
		1339
		1340	if (szHint.width != width || szHint.height != height)
		1341	{
		1342	D_SIZE ((stderr, "Size: Resizing from: %4d x %4d", szHint.width, szHint.height));
		1343	resize_all_windows (width, height, 1);
		1344	}
		1345	#ifdef DEBUG_SIZE
		1346	else
		1347	{
		1348	D_SIZE ((stderr, "Size: Not resizing"));
		1349	}
		1350	#endif
		1351	#ifdef TRANSPARENT /* XXX: maybe not needed - leave in for now */
		1352	if (Options & Opt_transparent)
		1353	{
		1354	check_our_parents ();
		1355	if (am_transparent)
		1356	want_full_refresh = 1;
		1357	}
		1358	#endif
		1359
		1360	}
		1361	break;
		1362
		1363	case SelectionClear:
		1364	display->set_selection_owner (0);
		1365	break;
		1366
		1367	case SelectionNotify:
		1368	if (selection_wait == Sel_normal)
		1369	selection_paste (ev.xselection.requestor,
		1370	ev.xselection.property, True);
		1371	break;
		1372
		1373	case SelectionRequest:
		1374	selection_send (ev.xselectionrequest);
		1375	break;
		1376
		1377	case UnmapNotify:
		1378	TermWin.mapped = 0;
		1379	#ifdef TEXT_BLINK
		1380	text_blink_ev.stop ();
		1381	#endif
		1382	break;
		1383
		1384	case MapNotify:
		1385	TermWin.mapped = 1;
		1386	#ifdef TEXT_BLINK
		1387	text_blink_ev.start (NOW + TEXT_BLINK_INTERVAL);
		1388	#endif
		1389	break;
		1390
1041	#ifdef TRANSPARENT	1391	#ifdef TRANSPARENT
1042	quick_timeout |= R->want_full_refresh;
1043	#endif
1044	}
1045
1046	#if defined(POINTER_BLANK) || defined(CURSOR_BLINK)
1047	{
1048	int set_quick_timeout = 0;
1049	long csdiff, psdiff;
1050
1051	#define BLINK_TIME 500000L
1052	csdiff = psdiff = 60000000L; /* or, say, LONG_MAX */
1053	# if defined(CURSOR_BLINK)
1054	if (R->Options & Opt_cursorBlink) {
1055	if (!tp.tv_sec) /* didn't get it before so get it now */
1056	(void)gettimeofday(&tp, NULL);
1057
1058	csdiff = (tp.tv_sec - R->lastcursorchange.tv_sec) * 1000000L
1059	+ tp.tv_usec - R->lastcursorchange.tv_usec;
1060	if (csdiff > BLINK_TIME) { /* XXX: settable blink times */
1061	R->lastcursorchange.tv_sec = tp.tv_sec;
1062	R->lastcursorchange.tv_usec = tp.tv_usec;
1063	R->hidden_cursor = !R->hidden_cursor;
1064	csdiff = 0;
1065	} else
1066	csdiff = BLINK_TIME - csdiff;
1067	set_quick_timeout = 1;
1068	}
1069	# endif
1070	# if defined(POINTER_BLANK)
1071	/*
1072	* If we haven't moved the pointer for a while
1073	*/
1074	if ((R->Options & Opt_pointerBlank)
1075	&& (R->pointerBlankDelay > 0)
1076	&& (R->hidden_pointer == 0)) {
1077	long pdelay;
1078
1079	if (!tp.tv_sec) /* didn't get it before so get it now */
1080	(void)gettimeofday(&tp, NULL);
1081	psdiff = (tp.tv_sec - R->lastmotion.tv_sec) * 1000000L
1082	+ tp.tv_usec - R->lastmotion.tv_usec;
1083	pdelay = R->pointerBlankDelay * 1000000L;
1084	if (psdiff >= pdelay)
1085	rxvt_pointer_blank(aR);
1086	else {
1087	set_quick_timeout = 1;
1088	psdiff = pdelay - psdiff;
1089	}
1090	}
1091	# endif
1092	if (!quick_timeout && set_quick_timeout) {
1093	MIN_IT(csdiff, psdiff);
1094	value.tv_sec = csdiff / 1000000L;
1095	value.tv_usec = csdiff % 1000000L;
1096	quick_timeout = 1;
1097	}
1098	}
1099	#endif
1100
1101	if ((select_res = select(R->num_fds, &readfds, NULL, NULL,
1102	(quick_timeout ? &value : NULL))) == 0) {
1103	/* select statement timed out - we're not hard and fast scrolling */
1104	R->refresh_limit = 1;
1105	}
1106	#if defined(CURSOR_BLINK)
1107	if (R->Options & Opt_cursorBlink)
1108	R->want_refresh = 1;
1109	#endif
1110	}
1111	}
1112
1113	/* EXTPROTO */
1114	void
1115	rxvt_pointer_unblank(pR)
1116	{
1117	XDefineCursor(R->Xdisplay, R->TermWin.vt, R->TermWin_cursor);
1118	rxvt_recolour_cursor(aR);
1119	#ifdef POINTER_BLANK
1120	R->hidden_pointer = 0;
1121	if (R->pointerBlankDelay > 0) {
1122	struct timeval tp;
1123
1124	(void)gettimeofday(&tp, NULL);
1125	R->lastmotion.tv_sec = tp.tv_sec;
1126	R->lastmotion.tv_usec = tp.tv_usec;
1127	}
1128	#endif
1129	}
1130
1131	#ifdef POINTER_BLANK
1132	/* INTPROTO */
1133	void
1134	rxvt_pointer_blank(pR)
1135	{
1136	XDefineCursor(R->Xdisplay, R->TermWin.vt, R->pointer_blank);
1137	XFlush(R->Xdisplay);
1138	R->hidden_pointer = 1;
1139	}
1140	#endif
1141
1142	/* INTPROTO */
1143	void
1144	rxvt_mouse_report(pR_ const XButtonEvent *ev)
1145	{
1146	int button_number, key_state = 0;
1147	int x, y;
1148
1149	x = ev->x;
1150	y = ev->y;
1151	rxvt_pixel_position(aR_ &x, &y);
1152
1153	if (R->MEvent.button == AnyButton) {
1154	button_number = 3;
1155	} else {
1156	button_number = R->MEvent.button - Button1;
1157	/* add 0x3D for wheel events, like xterm does */
1158	if (button_number >= 3)
1159	button_number += (64 - 3);
1160	}
1161
1162	if (R->PrivateModes & PrivMode_MouseX10) {
1163	/*
1164	* do not report ButtonRelease
1165	* no state info allowed
1166	*/
1167	key_state = 0;
1168	if (button_number == 3)
1169	return;
1170	} else {
1171	/* XTerm mouse reporting needs these values:
1172	* 4 = Shift
1173	* 8 = Meta
1174	* 16 = Control
1175	* plus will add in our own Double-Click reporting
1176	* 32 = Double Click
1177	*/
1178	key_state = ((R->MEvent.state & ShiftMask) ? 4 : 0)
1179	+ ((R->MEvent.state & R->ModMetaMask) ? 8 : 0)
1180	+ ((R->MEvent.state & ControlMask) ? 16 : 0);
1181	#ifdef MOUSE_REPORT_DOUBLECLICK
1182	key_state += ((R->MEvent.clicks > 1) ? 32 : 0);
1183	#endif
1184	}
1185
1186	#ifdef DEBUG_MOUSEREPORT
1187	fprintf(stderr, "Mouse [");
1188	if (key_state & 16)
1189	fputc('C', stderr);
1190	if (key_state & 4)
1191	fputc('S', stderr);
1192	if (key_state & 8)
1193	fputc('A', stderr);
1194	if (key_state & 32)
1195	fputc('2', stderr);
1196	fprintf(stderr, "]: <%d>, %d/%d\n",
1197	button_number,
1198	x + 1,
1199	y + 1);
1200	#else
1201	rxvt_tt_printf(aR_ "\033[M%c%c%c",
1202	(32 + button_number + key_state),
1203	(32 + x + 1),
1204	(32 + y + 1));
1205	#endif
1206	}
1207
1208	#ifdef USING_W11LIB
1209	/* EXTPROTO */
1210	void
1211	rxvt_W11_process_x_event(XEvent *ev)
1212	{
1213	rxvt_t *r = rxvt_get_r();
1214
1215	rxvt_process_x_event(aR_ ev);
1216	}
1217	#endif
1218
1219	/*{{{ process an X event */
1220	/* INTPROTO */
1221	void
1222	rxvt_process_x_event(pR_ XEvent *ev)
1223	{
1224	int i, want_timeout;
1225	Window unused_root, unused_child;
1226	int unused_root_x, unused_root_y;
1227	unsigned int unused_mask;
1228	struct timeval tp;
1229
1230	#ifdef DEBUG_X
1231	const char *const eventnames[] =
1232	{ /* mason - this matches my system */
1233	"",
1234	"",
1235	"KeyPress",
1236	"KeyRelease",
1237	"ButtonPress",
1238	"ButtonRelease",
1239	"MotionNotify",
1240	"EnterNotify",
1241	"LeaveNotify",
1242	"FocusIn",
1243	"FocusOut",
1244	"KeymapNotify",
1245	"Expose",
1246	"GraphicsExpose",
1247	"NoExpose",
1248	"VisibilityNotify",
1249	"CreateNotify",
1250	"DestroyNotify",
1251	"UnmapNotify",
1252	"MapNotify",
1253	"MapRequest",
1254	"ReparentNotify",
1255	"ConfigureNotify",
1256	"ConfigureRequest",
1257	"GravityNotify",
1258	"ResizeRequest",
1259	"CirculateNotify",
1260	"CirculateRequest",
1261	"PropertyNotify",
1262	"SelectionClear",
1263	"SelectionRequest",
1264	"SelectionNotify",
1265	"ColormapNotify",
1266	"ClientMessage",
1267	"MappingNotify"
1268	};
1269	struct tm *ltt;
1270	#endif
1271
1272	/*
1273	* check if we need to get the time for any timeouts
1274	*/
1275
1276	for (i = NUM_TIMEOUTS; i--; )
1277	if (R->timeout[i].tv_sec) {
1278	want_timeout = 1;
1279	break;
1280	}
1281
1282	#ifndef DEBUG_X
1283	if (want_timeout)
1284	#endif
1285	(void)gettimeofday(&tp, NULL);
1286
1287	#ifdef DEBUG_X
1288	ltt = localtime(&(tp.tv_sec));
1289	D_X((stderr, "Event: %-16s %-7s %08lx (%4d-%02d-%02d %02d:%02d:%02d.%.6ld) %s %lu", eventnames[ev->type], (ev->xany.window == R->TermWin.parent[0] ? "parent" : (ev->xany.window == R->TermWin.vt ? "vt" : (ev->xany.window == R->scrollBar.win ? "scroll" : (ev->xany.window == R->menuBar.win ? "menubar" : "UNKNOWN")))), (ev->xany.window == R->TermWin.parent[0] ? R->TermWin.parent[0] : (ev->xany.window == R->TermWin.vt ? R->TermWin.vt : (ev->xany.window == R->scrollBar.win ? R->scrollBar.win : (ev->xany.window == R->menuBar.win ? R->menuBar.win : 0)))), ltt->tm_year + 1900, ltt->tm_mon + 1, ltt->tm_mday, ltt->tm_hour, ltt->tm_min, ltt->tm_sec, tp.tv_usec, ev->xany.send_event ? "S" : " ", ev->xany.serial));
1290	#endif
1291
1292	/* X event timeouts */
1293	if (want_timeout)
1294	for (i = NUM_TIMEOUTS; i--; ) {
1295	if (R->timeout[i].tv_sec == 0)
1296	continue;
1297	if ((tp.tv_sec < R->timeout[i].tv_sec)
1298	|| (tp.tv_sec == R->timeout[i].tv_sec
1299	&& tp.tv_usec < R->timeout[i].tv_usec))
1300	continue;
1301	R->timeout[i].tv_sec = 0;
1302	switch(i) {
1303	case TIMEOUT_INCR:
1304	rxvt_print_error("data loss: timeout on INCR selection paste");
1305	R->selection_wait = Sel_none;
1306	break;
1307	default:
1308	break;
1309	}
1310	}
1311
1312	switch (ev->type) {
1313	case KeyPress:
1314	rxvt_lookup_key(aR_ (XKeyEvent *)ev);
1315	break;
1316
1317	#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
1318	case KeyRelease:
1319	{
1320	if (!(ev->xkey.state & ControlMask))
1321	R->mouse_slip_wheel_speed = 0;
1322	else {
1323	KeySym ks;
1324
1325	ks = XKeycodeToKeysym(R->Xdisplay, ev->xkey.keycode, 0);
1326	if (ks == XK_Control_L || ks == XK_Control_R)
1327	R->mouse_slip_wheel_speed = 0;
1328	}
1329	break;
1330	}
1331	#endif
1332
1333	case ButtonPress:
1334	rxvt_button_press(aR_ (XButtonEvent *)ev);
1335	break;
1336
1337	case ButtonRelease:
1338	rxvt_button_release(aR_ (XButtonEvent *)ev);
1339	break;
1340
1341	case ClientMessage:
1342	if (ev->xclient.format == 32
1343	&& (Atom)ev->xclient.data.l[0] == R->xa[XA_WMDELETEWINDOW])
1344	exit(EXIT_SUCCESS);
1345	#ifdef OFFIX_DND
1346	/* OffiX Dnd (drag 'n' drop) protocol */
1347	if (ev->xclient.message_type == R->xa[XA_DNDPROTOCOL]
1348	&& (ev->xclient.data.l[0] == DndFile
1349	|| ev->xclient.data.l[0] == DndDir
1350	|| ev->xclient.data.l[0] == DndLink)) {
1351	/* Get Dnd data */
1352	Atom ActualType;
1353	int ActualFormat;
1354	unsigned char *data;
1355	unsigned long Size, RemainingBytes;
1356
1357	XGetWindowProperty(R->Xdisplay, Xroot,
1358	R->xa[XA_DNDSELECTION],
1359	0L, 1000000L,
1360	False, AnyPropertyType,
1361	&ActualType, &ActualFormat,
1362	&Size, &RemainingBytes,
1363	&data);
1364	XChangeProperty(R->Xdisplay, Xroot,
1365	XA_CUT_BUFFER0, XA_STRING,
1366	8, PropModeReplace,
1367	data, STRLEN(data));
1368	rxvt_selection_paste(aR_ Xroot, XA_CUT_BUFFER0, True);
1369	XSetInputFocus(R->Xdisplay, Xroot, RevertToNone, CurrentTime);
1370	}
1371	#endif /* OFFIX_DND */
1372	break;
1373
1374	case MappingNotify:
1375	XRefreshKeyboardMapping(&(ev->xmapping));
1376	break;
1377
1378	/*
1379	* XXX: this is not the _current_ arrangement
1380	* Here's my conclusion:
1381	* If the window is completely unobscured, use bitblt's
1382	* to scroll. Even then, they're only used when doing partial
1383	* screen scrolling. When partially obscured, we have to fill
1384	* in the GraphicsExpose parts, which means that after each refresh,
1385	* we need to wait for the graphics expose or Noexpose events,
1386	* which ought to make things real slow!
1387	*/
1388	case VisibilityNotify:
1389	switch (ev->xvisibility.state) {
1390	case VisibilityUnobscured:
1391	R->refresh_type = FAST_REFRESH;
1392	break;
1393	case VisibilityPartiallyObscured:
1394	R->refresh_type = SLOW_REFRESH;
1395	break;
1396	default:
1397	R->refresh_type = NO_REFRESH;
1398	break;
1399	}
1400	break;
1401
1402	case FocusIn:
1403	if (!R->TermWin.focus) {
1404	R->TermWin.focus = 1;
1405	R->want_refresh = 1;
1406	#ifdef USE_XIM
1407	if (R->Input_Context != NULL)
1408	XSetICFocus(R->Input_Context);
1409	#endif
1410	}
1411	break;
1412
1413	case FocusOut:
1414	if (R->TermWin.focus) {
1415	R->TermWin.focus = 0;
1416	R->want_refresh = 1;
1417	#ifdef USE_XIM
1418	if (R->Input_Context != NULL)
1419	XUnsetICFocus(R->Input_Context);
1420	#endif
1421	}
1422	break;
1423
1424	case ConfigureNotify:
1425	if (ev->xconfigure.window == R->TermWin.parent[0]) {
1426	int height, width;
1427
1428	do { /* Wrap lots of configures into one */
1429	width = ev->xconfigure.width;
1430	height = ev->xconfigure.height;
1431	D_SIZE((stderr, "Size: ConfigureNotify: %4d x %4d", width, height));
1432	} while (XCheckTypedWindowEvent(R->Xdisplay, ev->xconfigure.window,
1433	ConfigureNotify, ev));
1434	if (R->szHint.width != width || R->szHint.height != height) {
1435	D_SIZE((stderr, "Size: Resizing from: %4d x %4d", R->szHint.width, R->szHint.height));
1436	rxvt_resize_all_windows(aR_ (unsigned int)width,
1437	(unsigned int)height, 1);
1438	}
1439	#ifdef DEBUG_SIZE
1440	else {
1441	D_SIZE((stderr, "Size: Not resizing"));
1442	}
1443	#endif
1444	#ifdef TRANSPARENT /* XXX: maybe not needed - leave in for now */
1445	if (R->Options & Opt_transparent) {
1446	rxvt_check_our_parents(aR);
1447	if (R->am_transparent)
1448	R->want_full_refresh = 1;
1449	}
1450	#endif
1451	}
1452	break;
1453
1454	case SelectionClear:
1455	rxvt_selection_clear(aR);
1456	break;
1457
1458	case SelectionNotify:
1459	if (R->selection_wait == Sel_normal)
1460	rxvt_selection_paste(aR_ ev->xselection.requestor,
1461	ev->xselection.property, True);
1462	break;
1463
1464	case SelectionRequest:
1465	rxvt_selection_send(aR_ &(ev->xselectionrequest));
1466	break;
1467
1468	case UnmapNotify:
1469	R->TermWin.mapped = 0;
1470	break;
1471
1472	case MapNotify:
1473	R->TermWin.mapped = 1;
1474	break;
1475
1476	case PropertyNotify:
1477	if (ev->xproperty.atom == R->xa[XA_VT_SELECTION]) {
1478	if (ev->xproperty.state == PropertyNewValue)
1479	rxvt_selection_property(aR_ ev->xproperty.window,
1480	ev->xproperty.atom);
1481	break;
1482	}
1483	#ifdef TRANSPARENT
1484	/*
1485	* if user used some Esetroot compatible prog to set the root bg,
1486	* use the property to determine the pixmap. We use it later on.
1487	*/
1488	if (R->xa[XA_XROOTPMAPID] == 0)
1489	R->xa[XA_XROOTPMAPID] = XInternAtom(R->Xdisplay,
1490	"_XROOTPMAP_ID", False);
1491	if (ev->xproperty.atom != R->xa[XA_XROOTPMAPID])
1492	break;
1493	/* FALLTHROUGH */
1494	case ReparentNotify:	1392	case ReparentNotify:
1495	if ((R->Options & Opt_transparent) && rxvt_check_our_parents(aR)) {	1393	rootwin_cb (ev);
1496	if (R->am_transparent)	1394	break;
1497	R->want_full_refresh = 1;
1498	}
1499	#endif /* TRANSPARENT */	1395	#endif /* TRANSPARENT */
1500	break;
1501		1396
1502	case GraphicsExpose:	1397	case GraphicsExpose:
1503	case Expose:	1398	case Expose:
1504	if (ev->xany.window == R->TermWin.vt) {	1399	if (ev.xany.window == TermWin.vt)
		1400	{
1505	#ifdef NO_SLOW_LINK_SUPPORT	1401	#ifdef NO_SLOW_LINK_SUPPORT
1506	rxvt_scr_expose(aR_ ev->xexpose.x, ev->xexpose.y,	1402	scr_expose (ev.xexpose.x, ev.xexpose.y,
1507	ev->xexpose.width, ev->xexpose.height, False);	1403	ev.xexpose.width, ev.xexpose.height, False);
1508	#else	1404	#else
1509	// don't understand this, so commented it out	1405	// don't understand this, so commented it out
1510	rxvt_scr_expose(aR_ ev->xexpose.x, ev->xexpose.y,	1406	scr_expose (ev.xexpose.x, ev.xexpose.y,
1511	ev->xexpose.width, ev->xexpose.height, False);	1407	ev.xexpose.width, ev.xexpose.height, False);
1512	//rxvt_scr_expose(aR_ ev->xexpose.x, 0,	1408	//scr_expose (ev.xexpose.x, 0,
1513	// ev->xexpose.width, R->TermWin.height, False);	1409	// ev.xexpose.width, TermWin.height, False);
1514	#endif	1410	#endif
1515	R->want_refresh = 1;	1411	want_refresh = 1;
1516	} else {	1412	}
1517	XEvent unused_xevent;	1413	else
		1414	{
		1415	XEvent unused_event;
1518		1416
1519	while (XCheckTypedWindowEvent(R->Xdisplay, ev->xany.window,	1417	while (XCheckTypedWindowEvent (display->display, ev.xany.window,
1520	Expose,	1418	Expose,
1521	&unused_xevent)) ;	1419	&unused_event)) ;
1522	while (XCheckTypedWindowEvent(R->Xdisplay, ev->xany.window,	1420	while (XCheckTypedWindowEvent (display->display, ev.xany.window,
1523	GraphicsExpose,	1421	GraphicsExpose,
1524	&unused_xevent)) ;	1422	&unused_event)) ;
1525	if (isScrollbarWindow(ev->xany.window)) {	1423	if (isScrollbarWindow (ev.xany.window))
1526	scrollbar_setIdle();	1424	{
1527	rxvt_scrollbar_show(aR_ 0);	1425	scrollBar.setIdle ();
1528	}	1426	scrollbar_show (0);
		1427	}
1529	#ifdef MENUBAR	1428	#ifdef MENUBAR
1530	if (menubar_visible(aR) && isMenuBarWindow(ev->xany.window))	1429	if (menubar_visible () && isMenuBarWindow (ev.xany.window))
1531	rxvt_menubar_expose(aR);	1430	menubar_expose ();
1532	#endif	1431	#endif
1533	#ifdef RXVT_GRAPHICS	1432	}
1534	rxvt_Gr_expose(aR_ ev->xany.window);	1433	break;
1535	#endif
1536	}
1537	break;
1538		1434
1539	case MotionNotify:	1435	case MotionNotify:
1540	#ifdef POINTER_BLANK	1436	#ifdef POINTER_BLANK
1541	if (R->hidden_pointer)	1437	if (hidden_pointer)
1542	rxvt_pointer_unblank(aR);	1438	pointer_unblank ();
1543	#endif	1439	#endif
1544	#if MENUBAR	1440	#if MENUBAR
1545	if (isMenuBarWindow(ev->xany.window)) {	1441	if (isMenuBarWindow (ev.xany.window))
1546	rxvt_menubar_control(aR_ &(ev->xbutton));	1442	{
1547	break;	1443	menubar_control (ev.xbutton);
1548	}	1444	break;
		1445	}
1549	#endif	1446	#endif
1550	if ((R->PrivateModes & PrivMode_mouse_report) && !(R->bypass_keystate))	1447	if ((PrivateModes & PrivMode_mouse_report) && ! (bypass_keystate))
1551	break;	1448	break;
1552		1449
1553	if (ev->xany.window == R->TermWin.vt) {	1450	if (ev.xany.window == TermWin.vt)
		1451	{
1554	if ((ev->xbutton.state & (Button1Mask | Button3Mask))) {	1452	if ((ev.xbutton.state & (Button1Mask | Button3Mask)))
1555	while (XCheckTypedWindowEvent(R->Xdisplay, R->TermWin.vt,	1453	{
1556	MotionNotify, ev)) ;	1454	while (XCheckTypedWindowEvent (display->display, TermWin.vt, MotionNotify, &ev))
1557	XQueryPointer(R->Xdisplay, R->TermWin.vt,	1455	;
1558	&unused_root, &unused_child,	1456
1559	&unused_root_x, &unused_root_y,	1457	XQueryPointer (display->display, TermWin.vt,
1560	&(ev->xbutton.x), &(ev->xbutton.y),	1458	&unused_root, &unused_child,
1561	&unused_mask);	1459	&unused_root_x, &unused_root_y,
		1460	& (ev.xbutton.x), & (ev.xbutton.y),
		1461	&unused_mask);
1562	#ifdef MOUSE_THRESHOLD	1462	#ifdef MOUSE_THRESHOLD
1563	/* deal with a `jumpy' mouse */	1463	/* deal with a `jumpy' mouse */
1564	if ((ev->xmotion.time - R->MEvent.time) > MOUSE_THRESHOLD) {	1464	if ((ev.xmotion.time - MEvent.time) > MOUSE_THRESHOLD)
		1465	{
1565	#endif	1466	#endif
1566	rxvt_selection_extend(aR_ (ev->xbutton.x), (ev->xbutton.y),	1467	selection_extend ((ev.xbutton.x), (ev.xbutton.y),
1567	(ev->xbutton.state & Button3Mask) ? 2 : 0);	1468	(ev.xbutton.state & Button3Mask) ? 2 : 0);
1568	#ifdef SELECTION_SCROLLING	1469	#ifdef SELECTION_SCROLLING
1569	if (ev->xbutton.y<R->TermWin.int_bwidth ||	1470	if (ev.xbutton.y < TermWin.int_bwidth
1570	Pixel2Row(ev->xbutton.y)>(R->TermWin.nrow-1)) {	1471	|| Pixel2Row (ev.xbutton.y) > (TermWin.nrow-1))
1571	int dist;	1472	{
1572		1473	int dist;
1573	R->pending_scroll_selection=1;	1474
1574		1475	pending_scroll_selection=1;
		1476
1575	/* don't clobber the current delay if we are	1477	/* don't clobber the current delay if we are
1576	* already in the middle of scrolling.	1478	* already in the middle of scrolling.
1577	*/	1479	*/
1578	if (R->scroll_selection_delay<=0)	1480	if (scroll_selection_delay<=0)
1579	R->scroll_selection_delay=SCROLLBAR_CONTINUOUS_DELAY;	1481	scroll_selection_delay=SCROLLBAR_CONTINUOUS_DELAY;
1580		1482
1581	/* save the event params so we can highlight	1483	/* save the event params so we can highlight
1582	* the selection in the pending-scroll loop	1484	* the selection in the pending-scroll loop
1583	*/	1485	*/
1584	R->selection_save_x=ev->xbutton.x;	1486	selection_save_x=ev.xbutton.x;
1585	R->selection_save_y=ev->xbutton.y;	1487	selection_save_y=ev.xbutton.y;
1586	R->selection_save_state=	1488	selection_save_state=
1587	(ev->xbutton.state & Button3Mask) ? 2 : 0;	1489	(ev.xbutton.state & Button3Mask) ? 2 : 0;
1588		1490
1589	/* calc number of lines to scroll */	1491	/* calc number of lines to scroll */
1590	if (ev->xbutton.y<R->TermWin.int_bwidth) {	1492	if (ev.xbutton.y<TermWin.int_bwidth)
1591	R->scroll_selection_dir = UP;	1493	{
1592	dist = R->TermWin.int_bwidth - ev->xbutton.y;	1494	scroll_selection_dir = UP;
1593	}	1495	dist = TermWin.int_bwidth - ev.xbutton.y;
1594	else {	1496	}
1595	R->scroll_selection_dir = DN;	1497	else
1596	dist = ev->xbutton.y -	1498	{
1597	(R->TermWin.int_bwidth + R->TermWin.height);	1499	scroll_selection_dir = DN;
1598	}	1500	dist = ev.xbutton.y -
1599	R->scroll_selection_lines=(Pixel2Height(dist)/	1501	(TermWin.int_bwidth + TermWin.height);
1600	SELECTION_SCROLL_LINE_SPEEDUP)+1;	1502	}
1601	MIN_IT(R->scroll_selection_lines,	1503	scroll_selection_lines= (Pixel2Height (dist)/
1602	SELECTION_SCROLL_MAX_LINES);	1504	SELECTION_SCROLL_LINE_SPEEDUP)+1;
1603	}	1505	MIN_IT (scroll_selection_lines,
1604	else {	1506	SELECTION_SCROLL_MAX_LINES);
		1507	}
		1508	else
		1509	{
1605	/* we are within the text window, so we	1510	/* we are within the text window, so we
1606	* shouldn't be scrolling	1511	* shouldn't be scrolling
1607	*/	1512	*/
1608	R->pending_scroll_selection = 0;	1513	pending_scroll_selection = 0;
1609	}	1514	}
1610	#endif	1515	#endif
1611	#ifdef MOUSE_THRESHOLD	1516	#ifdef MOUSE_THRESHOLD
1612	}	1517
		1518	}
1613	#endif	1519	#endif
		1520
		1521	}
		1522	}
		1523	else if (isScrollbarWindow (ev.xany.window) && scrollbar_isMotion ())
		1524	{
		1525	while (XCheckTypedWindowEvent (display->display, scrollBar.win,
		1526	MotionNotify, &ev)) ;
		1527	XQueryPointer (display->display, scrollBar.win,
		1528	&unused_root, &unused_child,
		1529	&unused_root_x, &unused_root_y,
		1530	& (ev.xbutton.x), & (ev.xbutton.y),
		1531	&unused_mask);
		1532	scr_move_to (scrollbar_position (ev.xbutton.y) - csrO,
		1533	scrollbar_size ());
		1534	scr_refresh (refresh_type);
		1535	refresh_limit = 0;
		1536	scrollbar_show (1);
		1537	}
		1538	break;
1614	}	1539	}
1615	} else if (isScrollbarWindow(ev->xany.window) && scrollbar_isMotion()) {
1616	while (XCheckTypedWindowEvent(R->Xdisplay, R->scrollBar.win,
1617	MotionNotify, ev)) ;
1618	XQueryPointer(R->Xdisplay, R->scrollBar.win,
1619	&unused_root, &unused_child,
1620	&unused_root_x, &unused_root_y,
1621	&(ev->xbutton.x), &(ev->xbutton.y),
1622	&unused_mask);
1623	rxvt_scr_move_to(aR_ scrollbar_position(ev->xbutton.y) - R->csrO,
1624	scrollbar_size());
1625	rxvt_scr_refresh(aR_ R->refresh_type);
1626	R->refresh_limit = 0;
1627	rxvt_scrollbar_show(aR_ 1);
1628	}
1629	break;
1630	}
1631	}	1540	}
1632		1541
1633	/* INTPROTO */
1634	void	1542	void
1635	rxvt_button_press(pR_ XButtonEvent *ev)	1543	rxvt_term::rootwin_cb (XEvent &ev)
1636	{	1544	{
1637	int reportmode = 0, clickintime;	1545	SET_R (this);
		1546	SET_LOCALE (locale);
1638		1547
1639	R->bypass_keystate = ev->state & (R->ModMetaMask | ShiftMask);	1548	switch (ev.type)
1640	if (!R->bypass_keystate)
1641	reportmode = !!(R->PrivateModes & PrivMode_mouse_report);
1642	/*
1643	* VT window processing of button press
1644	*/
1645	if (ev->window == R->TermWin.vt)
1646	{	1549	{
1647	#if RXVT_GRAPHICS	1550	case PropertyNotify:
1648	if (ev->subwindow != None)	1551	if (ev.xproperty.atom == xa[XA_VT_SELECTION])
1649	rxvt_Gr_ButtonPress(ev->x, ev->y);
1650	else
1651	#endif
1652	{	1552	{
		1553	if (ev.xproperty.state == PropertyNewValue)
		1554	selection_property (ev.xproperty.window, ev.xproperty.atom);
		1555	break;
		1556	}
		1557	#ifdef TRANSPARENT
		1558	else
		1559	{
		1560	/*
		1561	* if user used some Esetroot compatible prog to set the root bg,
		1562	* use the property to determine the pixmap. We use it later on.
		1563	*/
		1564	if (xa[XA_XROOTPMAPID] == 0)
		1565	xa[XA_XROOTPMAPID] = XInternAtom (display->display, "_XROOTPMAP_ID", False);
		1566
		1567	if (ev.xproperty.atom != xa[XA_XROOTPMAPID])
		1568	return;
		1569	}
		1570
		1571	/* FALLTHROUGH */
		1572	case ReparentNotify:
		1573	if ((Options & Opt_transparent) && check_our_parents ())
		1574	if (am_transparent)
		1575	want_full_refresh = 1;
		1576	break;
		1577	#endif
		1578	}
		1579	}
		1580
		1581	void
		1582	rxvt_term::button_press (XButtonEvent &ev)
		1583	{
		1584	int reportmode = 0, clickintime;
		1585
		1586	bypass_keystate = ev.state & (ModMetaMask | ShiftMask);
		1587	if (!bypass_keystate)
		1588	reportmode = !! (PrivateModes & PrivMode_mouse_report);
		1589	/*
		1590	* VT window processing of button press
		1591	*/
		1592	if (ev.window == TermWin.vt)
		1593	{
1653	clickintime = ev->time - R->MEvent.time < MULTICLICK_TIME;	1594	clickintime = ev.time - MEvent.time < MULTICLICK_TIME;
1654	if (reportmode)	1595	if (reportmode)
1655	{	1596	{
1656	/* mouse report from vt window */	1597	/* mouse report from vt window */
1657	/* save the xbutton state (for ButtonRelease) */	1598	/* save the xbutton state (for ButtonRelease) */
1658	R->MEvent.state = ev->state;	1599	MEvent.state = ev.state;
1659	#ifdef MOUSE_REPORT_DOUBLECLICK	1600	#ifdef MOUSE_REPORT_DOUBLECLICK
1660	if (ev->button == R->MEvent.button && clickintime)	1601	if (ev.button == MEvent.button && clickintime)
		1602	{
		1603	/* same button, within alloted time */
		1604	MEvent.clicks++;
		1605	if (MEvent.clicks > 1)
		1606	{
		1607	/* only report double clicks */
		1608	MEvent.clicks = 2;
		1609	mouse_report (ev);
		1610
		1611	/* don't report the release */
		1612	MEvent.clicks = 0;
		1613	MEvent.button = AnyButton;
		1614	}
		1615	}
		1616	else
		1617	{
		1618	/* different button, or time expired */
		1619	MEvent.clicks = 1;
		1620	MEvent.button = ev.button;
		1621	mouse_report (ev);
		1622	}
		1623	#else
		1624	MEvent.button = ev.button;
		1625	mouse_report (ev);
		1626	#endif /* MOUSE_REPORT_DOUBLECLICK */
		1627
		1628	}
		1629	else
		1630	{
		1631	if (ev.button != MEvent.button)
		1632	MEvent.clicks = 0;
		1633	switch (ev.button)
		1634	{
		1635	case Button1:
		1636	/* allow shift+left click to extend selection */
		1637	if (ev.state & ShiftMask && ! (PrivateModes & PrivMode_mouse_report))
1661	{	1638	{
1662	/* same button, within alloted time */	1639	if (MEvent.button == Button1 && clickintime)
1663	R->MEvent.clicks++;	1640	selection_rotate (ev.x, ev.y);
1664	if (R->MEvent.clicks > 1)	1641	else
		1642	selection_extend (ev.x, ev.y, 1);
1665	{	1643	}
1666	/* only report double clicks */
1667	R->MEvent.clicks = 2;
1668	rxvt_mouse_report(aR_ ev);
1669
1670	/* don't report the release */
1671	R->MEvent.clicks = 0;
1672	R->MEvent.button = AnyButton;
1673	}
1674	}
1675	else	1644	else
1676	{	1645	{
1677	/* different button, or time expired */	1646	if (MEvent.button == Button1 && clickintime)
1678	R->MEvent.clicks = 1;	1647	MEvent.clicks++;
1679	R->MEvent.button = ev->button;	1648	else
1680	rxvt_mouse_report(aR_ ev);	1649	MEvent.clicks = 1;
1681	}	1650
		1651	selection_click (MEvent.clicks, ev.x, ev.y);
		1652	}
		1653
		1654	MEvent.button = Button1;
		1655	break;
		1656
		1657	case Button3:
		1658	if (MEvent.button == Button3 && clickintime)
		1659	selection_rotate (ev.x, ev.y);
		1660	else
		1661	selection_extend (ev.x, ev.y, 1);
		1662	MEvent.button = Button3;
		1663	break;
		1664	}
		1665	}
		1666	MEvent.time = ev.time;
		1667	return;
		1668	}
		1669
		1670	/*
		1671	* Scrollbar window processing of button press
		1672	*/
		1673	if (isScrollbarWindow (ev.window))
		1674	{
		1675	scrollBar.setIdle ();
		1676	/*
		1677	* Rxvt-style scrollbar:
		1678	* move up if mouse is above slider
		1679	* move dn if mouse is below slider
		1680	*
		1681	* XTerm-style scrollbar:
		1682	* Move display proportional to pointer location
		1683	* pointer near top -> scroll one line
		1684	* pointer near bot -> scroll full page
		1685	*/
		1686	#ifndef NO_SCROLLBAR_REPORT
		1687	if (reportmode)
		1688	{
		1689	/*
		1690	* Mouse report disabled scrollbar:
		1691	* arrow buttons - send up/down
		1692	* click on scrollbar - send pageup/down
		1693	*/
		1694	if ((scrollBar.style == R_SB_NEXT
		1695	&& scrollbarnext_upButton (ev.y))
		1696	|| (scrollBar.style == R_SB_RXVT
		1697	&& scrollbarrxvt_upButton (ev.y)))
		1698	tt_printf ("\033[A");
		1699	else if ((scrollBar.style == R_SB_NEXT
		1700	&& scrollbarnext_dnButton (ev.y))
		1701	|| (scrollBar.style == R_SB_RXVT
		1702	&& scrollbarrxvt_dnButton (ev.y)))
		1703	tt_printf ("\033[B");
		1704	else
		1705	switch (ev.button)
		1706	{
		1707	case Button2:
		1708	tt_printf ("\014");
		1709	break;
		1710	case Button1:
		1711	tt_printf ("\033[6~");
		1712	break;
		1713	case Button3:
		1714	tt_printf ("\033[5~");
		1715	break;
		1716	}
		1717	}
		1718	else
		1719	#endif /* NO_SCROLLBAR_REPORT */
		1720
		1721	{
		1722	char upordown = 0;
		1723
		1724	if (scrollBar.style == R_SB_NEXT)
		1725	{
		1726	if (scrollbarnext_upButton (ev.y))
		1727	upordown = -1; /* up */
		1728	else if (scrollbarnext_dnButton (ev.y))
		1729	upordown = 1; /* down */
		1730	}
		1731	else if (scrollBar.style == R_SB_RXVT)
		1732	{
		1733	if (scrollbarrxvt_upButton (ev.y))
		1734	upordown = -1; /* up */
		1735	else if (scrollbarrxvt_dnButton (ev.y))
		1736	upordown = 1; /* down */
		1737	}
		1738	if (upordown)
		1739	{
		1740	#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
		1741	scroll_arrow_delay = SCROLLBAR_INITIAL_DELAY;
		1742	#endif
		1743	if (scr_page (upordown < 0 ? UP : DN, 1))
		1744	{
		1745	if (upordown < 0)
		1746	scrollBar.setUp ();
		1747	else
		1748	scrollBar.setDn ();
		1749	}
		1750	}
		1751	else
		1752	switch (ev.button)
		1753	{
		1754	case Button2:
		1755	switch (scrollbar_align)
		1756	{
		1757	case R_SB_ALIGN_TOP:
		1758	csrO = 0;
		1759	break;
		1760	case R_SB_ALIGN_CENTRE:
		1761	csrO = (scrollBar.bot - scrollBar.top) / 2;
		1762	break;
		1763	case R_SB_ALIGN_BOTTOM:
		1764	csrO = scrollBar.bot - scrollBar.top;
		1765	break;
		1766	}
		1767	if (scrollBar.style == R_SB_XTERM
		1768	|| scrollbar_above_slider (ev.y)
		1769	|| scrollbar_below_slider (ev.y))
		1770	scr_move_to ( scrollbar_position (ev.y) - csrO,
		1771	scrollbar_size ());
		1772	scrollBar.setMotion ();
		1773	break;
		1774
		1775	case Button1:
		1776	if (scrollbar_align == R_SB_ALIGN_CENTRE)
		1777	csrO = ev.y - scrollBar.top;
		1778	/* FALLTHROUGH */
		1779
		1780	case Button3:
		1781	if (scrollBar.style != R_SB_XTERM)
		1782	{
		1783	if (scrollbar_above_slider (ev.y))
		1784	# ifdef RXVT_SCROLL_FULL
		1785	scr_page (UP, TermWin.nrow - 1);
1682	#else	1786	# else
1683	R->MEvent.button = ev->button;	1787	scr_page (UP, TermWin.nrow / 4);
1684	rxvt_mouse_report(aR_ ev);	1788	# endif
		1789	else if (scrollbar_below_slider (ev.y))
		1790	# ifdef RXVT_SCROLL_FULL
		1791	scr_page (DN, TermWin.nrow - 1);
		1792	# else
		1793	scr_page (DN, TermWin.nrow / 4);
		1794	# endif
		1795	else
		1796	scrollBar.setMotion ();
		1797	}
		1798	else
		1799	{
		1800	scr_page ((ev.button == Button1 ? DN : UP),
		1801	(TermWin.nrow
		1802	* scrollbar_position (ev.y)
		1803	/ scrollbar_size ()));
		1804	}
		1805	break;
		1806	}
		1807	}
		1808	return;
		1809	}
		1810	#if MENUBAR
		1811	/*
		1812	* Menubar window processing of button press
		1813	*/
		1814	if (isMenuBarWindow (ev.window))
		1815	menubar_control (ev);
		1816	#endif
		1817	}
		1818
		1819	void
		1820	rxvt_term::button_release (XButtonEvent &ev)
		1821	{
		1822	int reportmode = 0;
		1823
		1824	csrO = 0; /* reset csr Offset */
		1825	if (!bypass_keystate)
		1826	reportmode = !! (PrivateModes & PrivMode_mouse_report);
		1827
		1828	if (scrollbar_isUpDn ())
		1829	{
		1830	scrollBar.setIdle ();
		1831	scrollbar_show (0);
		1832	#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
		1833	refresh_type &= ~SMOOTH_REFRESH;
		1834	#endif
		1835
		1836	}
		1837	#ifdef SELECTION_SCROLLING
		1838	pending_scroll_selection=0;
		1839	#endif
		1840	if (ev.window == TermWin.vt)
		1841	{
		1842	if (reportmode)
		1843	{
		1844	/* mouse report from vt window */
		1845	/* don't report release of wheel "buttons" */
		1846	if (ev.button >= 4)
		1847	return;
		1848	#ifdef MOUSE_REPORT_DOUBLECLICK
		1849	/* only report the release of 'slow' single clicks */
		1850	if (MEvent.button != AnyButton
		1851	&& (ev.button != MEvent.button
		1852	|| (ev.time - MEvent.time
		1853	> MULTICLICK_TIME / 2)))
		1854	{
		1855	MEvent.clicks = 0;
		1856	MEvent.button = AnyButton;
		1857	mouse_report (ev);
		1858	}
		1859	#else /* MOUSE_REPORT_DOUBLECLICK */
		1860	MEvent.button = AnyButton;
		1861	mouse_report (ev);
1685	#endif /* MOUSE_REPORT_DOUBLECLICK */	1862	#endif /* MOUSE_REPORT_DOUBLECLICK */
1686	}
1687	else
1688	{
1689	if (ev->button != R->MEvent.button)
1690	R->MEvent.clicks = 0;
1691	switch (ev->button)
1692	{
1693	case Button1:
1694	if (R->MEvent.button == Button1 && clickintime)
1695	R->MEvent.clicks++;
1696	else
1697	R->MEvent.clicks = 1;
1698	rxvt_selection_click(aR_ R->MEvent.clicks, ev->x, ev->y);
1699	R->MEvent.button = Button1;
1700	break;
1701
1702	case Button3:
1703	if (R->MEvent.button == Button3 && clickintime)
1704	rxvt_selection_rotate(aR_ ev->x, ev->y);
1705	else
1706	rxvt_selection_extend(aR_ ev->x, ev->y, 1);
1707	R->MEvent.button = Button3;
1708	break;
1709	}
1710	}
1711	R->MEvent.time = ev->time;
1712	return;	1863	return;
1713	}
1714	}	1864	}
1715
1716	/*
1717	* Scrollbar window processing of button press
1718	*/
1719	if (isScrollbarWindow(ev->window))
1720	{
1721	scrollbar_setIdle();
1722	/*
1723	* Rxvt-style scrollbar:
1724	* move up if mouse is above slider
1725	* move dn if mouse is below slider
1726	*
1727	* XTerm-style scrollbar:
1728	* Move display proportional to pointer location
1729	* pointer near top -> scroll one line
1730	* pointer near bot -> scroll full page
1731	*/
1732	#ifndef NO_SCROLLBAR_REPORT
1733	if (reportmode) {
1734	/*
1735	* Mouse report disabled scrollbar:
1736	* arrow buttons - send up/down
1737	* click on scrollbar - send pageup/down
1738	*/
1739	if ((R->scrollBar.style == R_SB_NEXT
1740	&& scrollbarnext_upButton(ev->y))
1741	|| (R->scrollBar.style == R_SB_RXVT
1742	&& scrollbarrxvt_upButton(ev->y)))
1743	rxvt_tt_printf(aR_ "\033[A");
1744	else if ((R->scrollBar.style == R_SB_NEXT
1745	&& scrollbarnext_dnButton(ev->y))
1746	|| (R->scrollBar.style == R_SB_RXVT
1747	&& scrollbarrxvt_dnButton(ev->y)))
1748	rxvt_tt_printf(aR_ "\033[B");
1749	else
1750	switch (ev->button) {
1751	case Button2:
1752	rxvt_tt_printf(aR_ "\014");
1753	break;
1754	case Button1:
1755	rxvt_tt_printf(aR_ "\033[6~");
1756	break;
1757	case Button3:
1758	rxvt_tt_printf(aR_ "\033[5~");
1759	break;
1760	}
1761	}
1762	else
1763	#endif /* NO_SCROLLBAR_REPORT */
1764	{
1765	char upordown = 0;
1766
1767	if (R->scrollBar.style == R_SB_NEXT) {
1768	if (scrollbarnext_upButton(ev->y))
1769	upordown = -1; /* up */
1770	else if (scrollbarnext_dnButton(ev->y))
1771	upordown = 1; /* down */
1772	} else if (R->scrollBar.style == R_SB_RXVT) {
1773	if (scrollbarrxvt_upButton(ev->y))
1774	upordown = -1; /* up */
1775	else if (scrollbarrxvt_dnButton(ev->y))
1776	upordown = 1; /* down */
1777	}
1778	if (upordown) {
1779	#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
1780	R->scroll_arrow_delay = SCROLLBAR_INITIAL_DELAY;
1781	#endif
1782	if (rxvt_scr_page(aR_ upordown < 0 ? UP : DN, 1)) {
1783	if (upordown < 0)
1784	scrollbar_setUp();
1785	else
1786	scrollbar_setDn();
1787	}
1788	} else
1789	switch (ev->button) {
1790	case Button2:
1791	switch (R->scrollbar_align) {
1792	case R_SB_ALIGN_TOP:
1793	R->csrO = 0;
1794	break;
1795	case R_SB_ALIGN_CENTRE:
1796	R->csrO = (R->scrollBar.bot - R->scrollBar.top) / 2;
1797	break;
1798	case R_SB_ALIGN_BOTTOM:
1799	R->csrO = R->scrollBar.bot - R->scrollBar.top;
1800	break;
1801	}
1802	if (R->scrollBar.style == R_SB_XTERM
1803	|| scrollbar_above_slider(ev->y)
1804	|| scrollbar_below_slider(ev->y))
1805	rxvt_scr_move_to(aR_
1806	scrollbar_position(ev->y) - R->csrO,
1807	scrollbar_size());
1808	scrollbar_setMotion();
1809	break;
1810
1811	case Button1:
1812	if (R->scrollbar_align == R_SB_ALIGN_CENTRE)
1813	R->csrO = ev->y - R->scrollBar.top;
1814	/* FALLTHROUGH */
1815
1816	case Button3:
1817	if (R->scrollBar.style != R_SB_XTERM) {
1818	if (scrollbar_above_slider(ev->y))
1819	# ifdef RXVT_SCROLL_FULL
1820	rxvt_scr_page(aR_ UP, R->TermWin.nrow - 1);
1821	# else
1822	rxvt_scr_page(aR_ UP, R->TermWin.nrow / 4);
1823	# endif
1824	else if (scrollbar_below_slider(ev->y))
1825	# ifdef RXVT_SCROLL_FULL
1826	rxvt_scr_page(aR_ DN, R->TermWin.nrow - 1);
1827	# else
1828	rxvt_scr_page(aR_ DN, R->TermWin.nrow / 4);
1829	# endif
1830	else
1831	scrollbar_setMotion();
1832	} else {
1833	rxvt_scr_page(aR_ (ev->button == Button1 ? DN : UP),
1834	(R->TermWin.nrow
1835	* scrollbar_position(ev->y)
1836	/ scrollbar_size()));
1837	}
1838	break;
1839	}
1840	}
1841	return;
1842	}
1843	#if MENUBAR
1844	/*	1865	/*
1845	* Menubar window processing of button press
1846	*/
1847	if (isMenuBarWindow(ev->window))
1848	rxvt_menubar_control(aR_ ev);
1849	#endif
1850	}
1851
1852	/* INTPROTO */
1853	void
1854	rxvt_button_release(pR_ XButtonEvent *ev)
1855	{
1856	int reportmode = 0;
1857
1858	R->csrO = 0; /* reset csr Offset */
1859	if (!R->bypass_keystate)
1860	reportmode = !!(R->PrivateModes & PrivMode_mouse_report);
1861
1862	if (scrollbar_isUpDn()) {
1863	scrollbar_setIdle();
1864	rxvt_scrollbar_show(aR_ 0);
1865	#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
1866	R->refresh_type &= ~SMOOTH_REFRESH;
1867	#endif
1868	}
1869	#ifdef SELECTION_SCROLLING
1870	R->pending_scroll_selection=0;
1871	#endif
1872	if (ev->window == R->TermWin.vt)
1873	{
1874	#ifdef RXVT_GRAPHICS
1875	if (ev->subwindow != None)
1876	rxvt_Gr_ButtonRelease(ev->x, ev->y);
1877	else
1878	#endif
1879	{
1880	if (reportmode)
1881	{
1882	/* mouse report from vt window */
1883	/* don't report release of wheel "buttons" */
1884	if (ev->button >= 4)
1885	return;
1886	#ifdef MOUSE_REPORT_DOUBLECLICK
1887	/* only report the release of 'slow' single clicks */
1888	if (R->MEvent.button != AnyButton
1889	&& (ev->button != R->MEvent.button
1890	|| (ev->time - R->MEvent.time
1891	> MULTICLICK_TIME / 2)))
1892	{
1893	R->MEvent.clicks = 0;
1894	R->MEvent.button = AnyButton;
1895	rxvt_mouse_report(aR_ ev);
1896	}
1897	#else /* MOUSE_REPORT_DOUBLECLICK */
1898	R->MEvent.button = AnyButton;
1899	rxvt_mouse_report(aR_ ev);
1900	#endif /* MOUSE_REPORT_DOUBLECLICK */
1901	return;
1902	}
1903	/*
1904	* dumb hack to compensate for the failure of click-and-drag	1866	* dumb hack to compensate for the failure of click-and-drag
1905	* when overriding mouse reporting	1867	* when overriding mouse reporting
1906	*/	1868	*/
1907	if (R->PrivateModes & PrivMode_mouse_report	1869	if (PrivateModes & PrivMode_mouse_report
1908	&& R->bypass_keystate	1870	&& bypass_keystate
1909	&& ev->button == Button1 && R->MEvent.clicks <= 1)	1871	&& ev.button == Button1 && MEvent.clicks <= 1)
1910	rxvt_selection_extend(aR_ ev->x, ev->y, 0);	1872	selection_extend (ev.x, ev.y, 0);
1911		1873
1912	switch (ev->button) {	1874	switch (ev.button)
		1875	{
1913	case Button1:	1876	case Button1:
1914	case Button3:	1877	case Button3:
1915	rxvt_selection_make(aR_ ev->time);	1878	selection_make (ev.time);
1916	break;	1879	break;
1917	case Button2:	1880	case Button2:
1918	rxvt_selection_request(aR_ ev->time, ev->x, ev->y);	1881	selection_request (ev.time, ev.x, ev.y);
1919	break;	1882	break;
1920	#ifdef MOUSE_WHEEL	1883	#ifdef MOUSE_WHEEL
1921	case Button4:	1884	case Button4:
1922	case Button5:	1885	case Button5:
1923	{	1886	{
1924	int i, v;	1887	int i;
		1888	page_dirn v;
1925		1889
1926	v = (ev->button == Button4) ? UP : DN;	1890	v = (ev.button == Button4) ? UP : DN;
1927	if (ev->state & ShiftMask)	1891	if (ev.state & ShiftMask)
1928	i = 1;	1892	i = 1;
1929	else if ((R->Options & Opt_mouseWheelScrollPage))	1893	else if ((Options & Opt_mouseWheelScrollPage))
1930	i = R->TermWin.nrow - 1;	1894	i = TermWin.nrow - 1;
1931	else	1895	else
1932	i = 5;	1896	i = 5;
1933	# ifdef MOUSE_SLIP_WHEELING	1897	# ifdef MOUSE_SLIP_WHEELING
1934	if (ev->state & ControlMask)	1898	if (ev.state & ControlMask)
1935	{	1899	{
1936	R->mouse_slip_wheel_speed += (v ? -1 : 1);	1900	mouse_slip_wheel_speed += (v ? -1 : 1);
1937	R->mouse_slip_wheel_delay = SCROLLBAR_CONTINUOUS_DELAY;	1901	mouse_slip_wheel_delay = SCROLLBAR_CONTINUOUS_DELAY;
1938	}	1902	}
1939	# endif	1903	# endif
1940	# ifdef JUMP_MOUSE_WHEEL	1904	# ifdef JUMP_MOUSE_WHEEL
1941	rxvt_scr_page(aR_ v, i);	1905	scr_page (v, i);
1942	rxvt_scr_refresh(aR_ SMOOTH_REFRESH);	1906	scr_refresh (SMOOTH_REFRESH);
1943	rxvt_scrollbar_show(aR_ 1);	1907	scrollbar_show (1);
1944	# else	1908	# else
1945	for (; i--;)	1909	while (i--)
1946	{	1910	{
1947	rxvt_scr_page(aR_ v, 1);	1911	scr_page (v, 1);
1948	rxvt_scr_refresh(aR_ SMOOTH_REFRESH);	1912	scr_refresh (SMOOTH_REFRESH);
1949	rxvt_scrollbar_show(aR_ 1);	1913	scrollbar_show (1);
1950	}	1914	}
1951	# endif	1915	# endif
1952	}	1916
1953	break;	1917	}
		1918	break;
1954	#endif	1919	#endif
1955	}	1920
1956	}
1957	}	1921	}
		1922	}
1958	#ifdef MENUBAR	1923	#ifdef MENUBAR
1959	else if (isMenuBarWindow(ev->window))	1924	else if (isMenuBarWindow (ev.window))
1960	rxvt_menubar_control(aR_ ev);	1925	menubar_control (ev);
1961	#endif	1926	#endif
1962	}	1927	}
1963		1928
1964		1929
1965	#ifdef TRANSPARENT	1930	#ifdef TRANSPARENT
1966	/*	1931	/*
1967	* Check our parents are still who we think they are.	1932	* Check our parents are still who we think they are.
1968	* Do transparency updates if required	1933	* Do transparency updates if required
1969	*/	1934	*/
1970	/* EXTPROTO */
1971	int	1935	int
1972	rxvt_check_our_parents(pR)	1936	rxvt_term::check_our_parents ()
1973	{	1937	{
1974	int i, pchanged, aformat, have_pixmap, rootdepth;	1938	int i, pchanged, aformat, have_pixmap, rootdepth;
1975	unsigned long nitems, bytes_after;	1939	unsigned long nitems, bytes_after;
1976	Atom atype;	1940	Atom atype;
1977	unsigned char *prop = NULL;	1941	unsigned char *prop = NULL;
1978	Window root, oldp, *list;	1942	Window root, oldp, *list;
1979	Pixmap rootpixmap = None;	1943	Pixmap rootpixmap = None;
1980	XWindowAttributes wattr, wrootattr;	1944	XWindowAttributes wattr, wrootattr;
1981		1945
1982	pchanged = 0;	1946	pchanged = 0;
1983		1947
1984	if (!(R->Options & Opt_transparent))	1948	if (! (Options & Opt_transparent))
1985	return pchanged; /* Don't try any more */	1949	return pchanged; /* Don't try any more */
1986		1950
1987	XGetWindowAttributes(R->Xdisplay, Xroot, &wrootattr);	1951	XGetWindowAttributes (display->display, display->root, &wrootattr);
1988	rootdepth = wrootattr.depth;	1952	rootdepth = wrootattr.depth;
1989		1953
1990	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	1954	XGetWindowAttributes (display->display, TermWin.parent[0], &wattr);
1991	if (rootdepth != wattr.depth) {	1955	if (rootdepth != wattr.depth)
		1956	{
1992	if (R->am_transparent) {	1957	if (am_transparent)
		1958	{
1993	pchanged = 1;	1959	pchanged = 1;
1994	XSetWindowBackground(R->Xdisplay, R->TermWin.vt,	1960	XSetWindowBackground (display->display, TermWin.vt,
1995	R->PixColors[Color_bg]);	1961	PixColors[Color_bg]);
1996	R->am_transparent = R->am_pixmap_trans = 0;	1962	am_transparent = am_pixmap_trans = 0;
1997	}	1963	}
1998	return pchanged; /* Don't try any more */	1964	return pchanged; /* Don't try any more */
1999	}	1965	}
2000		1966
2001	/* Get all X ops out of the queue so that our information is up-to-date. */	1967	/* Get all X ops out of the queue so that our information is up-to-date. */
2002	XSync(R->Xdisplay, False);	1968	XSync (display->display, False);
2003		1969
2004	/*	1970	/*
2005	* Make the frame window set by the window manager have	1971	* Make the frame window set by the window manager have
2006	* the root background. Some window managers put multiple nested frame	1972	* the root background. Some window managers put multiple nested frame
2007	* windows for each client, so we have to take care about that.	1973	* windows for each client, so we have to take care about that.
2008	*/	1974	*/
2009	i = (R->xa[XA_XROOTPMAPID] != 0	1975	i = (xa[XA_XROOTPMAPID] != 0
2010	&& (XGetWindowProperty(R->Xdisplay, Xroot, R->xa[XA_XROOTPMAPID],	1976	&& (XGetWindowProperty (display->display, display->root, xa[XA_XROOTPMAPID],
2011	0L, 1L, False, XA_PIXMAP, &atype, &aformat,	1977	0L, 1L, False, XA_PIXMAP, &atype, &aformat,
2012	&nitems, &bytes_after, &prop) == Success));	1978	&nitems, &bytes_after, &prop) == Success));
2013	if (!i || prop == NULL)	1979	if (!i || prop == NULL)
2014	have_pixmap = 0;	1980	have_pixmap = 0;
2015	else {	1981	else
		1982	{
2016	have_pixmap = 1;	1983	have_pixmap = 1;
2017	rootpixmap = *((Pixmap *)prop);	1984	rootpixmap = * ((Pixmap *)prop);
2018	XFree(prop);	1985	XFree (prop);
2019	}	1986	}
2020	if (have_pixmap) {	1987	if (have_pixmap)
2021	/*	1988	{
		1989	/*
2022	* Copy Xroot pixmap transparency	1990	* Copy display->root pixmap transparency
2023	*/	1991	*/
2024	int sx, sy, nx, ny;	1992	int sx, sy, nx, ny;
2025	unsigned int nw, nh;	1993	unsigned int nw, nh;
2026	Window cr;	1994	Window cr;
2027	XImage *image;	1995	XImage *image;
2028	GC gc;	1996	GC gc;
2029	XGCValues gcvalue;	1997	XGCValues gcvalue;
2030		1998
2031	XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], Xroot,	1999	XTranslateCoordinates (display->display, TermWin.parent[0], display->root,
2032	0, 0, &sx, &sy, &cr);	2000	0, 0, &sx, &sy, &cr);
2033	nw = (unsigned int)R->szHint.width;	2001	nw = (unsigned int)szHint.width;
2034	nh = (unsigned int)R->szHint.height;	2002	nh = (unsigned int)szHint.height;
2035	nx = ny = 0;	2003	nx = ny = 0;
2036	if (sx < 0) {	2004	if (sx < 0)
		2005	{
2037	nw += sx;	2006	nw += sx;
2038	nx = -sx;	2007	nx = -sx;
2039	sx = 0;	2008	sx = 0;
2040	}	2009	}
2041	if (sy < 0) {	2010	if (sy < 0)
		2011	{
2042	nh += sy;	2012	nh += sy;
2043	ny = -sy;	2013	ny = -sy;
2044	sy = 0;	2014	sy = 0;
2045	}	2015	}
2046	MIN_IT(nw, (unsigned int)(wrootattr.width - sx));	2016	MIN_IT (nw, (unsigned int) (wrootattr.width - sx));
2047	MIN_IT(nh, (unsigned int)(wrootattr.height - sy));	2017	MIN_IT (nh, (unsigned int) (wrootattr.height - sy));
2048	R->allowedxerror = -1;	2018	allowedxerror = -1;
2049	image = XGetImage(R->Xdisplay, rootpixmap, sx, sy, nw, nh, AllPlanes,	2019	image = XGetImage (display->display, rootpixmap, sx, sy, nw, nh, AllPlanes,
2050	ZPixmap);	2020	ZPixmap);
2051	/* XXX: handle BadMatch - usually because we're outside the pixmap */	2021	/* XXX: handle BadMatch - usually because we're outside the pixmap */
2052	/* XXX: may need a delay here? */	2022	/* XXX: may need a delay here? */
2053	R->allowedxerror = 0;	2023	allowedxerror = 0;
2054	if (image == NULL) {	2024	if (image == NULL)
		2025	{
2055	if (R->am_transparent && R->am_pixmap_trans) {	2026	if (am_transparent && am_pixmap_trans)
2056	pchanged = 1;	2027	{
		2028	pchanged = 1;
		2029	if (TermWin.pixmap != None)
		2030	{
		2031	XFreePixmap (display->display, TermWin.pixmap);
		2032	TermWin.pixmap = None;
		2033	}
		2034	}
		2035	am_pixmap_trans = 0;
		2036	}
		2037	else
		2038	{
2057	if (R->TermWin.pixmap != None) {	2039	if (TermWin.pixmap != None)
2058	XFreePixmap(R->Xdisplay, R->TermWin.pixmap);	2040	XFreePixmap (display->display, TermWin.pixmap);
2059	R->TermWin.pixmap = None;	2041	TermWin.pixmap = XCreatePixmap (display->display, TermWin.vt,
2060	}	2042	(unsigned int)szHint.width,
		2043	(unsigned int)szHint.height,
		2044	(unsigned int)image->depth);
		2045	gc = XCreateGC (display->display, TermWin.vt, 0UL, &gcvalue);
		2046	XPutImage (display->display, TermWin.pixmap, gc, image, 0, 0,
		2047	nx, ny, (unsigned int)image->width,
		2048	(unsigned int)image->height);
		2049	XFreeGC (display->display, gc);
		2050	XDestroyImage (image);
		2051	XSetWindowBackgroundPixmap (display->display, TermWin.vt,
		2052	TermWin.pixmap);
		2053	if (!am_transparent || !am_pixmap_trans)
		2054	pchanged = 1;
		2055	am_transparent = am_pixmap_trans = 1;
		2056	}
2061	}	2057	}
2062	R->am_pixmap_trans = 0;
2063	} else {
2064	if (R->TermWin.pixmap != None)
2065	XFreePixmap(R->Xdisplay, R->TermWin.pixmap);
2066	R->TermWin.pixmap = XCreatePixmap(R->Xdisplay, R->TermWin.vt,
2067	(unsigned int)R->szHint.width,
2068	(unsigned int)R->szHint.height,
2069	(unsigned int)image->depth);
2070	gc = XCreateGC(R->Xdisplay, R->TermWin.vt, 0UL, &gcvalue);
2071	XPutImage(R->Xdisplay, R->TermWin.pixmap, gc, image, 0, 0,
2072	nx, ny, (unsigned int)image->width,
2073	(unsigned int)image->height);
2074	XFreeGC(R->Xdisplay, gc);
2075	XDestroyImage(image);
2076	XSetWindowBackgroundPixmap(R->Xdisplay, R->TermWin.vt,
2077	R->TermWin.pixmap);
2078	if (!R->am_transparent || !R->am_pixmap_trans)
2079	pchanged = 1;
2080	R->am_transparent = R->am_pixmap_trans = 1;
2081	}
2082	}
2083	if (!R->am_pixmap_trans) {	2058	if (!am_pixmap_trans)
		2059	{
2084	unsigned int n;	2060	unsigned int n;
2085	/*	2061	/*
2086	* InheritPixmap transparency	2062	* InheritPixmap transparency
2087	*/	2063	*/
2088	D_X((stderr, "InheritPixmap Seeking to %08lx", Xroot));	2064	D_X ((stderr, "InheritPixmap Seeking to %08lx", display->root));
2089	for (i = 1; i < (int)(sizeof(R->TermWin.parent) / sizeof(Window));	2065	for (i = 1; i < (int) (sizeof (TermWin.parent) / sizeof (Window));
2090	i++) {	2066	i++)
		2067	{
2091	oldp = R->TermWin.parent[i];	2068	oldp = TermWin.parent[i];
2092	XQueryTree(R->Xdisplay, R->TermWin.parent[i - 1], &root,	2069	XQueryTree (display->display, TermWin.parent[i - 1], &root,
2093	&R->TermWin.parent[i], &list, &n);	2070	&TermWin.parent[i], &list, &n);
2094	XFree(list);	2071	XFree (list);
2095	D_X((stderr, "InheritPixmap Parent[%d] = %08lx", i, R->TermWin.parent[i]));	2072	D_X ((stderr, "InheritPixmap Parent[%d] = %08lx", i, TermWin.parent[i]));
2096	if (R->TermWin.parent[i] == Xroot) {	2073	if (TermWin.parent[i] == display->root)
2097	if (oldp != None)	2074	{
2098	pchanged = 1;	2075	if (oldp != None)
2099	break;	2076	pchanged = 1;
2100	}	2077	break;
		2078	}
2101	if (oldp != R->TermWin.parent[i])	2079	if (oldp != TermWin.parent[i])
2102	pchanged = 1;	2080	pchanged = 1;
2103	}	2081	}
2104	n = 0;	2082	n = 0;
2105	if (pchanged) {	2083	if (pchanged)
		2084	{
2106	for (; n < (unsigned int)i; n++) {	2085	for (; n < (unsigned int)i; n++)
		2086	{
2107	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[n], &wattr);	2087	XGetWindowAttributes (display->display, TermWin.parent[n], &wattr);
2108	D_X((stderr, "InheritPixmap Checking Parent[%d]: %s", n, (wattr.depth == rootdepth && wattr.class != InputOnly) ? "OK" : "FAIL"));	2088	D_X ((stderr, "InheritPixmap Checking Parent[%d]: %s", n, (wattr.depth == rootdepth && wattr.class != InputOnly) ? "OK" : "FAIL"));
2109	if (wattr.depth != rootdepth || wattr.class == InputOnly) {	2089	if (wattr.depth != rootdepth || wattr.c_class == InputOnly)
		2090	{
2110	n = (int)(sizeof(R->TermWin.parent) / sizeof(Window)) + 1;	2091	n = (int) (sizeof (TermWin.parent) / sizeof (Window)) + 1;
2111	break;	2092	break;
2112	}	2093	}
2113	}	2094	}
2114	}	2095	}
2115	if (n > (int)(sizeof(R->TermWin.parent)	2096	if (n > (int) (sizeof (TermWin.parent)
2116	/ sizeof(R->TermWin.parent[0]))) {	2097	/ sizeof (TermWin.parent[0])))
		2098	{
2117	D_X((stderr, "InheritPixmap Turning off"));	2099	D_X ((stderr, "InheritPixmap Turning off"));
2118	XSetWindowBackground(R->Xdisplay, R->TermWin.parent[0],	2100	XSetWindowBackground (display->display, TermWin.parent[0],
2119	R->PixColors[Color_fg]);	2101	PixColors[Color_fg]);
2120	XSetWindowBackground(R->Xdisplay, R->TermWin.vt,	2102	XSetWindowBackground (display->display, TermWin.vt,
2121	R->PixColors[Color_bg]);	2103	PixColors[Color_bg]);
2122	R->am_transparent = 0;	2104	am_transparent = 0;
2123	/* XXX: also turn off Opt_transparent? */	2105	/* XXX: also turn off Opt_transparent? */
2124	} else {	2106	}
		2107	else
		2108	{
2125	/* wait (an arbitrary period) for the WM to do its thing	2109	/* wait (an arbitrary period) for the WM to do its thing
2126	* needed for fvwm2.2.2 (and before?) */	2110	* needed for fvwm2.2.2 (and before?) */
2127	# ifdef HAVE_NANOSLEEP	2111	# ifdef HAVE_NANOSLEEP
2128	struct timespec rqt;	2112	struct timespec rqt;
2129		2113
2130	rqt.tv_sec = 1;	2114	rqt.tv_sec = 1;
2131	rqt.tv_nsec = 0;	2115	rqt.tv_nsec = 0;
2132	nanosleep(&rqt, NULL);	2116	nanosleep (&rqt, NULL);
2133	# else	2117	# else
2134	sleep(1);	2118	sleep (1);
2135	# endif	2119	# endif
2136	D_X((stderr, "InheritPixmap Turning on (%d parents)", i - 1));	2120	D_X ((stderr, "InheritPixmap Turning on (%d parents)", i - 1));
2137	for (n = 0; n < (unsigned int)i; n++)	2121	for (n = 0; n < (unsigned int)i; n++)
2138	XSetWindowBackgroundPixmap(R->Xdisplay, R->TermWin.parent[n],	2122	XSetWindowBackgroundPixmap (display->display, TermWin.parent[n],
2139	ParentRelative);	2123	ParentRelative);
2140	XSetWindowBackgroundPixmap(R->Xdisplay, R->TermWin.vt,	2124	XSetWindowBackgroundPixmap (display->display, TermWin.vt,
2141	ParentRelative);	2125	ParentRelative);
2142	R->am_transparent = 1;	2126	am_transparent = 1;
2143	}	2127	}
2144	for (; i < (int)(sizeof(R->TermWin.parent) / sizeof(Window)); i++)	2128	for (; i < (int) (sizeof (TermWin.parent) / sizeof (Window)); i++)
2145	R->TermWin.parent[i] = None;	2129	TermWin.parent[i] = None;
2146	}	2130	}
2147	return pchanged;	2131	return pchanged;
2148	}	2132	}
2149	#endif	2133	#endif
2150		2134
2151	/*}}} */	2135	/*}}} */
2152		2136
2153	/*{{{ print pipe */	2137	/*{{{ print pipe */
2154	/*----------------------------------------------------------------------*/	2138	/*----------------------------------------------------------------------*/
2155	#ifdef PRINTPIPE	2139	#ifdef PRINTPIPE
2156	/* EXTPROTO */	2140	FILE *
2157	FILE *
2158	rxvt_popen_printer(pR)	2141	rxvt_term::popen_printer ()
2159	{	2142	{
2160	FILE *stream = popen(R->rs[Rs_print_pipe], "w");	2143	FILE *stream = popen (rs[Rs_print_pipe], "w");
2161		2144
2162	if (stream == NULL)	2145	if (stream == NULL)
2163	rxvt_print_error("can't open printer pipe");	2146	rxvt_print_error ("can't open printer pipe");
2164	return stream;	2147	return stream;
2165	}	2148	}
2166		2149
2167	/* EXTPROTO */
2168	int	2150	int
2169	rxvt_pclose_printer(FILE *stream)	2151	rxvt_term::pclose_printer (FILE *stream)
2170	{	2152	{
2171	fflush(stream);	2153	fflush (stream);
2172	/* pclose() reported not to work on SunOS 4.1.3 */	2154	/* pclose () reported not to work on SunOS 4.1.3 */
2173	# if defined (__sun__) /* TODO: RESOLVE THIS */	2155	# if defined (__sun__) /* TODO: RESOLVE THIS */
2174	/* pclose works provided SIGCHLD handler uses waitpid */	2156	/* pclose works provided SIGCHLD handler uses waitpid */
2175	return pclose(stream); /* return fclose (stream); */	2157	return pclose (stream); /* return fclose (stream); */
2176	# else	2158	# else
2177	return pclose(stream);	2159	return pclose (stream);
2178	# endif	2160	# endif
2179	}	2161	}
2180		2162
2181	/*	2163	/*
2182	* simulate attached vt100 printer	2164	* simulate attached vt100 printer
2183	*/	2165	*/
2184	/* INTPROTO */
2185	void	2166	void
2186	rxvt_process_print_pipe(pR)	2167	rxvt_term::process_print_pipe ()
2187	{	2168	{
2188	int done;	2169	int done;
2189	FILE *fd;	2170	FILE *fd;
2190		2171
2191	if ((fd = rxvt_popen_printer(aR)) == NULL)	2172	if ((fd = popen_printer ()) == NULL)
2192	return;	2173	return;
2193		2174
2194	/*	2175	/*
2195	* Send all input to the printer until either ESC[4i or ESC[?4i	2176	* Send all input to the printer until either ESC[4i or ESC[?4i
2196	* is received.	2177	* is received.
2197	*/	2178	*/
2198	for (done = 0; !done;) {	2179	for (done = 0; !done;)
		2180	{
2199	unsigned char buf[8];	2181	unsigned char buf[8];
2200	unsigned char ch;	2182	unsigned char ch;
2201	unsigned int i, len;	2183	unsigned int i, len;
2202		2184
2203	if ((ch = rxvt_cmd_getc(aR)) != C0_ESC) {	2185	if ((ch = cmd_getc ()) != C0_ESC)
		2186	{
2204	if (putc(ch, fd) == EOF)	2187	if (putc (ch, fd) == EOF)
2205	break; /* done = 1 */	2188	break; /* done = 1 */
2206	} else {	2189	}
		2190	else
		2191	{
2207	len = 0;	2192	len = 0;
2208	buf[len++] = ch;	2193	buf[len++] = ch;
2209		2194
2210	if ((buf[len++] = rxvt_cmd_getc(aR)) == '[') {	2195	if ((buf[len++] = cmd_getc ()) == '[')
2211	if ((ch = rxvt_cmd_getc(aR)) == '?') {	2196	{
2212	buf[len++] = '?';	2197	if ((ch = cmd_getc ()) == '?')
2213	ch = rxvt_cmd_getc(aR);	2198	{
2214	}	2199	buf[len++] = '?';
		2200	ch = cmd_getc ();
		2201	}
2215	if ((buf[len++] = ch) == '4') {	2202	if ((buf[len++] = ch) == '4')
		2203	{
2216	if ((buf[len++] = rxvt_cmd_getc(aR)) == 'i')	2204	if ((buf[len++] = cmd_getc ()) == 'i')
2217	break; /* done = 1 */	2205	break; /* done = 1 */
2218	}	2206	}
		2207	}
		2208	for (i = 0; i < len; i++)
		2209	if (putc (buf[i], fd) == EOF)
		2210	{
		2211	done = 1;
		2212	break;
		2213	}
		2214	}
2219	}	2215	}
2220	for (i = 0; i < len; i++)
2221	if (putc(buf[i], fd) == EOF) {
2222	done = 1;
2223	break;
2224	}
2225	}
2226	}
2227	rxvt_pclose_printer(fd);	2216	pclose_printer (fd);
2228	}	2217	}
2229	#endif /* PRINTPIPE */	2218	#endif /* PRINTPIPE */
2230	/*}}} */	2219	/*}}} */
2231		2220
2232	/* *INDENT-OFF* */	2221	/* *INDENT-OFF* */
2233	enum {	2222	enum {
2234	C1_40 = 0x40,	2223	C1_40 = 0x40,
2235	C1_41 , C1_BPH, C1_NBH, C1_44 , C1_NEL, C1_SSA, C1_ESA,	2224	C1_41 , C1_BPH, C1_NBH, C1_44 , C1_NEL, C1_SSA, C1_ESA,
2236	C1_HTS, C1_HTJ, C1_VTS, C1_PLD, C1_PLU, C1_RI , C1_SS2, C1_SS3,	2225	C1_HTS, C1_HTJ, C1_VTS, C1_PLD, C1_PLU, C1_RI , C1_SS2, C1_SS3,
2237	C1_DCS, C1_PU1, C1_PU2, C1_STS, C1_CCH, C1_MW , C1_SPA, C1_EPA,	2226	C1_DCS, C1_PU1, C1_PU2, C1_STS, C1_CCH, C1_MW , C1_SPA, C1_EPA,
2238	C1_SOS, C1_59 , C1_SCI, C1_CSI, CS_ST , C1_OSC, C1_PM , C1_APC	2227	C1_SOS, C1_59 , C1_SCI, C1_CSI, CS_ST , C1_OSC, C1_PM , C1_APC
2239	};	2228	};
2240	/* *INDENT-ON* */	2229	/* *INDENT-ON* */
2241		2230
2242	/*{{{ process non-printing single characters */	2231	/*{{{ process non-printing single characters */
2243	/* INTPROTO */
2244	void	2232	void
2245	rxvt_process_nonprinting(pR_ unsigned char ch)	2233	rxvt_term::process_nonprinting (unsigned char ch)
2246	{	2234	{
2247	switch (ch) {	2235	switch (ch)
		2236	{
2248	case C0_ENQ: /* terminal Status */	2237	case C0_ENQ: /* terminal Status */
2249	if (R->rs[Rs_answerbackstring])	2238	if (rs[Rs_answerbackstring])
2250	rxvt_tt_write(aR_	2239	tt_write (
2251	(const unsigned char *)R->rs[Rs_answerbackstring],	2240	(const unsigned char *)rs[Rs_answerbackstring],
2252	(unsigned int)STRLEN(R->rs[Rs_answerbackstring]));	2241	(unsigned int)STRLEN (rs[Rs_answerbackstring]));
2253	else	2242	else
2254	rxvt_tt_write(aR_ (unsigned char *)VT100_ANS,	2243	tt_write ((unsigned char *)VT100_ANS,
2255	(unsigned int)STRLEN(VT100_ANS));	2244	(unsigned int)STRLEN (VT100_ANS));
2256	break;	2245	break;
2257	case C0_BEL: /* bell */	2246	case C0_BEL: /* bell */
2258	rxvt_scr_bell(aR);	2247	scr_bell ();
2259	break;	2248	break;
2260	case C0_BS: /* backspace */	2249	case C0_BS: /* backspace */
2261	rxvt_scr_backspace(aR);	2250	scr_backspace ();
2262	break;	2251	break;
2263	case C0_HT: /* tab */	2252	case C0_HT: /* tab */
2264	rxvt_scr_tab(aR_ 1);	2253	scr_tab (1);
2265	break;	2254	break;
2266	case C0_CR: /* carriage return */	2255	case C0_CR: /* carriage return */
2267	rxvt_scr_gotorc(aR_ 0, 0, R_RELATIVE);	2256	scr_gotorc (0, 0, R_RELATIVE);
2268	break;	2257	break;
2269	case C0_VT: /* vertical tab, form feed */	2258	case C0_VT: /* vertical tab, form feed */
2270	case C0_FF:	2259	case C0_FF:
2271	case C0_LF: /* line feed */	2260	case C0_LF: /* line feed */
2272	rxvt_scr_index(aR_ UP);	2261	scr_index (UP);
2273	break;	2262	break;
2274	case C0_SO: /* shift out - acs */	2263	case C0_SO: /* shift out - acs */
2275	rxvt_scr_charset_choose(aR_ 1);	2264	scr_charset_choose (1);
2276	break;	2265	break;
2277	case C0_SI: /* shift in - acs */	2266	case C0_SI: /* shift in - acs */
2278	rxvt_scr_charset_choose(aR_ 0);	2267	scr_charset_choose (0);
2279	break;	2268	break;
2280	}	2269	}
2281	}	2270	}
2282	/*}}} */	2271	/*}}} */
2283		2272
2284		2273
2285	/*{{{ process VT52 escape sequences */	2274	/*{{{ process VT52 escape sequences */
2286	/* INTPROTO */
2287	void	2275	void
2288	rxvt_process_escape_vt52(pR_ unsigned char ch)	2276	rxvt_term::process_escape_vt52 (unsigned char ch)
2289	{	2277	{
2290	int row, col;	2278	int row, col;
		2279
		2280	switch (ch)
2291		2281	{
2292	switch (ch) {
2293	case 'A': /* cursor up */	2282	case 'A': /* cursor up */
2294	rxvt_scr_gotorc(aR_ -1, 0, R_RELATIVE | C_RELATIVE);	2283	scr_gotorc (-1, 0, R_RELATIVE | C_RELATIVE);
2295	break;	2284	break;
2296	case 'B': /* cursor down */	2285	case 'B': /* cursor down */
2297	rxvt_scr_gotorc(aR_ 1, 0, R_RELATIVE | C_RELATIVE);	2286	scr_gotorc (1, 0, R_RELATIVE | C_RELATIVE);
2298	break;	2287	break;
2299	case 'C': /* cursor right */	2288	case 'C': /* cursor right */
2300	rxvt_scr_gotorc(aR_ 0, 1, R_RELATIVE | C_RELATIVE);	2289	scr_gotorc (0, 1, R_RELATIVE | C_RELATIVE);
2301	break;	2290	break;
2302	case 'D': /* cursor left */	2291	case 'D': /* cursor left */
2303	rxvt_scr_gotorc(aR_ 0, -1, R_RELATIVE | C_RELATIVE);	2292	scr_gotorc (0, -1, R_RELATIVE | C_RELATIVE);
2304	break;	2293	break;
2305	case 'H': /* cursor home */	2294	case 'H': /* cursor home */
2306	rxvt_scr_gotorc(aR_ 0, 0, 0);	2295	scr_gotorc (0, 0, 0);
2307	break;	2296	break;
2308	case 'I': /* cursor up and scroll down if needed */	2297	case 'I': /* cursor up and scroll down if needed */
2309	rxvt_scr_index(aR_ DN);	2298	scr_index (DN);
2310	break;	2299	break;
2311	case 'J': /* erase to end of screen */	2300	case 'J': /* erase to end of screen */
2312	rxvt_scr_erase_screen(aR_ 0);	2301	scr_erase_screen (0);
2313	break;	2302	break;
2314	case 'K': /* erase to end of line */	2303	case 'K': /* erase to end of line */
2315	rxvt_scr_erase_line(aR_ 0);	2304	scr_erase_line (0);
2316	break;	2305	break;
2317	case 'Y': /* move to specified row and col */	2306	case 'Y': /* move to specified row and col */
2318	/* full command is 'ESC Y row col' where row and col	2307	/* full command is 'ESC Y row col' where row and col
2319	* are encoded by adding 32 and sending the ascii	2308	* are encoded by adding 32 and sending the ascii
2320	* character. eg. SPACE = 0, '+' = 13, '0' = 18,	2309	* character. eg. SPACE = 0, '+' = 13, '0' = 18,
2321	* etc. */	2310	* etc. */
2322	row = rxvt_cmd_getc(aR) - ' ';	2311	row = cmd_getc () - ' ';
2323	col = rxvt_cmd_getc(aR) - ' ';	2312	col = cmd_getc () - ' ';
2324	rxvt_scr_gotorc(aR_ row, col, 0);	2313	scr_gotorc (row, col, 0);
2325	break;	2314	break;
2326	case 'Z': /* identify the terminal type */	2315	case 'Z': /* identify the terminal type */
2327	rxvt_tt_printf(aR_ "\033/Z"); /* I am a VT100 emulating a VT52 */	2316	tt_printf ("\033/Z"); /* I am a VT100 emulating a VT52 */
2328	break;	2317	break;
2329	case '<': /* turn off VT52 mode */	2318	case '<': /* turn off VT52 mode */
2330	PrivMode(0, PrivMode_vt52);	2319	PrivMode (0, PrivMode_vt52);
2331	break;	2320	break;
2332	case 'F': /* use special graphics character set */	2321	case 'F': /* use special graphics character set */
2333	case 'G': /* use regular character set */	2322	case 'G': /* use regular character set */
2334	/* unimplemented */	2323	/* unimplemented */
2335	break;	2324	break;
2336	case '=': /* use alternate keypad mode */	2325	case '=': /* use alternate keypad mode */
2337	case '>': /* use regular keypad mode */	2326	case '>': /* use regular keypad mode */
2338	/* unimplemented */	2327	/* unimplemented */
2339	break;	2328	break;
2340	}	2329	}
2341	}	2330	}
2342	/*}}} */	2331	/*}}} */
2343		2332
2344		2333
2345	/*{{{ process escape sequences */	2334	/*{{{ process escape sequences */
2346	/* INTPROTO */
2347	void	2335	void
2348	rxvt_process_escape_seq(pR)	2336	rxvt_term::process_escape_seq ()
2349	{	2337	{
2350	unsigned char ch = rxvt_cmd_getc(aR);	2338	unsigned char ch = cmd_getc ();
2351		2339
2352	if (R->PrivateModes & PrivMode_vt52) {	2340	if (PrivateModes & PrivMode_vt52)
2353	rxvt_process_escape_vt52(aR_ ch);
2354	return;
2355	}
2356		2341	{
		2342	process_escape_vt52 (ch);
		2343	return;
		2344	}
		2345
2357	switch (ch) {	2346	switch (ch)
		2347	{
2358	/* case 1: do_tek_mode (); break; */	2348	/* case 1: do_tek_mode (); break; */
2359	case '#':	2349	case '#':
2360	if (rxvt_cmd_getc(aR) == '8')	2350	if (cmd_getc () == '8')
2361	rxvt_scr_E(aR);	2351	scr_E ();
2362	break;	2352	break;
2363	case '(':	2353	case '(':
2364	rxvt_scr_charset_set(aR_ 0, (unsigned int)rxvt_cmd_getc(aR));	2354	scr_charset_set (0, (unsigned int)cmd_getc ());
2365	break;	2355	break;
2366	case ')':	2356	case ')':
2367	rxvt_scr_charset_set(aR_ 1, (unsigned int)rxvt_cmd_getc(aR));	2357	scr_charset_set (1, (unsigned int)cmd_getc ());
2368	break;	2358	break;
2369	case '*':	2359	case '*':
2370	rxvt_scr_charset_set(aR_ 2, (unsigned int)rxvt_cmd_getc(aR));	2360	scr_charset_set (2, (unsigned int)cmd_getc ());
2371	break;	2361	break;
2372	case '+':	2362	case '+':
2373	rxvt_scr_charset_set(aR_ 3, (unsigned int)rxvt_cmd_getc(aR));	2363	scr_charset_set (3, (unsigned int)cmd_getc ());
2374	break;	2364	break;
2375	#ifdef MULTICHAR_SET	2365	#ifdef MULTICHAR_SET
2376	case '$':	2366	case '$':
2377	rxvt_scr_charset_set(aR_ -2, (unsigned int)rxvt_cmd_getc(aR));	2367	scr_charset_set (-2, (unsigned int)cmd_getc ());
2378	break;	2368	break;
2379	#endif	2369	#endif
2380	#ifndef NO_FRILLS	2370	#ifndef NO_FRILLS
2381	case '6':	2371	case '6':
2382	rxvt_scr_backindex(aR);	2372	scr_backindex ();
2383	break;	2373	break;
2384	#endif	2374	#endif
2385	case '7':	2375	case '7':
2386	rxvt_scr_cursor(aR_ SAVE);	2376	scr_cursor (SAVE);
2387	break;	2377	break;
2388	case '8':	2378	case '8':
2389	rxvt_scr_cursor(aR_ RESTORE);	2379	scr_cursor (RESTORE);
2390	break;	2380	break;
2391	#ifndef NO_FRILLS	2381	#ifndef NO_FRILLS
2392	case '9':	2382	case '9':
2393	rxvt_scr_forwardindex(aR);	2383	scr_forwardindex ();
2394	break;	2384	break;
2395	#endif	2385	#endif
2396	case '=':	2386	case '=':
2397	case '>':	2387	case '>':
2398	PrivMode((ch == '='), PrivMode_aplKP);	2388	PrivMode ((ch == '='), PrivMode_aplKP);
2399	break;	2389	break;
2400		2390
2401	case C1_40:	2391	case C1_40:
2402	rxvt_cmd_getc(aR);	2392	cmd_getc ();
2403	break;	2393	break;
2404	case C1_44:	2394	case C1_44:
2405	rxvt_scr_index(aR_ UP);	2395	scr_index (UP);
2406	break;	2396	break;
2407		2397
2408	/* 8.3.87: NEXT LINE */	2398	/* 8.3.87: NEXT LINE */
2409	case C1_NEL: /* ESC E */	2399	case C1_NEL: /* ESC E */
2410	{	2400	{
2411	uint32_t nlcr[] = { '\n', '\r' };	2401	uint32_t nlcr[] = { '\n', '\r' };
2412	rxvt_scr_add_lines(aR_ nlcr, 1, 2);	2402	scr_add_lines (nlcr, 1, 2);
2413	}	2403	}
2414	break;	2404	break;
2415		2405
2416	/* kidnapped escape sequence: Should be 8.3.48 */	2406	/* kidnapped escape sequence: Should be 8.3.48 */
2417	case C1_ESA: /* ESC G */	2407	case C1_ESA: /* ESC G */
2418	rxvt_process_graphics(aR);	2408	process_graphics ();
2419	break;	2409	break;
2420		2410
2421	/* 8.3.63: CHARACTER TABULATION SET */	2411	/* 8.3.63: CHARACTER TABULATION SET */
2422	case C1_HTS: /* ESC H */	2412	case C1_HTS: /* ESC H */
2423	rxvt_scr_set_tab(aR_ 1);	2413	scr_set_tab (1);
2424	break;	2414	break;
2425		2415
2426	/* 8.3.105: REVERSE LINE FEED */	2416	/* 8.3.105: REVERSE LINE FEED */
2427	case C1_RI: /* ESC M */	2417	case C1_RI: /* ESC M */
2428	rxvt_scr_index(aR_ DN);	2418	scr_index (DN);
2429	break;	2419	break;
2430		2420
2431	/* 8.3.142: SINGLE-SHIFT TWO */	2421	/* 8.3.142: SINGLE-SHIFT TWO */
2432	/*case C1_SS2: scr_single_shift (2); break; */	2422	/*case C1_SS2: scr_single_shift (2); break; */
2433		2423
2434	/* 8.3.143: SINGLE-SHIFT THREE */	2424	/* 8.3.143: SINGLE-SHIFT THREE */
2435	/*case C1_SS3: scr_single_shift (3); break; */	2425	/*case C1_SS3: scr_single_shift (3); break; */
2436		2426
2437	/* 8.3.27: DEVICE CONTROL STRING */	2427	/* 8.3.27: DEVICE CONTROL STRING */
2438	case C1_DCS: /* ESC P */	2428	case C1_DCS: /* ESC P */
2439	rxvt_process_dcs_seq(aR);	2429	process_dcs_seq ();
2440	break;	2430	break;
2441		2431
2442	/* 8.3.110: SINGLE CHARACTER INTRODUCER */	2432	/* 8.3.110: SINGLE CHARACTER INTRODUCER */
2443	case C1_SCI: /* ESC Z */	2433	case C1_SCI: /* ESC Z */
2444	rxvt_tt_write(aR_ (const unsigned char *)ESCZ_ANSWER,	2434	tt_write ((const unsigned char *)ESCZ_ANSWER,
2445	(unsigned int)(sizeof(ESCZ_ANSWER) - 1));	2435	(unsigned int) (sizeof (ESCZ_ANSWER) - 1));
2446	break; /* steal obsolete ESC [ c */	2436	break; /* steal obsolete ESC [ c */
2447		2437
2448	/* 8.3.16: CONTROL SEQUENCE INTRODUCER */	2438	/* 8.3.16: CONTROL SEQUENCE INTRODUCER */
2449	case C1_CSI: /* ESC [ */	2439	case C1_CSI: /* ESC [ */
2450	rxvt_process_csi_seq(aR);	2440	process_csi_seq ();
2451	break;	2441	break;
2452		2442
2453	/* 8.3.90: OPERATING SYSTEM COMMAND */	2443	/* 8.3.90: OPERATING SYSTEM COMMAND */
2454	case C1_OSC: /* ESC ] */	2444	case C1_OSC: /* ESC ] */
2455	rxvt_process_osc_seq(aR);	2445	process_osc_seq ();
2456	break;	2446	break;
2457		2447
2458	/* 8.3.106: RESET TO INITIAL STATE */	2448	/* 8.3.106: RESET TO INITIAL STATE */
2459	case 'c':	2449	case 'c':
2460	rxvt_scr_poweron(aR);	2450	scr_poweron ();
2461	rxvt_scrollbar_show(aR_ 1);	2451	scrollbar_show (1);
2462	break;	2452	break;
2463		2453
2464	/* 8.3.79: LOCKING-SHIFT TWO (see ISO2022) */	2454	/* 8.3.79: LOCKING-SHIFT TWO (see ISO2022) */
2465	case 'n':	2455	case 'n':
2466	rxvt_scr_charset_choose(aR_ 2);	2456	scr_charset_choose (2);
2467	break;	2457	break;
2468		2458
2469	/* 8.3.81: LOCKING-SHIFT THREE (see ISO2022) */	2459	/* 8.3.81: LOCKING-SHIFT THREE (see ISO2022) */
2470	case 'o':	2460	case 'o':
2471	rxvt_scr_charset_choose(aR_ 3);	2461	scr_charset_choose (3);
2472	break;	2462	break;
2473	}	2463	}
2474	}	2464	}
2475	/*}}} */	2465	/*}}} */
2476		2466
2477	/*{{{ process CONTROL SEQUENCE INTRODUCER (CSI) sequences `ESC[' */	2467	/*{{{ process CONTROL SEQUENCE INTRODUCER (CSI) sequences `ESC[' */
2478	/* *INDENT-OFF* */	2468	/* *INDENT-OFF* */
2479	enum {	2469	enum {
2480	CSI_ICH = 0x40,	2470	CSI_ICH = 0x40,
2481	CSI_CUU, CSI_CUD, CSI_CUF, CSI_CUB, CSI_CNL, CSI_CPL, CSI_CHA,	2471	CSI_CUU, CSI_CUD, CSI_CUF, CSI_CUB, CSI_CNL, CSI_CPL, CSI_CHA,
2482	CSI_CUP, CSI_CHT, CSI_ED , CSI_EL , CSI_IL , CSI_DL , CSI_EF , CSI_EA ,	2472	CSI_CUP, CSI_CHT, CSI_ED , CSI_EL , CSI_IL , CSI_DL , CSI_EF , CSI_EA ,
2483	CSI_DCH, CSI_SEE, CSI_CPR, CSI_SU , CSI_SD , CSI_NP , CSI_PP , CSI_CTC,	2473	CSI_DCH, CSI_SEE, CSI_CPR, CSI_SU , CSI_SD , CSI_NP , CSI_PP , CSI_CTC,
2484	CSI_ECH, CSI_CVT, CSI_CBT, CSI_SRS, CSI_PTX, CSI_SDS, CSI_SIMD, CSI_5F,	2474	CSI_ECH, CSI_CVT, CSI_CBT, CSI_SRS, CSI_PTX, CSI_SDS, CSI_SIMD, CSI_5F,
2485	CSI_HPA, CSI_HPR, CSI_REP, CSI_DA , CSI_VPA, CSI_VPR, CSI_HVP, CSI_TBC,	2475	CSI_HPA, CSI_HPR, CSI_REP, CSI_DA , CSI_VPA, CSI_VPR, CSI_HVP, CSI_TBC,
2486	CSI_SM , CSI_MC , CSI_HPB, CSI_VPB, CSI_RM , CSI_SGR, CSI_DSR, CSI_DAQ,	2476	CSI_SM , CSI_MC , CSI_HPB, CSI_VPB, CSI_RM , CSI_SGR, CSI_DSR, CSI_DAQ,
2487	CSI_70 , CSI_71 , CSI_72 , CSI_73 , CSI_74 , CSI_75 , CSI_76 , CSI_77 ,	2477	CSI_70 , CSI_71 , CSI_72 , CSI_73 , CSI_74 , CSI_75 , CSI_76 , CSI_77 ,
2488	CSI_78 , CSI_79 , CSI_7A , CSI_7B , CSI_7C , CSI_7D , CSI_7E , CSI_7F	2478	CSI_78 , CSI_79 , CSI_7A , CSI_7B , CSI_7C , CSI_7D , CSI_7E , CSI_7F
2489	};	2479	};
2490		2480
2491	#define make_byte(b7,b6,b5,b4,b3,b2,b1,b0) \	2481	#define make_byte(b7,b6,b5,b4,b3,b2,b1,b0) \
2492	(((b7) << 7) | ((b6) << 6) | ((b5) << 5) | ((b4) << 4) \	2482	(((b7) << 7) | ((b6) << 6) | ((b5) << 5) | ((b4) << 4) \
2493	| ((b3) << 3) | ((b2) << 2) | ((b1) << 1) | (b0))	2483	| ((b3) << 3) | ((b2) << 2) | ((b1) << 1) | (b0))
2494	#define get_byte_array_bit(array, bit) \	2484	#define get_byte_array_bit(array, bit) \
2495	(!!((array)[(bit) / 8] & (128 >> ((bit) & 7))))	2485	(!! ((array)[ (bit) / 8] & (128 >> ((bit) & 7))))
2496		2486
2497	const unsigned char csi_defaults[] = {	2487	const unsigned char csi_defaults[] =
		2488	{
2498	make_byte(1,1,1,1,1,1,1,1), /* @, A, B, C, D, E, F, G, */	2489	make_byte (1,1,1,1,1,1,1,1), /* @, A, B, C, D, E, F, G, */
2499	make_byte(1,1,0,0,1,1,0,0), /* H, I, J, K, L, M, N, O, */	2490	make_byte (1,1,0,0,1,1,0,0), /* H, I, J, K, L, M, N, O, */
2500	make_byte(1,0,1,1,1,1,1,0), /* P, Q, R, S, T, U, V, W, */	2491	make_byte (1,0,1,1,1,1,1,0), /* P, Q, R, S, T, U, V, W, */
2501	make_byte(1,1,1,0,0,0,1,0), /* X, Y, Z, [, \, ], ^, _, */	2492	make_byte (1,1,1,0,0,0,1,0), /* X, Y, Z, [, \, ], ^, _, */
2502	make_byte(1,1,1,0,1,1,1,0), /* `, a, b, c, d, e, f, g, */	2493	make_byte (1,1,1,0,1,1,1,0), /* `, a, b, c, d, e, f, g, */
2503	make_byte(0,0,1,1,0,0,0,0), /* h, i, j, k, l, m, n, o, */	2494	make_byte (0,0,1,1,0,0,0,0), /* h, i, j, k, l, m, n, o, */
2504	make_byte(0,0,0,0,0,0,0,0), /* p, q, r, s, t, u, v, w, */	2495	make_byte (0,0,0,0,0,0,0,0), /* p, q, r, s, t, u, v, w, */
2505	make_byte(0,0,0,0,0,0,0,0) /* x, y, z, {, |, }, ~, */	2496	make_byte (0,0,0,0,0,0,0,0) /* x, y, z, {, |, }, ~, */
2506	};	2497	};
2507	/* *INDENT-ON* */	2498	/* *INDENT-ON* */
2508		2499
2509	/* INTPROTO */
2510	void	2500	void
2511	rxvt_process_csi_seq(pR)	2501	rxvt_term::process_csi_seq ()
2512	{	2502	{
2513	unsigned char ch, priv, i;	2503	unsigned char ch, priv, i;
2514	unsigned int nargs, p;	2504	unsigned int nargs, p;
2515	int n, ndef;	2505	int n, ndef;
2516	int arg[ESC_ARGS];	2506	int arg[ESC_ARGS];
2517		2507
2518	for (nargs = ESC_ARGS; nargs > 0;)	2508	for (nargs = ESC_ARGS; nargs > 0;)
2519	arg[--nargs] = 0;	2509	arg[--nargs] = 0;
2520		2510
2521	priv = 0;	2511	priv = 0;
		2512	ch = cmd_getc ();
		2513	if (ch >= '<' && ch <= '?')
		2514	{ /* '<' '=' '>' '?' */
		2515	priv = ch;
2522	ch = rxvt_cmd_getc(aR);	2516	ch = cmd_getc ();
2523	if (ch >= '<' && ch <= '?') { /* '<' '=' '>' '?' */
2524	priv = ch;
2525	ch = rxvt_cmd_getc(aR);
2526	}	2517	}
2527	/* read any numerical arguments */	2518	/* read any numerical arguments */
2528	for (n = -1; ch < CSI_ICH; ) {	2519	for (n = -1; ch < CSI_ICH; )
		2520	{
2529	if (isdigit(ch)) {	2521	if (isdigit (ch))
		2522	{
2530	if (n < 0)	2523	if (n < 0)
2531	n = ch - '0';	2524	n = ch - '0';
2532	else	2525	else
2533	n = n * 10 + ch - '0';	2526	n = n * 10 + ch - '0';
		2527	}
2534	} else if (ch == ';') {	2528	else if (ch == ';')
		2529	{
2535	if (nargs < ESC_ARGS)	2530	if (nargs < ESC_ARGS)
2536	arg[nargs++] = n;	2531	arg[nargs++] = n;
2537	n = -1;	2532	n = -1;
		2533	}
2538	} else if (ch == '\b') {	2534	else if (ch == '\b')
2539	rxvt_scr_backspace(aR);	2535	{
		2536	scr_backspace ();
		2537	}
2540	} else if (ch == C0_ESC) {	2538	else if (ch == C0_ESC)
2541	rxvt_process_escape_seq(aR);	2539	{
		2540	process_escape_seq ();
		2541	return;
		2542	}
		2543	else if (ch < ' ')
		2544	{
		2545	process_nonprinting (ch);
		2546	}
		2547	ch = cmd_getc ();
		2548	}
		2549
		2550	if (ch > CSI_7F)
2542	return;	2551	return;
2543	} else if (ch < ' ') {
2544	rxvt_process_nonprinting(aR_ ch);
2545	}
2546	ch = rxvt_cmd_getc(aR);
2547	}
2548		2552
2549	if (ch > CSI_7F)
2550	return;
2551
2552	if (nargs < ESC_ARGS)	2553	if (nargs < ESC_ARGS)
2553	arg[nargs++] = n;	2554	arg[nargs++] = n;
2554		2555
2555	i = ch - CSI_ICH;	2556	i = ch - CSI_ICH;
2556	ndef = get_byte_array_bit(csi_defaults, i);	2557	ndef = get_byte_array_bit (csi_defaults, i);
2557	for (p = 0; p < nargs; p++)	2558	for (p = 0; p < nargs; p++)
2558	if (arg[p] == -1)	2559	if (arg[p] == -1)
2559	arg[p] = ndef;	2560	arg[p] = ndef;
2560		2561
2561	#ifdef DEBUG_CMD	2562	#ifdef DEBUG_CMD
2562	fprintf(stderr, "CSI ");	2563	fprintf (stderr, "CSI ");
2563	for (p = 0; p < nargs; p++)	2564	for (p = 0; p < nargs; p++)
2564	fprintf(stderr, "%d%s", arg[p], p < nargs - 1 ? ";" : "");	2565	fprintf (stderr, "%d%s", arg[p], p < nargs - 1 ? ";" : "");
2565	fprintf(stderr, "%c\n", ch);	2566	fprintf (stderr, "%c\n", ch);
2566	#endif	2567	#endif
2567		2568
2568	/*	2569	/*
2569	* private mode handling	2570	* private mode handling
2570	*/	2571	*/
2571	if (priv) {	2572	if (priv)
2572	switch (priv) {	2573	{
2573	case '>':	2574	switch (priv)
		2575	{
		2576	case '>':
2574	if (ch == CSI_DA) /* secondary device attributes */	2577	if (ch == CSI_DA) /* secondary device attributes */
2575	rxvt_tt_printf(aR_ "\033[>%d;%-.8s;0c", 'R', VSTRING);	2578	tt_printf ("\033[>%d;%-.8s;0c", 'R', VSTRING);
2576	break;	2579	break;
2577	case '?':	2580	case '?':
2578	if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't')	2581	if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't')
2579	rxvt_process_terminal_mode(aR_ ch, priv, nargs, arg);	2582	process_terminal_mode (ch, priv, nargs, arg);
2580	break;	2583	break;
2581	}	2584	}
2582	return;	2585	return;
2583	}	2586	}
2584		2587
2585	switch (ch) {	2588	switch (ch)
2586	/*	2589	{
		2590	/*
2587	* ISO/IEC 6429:1992(E) CSI sequences (defaults in parentheses)	2591	* ISO/IEC 6429:1992 (E) CSI sequences (defaults in parentheses)
2588	*/	2592	*/
2589	#ifdef PRINTPIPE	2593	#ifdef PRINTPIPE
2590	case CSI_MC: /* 8.3.83: (0) MEDIA COPY */	2594	case CSI_MC: /* 8.3.83: (0) MEDIA COPY */
2591	switch (arg[0]) {	2595	switch (arg[0])
		2596	{
2592	case 0: /* initiate transfer to primary aux device */	2597	case 0: /* initiate transfer to primary aux device */
2593	rxvt_scr_printscreen(aR_ 0);	2598	scr_printscreen (0);
2594	break;	2599	break;
2595	case 5: /* start relay to primary aux device */	2600	case 5: /* start relay to primary aux device */
2596	rxvt_process_print_pipe(aR);	2601	process_print_pipe ();
		2602	break;
		2603	}
2597	break;	2604	break;
2598	}
2599	break;
2600	#endif	2605	#endif
2601		2606
2602	case CSI_CUU: /* 8.3.22: (1) CURSOR UP */	2607	case CSI_CUU: /* 8.3.22: (1) CURSOR UP */
2603	case CSI_VPR: /* 8.3.161: (1) LINE POSITION FORWARD */	2608	case CSI_VPR: /* 8.3.161: (1) LINE POSITION FORWARD */
2604	arg[0] = -arg[0];	2609	arg[0] = -arg[0];
2605	/* FALLTHROUGH */	2610	/* FALLTHROUGH */
2606	case CSI_CUD: /* 8.3.19: (1) CURSOR DOWN */	2611	case CSI_CUD: /* 8.3.19: (1) CURSOR DOWN */
2607	case CSI_VPB: /* 8.3.160: (1) LINE POSITION BACKWARD */	2612	case CSI_VPB: /* 8.3.160: (1) LINE POSITION BACKWARD */
2608	rxvt_scr_gotorc(aR_ arg[0], 0, RELATIVE);	2613	scr_gotorc (arg[0], 0, RELATIVE);
2609	break;	2614	break;
2610		2615
2611	case CSI_CUB: /* 8.3.18: (1) CURSOR LEFT */	2616	case CSI_CUB: /* 8.3.18: (1) CURSOR LEFT */
2612	case CSI_HPB: /* 8.3.59: (1) CHARACTER POSITION BACKWARD */	2617	case CSI_HPB: /* 8.3.59: (1) CHARACTER POSITION BACKWARD */
2613	#ifdef ISO6429	2618	#ifdef ISO6429
2614	arg[0] = -arg[0];	2619	arg[0] = -arg[0];
2615	#else /* emulate common DEC VTs */	2620	#else /* emulate common DEC VTs */
2616	arg[0] = arg[0] ? -arg[0] : -1;	2621	arg[0] = arg[0] ? -arg[0] : -1;
2617	#endif	2622	#endif
2618	/* FALLTHROUGH */	2623	/* FALLTHROUGH */
2619	case CSI_CUF: /* 8.3.20: (1) CURSOR RIGHT */	2624	case CSI_CUF: /* 8.3.20: (1) CURSOR RIGHT */
2620	case CSI_HPR: /* 8.3.60: (1) CHARACTER POSITION FORWARD */	2625	case CSI_HPR: /* 8.3.60: (1) CHARACTER POSITION FORWARD */
2621	#ifdef ISO6429	2626	#ifdef ISO6429
2622	rxvt_scr_gotorc(aR_ 0, arg[0], RELATIVE);	2627	scr_gotorc (0, arg[0], RELATIVE);
2623	#else /* emulate common DEC VTs */	2628	#else /* emulate common DEC VTs */
2624	rxvt_scr_gotorc(aR_ 0, arg[0] ? arg[0] : 1, RELATIVE);	2629	scr_gotorc (0, arg[0] ? arg[0] : 1, RELATIVE);
2625	#endif	2630	#endif
2626	break;	2631	break;
2627		2632
2628	case CSI_CPL: /* 8.3.13: (1) CURSOR PRECEDING LINE */	2633	case CSI_CPL: /* 8.3.13: (1) CURSOR PRECEDING LINE */
2629	arg[0] = -arg[0];	2634	arg[0] = -arg[0];
2630	/* FALLTHROUGH */	2635	/* FALLTHROUGH */
2631	case CSI_CNL: /* 8.3.12: (1) CURSOR NEXT LINE */	2636	case CSI_CNL: /* 8.3.12: (1) CURSOR NEXT LINE */
2632	rxvt_scr_gotorc(aR_ arg[0], 0, R_RELATIVE);	2637	scr_gotorc (arg[0], 0, R_RELATIVE);
2633	break;	2638	break;
2634		2639
2635	case CSI_CHA: /* 8.3.9: (1) CURSOR CHARACTER ABSOLUTE */	2640	case CSI_CHA: /* 8.3.9: (1) CURSOR CHARACTER ABSOLUTE */
2636	case CSI_HPA: /* 8.3.58: (1) CURSOR POSITION ABSOLUTE */	2641	case CSI_HPA: /* 8.3.58: (1) CURSOR POSITION ABSOLUTE */
2637	rxvt_scr_gotorc(aR_ 0, arg[0] - 1, R_RELATIVE);	2642	scr_gotorc (0, arg[0] - 1, R_RELATIVE);
2638	break;	2643	break;
2639		2644
2640	case CSI_VPA: /* 8.3.159: (1) LINE POSITION ABSOLUTE */	2645	case CSI_VPA: /* 8.3.159: (1) LINE POSITION ABSOLUTE */
2641	rxvt_scr_gotorc(aR_ arg[0] - 1, 0, C_RELATIVE);	2646	scr_gotorc (arg[0] - 1, 0, C_RELATIVE);
2642	break;	2647	break;
2643		2648
2644	case CSI_CUP: /* 8.3.21: (1,1) CURSOR POSITION */	2649	case CSI_CUP: /* 8.3.21: (1,1) CURSOR POSITION */
2645	case CSI_HVP: /* 8.3.64: (1,1) CHARACTER AND LINE POSITION */	2650	case CSI_HVP: /* 8.3.64: (1,1) CHARACTER AND LINE POSITION */
2646	rxvt_scr_gotorc(aR_ arg[0] - 1, nargs < 2 ? 0 : (arg[1] - 1), 0);	2651	scr_gotorc (arg[0] - 1, nargs < 2 ? 0 : (arg[1] - 1), 0);
2647	break;	2652	break;
2648		2653
2649	case CSI_CBT: /* 8.3.7: (1) CURSOR BACKWARD TABULATION */	2654	case CSI_CBT: /* 8.3.7: (1) CURSOR BACKWARD TABULATION */
2650	arg[0] = -arg[0];	2655	arg[0] = -arg[0];
2651	/* FALLTHROUGH */	2656	/* FALLTHROUGH */
2652	case CSI_CHT: /* 8.3.10: (1) CURSOR FORWARD TABULATION */	2657	case CSI_CHT: /* 8.3.10: (1) CURSOR FORWARD TABULATION */
2653	rxvt_scr_tab(aR_ arg[0]);	2658	scr_tab (arg[0]);
2654	break;	2659	break;
2655		2660
2656	case CSI_ED: /* 8.3.40: (0) ERASE IN PAGE */	2661	case CSI_ED: /* 8.3.40: (0) ERASE IN PAGE */
2657	rxvt_scr_erase_screen(aR_ arg[0]);	2662	scr_erase_screen (arg[0]);
2658	break;	2663	break;
2659		2664
2660	case CSI_EL: /* 8.3.42: (0) ERASE IN LINE */	2665	case CSI_EL: /* 8.3.42: (0) ERASE IN LINE */
2661	rxvt_scr_erase_line(aR_ arg[0]);	2666	scr_erase_line (arg[0]);
2662	break;	2667	break;
2663		2668
2664	case CSI_ICH: /* 8.3.65: (1) INSERT CHARACTER */	2669	case CSI_ICH: /* 8.3.65: (1) INSERT CHARACTER */
2665	rxvt_scr_insdel_chars(aR_ arg[0], INSERT);	2670	scr_insdel_chars (arg[0], INSERT);
2666	break;	2671	break;
2667		2672
2668	case CSI_IL: /* 8.3.68: (1) INSERT LINE */	2673	case CSI_IL: /* 8.3.68: (1) INSERT LINE */
2669	rxvt_scr_insdel_lines(aR_ arg[0], INSERT);	2674	scr_insdel_lines (arg[0], INSERT);
2670	break;	2675	break;
2671		2676
2672	case CSI_DL: /* 8.3.33: (1) DELETE LINE */	2677	case CSI_DL: /* 8.3.33: (1) DELETE LINE */
2673	rxvt_scr_insdel_lines(aR_ arg[0], DELETE);	2678	scr_insdel_lines (arg[0], DELETE);
2674	break;	2679	break;
2675		2680
2676	case CSI_ECH: /* 8.3.39: (1) ERASE CHARACTER */	2681	case CSI_ECH: /* 8.3.39: (1) ERASE CHARACTER */
2677	rxvt_scr_insdel_chars(aR_ arg[0], ERASE);	2682	scr_insdel_chars (arg[0], ERASE);
2678	break;	2683	break;
2679		2684
2680	case CSI_DCH: /* 8.3.26: (1) DELETE CHARACTER */	2685	case CSI_DCH: /* 8.3.26: (1) DELETE CHARACTER */
2681	rxvt_scr_insdel_chars(aR_ arg[0], DELETE);	2686	scr_insdel_chars (arg[0], DELETE);
2682	break;	2687	break;
2683		2688
2684	case CSI_SD: /* 8.3.114: (1) SCROLL DOWN */	2689	case CSI_SD: /* 8.3.114: (1) SCROLL DOWN */
2685	arg[0] = -arg[0];	2690	arg[0] = -arg[0];
2686	/* FALLTHROUGH */	2691	/* FALLTHROUGH */
2687	case CSI_SU: /* 8.3.148: (1) SCROLL UP */	2692	case CSI_SU: /* 8.3.148: (1) SCROLL UP */
2688	rxvt_scroll_text(aR_ R->screen.tscroll, R->screen.bscroll, arg[0], 0);	2693	scr_scroll_text (screen.tscroll, screen.bscroll, arg[0], 0);
2689	break;	2694	break;
2690		2695
2691	case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */	2696	case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */
2692	rxvt_tt_write(aR_ (const unsigned char *)VT100_ANS,	2697	tt_write ((const unsigned char *)VT100_ANS,
2693	(unsigned int)(sizeof(VT100_ANS) - 1));	2698	(unsigned int) (sizeof (VT100_ANS) - 1));
2694	break;	2699	break;
2695		2700
2696	case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */	2701	case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */
2697	rxvt_process_sgr_mode(aR_ nargs, arg);	2702	process_sgr_mode (nargs, arg);
2698	break;	2703	break;
2699		2704
2700	case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */	2705	case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */
2701	switch (arg[0]) {	2706	switch (arg[0])
		2707	{
2702	case 5: /* DSR requested */	2708	case 5: /* DSR requested */
2703	rxvt_tt_printf(aR_ "\033[0n");	2709	tt_printf ("\033[0n");
2704	break;	2710	break;
2705	case 6: /* CPR requested */	2711	case 6: /* CPR requested */
2706	rxvt_scr_report_position(aR);	2712	scr_report_position ();
2707	break;	2713	break;
2708	#if defined (ENABLE_DISPLAY_ANSWER)	2714	#if defined (ENABLE_DISPLAY_ANSWER)
2709	case 7: /* unofficial extension */	2715	case 7: /* unofficial extension */
2710	rxvt_tt_printf(aR_ "%-.250s\n", R->rs[Rs_display_name]);	2716	tt_printf ("%-.250s\n", rs[Rs_display_name]);
2711	break;	2717	break;
2712	#endif	2718	#endif
2713	case 8: /* unofficial extension */	2719	case 8: /* unofficial extension */
2714	rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST);	2720	xterm_seq (XTerm_title, APL_NAME "-" VERSION, CHAR_ST);
		2721	break;
		2722	}
2715	break;	2723	break;
2716	}
2717	break;
2718		2724
2719	case CSI_TBC: /* 8.3.155: (0) TABULATION CLEAR */	2725	case CSI_TBC: /* 8.3.155: (0) TABULATION CLEAR */
2720	switch (arg[0]) {	2726	switch (arg[0])
		2727	{
2721	case 0: /* char tab stop cleared at active position */	2728	case 0: /* char tab stop cleared at active position */
2722	rxvt_scr_set_tab(aR_ 0);	2729	scr_set_tab (0);
2723	break;	2730	break;
2724	/* case 1: */ /* line tab stop cleared in active line */	2731	/* case 1: */ /* line tab stop cleared in active line */
2725	/* case 2: */ /* char tab stops cleared in active line */	2732	/* case 2: */ /* char tab stops cleared in active line */
2726	case 3: /* all char tab stops are cleared */	2733	case 3: /* all char tab stops are cleared */
2727	/* case 4: */ /* all line tab stops are cleared */	2734	/* case 4: */ /* all line tab stops are cleared */
2728	case 5: /* all tab stops are cleared */	2735	case 5: /* all tab stops are cleared */
2729	rxvt_scr_set_tab(aR_ -1);	2736	scr_set_tab (-1);
		2737	break;
		2738	}
2730	break;	2739	break;
2731	}
2732	break;
2733		2740
2734	case CSI_CTC: /* 8.3.17: (0) CURSOR TABULATION CONTROL */	2741	case CSI_CTC: /* 8.3.17: (0) CURSOR TABULATION CONTROL */
2735	switch (arg[0]) {	2742	switch (arg[0])
		2743	{
2736	case 0: /* char tab stop set at active position */	2744	case 0: /* char tab stop set at active position */
2737	rxvt_scr_set_tab(aR_ 1);	2745	scr_set_tab (1);
2738	break; /* = ESC H */	2746	break; /* = ESC H */
2739	/* case 1: */ /* line tab stop set at active line */	2747	/* case 1: */ /* line tab stop set at active line */
2740	case 2: /* char tab stop cleared at active position */	2748	case 2: /* char tab stop cleared at active position */
2741	rxvt_scr_set_tab(aR_ 0);	2749	scr_set_tab (0);
2742	break; /* = ESC [ 0 g */	2750	break; /* = ESC [ 0 g */
2743	/* case 3: */ /* line tab stop cleared at active line */	2751	/* case 3: */ /* line tab stop cleared at active line */
2744	/* case 4: */ /* char tab stops cleared at active line */	2752	/* case 4: */ /* char tab stops cleared at active line */
2745	case 5: /* all char tab stops are cleared */	2753	case 5: /* all char tab stops are cleared */
2746	rxvt_scr_set_tab(aR_ -1);	2754	scr_set_tab (-1);
2747	break; /* = ESC [ 3 g */	2755	break; /* = ESC [ 3 g */
2748	/* case 6: */ /* all line tab stops are cleared */	2756	/* case 6: */ /* all line tab stops are cleared */
2749	}	2757	}
2750	break;	2758	break;
2751		2759
2752	case CSI_RM: /* 8.3.107: RESET MODE */	2760	case CSI_RM: /* 8.3.107: RESET MODE */
2753	if (arg[0] == 4)	2761	if (arg[0] == 4)
2754	rxvt_scr_insert_mode(aR_ 0);	2762	scr_insert_mode (0);
2755	break;	2763	break;
2756		2764
2757	case CSI_SM: /* 8.3.126: SET MODE */	2765	case CSI_SM: /* 8.3.126: SET MODE */
2758	if (arg[0] == 4)	2766	if (arg[0] == 4)
2759	rxvt_scr_insert_mode(aR_ 1);	2767	scr_insert_mode (1);
2760	break;	2768	break;
2761		2769
2762	/*	2770	/*
2763	* PRIVATE USE beyond this point. All CSI_7? sequences here	2771	* PRIVATE USE beyond this point. All CSI_7? sequences here
2764	*/	2772	*/
2765	case CSI_72: /* DECSTBM: set top and bottom margins */	2773	case CSI_72: /* DECSTBM: set top and bottom margins */
2766	if (nargs == 1)	2774	if (nargs == 1)
2767	rxvt_scr_scroll_region(aR_ arg[0] - 1, MAX_ROWS - 1);	2775	scr_scroll_region (arg[0] - 1, MAX_ROWS - 1);
2768	else if (nargs == 0 || arg[0] >= arg[1])	2776	else if (nargs == 0 || arg[0] >= arg[1])
2769	rxvt_scr_scroll_region(aR_ 0, MAX_ROWS - 1);	2777	scr_scroll_region (0, MAX_ROWS - 1);
2770	else	2778	else
2771	rxvt_scr_scroll_region(aR_ arg[0] - 1, arg[1] - 1);	2779	scr_scroll_region (arg[0] - 1, arg[1] - 1);
2772	break;	2780	break;
2773		2781
2774	case CSI_73:	2782	case CSI_73:
2775	rxvt_scr_cursor(aR_ SAVE);	2783	scr_cursor (SAVE);
2776	break;	2784	break;
2777	case CSI_75:	2785	case CSI_75:
2778	rxvt_scr_cursor(aR_ RESTORE);	2786	scr_cursor (RESTORE);
2779	break;	2787	break;
2780		2788
2781	#ifndef NO_FRILLS	2789	#ifndef NO_FRILLS
2782	case CSI_74:	2790	case CSI_74:
2783	rxvt_process_window_ops(aR_ arg, nargs);	2791	process_window_ops (arg, nargs);
2784	break;	2792	break;
2785	#endif	2793	#endif
2786		2794
2787	case CSI_78: /* DECREQTPARM */	2795	case CSI_78: /* DECREQTPARM */
2788	if (arg[0] == 0 || arg[0] == 1)	2796	if (arg[0] == 0 || arg[0] == 1)
2789	rxvt_tt_printf(aR_ "\033[%d;1;1;112;112;1;0x", arg[0] + 2);	2797	tt_printf ("\033[%d;1;1;128;128;1;0x", arg[0] + 2);
2790	/* FALLTHROUGH */	2798	/* FALLTHROUGH */
2791		2799
2792	default:	2800	default:
2793	break;	2801	break;
2794	}	2802	}
2795	}	2803	}
2796	/*}}} */	2804	/*}}} */
2797		2805
2798	#ifndef NO_FRILLS	2806	#ifndef NO_FRILLS
2799	/* ARGSUSED */	2807	/* ARGSUSED */
2800	/* INTPROTO */
2801	void	2808	void
2802	rxvt_process_window_ops(pR_ const int *args, unsigned int nargs)	2809	rxvt_term::process_window_ops (const int *args, unsigned int nargs)
2803	{	2810	{
2804	int x, y;	2811	int x, y;
2805	#if 0	2812	#if 0
2806	char *s;	2813	char *s;
2807	#endif	2814	#endif
2808	XWindowAttributes wattr;	2815	XWindowAttributes wattr;
2809	Window wdummy;	2816	Window wdummy;
2810		2817
2811	if (nargs == 0)	2818	if (nargs == 0)
2812	return;	2819	return;
2813	switch (args[0]) {	2820	switch (args[0])
		2821	{
2814	/*	2822	/*
2815	* commands	2823	* commands
2816	*/	2824	*/
2817	case 1: /* deiconify window */	2825	case 1: /* deiconify window */
2818	XMapWindow(R->Xdisplay, R->TermWin.parent[0]);	2826	XMapWindow (display->display, TermWin.parent[0]);
2819	break;	2827	break;
2820	case 2: /* iconify window */	2828	case 2: /* iconify window */
2821	XIconifyWindow(R->Xdisplay, R->TermWin.parent[0],	2829	XIconifyWindow (display->display, TermWin.parent[0],
2822	DefaultScreen(R->Xdisplay));	2830	DefaultScreen (display->display));
2823	break;	2831	break;
2824	case 3: /* set position (pixels) */	2832	case 3: /* set position (pixels) */
2825	XMoveWindow(R->Xdisplay, R->TermWin.parent[0], args[1], args[2]);	2833	XMoveWindow (display->display, TermWin.parent[0], args[1], args[2]);
2826	break;	2834	break;
2827	case 4: /* set size (pixels) */	2835	case 4: /* set size (pixels) */
2828	rxvt_set_widthheight(aR_ (unsigned int)args[2], (unsigned int)args[1]);	2836	set_widthheight ((unsigned int)args[2], (unsigned int)args[1]);
2829	break;	2837	break;
2830	case 5: /* raise window */	2838	case 5: /* raise window */
2831	XRaiseWindow(R->Xdisplay, R->TermWin.parent[0]);	2839	XRaiseWindow (display->display, TermWin.parent[0]);
2832	break;	2840	break;
2833	case 6: /* lower window */	2841	case 6: /* lower window */
2834	XLowerWindow(R->Xdisplay, R->TermWin.parent[0]);	2842	XLowerWindow (display->display, TermWin.parent[0]);
2835	break;	2843	break;
2836	case 7: /* refresh window */	2844	case 7: /* refresh window */
2837	rxvt_scr_touch(aR_ True);	2845	scr_touch (true);
2838	break;	2846	break;
2839	case 8: /* set size (chars) */	2847	case 8: /* set size (chars) */
2840	rxvt_set_widthheight(aR_ (unsigned int)(args[2] * R->TermWin.fwidth),	2848	set_widthheight ((unsigned int) (args[2] * TermWin.fwidth),
2841	(unsigned int)(args[1] * R->TermWin.fheight));	2849	(unsigned int) (args[1] * TermWin.fheight));
2842	break;	2850	break;
2843	default:	2851	default:
2844	if (args[0] >= 24) /* set height (chars) */	2852	if (args[0] >= 24) /* set height (chars) */
2845	rxvt_set_widthheight(aR_ (unsigned int)R->TermWin.width,	2853	set_widthheight ((unsigned int)TermWin.width,
2846	(unsigned int)(args[1] * R->TermWin.fheight));	2854	(unsigned int) (args[1] * TermWin.fheight));
2847	break;	2855	break;
2848	/*	2856	/*
2849	* reports - some output format copied from XTerm	2857	* reports - some output format copied from XTerm
2850	*/	2858	*/
2851	case 11: /* report window state */	2859	case 11: /* report window state */
2852	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2860	XGetWindowAttributes (display->display, TermWin.parent[0], &wattr);
2853	rxvt_tt_printf(aR_ "\033[%dt", wattr.map_state == IsViewable ? 1 : 2);	2861	tt_printf ("\033[%dt", wattr.map_state == IsViewable ? 1 : 2);
2854	break;	2862	break;
2855	case 13: /* report window position */	2863	case 13: /* report window position */
2856	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2864	XGetWindowAttributes (display->display, TermWin.parent[0], &wattr);
2857	XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], wattr.root,	2865	XTranslateCoordinates (display->display, TermWin.parent[0], wattr.root,
2858	-wattr.border_width, -wattr.border_width,	2866	-wattr.border_width, -wattr.border_width,
2859	&x, &y, &wdummy);	2867	&x, &y, &wdummy);
2860	rxvt_tt_printf(aR_ "\033[3;%d;%dt", x, y);	2868	tt_printf ("\033[3;%d;%dt", x, y);
2861	break;	2869	break;
2862	case 14: /* report window size (pixels) */	2870	case 14: /* report window size (pixels) */
2863	XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);	2871	XGetWindowAttributes (display->display, TermWin.parent[0], &wattr);
2864	rxvt_tt_printf(aR_ "\033[4;%d;%dt", wattr.height, wattr.width);	2872	tt_printf ("\033[4;%d;%dt", wattr.height, wattr.width);
2865	break;	2873	break;
2866	case 18: /* report window size (chars) */	2874	case 18: /* report window size (chars) */
2867	rxvt_tt_printf(aR_ "\033[8;%d;%dt", R->TermWin.nrow, R->TermWin.ncol);	2875	tt_printf ("\033[8;%d;%dt", TermWin.nrow, TermWin.ncol);
2868	break;	2876	break;
2869	#if 0 /* XXX: currently disabled due to security concerns */	2877	#if 0 /* XXX: currently disabled due to security concerns */
2870	case 20: /* report icon label */	2878	case 20: /* report icon label */
2871	XGetIconName(R->Xdisplay, R->TermWin.parent[0], &s);	2879	XGetIconName (display->display, TermWin.parent[0], &s);
2872	rxvt_tt_printf(aR_ "\033]L%-.200s\234", s ? s : ""); /* 8bit ST */	2880	tt_printf ("\033]L%-.200s\234", s ? s : ""); /* 8bit ST */
2873	break;	2881	break;
2874	case 21: /* report window title */	2882	case 21: /* report window title */
2875	XFetchName(R->Xdisplay, R->TermWin.parent[0], &s);	2883	XFetchName (display->display, TermWin.parent[0], &s);
2876	rxvt_tt_printf(aR_ "\033]l%-.200s\234", s ? s : ""); /* 8bit ST */	2884	tt_printf ("\033]l%-.200s\234", s ? s : ""); /* 8bit ST */
2877	break;	2885	break;
2878	#endif	2886	#endif
		2887
2879	}	2888	}
2880	}	2889	}
2881	#endif	2890	#endif
2882		2891
2883	/*----------------------------------------------------------------------*/	2892	/*----------------------------------------------------------------------*/
2884	/*	2893	/*
2885	* get input up until STRING TERMINATOR (or BEL)	2894	* get input up until STRING TERMINATOR (or BEL)
2886	* ends_how is terminator used. returned input must be free()d	2895	* ends_how is terminator used. returned input must be free ()d
2887	*/	2896	*/
2888	/* INTPROTO */
2889	unsigned char *	2897	unsigned char *
2890	rxvt_get_to_st(pR_ unsigned char *ends_how)	2898	rxvt_term::get_to_st (unsigned char *ends_how)
2891	{	2899	{
2892	int seen_esc = 0; /* seen escape? */	2900	int seen_esc = 0; /* seen escape? */
2893	unsigned int n = 0;	2901	unsigned int n = 0;
2894	unsigned char *s;	2902	unsigned char *s;
2895	unsigned char ch, string[STRING_MAX];	2903	unsigned char ch, string[STRING_MAX];
2896		2904
2897	for (; (ch = rxvt_cmd_getc(aR));) {	2905	for (; (ch = cmd_getc ());)
		2906	{
2898	if (ch == C0_BEL	2907	if (ch == C0_BEL
2899	|| ch == CHAR_ST	2908	|| ch == CHAR_ST
2900	|| (ch == 0x5c && seen_esc)) /* 7bit ST */	2909	|| (ch == 0x5c && seen_esc)) /* 7bit ST */
2901	break;	2910	break;
2902	if (ch == C0_ESC) {	2911	if (ch == C0_ESC)
		2912	{
2903	seen_esc = 1;	2913	seen_esc = 1;
2904	continue;	2914	continue;
		2915	}
2905	} else if (ch == '\t')	2916	else if (ch == '\t')
2906	ch = ' '; /* translate '\t' to space */	2917	ch = ' '; /* translate '\t' to space */
2907	else if (ch < 0x08 || (ch > 0x0d && ch < 0x20))	2918	else if (ch < 0x08 || (ch > 0x0d && ch < 0x20))
2908	return NULL; /* other control character - exit */	2919	return NULL; /* other control character - exit */
2909	if (n < sizeof(string) - 1)	2920	if (n < sizeof (string) - 1)
2910	string[n++] = ch;	2921	string[n++] = ch;
2911	seen_esc = 0;	2922	seen_esc = 0;
2912	}	2923	}
2913	string[n++] = '\0';	2924	string[n++] = '\0';
2914	if ((s = (unsigned char *)rxvt_malloc(n)) == NULL)	2925	if ((s = (unsigned char *)rxvt_malloc (n)) == NULL)
2915	return NULL;	2926	return NULL;
2916	*ends_how = (ch == 0x5c ? C0_ESC : ch);	2927	*ends_how = (ch == 0x5c ? C0_ESC : ch);
2917	STRNCPY(s, string, n);	2928	STRNCPY (s, string, n);
2918	return s;	2929	return s;
2919	}	2930	}
2920		2931
2921	/*----------------------------------------------------------------------*/	2932	/*----------------------------------------------------------------------*/
2922	/*	2933	/*
2923	* process DEVICE CONTROL STRING `ESC P ... (ST|BEL)' or `0x90 ... (ST|BEL)'	2934	* process DEVICE CONTROL STRING `ESC P ... (ST|BEL)' or `0x90 ... (ST|BEL)'
2924	*/	2935	*/
2925	/* INTPROTO */
2926	void	2936	void
2927	rxvt_process_dcs_seq(pR)	2937	rxvt_term::process_dcs_seq ()
2928	{	2938	{
2929	unsigned char eh, *s;	2939	unsigned char eh, *s;
2930	/*	2940	/*
2931	* Not handled yet	2941	* Not handled yet
2932	*/	2942	*/
2933	s = rxvt_get_to_st(aR_ &eh);	2943	s = get_to_st (&eh);
2934	if (s)	2944	if (s)
2935	free(s);	2945	free (s);
2936	return;	2946	return;
2937	}	2947	}
2938		2948
2939	/*----------------------------------------------------------------------*/	2949	/*----------------------------------------------------------------------*/
2940	/*	2950	/*
2941	* process OPERATING SYSTEM COMMAND sequence `ESC ] Ps ; Pt (ST|BEL)'	2951	* process OPERATING SYSTEM COMMAND sequence `ESC ] Ps ; Pt (ST|BEL)'
2942	*/	2952	*/
2943	/* INTPROTO */
2944	void	2953	void
2945	rxvt_process_osc_seq(pR)	2954	rxvt_term::process_osc_seq ()
2946	{	2955	{
2947	unsigned char ch, eh, *s;	2956	unsigned char ch, eh, *s;
2948	int arg;	2957	int arg;
2949		2958
2950	ch = rxvt_cmd_getc(aR);	2959	ch = cmd_getc ();
2951	for (arg = 0; isdigit(ch); ch = rxvt_cmd_getc(aR))	2960	for (arg = 0; isdigit (ch); ch = cmd_getc ())
2952	arg = arg * 10 + (ch - '0');	2961	arg = arg * 10 + (ch - '0');
2953		2962
2954	if (ch == ';') {	2963	if (ch == ';')
2955	s = rxvt_get_to_st(aR_ &eh);	2964	{
2956	if (s) {	2965	s = get_to_st (&eh);
2957	/*	2966	if (s)
		2967	{
		2968	/*
2958	* rxvt_menubar_dispatch() violates the constness of the string,	2969	* rxvt_menubar_dispatch () violates the constness of the string,
2959	* so do it here	2970	* so do it here
2960	*/	2971	*/
2961	if (arg == XTerm_Menu)	2972	if (arg == XTerm_Menu)
2962	#if 0 /* XXX: currently disabled due to security concerns */	2973	#if 0 /* XXX: currently disabled due to security concerns */
2963	rxvt_menubar_dispatch(aR_ (char *)s);	2974	menubar_dispatch ((char *)s);
2964	#else	2975	#else
2965	0;	2976	(void)0;
2966	#endif	2977	#endif
2967	else	2978	else
2968	rxvt_xterm_seq(aR_ arg, (char *)s, eh);	2979	xterm_seq (arg, (char *)s, eh);
2969	free(s);	2980	free (s);
2970	}	2981	}
2971	}	2982	}
2972	}	2983	}
2973	/*	2984	/*
2974	* XTerm escape sequences: ESC ] Ps;Pt (ST|BEL)	2985	* XTerm escape sequences: ESC ] Ps;Pt (ST|BEL)
2975	* 0 = change iconName/title	2986	* 0 = change iconName/title
…		…
2983	* 19 = change underlined character color	2994	* 19 = change underlined character color
2984	* 46 = change logfile (not implemented)	2995	* 46 = change logfile (not implemented)
2985	* 50 = change font	2996	* 50 = change font
2986	*	2997	*
2987	* rxvt extensions:	2998	* rxvt extensions:
		2999	* 9 = change locale (NYI)
2988	* 10 = menu (may change in future)	3000	* 10 = menu (may change in future)
2989	* 20 = bg pixmap	3001	* 20 = bg pixmap
2990	* 39 = change default fg color	3002	* 39 = change default fg color
2991	* 49 = change default bg color	3003	* 49 = change default bg color
2992	* 55 = dump scrollback buffer and all of screen	3004	* 55 = dump scrollback buffer and all of screen
2993	*/	3005	*/
2994	/* EXTPROTO */
2995	void	3006	void
2996	rxvt_xterm_seq(pR_ int op, const char *str, unsigned char resp __attribute__((unused)))	3007	rxvt_term::xterm_seq (int op, const char *str, unsigned char resp __attribute__ ((unused)))
2997	{	3008	{
2998	int changed = 0;	3009	int changed = 0;
2999	int color;	3010	int color;
3000	char *buf, *name;	3011	char *buf, *name;
3001		3012
3002	assert(str != NULL);	3013	assert (str != NULL);
3003	switch (op) {	3014	switch (op)
		3015	{
3004	case XTerm_name:	3016	case XTerm_name:
3005	rxvt_set_title(aR_ str);	3017	set_title (str);
3006	/* FALLTHROUGH */	3018	/* FALLTHROUGH */
3007	case XTerm_iconName:	3019	case XTerm_iconName:
3008	rxvt_set_iconName(aR_ str);	3020	set_iconName (str);
3009	break;	3021	break;
3010	case XTerm_title:	3022	case XTerm_title:
3011	rxvt_set_title(aR_ str);	3023	set_title (str);
3012	break;	3024	break;
3013	case XTerm_Color:	3025	case XTerm_Color:
3014	for (buf = (char *)str; buf && *buf;) {	3026	for (buf = (char *)str; buf && *buf;)
		3027	{
3015	if ((name = STRCHR(buf, ';')) == NULL)	3028	if ((name = STRCHR (buf, ';')) == NULL)
3016	break;	3029	break;
3017	*name++ = '\0';	3030	*name++ = '\0';
3018	color = atoi(buf);	3031	color = atoi (buf);
3019	if (color < 0 || color >= TOTAL_COLORS)	3032	if (color < 0 || color >= TOTAL_COLORS)
3020	break;	3033	break;
3021	if ((buf = STRCHR(name, ';')) != NULL)	3034	if ((buf = STRCHR (name, ';')) != NULL)
3022	*buf++ = '\0';	3035	*buf++ = '\0';
3023	rxvt_set_window_color(aR_ color + minCOLOR, name);	3036	set_window_color (color + minCOLOR, name);
3024	}	3037	}
3025	break;	3038	break;
3026	#ifndef NO_CURSORCOLOR	3039	#ifndef NO_CURSORCOLOR
3027	case XTerm_Color_cursor:	3040	case XTerm_Color_cursor:
3028	rxvt_set_window_color(aR_ Color_cursor, str);	3041	set_window_color (Color_cursor, str);
3029	break;	3042	break;
3030	#endif	3043	#endif
3031	case XTerm_Color_pointer:	3044	case XTerm_Color_pointer:
3032	rxvt_set_window_color(aR_ Color_pointer, str);	3045	set_window_color (Color_pointer, str);
3033	break;	3046	break;
3034	#ifndef NO_BOLD_UNDERLINE_REVERSE	3047	#ifndef NO_BOLD_UNDERLINE_REVERSE
3035	case XTerm_Color_BD:	3048	case XTerm_Color_BD:
3036	rxvt_set_window_color(aR_ Color_BD, str);	3049	set_window_color (Color_BD, str);
3037	break;	3050	break;
3038	case XTerm_Color_UL:	3051	case XTerm_Color_UL:
3039	rxvt_set_window_color(aR_ Color_UL, str);	3052	set_window_color (Color_UL, str);
3040	break;	3053	break;
3041	case XTerm_Color_RV:	3054	case XTerm_Color_RV:
3042	rxvt_set_window_color(aR_ Color_RV, str);	3055	set_window_color (Color_RV, str);
3043	break;	3056	break;
3044	#endif	3057	#endif
3045		3058
3046	case XTerm_Menu:	3059	case XTerm_Menu:
3047	/*	3060	/*
3048	* rxvt_menubar_dispatch() violates the constness of the string,	3061	* rxvt_menubar_dispatch () violates the constness of the string,
3049	* so DON'T do it here	3062	* so DON'T do it here
3050	*/	3063	*/
3051	break;	3064	break;
3052	case XTerm_Pixmap:	3065	case XTerm_Pixmap:
3053	if (*str != ';') {	3066	if (*str != ';')
		3067	{
3054	#if XPM_BACKGROUND	3068	#if XPM_BACKGROUND
3055	rxvt_scale_pixmap(aR_ ""); /* reset to default scaling */	3069	scale_pixmap (""); /* reset to default scaling */
3056	rxvt_set_bgPixmap(aR_ str); /* change pixmap */	3070	set_bgPixmap (str); /* change pixmap */
3057	#endif	3071	#endif
3058	rxvt_scr_touch(aR_ True);	3072	scr_touch (true);
3059	}	3073	}
3060	while ((str = STRCHR(str, ';')) != NULL) {	3074	while ((str = STRCHR (str, ';')) != NULL)
3061	str++;	3075	{
		3076	str++;
3062	#if XPM_BACKGROUND	3077	#if XPM_BACKGROUND
3063	changed += rxvt_scale_pixmap(aR_ str);	3078	changed += scale_pixmap (str);
3064	#endif	3079	#endif
3065	}	3080
3066	if (changed) {	3081	}
		3082	if (changed)
		3083	{
3067	#ifdef XPM_BACKGROUND	3084	#ifdef XPM_BACKGROUND
3068	rxvt_resize_pixmap(aR);	3085	resize_pixmap ();
3069	#endif	3086	#endif
3070	rxvt_scr_touch(aR_ True);	3087	scr_touch (true);
3071	}	3088	}
3072	break;	3089	break;
3073		3090
3074	case XTerm_restoreFG:	3091	case XTerm_restoreFG:
3075	rxvt_set_window_color(aR_ Color_fg, str);	3092	set_window_color (Color_fg, str);
3076	break;	3093	break;
3077	case XTerm_restoreBG:	3094	case XTerm_restoreBG:
3078	rxvt_set_window_color(aR_ Color_bg, str);	3095	set_window_color (Color_bg, str);
3079	break;	3096	break;
3080	case XTerm_logfile:	3097	case XTerm_logfile:
3081	break;	3098	break;
3082	case XTerm_font:	3099	case XTerm_font:
3083	rxvt_change_font(aR_ 0, str);	3100	change_font (str);
3084	break;	3101	break;
		3102	#ifndef NO_FRILLS
		3103	case XTerm_locale:
		3104	if (str[0] == '?' && !str[1])
		3105	tt_printf ("%-.250s\n", locale);
		3106	else
		3107	{
		3108	set_locale (str);
		3109	# ifdef USE_XIM
		3110	im_cb ();
		3111	# endif
		3112	// TODO: call selection_make with the right values set
		3113	// to re-fresh the selection.
		3114	if (display->selection_owner == this)
		3115	display->set_selection_owner (0);
		3116	}
		3117	break;
		3118	#endif
3085	#if 0	3119	#if 0
3086	case XTerm_dumpscreen: /* no error notices */	3120	case XTerm_dumpscreen: /* no error notices */
3087	{	3121	{
3088	int fd;	3122	int fd;
3089	if ((fd = open(str, O_RDWR | O_CREAT | O_EXCL, 0600)) >= 0) {	3123	if ((fd = open (str, O_RDWR | O_CREAT | O_EXCL, 0600)) >= 0)
3090	rxvt_scr_dump(aR_ fd);	3124	{
3091	close(fd);	3125	scr_dump (fd);
3092	}	3126	close (fd);
3093	}	3127	}
3094	break;	3128	}
		3129	break;
3095	#endif	3130	#endif
		3131
3096	}	3132	}
3097	}	3133	}
3098	/*----------------------------------------------------------------------*/	3134	/*----------------------------------------------------------------------*/
3099		3135
3100	/*{{{ process DEC private mode sequences `ESC [ ? Ps mode' */	3136	/*{{{ process DEC private mode sequences `ESC [ ? Ps mode' */
…		…
3105	* 's' = save	3141	* 's' = save
3106	* 'r' = restore	3142	* 'r' = restore
3107	* 't' = toggle	3143	* 't' = toggle
3108	* so no need for fancy checking	3144	* so no need for fancy checking
3109	*/	3145	*/
3110	/* INTPROTO */
3111	int	3146	int
3112	rxvt_privcases(pR_ int mode, unsigned long bit)	3147	rxvt_term::privcases (int mode, unsigned long bit)
3113	{	3148	{
3114	int state;	3149	int state;
3115		3150
3116	if (mode == 's') {	3151	if (mode == 's')
		3152	{
3117	R->SavedModes |= (R->PrivateModes & bit);	3153	SavedModes |= (PrivateModes & bit);
3118	return -1;	3154	return -1;
3119	} else {	3155	}
		3156	else
		3157	{
3120	if (mode == 'r')	3158	if (mode == 'r')
3121	state = (R->SavedModes & bit) ? 1 : 0; /* no overlapping */	3159	state = (SavedModes & bit) ? 1 : 0; /* no overlapping */
3122	else	3160	else
3123	state = (mode == 't') ? !(R->PrivateModes & bit) : mode;	3161	state = (mode == 't') ? ! (PrivateModes & bit) : mode;
3124	PrivMode(state, bit);	3162	PrivMode (state, bit);
3125	}	3163	}
3126	return state;	3164	return state;
3127	}	3165	}
3128		3166
3129	/* we're not using priv _yet_ */	3167	/* we're not using priv _yet_ */
3130	/* INTPROTO */
3131	void	3168	void
3132	rxvt_process_terminal_mode(pR_ int mode, int priv __attribute__((unused)), unsigned int nargs, const int *arg)	3169	rxvt_term::process_terminal_mode (int mode, int priv __attribute__ ((unused)), unsigned int nargs, const int *arg)
3133	{	3170	{
3134	unsigned int i, j;	3171	unsigned int i, j;
3135	int state;	3172	int state;
3136	static const struct {	3173	static const struct
		3174	{
3137	const int argval;	3175	const int argval;
3138	const unsigned long bit;	3176	const unsigned long bit;
		3177	}
3139	} argtopriv[] = {	3178	argtopriv[] = {
3140	{ 1, PrivMode_aplCUR },	3179	{ 1, PrivMode_aplCUR },
3141	{ 2, PrivMode_vt52 },	3180	{ 2, PrivMode_vt52 },
3142	{ 3, PrivMode_132 },	3181	{ 3, PrivMode_132 },
3143	{ 4, PrivMode_smoothScroll },	3182	{ 4, PrivMode_smoothScroll },
3144	{ 5, PrivMode_rVideo },	3183	{ 5, PrivMode_rVideo },
3145	{ 6, PrivMode_relOrigin },	3184	{ 6, PrivMode_relOrigin },
3146	{ 7, PrivMode_Autowrap },	3185	{ 7, PrivMode_Autowrap },
3147	{ 9, PrivMode_MouseX10 },	3186	{ 9, PrivMode_MouseX10 },
3148	#ifdef menuBar_esc	3187	#ifdef menuBar_esc
3149	{ menuBar_esc, PrivMode_menuBar },	3188	{ menuBar_esc, PrivMode_menuBar },
3150	#endif	3189	#endif
3151	#ifdef scrollBar_esc	3190	#ifdef scrollBar_esc
3152	{ scrollBar_esc, PrivMode_scrollBar },	3191	{ scrollBar_esc, PrivMode_scrollBar },
3153	#endif	3192	#endif
3154	{ 25, PrivMode_VisibleCursor },	3193	{ 25, PrivMode_VisibleCursor },
3155	{ 35, PrivMode_ShiftKeys },	3194	{ 35, PrivMode_ShiftKeys },
3156	{ 40, PrivMode_132OK },	3195	{ 40, PrivMode_132OK },
3157	{ 47, PrivMode_Screen },	3196	{ 47, PrivMode_Screen },
3158	{ 66, PrivMode_aplKP },	3197	{ 66, PrivMode_aplKP },
3159	#ifndef NO_BACKSPACE_KEY	3198	#ifndef NO_BACKSPACE_KEY
3160	{ 67, PrivMode_BackSpace },	3199	{ 67, PrivMode_BackSpace },
3161	#endif	3200	#endif
3162	{ 1000, PrivMode_MouseX11 },	3201	{ 1000, PrivMode_MouseX11 },
3163	{ 1010, PrivMode_TtyOutputInh },	3202	{ 1010, PrivMode_TtyOutputInh },
3164	{ 1011, PrivMode_Keypress },	3203	{ 1011, PrivMode_Keypress },
3165	{ 1047, PrivMode_Screen },	3204	{ 1047, PrivMode_Screen },
3166	};	3205	{ 1049, PrivMode_Screen }, /* xterm extension, not fully implemented */
		3206	};
3167		3207
3168	if (nargs == 0)	3208	if (nargs == 0)
3169	return;	3209	return;
3170		3210
3171	/* make lo/hi boolean */	3211	/* make lo/hi boolean */
3172	if (mode == 'l')	3212	if (mode == 'l')
3173	mode = 0; /* reset */	3213	mode = 0; /* reset */
3174	else if (mode == 'h')	3214	else if (mode == 'h')
3175	mode = 1; /* set */	3215	mode = 1; /* set */
3176		3216
3177	for (i = 0; i < nargs; i++) {	3217	for (i = 0; i < nargs; i++)
		3218	{
3178	state = -1;	3219	state = -1;
3179		3220
3180	/* basic handling */	3221	/* basic handling */
3181	for (j = 0; j < (sizeof(argtopriv)/sizeof(argtopriv[0])); j++)	3222	for (j = 0; j < (sizeof (argtopriv)/sizeof (argtopriv[0])); j++)
3182	if (argtopriv[j].argval == arg[i]) {	3223	if (argtopriv[j].argval == arg[i])
		3224	{
3183	state = rxvt_privcases(aR_ mode, argtopriv[j].bit);	3225	state = privcases (mode, argtopriv[j].bit);
3184	break;	3226	break;
3185	}	3227	}
3186		3228
3187	/* extra handling for values with state unkept */	3229	/* extra handling for values with state unkept */
3188	if (state == -1)	3230	if (state == -1)
3189	switch (arg[i]) {	3231	switch (arg[i])
		3232	{
3190	case 1048: /* alternative cursor save */	3233	case 1048: /* alternative cursor save */
3191	if (mode == 0)	3234	if (mode == 0)
3192	rxvt_scr_cursor(aR_ RESTORE);	3235	scr_cursor (RESTORE);
3193	else if (mode == 1)	3236	else if (mode == 1)
3194	rxvt_scr_cursor(aR_ SAVE);	3237	scr_cursor (SAVE);
3195	/* FALLTHROUGH */	3238	/* FALLTHROUGH */
3196	default:	3239	default:
3197	continue; /* for(;i;) */	3240	continue; /* for (;i;) */
3198	}	3241	}
3199		3242
3200	/* extra handling for values with valid 0 or 1 state */	3243	/* extra handling for values with valid 0 or 1 state */
3201	switch (arg[i]) {	3244	switch (arg[i])
		3245	{
3202	/* case 1: - application cursor keys */	3246	/* case 1: - application cursor keys */
3203	case 2: /* VT52 mode */	3247	case 2: /* VT52 mode */
3204	/* oddball mode. should be set regardless of set/reset	3248	/* oddball mode. should be set regardless of set/reset
3205	* parameter. Return from VT52 mode with an ESC < from	3249	* parameter. Return from VT52 mode with an ESC < from
3206	* within VT52 mode	3250	* within VT52 mode
3207	*/	3251	*/
3208	PrivMode(1, PrivMode_vt52);	3252	PrivMode (1, PrivMode_vt52);
3209	break;	3253	break;
3210	case 3: /* 80/132 */	3254	case 3: /* 80/132 */
3211	if (R->PrivateModes & PrivMode_132OK)	3255	if (PrivateModes & PrivMode_132OK)
3212	rxvt_set_widthheight(aR_
3213	(unsigned int)((state ? 132 : 80) * R->TermWin.fwidth),	3256	set_widthheight ( (unsigned int) ((state ? 132 : 80) * TermWin.fwidth),
3214	(unsigned int)R->TermWin.height);	3257	(unsigned int)TermWin.height);
3215	break;	3258	break;
3216	case 4: /* smooth scrolling */	3259	case 4: /* smooth scrolling */
3217	if (state)	3260	if (state)
3218	R->Options &= ~Opt_jumpScroll;	3261	Options &= ~Opt_jumpScroll;
3219	else	3262	else
3220	R->Options |= Opt_jumpScroll;	3263	Options |= Opt_jumpScroll;
3221	break;	3264	break;
3222	case 5: /* reverse video */	3265	case 5: /* reverse video */
3223	rxvt_scr_rvideo_mode(aR_ state);	3266	scr_rvideo_mode (state);
3224	break;	3267	break;
3225	case 6: /* relative/absolute origins */	3268	case 6: /* relative/absolute origins */
3226	rxvt_scr_relative_origin(aR_ state);	3269	scr_relative_origin (state);
3227	break;	3270	break;
3228	case 7: /* autowrap */	3271	case 7: /* autowrap */
3229	rxvt_scr_autowrap(aR_ state);	3272	scr_autowrap (state);
3230	break;	3273	break;
3231	/* case 8: - auto repeat, can't do on a per window basis */	3274	/* case 8: - auto repeat, can't do on a per window basis */
3232	case 9: /* X10 mouse reporting */	3275	case 9: /* X10 mouse reporting */
3233	if (state) /* orthogonal */	3276	if (state) /* orthogonal */
3234	R->PrivateModes &= ~(PrivMode_MouseX11);	3277	PrivateModes &= ~ (PrivMode_MouseX11);
3235	break;	3278	break;
3236	#ifdef menuBar_esc	3279	#ifdef menuBar_esc
3237	case menuBar_esc:	3280	case menuBar_esc:
3238	#ifdef MENUBAR	3281	#ifdef MENUBAR
3239	rxvt_map_menuBar(aR_ state);	3282	map_menuBar (state);
3240	#endif	3283	#endif
3241	break;	3284	break;
3242	#endif	3285	#endif
3243	#ifdef scrollBar_esc	3286	#ifdef scrollBar_esc
3244	case scrollBar_esc:	3287	case scrollBar_esc:
3245	if (rxvt_scrollbar_mapping(aR_ state)) {	3288	if (scrollbar_mapping (state))
3246	rxvt_resize_all_windows(aR_ 0, 0, 0);	3289	{
3247	rxvt_scr_touch(aR_ True);	3290	resize_all_windows (0, 0, 0);
3248	}	3291	scr_touch (true);
3249	break;	3292	}
		3293	break;
3250	#endif	3294	#endif
3251	case 25: /* visible/invisible cursor */	3295	case 25: /* visible/invisible cursor */
3252	rxvt_scr_cursor_visible(aR_ state);	3296	scr_cursor_visible (state);
3253	break;	3297	break;
3254	/* case 35: - shift keys */	3298	/* case 35: - shift keys */
3255	/* case 40: - 80 <--> 132 mode */	3299	/* case 40: - 80 <--> 132 mode */
3256	case 47: /* secondary screen */	3300	case 47: /* secondary screen */
3257	rxvt_scr_change_screen(aR_ state);	3301	scr_change_screen (state);
3258	break;	3302	break;
3259	/* case 66: - application key pad */	3303	/* case 66: - application key pad */
3260	/* case 67: - backspace key */	3304	/* case 67: - backspace key */
3261	case 1000: /* X11 mouse reporting */	3305	case 1000: /* X11 mouse reporting */
3262	if (state) /* orthogonal */	3306	if (state) /* orthogonal */
3263	R->PrivateModes &= ~(PrivMode_MouseX10);	3307	PrivateModes &= ~ (PrivMode_MouseX10);
3264	break;	3308	break;
3265	#if 0	3309	#if 0
3266	case 1001:	3310	case 1001:
3267	break; /* X11 mouse highlighting */	3311	break; /* X11 mouse highlighting */
3268	#endif	3312	#endif
3269	case 1010: /* scroll to bottom on TTY output inhibit */	3313	case 1010: /* scroll to bottom on TTY output inhibit */
3270	if (state)	3314	if (state)
3271	R->Options &= ~Opt_scrollTtyOutput;	3315	Options &= ~Opt_scrollTtyOutput;
3272	else	3316	else
3273	R->Options |= Opt_scrollTtyOutput;	3317	Options |= Opt_scrollTtyOutput;
3274	break;	3318	break;
3275	case 1011: /* scroll to bottom on key press */	3319	case 1011: /* scroll to bottom on key press */
3276	if (state)	3320	if (state)
3277	R->Options |= Opt_scrollTtyKeypress;	3321	Options |= Opt_scrollTtyKeypress;
3278	else	3322	else
3279	R->Options &= ~Opt_scrollTtyKeypress;	3323	Options &= ~Opt_scrollTtyKeypress;
3280	break;	3324	break;
3281	case 1047: /* secondary screen w/ clearing */	3325	case 1047: /* secondary screen w/ clearing */
		3326	case 1049: /* better secondary screen w/ clearing, but not fully implemented */
3282	if (R->current_screen != PRIMARY)	3327	if (current_screen != PRIMARY)
3283	rxvt_scr_erase_screen(aR_ 2);	3328	scr_erase_screen (2);
3284	rxvt_scr_change_screen(aR_ state);	3329	scr_change_screen (state);
3285	/* FALLTHROUGH */	3330	/* FALLTHROUGH */
3286	default:	3331	default:
3287	break;	3332	break;
3288	}	3333	}
3289	}	3334	}
3290	}	3335	}
3291	/*}}} */	3336	/*}}} */
3292		3337
3293	/*{{{ process sgr sequences */	3338	/*{{{ process sgr sequences */
3294	/* INTPROTO */
3295	void	3339	void
3296	rxvt_process_sgr_mode(pR_ unsigned int nargs, const int *arg)	3340	rxvt_term::process_sgr_mode (unsigned int nargs, const int *arg)
3297	{	3341	{
3298	unsigned int i;	3342	unsigned int i;
3299	short rendset;	3343	short rendset;
3300	int rendstyle;	3344	int rendstyle;
3301		3345
3302	if (nargs == 0) {	3346	if (nargs == 0)
3303	rxvt_scr_rendition(aR_ 0, ~RS_None);
3304	return;
3305	}	3347	{
		3348	scr_rendition (0, ~RS_None);
		3349	return;
		3350	}
3306	for (i = 0; i < nargs; i++) {	3351	for (i = 0; i < nargs; i++)
		3352	{
3307	rendset = -1;	3353	rendset = -1;
3308	switch (arg[i]) {	3354	switch (arg[i])
3309	case 0:	3355	{
		3356	case 0:
3310	rendset = 0, rendstyle = ~RS_None;	3357	rendset = 0, rendstyle = ~RS_None;
3311	break;	3358	break;
3312	case 1:	3359	case 1:
3313	rendset = 1, rendstyle = RS_Bold;	3360	rendset = 1, rendstyle = RS_Bold;
3314	break;	3361	break;
3315	case 4:	3362	case 4:
3316	rendset = 1, rendstyle = RS_Uline;	3363	rendset = 1, rendstyle = RS_Uline;
3317	break;	3364	break;
3318	case 5:	3365	case 5:
3319	rendset = 1, rendstyle = RS_Blink;	3366	rendset = 1, rendstyle = RS_Blink;
3320	break;	3367	break;
3321	case 7:	3368	case 7:
3322	rendset = 1, rendstyle = RS_RVid;	3369	rendset = 1, rendstyle = RS_RVid;
3323	break;	3370	break;
3324	case 22:	3371	case 22:
3325	rendset = 0, rendstyle = RS_Bold;	3372	rendset = 0, rendstyle = RS_Bold;
3326	break;	3373	break;
3327	case 24:	3374	case 24:
3328	rendset = 0, rendstyle = RS_Uline;	3375	rendset = 0, rendstyle = RS_Uline;
3329	break;	3376	break;
3330	case 25:	3377	case 25:
3331	rendset = 0, rendstyle = RS_Blink;	3378	rendset = 0, rendstyle = RS_Blink;
3332	break;	3379	break;
3333	case 27:	3380	case 27:
3334	rendset = 0, rendstyle = RS_RVid;	3381	rendset = 0, rendstyle = RS_RVid;
3335	break;	3382	break;
3336	}	3383	}
3337	if (rendset != -1) {	3384	if (rendset != -1)
3338	rxvt_scr_rendition(aR_ rendset, rendstyle);	3385	{
		3386	scr_rendition (rendset, rendstyle);
3339	continue; /* for(;i;) */	3387	continue; /* for (;i;) */
3340	}	3388	}
3341		3389
3342	switch (arg[i]) {	3390	switch (arg[i])
3343	case 30:	3391	{
		3392	case 30:
3344	case 31: /* set fg color */	3393	case 31: /* set fg color */
3345	case 32:	3394	case 32:
3346	case 33:	3395	case 33:
3347	case 34:	3396	case 34:
3348	case 35:	3397	case 35:
3349	case 36:	3398	case 36:
3350	case 37:	3399	case 37:
3351	rxvt_scr_color(aR_ (unsigned int)(minCOLOR + (arg[i] - 30)),	3400	scr_color ((unsigned int) (minCOLOR + (arg[i] - 30)),
3352	Color_fg);	3401	Color_fg);
3353	break;	3402	break;
3354	#ifdef TTY_256COLOR	3403	#ifdef TTY_256COLOR
3355	case 38:	3404	case 38:
3356	if (nargs > i + 2 && arg[i + 1] == 5) {	3405	if (nargs > i + 2 && arg[i + 1] == 5)
		3406	{
3357	rxvt_scr_color(aR_ (unsigned int)(minCOLOR + arg[i + 2]),	3407	scr_color ((unsigned int) (minCOLOR + arg[i + 2]),
3358	Color_fg);	3408	Color_fg);
3359	i += 2;	3409	i += 2;
3360	}	3410	}
3361	break;	3411	break;
3362	#endif	3412	#endif
3363	case 39: /* default fg */	3413	case 39: /* default fg */
3364	rxvt_scr_color(aR_ Color_fg, Color_fg);	3414	scr_color (Color_fg, Color_fg);
3365	break;	3415	break;
3366		3416
3367	case 40:	3417	case 40:
3368	case 41: /* set bg color */	3418	case 41: /* set bg color */
3369	case 42:	3419	case 42:
3370	case 43:	3420	case 43:
3371	case 44:	3421	case 44:
3372	case 45:	3422	case 45:
3373	case 46:	3423	case 46:
3374	case 47:	3424	case 47:
3375	rxvt_scr_color(aR_ (unsigned int)(minCOLOR + (arg[i] - 40)),	3425	scr_color ((unsigned int) (minCOLOR + (arg[i] - 40)),
3376	Color_bg);	3426	Color_bg);
3377	break;	3427	break;
3378	#ifdef TTY_256COLOR	3428	#ifdef TTY_256COLOR
3379	case 48:	3429	case 48:
3380	if (nargs > i + 2 && arg[i + 1] == 5) {	3430	if (nargs > i + 2 && arg[i + 1] == 5)
		3431	{
3381	rxvt_scr_color(aR_ (unsigned int)(minCOLOR + arg[i + 2]),	3432	scr_color ((unsigned int) (minCOLOR + arg[i + 2]),
3382	Color_bg);	3433	Color_bg);
3383	i += 2;	3434	i += 2;
3384	}	3435	}
3385	break;	3436	break;
3386	#endif	3437	#endif
3387	case 49: /* default bg */	3438	case 49: /* default bg */
3388	rxvt_scr_color(aR_ Color_bg, Color_bg);	3439	scr_color (Color_bg, Color_bg);
3389	break;	3440	break;
3390		3441
3391	#ifndef NO_BRIGHTCOLOR	3442	#ifndef NO_BRIGHTCOLOR
3392	case 90:	3443	case 90:
3393	case 91: /* set bright fg color */	3444	case 91: /* set bright fg color */
3394	case 92:	3445	case 92:
3395	case 93:	3446	case 93:
3396	case 94:	3447	case 94:
3397	case 95:	3448	case 95:
3398	case 96:	3449	case 96:
3399	case 97:	3450	case 97:
3400	rxvt_scr_color(aR_ (unsigned int)(minBrightCOLOR + (arg[i] - 90)),	3451	scr_color ((unsigned int) (minBrightCOLOR + (arg[i] - 90)),
3401	Color_fg);	3452	Color_fg);
3402	break;	3453	break;
3403	case 100:	3454	case 100:
3404	case 101: /* set bright bg color */	3455	case 101: /* set bright bg color */
3405	case 102:	3456	case 102:
3406	case 103:	3457	case 103:
3407	case 104:	3458	case 104:
3408	case 105:	3459	case 105:
3409	case 106:	3460	case 106:
3410	case 107:	3461	case 107:
3411	rxvt_scr_color(aR_ (unsigned int)(minBrightCOLOR + (arg[i] - 100)),	3462	scr_color ((unsigned int) (minBrightCOLOR + (arg[i] - 100)),
3412	Color_bg);	3463	Color_bg);
3413	break;	3464	break;
3414	#endif	3465	#endif
3415	}	3466
		3467	}
3416	}	3468	}
3417	}	3469	}
3418	/*}}} */	3470	/*}}} */
3419		3471
3420	/*{{{ process Rob Nation's own graphics mode sequences */	3472	/*{{{ process Rob Nation's own graphics mode sequences */
3421	/* INTPROTO */
3422	void	3473	void
3423	rxvt_process_graphics(pR)	3474	rxvt_term::process_graphics ()
3424	{	3475	{
3425	unsigned char ch, cmd = rxvt_cmd_getc(aR);	3476	unsigned char ch, cmd = cmd_getc ();
3426		3477
3427	#ifndef RXVT_GRAPHICS	3478	if (cmd == 'Q')
3428	if (cmd == 'Q') { /* query graphics */	3479	{ /* query graphics */
3429	rxvt_tt_printf(aR_ "\033G0\n"); /* no graphics */	3480	tt_printf ("\033G0\n"); /* no graphics */
3430	return;	3481	return;
3431	}	3482	}
3432	/* swallow other graphics sequences until terminating ':' */	3483	/* swallow other graphics sequences until terminating ':' */
3433	do	3484	do
3434	ch = rxvt_cmd_getc(aR);	3485	ch = cmd_getc ();
3435	while (ch != ':');	3486	while (ch != ':');
3436	#else
3437	unsigned int nargs;
3438	int args[NGRX_PTS];
3439	unsigned char *text = NULL;
3440
3441	if (cmd == 'Q') { /* query graphics */
3442	rxvt_tt_printf(aR_ "\033G1\n"); /* yes, graphics (color) */
3443	return;
3444	}
3445	for (nargs = 0; nargs < (sizeof(args) / sizeof(args[0])) - 1;) {
3446	int neg;
3447
3448	ch = rxvt_cmd_getc(aR);
3449	neg = (ch == '-');
3450	if (neg || ch == '+')
3451	ch = rxvt_cmd_getc(aR);
3452
3453	for (args[nargs] = 0; isdigit(ch); ch = rxvt_cmd_getc(aR))
3454	args[nargs] = args[nargs] * 10 + (ch - '0');
3455	if (neg)
3456	args[nargs] = -args[nargs];
3457
3458	nargs++;
3459	args[nargs] = 0;
3460	if (ch != ';')
3461	break;
3462	}
3463
3464	if ((cmd == 'T') && (nargs >= 5)) {
3465	int i, len = args[4];
3466
3467	text = rxvt_malloc((len + 1) * sizeof(char));
3468
3469	if (text != NULL) {
3470	for (i = 0; i < len; i++)
3471	text[i] = rxvt_cmd_getc(aR);
3472	text[len] = '\0';
3473	}
3474	}
3475	rxvt_Gr_do_graphics(aR_ cmd, nargs, args, text);
3476	#endif
3477	}	3487	}
3478	/*}}} */	3488	/*}}} */
3479		3489
3480	/* ------------------------------------------------------------------------- */	3490	/* ------------------------------------------------------------------------- */
3481		3491
3482	/*	3492	/*
3483	* Send printf() formatted output to the command.	3493	* Send printf () formatted output to the command.
3484	* Only use for small amounts of data.	3494	* Only use for small amounts of data.
3485	*/	3495	*/
3486	/* EXTPROTO */
3487	void	3496	void
3488	rxvt_tt_printf(pR_ const char *fmt,...)	3497	rxvt_term::tt_printf (const char *fmt,...)
3489	{	3498	{
3490	va_list arg_ptr;	3499	va_list arg_ptr;
3491	unsigned char buf[256];	3500	unsigned char buf[256];
3492		3501
3493	va_start(arg_ptr, fmt);	3502	va_start (arg_ptr, fmt);
3494	vsprintf((char *)buf, fmt, arg_ptr);	3503	vsnprintf ((char *)buf, 256, fmt, arg_ptr);
3495	va_end(arg_ptr);	3504	va_end (arg_ptr);
3496	rxvt_tt_write(aR_ buf, (unsigned int)STRLEN(buf));	3505	tt_write (buf, STRLEN (buf));
3497	}	3506	}
3498		3507
3499	/* ---------------------------------------------------------------------- */	3508	/* ---------------------------------------------------------------------- */
3500	/* Addresses pasting large amounts of data and rxvt hang
3501	* code pinched from xterm (v_write()) and applied originally to
3502	* rxvt-2.18 - Hops
3503	* Write data to the pty as typed by the user, pasted with the mouse,	3509	/* Write data to the pty as typed by the user, pasted with the mouse,
3504	* or generated by us in response to a query ESC sequence.	3510	* or generated by us in response to a query ESC sequence.
3505	*/	3511	*/
3506	/* EXTPROTO */
3507	void	3512	void
3508	rxvt_tt_write(pR_ const unsigned char *d, unsigned int len)	3513	rxvt_term::tt_write (const unsigned char *data, unsigned int len)
3509	{	3514	{
3510	#define MAX_PTY_WRITE 256 /* POSIX minimum MAX_INPUT */	3515	enum { MAX_PTY_WRITE = 255 }; // minimum MAX_INPUT
3511	int riten;
3512	unsigned int p;
3513	unsigned char *v_buffer, /* start of physical buffer */
3514	*v_bufstr, /* start of current buffer pending */
3515	*v_bufptr, /* end of current buffer pending */
3516	*v_bufend; /* end of physical buffer */
3517		3516
3518	if (R->v_bufstr == NULL && len > 0) {	3517	if (len)
3519	p = (len / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3520	v_buffer = v_bufstr = v_bufptr = (unsigned char *)rxvt_malloc(p);
3521	v_bufend = v_buffer + p;
3522	} else {
3523	v_buffer = R->v_buffer;
3524	v_bufstr = R->v_bufstr;
3525	v_bufptr = R->v_bufptr;
3526	v_bufend = R->v_bufend;
3527	}	3518	{
		3519	if (v_buflen == 0)
		3520	{
		3521	ssize_t written = write (cmd_fd, data, min (MAX_PTY_WRITE, len));
3528		3522
3529	/*	3523	if ((unsigned int)written == len)
3530	* Append to the block we already have. Always doing this simplifies the	3524	return;
3531	* code, and isn't too bad, either. If this is a short block, it isn't	3525
3532	* too expensive, and if this is a long block, we won't be able to write	3526	data += written;
3533	* it all anyway.	3527	len -= written;
3534	*/	3528	}
3535	if (len > 0) {	3529
3536	if (v_bufend < v_bufptr + len) { /* run out of room */	3530
3537	if (v_bufstr != v_buffer) {	3531	v_buffer = (unsigned char *)realloc (v_buffer, v_buflen + len);
3538	/* there is unused space, move everything down */	3532
3539	MEMMOVE(v_buffer, v_bufstr,	3533	memcpy (v_buffer + v_buflen, data, len);
3540	(unsigned int)(v_bufptr - v_bufstr));	3534	v_buflen += len;
3541	v_bufptr -= v_bufstr - v_buffer;
3542	v_bufstr = v_buffer;
3543	}	3535	}
3544	if (v_bufend < v_bufptr + len) {
3545	/* still won't fit: get more space */
3546	/* use most basic realloc because an error is not fatal. */
3547	unsigned int size = v_bufptr - v_buffer;
3548	unsigned int reallocto;
3549		3536
3550	reallocto = ((size + len) / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;	3537	for (;;)
3551	v_buffer = (unsigned char *)realloc(v_buffer, reallocto);	3538	{
3552	/* save across realloc */	3539	int written = write (cmd_fd, v_buffer, min (MAX_PTY_WRITE, v_buflen));
3553	if (v_buffer) {	3540
3554	v_bufstr = v_buffer;	3541	if (written > 0)
3555	v_bufptr = v_buffer + size;	3542	{
3556	v_bufend = v_buffer + reallocto;	3543	v_buflen -= written;
3557	} else { /* no memory: ignore entire write request */	3544
3558	rxvt_print_error("data loss: cannot allocate buffer space");	3545	if (v_buflen == 0)
3559	v_buffer = v_bufstr; /* restore clobbered pointer */	3546	{
3560	}	3547	free (v_buffer);
		3548	v_buffer = 0;
		3549	v_buflen = 0;
		3550
		3551	pty_ev.set (EVENT_READ);
		3552	return;
		3553	}
		3554
		3555	memmove (v_buffer, v_buffer + written, v_buflen);
		3556	}
		3557	else if (written != -1 || (errno != EAGAIN && errno != EINTR))
		3558	// original code just ignores this...
		3559	destroy ();
		3560	else
		3561	{
		3562	pty_ev.set (EVENT_READ | EVENT_WRITE);
		3563	return;
		3564	}
3561	}	3565	}
3562	}
3563	if (v_bufend >= v_bufptr + len) { /* new stuff will fit */
3564	MEMCPY(v_bufptr, d, len);
3565	v_bufptr += len;
3566	}
3567	}
3568
3569	/*
3570	* Write out as much of the buffer as we can.
3571	* Be careful not to overflow the pty's input silo.
3572	* We are conservative here and only write a small amount at a time.
3573	*
3574	* If we can't push all the data into the pty yet, we expect write
3575	* to return a non-negative number less than the length requested
3576	* (if some data written) or -1 and set errno to EAGAIN,
3577	* EWOULDBLOCK, or EINTR (if no data written).
3578	*
3579	* (Not all systems do this, sigh, so the code is actually
3580	* a little more forgiving.)
3581	*/
3582	if ((p = v_bufptr - v_bufstr) > 0) {
3583	riten = write(R->cmd_fd, v_bufstr, min(p, MAX_PTY_WRITE));
3584	if (riten < 0)
3585	riten = 0;
3586	v_bufstr += riten;
3587	if (v_bufstr >= v_bufptr) /* we wrote it all */
3588	v_bufstr = v_bufptr = v_buffer;
3589	}
3590	/*
3591	* If we have lots of unused memory allocated, return it
3592	*/
3593	if (v_bufend - v_bufptr > MAX_PTY_WRITE * 8) { /* arbitrary hysteresis */
3594	/* save pointers across realloc */
3595	unsigned int start = v_bufstr - v_buffer;
3596	unsigned int size = v_bufptr - v_buffer;
3597	unsigned int reallocto;
3598
3599	reallocto = (size / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3600	v_buffer = (unsigned char *)realloc(v_buffer, reallocto);
3601	if (v_buffer) {
3602	v_bufstr = v_buffer + start;
3603	v_bufptr = v_buffer + size;
3604	v_bufend = v_buffer + reallocto;
3605	} else {
3606	/* should we print a warning if couldn't return memory? */
3607	v_buffer = v_bufstr - start; /* restore clobbered pointer */
3608	}
3609	}
3610	R->v_buffer = v_buffer;
3611	R->v_bufstr = v_bufstr;
3612	R->v_bufptr = v_bufptr;
3613	R->v_bufend = v_bufend;
3614	}	3566	}
		3567
3615	/*----------------------- end-of-file (C source) -----------------------*/	3568	/*----------------------- end-of-file (C source) -----------------------*/
3616		3569

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