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/*
* Copyright (C) 1997-2009, Michael Jennings
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies of the Software, its documentation and marketing & publicity
* materials, and acknowledgment shall be given in the documentation, materials
* and software packages that this Software was used.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
static const char cvs_ident[] = "$Id$";
#include "config.h"
#include "feature.h"
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <limits.h>
#ifdef HAVE_X11_SUNKEYSYM_H
# include <X11/Sunkeysym.h>
#endif
#include "actions.h"
#include "buttons.h"
#include "command.h"
#include "e.h"
#include "events.h"
#include "font.h"
#include "misc.h"
#include "startup.h"
#include "options.h"
#include "pixmap.h"
#include "screen.h"
#include "scrollbar.h"
#include "term.h"
#include "windows.h"
#ifdef ESCREEN
# include "screamcfg.h"
#endif
#ifdef META8_OPTION
unsigned char meta_char = 033; /* Alt-key prefix */
#endif
unsigned long PrivateModes = PrivMode_Default;
unsigned long SavedModes = PrivMode_Default;
char *def_colorName[] = {
"rgb:0/0/0", /* 0: black (#000000) */
/* low-intensity colors */
"rgb:cc/00/00", /* 1: red */
"rgb:00/cc/00", /* 2: green */
"rgb:cc/cc/00", /* 3: yellow */
"rgb:00/00/cc", /* 4: blue */
"rgb:cc/00/cc", /* 5: magenta */
"rgb:00/cc/cc", /* 6: cyan */
"rgb:aa/aa/aa", /* 7: white */
/* high-intensity colors */
"rgb:33/33/33", /* 8: bright black */
"rgb:ff/00/00", /* 1/9: bright red */
"rgb:00/ff/00", /* 2/10: bright green */
"rgb:ff/ff/00", /* 3/11: bright yellow */
"rgb:00/00/ff", /* 4/12: bright blue */
"rgb:ff/00/ff", /* 5/13: bright magenta */
"rgb:00/ff/ff", /* 6/14: bright cyan */
"rgb:ff/ff/ff", /* 7/15: bright white */
/* 6x6x6 color cube generated with color-cube-gen.pl */
"rgb:00/00/00",
"rgb:00/00/2a",
"rgb:00/00/55",
"rgb:00/00/7f",
"rgb:00/00/aa",
"rgb:00/00/d4",
"rgb:00/2a/00",
"rgb:00/2a/2a",
"rgb:00/2a/55",
"rgb:00/2a/7f",
"rgb:00/2a/aa",
"rgb:00/2a/d4",
"rgb:00/55/00",
"rgb:00/55/2a",
"rgb:00/55/55",
"rgb:00/55/7f",
"rgb:00/55/aa",
"rgb:00/55/d4",
"rgb:00/7f/00",
"rgb:00/7f/2a",
"rgb:00/7f/55",
"rgb:00/7f/7f",
"rgb:00/7f/aa",
"rgb:00/7f/d4",
"rgb:00/aa/00",
"rgb:00/aa/2a",
"rgb:00/aa/55",
"rgb:00/aa/7f",
"rgb:00/aa/aa",
"rgb:00/aa/d4",
"rgb:00/d4/00",
"rgb:00/d4/2a",
"rgb:00/d4/55",
"rgb:00/d4/7f",
"rgb:00/d4/aa",
"rgb:00/d4/d4",
"rgb:2a/00/00",
"rgb:2a/00/2a",
"rgb:2a/00/55",
"rgb:2a/00/7f",
"rgb:2a/00/aa",
"rgb:2a/00/d4",
"rgb:2a/2a/00",
"rgb:2a/2a/2a",
"rgb:2a/2a/55",
"rgb:2a/2a/7f",
"rgb:2a/2a/aa",
"rgb:2a/2a/d4",
"rgb:2a/55/00",
"rgb:2a/55/2a",
"rgb:2a/55/55",
"rgb:2a/55/7f",
"rgb:2a/55/aa",
"rgb:2a/55/d4",
"rgb:2a/7f/00",
"rgb:2a/7f/2a",
"rgb:2a/7f/55",
"rgb:2a/7f/7f",
"rgb:2a/7f/aa",
"rgb:2a/7f/d4",
"rgb:2a/aa/00",
"rgb:2a/aa/2a",
"rgb:2a/aa/55",
"rgb:2a/aa/7f",
"rgb:2a/aa/aa",
"rgb:2a/aa/d4",
"rgb:2a/d4/00",
"rgb:2a/d4/2a",
"rgb:2a/d4/55",
"rgb:2a/d4/7f",
"rgb:2a/d4/aa",
"rgb:2a/d4/d4",
"rgb:55/00/00",
"rgb:55/00/2a",
"rgb:55/00/55",
"rgb:55/00/7f",
"rgb:55/00/aa",
"rgb:55/00/d4",
"rgb:55/2a/00",
"rgb:55/2a/2a",
"rgb:55/2a/55",
"rgb:55/2a/7f",
"rgb:55/2a/aa",
"rgb:55/2a/d4",
"rgb:55/55/00",
"rgb:55/55/2a",
"rgb:55/55/55",
"rgb:55/55/7f",
"rgb:55/55/aa",
"rgb:55/55/d4",
"rgb:55/7f/00",
"rgb:55/7f/2a",
"rgb:55/7f/55",
"rgb:55/7f/7f",
"rgb:55/7f/aa",
"rgb:55/7f/d4",
"rgb:55/aa/00",
"rgb:55/aa/2a",
"rgb:55/aa/55",
"rgb:55/aa/7f",
"rgb:55/aa/aa",
"rgb:55/aa/d4",
"rgb:55/d4/00",
"rgb:55/d4/2a",
"rgb:55/d4/55",
"rgb:55/d4/7f",
"rgb:55/d4/aa",
"rgb:55/d4/d4",
"rgb:7f/00/00",
"rgb:7f/00/2a",
"rgb:7f/00/55",
"rgb:7f/00/7f",
"rgb:7f/00/aa",
"rgb:7f/00/d4",
"rgb:7f/2a/00",
"rgb:7f/2a/2a",
"rgb:7f/2a/55",
"rgb:7f/2a/7f",
"rgb:7f/2a/aa",
"rgb:7f/2a/d4",
"rgb:7f/55/00",
"rgb:7f/55/2a",
"rgb:7f/55/55",
"rgb:7f/55/7f",
"rgb:7f/55/aa",
"rgb:7f/55/d4",
"rgb:7f/7f/00",
"rgb:7f/7f/2a",
"rgb:7f/7f/55",
"rgb:7f/7f/7f",
"rgb:7f/7f/aa",
"rgb:7f/7f/d4",
"rgb:7f/aa/00",
"rgb:7f/aa/2a",
"rgb:7f/aa/55",
"rgb:7f/aa/7f",
"rgb:7f/aa/aa",
"rgb:7f/aa/d4",
"rgb:7f/d4/00",
"rgb:7f/d4/2a",
"rgb:7f/d4/55",
"rgb:7f/d4/7f",
"rgb:7f/d4/aa",
"rgb:7f/d4/d4",
"rgb:aa/00/00",
"rgb:aa/00/2a",
"rgb:aa/00/55",
"rgb:aa/00/7f",
"rgb:aa/00/aa",
"rgb:aa/00/d4",
"rgb:aa/2a/00",
"rgb:aa/2a/2a",
"rgb:aa/2a/55",
"rgb:aa/2a/7f",
"rgb:aa/2a/aa",
"rgb:aa/2a/d4",
"rgb:aa/55/00",
"rgb:aa/55/2a",
"rgb:aa/55/55",
"rgb:aa/55/7f",
"rgb:aa/55/aa",
"rgb:aa/55/d4",
"rgb:aa/7f/00",
"rgb:aa/7f/2a",
"rgb:aa/7f/55",
"rgb:aa/7f/7f",
"rgb:aa/7f/aa",
"rgb:aa/7f/d4",
"rgb:aa/aa/00",
"rgb:aa/aa/2a",
"rgb:aa/aa/55",
"rgb:aa/aa/7f",
"rgb:aa/aa/aa",
"rgb:aa/aa/d4",
"rgb:aa/d4/00",
"rgb:aa/d4/2a",
"rgb:aa/d4/55",
"rgb:aa/d4/7f",
"rgb:aa/d4/aa",
"rgb:aa/d4/d4",
"rgb:d4/00/00",
"rgb:d4/00/2a",
"rgb:d4/00/55",
"rgb:d4/00/7f",
"rgb:d4/00/aa",
"rgb:d4/00/d4",
"rgb:d4/2a/00",
"rgb:d4/2a/2a",
"rgb:d4/2a/55",
"rgb:d4/2a/7f",
"rgb:d4/2a/aa",
"rgb:d4/2a/d4",
"rgb:d4/55/00",
"rgb:d4/55/2a",
"rgb:d4/55/55",
"rgb:d4/55/7f",
"rgb:d4/55/aa",
"rgb:d4/55/d4",
"rgb:d4/7f/00",
"rgb:d4/7f/2a",
"rgb:d4/7f/55",
"rgb:d4/7f/7f",
"rgb:d4/7f/aa",
"rgb:d4/7f/d4",
"rgb:d4/aa/00",
"rgb:d4/aa/2a",
"rgb:d4/aa/55",
"rgb:d4/aa/7f",
"rgb:d4/aa/aa",
"rgb:d4/aa/d4",
"rgb:d4/d4/00",
"rgb:d4/d4/2a",
"rgb:d4/d4/55",
"rgb:d4/d4/7f",
"rgb:d4/d4/aa",
"rgb:d4/d4/d4",
/* grayscale */
"rgb:08/08/08",
"rgb:12/12/12",
"rgb:1c/1c/1c",
"rgb:26/26/26",
"rgb:30/30/30",
"rgb:3a/3a/3a",
"rgb:44/44/44",
"rgb:4e/4e/4e",
"rgb:58/58/58",
"rgb:62/62/62",
"rgb:6c/6c/6c",
"rgb:76/76/76",
"rgb:80/80/80",
"rgb:8a/8a/8a",
"rgb:94/94/94",
"rgb:9e/9e/9e",
"rgb:a8/a8/a8",
"rgb:b2/b2/b2",
"rgb:bc/bc/bc",
"rgb:c6/c6/c6",
"rgb:d0/d0/d0",
"rgb:da/da/da",
"rgb:e4/e4/e4",
"rgb:ee/ee/ee",
/* fg/bg */
"rgb:aa/aa/aa", "rgb:0/0/0",
#ifndef NO_CURSORCOLOR
NULL, NULL, /* cursorColor, cursorColor2 */
#endif /* NO_CURSORCOLOR */
#ifndef NO_BOLDUNDERLINE
NULL, NULL, /* colorBD, colorUL */
#endif /* NO_BOLDUNDERLINE */
#ifdef ESCREEN
NULL, NULL, /* ES_COLOR_CURRENT, ES_COLOR_ACTIVE */
#endif
NULL, NULL /* pointerColor, borderColor */
};
char *rs_color[NRS_COLORS];
Pixel PixColors[NRS_COLORS + EXTRA_COLORS];
unsigned int MetaMask = 0, AltMask = 0, NumLockMask = 0;
unsigned int modmasks[] = { Mod1Mask, Mod2Mask, Mod3Mask, Mod4Mask, Mod5Mask };
/* This function queries X to see which modifier keys (specifically Alt, Meta, and NumLock,
since that's really all we care about) are bound to the 5 modifier masks. It then sets
the variables MetaMask, AltMask, and NumLockMask to the appropriate modifier mask (e.g.,
Mod1Mask). That way, we can use MetaMask in lookup_key() instead of using a specific
ModMask. This function also handles fallbacks, so that if there is no Meta key, the Alt
key will be used as Meta, and vice versa. get_modifiers() is called once on startup and
after each MappingNotify event. */
void
get_modifiers(void)
{
unsigned short i;
XModifierKeymap *modmap;
KeyCode *kc;
modmap = XGetModifierMapping(Xdisplay);
kc = modmap->modifiermap;
/* For each of the 5 modifier masks... */
for (i = Mod5MapIndex; i >= Mod1MapIndex; i--) {
unsigned short j;
register unsigned short k, l;
k = i * modmap->max_keypermod;
l = i - Mod1MapIndex;
/* Find each key bound to it... */
for (j = 0; j < modmap->max_keypermod; j++, k++) {
unsigned char match = 0;
if (kc[k] == 0) {
break;
}
/* Check to see if it's one that we care about. */
switch (XKeycodeToKeysym(Xdisplay, kc[k], 0)) {
case XK_Meta_L:
case XK_Meta_R:
D_X11(("Found Meta key as mod %d\n", l + 1));
match = MetaMask = modmasks[l];
break;
case XK_Alt_L:
case XK_Alt_R:
D_X11(("Found Alt key as mod %d\n", l + 1));
match = AltMask = modmasks[l];
break;
case XK_Num_Lock:
D_X11(("Found NumLock key as mod %d\n", l + 1));
match = NumLockMask = modmasks[l];
break;
default:
break;
}
if (match) {
break;
}
}
}
XFreeModifiermap(modmap);
/* Fallbacks. */
if (MetaMask == 0) {
if (AltMask != 0) {
D_X11(("Defaulted Meta key to match Alt mask\n"));
MetaMask = AltMask;
} else {
D_X11(("Defaulted Meta key to mod 1\n"));
MetaMask = Mod1Mask;
}
}
if (AltMask == 0) {
D_X11(("Defaulted Alt key to match Meta mask\n"));
AltMask = MetaMask; /* MetaMask will always be defined at this point. */
}
/* See if the user wants to override any of those */
if (rs_meta_mod) {
MetaMask = modmasks[rs_meta_mod - 1];
}
if (rs_alt_mod) {
AltMask = modmasks[rs_alt_mod - 1];
}
if (rs_numlock_mod) {
NumLockMask = modmasks[rs_numlock_mod - 1];
}
}
/* To handle buffer overflows properly, we must malloc a buffer. Free it when done. */
#ifdef USE_XIM
# define LK_RET() do {if (kbuf_alloced) FREE(kbuf); return;} while (0)
#else
# define LK_RET() return
#endif
/* This function is called for every keypress event we receive. Its job is to convert
the keypress into its corresponding action. It is responsible for calling the action
bindings routine to see if there is an action binding for that keysym; if there is,
this routine will exit. If not, it continues. It then uses the keysym to determine
the action or escape sequence which should result from the keypress. Actions are
performed and the event discarded. Escape sequences are generated and sent to the
child process. */
void
lookup_key(XEvent * ev)
{
#ifdef ESCREEN
static int escreen_escape = 0;
#endif
static int numlock_state = 0;
int ctrl, meta, shft, len;
KeySym keysym;
#ifdef USE_XIM
int valid_keysym = 0;
static unsigned char short_buf[256];
unsigned char *kbuf = short_buf;
int kbuf_alloced = 0;
#else
static unsigned char kbuf[KBUFSZ];
#endif
#ifdef GREEK_SUPPORT
static short greek_mode = 0;
#endif
/* Quick boolean variables tell us which modifier keys were pressed. */
shft = (ev->xkey.state & ShiftMask);
ctrl = (ev->xkey.state & ControlMask);
meta = (ev->xkey.state & MetaMask);
/* The num lock key toggles application keypad
mode. Num lock on, app. keypad mode off. */
if (numlock_state || (ev->xkey.state & NumLockMask)) {
numlock_state = (ev->xkey.state & NumLockMask);
PrivMode((!numlock_state), PrivMode_aplKP);
}
#ifdef USE_XIM
if (xim_input_context != NULL) {
Status status_return;
kbuf[0] = '\0';
/* Lookup the string equivalent in terms of the XIM input context. */
len = XmbLookupString(xim_input_context, &ev->xkey, (char *) kbuf, sizeof(short_buf), &keysym, &status_return);
D_TTY(("XmbLookupString() gave us len %d, keysym \"%s\" (0x%04x), and buffer \"%s\" based on the XIM input context %010p\n",
len, XKeysymToString(keysym), keysym, safe_print_string(kbuf, len), xim_input_context));
/* Whoops, it's too long. Allocate a new buffer and repeat the call. */
if (status_return == XBufferOverflow) {
kbuf = (unsigned char *) MALLOC(len + 1);
kbuf_alloced = 1;
len = XmbLookupString(xim_input_context, &ev->xkey, (char *) kbuf, len, &keysym, &status_return);
D_TTY(("XmbLookupString() gave us len %d, keysym \"%s\" (0x%04x), and buffer \"%s\" based on the XIM input context %010p\n", len, XKeysymToString(keysym), keysym, safe_print_string(kbuf, len), xim_input_context));
}
valid_keysym = (status_return == XLookupKeySym) || (status_return == XLookupBoth);
} else {
/* No XIM input context. Do it the normal way. */
len = XLookupString(&ev->xkey, (char *) kbuf, sizeof(short_buf), &keysym, NULL);
D_TTY(("XLookupString() gave us len %d, keysym \"%s\" (0x%04x), and buffer \"%s\"\n", len, XKeysymToString(keysym), keysym,
safe_print_string(kbuf, len)));
valid_keysym = 1;
}
#else /* USE_XIM */
/* Translate the key event into its corresponding string according to X. This also gets us a keysym. */
len = XLookupString(&ev->xkey, (char *) kbuf, sizeof(kbuf), &keysym, NULL);
D_TTY(("XLookupString() gave us len %d, keysym \"%s\" (0x%04x), and buffer \"%s\"\n", len, XKeysymToString(keysym), keysym,
safe_print_string(kbuf, len)));
/* If there is no string and it's a Latin2-7 character, replace it with the Latin1 character instead. */
if (!len && (keysym >= 0x0100) && (keysym < 0x0900)) {
len = 1;
kbuf[0] = (keysym & 0xff);
}
#endif /* USE_XIM */
#ifdef ESCREEN
# ifdef NS_HAVE_SCREEN
if (escreen_escape) {
if (kbuf[0]) {
escreen_escape = 0;
if (kbuf[0] < 128)
(void) ns_parse_screen_key(TermWin.screen, kbuf[0]);
LK_RET();
}
} else if (TermWin.screen && TermWin.screen->escape == kbuf[0]) {
escreen_escape = 1;
LK_RET();
}
# endif
#endif
#ifdef USE_XIM
/* Don't do anything without a valid keysym. */
if (valid_keysym) {
#endif
/* Check for a corresponding action binding. If there is one, we're done with this event. */
if (action_dispatch(ev, keysym)) {
LK_RET();
}
if (len) {
/* Only home for keypresses with length. */
if (BITFIELD_IS_SET(vt_options, VT_OPTIONS_HOME_ON_INPUT)) {
TermWin.view_start = 0;
}
}
/* This is a special mode that reports all extended keysyms (above 0xff00) to the application
as escape sequences. Very few applications use it, but it can be a handy thing to have. */
if ((BITFIELD_IS_SET(vt_options, VT_OPTIONS_REPORT_AS_KEYSYMS)) && (keysym >= 0xff00)) {
len = sprintf((char *) kbuf, "\033[k%X;%X~", (unsigned int) (ev->xkey.state & 0xff), (unsigned int) (keysym & 0xff));
tt_write(kbuf, len);
LK_RET();
}
#ifdef HOTKEY
/* Ctrl-> and Ctrl-< should change font sizes. (Meta if HOTKEY has been changed to Meta.) */
if (HOTKEY) {
if (keysym == ks_bigfont) {
change_font(0, BIGGER_FONT);
LK_RET();
} else if (keysym == ks_smallfont) {
change_font(0, SMALLER_FONT);
LK_RET();
}
}
#endif
#if defined(HAVE_X11_SUNKEYSYM_H) && defined(HAVE_X11_XMU_ATOMS_H)
switch (keysym) {
case SunXK_Copy:
case SunXK_Cut:
selection_copy(XA_CLIPBOARD(Xdisplay));
LK_RET();
break;
case SunXK_Paste:
selection_paste(XA_CLIPBOARD(Xdisplay));
LK_RET();
break;
case SunXK_Front:
xterm_seq(ESCSEQ_XTERM_TAKEOVER, "");
LK_RET();
break;
default:
break;
}
#endif
if (shft) {
/* Shift + F1 - F10 generates F11 - F20 */
if (keysym >= XK_F1 && keysym <= XK_F10) {
keysym += (XK_F11 - XK_F1);
shft = 0;
} else if (!ctrl && !meta && (PrivateModes & PrivMode_ShiftKeys)) {
switch (keysym) {
case XK_Prior: /* Shift-PgUp scrolls up a page */
if (TermWin.saveLines) {
scr_page(UP, (TermWin.nrow - CONTEXT_LINES));
LK_RET();
}
break;
case XK_Next: /* Shift-PgDn scrolls down a page */
if (TermWin.saveLines) {
scr_page(DN, (TermWin.nrow - CONTEXT_LINES));
LK_RET();
}
break;
case XK_Insert: /* Shift-Ins pastes the current selection. */
selection_paste(XA_PRIMARY);
LK_RET();
break;
case XK_KP_Add: /* Shift-Plus on the keypad increases the font size */
change_font(0, BIGGER_FONT);
LK_RET();
break;
case XK_KP_Subtract: /* Shift-Minus on the keypad decreases the font size */
change_font(0, SMALLER_FONT);
LK_RET();
break;
}
}
}
#ifdef UNSHIFTED_SCROLLKEYS
/* Allow PgUp/PgDn by themselves to scroll. Not recommended. */
else if (!ctrl && !meta) {
switch (keysym) {
case XK_Prior:
if (TermWin.saveLines) {
scr_page(UP, TermWin.nrow - CONTEXT_LINES);
LK_RET();
}
break;
case XK_Next:
if (TermWin.saveLines) {
scr_page(DN, TermWin.nrow - CONTEXT_LINES);
LK_RET();
}
break;
}
}
#endif
switch (keysym) {
case XK_Print: /* Print the screen contents out to the print pipe */
#if DEBUG >= DEBUG_SELECTION
if (DEBUG_LEVEL >= DEBUG_SELECTION) {
scr_dump_to_file("/tmp/Eterm_screen_dump.log");
} else
#endif
#ifdef PRINTPIPE
scr_printscreen(ctrl | shft);
#endif
LK_RET();
break;
case XK_Mode_switch:
#ifdef GREEK_SUPPORT
greek_mode = !greek_mode;
if (greek_mode) {
xterm_seq(ESCSEQ_XTERM_TITLE, (greek_getmode() == GREEK_ELOT928 ? "[Greek: iso]" : "[Greek: ibm]"));
greek_reset();
} else
xterm_seq(ESCSEQ_XTERM_TITLE, APL_NAME "-" VERSION);
LK_RET();
#endif
break;
}
/* At this point, all the keystrokes that have special meaning to us have been handled.
If we're in pause mode, this is a keystroke asking us to exit. Otherwise, return here. */
if (paused) {
if (keysym && len) {
exit(0);
}
LK_RET();
}
/* Process extended keysyms. This is where the conversion to escape sequences happens. */
if (keysym >= 0xff00 && keysym <= 0xffff) {
#ifdef KEYSYM_ATTRIBUTE
/* The "keysym" attribute in the config file gets handled here. */
if (!(shft | ctrl) && KeySym_map[keysym - 0xff00] != NULL) {
const unsigned char *tmpbuf;
unsigned int len;
tmpbuf = (KeySym_map[keysym - 0xff00]);
len = *tmpbuf++;
/* escape prefix */
if (meta
# ifdef META8_OPTION
&& (meta_char == 033)
# endif
) {
const unsigned char ch = '\033';
tt_write(&ch, 1);
}
tt_write(tmpbuf, len);
LK_RET();
} else
#endif
/* This is a big-ass switch statement that handles all the special keysyms */
switch (keysym) {
case XK_BackSpace:
len = 1;
#ifdef FORCE_BACKSPACE
kbuf[0] = (!(shft | ctrl) ? '\b' : '\177');
#elif defined(FORCE_DELETE)
kbuf[0] = ((shft | ctrl) ? '\b' : '\177');
#else
kbuf[0] = (((PrivateModes & PrivMode_BackSpace) ? !(shft | ctrl) : (shft | ctrl)) ? '\b' : '\177');
#endif
#ifdef MULTI_CHARSET
if ((BITFIELD_IS_SET(eterm_options, ETERM_OPTIONS_MBYTE_CURSOR)) && scr_multi2()) {
memmove(kbuf + len, kbuf, len);
len *= 2;
}
#endif /* MULTI_CHARSET */
break;
/* Tab key is normal unless it's shift-tab. */
case XK_Tab:
case XK_ISO_Left_Tab:
if (shft) {
len = 3;
strcpy(kbuf, "\033[Z");
}
break;
#ifdef XK_KP_Home
case XK_KP_Home:
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Ow");
break;
}
/* -> else FALL THROUGH */
#endif
case XK_Home:
len = strlen(strcpy(kbuf, KS_HOME));
break;
#ifdef XK_KP_Left
case XK_KP_Left: /* \033Ot or standard cursor key */
case XK_KP_Up: /* \033Ox or standard cursor key */
case XK_KP_Right: /* \033Ov or standard cursor key */
case XK_KP_Down: /* \033Or or standard cursor key */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033OZ"); /* The Z is replaced by t, x, v, or r */
kbuf[2] = ("txvr"[keysym - XK_KP_Left]);
break;
} else {
keysym = XK_Left + (keysym - XK_KP_Left);
}
/* Continue on with the normal cursor keys... */
#endif
case XK_Left: /* "\033[D" */
case XK_Up: /* "\033[A" */
case XK_Right: /* "\033[C" */
case XK_Down: /* "\033[B" */
len = 3;
strcpy(kbuf, "\033[@");
kbuf[2] = ("DACB"[keysym - XK_Left]);
if (PrivateModes & PrivMode_aplCUR) {
kbuf[1] = 'O';
} else if (shft) { /* do Shift first */
kbuf[2] = ("dacb"[keysym - XK_Left]);
} else if (ctrl) {
kbuf[1] = 'O';
kbuf[2] = ("dacb"[keysym - XK_Left]);
}
#ifdef MULTI_CHARSET
if ((BITFIELD_IS_SET(eterm_options, ETERM_OPTIONS_MBYTE_CURSOR))
&& ((keysym == XK_Left && scr_multi2())
|| (keysym == XK_Right && scr_multi1()))) {
memmove(kbuf + len, kbuf, len);
len *= 2;
}
#endif /* MULTI_CHARSET */
break;
/* Keypad and normal PgUp/PgDn */
#ifndef UNSHIFTED_SCROLLKEYS
# ifdef XK_KP_Prior
case XK_KP_Prior:
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Oy");
break;
}
/* -> else FALL THROUGH */
# endif /* XK_KP_Prior */
case XK_Prior:
len = 4;
strcpy(kbuf, "\033[5~");
break;
# ifdef XK_KP_Next
case XK_KP_Next:
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Os");
break;
}
/* -> else FALL THROUGH */
# endif /* XK_KP_Next */
case XK_Next:
len = 4;
strcpy(kbuf, "\033[6~");
break;
#endif /* UNSHIFTED_SCROLLKEYS */
/* End key */
#ifdef XK_KP_End
case XK_KP_End:
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Oq");
break;
}
/* -> else FALL THROUGH */
#endif /* XK_KP_End */
case XK_End:
len = strlen(strcpy(kbuf, KS_END));
break;
case XK_Select:
len = 4;
strcpy(kbuf, "\033[4~");
break;
#ifdef DXK_Remove
case DXK_Remove:
#endif
case XK_Execute:
len = 4;
strcpy(kbuf, "\033[3~");
break;
#ifdef XK_KP_Insert
case XK_KP_Insert:
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Op");
break;
}
#endif
case XK_Insert:
len = 4;
strcpy(kbuf, "\033[2~");
break;
#ifdef XK_KP_Delete
case XK_KP_Delete:
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033On");
break;
}
#endif
case XK_Delete:
#ifdef KS_DELETE
len = strlen(strcpy(kbuf, KS_DELETE));
#ifdef MULTI_CHARSET
if ((BITFIELD_IS_SET(eterm_options, ETERM_OPTIONS_MBYTE_CURSOR)) && scr_multi1()) {
memmove(kbuf + len, kbuf, len);
len *= 2;
}
#endif /* MULTI_CHARSET */
#endif
break;
case XK_Menu:
len = 5;
strcpy(kbuf, "\033[29~");
break;
case XK_Find:
len = 4;
strcpy(kbuf, "\033[1~");
break;
case XK_Help:
len = 5;
strcpy(kbuf, "\033[28~");
break;
case XK_KP_Enter:
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033OM");
} else {
len = 1;
kbuf[0] = '\r';
}
break;
#ifdef XK_KP_Begin
case XK_KP_Begin:
len = 3;
strcpy(kbuf, "\033Ou");
break;
#endif /* XK_KP_Begin */
case XK_KP_F1: /* "\033OP" */
case XK_KP_F2: /* "\033OQ" */
case XK_KP_F3: /* "\033OR" */
case XK_KP_F4: /* "\033OS" */
len = 3;
strcpy(kbuf, "\033OP");
kbuf[2] += (keysym - XK_KP_F1);
break;
case XK_KP_Multiply: /* "\033Oj" : "*" */
case XK_KP_Add: /* "\033Ok" : "+" */
case XK_KP_Separator: /* "\033Ol" : "," */
case XK_KP_Subtract: /* "\033Om" : "-" */
case XK_KP_Decimal: /* "\033On" : "." */
case XK_KP_Divide: /* "\033Oo" : "/" */
case XK_KP_0: /* "\033Op" : "0" */
case XK_KP_1: /* "\033Oq" : "1" */
case XK_KP_2: /* "\033Or" : "2" */
case XK_KP_3: /* "\033Os" : "3" */
case XK_KP_4: /* "\033Ot" : "4" */
case XK_KP_5: /* "\033Ou" : "5" */
case XK_KP_6: /* "\033Ov" : "6" */
case XK_KP_7: /* "\033Ow" : "7" */
case XK_KP_8: /* "\033Ox" : "8" */
case XK_KP_9: /* "\033Oy" : "9" */
/* allow shift to override */
if ((PrivateModes & PrivMode_aplKP) ? !shft : shft) {
len = 3;
strcpy(kbuf, "\033Oj");
kbuf[2] += (keysym - XK_KP_Multiply);
} else {
len = 1;
kbuf[0] = ('*' + (keysym - XK_KP_Multiply));
}
break;
#define FKEY(n,fkey) do { \
len = 5; \
sprintf((char *) kbuf,"\033[%02d~", (int)((n) + (keysym - fkey))); \
} while (0);
case XK_F1: /* "\033[11~" */
case XK_F2: /* "\033[12~" */
case XK_F3: /* "\033[13~" */
case XK_F4: /* "\033[14~" */
case XK_F5: /* "\033[15~" */
FKEY(11, XK_F1);
break;
case XK_F6: /* "\033[17~" */
case XK_F7: /* "\033[18~" */
case XK_F8: /* "\033[19~" */
case XK_F9: /* "\033[20~" */
case XK_F10: /* "\033[21~" */
FKEY(17, XK_F6);
break;
case XK_F11: /* "\033[23~" */
case XK_F12: /* "\033[24~" */
case XK_F13: /* "\033[25~" */
case XK_F14: /* "\033[26~" */
FKEY(23, XK_F11);
break;
case XK_F15: /* "\033[28~" */
case XK_F16: /* "\033[29~" */
FKEY(28, XK_F15);
break;
case XK_F17: /* "\033[31~" */
case XK_F18: /* "\033[32~" */
case XK_F19: /* "\033[33~" */
case XK_F20: /* "\033[34~" */
case XK_F21: /* "\033[35~" */
case XK_F22: /* "\033[36~" */
case XK_F23: /* "\033[37~" */
case XK_F24: /* "\033[38~" */
case XK_F25: /* "\033[39~" */
case XK_F26: /* "\033[40~" */
case XK_F27: /* "\033[41~" */
case XK_F28: /* "\033[42~" */
case XK_F29: /* "\033[43~" */
case XK_F30: /* "\033[44~" */
case XK_F31: /* "\033[45~" */
case XK_F32: /* "\033[46~" */
case XK_F33: /* "\033[47~" */
case XK_F34: /* "\033[48~" */
case XK_F35: /* "\033[49~" */
FKEY(31, XK_F17);
break;
#undef FKEY
}
#ifdef META8_OPTION
if (meta && (meta_char == 0x80) && len > 0) {
kbuf[len - 1] |= 0x80;
}
#endif
} else if (ctrl && keysym == XK_minus) {
len = 1;
kbuf[0] = '\037'; /* Ctrl-Minus generates ^_ (31) */
} else {
#ifdef META8_OPTION
/* set 8-bit on */
if (meta && (meta_char == 0x80)) {
unsigned char *ch;
for (ch = kbuf; ch < kbuf + len; ch++)
*ch |= 0x80;
meta = 0;
}
#endif
#ifdef GREEK_SUPPORT
if (greek_mode)
len = greek_xlat(kbuf, len);
#endif
}
#ifdef USE_XIM
}
#endif
/* All processed. If there's still no string, we're done. */
if (len <= 0) {
LK_RET();
}
/*
* these modifications only affect the static keybuffer
* pass Shift/Control indicators for function keys ending with `~'
*
* eg,
* Prior = "ESC[5~"
* Shift+Prior = "ESC[5$"
* Ctrl+Prior = "ESC[5^"
* Ctrl+Shift+Prior = "ESC[5@"
*/
if (kbuf[0] == '\033' && kbuf[1] == '[' && kbuf[len - 1] == '~') {
kbuf[len - 1] = (shft ? (ctrl ? '@' : '$') : (ctrl ? '^' : '~'));
}
/* escape prefix */
if (meta
#ifdef META8_OPTION
&& (meta_char == 033)
#endif
) {
const unsigned char ch = '\033';
tt_write(&ch, 1);
}
D_TTY(("After handling: len %d, keysym \"%s\" (0x%04x), and buffer \"%s\"\n", len, XKeysymToString(keysym), keysym,
safe_print_string(kbuf, len)));
tt_write(kbuf, len); /* Send the resulting string to the child process */
LK_RET();
}
#ifdef PRINTPIPE
/* Open the print pipe. */
FILE *
popen_printer(void)
{
FILE *stream;
if (((my_ruid != my_euid) || (my_rgid != my_egid)) && (strcmp(rs_print_pipe, PRINTPIPE))) {
libast_print_warning("Running setuid/setgid. Refusing to use custom printpipe.\n");
RESET_AND_ASSIGN(rs_print_pipe, STRDUP(PRINTPIPE));
}
if ((stream = (FILE *) popen(rs_print_pipe, "w")) == NULL) {
libast_print_error("Can't open printer pipe \"%s\" -- %s\n", rs_print_pipe, strerror(errno));
}
return stream;
}
/* Close the print pipe. */
int
pclose_printer(FILE * stream)
{
fflush(stream);
return pclose(stream);
}
/* Print everything until we hit a \e[4i sequence. */
void
process_print_pipe(void)
{
const char *const escape_seq = "\033[4i";
int index;
FILE *fd;
if ((fd = popen_printer()) != NULL) {
for (index = 0; index < 4; /* nil */ ) {
unsigned char ch = cmd_getc();
if (ch == escape_seq[index]) {
index++;
} else if (index) {
int i;
for (i = 0; index > 0; i++, index--) {
fputc(escape_seq[i], fd);
}
}
if (index == 0) {
fputc(ch, fd);
}
}
pclose_printer(fd);
}
}
#endif /* PRINTPIPE */
/* This routine processes escape sequences; i.e., when a \033 character is encountered in the
input stream, this function is called to process it. First, we get the next character off
the input stream (the one after the ESC) and store it in ch. Then we proceed based on what
ch is. Some escape sequences are only ESC followed by a single character, so the
processing of those ends here. Others are longer and get passed on to other functions from
this one. */
void
process_escape_seq(void)
{
unsigned char ch = cmd_getc();
switch (ch) {
case '#':
if (cmd_getc() == '8')
scr_E();
break;
case '(':
scr_charset_set(0, cmd_getc());
break;
case ')':
scr_charset_set(1, cmd_getc());
break;
case '*':
scr_charset_set(2, cmd_getc());
break;
case '+':
scr_charset_set(3, cmd_getc());
break;
#ifdef MULTI_CHARSET
case '$':
scr_charset_set(-2, cmd_getc());
break;
#endif
case '7':
scr_cursor(SAVE);
break;
case '8':
scr_cursor(RESTORE);
break;
case '=':
case '>':
PrivMode((ch == '='), PrivMode_aplKP);
break;
case '@':
(void) cmd_getc();
break;
case 'D':
scr_index(UP);
break;
case 'E':
scr_add_lines((unsigned char *) "\n\r", 1, 2);
break;
case 'G':
if ((ch = cmd_getc()) == 'Q') { /* query graphics */
tt_printf((unsigned char *) "\033G0\n"); /* no graphics */
} else {
do {
ch = cmd_getc();
} while (ch != ':');
}
break;
case 'H':
scr_set_tab(1);
break;
case 'M':
scr_index(DN);
break;
case 'Z':
#ifndef NO_ENQ_ANS
tt_printf((unsigned char *) ESCZ_ANSWER);
#endif
break;
case '[':
process_csi_seq();
break;
case ']':
process_xterm_seq();
break;
case 'c':
scr_poweron();
break;
case 'n':
scr_charset_choose(2);
break;
case 'o':
scr_charset_choose(3);
break;
}
}
/* This function handles Code Sequence Introducer (CSI) escape sequences. At this point,
we've read "\e[" from the input stream. CSI sequences take an arbitrary number of
parameters and are used almost exclusively for terminal window navigation and
manipulation. */
void
process_csi_seq(void)
{
unsigned char ch;
unsigned char priv = 0;
unsigned int nargs = 0;
int arg[ESC_ARGS] = { 0, 0 };
int ignore = 0;
ch = cmd_getc(); /* Get the next character */
if (ch >= '<' && ch <= '?') {
priv = ch; /* DEC private mode sequence. Get next character. */
ch = cmd_getc();
}
/* Read semicolon-delimited numerical arguments, if any. */
do {
int n;
for (n = 0; isdigit(ch); ch = cmd_getc())
n = n * 10 + (ch - '0');
if (nargs < ESC_ARGS)
arg[nargs++] = n;
if (ch == '\b') {
scr_backspace();
} else if (ch == 033) {
cmd_ungetc(); /* New escape sequence starting in the middle of one. Punt. */
return;
} else if (ch < ' ') {
scr_add_lines(&ch, 0, 1); /* Insert verbatim non-printable character (NPC) */
return;
}
if (ch == '-') /* HACK: Ignore this sequence, but finish reading */
ignore = 1; /* xterm ignores more than this, but we need this for vim */
if (ch < '@')
ch = cmd_getc(); /* Separator. Go to next digit or operation. */
} while (ch >= ' ' && ch < '@');
if (ch == 033) {
cmd_ungetc();
return;
} else if (ch < ' ')
return; /* An NPC. Punt. */
if (ignore)
return;
switch (ch) {
case '@':
scr_insdel_chars((arg[0] ? arg[0] : 1), INSERT);
break;
case 'A':
case 'e': /* Cursor up n lines "\e[<n>A" */
scr_gotorc((arg[0] ? -arg[0] : -1), 0, RELATIVE);
break;
case 'B': /* Cursor down n lines "\e[<n>B" */
scr_gotorc((arg[0] ? +arg[0] : +1), 0, RELATIVE);
break;
case 'C':
case 'a': /* Cursor right n columns "\e[<n>C" */
scr_gotorc(0, (arg[0] ? +arg[0] : +1), RELATIVE);
break;
case 'D': /* Cursor left n columns "\e[<n>D" */
scr_gotorc(0, (arg[0] ? -arg[0] : -1), RELATIVE);
break;
case 'E': /* Cursor down n lines and to first column "\e[<n>E" */
scr_gotorc((arg[0] ? +arg[0] : +1), 0, R_RELATIVE);
break;
case 'F': /* Cursor up n lines and to first column "\e[<n>F" */
scr_gotorc((arg[0] ? -arg[0] : -1), 0, R_RELATIVE);
break;
case 'G':
case '`': /* Cursor to column n "\e[<n>G" */
scr_gotorc(0, (arg[0] ? arg[0] - 1 : +1), R_RELATIVE);
break;
case 'H':
case 'f': /* Cursor to row r, column c "\e[<r>;<c>H" */
switch (nargs) {
case 0:
scr_gotorc(0, 0, 0);
break;
case 1:
scr_gotorc((arg[0] ? arg[0] - 1 : 0), 0, 0);
break;
default:
scr_gotorc(arg[0] - 1, arg[1] - 1, 0);
break;
}
break;
case 'I': /* Tab right n tab stops "\e[<n>I" */
scr_tab(arg[0] ? +arg[0] : +1);
break;
case 'J': /* Clear part or all of screen, depending on n "\e[<n>J" */
scr_erase_screen(arg[0]);
break;
case 'K': /* Clear part or all of line, depending on n "\e[<n>K" */
scr_erase_line(arg[0]);
break;
case 'L':
scr_insdel_lines((arg[0] ? arg[0] : 1), INSERT);
break;
case 'M':
scr_insdel_lines((arg[0] ? arg[0] : 1), DELETE);
break;
case 'P':
scr_insdel_chars((arg[0] ? arg[0] : 1), DELETE);
break;
case 'W':
switch (arg[0]) {
case 0:
scr_set_tab(1);
break; /* = ESC H */
case 2:
scr_set_tab(0);
break; /* = ESC [ 0 g */
case 5:
scr_set_tab(-1);
break; /* = ESC [ 3 g */
}
break;
case 'X':
scr_insdel_chars((arg[0] ? arg[0] : 1), ERASE);
break;
case 'Z': /* Tab left n tab stops "\e[<n>Z" */
scr_tab(arg[0] ? -arg[0] : -1);
break;
case 'c':
/* TODO: A different response should be sent depending on the value of
priv and of arg[0], but what should those reponses be? */
#ifndef NO_VT100_ANS
tt_printf((unsigned char *) VT100_ANS);
#endif
break;
case 'd': /* Cursor to row n "\e[<n>d" */
scr_gotorc((arg[0] ? arg[0] - 1 : +1), 0, C_RELATIVE);
break;
case 'g':
switch (arg[0]) {
case 0:
scr_set_tab(0);
break; /* delete tab */
case 3:
scr_set_tab(-1);
break; /* clear all tabs */
}
break;
#ifdef PRINTPIPE
case 'i':
switch (arg[0]) {
case 0:
scr_printscreen(0); /* Print screen "\e[0i" */
break;
case 5:
process_print_pipe(); /* Start printing to print pipe "\e[5i" */
break;
}
break;
#endif
case 'm':
process_sgr_mode(nargs, arg);
break;
case 'n': /* request for information */
switch (arg[0]) {
case 5:
tt_printf((unsigned char *) "\033[0n");
break; /* ready */
case 6:
scr_report_position();
break;
#if defined (ENABLE_DISPLAY_ANSWER)
case 7:
tt_write((unsigned char *) display_name, strlen(display_name));
tt_write("\n", 1);
break;
#endif
case 8:
xterm_seq(ESCSEQ_XTERM_TITLE, APL_NAME "-" VERSION);
break;
case 9:
#ifdef PIXMAP_OFFSET
if (image_mode_is(image_bg, MODE_TRANS)) {
char tbuff[70];
char shading = 0;
unsigned long tint = 0xffffff;
if (images[image_bg].current->iml->mod) {
shading = images[image_bg].current->iml->mod->brightness / 0xff * 100;
}
if (images[image_bg].current->iml->rmod) {
tint = (tint & 0x00ffff) | ((images[image_bg].current->iml->rmod->brightness & 0xff) << 16);
}
if (images[image_bg].current->iml->gmod) {
tint = (tint & 0xff00ff) | ((images[image_bg].current->iml->gmod->brightness & 0xff) << 8);
}
if (images[image_bg].current->iml->bmod) {
tint = (tint & 0xffff00) | (images[image_bg].current->iml->bmod->brightness & 0xff);
}
snprintf(tbuff, sizeof(tbuff), APL_NAME "-" VERSION ": Transparent - %d%% shading - 0x%06lx tint mask",
shading, tint);
xterm_seq(ESCSEQ_XTERM_TITLE, tbuff);
} else
#endif
#ifdef PIXMAP_SUPPORT
{
char *tbuff;
unsigned short len;
if (background_is_pixmap()) {
const char *fname;
imlib_context_set_image(images[image_bg].current->iml->im);
fname = imlib_image_get_filename();
len = strlen(fname) + sizeof(APL_NAME) + sizeof(VERSION) + 5;
tbuff = MALLOC(len);
snprintf(tbuff, len, APL_NAME "-" VERSION ": %s", fname);
xterm_seq(ESCSEQ_XTERM_TITLE, tbuff);
FREE(tbuff);
} else {
xterm_seq(ESCSEQ_XTERM_TITLE, APL_NAME "-" VERSION ": No Pixmap");
}
}
#endif /* PIXMAP_SUPPORT */
break;
}
break;
case 'r': /* set top and bottom margins */
if (priv != '?') {
if (nargs < 2 || arg[0] >= arg[1])
scr_scroll_region(0, 10000);
else
scr_scroll_region(arg[0] - 1, arg[1] - 1);
break;
}
/* drop */
case 't':
if (priv != '?') {
process_window_mode(nargs, arg);
break;
}
/* drop */
case 's':
if (ch == 's' && !nargs) {
scr_cursor(SAVE);
break;
}
/* drop */
case 'h':
case 'l':
process_terminal_mode(ch, priv, nargs, arg);
break;
case 'u':
if (!nargs) {
scr_cursor(RESTORE);
}
break;
}
}
/* process xterm text parameters sequences `ESC ] Ps ; Pt BEL' */
void
process_xterm_seq(void)
{
unsigned char ch, string[STRING_MAX];
int arg;
ch = cmd_getc();
if (isdigit(ch)) {
for (arg = 0; isdigit(ch); ch = cmd_getc()) {
arg = arg * 10 + (ch - '0');
}
} else if (ch == ';') {
arg = 0;
} else {
arg = ch;
ch = cmd_getc();
}
if (arg == 'R') {
stored_palette(RESTORE);
redraw_image(image_bg);
set_colorfgbg();
scr_touch();
scr_refresh(DEFAULT_REFRESH);
return;
} else if (arg == 'P') {
unsigned char i, idx;
idx = ((ch <= '9') ? (ch - '0') : (tolower(ch) - 'a' + 10)) + minColor;
string[0] = '#';
string[7] = 0;
for (i = 1; i < 7; i++) {
string[i] = cmd_getc();
}
set_window_color(idx, string);
return;
} else if (ch == ';') {
unsigned long n = 0;
while ((ch = cmd_getc()) != 007) {
if (ch) {
if (ch == '\t')
ch = ' '; /* translate '\t' to space */
else if (ch < ' ') {
if (ch == 27 && (ch = cmd_getc()) == '\\') /* ESC \ (ST) is String Terminator in Xterm */
break;
return; /* control character - exit */
}
if (n < sizeof(string) - 1)
string[n++] = ch;
}
}
string[n] = '\0';
xterm_seq(arg, (char *) string);
} else {
unsigned long n = 0;
for (; ch != '\033'; ch = cmd_getc()) {
if (ch) {
if (ch == '\t')
ch = ' '; /* translate '\t' to space */
else if (ch < ' ')
return; /* control character - exit */
if (n < sizeof(string) - 1)
string[n++] = ch;
}
}
string[n] = '\0';
if ((ch = cmd_getc()) != '\\') {
return;
}
switch (arg) {
case 'l':
xterm_seq(ESCSEQ_XTERM_TITLE, (char *) string);
break;
case 'L':
xterm_seq(ESCSEQ_XTERM_ICONNAME, (char *) string);
break;
case 'I':
set_icon_pixmap((char *) string, NULL);
break;
default:
break;
}
}
}
/* Process window manipulations */
void
process_window_mode(unsigned int nargs, int args[])
{
register unsigned int i;
int x, y;
Screen *scr;
Window dummy_child;
int dummy_x, dummy_y;
unsigned int dummy_border, dummy_depth;
char buff[1024];
#ifdef ENABLE_NAME_REPORTING_ESCAPES
char *name;
#endif
if (!nargs)
return;
scr = ScreenOfDisplay(Xdisplay, Xscreen);
if (!scr)
return;
for (i = 0; i < nargs; i++) {
switch (args[i]) {
case 1:
XMapRaised(Xdisplay, TermWin.parent);
break;
case 2:
XIconifyWindow(Xdisplay, TermWin.parent, Xscreen);
break;
case 3:
if (i + 2 >= nargs)
return; /* Make sure there are 2 args left */
x = args[++i];
y = args[++i];
if (((unsigned int) x > (unsigned int) scr->width) || ((unsigned int) y > (unsigned int) scr->height))
return; /* Don't move off-screen */
XMoveWindow(Xdisplay, TermWin.parent, x, y);
break;
case 4:
if (i + 2 >= nargs)
return; /* Make sure there are 2 args left */
y = args[++i];
x = args[++i];
BOUND(y, szHint.min_height, scr->height);
BOUND(x, szHint.min_width, scr->width);
XResizeWindow(Xdisplay, TermWin.parent, x, y);
break;
case 5:
XRaiseWindow(Xdisplay, TermWin.parent);
break;
case 6:
XLowerWindow(Xdisplay, TermWin.parent);
break;
case 7:
XClearWindow(Xdisplay, TermWin.vt);
XSync(Xdisplay, False);
scr_touch();
scr_refresh(DEFAULT_REFRESH);
break;
case 8:
if (i + 2 >= nargs)
return; /* Make sure there are 2 args left */
y = args[++i];
x = args[++i];
BOUND(y, 1, scr->height / TermWin.fheight);
BOUND(x, 1, scr->width / TermWin.fwidth);
XResizeWindow(Xdisplay, TermWin.parent,
Width2Pixel(x) + 2 * TermWin.internalBorder + (scrollbar_is_visible()? scrollbar_trough_width() : 0),
Height2Pixel(y) + 2 * TermWin.internalBorder);
break;
case 11:
break;
case 13:
XTranslateCoordinates(Xdisplay, TermWin.parent, Xroot, 0, 0, &x, &y, &dummy_child);
snprintf(buff, sizeof(buff), "\033[3;%d;%dt", x, y);
tt_write((unsigned char *) buff, strlen(buff));
break;
case 14:
/* Store current width and height in x and y */
XGetGeometry(Xdisplay, TermWin.parent, &dummy_child, &dummy_x, &dummy_y, (unsigned int *) (&x),
(unsigned int *) (&y), &dummy_border, &dummy_depth);
snprintf(buff, sizeof(buff), "\033[4;%d;%dt", y, x);
tt_write((unsigned char *) buff, strlen(buff));
break;
case 18:
snprintf(buff, sizeof(buff), "\033[8;%d;%dt", TERM_WINDOW_GET_REPORTED_ROWS(), TERM_WINDOW_GET_REPORTED_COLS());
tt_write((unsigned char *) buff, strlen(buff));
break;
#ifdef ENABLE_NAME_REPORTING_ESCAPES
case 20:
XGetIconName(Xdisplay, TermWin.parent, &name);
snprintf(buff, sizeof(buff), "\033]L%s\033\\", name);
tt_write((unsigned char *) buff, strlen(buff));
XFree(name);
break;
case 21:
XFetchName(Xdisplay, TermWin.parent, &name);
snprintf(buff, sizeof(buff), "\033]l%s\033\\", name);
tt_write((unsigned char *) buff, strlen(buff));
XFree(name);
break;
#endif
default:
break;
}
}
}
/* process DEC private mode sequences `ESC [ ? Ps mode' */
/*
* mode can only have the following values:
* 'l' = low
* 'h' = high
* 's' = save
* 'r' = restore
* 't' = toggle
*/
void
process_terminal_mode(int mode, int priv, unsigned int nargs, int arg[])
{
unsigned int i;
int state; /* This gets set by the PrivCases macro */
if (nargs == 0)
return;
/* make lo/hi boolean */
switch (mode) {
case 'l':
mode = 0;
break;
case 'h':
mode = 1;
break;
}
switch (priv) {
case 0:
if (mode && mode != 1)
return; /* only do high/low */
for (i = 0; i < nargs; i++)
switch (arg[i]) {
case 4:
scr_insert_mode(mode);
break;
/* case 38: TEK mode */
}
break;
case '?':
for (i = 0; i < nargs; i++)
switch (arg[i]) {
case 1: /* application cursor keys */
PrivCases(PrivMode_aplCUR);
break;
/* case 2: - reset charsets to USASCII */
case 3: /* 80/132 */
PrivCases(PrivMode_132);
if (PrivateModes & PrivMode_132OK)
set_width(state ? 132 : 80);
break;
/* case 4: - smooth scrolling */
case 5: /* reverse video */
PrivCases(PrivMode_rVideo);
scr_rvideo_mode(state);
break;
case 6: /* relative/absolute origins */
PrivCases(PrivMode_relOrigin);
scr_relative_origin(state);
break;
case 7: /* autowrap */
PrivCases(PrivMode_Autowrap);
scr_autowrap(state);
break;
/* case 8: - auto repeat, can't do on a per window basis */
case 9: /* X10 mouse reporting */
PrivCases(PrivMode_MouseX10);
/* orthogonal */
if (PrivateModes & PrivMode_MouseX10)
PrivateModes &= ~(PrivMode_MouseX11);
break;
case 25: /* visible/invisible cursor */
PrivCases(PrivMode_VisibleCursor);
scr_cursor_visible(state);
break;
case 30:
PrivCases(PrivMode_scrollbar);
map_scrollbar(state);
break;
case 35:
PrivCases(PrivMode_ShiftKeys);
break;
case 40: /* 80 <--> 132 mode */
PrivCases(PrivMode_132OK);
break;
case 47: /* secondary screen */
PrivCases(PrivMode_Screen);
scr_change_screen(state);
break;
case 66: /* application key pad */
PrivCases(PrivMode_aplKP);
break;
case 67:
PrivCases(PrivMode_BackSpace);
break;
case 1000: /* X11 mouse reporting */
PrivCases(PrivMode_MouseX11);
/* orthogonal */
if (PrivateModes & PrivMode_MouseX11)
PrivateModes &= ~(PrivMode_MouseX10);
break;
#if 0
case 1001:
break; /* X11 mouse highlighting */
#endif
case 1010: /* Scroll to bottom on TTY output */
if (BITFIELD_IS_SET(vt_options, VT_OPTIONS_HOME_ON_OUTPUT))
BITFIELD_CLEAR(vt_options, VT_OPTIONS_HOME_ON_OUTPUT);
else
BITFIELD_SET(vt_options, VT_OPTIONS_HOME_ON_OUTPUT);
break;
case 1012: /* Scroll to bottom on TTY input */
if (BITFIELD_IS_SET(vt_options, VT_OPTIONS_HOME_ON_INPUT))
BITFIELD_CLEAR(vt_options, VT_OPTIONS_HOME_ON_INPUT);
else
BITFIELD_SET(vt_options, VT_OPTIONS_HOME_ON_INPUT);
break;
case 1047: /* Alternate screen & clear */
PrivCases(PrivMode_Screen);
if (!state) {
/* Only clear the screen before switching from
secondary to primary. */
scr_erase_screen(2);
}
scr_change_screen(state);
break;
case 1048: /* Save/restore cursor pos */
PrivCases(PrivMode_Screen);
scr_cursor(state ? SAVE : RESTORE);
break;
case 1049: /* Alternate screen & cursor */
PrivCases(PrivMode_Screen);
scr_cursor(state ? SAVE : RESTORE);
if (!state) {
/* Only clear the screen before switching from
secondary to primary. */
scr_erase_screen(2);
}
scr_change_screen(state);
break;
}
break;
}
}
/* process sgr sequences */
void
process_sgr_mode(unsigned int nargs, int arg[])
{
unsigned int i;
if (nargs == 0) {
scr_rendition(0, ~RS_None);
return;
}
for (i = 0; i < nargs; i++)
switch (arg[i]) {
case 0:
scr_rendition(0, ~RS_None);
break;
case 1:
scr_rendition(1, RS_Bold);
break;
case 2:
scr_rendition(1, RS_Dim);
break;
case 3:
scr_rendition(1, RS_Italic);
break;
case 4:
scr_rendition(1, RS_Uline);
break;
case 5:
scr_rendition(1, RS_Blink);
break;
case 6:
scr_rendition(1, RS_Overscore);
break;
case 7:
scr_rendition(1, RS_RVid);
break;
case 8:
scr_rendition(1, RS_Conceal);
break;
case 22:
scr_rendition(0, RS_Bold);
scr_rendition(0, RS_Dim);
break;
case 24:
scr_rendition(0, RS_Uline);
break;
case 25:
scr_rendition(0, RS_Blink);
scr_rendition(0, RS_Overscore);
break;
case 27:
scr_rendition(0, RS_RVid);
break;
/* set fg color */
case 30:
case 31:
case 32:
case 33:
case 34:
case 35:
case 36:
case 37:
scr_color(minColor + (arg[i] - 30), RS_Bold);
break;
case 38:
if (arg[i + 1] == 5) {
i += 2;
if (arg[i] >= 0 && arg[i] < 256)
scr_color(arg[i], RS_Bold);
}
break;
/* default fg */
case 39:
scr_color(restoreFG, RS_Bold);
break;
/* set bg color */
case 40:
case 41:
case 42:
case 43:
case 44:
case 45:
case 46:
case 47:
scr_color(minColor + (arg[i] - 40), RS_Blink);
break;
case 48:
if (arg[i + 1] == 5) {
i += 2;
if (arg[i] >= 0 && arg[i] < 256)
scr_color(arg[i], RS_Blink);
}
break;
/* default bg */
case 49:
scr_color(restoreBG, RS_Blink);
break;
/* set fg color - bright */
case 90:
case 91:
case 92:
case 93:
case 94:
case 95:
case 96:
case 97:
scr_color(minBright + (arg[i] - 90), RS_Bold);
break;
/* default fg */
case 99:
scr_color(restoreFG, RS_Bold);
break;
/* set bg color - bright */
case 100:
case 101:
case 102:
case 103:
case 104:
case 105:
case 106:
case 107:
scr_color(minBright + (arg[i] - 100), RS_Blink);
break;
/* default bg */
case 109:
scr_color(restoreBG, RS_Blink);
break;
}
}
/* find if fg/bg matches any of the normal (low-intensity) colors */
void
set_colorfgbg(void)
{
unsigned int i;
static char *colorfgbg_env = NULL;
char *p;
int fg = -1, bg = -1;
if (!colorfgbg_env) {
colorfgbg_env = (char *) MALLOC(30);
strcpy(colorfgbg_env, "COLORFGBG=default;default;bg");
}
for (i = BlackColor; i <= WhiteColor; i++) {
if (PixColors[fgColor] == PixColors[i]) {
fg = (i - BlackColor);
break;
}
}
for (i = BlackColor; i <= WhiteColor; i++) {
if (PixColors[bgColor] == PixColors[i]) {
bg = (i - BlackColor);
break;
}
}
p = strchr(colorfgbg_env, '=');
p++;
if (fg >= 0)
sprintf(p, "%d;", fg);
else
strcpy(p, "default;");
p = strchr(p, '\0');
if (bg >= 0)
sprintf(p,
# ifdef PIXMAP_SUPPORT
"default;"
# endif
"%d", bg);
else
strcpy(p, "default");
putenv(colorfgbg_env);
colorfgbg = DEFAULT_RSTYLE;
for (i = minColor; i <= maxColor; i++) {
if (PixColors[fgColor] == PixColors[i]
# ifndef NO_BOLDUNDERLINE
&& PixColors[fgColor] == PixColors[colorBD]
# endif /* NO_BOLDUNDERLINE */
/* if we wanted boldFont to have precedence */
# if 0 /* ifndef NO_BOLDFONT */
&& TermWin.boldFont == NULL
# endif /* NO_BOLDFONT */
)
colorfgbg = SET_FGCOLOR(colorfgbg, i);
if (PixColors[bgColor] == PixColors[i])
colorfgbg = SET_BGCOLOR(colorfgbg, i);
}
}
void
set_title(const char *str)
{
static char *name = NULL;
if (!str) {
str = APL_NAME "-" VERSION;
}
if (name == NULL || strcmp(name, str)) {
if (name != NULL) {
FREE(name);
}
D_X11(("Setting window title to \"%s\"\n", str));
XStoreName(Xdisplay, TermWin.parent, str);
name = STRDUP(str);
}
}
void
set_icon_name(const char *str)
{
static char *name = NULL;
if (!str)
str = APL_NAME "-" VERSION;
if (name == NULL || strcmp(name, str)) {
if (name != NULL) {
FREE(name);
}
D_X11(("Setting window icon name to \"%s\"\n", str));
XSetIconName(Xdisplay, TermWin.parent, str);
name = STRDUP(str);
}
}
void
append_to_title(const char *str)
{
char *name, *buff;
REQUIRE(str != NULL);
XFetchName(Xdisplay, TermWin.parent, &name);
if (name != NULL) {
buff = (char *) MALLOC(strlen(name) + strlen(str) + 1);
strcpy(buff, name);
strcat(buff, str);
set_title(buff);
FREE(buff);
}
}
void
append_to_icon_name(const char *str)
{
char *name, *buff;
REQUIRE(str != NULL);
XGetIconName(Xdisplay, TermWin.parent, &name);
if (name != NULL) {
buff = (char *) MALLOC(strlen(name) + strlen(str) + 1);
strcpy(buff, name);
strcat(buff, str);
set_icon_name(buff);
FREE(buff);
}
}
/*
* XTerm escape sequences: ESC ] Ps;Pt BEL
* 0 = change icon name and window title
* 1 = change icon name
* 2 = change title
* 3 = set text property on window
* 4 = set any of 256 colors
* 46 = change logfile (not implemented)
* 50 = change font
*
* rxvt/Eterm extensions:
* 5 = Hostile takeover (grab focus and raise)
* 6 = Transparency mode stuff
* 10 = menu
* 20 = bg pixmap
* 39 = change default fg color
* 49 = change default bg color
*/
void
xterm_seq(int op, const char *str)
{
XColor xcol;
char *nstr, *tnstr, *valptr;
unsigned char eterm_seq_op;
unsigned int i;
XWMHints *wm_hints;
#ifdef PIXMAP_SUPPORT
unsigned char changed = 0, scaled = 0, which = 0;
char *color, *mod, *orig_tnstr;
#endif
if (!str)
return;
tnstr = STRDUP(str);
#ifdef PIXMAP_SUPPORT
orig_tnstr = tnstr;
#endif
switch (op) {
case ESCSEQ_XTERM_NAME: /* 0 */
set_title(str); /* drop */
case ESCSEQ_XTERM_ICONNAME: /* 1 */
set_icon_name(str);
break;
case ESCSEQ_XTERM_TITLE: /* 2 */
set_title(str);
break;
case ESCSEQ_XTERM_PROP: /* 3 */
if ((nstr = (char *) strsep(&tnstr, ";")) == NULL) {
break;
}
if ((valptr = strchr(nstr, '=')) != NULL) {
*(valptr++) = 0;
}
set_text_property(TermWin.parent, nstr, valptr);
break;
case ESCSEQ_XTERM_CHANGE_COLOR: /* Changing existing colors 256 */
while ((nstr = (char *) strsep(&tnstr, ";")) != NULL) {
i = (unsigned int) strtoul(nstr, (char **) NULL, 0);
nstr = (char *) strsep(&tnstr, ";");
if ((i < 256) && (nstr != NULL)) {
D_COLORS(("Changing color : [%d] -> %s\n", i, nstr));
set_window_color(i, nstr);
}
}
break;
case ESCSEQ_XTERM_TAKEOVER: /* 5 */
XSetInputFocus(Xdisplay, TermWin.parent, RevertToParent, CurrentTime);
XRaiseWindow(Xdisplay, TermWin.parent);
break;
case ESCSEQ_XTERM_ETERMSEQ: /* 6 */
/* Eterm proprietary escape sequences. See technical reference for details. */
D_CMD(("Got ESCSEQ_XTERM_ETERMSEQ sequence\n"));
nstr = (char *) strsep(&tnstr, ";");
eterm_seq_op = (unsigned char) strtol(nstr, (char **) NULL, 10);
D_CMD((" ESCSEQ_XTERM_ETERMSEQ operation is %d\n", eterm_seq_op));
/* Yes, there is order to the numbers for this stuff. And here it is:
0-9 Image Class/Mode Configuration
10-19 Scrollbar/Buttonbar/Menu Configuration
20-39 Miscellaneous Toggles
40-49 Foreground/Background Color Configuration
50-69 Window/Window Manager Configuration/Interaction
70+ Internal Eterm Operations
*/
switch (eterm_seq_op) {
#ifdef PIXMAP_SUPPORT
case 0:
nstr = (char *) strsep(&tnstr, ";");
if (nstr) {
if (BOOL_OPT_ISTRUE(nstr)) {
D_CMD((" Request to enable transparency.\n"));
/* *INDENT-OFF* */
FOREACH_IMAGE(
if (!image_mode_is(idx, MODE_TRANS) && image_mode_is(idx, ALLOW_TRANS)) {
image_set_mode(idx, MODE_TRANS);
if (images[idx].current->pmap->pixmap != None) {
imlib_free_pixmap_and_mask(images[idx].current->pmap->pixmap);
}
images[idx].current->pmap->pixmap = None;
}
);
/* *INDENT-ON* */
} else if (BOOL_OPT_ISFALSE(nstr)) {
D_CMD((" Request to disable transparency.\n"));
/* *INDENT-OFF* */
FOREACH_IMAGE(
if (image_mode_is(idx, MODE_TRANS)) {
if (image_mode_is(idx, ALLOW_IMAGE)) {
image_set_mode(idx, MODE_IMAGE);
} else {
image_set_mode(idx, MODE_SOLID);
}
}
);
/* *INDENT-ON* */
} else {
D_CMD((" Bad boolean value in transparency request.\n"));
break;
}
} else {
D_CMD((" Request to toggle transparency.\n"));
/* *INDENT-OFF* */
FOREACH_IMAGE(
if (!image_mode_is(idx, MODE_TRANS) && image_mode_is(idx, ALLOW_TRANS)) {
image_set_mode(idx, MODE_TRANS);
if (images[idx].current->pmap->pixmap != None) {
imlib_free_pixmap_and_mask(images[idx].current->pmap->pixmap);
}
images[idx].current->pmap->pixmap = None;
} else if (image_mode_is(idx, MODE_TRANS)) {
if (image_mode_is(idx, ALLOW_IMAGE)) {
image_set_mode(idx, MODE_IMAGE);
} else {
image_set_mode(idx, MODE_SOLID);
}
}
);
/* *INDENT-ON* */
}
redraw_all_images();
break;
case 1:
changed = 0;
for (; 1;) {
if ((color = (char *) strsep(&tnstr, ";")) == NULL) {
break;
}
which = image_max;
FOREACH_IMAGE(if (!strcasecmp(color, (get_image_type(idx) + 6))) {
which = idx; break;}
);
if (which != image_max) {
if ((color = (char *) strsep(&tnstr, ";")) == NULL) {
break;
}
} else {
which = image_bg;
}
if ((mod = (char *) strsep(&tnstr, ";")) == NULL) {
break;
}
if (!strcasecmp(mod, "clear")) {
imlib_t *iml = images[which].current->iml;
D_CMD(("Clearing the %s color modifier of the %s image\n", color, get_image_type(which)));
if (!strcasecmp(color, "image")) {
FREE(iml->mod);
} else if (!strcasecmp(color, "red")) {
FREE(iml->rmod);
} else if (!strcasecmp(color, "green")) {
FREE(iml->gmod);
} else if (!strcasecmp(color, "blue")) {
FREE(iml->bmod);
}
# ifdef PIXMAP_OFFSET
if (image_mode_is(which, MODE_TRANS) && (desktop_pixmap != None)) {
free_desktop_pixmap();
} else if (image_mode_is(which, MODE_VIEWPORT) && (viewport_pixmap != None)) {
LIBAST_X_FREE_PIXMAP(viewport_pixmap);
viewport_pixmap = None; /* Force the re-read */
}
# endif
changed = 1;
continue;
}
if ((valptr = (char *) strsep(&tnstr, ";")) == NULL) {
break;
}
D_CMD(("Modifying the %s attribute of the %s color modifier of the %s image to be %s\n",
mod, color, get_image_type(which), valptr));
changed = 1;
# ifdef PIXMAP_OFFSET
if (image_mode_is(which, MODE_TRANS) && (desktop_pixmap != None)) {
free_desktop_pixmap();
} else if (image_mode_is(which, MODE_VIEWPORT) && (viewport_pixmap != None)) {
LIBAST_X_FREE_PIXMAP(viewport_pixmap);
viewport_pixmap = None; /* Force the re-read */
}
# endif
if (!strcasecmp(color, "image")) {
imlib_t *iml = images[which].current->iml;
if (iml->mod == NULL) {
iml->mod = create_colormod();
}
if (!BEG_STRCASECMP(mod, "brightness")) {
iml->mod->brightness = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "contrast")) {
iml->mod->contrast = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "gamma")) {
iml->mod->gamma = (int) strtol(valptr, (char **) NULL, 0);
}
update_cmod(iml->mod);
reload_image(iml);
update_cmod_tables(iml);
} else if (!strcasecmp(color, "red")) {
imlib_t *iml = images[which].current->iml;
if (iml->rmod == NULL) {
iml->rmod = create_colormod();
}
if (!BEG_STRCASECMP(mod, "brightness")) {
iml->rmod->brightness = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "contrast")) {
iml->rmod->contrast = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "gamma")) {
iml->rmod->gamma = (int) strtol(valptr, (char **) NULL, 0);
}
update_cmod(iml->rmod);
reload_image(iml);
update_cmod_tables(iml);
} else if (!strcasecmp(color, "green")) {
imlib_t *iml = images[which].current->iml;
if (iml->gmod == NULL) {
iml->gmod = create_colormod();
}
if (!BEG_STRCASECMP(mod, "brightness")) {
iml->gmod->brightness = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "contrast")) {
iml->gmod->contrast = (int) strtol(valptr, (char **) NULL, 0);
} else if (!BEG_STRCASECMP(mod, "gamma")) {
iml->gmod->gamma = (int) strtol(valptr, (char **) NULL, 0);
}
update_cmod(iml->gmod);
reload_image(iml);
update_cmod_tables(iml);
} else if (!strcasecmp(color, "blue")) {
imlib_t *iml = images[which].current->iml;
if (iml->bmod == NULL) {
iml->bmod = create_colormod();
}
if (!BEG_STRCASECMP(mod, "bright")) {
iml