; Fix ChangeLog entry put into wrong file
[emacs.git] / src / keyboard.c
bloba577105a236ca23889c243451e5068acf8fef691
1 /* Keyboard and mouse input; editor command loop.
3 Copyright (C) 1985-1989, 1993-1997, 1999-2015 Free Software Foundation,
4 Inc.
6 This file is part of GNU Emacs.
8 GNU Emacs is free software: you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation, either version 3 of the License, or
11 (at your option) any later version.
13 GNU Emacs is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
21 #include <config.h>
23 #include "sysstdio.h"
24 #include <sys/stat.h>
26 #include "lisp.h"
27 #include "termchar.h"
28 #include "termopts.h"
29 #include "frame.h"
30 #include "termhooks.h"
31 #include "macros.h"
32 #include "keyboard.h"
33 #include "window.h"
34 #include "commands.h"
35 #include "character.h"
36 #include "buffer.h"
37 #include "disptab.h"
38 #include "dispextern.h"
39 #include "syntax.h"
40 #include "intervals.h"
41 #include "keymap.h"
42 #include "blockinput.h"
43 #include "puresize.h"
44 #include "systime.h"
45 #include "atimer.h"
46 #include "process.h"
47 #include <errno.h>
49 #ifdef HAVE_PTHREAD
50 #include <pthread.h>
51 #endif
52 #ifdef MSDOS
53 #include "msdos.h"
54 #include <time.h>
55 #else /* not MSDOS */
56 #include <sys/ioctl.h>
57 #endif /* not MSDOS */
59 #if defined USABLE_FIONREAD && defined USG5_4
60 # include <sys/filio.h>
61 #endif
63 #include "syssignal.h"
65 #include <sys/types.h>
66 #include <unistd.h>
67 #include <fcntl.h>
69 #ifdef HAVE_WINDOW_SYSTEM
70 #include TERM_HEADER
71 #endif /* HAVE_WINDOW_SYSTEM */
73 /* Variables for blockinput.h: */
75 /* Positive if interrupt input is blocked right now. */
76 volatile int interrupt_input_blocked;
78 /* True means an input interrupt or alarm signal has arrived.
79 The QUIT macro checks this. */
80 volatile bool pending_signals;
82 #define KBD_BUFFER_SIZE 4096
84 KBOARD *initial_kboard;
85 KBOARD *current_kboard;
86 static KBOARD *all_kboards;
88 /* True in the single-kboard state, false in the any-kboard state. */
89 static bool single_kboard;
91 #define NUM_RECENT_KEYS (300)
93 /* Index for storing next element into recent_keys. */
94 static int recent_keys_index;
96 /* Total number of elements stored into recent_keys. */
97 static int total_keys;
99 /* This vector holds the last NUM_RECENT_KEYS keystrokes. */
100 static Lisp_Object recent_keys;
102 /* Vector holding the key sequence that invoked the current command.
103 It is reused for each command, and it may be longer than the current
104 sequence; this_command_key_count indicates how many elements
105 actually mean something.
106 It's easier to staticpro a single Lisp_Object than an array. */
107 Lisp_Object this_command_keys;
108 ptrdiff_t this_command_key_count;
110 /* True after calling Freset_this_command_lengths.
111 Usually it is false. */
112 static bool this_command_key_count_reset;
114 /* This vector is used as a buffer to record the events that were actually read
115 by read_key_sequence. */
116 static Lisp_Object raw_keybuf;
117 static int raw_keybuf_count;
119 #define GROW_RAW_KEYBUF \
120 if (raw_keybuf_count == ASIZE (raw_keybuf)) \
121 raw_keybuf = larger_vector (raw_keybuf, 1, -1)
123 /* Number of elements of this_command_keys
124 that precede this key sequence. */
125 static ptrdiff_t this_single_command_key_start;
127 /* Record values of this_command_key_count and echo_length ()
128 before this command was read. */
129 static ptrdiff_t before_command_key_count;
130 static ptrdiff_t before_command_echo_length;
132 #ifdef HAVE_STACK_OVERFLOW_HANDLING
134 /* For longjmp to recover from C stack overflow. */
135 sigjmp_buf return_to_command_loop;
137 /* Message displayed by Vtop_level when recovering from C stack overflow. */
138 static Lisp_Object recover_top_level_message;
140 #endif /* HAVE_STACK_OVERFLOW_HANDLING */
142 /* Message normally displayed by Vtop_level. */
143 static Lisp_Object regular_top_level_message;
145 /* For longjmp to where kbd input is being done. */
147 static sys_jmp_buf getcjmp;
149 /* True while doing kbd input. */
150 bool waiting_for_input;
152 /* True while displaying for echoing. Delays C-g throwing. */
154 static bool echoing;
156 /* Non-null means we can start echoing at the next input pause even
157 though there is something in the echo area. */
159 static struct kboard *ok_to_echo_at_next_pause;
161 /* The kboard last echoing, or null for none. Reset to 0 in
162 cancel_echoing. If non-null, and a current echo area message
163 exists, and echo_message_buffer is eq to the current message
164 buffer, we know that the message comes from echo_kboard. */
166 struct kboard *echo_kboard;
168 /* The buffer used for echoing. Set in echo_now, reset in
169 cancel_echoing. */
171 Lisp_Object echo_message_buffer;
173 /* True means C-g should cause immediate error-signal. */
174 bool immediate_quit;
176 /* Character that causes a quit. Normally C-g.
178 If we are running on an ordinary terminal, this must be an ordinary
179 ASCII char, since we want to make it our interrupt character.
181 If we are not running on an ordinary terminal, it still needs to be
182 an ordinary ASCII char. This character needs to be recognized in
183 the input interrupt handler. At this point, the keystroke is
184 represented as a struct input_event, while the desired quit
185 character is specified as a lispy event. The mapping from struct
186 input_events to lispy events cannot run in an interrupt handler,
187 and the reverse mapping is difficult for anything but ASCII
188 keystrokes.
190 FOR THESE ELABORATE AND UNSATISFYING REASONS, quit_char must be an
191 ASCII character. */
192 int quit_char;
194 /* Current depth in recursive edits. */
195 EMACS_INT command_loop_level;
197 /* If not Qnil, this is a switch-frame event which we decided to put
198 off until the end of a key sequence. This should be read as the
199 next command input, after any unread_command_events.
201 read_key_sequence uses this to delay switch-frame events until the
202 end of the key sequence; Fread_char uses it to put off switch-frame
203 events until a non-ASCII event is acceptable as input. */
204 Lisp_Object unread_switch_frame;
206 /* Last size recorded for a current buffer which is not a minibuffer. */
207 static ptrdiff_t last_non_minibuf_size;
209 /* Total number of times read_char has returned, modulo UINTMAX_MAX + 1. */
210 uintmax_t num_input_events;
212 /* Value of num_nonmacro_input_events as of last auto save. */
214 static EMACS_INT last_auto_save;
216 /* The value of point when the last command was started. */
217 static ptrdiff_t last_point_position;
219 /* The frame in which the last input event occurred, or Qmacro if the
220 last event came from a macro. We use this to determine when to
221 generate switch-frame events. This may be cleared by functions
222 like Fselect_frame, to make sure that a switch-frame event is
223 generated by the next character.
225 FIXME: This is modified by a signal handler so it should be volatile.
226 It's exported to Lisp, though, so it can't simply be marked
227 'volatile' here. */
228 Lisp_Object internal_last_event_frame;
230 /* `read_key_sequence' stores here the command definition of the
231 key sequence that it reads. */
232 static Lisp_Object read_key_sequence_cmd;
233 static Lisp_Object read_key_sequence_remapped;
235 /* File in which we write all commands we read. */
236 static FILE *dribble;
238 /* True if input is available. */
239 bool input_pending;
241 /* True if more input was available last time we read an event.
243 Since redisplay can take a significant amount of time and is not
244 indispensable to perform the user's commands, when input arrives
245 "too fast", Emacs skips redisplay. More specifically, if the next
246 command has already been input when we finish the previous command,
247 we skip the intermediate redisplay.
249 This is useful to try and make sure Emacs keeps up with fast input
250 rates, such as auto-repeating keys. But in some cases, this proves
251 too conservative: we may end up disabling redisplay for the whole
252 duration of a key repetition, even though we could afford to
253 redisplay every once in a while.
255 So we "sample" the input_pending flag before running a command and
256 use *that* value after running the command to decide whether to
257 skip redisplay or not. This way, we only skip redisplay if we
258 really can't keep up with the repeat rate.
260 This only makes a difference if the next input arrives while running the
261 command, which is very unlikely if the command is executed quickly.
262 IOW this tends to avoid skipping redisplay after a long running command
263 (which is a case where skipping redisplay is not very useful since the
264 redisplay time is small compared to the time it took to run the command).
266 A typical use case is when scrolling. Scrolling time can be split into:
267 - Time to do jit-lock on the newly displayed portion of buffer.
268 - Time to run the actual scroll command.
269 - Time to perform the redisplay.
270 Jit-lock can happen either during the command or during the redisplay.
271 In the most painful cases, the jit-lock time is the one that dominates.
272 Also jit-lock can be tweaked (via jit-lock-defer) to delay its job, at the
273 cost of temporary inaccuracy in display and scrolling.
274 So without input_was_pending, what typically happens is the following:
275 - when the command starts, there's no pending input (yet).
276 - the scroll command triggers jit-lock.
277 - during the long jit-lock time the next input arrives.
278 - at the end of the command, we check input_pending and hence decide to
279 skip redisplay.
280 - we read the next input and start over.
281 End result: all the hard work of jit-locking is "wasted" since redisplay
282 doesn't actually happens (at least not before the input rate slows down).
283 With input_was_pending redisplay is still skipped if Emacs can't keep up
284 with the input rate, but if it can keep up just enough that there's no
285 input_pending when we begin the command, then redisplay is not skipped
286 which results in better feedback to the user. */
287 static bool input_was_pending;
289 /* Circular buffer for pre-read keyboard input. */
291 static union buffered_input_event kbd_buffer[KBD_BUFFER_SIZE];
293 /* Pointer to next available character in kbd_buffer.
294 If kbd_fetch_ptr == kbd_store_ptr, the buffer is empty.
295 This may be kbd_buffer + KBD_BUFFER_SIZE, meaning that the
296 next available char is in kbd_buffer[0]. */
297 static union buffered_input_event *kbd_fetch_ptr;
299 /* Pointer to next place to store character in kbd_buffer. This
300 may be kbd_buffer + KBD_BUFFER_SIZE, meaning that the next
301 character should go in kbd_buffer[0]. */
302 static union buffered_input_event *volatile kbd_store_ptr;
304 /* The above pair of variables forms a "queue empty" flag. When we
305 enqueue a non-hook event, we increment kbd_store_ptr. When we
306 dequeue a non-hook event, we increment kbd_fetch_ptr. We say that
307 there is input available if the two pointers are not equal.
309 Why not just have a flag set and cleared by the enqueuing and
310 dequeuing functions? Such a flag could be screwed up by interrupts
311 at inopportune times. */
313 static void recursive_edit_unwind (Lisp_Object buffer);
314 static Lisp_Object command_loop (void);
316 static void echo_now (void);
317 static ptrdiff_t echo_length (void);
319 /* Incremented whenever a timer is run. */
320 unsigned timers_run;
322 /* Address (if not 0) of struct timespec to zero out if a SIGIO interrupt
323 happens. */
324 struct timespec *input_available_clear_time;
326 /* True means use SIGIO interrupts; false means use CBREAK mode.
327 Default is true if INTERRUPT_INPUT is defined. */
328 bool interrupt_input;
330 /* Nonzero while interrupts are temporarily deferred during redisplay. */
331 bool interrupts_deferred;
333 /* The time when Emacs started being idle. */
335 static struct timespec timer_idleness_start_time;
337 /* After Emacs stops being idle, this saves the last value
338 of timer_idleness_start_time from when it was idle. */
340 static struct timespec timer_last_idleness_start_time;
343 /* Global variable declarations. */
345 /* Flags for readable_events. */
346 #define READABLE_EVENTS_DO_TIMERS_NOW (1 << 0)
347 #define READABLE_EVENTS_FILTER_EVENTS (1 << 1)
348 #define READABLE_EVENTS_IGNORE_SQUEEZABLES (1 << 2)
350 /* Function for init_keyboard to call with no args (if nonzero). */
351 static void (*keyboard_init_hook) (void);
353 static bool get_input_pending (int);
354 static bool readable_events (int);
355 static Lisp_Object read_char_x_menu_prompt (Lisp_Object,
356 Lisp_Object, bool *);
357 static Lisp_Object read_char_minibuf_menu_prompt (int, Lisp_Object);
358 static Lisp_Object make_lispy_event (struct input_event *);
359 static Lisp_Object make_lispy_movement (struct frame *, Lisp_Object,
360 enum scroll_bar_part,
361 Lisp_Object, Lisp_Object,
362 Time);
363 static Lisp_Object modify_event_symbol (ptrdiff_t, int, Lisp_Object,
364 Lisp_Object, const char *const *,
365 Lisp_Object *, ptrdiff_t);
366 static Lisp_Object make_lispy_switch_frame (Lisp_Object);
367 static Lisp_Object make_lispy_focus_in (Lisp_Object);
368 #ifdef HAVE_WINDOW_SYSTEM
369 static Lisp_Object make_lispy_focus_out (Lisp_Object);
370 #endif /* HAVE_WINDOW_SYSTEM */
371 static bool help_char_p (Lisp_Object);
372 static void save_getcjmp (sys_jmp_buf);
373 static void restore_getcjmp (sys_jmp_buf);
374 static Lisp_Object apply_modifiers (int, Lisp_Object);
375 static void restore_kboard_configuration (int);
376 static void handle_interrupt (bool);
377 static _Noreturn void quit_throw_to_read_char (bool);
378 static void timer_start_idle (void);
379 static void timer_stop_idle (void);
380 static void timer_resume_idle (void);
381 static void deliver_user_signal (int);
382 static char *find_user_signal_name (int);
383 static void store_user_signal_events (void);
385 /* These setters are used only in this file, so they can be private. */
386 static void
387 kset_echo_string (struct kboard *kb, Lisp_Object val)
389 kb->echo_string_ = val;
391 static void
392 kset_kbd_queue (struct kboard *kb, Lisp_Object val)
394 kb->kbd_queue_ = val;
396 static void
397 kset_keyboard_translate_table (struct kboard *kb, Lisp_Object val)
399 kb->Vkeyboard_translate_table_ = val;
401 static void
402 kset_last_prefix_arg (struct kboard *kb, Lisp_Object val)
404 kb->Vlast_prefix_arg_ = val;
406 static void
407 kset_last_repeatable_command (struct kboard *kb, Lisp_Object val)
409 kb->Vlast_repeatable_command_ = val;
411 static void
412 kset_local_function_key_map (struct kboard *kb, Lisp_Object val)
414 kb->Vlocal_function_key_map_ = val;
416 static void
417 kset_overriding_terminal_local_map (struct kboard *kb, Lisp_Object val)
419 kb->Voverriding_terminal_local_map_ = val;
421 static void
422 kset_real_last_command (struct kboard *kb, Lisp_Object val)
424 kb->Vreal_last_command_ = val;
426 static void
427 kset_system_key_syms (struct kboard *kb, Lisp_Object val)
429 kb->system_key_syms_ = val;
433 /* Add C to the echo string, without echoing it immediately. C can be
434 a character, which is pretty-printed, or a symbol, whose name is
435 printed. */
437 static void
438 echo_add_key (Lisp_Object c)
440 char initbuf[KEY_DESCRIPTION_SIZE + 100];
441 ptrdiff_t size = sizeof initbuf;
442 char *buffer = initbuf;
443 char *ptr = buffer;
444 Lisp_Object echo_string;
445 USE_SAFE_ALLOCA;
447 echo_string = KVAR (current_kboard, echo_string);
449 /* If someone has passed us a composite event, use its head symbol. */
450 c = EVENT_HEAD (c);
452 if (INTEGERP (c))
453 ptr = push_key_description (XINT (c), ptr);
454 else if (SYMBOLP (c))
456 Lisp_Object name = SYMBOL_NAME (c);
457 ptrdiff_t nbytes = SBYTES (name);
459 if (size - (ptr - buffer) < nbytes)
461 ptrdiff_t offset = ptr - buffer;
462 size = max (2 * size, size + nbytes);
463 buffer = SAFE_ALLOCA (size);
464 ptr = buffer + offset;
467 ptr += copy_text (SDATA (name), (unsigned char *) ptr, nbytes,
468 STRING_MULTIBYTE (name), 1);
471 if ((NILP (echo_string) || SCHARS (echo_string) == 0)
472 && help_char_p (c))
474 static const char text[] = " (Type ? for further options)";
475 int len = sizeof text - 1;
477 if (size - (ptr - buffer) < len)
479 ptrdiff_t offset = ptr - buffer;
480 size += len;
481 buffer = SAFE_ALLOCA (size);
482 ptr = buffer + offset;
485 memcpy (ptr, text, len);
486 ptr += len;
489 /* Replace a dash from echo_dash with a space, otherwise add a space
490 at the end as a separator between keys. */
491 AUTO_STRING (space, " ");
492 if (STRINGP (echo_string) && SCHARS (echo_string) > 1)
494 Lisp_Object last_char, prev_char, idx;
496 idx = make_number (SCHARS (echo_string) - 2);
497 prev_char = Faref (echo_string, idx);
499 idx = make_number (SCHARS (echo_string) - 1);
500 last_char = Faref (echo_string, idx);
502 /* We test PREV_CHAR to make sure this isn't the echoing of a
503 minus-sign. */
504 if (XINT (last_char) == '-' && XINT (prev_char) != ' ')
505 Faset (echo_string, idx, make_number (' '));
506 else
507 echo_string = concat2 (echo_string, space);
509 else if (STRINGP (echo_string) && SCHARS (echo_string) > 0)
510 echo_string = concat2 (echo_string, space);
512 kset_echo_string
513 (current_kboard,
514 concat2 (echo_string, make_string (buffer, ptr - buffer)));
515 SAFE_FREE ();
518 /* Add C to the echo string, if echoing is going on. C can be a
519 character or a symbol. */
521 static void
522 echo_char (Lisp_Object c)
524 if (current_kboard->immediate_echo)
526 echo_add_key (c);
527 echo_now ();
531 /* Temporarily add a dash to the end of the echo string if it's not
532 empty, so that it serves as a mini-prompt for the very next
533 character. */
535 static void
536 echo_dash (void)
538 /* Do nothing if not echoing at all. */
539 if (NILP (KVAR (current_kboard, echo_string)))
540 return;
542 if (this_command_key_count == 0)
543 return;
545 if (!current_kboard->immediate_echo
546 && SCHARS (KVAR (current_kboard, echo_string)) == 0)
547 return;
549 /* Do nothing if we just printed a prompt. */
550 if (current_kboard->echo_after_prompt
551 == SCHARS (KVAR (current_kboard, echo_string)))
552 return;
554 /* Do nothing if we have already put a dash at the end. */
555 if (SCHARS (KVAR (current_kboard, echo_string)) > 1)
557 Lisp_Object last_char, prev_char, idx;
559 idx = make_number (SCHARS (KVAR (current_kboard, echo_string)) - 2);
560 prev_char = Faref (KVAR (current_kboard, echo_string), idx);
562 idx = make_number (SCHARS (KVAR (current_kboard, echo_string)) - 1);
563 last_char = Faref (KVAR (current_kboard, echo_string), idx);
565 if (XINT (last_char) == '-' && XINT (prev_char) != ' ')
566 return;
569 /* Put a dash at the end of the buffer temporarily,
570 but make it go away when the next character is added. */
571 AUTO_STRING (dash, "-");
572 kset_echo_string (current_kboard,
573 concat2 (KVAR (current_kboard, echo_string), dash));
574 echo_now ();
577 /* Display the current echo string, and begin echoing if not already
578 doing so. */
580 static void
581 echo_now (void)
583 if (!current_kboard->immediate_echo)
585 ptrdiff_t i;
586 current_kboard->immediate_echo = true;
588 for (i = 0; i < this_command_key_count; i++)
590 Lisp_Object c;
592 /* Set before_command_echo_length to the value that would
593 have been saved before the start of this subcommand in
594 command_loop_1, if we had already been echoing then. */
595 if (i == this_single_command_key_start)
596 before_command_echo_length = echo_length ();
598 c = AREF (this_command_keys, i);
599 if (! (EVENT_HAS_PARAMETERS (c)
600 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (c)), Qmouse_movement)))
601 echo_char (c);
604 /* Set before_command_echo_length to the value that would
605 have been saved before the start of this subcommand in
606 command_loop_1, if we had already been echoing then. */
607 if (this_command_key_count == this_single_command_key_start)
608 before_command_echo_length = echo_length ();
610 /* Put a dash at the end to invite the user to type more. */
611 echo_dash ();
614 echoing = true;
615 /* FIXME: Use call (Qmessage) so it can be advised (e.g. emacspeak). */
616 message3_nolog (KVAR (current_kboard, echo_string));
617 echoing = false;
619 /* Record in what buffer we echoed, and from which kboard. */
620 echo_message_buffer = echo_area_buffer[0];
621 echo_kboard = current_kboard;
623 if (waiting_for_input && !NILP (Vquit_flag))
624 quit_throw_to_read_char (0);
627 /* Turn off echoing, for the start of a new command. */
629 void
630 cancel_echoing (void)
632 current_kboard->immediate_echo = false;
633 current_kboard->echo_after_prompt = -1;
634 kset_echo_string (current_kboard, Qnil);
635 ok_to_echo_at_next_pause = NULL;
636 echo_kboard = NULL;
637 echo_message_buffer = Qnil;
640 /* Return the length of the current echo string. */
642 static ptrdiff_t
643 echo_length (void)
645 return (STRINGP (KVAR (current_kboard, echo_string))
646 ? SCHARS (KVAR (current_kboard, echo_string))
647 : 0);
650 /* Truncate the current echo message to its first LEN chars.
651 This and echo_char get used by read_key_sequence when the user
652 switches frames while entering a key sequence. */
654 static void
655 echo_truncate (ptrdiff_t nchars)
657 if (STRINGP (KVAR (current_kboard, echo_string)))
658 kset_echo_string (current_kboard,
659 Fsubstring (KVAR (current_kboard, echo_string),
660 make_number (0), make_number (nchars)));
661 truncate_echo_area (nchars);
665 /* Functions for manipulating this_command_keys. */
666 static void
667 add_command_key (Lisp_Object key)
669 #if 0 /* Not needed after we made Freset_this_command_lengths
670 do the job immediately. */
671 /* If reset-this-command-length was called recently, obey it now.
672 See the doc string of that function for an explanation of why. */
673 if (before_command_restore_flag)
675 this_command_key_count = before_command_key_count_1;
676 if (this_command_key_count < this_single_command_key_start)
677 this_single_command_key_start = this_command_key_count;
678 echo_truncate (before_command_echo_length_1);
679 before_command_restore_flag = 0;
681 #endif
683 if (this_command_key_count >= ASIZE (this_command_keys))
684 this_command_keys = larger_vector (this_command_keys, 1, -1);
686 ASET (this_command_keys, this_command_key_count, key);
687 ++this_command_key_count;
691 Lisp_Object
692 recursive_edit_1 (void)
694 ptrdiff_t count = SPECPDL_INDEX ();
695 Lisp_Object val;
697 if (command_loop_level > 0)
699 specbind (Qstandard_output, Qt);
700 specbind (Qstandard_input, Qt);
703 #ifdef HAVE_WINDOW_SYSTEM
704 /* The command loop has started an hourglass timer, so we have to
705 cancel it here, otherwise it will fire because the recursive edit
706 can take some time. Do not check for display_hourglass_p here,
707 because it could already be nil. */
708 cancel_hourglass ();
709 #endif
711 /* This function may have been called from a debugger called from
712 within redisplay, for instance by Edebugging a function called
713 from fontification-functions. We want to allow redisplay in
714 the debugging session.
716 The recursive edit is left with a `(throw exit ...)'. The `exit'
717 tag is not caught anywhere in redisplay, i.e. when we leave the
718 recursive edit, the original redisplay leading to the recursive
719 edit will be unwound. The outcome should therefore be safe. */
720 specbind (Qinhibit_redisplay, Qnil);
721 redisplaying_p = 0;
723 val = command_loop ();
724 if (EQ (val, Qt))
725 Fsignal (Qquit, Qnil);
726 /* Handle throw from read_minibuf when using minibuffer
727 while it's active but we're in another window. */
728 if (STRINGP (val))
729 xsignal1 (Qerror, val);
731 return unbind_to (count, Qnil);
734 /* When an auto-save happens, record the "time", and don't do again soon. */
736 void
737 record_auto_save (void)
739 last_auto_save = num_nonmacro_input_events;
742 /* Make an auto save happen as soon as possible at command level. */
744 #ifdef SIGDANGER
745 void
746 force_auto_save_soon (void)
748 last_auto_save = - auto_save_interval - 1;
750 record_asynch_buffer_change ();
752 #endif
754 DEFUN ("recursive-edit", Frecursive_edit, Srecursive_edit, 0, 0, "",
755 doc: /* Invoke the editor command loop recursively.
756 To get out of the recursive edit, a command can throw to ‘exit’ -- for
757 instance ‘(throw 'exit nil)’.
758 If you throw a value other than t, ‘recursive-edit’ returns normally
759 to the function that called it. Throwing a t value causes
760 ‘recursive-edit’ to quit, so that control returns to the command loop
761 one level up.
763 This function is called by the editor initialization to begin editing. */)
764 (void)
766 ptrdiff_t count = SPECPDL_INDEX ();
767 Lisp_Object buffer;
769 /* If we enter while input is blocked, don't lock up here.
770 This may happen through the debugger during redisplay. */
771 if (input_blocked_p ())
772 return Qnil;
774 if (command_loop_level >= 0
775 && current_buffer != XBUFFER (XWINDOW (selected_window)->contents))
776 buffer = Fcurrent_buffer ();
777 else
778 buffer = Qnil;
780 /* Don't do anything interesting between the increment and the
781 record_unwind_protect! Otherwise, we could get distracted and
782 never decrement the counter again. */
783 command_loop_level++;
784 update_mode_lines = 17;
785 record_unwind_protect (recursive_edit_unwind, buffer);
787 /* If we leave recursive_edit_1 below with a `throw' for instance,
788 like it is done in the splash screen display, we have to
789 make sure that we restore single_kboard as command_loop_1
790 would have done if it were left normally. */
791 if (command_loop_level > 0)
792 temporarily_switch_to_single_kboard (SELECTED_FRAME ());
794 recursive_edit_1 ();
795 return unbind_to (count, Qnil);
798 void
799 recursive_edit_unwind (Lisp_Object buffer)
801 if (BUFFERP (buffer))
802 Fset_buffer (buffer);
804 command_loop_level--;
805 update_mode_lines = 18;
809 #if 0 /* These two functions are now replaced with
810 temporarily_switch_to_single_kboard. */
811 static void
812 any_kboard_state ()
814 #if 0 /* Theory: if there's anything in Vunread_command_events,
815 it will right away be read by read_key_sequence,
816 and then if we do switch KBOARDS, it will go into the side
817 queue then. So we don't need to do anything special here -- rms. */
818 if (CONSP (Vunread_command_events))
820 current_kboard->kbd_queue
821 = nconc2 (Vunread_command_events, current_kboard->kbd_queue);
822 current_kboard->kbd_queue_has_data = true;
824 Vunread_command_events = Qnil;
825 #endif
826 single_kboard = false;
829 /* Switch to the single-kboard state, making current_kboard
830 the only KBOARD from which further input is accepted. */
832 void
833 single_kboard_state ()
835 single_kboard = true;
837 #endif
839 /* If we're in single_kboard state for kboard KBOARD,
840 get out of it. */
842 void
843 not_single_kboard_state (KBOARD *kboard)
845 if (kboard == current_kboard)
846 single_kboard = false;
849 /* Maintain a stack of kboards, so other parts of Emacs
850 can switch temporarily to the kboard of a given frame
851 and then revert to the previous status. */
853 struct kboard_stack
855 KBOARD *kboard;
856 struct kboard_stack *next;
859 static struct kboard_stack *kboard_stack;
861 void
862 push_kboard (struct kboard *k)
864 struct kboard_stack *p = xmalloc (sizeof *p);
866 p->next = kboard_stack;
867 p->kboard = current_kboard;
868 kboard_stack = p;
870 current_kboard = k;
873 void
874 pop_kboard (void)
876 struct terminal *t;
877 struct kboard_stack *p = kboard_stack;
878 bool found = false;
879 for (t = terminal_list; t; t = t->next_terminal)
881 if (t->kboard == p->kboard)
883 current_kboard = p->kboard;
884 found = true;
885 break;
888 if (!found)
890 /* The terminal we remembered has been deleted. */
891 current_kboard = FRAME_KBOARD (SELECTED_FRAME ());
892 single_kboard = false;
894 kboard_stack = p->next;
895 xfree (p);
898 /* Switch to single_kboard mode, making current_kboard the only KBOARD
899 from which further input is accepted. If F is non-nil, set its
900 KBOARD as the current keyboard.
902 This function uses record_unwind_protect_int to return to the previous
903 state later.
905 If Emacs is already in single_kboard mode, and F's keyboard is
906 locked, then this function will throw an error. */
908 void
909 temporarily_switch_to_single_kboard (struct frame *f)
911 bool was_locked = single_kboard;
912 if (was_locked)
914 if (f != NULL && FRAME_KBOARD (f) != current_kboard)
915 /* We can not switch keyboards while in single_kboard mode.
916 In rare cases, Lisp code may call `recursive-edit' (or
917 `read-minibuffer' or `y-or-n-p') after it switched to a
918 locked frame. For example, this is likely to happen
919 when server.el connects to a new terminal while Emacs is in
920 single_kboard mode. It is best to throw an error instead
921 of presenting the user with a frozen screen. */
922 error ("Terminal %d is locked, cannot read from it",
923 FRAME_TERMINAL (f)->id);
924 else
925 /* This call is unnecessary, but helps
926 `restore_kboard_configuration' discover if somebody changed
927 `current_kboard' behind our back. */
928 push_kboard (current_kboard);
930 else if (f != NULL)
931 current_kboard = FRAME_KBOARD (f);
932 single_kboard = true;
933 record_unwind_protect_int (restore_kboard_configuration, was_locked);
936 #if 0 /* This function is not needed anymore. */
937 void
938 record_single_kboard_state ()
940 if (single_kboard)
941 push_kboard (current_kboard);
942 record_unwind_protect_int (restore_kboard_configuration, single_kboard);
944 #endif
946 static void
947 restore_kboard_configuration (int was_locked)
949 single_kboard = was_locked;
950 if (was_locked)
952 struct kboard *prev = current_kboard;
953 pop_kboard ();
954 /* The pop should not change the kboard. */
955 if (single_kboard && current_kboard != prev)
956 emacs_abort ();
961 /* Handle errors that are not handled at inner levels
962 by printing an error message and returning to the editor command loop. */
964 static Lisp_Object
965 cmd_error (Lisp_Object data)
967 Lisp_Object old_level, old_length;
968 char macroerror[sizeof "After..kbd macro iterations: "
969 + INT_STRLEN_BOUND (EMACS_INT)];
971 #ifdef HAVE_WINDOW_SYSTEM
972 if (display_hourglass_p)
973 cancel_hourglass ();
974 #endif
976 if (!NILP (executing_kbd_macro))
978 if (executing_kbd_macro_iterations == 1)
979 sprintf (macroerror, "After 1 kbd macro iteration: ");
980 else
981 sprintf (macroerror, "After %"pI"d kbd macro iterations: ",
982 executing_kbd_macro_iterations);
984 else
985 *macroerror = 0;
987 Vstandard_output = Qt;
988 Vstandard_input = Qt;
989 Vexecuting_kbd_macro = Qnil;
990 executing_kbd_macro = Qnil;
991 kset_prefix_arg (current_kboard, Qnil);
992 kset_last_prefix_arg (current_kboard, Qnil);
993 cancel_echoing ();
995 /* Avoid unquittable loop if data contains a circular list. */
996 old_level = Vprint_level;
997 old_length = Vprint_length;
998 XSETFASTINT (Vprint_level, 10);
999 XSETFASTINT (Vprint_length, 10);
1000 cmd_error_internal (data, macroerror);
1001 Vprint_level = old_level;
1002 Vprint_length = old_length;
1004 Vquit_flag = Qnil;
1005 Vinhibit_quit = Qnil;
1007 return make_number (0);
1010 /* Take actions on handling an error. DATA is the data that describes
1011 the error.
1013 CONTEXT is a C-string containing ASCII characters only which
1014 describes the context in which the error happened. If we need to
1015 generalize CONTEXT to allow multibyte characters, make it a Lisp
1016 string. */
1018 void
1019 cmd_error_internal (Lisp_Object data, const char *context)
1021 /* The immediate context is not interesting for Quits,
1022 since they are asynchronous. */
1023 if (EQ (XCAR (data), Qquit))
1024 Vsignaling_function = Qnil;
1026 Vquit_flag = Qnil;
1027 Vinhibit_quit = Qt;
1029 /* Use user's specified output function if any. */
1030 if (!NILP (Vcommand_error_function))
1031 call3 (Vcommand_error_function, data,
1032 context ? build_string (context) : empty_unibyte_string,
1033 Vsignaling_function);
1035 Vsignaling_function = Qnil;
1038 DEFUN ("command-error-default-function", Fcommand_error_default_function,
1039 Scommand_error_default_function, 3, 3, 0,
1040 doc: /* Produce default output for unhandled error message.
1041 Default value of `command-error-function'. */)
1042 (Lisp_Object data, Lisp_Object context, Lisp_Object signal)
1044 struct frame *sf = SELECTED_FRAME ();
1046 CHECK_STRING (context);
1048 /* If the window system or terminal frame hasn't been initialized
1049 yet, or we're not interactive, write the message to stderr and exit. */
1050 if (!sf->glyphs_initialized_p
1051 /* The initial frame is a special non-displaying frame. It
1052 will be current in daemon mode when there are no frames
1053 to display, and in non-daemon mode before the real frame
1054 has finished initializing. If an error is thrown in the
1055 latter case while creating the frame, then the frame
1056 will never be displayed, so the safest thing to do is
1057 write to stderr and quit. In daemon mode, there are
1058 many other potential errors that do not prevent frames
1059 from being created, so continuing as normal is better in
1060 that case. */
1061 || (!IS_DAEMON && FRAME_INITIAL_P (sf))
1062 || noninteractive)
1064 print_error_message (data, Qexternal_debugging_output,
1065 SSDATA (context), signal);
1066 Fterpri (Qexternal_debugging_output, Qnil);
1067 Fkill_emacs (make_number (-1));
1069 else
1071 clear_message (1, 0);
1072 Fdiscard_input ();
1073 message_log_maybe_newline ();
1074 bitch_at_user ();
1076 print_error_message (data, Qt, SSDATA (context), signal);
1078 return Qnil;
1081 static Lisp_Object command_loop_2 (Lisp_Object);
1082 static Lisp_Object top_level_1 (Lisp_Object);
1084 /* Entry to editor-command-loop.
1085 This level has the catches for exiting/returning to editor command loop.
1086 It returns nil to exit recursive edit, t to abort it. */
1088 Lisp_Object
1089 command_loop (void)
1091 #ifdef HAVE_STACK_OVERFLOW_HANDLING
1092 /* At least on GNU/Linux, saving signal mask is important here. */
1093 if (sigsetjmp (return_to_command_loop, 1) != 0)
1095 /* Comes here from handle_sigsegv (see sysdep.c) and
1096 stack_overflow_handler (see w32fns.c). */
1097 #ifdef WINDOWSNT
1098 w32_reset_stack_overflow_guard ();
1099 #endif
1100 init_eval ();
1101 Vinternal__top_level_message = recover_top_level_message;
1103 else
1104 Vinternal__top_level_message = regular_top_level_message;
1105 #endif /* HAVE_STACK_OVERFLOW_HANDLING */
1106 if (command_loop_level > 0 || minibuf_level > 0)
1108 Lisp_Object val;
1109 val = internal_catch (Qexit, command_loop_2, Qnil);
1110 executing_kbd_macro = Qnil;
1111 return val;
1113 else
1114 while (1)
1116 internal_catch (Qtop_level, top_level_1, Qnil);
1117 internal_catch (Qtop_level, command_loop_2, Qnil);
1118 executing_kbd_macro = Qnil;
1120 /* End of file in -batch run causes exit here. */
1121 if (noninteractive)
1122 Fkill_emacs (Qt);
1126 /* Here we catch errors in execution of commands within the
1127 editing loop, and reenter the editing loop.
1128 When there is an error, cmd_error runs and returns a non-nil
1129 value to us. A value of nil means that command_loop_1 itself
1130 returned due to end of file (or end of kbd macro). */
1132 static Lisp_Object
1133 command_loop_2 (Lisp_Object ignore)
1135 register Lisp_Object val;
1138 val = internal_condition_case (command_loop_1, Qerror, cmd_error);
1139 while (!NILP (val));
1141 return Qnil;
1144 static Lisp_Object
1145 top_level_2 (void)
1147 return Feval (Vtop_level, Qnil);
1150 static Lisp_Object
1151 top_level_1 (Lisp_Object ignore)
1153 /* On entry to the outer level, run the startup file. */
1154 if (!NILP (Vtop_level))
1155 internal_condition_case (top_level_2, Qerror, cmd_error);
1156 else if (!NILP (Vpurify_flag))
1157 message1 ("Bare impure Emacs (standard Lisp code not loaded)");
1158 else
1159 message1 ("Bare Emacs (standard Lisp code not loaded)");
1160 return Qnil;
1163 DEFUN ("top-level", Ftop_level, Stop_level, 0, 0, "",
1164 doc: /* Exit all recursive editing levels.
1165 This also exits all active minibuffers. */
1166 attributes: noreturn)
1167 (void)
1169 #ifdef HAVE_WINDOW_SYSTEM
1170 if (display_hourglass_p)
1171 cancel_hourglass ();
1172 #endif
1174 /* Unblock input if we enter with input blocked. This may happen if
1175 redisplay traps e.g. during tool-bar update with input blocked. */
1176 totally_unblock_input ();
1178 Fthrow (Qtop_level, Qnil);
1181 static _Noreturn void
1182 user_error (const char *msg)
1184 xsignal1 (Quser_error, build_string (msg));
1187 /* _Noreturn will be added to prototype by make-docfile. */
1188 DEFUN ("exit-recursive-edit", Fexit_recursive_edit, Sexit_recursive_edit, 0, 0, "",
1189 doc: /* Exit from the innermost recursive edit or minibuffer. */
1190 attributes: noreturn)
1191 (void)
1193 if (command_loop_level > 0 || minibuf_level > 0)
1194 Fthrow (Qexit, Qnil);
1196 user_error ("No recursive edit is in progress");
1199 /* _Noreturn will be added to prototype by make-docfile. */
1200 DEFUN ("abort-recursive-edit", Fabort_recursive_edit, Sabort_recursive_edit, 0, 0, "",
1201 doc: /* Abort the command that requested this recursive edit or minibuffer input. */
1202 attributes: noreturn)
1203 (void)
1205 if (command_loop_level > 0 || minibuf_level > 0)
1206 Fthrow (Qexit, Qt);
1208 user_error ("No recursive edit is in progress");
1211 /* Restore mouse tracking enablement. See Ftrack_mouse for the only use
1212 of this function. */
1214 static void
1215 tracking_off (Lisp_Object old_value)
1217 do_mouse_tracking = old_value;
1218 if (NILP (old_value))
1220 /* Redisplay may have been preempted because there was input
1221 available, and it assumes it will be called again after the
1222 input has been processed. If the only input available was
1223 the sort that we have just disabled, then we need to call
1224 redisplay. */
1225 if (!readable_events (READABLE_EVENTS_DO_TIMERS_NOW))
1227 redisplay_preserve_echo_area (6);
1228 get_input_pending (READABLE_EVENTS_DO_TIMERS_NOW);
1233 DEFUN ("internal--track-mouse", Ftrack_mouse, Strack_mouse, 1, 1, 0,
1234 doc: /* Call BODYFUN with mouse movement events enabled. */)
1235 (Lisp_Object bodyfun)
1237 ptrdiff_t count = SPECPDL_INDEX ();
1238 Lisp_Object val;
1240 record_unwind_protect (tracking_off, do_mouse_tracking);
1242 do_mouse_tracking = Qt;
1244 val = call0 (bodyfun);
1245 return unbind_to (count, val);
1248 /* If mouse has moved on some frame, return one of those frames.
1250 Return 0 otherwise.
1252 If ignore_mouse_drag_p is non-zero, ignore (implicit) mouse movement
1253 after resizing the tool-bar window. */
1255 bool ignore_mouse_drag_p;
1257 static struct frame *
1258 some_mouse_moved (void)
1260 Lisp_Object tail, frame;
1262 if (ignore_mouse_drag_p)
1264 /* ignore_mouse_drag_p = 0; */
1265 return 0;
1268 FOR_EACH_FRAME (tail, frame)
1270 if (XFRAME (frame)->mouse_moved)
1271 return XFRAME (frame);
1274 return 0;
1278 /* This is the actual command reading loop,
1279 sans error-handling encapsulation. */
1281 static int read_key_sequence (Lisp_Object *, int, Lisp_Object,
1282 bool, bool, bool, bool);
1283 static void adjust_point_for_property (ptrdiff_t, bool);
1285 /* The last boundary auto-added to buffer-undo-list. */
1286 Lisp_Object last_undo_boundary;
1288 /* FIXME: This is wrong rather than test window-system, we should call
1289 a new set-selection, which will then dispatch to x-set-selection, or
1290 tty-set-selection, or w32-set-selection, ... */
1292 Lisp_Object
1293 command_loop_1 (void)
1295 Lisp_Object cmd;
1296 Lisp_Object keybuf[30];
1297 int i;
1298 EMACS_INT prev_modiff = 0;
1299 struct buffer *prev_buffer = NULL;
1300 bool already_adjusted = 0;
1302 kset_prefix_arg (current_kboard, Qnil);
1303 kset_last_prefix_arg (current_kboard, Qnil);
1304 Vdeactivate_mark = Qnil;
1305 waiting_for_input = false;
1306 cancel_echoing ();
1308 this_command_key_count = 0;
1309 this_command_key_count_reset = false;
1310 this_single_command_key_start = 0;
1312 if (NILP (Vmemory_full))
1314 /* Make sure this hook runs after commands that get errors and
1315 throw to top level. */
1316 /* Note that the value cell will never directly contain nil
1317 if the symbol is a local variable. */
1318 if (!NILP (Vpost_command_hook) && !NILP (Vrun_hooks))
1319 safe_run_hooks (Qpost_command_hook);
1321 /* If displaying a message, resize the echo area window to fit
1322 that message's size exactly. */
1323 if (!NILP (echo_area_buffer[0]))
1324 resize_echo_area_exactly ();
1326 /* If there are warnings waiting, process them. */
1327 if (!NILP (Vdelayed_warnings_list))
1328 safe_run_hooks (Qdelayed_warnings_hook);
1330 if (!NILP (Vdeferred_action_list))
1331 safe_run_hooks (Qdeferred_action_function);
1334 /* Do this after running Vpost_command_hook, for consistency. */
1335 kset_last_command (current_kboard, Vthis_command);
1336 kset_real_last_command (current_kboard, Vreal_this_command);
1337 if (!CONSP (last_command_event))
1338 kset_last_repeatable_command (current_kboard, Vreal_this_command);
1340 while (1)
1342 if (! FRAME_LIVE_P (XFRAME (selected_frame)))
1343 Fkill_emacs (Qnil);
1345 /* Make sure the current window's buffer is selected. */
1346 set_buffer_internal (XBUFFER (XWINDOW (selected_window)->contents));
1348 /* Display any malloc warning that just came out. Use while because
1349 displaying one warning can cause another. */
1351 while (pending_malloc_warning)
1352 display_malloc_warning ();
1354 Vdeactivate_mark = Qnil;
1356 /* Don't ignore mouse movements for more than a single command
1357 loop. (This flag is set in xdisp.c whenever the tool bar is
1358 resized, because the resize moves text up or down, and would
1359 generate false mouse drag events if we don't ignore them.) */
1360 ignore_mouse_drag_p = 0;
1362 /* If minibuffer on and echo area in use,
1363 wait a short time and redraw minibuffer. */
1365 if (minibuf_level
1366 && !NILP (echo_area_buffer[0])
1367 && EQ (minibuf_window, echo_area_window)
1368 && NUMBERP (Vminibuffer_message_timeout))
1370 /* Bind inhibit-quit to t so that C-g gets read in
1371 rather than quitting back to the minibuffer. */
1372 ptrdiff_t count = SPECPDL_INDEX ();
1373 specbind (Qinhibit_quit, Qt);
1375 sit_for (Vminibuffer_message_timeout, 0, 2);
1377 /* Clear the echo area. */
1378 message1 (0);
1379 safe_run_hooks (Qecho_area_clear_hook);
1381 unbind_to (count, Qnil);
1383 /* If a C-g came in before, treat it as input now. */
1384 if (!NILP (Vquit_flag))
1386 Vquit_flag = Qnil;
1387 Vunread_command_events = list1 (make_number (quit_char));
1391 /* If it has changed current-menubar from previous value,
1392 really recompute the menubar from the value. */
1393 if (! NILP (Vlucid_menu_bar_dirty_flag)
1394 && !NILP (Ffboundp (Qrecompute_lucid_menubar)))
1395 call0 (Qrecompute_lucid_menubar);
1397 before_command_key_count = this_command_key_count;
1398 before_command_echo_length = echo_length ();
1400 Vthis_command = Qnil;
1401 Vreal_this_command = Qnil;
1402 Vthis_original_command = Qnil;
1403 Vthis_command_keys_shift_translated = Qnil;
1405 /* Read next key sequence; i gets its length. */
1406 i = read_key_sequence (keybuf, ARRAYELTS (keybuf),
1407 Qnil, 0, 1, 1, 0);
1409 /* A filter may have run while we were reading the input. */
1410 if (! FRAME_LIVE_P (XFRAME (selected_frame)))
1411 Fkill_emacs (Qnil);
1412 set_buffer_internal (XBUFFER (XWINDOW (selected_window)->contents));
1414 ++num_input_keys;
1416 /* Now we have read a key sequence of length I,
1417 or else I is 0 and we found end of file. */
1419 if (i == 0) /* End of file -- happens only in */
1420 return Qnil; /* a kbd macro, at the end. */
1421 /* -1 means read_key_sequence got a menu that was rejected.
1422 Just loop around and read another command. */
1423 if (i == -1)
1425 cancel_echoing ();
1426 this_command_key_count = 0;
1427 this_command_key_count_reset = false;
1428 this_single_command_key_start = 0;
1429 goto finalize;
1432 last_command_event = keybuf[i - 1];
1434 /* If the previous command tried to force a specific window-start,
1435 forget about that, in case this command moves point far away
1436 from that position. But also throw away beg_unchanged and
1437 end_unchanged information in that case, so that redisplay will
1438 update the whole window properly. */
1439 if (XWINDOW (selected_window)->force_start)
1441 struct buffer *b;
1442 XWINDOW (selected_window)->force_start = 0;
1443 b = XBUFFER (XWINDOW (selected_window)->contents);
1444 BUF_BEG_UNCHANGED (b) = BUF_END_UNCHANGED (b) = 0;
1447 cmd = read_key_sequence_cmd;
1448 if (!NILP (Vexecuting_kbd_macro))
1450 if (!NILP (Vquit_flag))
1452 Vexecuting_kbd_macro = Qt;
1453 QUIT; /* Make some noise. */
1454 /* Will return since macro now empty. */
1458 /* Do redisplay processing after this command except in special
1459 cases identified below. */
1460 prev_buffer = current_buffer;
1461 prev_modiff = MODIFF;
1462 last_point_position = PT;
1464 /* By default, we adjust point to a boundary of a region that
1465 has such a property that should be treated intangible
1466 (e.g. composition, display). But, some commands will set
1467 this variable differently. */
1468 Vdisable_point_adjustment = Qnil;
1470 /* Process filters and timers may have messed with deactivate-mark.
1471 reset it before we execute the command. */
1472 Vdeactivate_mark = Qnil;
1474 /* Remap command through active keymaps. */
1475 Vthis_original_command = cmd;
1476 if (!NILP (read_key_sequence_remapped))
1477 cmd = read_key_sequence_remapped;
1479 /* Execute the command. */
1482 total_keys += total_keys < NUM_RECENT_KEYS;
1483 ASET (recent_keys, recent_keys_index,
1484 Fcons (Qnil, cmd));
1485 if (++recent_keys_index >= NUM_RECENT_KEYS)
1486 recent_keys_index = 0;
1488 Vthis_command = cmd;
1489 Vreal_this_command = cmd;
1490 safe_run_hooks (Qpre_command_hook);
1492 already_adjusted = 0;
1494 if (NILP (Vthis_command))
1495 /* nil means key is undefined. */
1496 call0 (Qundefined);
1497 else
1499 /* Here for a command that isn't executed directly. */
1501 #ifdef HAVE_WINDOW_SYSTEM
1502 ptrdiff_t scount = SPECPDL_INDEX ();
1504 if (display_hourglass_p
1505 && NILP (Vexecuting_kbd_macro))
1507 record_unwind_protect_void (cancel_hourglass);
1508 start_hourglass ();
1510 #endif
1512 if (NILP (KVAR (current_kboard, Vprefix_arg))) /* FIXME: Why? --Stef */
1514 Lisp_Object undo = BVAR (current_buffer, undo_list);
1515 Fundo_boundary ();
1516 last_undo_boundary
1517 = (EQ (undo, BVAR (current_buffer, undo_list))
1518 ? Qnil : BVAR (current_buffer, undo_list));
1520 call1 (Qcommand_execute, Vthis_command);
1522 #ifdef HAVE_WINDOW_SYSTEM
1523 /* Do not check display_hourglass_p here, because
1524 `command-execute' could change it, but we should cancel
1525 hourglass cursor anyway.
1526 But don't cancel the hourglass within a macro
1527 just because a command in the macro finishes. */
1528 if (NILP (Vexecuting_kbd_macro))
1529 unbind_to (scount, Qnil);
1530 #endif
1532 kset_last_prefix_arg (current_kboard, Vcurrent_prefix_arg);
1534 safe_run_hooks (Qpost_command_hook);
1536 /* If displaying a message, resize the echo area window to fit
1537 that message's size exactly. */
1538 if (!NILP (echo_area_buffer[0]))
1539 resize_echo_area_exactly ();
1541 /* If there are warnings waiting, process them. */
1542 if (!NILP (Vdelayed_warnings_list))
1543 safe_run_hooks (Qdelayed_warnings_hook);
1545 safe_run_hooks (Qdeferred_action_function);
1547 /* If there is a prefix argument,
1548 1) We don't want Vlast_command to be ``universal-argument''
1549 (that would be dumb), so don't set Vlast_command,
1550 2) we want to leave echoing on so that the prefix will be
1551 echoed as part of this key sequence, so don't call
1552 cancel_echoing, and
1553 3) we want to leave this_command_key_count non-zero, so that
1554 read_char will realize that it is re-reading a character, and
1555 not echo it a second time.
1557 If the command didn't actually create a prefix arg,
1558 but is merely a frame event that is transparent to prefix args,
1559 then the above doesn't apply. */
1560 if (NILP (KVAR (current_kboard, Vprefix_arg))
1561 || CONSP (last_command_event))
1563 kset_last_command (current_kboard, Vthis_command);
1564 kset_real_last_command (current_kboard, Vreal_this_command);
1565 if (!CONSP (last_command_event))
1566 kset_last_repeatable_command (current_kboard, Vreal_this_command);
1567 cancel_echoing ();
1568 this_command_key_count = 0;
1569 this_command_key_count_reset = false;
1570 this_single_command_key_start = 0;
1573 if (!NILP (BVAR (current_buffer, mark_active))
1574 && !NILP (Vrun_hooks))
1576 /* In Emacs 22, setting transient-mark-mode to `only' was a
1577 way of turning it on for just one command. This usage is
1578 obsolete, but support it anyway. */
1579 if (EQ (Vtransient_mark_mode, Qidentity))
1580 Vtransient_mark_mode = Qnil;
1581 else if (EQ (Vtransient_mark_mode, Qonly))
1582 Vtransient_mark_mode = Qidentity;
1584 if (!NILP (Vdeactivate_mark))
1585 /* If `select-active-regions' is non-nil, this call to
1586 `deactivate-mark' also sets the PRIMARY selection. */
1587 call0 (Qdeactivate_mark);
1588 else
1590 /* Even if not deactivating the mark, set PRIMARY if
1591 `select-active-regions' is non-nil. */
1592 if (!NILP (Fwindow_system (Qnil))
1593 /* Even if mark_active is non-nil, the actual buffer
1594 marker may not have been set yet (Bug#7044). */
1595 && XMARKER (BVAR (current_buffer, mark))->buffer
1596 && (EQ (Vselect_active_regions, Qonly)
1597 ? EQ (CAR_SAFE (Vtransient_mark_mode), Qonly)
1598 : (!NILP (Vselect_active_regions)
1599 && !NILP (Vtransient_mark_mode)))
1600 && NILP (Fmemq (Vthis_command,
1601 Vselection_inhibit_update_commands)))
1603 Lisp_Object txt
1604 = call1 (Fsymbol_value (Qregion_extract_function), Qnil);
1605 if (XINT (Flength (txt)) > 0)
1606 /* Don't set empty selections. */
1607 call2 (Qgui_set_selection, QPRIMARY, txt);
1610 if (current_buffer != prev_buffer || MODIFF != prev_modiff)
1611 run_hook (intern ("activate-mark-hook"));
1614 Vsaved_region_selection = Qnil;
1617 finalize:
1619 if (current_buffer == prev_buffer
1620 && XBUFFER (XWINDOW (selected_window)->contents) == current_buffer
1621 && last_point_position != PT
1622 && NILP (Vdisable_point_adjustment)
1623 && NILP (Vglobal_disable_point_adjustment))
1625 if (last_point_position > BEGV
1626 && last_point_position < ZV
1627 && (composition_adjust_point (last_point_position,
1628 last_point_position)
1629 != last_point_position))
1630 /* The last point was temporarily set within a grapheme
1631 cluster to prevent automatic composition. To recover
1632 the automatic composition, we must update the
1633 display. */
1634 windows_or_buffers_changed = 21;
1635 if (!already_adjusted)
1636 adjust_point_for_property (last_point_position,
1637 MODIFF != prev_modiff);
1640 /* Install chars successfully executed in kbd macro. */
1642 if (!NILP (KVAR (current_kboard, defining_kbd_macro))
1643 && NILP (KVAR (current_kboard, Vprefix_arg)))
1644 finalize_kbd_macro_chars ();
1648 Lisp_Object
1649 read_menu_command (void)
1651 Lisp_Object keybuf[30];
1652 ptrdiff_t count = SPECPDL_INDEX ();
1653 int i;
1655 /* We don't want to echo the keystrokes while navigating the
1656 menus. */
1657 specbind (Qecho_keystrokes, make_number (0));
1659 i = read_key_sequence (keybuf, ARRAYELTS (keybuf),
1660 Qnil, 0, 1, 1, 1);
1662 unbind_to (count, Qnil);
1664 if (! FRAME_LIVE_P (XFRAME (selected_frame)))
1665 Fkill_emacs (Qnil);
1666 if (i == 0 || i == -1)
1667 return Qt;
1669 return read_key_sequence_cmd;
1672 /* Adjust point to a boundary of a region that has such a property
1673 that should be treated intangible. For the moment, we check
1674 `composition', `display' and `invisible' properties.
1675 LAST_PT is the last position of point. */
1677 static void
1678 adjust_point_for_property (ptrdiff_t last_pt, bool modified)
1680 ptrdiff_t beg, end;
1681 Lisp_Object val, overlay, tmp;
1682 /* When called after buffer modification, we should temporarily
1683 suppress the point adjustment for automatic composition so that a
1684 user can keep inserting another character at point or keep
1685 deleting characters around point. */
1686 bool check_composition = ! modified;
1687 bool check_display = true, check_invisible = true;
1688 ptrdiff_t orig_pt = PT;
1690 eassert (XBUFFER (XWINDOW (selected_window)->contents) == current_buffer);
1692 /* FIXME: cycling is probably not necessary because these properties
1693 can't be usefully combined anyway. */
1694 while (check_composition || check_display || check_invisible)
1696 /* FIXME: check `intangible'. */
1697 if (check_composition
1698 && PT > BEGV && PT < ZV
1699 && (beg = composition_adjust_point (last_pt, PT)) != PT)
1701 SET_PT (beg);
1702 check_display = check_invisible = true;
1704 check_composition = false;
1705 if (check_display
1706 && PT > BEGV && PT < ZV
1707 && !NILP (val = get_char_property_and_overlay
1708 (make_number (PT), Qdisplay, selected_window,
1709 &overlay))
1710 && display_prop_intangible_p (val, overlay, PT, PT_BYTE)
1711 && (!OVERLAYP (overlay)
1712 ? get_property_and_range (PT, Qdisplay, &val, &beg, &end, Qnil)
1713 : (beg = OVERLAY_POSITION (OVERLAY_START (overlay)),
1714 end = OVERLAY_POSITION (OVERLAY_END (overlay))))
1715 && (beg < PT /* && end > PT <- It's always the case. */
1716 || (beg <= PT && STRINGP (val) && SCHARS (val) == 0)))
1718 eassert (end > PT);
1719 SET_PT (PT < last_pt
1720 ? (STRINGP (val) && SCHARS (val) == 0
1721 ? max (beg - 1, BEGV)
1722 : beg)
1723 : end);
1724 check_composition = check_invisible = true;
1726 check_display = false;
1727 if (check_invisible && PT > BEGV && PT < ZV)
1729 int inv;
1730 bool ellipsis = false;
1731 beg = end = PT;
1733 /* Find boundaries `beg' and `end' of the invisible area, if any. */
1734 while (end < ZV
1735 #if 0
1736 /* FIXME: We should stop if we find a spot between
1737 two runs of `invisible' where inserted text would
1738 be visible. This is important when we have two
1739 invisible boundaries that enclose an area: if the
1740 area is empty, we need this test in order to make
1741 it possible to place point in the middle rather
1742 than skip both boundaries. However, this code
1743 also stops anywhere in a non-sticky text-property,
1744 which breaks (e.g.) Org mode. */
1745 && (val = Fget_pos_property (make_number (end),
1746 Qinvisible, Qnil),
1747 TEXT_PROP_MEANS_INVISIBLE (val))
1748 #endif
1749 && !NILP (val = get_char_property_and_overlay
1750 (make_number (end), Qinvisible, Qnil, &overlay))
1751 && (inv = TEXT_PROP_MEANS_INVISIBLE (val)))
1753 ellipsis = ellipsis || inv > 1
1754 || (OVERLAYP (overlay)
1755 && (!NILP (Foverlay_get (overlay, Qafter_string))
1756 || !NILP (Foverlay_get (overlay, Qbefore_string))));
1757 tmp = Fnext_single_char_property_change
1758 (make_number (end), Qinvisible, Qnil, Qnil);
1759 end = NATNUMP (tmp) ? XFASTINT (tmp) : ZV;
1761 while (beg > BEGV
1762 #if 0
1763 && (val = Fget_pos_property (make_number (beg),
1764 Qinvisible, Qnil),
1765 TEXT_PROP_MEANS_INVISIBLE (val))
1766 #endif
1767 && !NILP (val = get_char_property_and_overlay
1768 (make_number (beg - 1), Qinvisible, Qnil, &overlay))
1769 && (inv = TEXT_PROP_MEANS_INVISIBLE (val)))
1771 ellipsis = ellipsis || inv > 1
1772 || (OVERLAYP (overlay)
1773 && (!NILP (Foverlay_get (overlay, Qafter_string))
1774 || !NILP (Foverlay_get (overlay, Qbefore_string))));
1775 tmp = Fprevious_single_char_property_change
1776 (make_number (beg), Qinvisible, Qnil, Qnil);
1777 beg = NATNUMP (tmp) ? XFASTINT (tmp) : BEGV;
1780 /* Move away from the inside area. */
1781 if (beg < PT && end > PT)
1783 SET_PT ((orig_pt == PT && (last_pt < beg || last_pt > end))
1784 /* We haven't moved yet (so we don't need to fear
1785 infinite-looping) and we were outside the range
1786 before (so either end of the range still corresponds
1787 to a move in the right direction): pretend we moved
1788 less than we actually did, so that we still have
1789 more freedom below in choosing which end of the range
1790 to go to. */
1791 ? (orig_pt = -1, PT < last_pt ? end : beg)
1792 /* We either have moved already or the last point
1793 was already in the range: we don't get to choose
1794 which end of the range we have to go to. */
1795 : (PT < last_pt ? beg : end));
1796 check_composition = check_display = true;
1798 #if 0 /* This assertion isn't correct, because SET_PT may end up setting
1799 the point to something other than its argument, due to
1800 point-motion hooks, intangibility, etc. */
1801 eassert (PT == beg || PT == end);
1802 #endif
1804 /* Pretend the area doesn't exist if the buffer is not
1805 modified. */
1806 if (!modified && !ellipsis && beg < end)
1808 if (last_pt == beg && PT == end && end < ZV)
1809 (check_composition = check_display = true, SET_PT (end + 1));
1810 else if (last_pt == end && PT == beg && beg > BEGV)
1811 (check_composition = check_display = true, SET_PT (beg - 1));
1812 else if (PT == ((PT < last_pt) ? beg : end))
1813 /* We've already moved as far as we can. Trying to go
1814 to the other end would mean moving backwards and thus
1815 could lead to an infinite loop. */
1817 else if (val = Fget_pos_property (make_number (PT),
1818 Qinvisible, Qnil),
1819 TEXT_PROP_MEANS_INVISIBLE (val)
1820 && (val = (Fget_pos_property
1821 (make_number (PT == beg ? end : beg),
1822 Qinvisible, Qnil)),
1823 !TEXT_PROP_MEANS_INVISIBLE (val)))
1824 (check_composition = check_display = true,
1825 SET_PT (PT == beg ? end : beg));
1828 check_invisible = false;
1832 /* Subroutine for safe_run_hooks: run the hook, which is ARGS[1]. */
1834 static Lisp_Object
1835 safe_run_hooks_1 (ptrdiff_t nargs, Lisp_Object *args)
1837 eassert (nargs == 2);
1838 return call0 (args[1]);
1841 /* Subroutine for safe_run_hooks: handle an error by clearing out the function
1842 from the hook. */
1844 static Lisp_Object
1845 safe_run_hooks_error (Lisp_Object error, ptrdiff_t nargs, Lisp_Object *args)
1847 eassert (nargs == 2);
1848 AUTO_STRING (format, "Error in %s (%S): %S");
1849 Lisp_Object hook = args[0];
1850 Lisp_Object fun = args[1];
1851 CALLN (Fmessage, format, hook, fun, error);
1853 if (SYMBOLP (hook))
1855 Lisp_Object val;
1856 bool found = false;
1857 Lisp_Object newval = Qnil;
1858 for (val = find_symbol_value (hook); CONSP (val); val = XCDR (val))
1859 if (EQ (fun, XCAR (val)))
1860 found = true;
1861 else
1862 newval = Fcons (XCAR (val), newval);
1863 if (found)
1864 return Fset (hook, Fnreverse (newval));
1865 /* Not found in the local part of the hook. Let's look at the global
1866 part. */
1867 newval = Qnil;
1868 for (val = (NILP (Fdefault_boundp (hook)) ? Qnil
1869 : Fdefault_value (hook));
1870 CONSP (val); val = XCDR (val))
1871 if (EQ (fun, XCAR (val)))
1872 found = true;
1873 else
1874 newval = Fcons (XCAR (val), newval);
1875 if (found)
1876 return Fset_default (hook, Fnreverse (newval));
1878 return Qnil;
1881 static Lisp_Object
1882 safe_run_hook_funcall (ptrdiff_t nargs, Lisp_Object *args)
1884 eassert (nargs == 2);
1885 /* Yes, run_hook_with_args works with args in the other order. */
1886 internal_condition_case_n (safe_run_hooks_1,
1887 2, ((Lisp_Object []) {args[1], args[0]}),
1888 Qt, safe_run_hooks_error);
1889 return Qnil;
1892 /* If we get an error while running the hook, cause the hook variable
1893 to be nil. Also inhibit quits, so that C-g won't cause the hook
1894 to mysteriously evaporate. */
1896 void
1897 safe_run_hooks (Lisp_Object hook)
1899 struct gcpro gcpro1;
1900 ptrdiff_t count = SPECPDL_INDEX ();
1902 GCPRO1 (hook);
1903 specbind (Qinhibit_quit, Qt);
1904 run_hook_with_args (2, ((Lisp_Object []) {hook, hook}), safe_run_hook_funcall);
1905 unbind_to (count, Qnil);
1906 UNGCPRO;
1910 /* Nonzero means polling for input is temporarily suppressed. */
1912 int poll_suppress_count;
1915 #ifdef POLL_FOR_INPUT
1917 /* Asynchronous timer for polling. */
1919 static struct atimer *poll_timer;
1921 /* Poll for input, so that we catch a C-g if it comes in. */
1922 void
1923 poll_for_input_1 (void)
1925 if (! input_blocked_p ()
1926 && !waiting_for_input)
1927 gobble_input ();
1930 /* Timer callback function for poll_timer. TIMER is equal to
1931 poll_timer. */
1933 static void
1934 poll_for_input (struct atimer *timer)
1936 if (poll_suppress_count == 0)
1937 pending_signals = true;
1940 #endif /* POLL_FOR_INPUT */
1942 /* Begin signals to poll for input, if they are appropriate.
1943 This function is called unconditionally from various places. */
1945 void
1946 start_polling (void)
1948 #ifdef POLL_FOR_INPUT
1949 /* XXX This condition was (read_socket_hook && !interrupt_input),
1950 but read_socket_hook is not global anymore. Let's pretend that
1951 it's always set. */
1952 if (!interrupt_input)
1954 /* Turn alarm handling on unconditionally. It might have
1955 been turned off in process.c. */
1956 turn_on_atimers (1);
1958 /* If poll timer doesn't exist, or we need one with
1959 a different interval, start a new one. */
1960 if (poll_timer == NULL
1961 || poll_timer->interval.tv_sec != polling_period)
1963 time_t period = max (1, min (polling_period, TYPE_MAXIMUM (time_t)));
1964 struct timespec interval = make_timespec (period, 0);
1966 if (poll_timer)
1967 cancel_atimer (poll_timer);
1969 poll_timer = start_atimer (ATIMER_CONTINUOUS, interval,
1970 poll_for_input, NULL);
1973 /* Let the timer's callback function poll for input
1974 if this becomes zero. */
1975 --poll_suppress_count;
1977 #endif
1980 /* True if we are using polling to handle input asynchronously. */
1982 bool
1983 input_polling_used (void)
1985 #ifdef POLL_FOR_INPUT
1986 /* XXX This condition was (read_socket_hook && !interrupt_input),
1987 but read_socket_hook is not global anymore. Let's pretend that
1988 it's always set. */
1989 return !interrupt_input;
1990 #else
1991 return 0;
1992 #endif
1995 /* Turn off polling. */
1997 void
1998 stop_polling (void)
2000 #ifdef POLL_FOR_INPUT
2001 /* XXX This condition was (read_socket_hook && !interrupt_input),
2002 but read_socket_hook is not global anymore. Let's pretend that
2003 it's always set. */
2004 if (!interrupt_input)
2005 ++poll_suppress_count;
2006 #endif
2009 /* Set the value of poll_suppress_count to COUNT
2010 and start or stop polling accordingly. */
2012 void
2013 set_poll_suppress_count (int count)
2015 #ifdef POLL_FOR_INPUT
2016 if (count == 0 && poll_suppress_count != 0)
2018 poll_suppress_count = 1;
2019 start_polling ();
2021 else if (count != 0 && poll_suppress_count == 0)
2023 stop_polling ();
2025 poll_suppress_count = count;
2026 #endif
2029 /* Bind polling_period to a value at least N.
2030 But don't decrease it. */
2032 void
2033 bind_polling_period (int n)
2035 #ifdef POLL_FOR_INPUT
2036 EMACS_INT new = polling_period;
2038 if (n > new)
2039 new = n;
2041 stop_other_atimers (poll_timer);
2042 stop_polling ();
2043 specbind (Qpolling_period, make_number (new));
2044 /* Start a new alarm with the new period. */
2045 start_polling ();
2046 #endif
2049 /* Apply the control modifier to CHARACTER. */
2052 make_ctrl_char (int c)
2054 /* Save the upper bits here. */
2055 int upper = c & ~0177;
2057 if (! ASCII_CHAR_P (c))
2058 return c |= ctrl_modifier;
2060 c &= 0177;
2062 /* Everything in the columns containing the upper-case letters
2063 denotes a control character. */
2064 if (c >= 0100 && c < 0140)
2066 int oc = c;
2067 c &= ~0140;
2068 /* Set the shift modifier for a control char
2069 made from a shifted letter. But only for letters! */
2070 if (oc >= 'A' && oc <= 'Z')
2071 c |= shift_modifier;
2074 /* The lower-case letters denote control characters too. */
2075 else if (c >= 'a' && c <= 'z')
2076 c &= ~0140;
2078 /* Include the bits for control and shift
2079 only if the basic ASCII code can't indicate them. */
2080 else if (c >= ' ')
2081 c |= ctrl_modifier;
2083 /* Replace the high bits. */
2084 c |= (upper & ~ctrl_modifier);
2086 return c;
2089 /* Display the help-echo property of the character after the mouse pointer.
2090 Either show it in the echo area, or call show-help-function to display
2091 it by other means (maybe in a tooltip).
2093 If HELP is nil, that means clear the previous help echo.
2095 If HELP is a string, display that string. If HELP is a function,
2096 call it with OBJECT and POS as arguments; the function should
2097 return a help string or nil for none. For all other types of HELP,
2098 evaluate it to obtain a string.
2100 WINDOW is the window in which the help was generated, if any.
2101 It is nil if not in a window.
2103 If OBJECT is a buffer, POS is the position in the buffer where the
2104 `help-echo' text property was found.
2106 If OBJECT is an overlay, that overlay has a `help-echo' property,
2107 and POS is the position in the overlay's buffer under the mouse.
2109 If OBJECT is a string (an overlay string or a string displayed with
2110 the `display' property). POS is the position in that string under
2111 the mouse.
2113 Note: this function may only be called with HELP nil or a string
2114 from X code running asynchronously. */
2116 void
2117 show_help_echo (Lisp_Object help, Lisp_Object window, Lisp_Object object,
2118 Lisp_Object pos)
2120 if (!NILP (help) && !STRINGP (help))
2122 if (FUNCTIONP (help))
2123 help = safe_call (4, help, window, object, pos);
2124 else
2125 help = safe_eval (help);
2127 if (!STRINGP (help))
2128 return;
2131 if (!noninteractive && STRINGP (help))
2133 /* The mouse-fixup-help-message Lisp function can call
2134 mouse_position_hook, which resets the mouse_moved flags.
2135 This causes trouble if we are trying to read a mouse motion
2136 event (i.e., if we are inside a `track-mouse' form), so we
2137 restore the mouse_moved flag. */
2138 struct frame *f = NILP (do_mouse_tracking) ? NULL : some_mouse_moved ();
2139 help = call1 (Qmouse_fixup_help_message, help);
2140 if (f)
2141 f->mouse_moved = true;
2144 if (STRINGP (help) || NILP (help))
2146 if (!NILP (Vshow_help_function))
2147 call1 (Vshow_help_function, Fsubstitute_command_keys (help));
2148 help_echo_showing_p = STRINGP (help);
2154 /* Input of single characters from keyboard. */
2156 static Lisp_Object kbd_buffer_get_event (KBOARD **kbp, bool *used_mouse_menu,
2157 struct timespec *end_time);
2158 static void record_char (Lisp_Object c);
2160 static Lisp_Object help_form_saved_window_configs;
2161 static void
2162 read_char_help_form_unwind (void)
2164 Lisp_Object window_config = XCAR (help_form_saved_window_configs);
2165 help_form_saved_window_configs = XCDR (help_form_saved_window_configs);
2166 if (!NILP (window_config))
2167 Fset_window_configuration (window_config);
2170 #define STOP_POLLING \
2171 do { if (! polling_stopped_here) stop_polling (); \
2172 polling_stopped_here = true; } while (0)
2174 #define RESUME_POLLING \
2175 do { if (polling_stopped_here) start_polling (); \
2176 polling_stopped_here = false; } while (0)
2178 static Lisp_Object
2179 read_event_from_main_queue (struct timespec *end_time,
2180 sys_jmp_buf local_getcjmp,
2181 bool *used_mouse_menu)
2183 Lisp_Object c = Qnil;
2184 sys_jmp_buf save_jump;
2185 KBOARD *kb IF_LINT (= NULL);
2187 start:
2189 /* Read from the main queue, and if that gives us something we can't use yet,
2190 we put it on the appropriate side queue and try again. */
2192 if (end_time && timespec_cmp (*end_time, current_timespec ()) <= 0)
2193 return c;
2195 /* Actually read a character, waiting if necessary. */
2196 save_getcjmp (save_jump);
2197 restore_getcjmp (local_getcjmp);
2198 if (!end_time)
2199 timer_start_idle ();
2200 c = kbd_buffer_get_event (&kb, used_mouse_menu, end_time);
2201 restore_getcjmp (save_jump);
2203 if (! NILP (c) && (kb != current_kboard))
2205 Lisp_Object last = KVAR (kb, kbd_queue);
2206 if (CONSP (last))
2208 while (CONSP (XCDR (last)))
2209 last = XCDR (last);
2210 if (!NILP (XCDR (last)))
2211 emacs_abort ();
2213 if (!CONSP (last))
2214 kset_kbd_queue (kb, list1 (c));
2215 else
2216 XSETCDR (last, list1 (c));
2217 kb->kbd_queue_has_data = true;
2218 c = Qnil;
2219 if (single_kboard)
2220 goto start;
2221 current_kboard = kb;
2222 /* This is going to exit from read_char
2223 so we had better get rid of this frame's stuff. */
2224 return make_number (-2);
2227 /* Terminate Emacs in batch mode if at eof. */
2228 if (noninteractive && INTEGERP (c) && XINT (c) < 0)
2229 Fkill_emacs (make_number (1));
2231 if (INTEGERP (c))
2233 /* Add in any extra modifiers, where appropriate. */
2234 if ((extra_keyboard_modifiers & CHAR_CTL)
2235 || ((extra_keyboard_modifiers & 0177) < ' '
2236 && (extra_keyboard_modifiers & 0177) != 0))
2237 XSETINT (c, make_ctrl_char (XINT (c)));
2239 /* Transfer any other modifier bits directly from
2240 extra_keyboard_modifiers to c. Ignore the actual character code
2241 in the low 16 bits of extra_keyboard_modifiers. */
2242 XSETINT (c, XINT (c) | (extra_keyboard_modifiers & ~0xff7f & ~CHAR_CTL));
2245 return c;
2250 /* Like `read_event_from_main_queue' but applies keyboard-coding-system
2251 to tty input. */
2252 static Lisp_Object
2253 read_decoded_event_from_main_queue (struct timespec *end_time,
2254 sys_jmp_buf local_getcjmp,
2255 Lisp_Object prev_event,
2256 bool *used_mouse_menu)
2258 #define MAX_ENCODED_BYTES 16
2259 #ifndef WINDOWSNT
2260 Lisp_Object events[MAX_ENCODED_BYTES];
2261 int n = 0;
2262 #endif
2263 while (true)
2265 Lisp_Object nextevt
2266 = read_event_from_main_queue (end_time, local_getcjmp,
2267 used_mouse_menu);
2268 #ifdef WINDOWSNT
2269 /* w32_console already returns decoded events. It either reads
2270 Unicode characters from the Windows keyboard input, or
2271 converts characters encoded in the current codepage into
2272 Unicode. See w32inevt.c:key_event, near its end. */
2273 return nextevt;
2274 #else
2275 struct frame *frame = XFRAME (selected_frame);
2276 struct terminal *terminal = frame->terminal;
2277 if (!((FRAME_TERMCAP_P (frame) || FRAME_MSDOS_P (frame))
2278 /* Don't apply decoding if we're just reading a raw event
2279 (e.g. reading bytes sent by the xterm to specify the position
2280 of a mouse click). */
2281 && (!EQ (prev_event, Qt))
2282 && (TERMINAL_KEYBOARD_CODING (terminal)->common_flags
2283 & CODING_REQUIRE_DECODING_MASK)))
2284 return nextevt; /* No decoding needed. */
2285 else
2287 int meta_key = terminal->display_info.tty->meta_key;
2288 eassert (n < MAX_ENCODED_BYTES);
2289 events[n++] = nextevt;
2290 if (NATNUMP (nextevt)
2291 && XINT (nextevt) < (meta_key == 1 ? 0x80 : 0x100))
2292 { /* An encoded byte sequence, let's try to decode it. */
2293 struct coding_system *coding
2294 = TERMINAL_KEYBOARD_CODING (terminal);
2296 if (raw_text_coding_system_p (coding))
2298 int i;
2299 if (meta_key != 2)
2300 for (i = 0; i < n; i++)
2301 events[i] = make_number (XINT (events[i]) & ~0x80);
2303 else
2305 unsigned char src[MAX_ENCODED_BYTES];
2306 unsigned char dest[MAX_ENCODED_BYTES * MAX_MULTIBYTE_LENGTH];
2307 int i;
2308 for (i = 0; i < n; i++)
2309 src[i] = XINT (events[i]);
2310 if (meta_key != 2)
2311 for (i = 0; i < n; i++)
2312 src[i] &= ~0x80;
2313 coding->destination = dest;
2314 coding->dst_bytes = sizeof dest;
2315 decode_coding_c_string (coding, src, n, Qnil);
2316 eassert (coding->produced_char <= n);
2317 if (coding->produced_char == 0)
2318 { /* The encoded sequence is incomplete. */
2319 if (n < MAX_ENCODED_BYTES) /* Avoid buffer overflow. */
2320 continue; /* Read on! */
2322 else
2324 const unsigned char *p = coding->destination;
2325 eassert (coding->carryover_bytes == 0);
2326 n = 0;
2327 while (n < coding->produced_char)
2328 events[n++] = make_number (STRING_CHAR_ADVANCE (p));
2332 /* Now `events' should hold decoded events.
2333 Normally, n should be equal to 1, but better not rely on it.
2334 We can only return one event here, so return the first we
2335 had and keep the others (if any) for later. */
2336 while (n > 1)
2337 Vunread_command_events
2338 = Fcons (events[--n], Vunread_command_events);
2339 return events[0];
2341 #endif
2345 static bool
2346 echo_keystrokes_p (void)
2348 return (FLOATP (Vecho_keystrokes) ? XFLOAT_DATA (Vecho_keystrokes) > 0.0
2349 : INTEGERP (Vecho_keystrokes) ? XINT (Vecho_keystrokes) > 0 : false);
2352 /* Read a character from the keyboard; call the redisplay if needed. */
2353 /* commandflag 0 means do not autosave, but do redisplay.
2354 -1 means do not redisplay, but do autosave.
2355 -2 means do neither.
2356 1 means do both.
2358 The argument MAP is a keymap for menu prompting.
2360 PREV_EVENT is the previous input event, or nil if we are reading
2361 the first event of a key sequence (or not reading a key sequence).
2362 If PREV_EVENT is t, that is a "magic" value that says
2363 not to run input methods, but in other respects to act as if
2364 not reading a key sequence.
2366 If USED_MOUSE_MENU is non-null, then set *USED_MOUSE_MENU to true
2367 if we used a mouse menu to read the input, or false otherwise. If
2368 USED_MOUSE_MENU is null, don't dereference it.
2370 Value is -2 when we find input on another keyboard. A second call
2371 to read_char will read it.
2373 If END_TIME is non-null, it is a pointer to a struct timespec
2374 specifying the maximum time to wait until. If no input arrives by
2375 that time, stop waiting and return nil.
2377 Value is t if we showed a menu and the user rejected it. */
2379 Lisp_Object
2380 read_char (int commandflag, Lisp_Object map,
2381 Lisp_Object prev_event,
2382 bool *used_mouse_menu, struct timespec *end_time)
2384 Lisp_Object c;
2385 ptrdiff_t jmpcount;
2386 sys_jmp_buf local_getcjmp;
2387 sys_jmp_buf save_jump;
2388 Lisp_Object tem, save;
2389 volatile Lisp_Object previous_echo_area_message;
2390 volatile Lisp_Object also_record;
2391 volatile bool reread, recorded;
2392 struct gcpro gcpro1, gcpro2;
2393 bool volatile polling_stopped_here = false;
2394 struct kboard *orig_kboard = current_kboard;
2396 also_record = Qnil;
2398 #if 0 /* This was commented out as part of fixing echo for C-u left. */
2399 before_command_key_count = this_command_key_count;
2400 before_command_echo_length = echo_length ();
2401 #endif
2402 c = Qnil;
2403 previous_echo_area_message = Qnil;
2405 GCPRO2 (c, previous_echo_area_message);
2407 retry:
2409 recorded = false;
2411 if (CONSP (Vunread_post_input_method_events))
2413 c = XCAR (Vunread_post_input_method_events);
2414 Vunread_post_input_method_events
2415 = XCDR (Vunread_post_input_method_events);
2417 /* Undo what read_char_x_menu_prompt did when it unread
2418 additional keys returned by Fx_popup_menu. */
2419 if (CONSP (c)
2420 && (SYMBOLP (XCAR (c)) || INTEGERP (XCAR (c)))
2421 && NILP (XCDR (c)))
2422 c = XCAR (c);
2424 reread = true;
2425 goto reread_first;
2427 else
2428 reread = false;
2431 if (CONSP (Vunread_command_events))
2433 bool was_disabled = false;
2435 c = XCAR (Vunread_command_events);
2436 Vunread_command_events = XCDR (Vunread_command_events);
2438 /* Undo what sit-for did when it unread additional keys
2439 inside universal-argument. */
2441 if (CONSP (c) && EQ (XCAR (c), Qt))
2442 c = XCDR (c);
2443 else
2444 reread = true;
2446 /* Undo what read_char_x_menu_prompt did when it unread
2447 additional keys returned by Fx_popup_menu. */
2448 if (CONSP (c)
2449 && EQ (XCDR (c), Qdisabled)
2450 && (SYMBOLP (XCAR (c)) || INTEGERP (XCAR (c))))
2452 was_disabled = true;
2453 c = XCAR (c);
2456 /* If the queued event is something that used the mouse,
2457 set used_mouse_menu accordingly. */
2458 if (used_mouse_menu
2459 /* Also check was_disabled so last-nonmenu-event won't return
2460 a bad value when submenus are involved. (Bug#447) */
2461 && (EQ (c, Qtool_bar) || EQ (c, Qmenu_bar) || was_disabled))
2462 *used_mouse_menu = true;
2464 goto reread_for_input_method;
2467 if (CONSP (Vunread_input_method_events))
2469 c = XCAR (Vunread_input_method_events);
2470 Vunread_input_method_events = XCDR (Vunread_input_method_events);
2472 /* Undo what read_char_x_menu_prompt did when it unread
2473 additional keys returned by Fx_popup_menu. */
2474 if (CONSP (c)
2475 && (SYMBOLP (XCAR (c)) || INTEGERP (XCAR (c)))
2476 && NILP (XCDR (c)))
2477 c = XCAR (c);
2478 reread = true;
2479 goto reread_for_input_method;
2482 this_command_key_count_reset = false;
2484 if (!NILP (Vexecuting_kbd_macro))
2486 /* We set this to Qmacro; since that's not a frame, nobody will
2487 try to switch frames on us, and the selected window will
2488 remain unchanged.
2490 Since this event came from a macro, it would be misleading to
2491 leave internal_last_event_frame set to wherever the last
2492 real event came from. Normally, a switch-frame event selects
2493 internal_last_event_frame after each command is read, but
2494 events read from a macro should never cause a new frame to be
2495 selected. */
2496 Vlast_event_frame = internal_last_event_frame = Qmacro;
2498 /* Exit the macro if we are at the end.
2499 Also, some things replace the macro with t
2500 to force an early exit. */
2501 if (EQ (Vexecuting_kbd_macro, Qt)
2502 || executing_kbd_macro_index >= XFASTINT (Flength (Vexecuting_kbd_macro)))
2504 XSETINT (c, -1);
2505 goto exit;
2508 c = Faref (Vexecuting_kbd_macro, make_number (executing_kbd_macro_index));
2509 if (STRINGP (Vexecuting_kbd_macro)
2510 && (XFASTINT (c) & 0x80) && (XFASTINT (c) <= 0xff))
2511 XSETFASTINT (c, CHAR_META | (XFASTINT (c) & ~0x80));
2513 executing_kbd_macro_index++;
2515 goto from_macro;
2518 if (!NILP (unread_switch_frame))
2520 c = unread_switch_frame;
2521 unread_switch_frame = Qnil;
2523 /* This event should make it into this_command_keys, and get echoed
2524 again, so we do not set `reread'. */
2525 goto reread_first;
2528 /* If redisplay was requested. */
2529 if (commandflag >= 0)
2531 bool echo_current = EQ (echo_message_buffer, echo_area_buffer[0]);
2533 /* If there is pending input, process any events which are not
2534 user-visible, such as X selection_request events. */
2535 if (input_pending
2536 || detect_input_pending_run_timers (0))
2537 swallow_events (false); /* May clear input_pending. */
2539 /* Redisplay if no pending input. */
2540 while (!(input_pending
2541 && (input_was_pending || !redisplay_dont_pause)))
2543 input_was_pending = input_pending;
2544 if (help_echo_showing_p && !EQ (selected_window, minibuf_window))
2545 redisplay_preserve_echo_area (5);
2546 else
2547 redisplay ();
2549 if (!input_pending)
2550 /* Normal case: no input arrived during redisplay. */
2551 break;
2553 /* Input arrived and pre-empted redisplay.
2554 Process any events which are not user-visible. */
2555 swallow_events (false);
2556 /* If that cleared input_pending, try again to redisplay. */
2559 /* Prevent the redisplay we just did
2560 from messing up echoing of the input after the prompt. */
2561 if (commandflag == 0 && echo_current)
2562 echo_message_buffer = echo_area_buffer[0];
2566 /* Message turns off echoing unless more keystrokes turn it on again.
2568 The code in 20.x for the condition was
2570 1. echo_area_glyphs && *echo_area_glyphs
2571 2. && echo_area_glyphs != current_kboard->echobuf
2572 3. && ok_to_echo_at_next_pause != echo_area_glyphs
2574 (1) means there's a current message displayed
2576 (2) means it's not the message from echoing from the current
2577 kboard.
2579 (3) There's only one place in 20.x where ok_to_echo_at_next_pause
2580 is set to a non-null value. This is done in read_char and it is
2581 set to echo_area_glyphs after a call to echo_char. That means
2582 ok_to_echo_at_next_pause is either null or
2583 current_kboard->echobuf with the appropriate current_kboard at
2584 that time.
2586 So, condition (3) means in clear text ok_to_echo_at_next_pause
2587 must be either null, or the current message isn't from echoing at
2588 all, or it's from echoing from a different kboard than the
2589 current one. */
2591 if (/* There currently is something in the echo area. */
2592 !NILP (echo_area_buffer[0])
2593 && (/* It's an echo from a different kboard. */
2594 echo_kboard != current_kboard
2595 /* Or we explicitly allow overwriting whatever there is. */
2596 || ok_to_echo_at_next_pause == NULL))
2597 cancel_echoing ();
2598 else
2599 echo_dash ();
2601 /* Try reading a character via menu prompting in the minibuf.
2602 Try this before the sit-for, because the sit-for
2603 would do the wrong thing if we are supposed to do
2604 menu prompting. If EVENT_HAS_PARAMETERS then we are reading
2605 after a mouse event so don't try a minibuf menu. */
2606 c = Qnil;
2607 if (KEYMAPP (map) && INTERACTIVE
2608 && !NILP (prev_event) && ! EVENT_HAS_PARAMETERS (prev_event)
2609 /* Don't bring up a menu if we already have another event. */
2610 && NILP (Vunread_command_events)
2611 && !detect_input_pending_run_timers (0))
2613 c = read_char_minibuf_menu_prompt (commandflag, map);
2615 if (INTEGERP (c) && XINT (c) == -2)
2616 return c; /* wrong_kboard_jmpbuf */
2618 if (! NILP (c))
2619 goto exit;
2622 /* Make a longjmp point for quits to use, but don't alter getcjmp just yet.
2623 We will do that below, temporarily for short sections of code,
2624 when appropriate. local_getcjmp must be in effect
2625 around any call to sit_for or kbd_buffer_get_event;
2626 it *must not* be in effect when we call redisplay. */
2628 jmpcount = SPECPDL_INDEX ();
2629 if (sys_setjmp (local_getcjmp))
2631 /* Handle quits while reading the keyboard. */
2632 /* We must have saved the outer value of getcjmp here,
2633 so restore it now. */
2634 restore_getcjmp (save_jump);
2635 pthread_sigmask (SIG_SETMASK, &empty_mask, 0);
2636 unbind_to (jmpcount, Qnil);
2637 XSETINT (c, quit_char);
2638 internal_last_event_frame = selected_frame;
2639 Vlast_event_frame = internal_last_event_frame;
2640 /* If we report the quit char as an event,
2641 don't do so more than once. */
2642 if (!NILP (Vinhibit_quit))
2643 Vquit_flag = Qnil;
2646 KBOARD *kb = FRAME_KBOARD (XFRAME (selected_frame));
2647 if (kb != current_kboard)
2649 Lisp_Object last = KVAR (kb, kbd_queue);
2650 /* We shouldn't get here if we were in single-kboard mode! */
2651 if (single_kboard)
2652 emacs_abort ();
2653 if (CONSP (last))
2655 while (CONSP (XCDR (last)))
2656 last = XCDR (last);
2657 if (!NILP (XCDR (last)))
2658 emacs_abort ();
2660 if (!CONSP (last))
2661 kset_kbd_queue (kb, list1 (c));
2662 else
2663 XSETCDR (last, list1 (c));
2664 kb->kbd_queue_has_data = true;
2665 current_kboard = kb;
2666 /* This is going to exit from read_char
2667 so we had better get rid of this frame's stuff. */
2668 UNGCPRO;
2669 return make_number (-2); /* wrong_kboard_jmpbuf */
2672 goto non_reread;
2675 /* Start idle timers if no time limit is supplied. We don't do it
2676 if a time limit is supplied to avoid an infinite recursion in the
2677 situation where an idle timer calls `sit-for'. */
2679 if (!end_time)
2680 timer_start_idle ();
2682 /* If in middle of key sequence and minibuffer not active,
2683 start echoing if enough time elapses. */
2685 if (minibuf_level == 0
2686 && !end_time
2687 && !current_kboard->immediate_echo
2688 && this_command_key_count > 0
2689 && ! noninteractive
2690 && echo_keystrokes_p ()
2691 && (/* No message. */
2692 NILP (echo_area_buffer[0])
2693 /* Or empty message. */
2694 || (BUF_BEG (XBUFFER (echo_area_buffer[0]))
2695 == BUF_Z (XBUFFER (echo_area_buffer[0])))
2696 /* Or already echoing from same kboard. */
2697 || (echo_kboard && ok_to_echo_at_next_pause == echo_kboard)
2698 /* Or not echoing before and echoing allowed. */
2699 || (!echo_kboard && ok_to_echo_at_next_pause)))
2701 /* After a mouse event, start echoing right away.
2702 This is because we are probably about to display a menu,
2703 and we don't want to delay before doing so. */
2704 if (EVENT_HAS_PARAMETERS (prev_event))
2705 echo_now ();
2706 else
2708 Lisp_Object tem0;
2710 save_getcjmp (save_jump);
2711 restore_getcjmp (local_getcjmp);
2712 tem0 = sit_for (Vecho_keystrokes, 1, 1);
2713 restore_getcjmp (save_jump);
2714 if (EQ (tem0, Qt)
2715 && ! CONSP (Vunread_command_events))
2716 echo_now ();
2720 /* Maybe auto save due to number of keystrokes. */
2722 if (commandflag != 0 && commandflag != -2
2723 && auto_save_interval > 0
2724 && num_nonmacro_input_events - last_auto_save > max (auto_save_interval, 20)
2725 && !detect_input_pending_run_timers (0))
2727 Fdo_auto_save (Qnil, Qnil);
2728 /* Hooks can actually change some buffers in auto save. */
2729 redisplay ();
2732 /* Try reading using an X menu.
2733 This is never confused with reading using the minibuf
2734 because the recursive call of read_char in read_char_minibuf_menu_prompt
2735 does not pass on any keymaps. */
2737 if (KEYMAPP (map) && INTERACTIVE
2738 && !NILP (prev_event)
2739 && EVENT_HAS_PARAMETERS (prev_event)
2740 && !EQ (XCAR (prev_event), Qmenu_bar)
2741 && !EQ (XCAR (prev_event), Qtool_bar)
2742 /* Don't bring up a menu if we already have another event. */
2743 && NILP (Vunread_command_events))
2745 c = read_char_x_menu_prompt (map, prev_event, used_mouse_menu);
2747 /* Now that we have read an event, Emacs is not idle. */
2748 if (!end_time)
2749 timer_stop_idle ();
2751 goto exit;
2754 /* Maybe autosave and/or garbage collect due to idleness. */
2756 if (INTERACTIVE && NILP (c))
2758 int delay_level;
2759 ptrdiff_t buffer_size;
2761 /* Slow down auto saves logarithmically in size of current buffer,
2762 and garbage collect while we're at it. */
2763 if (! MINI_WINDOW_P (XWINDOW (selected_window)))
2764 last_non_minibuf_size = Z - BEG;
2765 buffer_size = (last_non_minibuf_size >> 8) + 1;
2766 delay_level = 0;
2767 while (buffer_size > 64)
2768 delay_level++, buffer_size -= buffer_size >> 2;
2769 if (delay_level < 4) delay_level = 4;
2770 /* delay_level is 4 for files under around 50k, 7 at 100k,
2771 9 at 200k, 11 at 300k, and 12 at 500k. It is 15 at 1 meg. */
2773 /* Auto save if enough time goes by without input. */
2774 if (commandflag != 0 && commandflag != -2
2775 && num_nonmacro_input_events > last_auto_save
2776 && INTEGERP (Vauto_save_timeout)
2777 && XINT (Vauto_save_timeout) > 0)
2779 Lisp_Object tem0;
2780 EMACS_INT timeout = XFASTINT (Vauto_save_timeout);
2782 timeout = min (timeout, MOST_POSITIVE_FIXNUM / delay_level * 4);
2783 timeout = delay_level * timeout / 4;
2784 save_getcjmp (save_jump);
2785 restore_getcjmp (local_getcjmp);
2786 tem0 = sit_for (make_number (timeout), 1, 1);
2787 restore_getcjmp (save_jump);
2789 if (EQ (tem0, Qt)
2790 && ! CONSP (Vunread_command_events))
2792 Fdo_auto_save (Qnil, Qnil);
2793 redisplay ();
2797 /* If there is still no input available, ask for GC. */
2798 if (!detect_input_pending_run_timers (0))
2799 maybe_gc ();
2802 /* Notify the caller if an autosave hook, or a timer, sentinel or
2803 filter in the sit_for calls above have changed the current
2804 kboard. This could happen if they use the minibuffer or start a
2805 recursive edit, like the fancy splash screen in server.el's
2806 filter. If this longjmp wasn't here, read_key_sequence would
2807 interpret the next key sequence using the wrong translation
2808 tables and function keymaps. */
2809 if (NILP (c) && current_kboard != orig_kboard)
2811 UNGCPRO;
2812 return make_number (-2); /* wrong_kboard_jmpbuf */
2815 /* If this has become non-nil here, it has been set by a timer
2816 or sentinel or filter. */
2817 if (CONSP (Vunread_command_events))
2819 c = XCAR (Vunread_command_events);
2820 Vunread_command_events = XCDR (Vunread_command_events);
2822 if (CONSP (c) && EQ (XCAR (c), Qt))
2823 c = XCDR (c);
2824 else
2825 reread = true;
2828 /* Read something from current KBOARD's side queue, if possible. */
2830 if (NILP (c))
2832 if (current_kboard->kbd_queue_has_data)
2834 if (!CONSP (KVAR (current_kboard, kbd_queue)))
2835 emacs_abort ();
2836 c = XCAR (KVAR (current_kboard, kbd_queue));
2837 kset_kbd_queue (current_kboard,
2838 XCDR (KVAR (current_kboard, kbd_queue)));
2839 if (NILP (KVAR (current_kboard, kbd_queue)))
2840 current_kboard->kbd_queue_has_data = false;
2841 input_pending = readable_events (0);
2842 if (EVENT_HAS_PARAMETERS (c)
2843 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (c)), Qswitch_frame))
2844 internal_last_event_frame = XCAR (XCDR (c));
2845 Vlast_event_frame = internal_last_event_frame;
2849 /* If current_kboard's side queue is empty check the other kboards.
2850 If one of them has data that we have not yet seen here,
2851 switch to it and process the data waiting for it.
2853 Note: if the events queued up for another kboard
2854 have already been seen here, and therefore are not a complete command,
2855 the kbd_queue_has_data field is 0, so we skip that kboard here.
2856 That's to avoid an infinite loop switching between kboards here. */
2857 if (NILP (c) && !single_kboard)
2859 KBOARD *kb;
2860 for (kb = all_kboards; kb; kb = kb->next_kboard)
2861 if (kb->kbd_queue_has_data)
2863 current_kboard = kb;
2864 /* This is going to exit from read_char
2865 so we had better get rid of this frame's stuff. */
2866 UNGCPRO;
2867 return make_number (-2); /* wrong_kboard_jmpbuf */
2871 wrong_kboard:
2873 STOP_POLLING;
2875 if (NILP (c))
2877 c = read_decoded_event_from_main_queue (end_time, local_getcjmp,
2878 prev_event, used_mouse_menu);
2879 if (NILP (c) && end_time
2880 && timespec_cmp (*end_time, current_timespec ()) <= 0)
2882 goto exit;
2885 if (EQ (c, make_number (-2)))
2887 /* This is going to exit from read_char
2888 so we had better get rid of this frame's stuff. */
2889 UNGCPRO;
2890 return c;
2894 non_reread:
2896 if (!end_time)
2897 timer_stop_idle ();
2898 RESUME_POLLING;
2900 if (NILP (c))
2902 if (commandflag >= 0
2903 && !input_pending && !detect_input_pending_run_timers (0))
2904 redisplay ();
2906 goto wrong_kboard;
2909 /* Buffer switch events are only for internal wakeups
2910 so don't show them to the user.
2911 Also, don't record a key if we already did. */
2912 if (BUFFERP (c))
2913 goto exit;
2915 /* Process special events within read_char
2916 and loop around to read another event. */
2917 save = Vquit_flag;
2918 Vquit_flag = Qnil;
2919 tem = access_keymap (get_keymap (Vspecial_event_map, 0, 1), c, 0, 0, 1);
2920 Vquit_flag = save;
2922 if (!NILP (tem))
2924 struct buffer *prev_buffer = current_buffer;
2925 last_input_event = c;
2926 call4 (Qcommand_execute, tem, Qnil, Fvector (1, &last_input_event), Qt);
2928 if (CONSP (c) && EQ (XCAR (c), Qselect_window) && !end_time)
2929 /* We stopped being idle for this event; undo that. This
2930 prevents automatic window selection (under
2931 mouse_autoselect_window from acting as a real input event, for
2932 example banishing the mouse under mouse-avoidance-mode. */
2933 timer_resume_idle ();
2935 if (current_buffer != prev_buffer)
2937 /* The command may have changed the keymaps. Pretend there
2938 is input in another keyboard and return. This will
2939 recalculate keymaps. */
2940 c = make_number (-2);
2941 goto exit;
2943 else
2944 goto retry;
2947 /* Handle things that only apply to characters. */
2948 if (INTEGERP (c))
2950 /* If kbd_buffer_get_event gave us an EOF, return that. */
2951 if (XINT (c) == -1)
2952 goto exit;
2954 if ((STRINGP (KVAR (current_kboard, Vkeyboard_translate_table))
2955 && UNSIGNED_CMP (XFASTINT (c), <,
2956 SCHARS (KVAR (current_kboard,
2957 Vkeyboard_translate_table))))
2958 || (VECTORP (KVAR (current_kboard, Vkeyboard_translate_table))
2959 && UNSIGNED_CMP (XFASTINT (c), <,
2960 ASIZE (KVAR (current_kboard,
2961 Vkeyboard_translate_table))))
2962 || (CHAR_TABLE_P (KVAR (current_kboard, Vkeyboard_translate_table))
2963 && CHARACTERP (c)))
2965 Lisp_Object d;
2966 d = Faref (KVAR (current_kboard, Vkeyboard_translate_table), c);
2967 /* nil in keyboard-translate-table means no translation. */
2968 if (!NILP (d))
2969 c = d;
2973 /* If this event is a mouse click in the menu bar,
2974 return just menu-bar for now. Modify the mouse click event
2975 so we won't do this twice, then queue it up. */
2976 if (EVENT_HAS_PARAMETERS (c)
2977 && CONSP (XCDR (c))
2978 && CONSP (EVENT_START (c))
2979 && CONSP (XCDR (EVENT_START (c))))
2981 Lisp_Object posn;
2983 posn = POSN_POSN (EVENT_START (c));
2984 /* Handle menu-bar events:
2985 insert the dummy prefix event `menu-bar'. */
2986 if (EQ (posn, Qmenu_bar) || EQ (posn, Qtool_bar))
2988 /* Change menu-bar to (menu-bar) as the event "position". */
2989 POSN_SET_POSN (EVENT_START (c), list1 (posn));
2991 also_record = c;
2992 Vunread_command_events = Fcons (c, Vunread_command_events);
2993 c = posn;
2997 /* Store these characters into recent_keys, the dribble file if any,
2998 and the keyboard macro being defined, if any. */
2999 record_char (c);
3000 recorded = true;
3001 if (! NILP (also_record))
3002 record_char (also_record);
3004 /* Wipe the echo area.
3005 But first, if we are about to use an input method,
3006 save the echo area contents for it to refer to. */
3007 if (INTEGERP (c)
3008 && ! NILP (Vinput_method_function)
3009 && ' ' <= XINT (c) && XINT (c) < 256 && XINT (c) != 127)
3011 previous_echo_area_message = Fcurrent_message ();
3012 Vinput_method_previous_message = previous_echo_area_message;
3015 /* Now wipe the echo area, except for help events which do their
3016 own stuff with the echo area. */
3017 if (!CONSP (c)
3018 || (!(EQ (Qhelp_echo, XCAR (c)))
3019 && !(EQ (Qswitch_frame, XCAR (c)))
3020 /* Don't wipe echo area for select window events: These might
3021 get delayed via `mouse-autoselect-window' (Bug#11304). */
3022 && !(EQ (Qselect_window, XCAR (c)))))
3024 if (!NILP (echo_area_buffer[0]))
3026 safe_run_hooks (Qecho_area_clear_hook);
3027 clear_message (1, 0);
3031 reread_for_input_method:
3032 from_macro:
3033 /* Pass this to the input method, if appropriate. */
3034 if (INTEGERP (c)
3035 && ! NILP (Vinput_method_function)
3036 /* Don't run the input method within a key sequence,
3037 after the first event of the key sequence. */
3038 && NILP (prev_event)
3039 && ' ' <= XINT (c) && XINT (c) < 256 && XINT (c) != 127)
3041 Lisp_Object keys;
3042 ptrdiff_t key_count;
3043 bool key_count_reset;
3044 ptrdiff_t command_key_start;
3045 struct gcpro gcpro1;
3046 ptrdiff_t count = SPECPDL_INDEX ();
3048 /* Save the echo status. */
3049 bool saved_immediate_echo = current_kboard->immediate_echo;
3050 struct kboard *saved_ok_to_echo = ok_to_echo_at_next_pause;
3051 Lisp_Object saved_echo_string = KVAR (current_kboard, echo_string);
3052 ptrdiff_t saved_echo_after_prompt = current_kboard->echo_after_prompt;
3054 #if 0
3055 if (before_command_restore_flag)
3057 this_command_key_count = before_command_key_count_1;
3058 if (this_command_key_count < this_single_command_key_start)
3059 this_single_command_key_start = this_command_key_count;
3060 echo_truncate (before_command_echo_length_1);
3061 before_command_restore_flag = 0;
3063 #endif
3065 /* Save the this_command_keys status. */
3066 key_count = this_command_key_count;
3067 key_count_reset = this_command_key_count_reset;
3068 command_key_start = this_single_command_key_start;
3070 if (key_count > 0)
3071 keys = Fcopy_sequence (this_command_keys);
3072 else
3073 keys = Qnil;
3074 GCPRO1 (keys);
3076 /* Clear out this_command_keys. */
3077 this_command_key_count = 0;
3078 this_command_key_count_reset = false;
3079 this_single_command_key_start = 0;
3081 /* Now wipe the echo area. */
3082 if (!NILP (echo_area_buffer[0]))
3083 safe_run_hooks (Qecho_area_clear_hook);
3084 clear_message (1, 0);
3085 echo_truncate (0);
3087 /* If we are not reading a key sequence,
3088 never use the echo area. */
3089 if (!KEYMAPP (map))
3091 specbind (Qinput_method_use_echo_area, Qt);
3094 /* Call the input method. */
3095 tem = call1 (Vinput_method_function, c);
3097 tem = unbind_to (count, tem);
3099 /* Restore the saved echoing state
3100 and this_command_keys state. */
3101 this_command_key_count = key_count;
3102 this_command_key_count_reset = key_count_reset;
3103 this_single_command_key_start = command_key_start;
3104 if (key_count > 0)
3105 this_command_keys = keys;
3107 cancel_echoing ();
3108 ok_to_echo_at_next_pause = saved_ok_to_echo;
3109 /* Do not restore the echo area string when the user is
3110 introducing a prefix argument. Otherwise we end with
3111 repetitions of the partially introduced prefix
3112 argument. (bug#19875) */
3113 if (NILP (intern ("prefix-arg")))
3115 kset_echo_string (current_kboard, saved_echo_string);
3117 current_kboard->echo_after_prompt = saved_echo_after_prompt;
3118 if (saved_immediate_echo)
3119 echo_now ();
3121 UNGCPRO;
3123 /* The input method can return no events. */
3124 if (! CONSP (tem))
3126 /* Bring back the previous message, if any. */
3127 if (! NILP (previous_echo_area_message))
3128 message_with_string ("%s", previous_echo_area_message, 0);
3129 goto retry;
3131 /* It returned one event or more. */
3132 c = XCAR (tem);
3133 Vunread_post_input_method_events
3134 = nconc2 (XCDR (tem), Vunread_post_input_method_events);
3136 /* When we consume events from the various unread-*-events lists, we
3137 bypass the code that records input, so record these events now if
3138 they were not recorded already. */
3139 if (!recorded)
3141 record_char (c);
3142 recorded = true;
3145 reread_first:
3147 /* Display help if not echoing. */
3148 if (CONSP (c) && EQ (XCAR (c), Qhelp_echo))
3150 /* (help-echo FRAME HELP WINDOW OBJECT POS). */
3151 Lisp_Object help, object, position, window, htem;
3153 htem = Fcdr (XCDR (c));
3154 help = Fcar (htem);
3155 htem = Fcdr (htem);
3156 window = Fcar (htem);
3157 htem = Fcdr (htem);
3158 object = Fcar (htem);
3159 htem = Fcdr (htem);
3160 position = Fcar (htem);
3162 show_help_echo (help, window, object, position);
3164 /* We stopped being idle for this event; undo that. */
3165 if (!end_time)
3166 timer_resume_idle ();
3167 goto retry;
3170 if ((! reread || this_command_key_count == 0
3171 || this_command_key_count_reset)
3172 && !end_time)
3175 /* Don't echo mouse motion events. */
3176 if (echo_keystrokes_p ()
3177 && ! (EVENT_HAS_PARAMETERS (c)
3178 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (c)), Qmouse_movement)))
3180 echo_char (c);
3181 if (! NILP (also_record))
3182 echo_char (also_record);
3183 /* Once we reread a character, echoing can happen
3184 the next time we pause to read a new one. */
3185 ok_to_echo_at_next_pause = current_kboard;
3188 /* Record this character as part of the current key. */
3189 add_command_key (c);
3190 if (! NILP (also_record))
3191 add_command_key (also_record);
3194 last_input_event = c;
3195 num_input_events++;
3197 /* Process the help character specially if enabled. */
3198 if (!NILP (Vhelp_form) && help_char_p (c))
3200 ptrdiff_t count = SPECPDL_INDEX ();
3202 help_form_saved_window_configs
3203 = Fcons (Fcurrent_window_configuration (Qnil),
3204 help_form_saved_window_configs);
3205 record_unwind_protect_void (read_char_help_form_unwind);
3206 call0 (Qhelp_form_show);
3208 cancel_echoing ();
3211 c = read_char (0, Qnil, Qnil, 0, NULL);
3212 if (EVENT_HAS_PARAMETERS (c)
3213 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (c)), Qmouse_click))
3214 XSETCAR (help_form_saved_window_configs, Qnil);
3216 while (BUFFERP (c));
3217 /* Remove the help from the frame. */
3218 unbind_to (count, Qnil);
3220 redisplay ();
3221 if (EQ (c, make_number (040)))
3223 cancel_echoing ();
3225 c = read_char (0, Qnil, Qnil, 0, NULL);
3226 while (BUFFERP (c));
3230 exit:
3231 RESUME_POLLING;
3232 input_was_pending = input_pending;
3233 RETURN_UNGCPRO (c);
3236 /* Record a key that came from a mouse menu.
3237 Record it for echoing, for this-command-keys, and so on. */
3239 static void
3240 record_menu_key (Lisp_Object c)
3242 /* Wipe the echo area. */
3243 clear_message (1, 0);
3245 record_char (c);
3247 #if 0
3248 before_command_key_count = this_command_key_count;
3249 before_command_echo_length = echo_length ();
3250 #endif
3252 /* Don't echo mouse motion events. */
3253 if (echo_keystrokes_p ())
3255 echo_char (c);
3257 /* Once we reread a character, echoing can happen
3258 the next time we pause to read a new one. */
3259 ok_to_echo_at_next_pause = 0;
3262 /* Record this character as part of the current key. */
3263 add_command_key (c);
3265 /* Re-reading in the middle of a command. */
3266 last_input_event = c;
3267 num_input_events++;
3270 /* Return true if should recognize C as "the help character". */
3272 static bool
3273 help_char_p (Lisp_Object c)
3275 Lisp_Object tail;
3277 if (EQ (c, Vhelp_char))
3278 return 1;
3279 for (tail = Vhelp_event_list; CONSP (tail); tail = XCDR (tail))
3280 if (EQ (c, XCAR (tail)))
3281 return 1;
3282 return 0;
3285 /* Record the input event C in various ways. */
3287 static void
3288 record_char (Lisp_Object c)
3290 int recorded = 0;
3292 if (CONSP (c) && (EQ (XCAR (c), Qhelp_echo) || EQ (XCAR (c), Qmouse_movement)))
3294 /* To avoid filling recent_keys with help-echo and mouse-movement
3295 events, we filter out repeated help-echo events, only store the
3296 first and last in a series of mouse-movement events, and don't
3297 store repeated help-echo events which are only separated by
3298 mouse-movement events. */
3300 Lisp_Object ev1, ev2, ev3;
3301 int ix1, ix2, ix3;
3303 if ((ix1 = recent_keys_index - 1) < 0)
3304 ix1 = NUM_RECENT_KEYS - 1;
3305 ev1 = AREF (recent_keys, ix1);
3307 if ((ix2 = ix1 - 1) < 0)
3308 ix2 = NUM_RECENT_KEYS - 1;
3309 ev2 = AREF (recent_keys, ix2);
3311 if ((ix3 = ix2 - 1) < 0)
3312 ix3 = NUM_RECENT_KEYS - 1;
3313 ev3 = AREF (recent_keys, ix3);
3315 if (EQ (XCAR (c), Qhelp_echo))
3317 /* Don't record `help-echo' in recent_keys unless it shows some help
3318 message, and a different help than the previously recorded
3319 event. */
3320 Lisp_Object help, last_help;
3322 help = Fcar_safe (Fcdr_safe (XCDR (c)));
3323 if (!STRINGP (help))
3324 recorded = 1;
3325 else if (CONSP (ev1) && EQ (XCAR (ev1), Qhelp_echo)
3326 && (last_help = Fcar_safe (Fcdr_safe (XCDR (ev1))), EQ (last_help, help)))
3327 recorded = 1;
3328 else if (CONSP (ev1) && EQ (XCAR (ev1), Qmouse_movement)
3329 && CONSP (ev2) && EQ (XCAR (ev2), Qhelp_echo)
3330 && (last_help = Fcar_safe (Fcdr_safe (XCDR (ev2))), EQ (last_help, help)))
3331 recorded = -1;
3332 else if (CONSP (ev1) && EQ (XCAR (ev1), Qmouse_movement)
3333 && CONSP (ev2) && EQ (XCAR (ev2), Qmouse_movement)
3334 && CONSP (ev3) && EQ (XCAR (ev3), Qhelp_echo)
3335 && (last_help = Fcar_safe (Fcdr_safe (XCDR (ev3))), EQ (last_help, help)))
3336 recorded = -2;
3338 else if (EQ (XCAR (c), Qmouse_movement))
3340 /* Only record one pair of `mouse-movement' on a window in recent_keys.
3341 So additional mouse movement events replace the last element. */
3342 Lisp_Object last_window, window;
3344 window = Fcar_safe (Fcar_safe (XCDR (c)));
3345 if (CONSP (ev1) && EQ (XCAR (ev1), Qmouse_movement)
3346 && (last_window = Fcar_safe (Fcar_safe (XCDR (ev1))), EQ (last_window, window))
3347 && CONSP (ev2) && EQ (XCAR (ev2), Qmouse_movement)
3348 && (last_window = Fcar_safe (Fcar_safe (XCDR (ev2))), EQ (last_window, window)))
3350 ASET (recent_keys, ix1, c);
3351 recorded = 1;
3355 else
3356 store_kbd_macro_char (c);
3358 if (!recorded)
3360 total_keys += total_keys < NUM_RECENT_KEYS;
3361 ASET (recent_keys, recent_keys_index, c);
3362 if (++recent_keys_index >= NUM_RECENT_KEYS)
3363 recent_keys_index = 0;
3365 else if (recorded < 0)
3367 /* We need to remove one or two events from recent_keys.
3368 To do this, we simply put nil at those events and move the
3369 recent_keys_index backwards over those events. Usually,
3370 users will never see those nil events, as they will be
3371 overwritten by the command keys entered to see recent_keys
3372 (e.g. C-h l). */
3374 while (recorded++ < 0 && total_keys > 0)
3376 if (total_keys < NUM_RECENT_KEYS)
3377 total_keys--;
3378 if (--recent_keys_index < 0)
3379 recent_keys_index = NUM_RECENT_KEYS - 1;
3380 ASET (recent_keys, recent_keys_index, Qnil);
3384 num_nonmacro_input_events++;
3386 /* Write c to the dribble file. If c is a lispy event, write
3387 the event's symbol to the dribble file, in <brackets>. Bleaugh.
3388 If you, dear reader, have a better idea, you've got the source. :-) */
3389 if (dribble)
3391 block_input ();
3392 if (INTEGERP (c))
3394 if (XUINT (c) < 0x100)
3395 putc (XUINT (c), dribble);
3396 else
3397 fprintf (dribble, " 0x%"pI"x", XUINT (c));
3399 else
3401 Lisp_Object dribblee;
3403 /* If it's a structured event, take the event header. */
3404 dribblee = EVENT_HEAD (c);
3406 if (SYMBOLP (dribblee))
3408 putc ('<', dribble);
3409 fwrite (SDATA (SYMBOL_NAME (dribblee)), sizeof (char),
3410 SBYTES (SYMBOL_NAME (dribblee)),
3411 dribble);
3412 putc ('>', dribble);
3416 fflush (dribble);
3417 unblock_input ();
3421 /* Copy out or in the info on where C-g should throw to.
3422 This is used when running Lisp code from within get_char,
3423 in case get_char is called recursively.
3424 See read_process_output. */
3426 static void
3427 save_getcjmp (sys_jmp_buf temp)
3429 memcpy (temp, getcjmp, sizeof getcjmp);
3432 static void
3433 restore_getcjmp (sys_jmp_buf temp)
3435 memcpy (getcjmp, temp, sizeof getcjmp);
3438 /* Low level keyboard/mouse input.
3439 kbd_buffer_store_event places events in kbd_buffer, and
3440 kbd_buffer_get_event retrieves them. */
3442 /* Return true if there are any events in the queue that read-char
3443 would return. If this returns false, a read-char would block. */
3444 static bool
3445 readable_events (int flags)
3447 if (flags & READABLE_EVENTS_DO_TIMERS_NOW)
3448 timer_check ();
3450 /* If the buffer contains only FOCUS_IN_EVENT events, and
3451 READABLE_EVENTS_FILTER_EVENTS is set, report it as empty. */
3452 if (kbd_fetch_ptr != kbd_store_ptr)
3454 if (flags & (READABLE_EVENTS_FILTER_EVENTS
3455 #ifdef USE_TOOLKIT_SCROLL_BARS
3456 | READABLE_EVENTS_IGNORE_SQUEEZABLES
3457 #endif
3460 union buffered_input_event *event;
3462 event = ((kbd_fetch_ptr < kbd_buffer + KBD_BUFFER_SIZE)
3463 ? kbd_fetch_ptr
3464 : kbd_buffer);
3468 if (!(
3469 #ifdef USE_TOOLKIT_SCROLL_BARS
3470 (flags & READABLE_EVENTS_FILTER_EVENTS) &&
3471 #endif
3472 event->kind == FOCUS_IN_EVENT)
3473 #ifdef USE_TOOLKIT_SCROLL_BARS
3474 && !((flags & READABLE_EVENTS_IGNORE_SQUEEZABLES)
3475 && (event->kind == SCROLL_BAR_CLICK_EVENT
3476 || event->kind == HORIZONTAL_SCROLL_BAR_CLICK_EVENT)
3477 && event->ie.part == scroll_bar_handle
3478 && event->ie.modifiers == 0)
3479 #endif
3480 && !((flags & READABLE_EVENTS_FILTER_EVENTS)
3481 && event->kind == BUFFER_SWITCH_EVENT))
3482 return 1;
3483 event++;
3484 if (event == kbd_buffer + KBD_BUFFER_SIZE)
3485 event = kbd_buffer;
3487 while (event != kbd_store_ptr);
3489 else
3490 return 1;
3493 if (!(flags & READABLE_EVENTS_IGNORE_SQUEEZABLES)
3494 && !NILP (do_mouse_tracking) && some_mouse_moved ())
3495 return 1;
3496 if (single_kboard)
3498 if (current_kboard->kbd_queue_has_data)
3499 return 1;
3501 else
3503 KBOARD *kb;
3504 for (kb = all_kboards; kb; kb = kb->next_kboard)
3505 if (kb->kbd_queue_has_data)
3506 return 1;
3508 return 0;
3511 /* Set this for debugging, to have a way to get out */
3512 int stop_character EXTERNALLY_VISIBLE;
3514 static KBOARD *
3515 event_to_kboard (struct input_event *event)
3517 /* Not applicable for these special events. */
3518 if (event->kind == SELECTION_REQUEST_EVENT
3519 || event->kind == SELECTION_CLEAR_EVENT)
3520 return NULL;
3521 else
3523 Lisp_Object obj = event->frame_or_window;
3524 /* There are some events that set this field to nil or string. */
3525 if (WINDOWP (obj))
3526 obj = WINDOW_FRAME (XWINDOW (obj));
3527 /* Also ignore dead frames here. */
3528 return ((FRAMEP (obj) && FRAME_LIVE_P (XFRAME (obj)))
3529 ? FRAME_KBOARD (XFRAME (obj)) : NULL);
3533 #ifdef subprocesses
3534 /* Return the number of slots occupied in kbd_buffer. */
3536 static int
3537 kbd_buffer_nr_stored (void)
3539 return kbd_fetch_ptr == kbd_store_ptr
3541 : (kbd_fetch_ptr < kbd_store_ptr
3542 ? kbd_store_ptr - kbd_fetch_ptr
3543 : ((kbd_buffer + KBD_BUFFER_SIZE) - kbd_fetch_ptr
3544 + (kbd_store_ptr - kbd_buffer)));
3546 #endif /* Store an event obtained at interrupt level into kbd_buffer, fifo */
3548 void
3549 kbd_buffer_store_event (register struct input_event *event)
3551 kbd_buffer_store_event_hold (event, 0);
3554 /* Store EVENT obtained at interrupt level into kbd_buffer, fifo.
3556 If HOLD_QUIT is 0, just stuff EVENT into the fifo.
3557 Else, if HOLD_QUIT.kind != NO_EVENT, discard EVENT.
3558 Else, if EVENT is a quit event, store the quit event
3559 in HOLD_QUIT, and return (thus ignoring further events).
3561 This is used to postpone the processing of the quit event until all
3562 subsequent input events have been parsed (and discarded). */
3564 void
3565 kbd_buffer_store_buffered_event (union buffered_input_event *event,
3566 struct input_event *hold_quit)
3568 if (event->kind == NO_EVENT)
3569 emacs_abort ();
3571 if (hold_quit && hold_quit->kind != NO_EVENT)
3572 return;
3574 if (event->kind == ASCII_KEYSTROKE_EVENT)
3576 int c = event->ie.code & 0377;
3578 if (event->ie.modifiers & ctrl_modifier)
3579 c = make_ctrl_char (c);
3581 c |= (event->ie.modifiers
3582 & (meta_modifier | alt_modifier
3583 | hyper_modifier | super_modifier));
3585 if (c == quit_char)
3587 KBOARD *kb = FRAME_KBOARD (XFRAME (event->ie.frame_or_window));
3589 if (single_kboard && kb != current_kboard)
3591 kset_kbd_queue
3592 (kb, list2 (make_lispy_switch_frame (event->ie.frame_or_window),
3593 make_number (c)));
3594 kb->kbd_queue_has_data = true;
3595 union buffered_input_event *sp;
3596 for (sp = kbd_fetch_ptr; sp != kbd_store_ptr; sp++)
3598 if (sp == kbd_buffer + KBD_BUFFER_SIZE)
3599 sp = kbd_buffer;
3601 if (event_to_kboard (&sp->ie) == kb)
3603 sp->ie.kind = NO_EVENT;
3604 sp->ie.frame_or_window = Qnil;
3605 sp->ie.arg = Qnil;
3608 return;
3611 if (hold_quit)
3613 *hold_quit = event->ie;
3614 return;
3617 /* If this results in a quit_char being returned to Emacs as
3618 input, set Vlast_event_frame properly. If this doesn't
3619 get returned to Emacs as an event, the next event read
3620 will set Vlast_event_frame again, so this is safe to do. */
3622 Lisp_Object focus;
3624 focus = FRAME_FOCUS_FRAME (XFRAME (event->ie.frame_or_window));
3625 if (NILP (focus))
3626 focus = event->ie.frame_or_window;
3627 internal_last_event_frame = focus;
3628 Vlast_event_frame = focus;
3631 handle_interrupt (0);
3632 return;
3635 if (c && c == stop_character)
3637 sys_suspend ();
3638 return;
3641 /* Don't insert two BUFFER_SWITCH_EVENT's in a row.
3642 Just ignore the second one. */
3643 else if (event->kind == BUFFER_SWITCH_EVENT
3644 && kbd_fetch_ptr != kbd_store_ptr
3645 && ((kbd_store_ptr == kbd_buffer
3646 ? kbd_buffer + KBD_BUFFER_SIZE - 1
3647 : kbd_store_ptr - 1)->kind) == BUFFER_SWITCH_EVENT)
3648 return;
3650 if (kbd_store_ptr - kbd_buffer == KBD_BUFFER_SIZE)
3651 kbd_store_ptr = kbd_buffer;
3653 /* Don't let the very last slot in the buffer become full,
3654 since that would make the two pointers equal,
3655 and that is indistinguishable from an empty buffer.
3656 Discard the event if it would fill the last slot. */
3657 if (kbd_fetch_ptr - 1 != kbd_store_ptr)
3659 *kbd_store_ptr = *event;
3660 ++kbd_store_ptr;
3661 #ifdef subprocesses
3662 if (kbd_buffer_nr_stored () > KBD_BUFFER_SIZE / 2
3663 && ! kbd_on_hold_p ())
3665 /* Don't read keyboard input until we have processed kbd_buffer.
3666 This happens when pasting text longer than KBD_BUFFER_SIZE/2. */
3667 hold_keyboard_input ();
3668 unrequest_sigio ();
3669 stop_polling ();
3671 #endif /* subprocesses */
3674 /* If we're inside while-no-input, and this event qualifies
3675 as input, set quit-flag to cause an interrupt. */
3676 if (!NILP (Vthrow_on_input)
3677 && event->kind != FOCUS_IN_EVENT
3678 && event->kind != FOCUS_OUT_EVENT
3679 && event->kind != HELP_EVENT
3680 && event->kind != ICONIFY_EVENT
3681 && event->kind != DEICONIFY_EVENT)
3683 Vquit_flag = Vthrow_on_input;
3684 /* If we're inside a function that wants immediate quits,
3685 do it now. */
3686 if (immediate_quit && NILP (Vinhibit_quit))
3688 immediate_quit = false;
3689 QUIT;
3695 #ifdef HAVE_X11
3697 /* Put a selection input event back in the head of the event queue. */
3699 void
3700 kbd_buffer_unget_event (struct selection_input_event *event)
3702 if (kbd_fetch_ptr == kbd_buffer)
3703 kbd_fetch_ptr = kbd_buffer + KBD_BUFFER_SIZE;
3705 /* Don't let the very last slot in the buffer become full, */
3706 union buffered_input_event *kp = kbd_fetch_ptr - 1;
3707 if (kp != kbd_store_ptr)
3709 kp->sie = *event;
3710 kbd_fetch_ptr = kp;
3714 #endif
3716 /* Limit help event positions to this range, to avoid overflow problems. */
3717 #define INPUT_EVENT_POS_MAX \
3718 ((ptrdiff_t) min (PTRDIFF_MAX, min (TYPE_MAXIMUM (Time) / 2, \
3719 MOST_POSITIVE_FIXNUM)))
3720 #define INPUT_EVENT_POS_MIN (-1 - INPUT_EVENT_POS_MAX)
3722 /* Return a Time that encodes position POS. POS must be in range. */
3724 static Time
3725 position_to_Time (ptrdiff_t pos)
3727 eassert (INPUT_EVENT_POS_MIN <= pos && pos <= INPUT_EVENT_POS_MAX);
3728 return pos;
3731 /* Return the position that ENCODED_POS encodes.
3732 Avoid signed integer overflow. */
3734 static ptrdiff_t
3735 Time_to_position (Time encoded_pos)
3737 if (encoded_pos <= INPUT_EVENT_POS_MAX)
3738 return encoded_pos;
3739 Time encoded_pos_min = INPUT_EVENT_POS_MIN;
3740 eassert (encoded_pos_min <= encoded_pos);
3741 ptrdiff_t notpos = -1 - encoded_pos;
3742 return -1 - notpos;
3745 /* Generate a HELP_EVENT input_event and store it in the keyboard
3746 buffer.
3748 HELP is the help form.
3750 FRAME and WINDOW are the frame and window where the help is
3751 generated. OBJECT is the Lisp object where the help was found (a
3752 buffer, a string, an overlay, or nil if neither from a string nor
3753 from a buffer). POS is the position within OBJECT where the help
3754 was found. */
3756 void
3757 gen_help_event (Lisp_Object help, Lisp_Object frame, Lisp_Object window,
3758 Lisp_Object object, ptrdiff_t pos)
3760 struct input_event event;
3762 event.kind = HELP_EVENT;
3763 event.frame_or_window = frame;
3764 event.arg = object;
3765 event.x = WINDOWP (window) ? window : frame;
3766 event.y = help;
3767 event.timestamp = position_to_Time (pos);
3768 kbd_buffer_store_event (&event);
3772 /* Store HELP_EVENTs for HELP on FRAME in the input queue. */
3774 void
3775 kbd_buffer_store_help_event (Lisp_Object frame, Lisp_Object help)
3777 struct input_event event;
3779 event.kind = HELP_EVENT;
3780 event.frame_or_window = frame;
3781 event.arg = Qnil;
3782 event.x = Qnil;
3783 event.y = help;
3784 event.timestamp = 0;
3785 kbd_buffer_store_event (&event);
3789 /* Discard any mouse events in the event buffer by setting them to
3790 NO_EVENT. */
3791 void
3792 discard_mouse_events (void)
3794 union buffered_input_event *sp;
3795 for (sp = kbd_fetch_ptr; sp != kbd_store_ptr; sp++)
3797 if (sp == kbd_buffer + KBD_BUFFER_SIZE)
3798 sp = kbd_buffer;
3800 if (sp->kind == MOUSE_CLICK_EVENT
3801 || sp->kind == WHEEL_EVENT
3802 || sp->kind == HORIZ_WHEEL_EVENT
3803 #ifdef HAVE_GPM
3804 || sp->kind == GPM_CLICK_EVENT
3805 #endif
3806 || sp->kind == SCROLL_BAR_CLICK_EVENT
3807 || sp->kind == HORIZONTAL_SCROLL_BAR_CLICK_EVENT)
3809 sp->kind = NO_EVENT;
3815 /* Return true if there are any real events waiting in the event
3816 buffer, not counting `NO_EVENT's.
3818 Discard NO_EVENT events at the front of the input queue, possibly
3819 leaving the input queue empty if there are no real input events. */
3821 bool
3822 kbd_buffer_events_waiting (void)
3824 union buffered_input_event *sp;
3826 for (sp = kbd_fetch_ptr;
3827 sp != kbd_store_ptr && sp->kind == NO_EVENT;
3828 ++sp)
3830 if (sp == kbd_buffer + KBD_BUFFER_SIZE)
3831 sp = kbd_buffer;
3834 kbd_fetch_ptr = sp;
3835 return sp != kbd_store_ptr && sp->kind != NO_EVENT;
3839 /* Clear input event EVENT. */
3841 static void
3842 clear_event (union buffered_input_event *event)
3844 event->kind = NO_EVENT;
3848 /* Read one event from the event buffer, waiting if necessary.
3849 The value is a Lisp object representing the event.
3850 The value is nil for an event that should be ignored,
3851 or that was handled here.
3852 We always read and discard one event. */
3854 static Lisp_Object
3855 kbd_buffer_get_event (KBOARD **kbp,
3856 bool *used_mouse_menu,
3857 struct timespec *end_time)
3859 Lisp_Object obj;
3861 #ifdef subprocesses
3862 if (kbd_on_hold_p () && kbd_buffer_nr_stored () < KBD_BUFFER_SIZE / 4)
3864 /* Start reading input again because we have processed enough to
3865 be able to accept new events again. */
3866 unhold_keyboard_input ();
3867 request_sigio ();
3868 start_polling ();
3870 #endif /* subprocesses */
3872 #if !defined HAVE_DBUS && !defined USE_FILE_NOTIFY
3873 if (noninteractive
3874 /* In case we are running as a daemon, only do this before
3875 detaching from the terminal. */
3876 || (IS_DAEMON && DAEMON_RUNNING))
3878 int c = getchar ();
3879 XSETINT (obj, c);
3880 *kbp = current_kboard;
3881 return obj;
3883 #endif /* !defined HAVE_DBUS && !defined USE_FILE_NOTIFY */
3885 /* Wait until there is input available. */
3886 for (;;)
3888 /* Break loop if there's an unread command event. Needed in
3889 moused window autoselection which uses a timer to insert such
3890 events. */
3891 if (CONSP (Vunread_command_events))
3892 break;
3894 if (kbd_fetch_ptr != kbd_store_ptr)
3895 break;
3896 if (!NILP (do_mouse_tracking) && some_mouse_moved ())
3897 break;
3899 /* If the quit flag is set, then read_char will return
3900 quit_char, so that counts as "available input." */
3901 if (!NILP (Vquit_flag))
3902 quit_throw_to_read_char (0);
3904 /* One way or another, wait until input is available; then, if
3905 interrupt handlers have not read it, read it now. */
3907 #ifdef USABLE_SIGIO
3908 gobble_input ();
3909 #endif
3910 if (kbd_fetch_ptr != kbd_store_ptr)
3911 break;
3912 if (!NILP (do_mouse_tracking) && some_mouse_moved ())
3913 break;
3914 if (end_time)
3916 struct timespec now = current_timespec ();
3917 if (timespec_cmp (*end_time, now) <= 0)
3918 return Qnil; /* Finished waiting. */
3919 else
3921 struct timespec duration = timespec_sub (*end_time, now);
3922 wait_reading_process_output (min (duration.tv_sec,
3923 WAIT_READING_MAX),
3924 duration.tv_nsec,
3925 -1, 1, Qnil, NULL, 0);
3928 else
3930 bool do_display = true;
3932 if (FRAME_TERMCAP_P (SELECTED_FRAME ()))
3934 struct tty_display_info *tty = CURTTY ();
3936 /* When this TTY is displaying a menu, we must prevent
3937 any redisplay, because we modify the frame's glyph
3938 matrix behind the back of the display engine. */
3939 if (tty->showing_menu)
3940 do_display = false;
3943 wait_reading_process_output (0, 0, -1, do_display, Qnil, NULL, 0);
3946 if (!interrupt_input && kbd_fetch_ptr == kbd_store_ptr)
3947 gobble_input ();
3950 if (CONSP (Vunread_command_events))
3952 Lisp_Object first;
3953 first = XCAR (Vunread_command_events);
3954 Vunread_command_events = XCDR (Vunread_command_events);
3955 *kbp = current_kboard;
3956 return first;
3959 /* At this point, we know that there is a readable event available
3960 somewhere. If the event queue is empty, then there must be a
3961 mouse movement enabled and available. */
3962 if (kbd_fetch_ptr != kbd_store_ptr)
3964 union buffered_input_event *event;
3966 event = ((kbd_fetch_ptr < kbd_buffer + KBD_BUFFER_SIZE)
3967 ? kbd_fetch_ptr
3968 : kbd_buffer);
3970 *kbp = event_to_kboard (&event->ie);
3971 if (*kbp == 0)
3972 *kbp = current_kboard; /* Better than returning null ptr? */
3974 obj = Qnil;
3976 /* These two kinds of events get special handling
3977 and don't actually appear to the command loop.
3978 We return nil for them. */
3979 if (event->kind == SELECTION_REQUEST_EVENT
3980 || event->kind == SELECTION_CLEAR_EVENT)
3982 #ifdef HAVE_X11
3983 /* Remove it from the buffer before processing it,
3984 since otherwise swallow_events will see it
3985 and process it again. */
3986 struct selection_input_event copy = event->sie;
3987 kbd_fetch_ptr = event + 1;
3988 input_pending = readable_events (0);
3989 x_handle_selection_event (&copy);
3990 #else
3991 /* We're getting selection request events, but we don't have
3992 a window system. */
3993 emacs_abort ();
3994 #endif
3997 #if defined (HAVE_NS)
3998 else if (event->kind == NS_TEXT_EVENT)
4000 if (event->ie.code == KEY_NS_PUT_WORKING_TEXT)
4001 obj = list1 (intern ("ns-put-working-text"));
4002 else
4003 obj = list1 (intern ("ns-unput-working-text"));
4004 kbd_fetch_ptr = event + 1;
4005 if (used_mouse_menu)
4006 *used_mouse_menu = true;
4008 #endif
4010 #if defined (HAVE_X11) || defined (HAVE_NTGUI) \
4011 || defined (HAVE_NS)
4012 else if (event->kind == DELETE_WINDOW_EVENT)
4014 /* Make an event (delete-frame (FRAME)). */
4015 obj = list2 (Qdelete_frame, list1 (event->ie.frame_or_window));
4016 kbd_fetch_ptr = event + 1;
4018 #endif
4019 #if defined (HAVE_X11) || defined (HAVE_NTGUI) \
4020 || defined (HAVE_NS)
4021 else if (event->kind == ICONIFY_EVENT)
4023 /* Make an event (iconify-frame (FRAME)). */
4024 obj = list2 (Qiconify_frame, list1 (event->ie.frame_or_window));
4025 kbd_fetch_ptr = event + 1;
4027 else if (event->kind == DEICONIFY_EVENT)
4029 /* Make an event (make-frame-visible (FRAME)). */
4030 obj = list2 (Qmake_frame_visible, list1 (event->ie.frame_or_window));
4031 kbd_fetch_ptr = event + 1;
4033 #endif
4034 else if (event->kind == BUFFER_SWITCH_EVENT)
4036 /* The value doesn't matter here; only the type is tested. */
4037 XSETBUFFER (obj, current_buffer);
4038 kbd_fetch_ptr = event + 1;
4040 #if defined (USE_X_TOOLKIT) || defined (HAVE_NTGUI) \
4041 || defined (HAVE_NS) || defined (USE_GTK)
4042 else if (event->kind == MENU_BAR_ACTIVATE_EVENT)
4044 kbd_fetch_ptr = event + 1;
4045 input_pending = readable_events (0);
4046 if (FRAME_LIVE_P (XFRAME (event->ie.frame_or_window)))
4047 x_activate_menubar (XFRAME (event->ie.frame_or_window));
4049 #endif
4050 #ifdef HAVE_NTGUI
4051 else if (event->kind == LANGUAGE_CHANGE_EVENT)
4053 /* Make an event (language-change FRAME CODEPAGE LANGUAGE-ID). */
4054 obj = list4 (Qlanguage_change,
4055 event->ie.frame_or_window,
4056 make_number (event->ie.code),
4057 make_number (event->ie.modifiers));
4058 kbd_fetch_ptr = event + 1;
4060 #endif
4061 #ifdef USE_FILE_NOTIFY
4062 else if (event->kind == FILE_NOTIFY_EVENT)
4064 #ifdef HAVE_W32NOTIFY
4065 /* Make an event (file-notify (DESCRIPTOR ACTION FILE) CALLBACK). */
4066 obj = list3 (Qfile_notify, event->ie.arg, event->ie.frame_or_window);
4067 #else
4068 obj = make_lispy_event (&event->ie);
4069 #endif
4070 kbd_fetch_ptr = event + 1;
4072 #endif /* USE_FILE_NOTIFY */
4073 else if (event->kind == SAVE_SESSION_EVENT)
4075 obj = list2 (Qsave_session, event->ie.arg);
4076 kbd_fetch_ptr = event + 1;
4078 /* Just discard these, by returning nil.
4079 With MULTI_KBOARD, these events are used as placeholders
4080 when we need to randomly delete events from the queue.
4081 (They shouldn't otherwise be found in the buffer,
4082 but on some machines it appears they do show up
4083 even without MULTI_KBOARD.) */
4084 /* On Windows NT/9X, NO_EVENT is used to delete extraneous
4085 mouse events during a popup-menu call. */
4086 else if (event->kind == NO_EVENT)
4087 kbd_fetch_ptr = event + 1;
4088 else if (event->kind == HELP_EVENT)
4090 Lisp_Object object, position, help, frame, window;
4092 frame = event->ie.frame_or_window;
4093 object = event->ie.arg;
4094 position = make_number (Time_to_position (event->ie.timestamp));
4095 window = event->ie.x;
4096 help = event->ie.y;
4097 clear_event (event);
4099 kbd_fetch_ptr = event + 1;
4100 if (!WINDOWP (window))
4101 window = Qnil;
4102 obj = Fcons (Qhelp_echo,
4103 list5 (frame, help, window, object, position));
4105 else if (event->kind == FOCUS_IN_EVENT)
4107 /* Notification of a FocusIn event. The frame receiving the
4108 focus is in event->frame_or_window. Generate a
4109 switch-frame event if necessary. */
4110 Lisp_Object frame, focus;
4112 frame = event->ie.frame_or_window;
4113 focus = FRAME_FOCUS_FRAME (XFRAME (frame));
4114 if (FRAMEP (focus))
4115 frame = focus;
4117 if (
4118 #ifdef HAVE_X11
4119 ! NILP (event->ie.arg)
4121 #endif
4122 !EQ (frame, internal_last_event_frame)
4123 && !EQ (frame, selected_frame))
4124 obj = make_lispy_switch_frame (frame);
4125 else
4126 obj = make_lispy_focus_in (frame);
4128 internal_last_event_frame = frame;
4129 kbd_fetch_ptr = event + 1;
4131 else if (event->kind == FOCUS_OUT_EVENT)
4133 #ifdef HAVE_WINDOW_SYSTEM
4135 Display_Info *di;
4136 Lisp_Object frame = event->ie.frame_or_window;
4137 bool focused = false;
4139 for (di = x_display_list; di && ! focused; di = di->next)
4140 focused = di->x_highlight_frame != 0;
4142 if (!focused)
4143 obj = make_lispy_focus_out (frame);
4145 #endif /* HAVE_WINDOW_SYSTEM */
4147 kbd_fetch_ptr = event + 1;
4149 #ifdef HAVE_DBUS
4150 else if (event->kind == DBUS_EVENT)
4152 obj = make_lispy_event (&event->ie);
4153 kbd_fetch_ptr = event + 1;
4155 #endif
4156 else if (event->kind == CONFIG_CHANGED_EVENT)
4158 obj = make_lispy_event (&event->ie);
4159 kbd_fetch_ptr = event + 1;
4161 else
4163 /* If this event is on a different frame, return a switch-frame this
4164 time, and leave the event in the queue for next time. */
4165 Lisp_Object frame;
4166 Lisp_Object focus;
4168 frame = event->ie.frame_or_window;
4169 if (CONSP (frame))
4170 frame = XCAR (frame);
4171 else if (WINDOWP (frame))
4172 frame = WINDOW_FRAME (XWINDOW (frame));
4174 focus = FRAME_FOCUS_FRAME (XFRAME (frame));
4175 if (! NILP (focus))
4176 frame = focus;
4178 if (! EQ (frame, internal_last_event_frame)
4179 && !EQ (frame, selected_frame))
4180 obj = make_lispy_switch_frame (frame);
4181 internal_last_event_frame = frame;
4183 /* If we didn't decide to make a switch-frame event, go ahead
4184 and build a real event from the queue entry. */
4186 if (NILP (obj))
4188 obj = make_lispy_event (&event->ie);
4190 #if defined (USE_X_TOOLKIT) || defined (HAVE_NTGUI) \
4191 || defined (HAVE_NS) || defined (USE_GTK)
4192 /* If this was a menu selection, then set the flag to inhibit
4193 writing to last_nonmenu_event. Don't do this if the event
4194 we're returning is (menu-bar), though; that indicates the
4195 beginning of the menu sequence, and we might as well leave
4196 that as the `event with parameters' for this selection. */
4197 if (used_mouse_menu
4198 && !EQ (event->ie.frame_or_window, event->ie.arg)
4199 && (event->kind == MENU_BAR_EVENT
4200 || event->kind == TOOL_BAR_EVENT))
4201 *used_mouse_menu = true;
4202 #endif
4203 #ifdef HAVE_NS
4204 /* Certain system events are non-key events. */
4205 if (used_mouse_menu
4206 && event->kind == NS_NONKEY_EVENT)
4207 *used_mouse_menu = true;
4208 #endif
4210 /* Wipe out this event, to catch bugs. */
4211 clear_event (event);
4212 kbd_fetch_ptr = event + 1;
4216 /* Try generating a mouse motion event. */
4217 else if (!NILP (do_mouse_tracking) && some_mouse_moved ())
4219 struct frame *f = some_mouse_moved ();
4220 Lisp_Object bar_window;
4221 enum scroll_bar_part part;
4222 Lisp_Object x, y;
4223 Time t;
4225 *kbp = current_kboard;
4226 /* Note that this uses F to determine which terminal to look at.
4227 If there is no valid info, it does not store anything
4228 so x remains nil. */
4229 x = Qnil;
4231 /* XXX Can f or mouse_position_hook be NULL here? */
4232 if (f && FRAME_TERMINAL (f)->mouse_position_hook)
4233 (*FRAME_TERMINAL (f)->mouse_position_hook) (&f, 0, &bar_window,
4234 &part, &x, &y, &t);
4236 obj = Qnil;
4238 /* Decide if we should generate a switch-frame event. Don't
4239 generate switch-frame events for motion outside of all Emacs
4240 frames. */
4241 if (!NILP (x) && f)
4243 Lisp_Object frame;
4245 frame = FRAME_FOCUS_FRAME (f);
4246 if (NILP (frame))
4247 XSETFRAME (frame, f);
4249 if (! EQ (frame, internal_last_event_frame)
4250 && !EQ (frame, selected_frame))
4251 obj = make_lispy_switch_frame (frame);
4252 internal_last_event_frame = frame;
4255 /* If we didn't decide to make a switch-frame event, go ahead and
4256 return a mouse-motion event. */
4257 if (!NILP (x) && NILP (obj))
4258 obj = make_lispy_movement (f, bar_window, part, x, y, t);
4260 else
4261 /* We were promised by the above while loop that there was
4262 something for us to read! */
4263 emacs_abort ();
4265 input_pending = readable_events (0);
4267 Vlast_event_frame = internal_last_event_frame;
4269 return (obj);
4272 /* Process any non-user-visible events (currently X selection events),
4273 without reading any user-visible events. */
4275 static void
4276 process_special_events (void)
4278 union buffered_input_event *event;
4280 for (event = kbd_fetch_ptr; event != kbd_store_ptr; ++event)
4282 if (event == kbd_buffer + KBD_BUFFER_SIZE)
4284 event = kbd_buffer;
4285 if (event == kbd_store_ptr)
4286 break;
4289 /* If we find a stored X selection request, handle it now. */
4290 if (event->kind == SELECTION_REQUEST_EVENT
4291 || event->kind == SELECTION_CLEAR_EVENT)
4293 #ifdef HAVE_X11
4295 /* Remove the event from the fifo buffer before processing;
4296 otherwise swallow_events called recursively could see it
4297 and process it again. To do this, we move the events
4298 between kbd_fetch_ptr and EVENT one slot to the right,
4299 cyclically. */
4301 struct selection_input_event copy = event->sie;
4302 union buffered_input_event *beg
4303 = (kbd_fetch_ptr == kbd_buffer + KBD_BUFFER_SIZE)
4304 ? kbd_buffer : kbd_fetch_ptr;
4306 if (event > beg)
4307 memmove (beg + 1, beg, (event - beg) * sizeof *beg);
4308 else if (event < beg)
4310 if (event > kbd_buffer)
4311 memmove (kbd_buffer + 1, kbd_buffer,
4312 (event - kbd_buffer) * sizeof *kbd_buffer);
4313 *kbd_buffer = *(kbd_buffer + KBD_BUFFER_SIZE - 1);
4314 if (beg < kbd_buffer + KBD_BUFFER_SIZE - 1)
4315 memmove (beg + 1, beg,
4316 (kbd_buffer + KBD_BUFFER_SIZE - 1 - beg) * sizeof *beg);
4319 if (kbd_fetch_ptr == kbd_buffer + KBD_BUFFER_SIZE)
4320 kbd_fetch_ptr = kbd_buffer + 1;
4321 else
4322 kbd_fetch_ptr++;
4324 input_pending = readable_events (0);
4325 x_handle_selection_event (&copy);
4326 #else
4327 /* We're getting selection request events, but we don't have
4328 a window system. */
4329 emacs_abort ();
4330 #endif
4335 /* Process any events that are not user-visible, run timer events that
4336 are ripe, and return, without reading any user-visible events. */
4338 void
4339 swallow_events (bool do_display)
4341 unsigned old_timers_run;
4343 process_special_events ();
4345 old_timers_run = timers_run;
4346 get_input_pending (READABLE_EVENTS_DO_TIMERS_NOW);
4348 if (!input_pending && timers_run != old_timers_run && do_display)
4349 redisplay_preserve_echo_area (7);
4352 /* Record the start of when Emacs is idle,
4353 for the sake of running idle-time timers. */
4355 static void
4356 timer_start_idle (void)
4358 /* If we are already in the idle state, do nothing. */
4359 if (timespec_valid_p (timer_idleness_start_time))
4360 return;
4362 timer_idleness_start_time = current_timespec ();
4363 timer_last_idleness_start_time = timer_idleness_start_time;
4365 /* Mark all idle-time timers as once again candidates for running. */
4366 call0 (intern ("internal-timer-start-idle"));
4369 /* Record that Emacs is no longer idle, so stop running idle-time timers. */
4371 static void
4372 timer_stop_idle (void)
4374 timer_idleness_start_time = invalid_timespec ();
4377 /* Resume idle timer from last idle start time. */
4379 static void
4380 timer_resume_idle (void)
4382 if (timespec_valid_p (timer_idleness_start_time))
4383 return;
4385 timer_idleness_start_time = timer_last_idleness_start_time;
4388 /* List of elisp functions to call, delayed because they were generated in
4389 a context where Elisp could not be safely run (e.g. redisplay, signal,
4390 ...). Each element has the form (FUN . ARGS). */
4391 Lisp_Object pending_funcalls;
4393 /* Return true if TIMER is a valid timer, placing its value into *RESULT. */
4394 static bool
4395 decode_timer (Lisp_Object timer, struct timespec *result)
4397 Lisp_Object *vec;
4399 if (! (VECTORP (timer) && ASIZE (timer) == 9))
4400 return 0;
4401 vec = XVECTOR (timer)->contents;
4402 if (! NILP (vec[0]))
4403 return 0;
4404 if (! INTEGERP (vec[2]))
4405 return false;
4407 struct lisp_time t;
4408 if (decode_time_components (vec[1], vec[2], vec[3], vec[8], &t, 0) <= 0)
4409 return false;
4410 *result = lisp_to_timespec (t);
4411 return timespec_valid_p (*result);
4415 /* Check whether a timer has fired. To prevent larger problems we simply
4416 disregard elements that are not proper timers. Do not make a circular
4417 timer list for the time being.
4419 Returns the time to wait until the next timer fires. If a
4420 timer is triggering now, return zero.
4421 If no timer is active, return -1.
4423 If a timer is ripe, we run it, with quitting turned off.
4424 In that case we return 0 to indicate that a new timer_check_2 call
4425 should be done. */
4427 static struct timespec
4428 timer_check_2 (Lisp_Object timers, Lisp_Object idle_timers)
4430 struct timespec nexttime;
4431 struct timespec now;
4432 struct timespec idleness_now;
4433 Lisp_Object chosen_timer;
4434 struct gcpro gcpro1;
4436 nexttime = invalid_timespec ();
4438 chosen_timer = Qnil;
4439 GCPRO1 (chosen_timer);
4441 /* First run the code that was delayed. */
4442 while (CONSP (pending_funcalls))
4444 Lisp_Object funcall = XCAR (pending_funcalls);
4445 pending_funcalls = XCDR (pending_funcalls);
4446 safe_call2 (Qapply, XCAR (funcall), XCDR (funcall));
4449 if (CONSP (timers) || CONSP (idle_timers))
4451 now = current_timespec ();
4452 idleness_now = (timespec_valid_p (timer_idleness_start_time)
4453 ? timespec_sub (now, timer_idleness_start_time)
4454 : make_timespec (0, 0));
4457 while (CONSP (timers) || CONSP (idle_timers))
4459 Lisp_Object timer = Qnil, idle_timer = Qnil;
4460 struct timespec timer_time, idle_timer_time;
4461 struct timespec difference;
4462 struct timespec timer_difference = invalid_timespec ();
4463 struct timespec idle_timer_difference = invalid_timespec ();
4464 bool ripe, timer_ripe = 0, idle_timer_ripe = 0;
4466 /* Set TIMER and TIMER_DIFFERENCE
4467 based on the next ordinary timer.
4468 TIMER_DIFFERENCE is the distance in time from NOW to when
4469 this timer becomes ripe.
4470 Skip past invalid timers and timers already handled. */
4471 if (CONSP (timers))
4473 timer = XCAR (timers);
4474 if (! decode_timer (timer, &timer_time))
4476 timers = XCDR (timers);
4477 continue;
4480 timer_ripe = timespec_cmp (timer_time, now) <= 0;
4481 timer_difference = (timer_ripe
4482 ? timespec_sub (now, timer_time)
4483 : timespec_sub (timer_time, now));
4486 /* Likewise for IDLE_TIMER and IDLE_TIMER_DIFFERENCE
4487 based on the next idle timer. */
4488 if (CONSP (idle_timers))
4490 idle_timer = XCAR (idle_timers);
4491 if (! decode_timer (idle_timer, &idle_timer_time))
4493 idle_timers = XCDR (idle_timers);
4494 continue;
4497 idle_timer_ripe = timespec_cmp (idle_timer_time, idleness_now) <= 0;
4498 idle_timer_difference
4499 = (idle_timer_ripe
4500 ? timespec_sub (idleness_now, idle_timer_time)
4501 : timespec_sub (idle_timer_time, idleness_now));
4504 /* Decide which timer is the next timer,
4505 and set CHOSEN_TIMER, DIFFERENCE, and RIPE accordingly.
4506 Also step down the list where we found that timer. */
4508 if (timespec_valid_p (timer_difference)
4509 && (! timespec_valid_p (idle_timer_difference)
4510 || idle_timer_ripe < timer_ripe
4511 || (idle_timer_ripe == timer_ripe
4512 && ((timer_ripe
4513 ? timespec_cmp (idle_timer_difference,
4514 timer_difference)
4515 : timespec_cmp (timer_difference,
4516 idle_timer_difference))
4517 < 0))))
4519 chosen_timer = timer;
4520 timers = XCDR (timers);
4521 difference = timer_difference;
4522 ripe = timer_ripe;
4524 else
4526 chosen_timer = idle_timer;
4527 idle_timers = XCDR (idle_timers);
4528 difference = idle_timer_difference;
4529 ripe = idle_timer_ripe;
4532 /* If timer is ripe, run it if it hasn't been run. */
4533 if (ripe)
4535 if (NILP (AREF (chosen_timer, 0)))
4537 ptrdiff_t count = SPECPDL_INDEX ();
4538 Lisp_Object old_deactivate_mark = Vdeactivate_mark;
4540 /* Mark the timer as triggered to prevent problems if the lisp
4541 code fails to reschedule it right. */
4542 ASET (chosen_timer, 0, Qt);
4544 specbind (Qinhibit_quit, Qt);
4546 call1 (Qtimer_event_handler, chosen_timer);
4547 Vdeactivate_mark = old_deactivate_mark;
4548 timers_run++;
4549 unbind_to (count, Qnil);
4551 /* Since we have handled the event,
4552 we don't need to tell the caller to wake up and do it. */
4553 /* But the caller must still wait for the next timer, so
4554 return 0 to indicate that. */
4557 nexttime = make_timespec (0, 0);
4558 break;
4560 else
4561 /* When we encounter a timer that is still waiting,
4562 return the amount of time to wait before it is ripe. */
4564 UNGCPRO;
4565 return difference;
4569 /* No timers are pending in the future. */
4570 /* Return 0 if we generated an event, and -1 if not. */
4571 UNGCPRO;
4572 return nexttime;
4576 /* Check whether a timer has fired. To prevent larger problems we simply
4577 disregard elements that are not proper timers. Do not make a circular
4578 timer list for the time being.
4580 Returns the time to wait until the next timer fires.
4581 If no timer is active, return an invalid value.
4583 As long as any timer is ripe, we run it. */
4585 struct timespec
4586 timer_check (void)
4588 struct timespec nexttime;
4589 Lisp_Object timers, idle_timers;
4590 struct gcpro gcpro1, gcpro2;
4592 Lisp_Object tem = Vinhibit_quit;
4593 Vinhibit_quit = Qt;
4595 /* We use copies of the timers' lists to allow a timer to add itself
4596 again, without locking up Emacs if the newly added timer is
4597 already ripe when added. */
4599 /* Always consider the ordinary timers. */
4600 timers = Fcopy_sequence (Vtimer_list);
4601 /* Consider the idle timers only if Emacs is idle. */
4602 if (timespec_valid_p (timer_idleness_start_time))
4603 idle_timers = Fcopy_sequence (Vtimer_idle_list);
4604 else
4605 idle_timers = Qnil;
4607 Vinhibit_quit = tem;
4609 GCPRO2 (timers, idle_timers);
4613 nexttime = timer_check_2 (timers, idle_timers);
4615 while (nexttime.tv_sec == 0 && nexttime.tv_nsec == 0);
4617 UNGCPRO;
4618 return nexttime;
4621 DEFUN ("current-idle-time", Fcurrent_idle_time, Scurrent_idle_time, 0, 0, 0,
4622 doc: /* Return the current length of Emacs idleness, or nil.
4623 The value when Emacs is idle is a list of four integers (HIGH LOW USEC PSEC)
4624 in the same style as (current-time).
4626 The value when Emacs is not idle is nil.
4628 PSEC is a multiple of the system clock resolution. */)
4629 (void)
4631 if (timespec_valid_p (timer_idleness_start_time))
4632 return make_lisp_time (timespec_sub (current_timespec (),
4633 timer_idleness_start_time));
4635 return Qnil;
4638 /* Caches for modify_event_symbol. */
4639 static Lisp_Object accent_key_syms;
4640 static Lisp_Object func_key_syms;
4641 static Lisp_Object mouse_syms;
4642 static Lisp_Object wheel_syms;
4643 static Lisp_Object drag_n_drop_syms;
4645 /* This is a list of keysym codes for special "accent" characters.
4646 It parallels lispy_accent_keys. */
4648 static const int lispy_accent_codes[] =
4650 #ifdef XK_dead_circumflex
4651 XK_dead_circumflex,
4652 #else
4654 #endif
4655 #ifdef XK_dead_grave
4656 XK_dead_grave,
4657 #else
4659 #endif
4660 #ifdef XK_dead_tilde
4661 XK_dead_tilde,
4662 #else
4664 #endif
4665 #ifdef XK_dead_diaeresis
4666 XK_dead_diaeresis,
4667 #else
4669 #endif
4670 #ifdef XK_dead_macron
4671 XK_dead_macron,
4672 #else
4674 #endif
4675 #ifdef XK_dead_degree
4676 XK_dead_degree,
4677 #else
4679 #endif
4680 #ifdef XK_dead_acute
4681 XK_dead_acute,
4682 #else
4684 #endif
4685 #ifdef XK_dead_cedilla
4686 XK_dead_cedilla,
4687 #else
4689 #endif
4690 #ifdef XK_dead_breve
4691 XK_dead_breve,
4692 #else
4694 #endif
4695 #ifdef XK_dead_ogonek
4696 XK_dead_ogonek,
4697 #else
4699 #endif
4700 #ifdef XK_dead_caron
4701 XK_dead_caron,
4702 #else
4704 #endif
4705 #ifdef XK_dead_doubleacute
4706 XK_dead_doubleacute,
4707 #else
4709 #endif
4710 #ifdef XK_dead_abovedot
4711 XK_dead_abovedot,
4712 #else
4714 #endif
4715 #ifdef XK_dead_abovering
4716 XK_dead_abovering,
4717 #else
4719 #endif
4720 #ifdef XK_dead_iota
4721 XK_dead_iota,
4722 #else
4724 #endif
4725 #ifdef XK_dead_belowdot
4726 XK_dead_belowdot,
4727 #else
4729 #endif
4730 #ifdef XK_dead_voiced_sound
4731 XK_dead_voiced_sound,
4732 #else
4734 #endif
4735 #ifdef XK_dead_semivoiced_sound
4736 XK_dead_semivoiced_sound,
4737 #else
4739 #endif
4740 #ifdef XK_dead_hook
4741 XK_dead_hook,
4742 #else
4744 #endif
4745 #ifdef XK_dead_horn
4746 XK_dead_horn,
4747 #else
4749 #endif
4752 /* This is a list of Lisp names for special "accent" characters.
4753 It parallels lispy_accent_codes. */
4755 static const char *const lispy_accent_keys[] =
4757 "dead-circumflex",
4758 "dead-grave",
4759 "dead-tilde",
4760 "dead-diaeresis",
4761 "dead-macron",
4762 "dead-degree",
4763 "dead-acute",
4764 "dead-cedilla",
4765 "dead-breve",
4766 "dead-ogonek",
4767 "dead-caron",
4768 "dead-doubleacute",
4769 "dead-abovedot",
4770 "dead-abovering",
4771 "dead-iota",
4772 "dead-belowdot",
4773 "dead-voiced-sound",
4774 "dead-semivoiced-sound",
4775 "dead-hook",
4776 "dead-horn",
4779 #ifdef HAVE_NTGUI
4780 #define FUNCTION_KEY_OFFSET 0x0
4782 const char *const lispy_function_keys[] =
4784 0, /* 0 */
4786 0, /* VK_LBUTTON 0x01 */
4787 0, /* VK_RBUTTON 0x02 */
4788 "cancel", /* VK_CANCEL 0x03 */
4789 0, /* VK_MBUTTON 0x04 */
4791 0, 0, 0, /* 0x05 .. 0x07 */
4793 "backspace", /* VK_BACK 0x08 */
4794 "tab", /* VK_TAB 0x09 */
4796 0, 0, /* 0x0A .. 0x0B */
4798 "clear", /* VK_CLEAR 0x0C */
4799 "return", /* VK_RETURN 0x0D */
4801 0, 0, /* 0x0E .. 0x0F */
4803 0, /* VK_SHIFT 0x10 */
4804 0, /* VK_CONTROL 0x11 */
4805 0, /* VK_MENU 0x12 */
4806 "pause", /* VK_PAUSE 0x13 */
4807 "capslock", /* VK_CAPITAL 0x14 */
4808 "kana", /* VK_KANA/VK_HANGUL 0x15 */
4809 0, /* 0x16 */
4810 "junja", /* VK_JUNJA 0x17 */
4811 "final", /* VK_FINAL 0x18 */
4812 "kanji", /* VK_KANJI/VK_HANJA 0x19 */
4813 0, /* 0x1A */
4814 "escape", /* VK_ESCAPE 0x1B */
4815 "convert", /* VK_CONVERT 0x1C */
4816 "non-convert", /* VK_NONCONVERT 0x1D */
4817 "accept", /* VK_ACCEPT 0x1E */
4818 "mode-change", /* VK_MODECHANGE 0x1F */
4819 0, /* VK_SPACE 0x20 */
4820 "prior", /* VK_PRIOR 0x21 */
4821 "next", /* VK_NEXT 0x22 */
4822 "end", /* VK_END 0x23 */
4823 "home", /* VK_HOME 0x24 */
4824 "left", /* VK_LEFT 0x25 */
4825 "up", /* VK_UP 0x26 */
4826 "right", /* VK_RIGHT 0x27 */
4827 "down", /* VK_DOWN 0x28 */
4828 "select", /* VK_SELECT 0x29 */
4829 "print", /* VK_PRINT 0x2A */
4830 "execute", /* VK_EXECUTE 0x2B */
4831 "snapshot", /* VK_SNAPSHOT 0x2C */
4832 "insert", /* VK_INSERT 0x2D */
4833 "delete", /* VK_DELETE 0x2E */
4834 "help", /* VK_HELP 0x2F */
4836 /* VK_0 thru VK_9 are the same as ASCII '0' thru '9' (0x30 - 0x39) */
4838 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
4840 0, 0, 0, 0, 0, 0, 0, /* 0x3A .. 0x40 */
4842 /* VK_A thru VK_Z are the same as ASCII 'A' thru 'Z' (0x41 - 0x5A) */
4844 0, 0, 0, 0, 0, 0, 0, 0, 0,
4845 0, 0, 0, 0, 0, 0, 0, 0, 0,
4846 0, 0, 0, 0, 0, 0, 0, 0,
4848 "lwindow", /* VK_LWIN 0x5B */
4849 "rwindow", /* VK_RWIN 0x5C */
4850 "apps", /* VK_APPS 0x5D */
4851 0, /* 0x5E */
4852 "sleep",
4853 "kp-0", /* VK_NUMPAD0 0x60 */
4854 "kp-1", /* VK_NUMPAD1 0x61 */
4855 "kp-2", /* VK_NUMPAD2 0x62 */
4856 "kp-3", /* VK_NUMPAD3 0x63 */
4857 "kp-4", /* VK_NUMPAD4 0x64 */
4858 "kp-5", /* VK_NUMPAD5 0x65 */
4859 "kp-6", /* VK_NUMPAD6 0x66 */
4860 "kp-7", /* VK_NUMPAD7 0x67 */
4861 "kp-8", /* VK_NUMPAD8 0x68 */
4862 "kp-9", /* VK_NUMPAD9 0x69 */
4863 "kp-multiply", /* VK_MULTIPLY 0x6A */
4864 "kp-add", /* VK_ADD 0x6B */
4865 "kp-separator", /* VK_SEPARATOR 0x6C */
4866 "kp-subtract", /* VK_SUBTRACT 0x6D */
4867 "kp-decimal", /* VK_DECIMAL 0x6E */
4868 "kp-divide", /* VK_DIVIDE 0x6F */
4869 "f1", /* VK_F1 0x70 */
4870 "f2", /* VK_F2 0x71 */
4871 "f3", /* VK_F3 0x72 */
4872 "f4", /* VK_F4 0x73 */
4873 "f5", /* VK_F5 0x74 */
4874 "f6", /* VK_F6 0x75 */
4875 "f7", /* VK_F7 0x76 */
4876 "f8", /* VK_F8 0x77 */
4877 "f9", /* VK_F9 0x78 */
4878 "f10", /* VK_F10 0x79 */
4879 "f11", /* VK_F11 0x7A */
4880 "f12", /* VK_F12 0x7B */
4881 "f13", /* VK_F13 0x7C */
4882 "f14", /* VK_F14 0x7D */
4883 "f15", /* VK_F15 0x7E */
4884 "f16", /* VK_F16 0x7F */
4885 "f17", /* VK_F17 0x80 */
4886 "f18", /* VK_F18 0x81 */
4887 "f19", /* VK_F19 0x82 */
4888 "f20", /* VK_F20 0x83 */
4889 "f21", /* VK_F21 0x84 */
4890 "f22", /* VK_F22 0x85 */
4891 "f23", /* VK_F23 0x86 */
4892 "f24", /* VK_F24 0x87 */
4894 0, 0, 0, 0, /* 0x88 .. 0x8B */
4895 0, 0, 0, 0, /* 0x8C .. 0x8F */
4897 "kp-numlock", /* VK_NUMLOCK 0x90 */
4898 "scroll", /* VK_SCROLL 0x91 */
4899 /* Not sure where the following block comes from.
4900 Windows headers have NEC and Fujitsu specific keys in
4901 this block, but nothing generic. */
4902 "kp-space", /* VK_NUMPAD_CLEAR 0x92 */
4903 "kp-enter", /* VK_NUMPAD_ENTER 0x93 */
4904 "kp-prior", /* VK_NUMPAD_PRIOR 0x94 */
4905 "kp-next", /* VK_NUMPAD_NEXT 0x95 */
4906 "kp-end", /* VK_NUMPAD_END 0x96 */
4907 "kp-home", /* VK_NUMPAD_HOME 0x97 */
4908 "kp-left", /* VK_NUMPAD_LEFT 0x98 */
4909 "kp-up", /* VK_NUMPAD_UP 0x99 */
4910 "kp-right", /* VK_NUMPAD_RIGHT 0x9A */
4911 "kp-down", /* VK_NUMPAD_DOWN 0x9B */
4912 "kp-insert", /* VK_NUMPAD_INSERT 0x9C */
4913 "kp-delete", /* VK_NUMPAD_DELETE 0x9D */
4915 0, 0, /* 0x9E .. 0x9F */
4918 * VK_L* & VK_R* - left and right Alt, Ctrl and Shift virtual keys.
4919 * Used only as parameters to GetAsyncKeyState and GetKeyState.
4920 * No other API or message will distinguish left and right keys this way.
4921 * 0xA0 .. 0xA5
4923 0, 0, 0, 0, 0, 0,
4925 /* Multimedia keys. These are handled as WM_APPCOMMAND, which allows us
4926 to enable them selectively, and gives access to a few more functions.
4927 See lispy_multimedia_keys below. */
4928 0, 0, 0, 0, 0, 0, 0, /* 0xA6 .. 0xAC Browser */
4929 0, 0, 0, /* 0xAD .. 0xAF Volume */
4930 0, 0, 0, 0, /* 0xB0 .. 0xB3 Media */
4931 0, 0, 0, 0, /* 0xB4 .. 0xB7 Apps */
4933 /* 0xB8 .. 0xC0 "OEM" keys - all seem to be punctuation. */
4934 0, 0, 0, 0, 0, 0, 0, 0, 0,
4936 /* 0xC1 - 0xDA unallocated, 0xDB-0xDF more OEM keys */
4937 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
4938 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
4940 0, /* 0xE0 */
4941 "ax", /* VK_OEM_AX 0xE1 */
4942 0, /* VK_OEM_102 0xE2 */
4943 "ico-help", /* VK_ICO_HELP 0xE3 */
4944 "ico-00", /* VK_ICO_00 0xE4 */
4945 0, /* VK_PROCESSKEY 0xE5 - used by IME */
4946 "ico-clear", /* VK_ICO_CLEAR 0xE6 */
4947 0, /* VK_PACKET 0xE7 - used to pass Unicode chars */
4948 0, /* 0xE8 */
4949 "reset", /* VK_OEM_RESET 0xE9 */
4950 "jump", /* VK_OEM_JUMP 0xEA */
4951 "oem-pa1", /* VK_OEM_PA1 0xEB */
4952 "oem-pa2", /* VK_OEM_PA2 0xEC */
4953 "oem-pa3", /* VK_OEM_PA3 0xED */
4954 "wsctrl", /* VK_OEM_WSCTRL 0xEE */
4955 "cusel", /* VK_OEM_CUSEL 0xEF */
4956 "oem-attn", /* VK_OEM_ATTN 0xF0 */
4957 "finish", /* VK_OEM_FINISH 0xF1 */
4958 "copy", /* VK_OEM_COPY 0xF2 */
4959 "auto", /* VK_OEM_AUTO 0xF3 */
4960 "enlw", /* VK_OEM_ENLW 0xF4 */
4961 "backtab", /* VK_OEM_BACKTAB 0xF5 */
4962 "attn", /* VK_ATTN 0xF6 */
4963 "crsel", /* VK_CRSEL 0xF7 */
4964 "exsel", /* VK_EXSEL 0xF8 */
4965 "ereof", /* VK_EREOF 0xF9 */
4966 "play", /* VK_PLAY 0xFA */
4967 "zoom", /* VK_ZOOM 0xFB */
4968 "noname", /* VK_NONAME 0xFC */
4969 "pa1", /* VK_PA1 0xFD */
4970 "oem_clear", /* VK_OEM_CLEAR 0xFE */
4971 0 /* 0xFF */
4974 /* Some of these duplicate the "Media keys" on newer keyboards,
4975 but they are delivered to the application in a different way. */
4976 static const char *const lispy_multimedia_keys[] =
4979 "browser-back",
4980 "browser-forward",
4981 "browser-refresh",
4982 "browser-stop",
4983 "browser-search",
4984 "browser-favorites",
4985 "browser-home",
4986 "volume-mute",
4987 "volume-down",
4988 "volume-up",
4989 "media-next",
4990 "media-previous",
4991 "media-stop",
4992 "media-play-pause",
4993 "mail",
4994 "media-select",
4995 "app-1",
4996 "app-2",
4997 "bass-down",
4998 "bass-boost",
4999 "bass-up",
5000 "treble-down",
5001 "treble-up",
5002 "mic-volume-mute",
5003 "mic-volume-down",
5004 "mic-volume-up",
5005 "help",
5006 "find",
5007 "new",
5008 "open",
5009 "close",
5010 "save",
5011 "print",
5012 "undo",
5013 "redo",
5014 "copy",
5015 "cut",
5016 "paste",
5017 "mail-reply",
5018 "mail-forward",
5019 "mail-send",
5020 "spell-check",
5021 "toggle-dictate-command",
5022 "mic-toggle",
5023 "correction-list",
5024 "media-play",
5025 "media-pause",
5026 "media-record",
5027 "media-fast-forward",
5028 "media-rewind",
5029 "media-channel-up",
5030 "media-channel-down"
5033 #else /* not HAVE_NTGUI */
5035 /* This should be dealt with in XTread_socket now, and that doesn't
5036 depend on the client system having the Kana syms defined. See also
5037 the XK_kana_A case below. */
5038 #if 0
5039 #ifdef XK_kana_A
5040 static const char *const lispy_kana_keys[] =
5042 /* X Keysym value */
5043 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x400 .. 0x40f */
5044 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x410 .. 0x41f */
5045 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x420 .. 0x42f */
5046 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x430 .. 0x43f */
5047 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x440 .. 0x44f */
5048 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x450 .. 0x45f */
5049 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x460 .. 0x46f */
5050 0,0,0,0,0,0,0,0,0,0,0,0,0,0,"overline",0,
5051 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x480 .. 0x48f */
5052 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x490 .. 0x49f */
5053 0, "kana-fullstop", "kana-openingbracket", "kana-closingbracket",
5054 "kana-comma", "kana-conjunctive", "kana-WO", "kana-a",
5055 "kana-i", "kana-u", "kana-e", "kana-o",
5056 "kana-ya", "kana-yu", "kana-yo", "kana-tsu",
5057 "prolongedsound", "kana-A", "kana-I", "kana-U",
5058 "kana-E", "kana-O", "kana-KA", "kana-KI",
5059 "kana-KU", "kana-KE", "kana-KO", "kana-SA",
5060 "kana-SHI", "kana-SU", "kana-SE", "kana-SO",
5061 "kana-TA", "kana-CHI", "kana-TSU", "kana-TE",
5062 "kana-TO", "kana-NA", "kana-NI", "kana-NU",
5063 "kana-NE", "kana-NO", "kana-HA", "kana-HI",
5064 "kana-FU", "kana-HE", "kana-HO", "kana-MA",
5065 "kana-MI", "kana-MU", "kana-ME", "kana-MO",
5066 "kana-YA", "kana-YU", "kana-YO", "kana-RA",
5067 "kana-RI", "kana-RU", "kana-RE", "kana-RO",
5068 "kana-WA", "kana-N", "voicedsound", "semivoicedsound",
5069 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x4e0 .. 0x4ef */
5070 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0x4f0 .. 0x4ff */
5072 #endif /* XK_kana_A */
5073 #endif /* 0 */
5075 #define FUNCTION_KEY_OFFSET 0xff00
5077 /* You'll notice that this table is arranged to be conveniently
5078 indexed by X Windows keysym values. */
5079 static const char *const lispy_function_keys[] =
5081 /* X Keysym value */
5083 0, 0, 0, 0, 0, 0, 0, 0, /* 0xff00...0f */
5084 "backspace", "tab", "linefeed", "clear",
5085 0, "return", 0, 0,
5086 0, 0, 0, "pause", /* 0xff10...1f */
5087 0, 0, 0, 0, 0, 0, 0, "escape",
5088 0, 0, 0, 0,
5089 0, "kanji", "muhenkan", "henkan", /* 0xff20...2f */
5090 "romaji", "hiragana", "katakana", "hiragana-katakana",
5091 "zenkaku", "hankaku", "zenkaku-hankaku", "touroku",
5092 "massyo", "kana-lock", "kana-shift", "eisu-shift",
5093 "eisu-toggle", /* 0xff30...3f */
5094 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
5095 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 0xff40...4f */
5097 "home", "left", "up", "right", /* 0xff50 */ /* IsCursorKey */
5098 "down", "prior", "next", "end",
5099 "begin", 0, 0, 0, 0, 0, 0, 0,
5100 "select", /* 0xff60 */ /* IsMiscFunctionKey */
5101 "print",
5102 "execute",
5103 "insert",
5104 0, /* 0xff64 */
5105 "undo",
5106 "redo",
5107 "menu",
5108 "find",
5109 "cancel",
5110 "help",
5111 "break", /* 0xff6b */
5113 0, 0, 0, 0,
5114 0, 0, 0, 0, "backtab", 0, 0, 0, /* 0xff70... */
5115 0, 0, 0, 0, 0, 0, 0, "kp-numlock", /* 0xff78... */
5116 "kp-space", /* 0xff80 */ /* IsKeypadKey */
5117 0, 0, 0, 0, 0, 0, 0, 0,
5118 "kp-tab", /* 0xff89 */
5119 0, 0, 0,
5120 "kp-enter", /* 0xff8d */
5121 0, 0, 0,
5122 "kp-f1", /* 0xff91 */
5123 "kp-f2",
5124 "kp-f3",
5125 "kp-f4",
5126 "kp-home", /* 0xff95 */
5127 "kp-left",
5128 "kp-up",
5129 "kp-right",
5130 "kp-down",
5131 "kp-prior", /* kp-page-up */
5132 "kp-next", /* kp-page-down */
5133 "kp-end",
5134 "kp-begin",
5135 "kp-insert",
5136 "kp-delete",
5137 0, /* 0xffa0 */
5138 0, 0, 0, 0, 0, 0, 0, 0, 0,
5139 "kp-multiply", /* 0xffaa */
5140 "kp-add",
5141 "kp-separator",
5142 "kp-subtract",
5143 "kp-decimal",
5144 "kp-divide", /* 0xffaf */
5145 "kp-0", /* 0xffb0 */
5146 "kp-1", "kp-2", "kp-3", "kp-4", "kp-5", "kp-6", "kp-7", "kp-8", "kp-9",
5147 0, /* 0xffba */
5148 0, 0,
5149 "kp-equal", /* 0xffbd */
5150 "f1", /* 0xffbe */ /* IsFunctionKey */
5151 "f2",
5152 "f3", "f4", "f5", "f6", "f7", "f8", "f9", "f10", /* 0xffc0 */
5153 "f11", "f12", "f13", "f14", "f15", "f16", "f17", "f18",
5154 "f19", "f20", "f21", "f22", "f23", "f24", "f25", "f26", /* 0xffd0 */
5155 "f27", "f28", "f29", "f30", "f31", "f32", "f33", "f34",
5156 "f35", 0, 0, 0, 0, 0, 0, 0, /* 0xffe0 */
5157 0, 0, 0, 0, 0, 0, 0, 0,
5158 0, 0, 0, 0, 0, 0, 0, 0, /* 0xfff0 */
5159 0, 0, 0, 0, 0, 0, 0, "delete"
5162 /* ISO 9995 Function and Modifier Keys; the first byte is 0xFE. */
5163 #define ISO_FUNCTION_KEY_OFFSET 0xfe00
5165 static const char *const iso_lispy_function_keys[] =
5167 0, 0, 0, 0, 0, 0, 0, 0, /* 0xfe00 */
5168 0, 0, 0, 0, 0, 0, 0, 0, /* 0xfe08 */
5169 0, 0, 0, 0, 0, 0, 0, 0, /* 0xfe10 */
5170 0, 0, 0, 0, 0, 0, 0, 0, /* 0xfe18 */
5171 "iso-lefttab", /* 0xfe20 */
5172 "iso-move-line-up", "iso-move-line-down",
5173 "iso-partial-line-up", "iso-partial-line-down",
5174 "iso-partial-space-left", "iso-partial-space-right",
5175 "iso-set-margin-left", "iso-set-margin-right", /* 0xffe27, 28 */
5176 "iso-release-margin-left", "iso-release-margin-right",
5177 "iso-release-both-margins",
5178 "iso-fast-cursor-left", "iso-fast-cursor-right",
5179 "iso-fast-cursor-up", "iso-fast-cursor-down",
5180 "iso-continuous-underline", "iso-discontinuous-underline", /* 0xfe30, 31 */
5181 "iso-emphasize", "iso-center-object", "iso-enter", /* ... 0xfe34 */
5184 #endif /* not HAVE_NTGUI */
5186 static Lisp_Object Vlispy_mouse_stem;
5188 static const char *const lispy_wheel_names[] =
5190 "wheel-up", "wheel-down", "wheel-left", "wheel-right"
5193 /* drag-n-drop events are generated when a set of selected files are
5194 dragged from another application and dropped onto an Emacs window. */
5195 static const char *const lispy_drag_n_drop_names[] =
5197 "drag-n-drop"
5200 /* An array of symbol indexes of scroll bar parts, indexed by an enum
5201 scroll_bar_part value. Note that Qnil corresponds to
5202 scroll_bar_nowhere and should not appear in Lisp events. */
5203 static short const scroll_bar_parts[] = {
5204 SYMBOL_INDEX (Qnil), SYMBOL_INDEX (Qabove_handle), SYMBOL_INDEX (Qhandle),
5205 SYMBOL_INDEX (Qbelow_handle), SYMBOL_INDEX (Qup), SYMBOL_INDEX (Qdown),
5206 SYMBOL_INDEX (Qtop), SYMBOL_INDEX (Qbottom), SYMBOL_INDEX (Qend_scroll),
5207 SYMBOL_INDEX (Qratio), SYMBOL_INDEX (Qbefore_handle),
5208 SYMBOL_INDEX (Qhorizontal_handle), SYMBOL_INDEX (Qafter_handle),
5209 SYMBOL_INDEX (Qleft), SYMBOL_INDEX (Qright), SYMBOL_INDEX (Qleftmost),
5210 SYMBOL_INDEX (Qrightmost), SYMBOL_INDEX (Qend_scroll), SYMBOL_INDEX (Qratio)
5213 /* A vector, indexed by button number, giving the down-going location
5214 of currently depressed buttons, both scroll bar and non-scroll bar.
5216 The elements have the form
5217 (BUTTON-NUMBER MODIFIER-MASK . REST)
5218 where REST is the cdr of a position as it would be reported in the event.
5220 The make_lispy_event function stores positions here to tell the
5221 difference between click and drag events, and to store the starting
5222 location to be included in drag events. */
5224 static Lisp_Object button_down_location;
5226 /* Information about the most recent up-going button event: Which
5227 button, what location, and what time. */
5229 static int last_mouse_button;
5230 static int last_mouse_x;
5231 static int last_mouse_y;
5232 static Time button_down_time;
5234 /* The number of clicks in this multiple-click. */
5236 static int double_click_count;
5238 /* X and Y are frame-relative coordinates for a click or wheel event.
5239 Return a Lisp-style event list. */
5241 static Lisp_Object
5242 make_lispy_position (struct frame *f, Lisp_Object x, Lisp_Object y,
5243 Time t)
5245 enum window_part part;
5246 Lisp_Object posn = Qnil;
5247 Lisp_Object extra_info = Qnil;
5248 /* Coordinate pixel positions to return. */
5249 int xret = 0, yret = 0;
5250 /* The window under frame pixel coordinates (x,y) */
5251 Lisp_Object window = f
5252 ? window_from_coordinates (f, XINT (x), XINT (y), &part, 0)
5253 : Qnil;
5255 if (WINDOWP (window))
5257 /* It's a click in window WINDOW at frame coordinates (X,Y) */
5258 struct window *w = XWINDOW (window);
5259 Lisp_Object string_info = Qnil;
5260 ptrdiff_t textpos = 0;
5261 int col = -1, row = -1;
5262 int dx = -1, dy = -1;
5263 int width = -1, height = -1;
5264 Lisp_Object object = Qnil;
5266 /* Pixel coordinates relative to the window corner. */
5267 int wx = XINT (x) - WINDOW_LEFT_EDGE_X (w);
5268 int wy = XINT (y) - WINDOW_TOP_EDGE_Y (w);
5270 /* For text area clicks, return X, Y relative to the corner of
5271 this text area. Note that dX, dY etc are set below, by
5272 buffer_posn_from_coords. */
5273 if (part == ON_TEXT)
5275 xret = XINT (x) - window_box_left (w, TEXT_AREA);
5276 yret = wy - WINDOW_HEADER_LINE_HEIGHT (w);
5278 /* For mode line and header line clicks, return X, Y relative to
5279 the left window edge. Use mode_line_string to look for a
5280 string on the click position. */
5281 else if (part == ON_MODE_LINE || part == ON_HEADER_LINE)
5283 Lisp_Object string;
5284 ptrdiff_t charpos;
5286 posn = (part == ON_MODE_LINE) ? Qmode_line : Qheader_line;
5287 /* Note that mode_line_string takes COL, ROW as pixels and
5288 converts them to characters. */
5289 col = wx;
5290 row = wy;
5291 string = mode_line_string (w, part, &col, &row, &charpos,
5292 &object, &dx, &dy, &width, &height);
5293 if (STRINGP (string))
5294 string_info = Fcons (string, make_number (charpos));
5295 textpos = -1;
5297 xret = wx;
5298 yret = wy;
5300 /* For fringes and margins, Y is relative to the area's (and the
5301 window's) top edge, while X is meaningless. */
5302 else if (part == ON_LEFT_MARGIN || part == ON_RIGHT_MARGIN)
5304 Lisp_Object string;
5305 ptrdiff_t charpos;
5307 posn = (part == ON_LEFT_MARGIN) ? Qleft_margin : Qright_margin;
5308 col = wx;
5309 row = wy;
5310 string = marginal_area_string (w, part, &col, &row, &charpos,
5311 &object, &dx, &dy, &width, &height);
5312 if (STRINGP (string))
5313 string_info = Fcons (string, make_number (charpos));
5314 xret = wx;
5315 yret = wy - WINDOW_HEADER_LINE_HEIGHT (w);
5317 else if (part == ON_LEFT_FRINGE)
5319 posn = Qleft_fringe;
5320 col = 0;
5321 xret = wx;
5322 dx = wx
5323 - (WINDOW_HAS_FRINGES_OUTSIDE_MARGINS (w)
5324 ? 0 : window_box_width (w, LEFT_MARGIN_AREA));
5325 dy = yret = wy - WINDOW_HEADER_LINE_HEIGHT (w);
5327 else if (part == ON_RIGHT_FRINGE)
5329 posn = Qright_fringe;
5330 col = 0;
5331 xret = wx;
5332 dx = wx
5333 - window_box_width (w, LEFT_MARGIN_AREA)
5334 - window_box_width (w, TEXT_AREA)
5335 - (WINDOW_HAS_FRINGES_OUTSIDE_MARGINS (w)
5336 ? window_box_width (w, RIGHT_MARGIN_AREA)
5337 : 0);
5338 dy = yret = wy - WINDOW_HEADER_LINE_HEIGHT (w);
5340 else if (part == ON_VERTICAL_BORDER)
5342 posn = Qvertical_line;
5343 width = 1;
5344 dx = 0;
5345 xret = wx;
5346 dy = yret = wy;
5348 else if (part == ON_VERTICAL_SCROLL_BAR)
5350 posn = Qvertical_scroll_bar;
5351 width = WINDOW_SCROLL_BAR_AREA_WIDTH (w);
5352 dx = xret = wx;
5353 dy = yret = wy;
5355 else if (part == ON_HORIZONTAL_SCROLL_BAR)
5357 posn = Qhorizontal_scroll_bar;
5358 width = WINDOW_SCROLL_BAR_AREA_HEIGHT (w);
5359 dx = xret = wx;
5360 dy = yret = wy;
5362 else if (part == ON_RIGHT_DIVIDER)
5364 posn = Qright_divider;
5365 width = WINDOW_RIGHT_DIVIDER_WIDTH (w);
5366 dx = xret = wx;
5367 dy = yret = wy;
5369 else if (part == ON_BOTTOM_DIVIDER)
5371 posn = Qbottom_divider;
5372 width = WINDOW_BOTTOM_DIVIDER_WIDTH (w);
5373 dx = xret = wx;
5374 dy = yret = wy;
5377 /* For clicks in the text area, fringes, margins, or vertical
5378 scroll bar, call buffer_posn_from_coords to extract TEXTPOS,
5379 the buffer position nearest to the click. */
5380 if (!textpos)
5382 Lisp_Object string2, object2 = Qnil;
5383 struct display_pos p;
5384 int dx2, dy2;
5385 int width2, height2;
5386 /* The pixel X coordinate passed to buffer_posn_from_coords
5387 is the X coordinate relative to the text area for clicks
5388 in text-area, right-margin/fringe and right-side vertical
5389 scroll bar, zero otherwise. */
5390 int x2
5391 = (part == ON_TEXT) ? xret
5392 : (part == ON_RIGHT_FRINGE || part == ON_RIGHT_MARGIN
5393 || (part == ON_VERTICAL_SCROLL_BAR
5394 && WINDOW_HAS_VERTICAL_SCROLL_BAR_ON_RIGHT (w)))
5395 ? (XINT (x) - window_box_left (w, TEXT_AREA))
5396 : 0;
5397 int y2 = wy;
5399 string2 = buffer_posn_from_coords (w, &x2, &y2, &p,
5400 &object2, &dx2, &dy2,
5401 &width2, &height2);
5402 textpos = CHARPOS (p.pos);
5403 if (col < 0) col = x2;
5404 if (row < 0) row = y2;
5405 if (dx < 0) dx = dx2;
5406 if (dy < 0) dy = dy2;
5407 if (width < 0) width = width2;
5408 if (height < 0) height = height2;
5410 if (NILP (posn))
5412 posn = make_number (textpos);
5413 if (STRINGP (string2))
5414 string_info = Fcons (string2,
5415 make_number (CHARPOS (p.string_pos)));
5417 if (NILP (object))
5418 object = object2;
5421 #ifdef HAVE_WINDOW_SYSTEM
5422 if (IMAGEP (object))
5424 Lisp_Object image_map, hotspot;
5425 if ((image_map = Fplist_get (XCDR (object), QCmap),
5426 !NILP (image_map))
5427 && (hotspot = find_hot_spot (image_map, dx, dy),
5428 CONSP (hotspot))
5429 && (hotspot = XCDR (hotspot), CONSP (hotspot)))
5430 posn = XCAR (hotspot);
5432 #endif
5434 /* Object info. */
5435 extra_info
5436 = list3 (object,
5437 Fcons (make_number (dx), make_number (dy)),
5438 Fcons (make_number (width), make_number (height)));
5440 /* String info. */
5441 extra_info = Fcons (string_info,
5442 Fcons (textpos < 0 ? Qnil : make_number (textpos),
5443 Fcons (Fcons (make_number (col),
5444 make_number (row)),
5445 extra_info)));
5447 else if (f != 0)
5449 /* Return mouse pixel coordinates here. */
5450 XSETFRAME (window, f);
5451 xret = XINT (x);
5452 yret = XINT (y);
5454 else
5455 window = Qnil;
5457 return Fcons (window,
5458 Fcons (posn,
5459 Fcons (Fcons (make_number (xret),
5460 make_number (yret)),
5461 Fcons (make_number (t),
5462 extra_info))));
5465 /* Return non-zero if F is a GUI frame that uses some toolkit-managed
5466 menu bar. This really means that Emacs draws and manages the menu
5467 bar as part of its normal display, and therefore can compute its
5468 geometry. */
5469 static bool
5470 toolkit_menubar_in_use (struct frame *f)
5472 #if defined (USE_X_TOOLKIT) || defined (USE_GTK) || defined (HAVE_NS) || defined (HAVE_NTGUI)
5473 return !(!FRAME_WINDOW_P (f));
5474 #else
5475 return false;
5476 #endif
5479 /* Build the part of Lisp event which represents scroll bar state from
5480 EV. TYPE is one of Qvertical_scroll_bar or Qhorizontal_scroll_bar. */
5482 static Lisp_Object
5483 make_scroll_bar_position (struct input_event *ev, Lisp_Object type)
5485 return list5 (ev->frame_or_window, type, Fcons (ev->x, ev->y),
5486 make_number (ev->timestamp),
5487 builtin_lisp_symbol (scroll_bar_parts[ev->part]));
5490 /* Given a struct input_event, build the lisp event which represents
5491 it. If EVENT is 0, build a mouse movement event from the mouse
5492 movement buffer, which should have a movement event in it.
5494 Note that events must be passed to this function in the order they
5495 are received; this function stores the location of button presses
5496 in order to build drag events when the button is released. */
5498 static Lisp_Object
5499 make_lispy_event (struct input_event *event)
5501 int i;
5503 switch (event->kind)
5505 /* A simple keystroke. */
5506 case ASCII_KEYSTROKE_EVENT:
5507 case MULTIBYTE_CHAR_KEYSTROKE_EVENT:
5509 Lisp_Object lispy_c;
5510 EMACS_INT c = event->code;
5511 if (event->kind == ASCII_KEYSTROKE_EVENT)
5513 c &= 0377;
5514 eassert (c == event->code);
5515 /* Turn ASCII characters into control characters
5516 when proper. */
5517 if (event->modifiers & ctrl_modifier)
5519 c = make_ctrl_char (c);
5520 event->modifiers &= ~ctrl_modifier;
5524 /* Add in the other modifier bits. The shift key was taken care
5525 of by the X code. */
5526 c |= (event->modifiers
5527 & (meta_modifier | alt_modifier
5528 | hyper_modifier | super_modifier | ctrl_modifier));
5529 /* Distinguish Shift-SPC from SPC. */
5530 if ((event->code) == 040
5531 && event->modifiers & shift_modifier)
5532 c |= shift_modifier;
5533 button_down_time = 0;
5534 XSETFASTINT (lispy_c, c);
5535 return lispy_c;
5538 #ifdef HAVE_NS
5539 /* NS_NONKEY_EVENTs are just like NON_ASCII_KEYSTROKE_EVENTs,
5540 except that they are non-key events (last-nonmenu-event is nil). */
5541 case NS_NONKEY_EVENT:
5542 #endif
5544 /* A function key. The symbol may need to have modifier prefixes
5545 tacked onto it. */
5546 case NON_ASCII_KEYSTROKE_EVENT:
5547 button_down_time = 0;
5549 for (i = 0; i < ARRAYELTS (lispy_accent_codes); i++)
5550 if (event->code == lispy_accent_codes[i])
5551 return modify_event_symbol (i,
5552 event->modifiers,
5553 Qfunction_key, Qnil,
5554 lispy_accent_keys, &accent_key_syms,
5555 ARRAYELTS (lispy_accent_keys));
5557 #if 0
5558 #ifdef XK_kana_A
5559 if (event->code >= 0x400 && event->code < 0x500)
5560 return modify_event_symbol (event->code - 0x400,
5561 event->modifiers & ~shift_modifier,
5562 Qfunction_key, Qnil,
5563 lispy_kana_keys, &func_key_syms,
5564 ARRAYELTS (lispy_kana_keys));
5565 #endif /* XK_kana_A */
5566 #endif /* 0 */
5568 #ifdef ISO_FUNCTION_KEY_OFFSET
5569 if (event->code < FUNCTION_KEY_OFFSET
5570 && event->code >= ISO_FUNCTION_KEY_OFFSET)
5571 return modify_event_symbol (event->code - ISO_FUNCTION_KEY_OFFSET,
5572 event->modifiers,
5573 Qfunction_key, Qnil,
5574 iso_lispy_function_keys, &func_key_syms,
5575 ARRAYELTS (iso_lispy_function_keys));
5576 #endif
5578 if ((FUNCTION_KEY_OFFSET <= event->code
5579 && (event->code
5580 < FUNCTION_KEY_OFFSET + ARRAYELTS (lispy_function_keys)))
5581 && lispy_function_keys[event->code - FUNCTION_KEY_OFFSET])
5582 return modify_event_symbol (event->code - FUNCTION_KEY_OFFSET,
5583 event->modifiers,
5584 Qfunction_key, Qnil,
5585 lispy_function_keys, &func_key_syms,
5586 ARRAYELTS (lispy_function_keys));
5588 /* Handle system-specific or unknown keysyms.
5589 We need to use an alist rather than a vector as the cache
5590 since we can't make a vector long enough. */
5591 if (NILP (KVAR (current_kboard, system_key_syms)))
5592 kset_system_key_syms (current_kboard, Fcons (Qnil, Qnil));
5593 return modify_event_symbol (event->code,
5594 event->modifiers,
5595 Qfunction_key,
5596 KVAR (current_kboard, Vsystem_key_alist),
5597 0, &KVAR (current_kboard, system_key_syms),
5598 PTRDIFF_MAX);
5600 #ifdef HAVE_NTGUI
5601 case MULTIMEDIA_KEY_EVENT:
5602 if (event->code < ARRAYELTS (lispy_multimedia_keys)
5603 && event->code > 0 && lispy_multimedia_keys[event->code])
5605 return modify_event_symbol (event->code, event->modifiers,
5606 Qfunction_key, Qnil,
5607 lispy_multimedia_keys, &func_key_syms,
5608 ARRAYELTS (lispy_multimedia_keys));
5610 return Qnil;
5611 #endif
5613 /* A mouse click. Figure out where it is, decide whether it's
5614 a press, click or drag, and build the appropriate structure. */
5615 case MOUSE_CLICK_EVENT:
5616 #ifdef HAVE_GPM
5617 case GPM_CLICK_EVENT:
5618 #endif
5619 #ifndef USE_TOOLKIT_SCROLL_BARS
5620 case SCROLL_BAR_CLICK_EVENT:
5621 case HORIZONTAL_SCROLL_BAR_CLICK_EVENT:
5622 #endif
5624 int button = event->code;
5625 bool is_double;
5626 Lisp_Object position;
5627 Lisp_Object *start_pos_ptr;
5628 Lisp_Object start_pos;
5630 position = Qnil;
5632 /* Build the position as appropriate for this mouse click. */
5633 if (event->kind == MOUSE_CLICK_EVENT
5634 #ifdef HAVE_GPM
5635 || event->kind == GPM_CLICK_EVENT
5636 #endif
5639 struct frame *f = XFRAME (event->frame_or_window);
5640 int row, column;
5642 /* Ignore mouse events that were made on frame that
5643 have been deleted. */
5644 if (! FRAME_LIVE_P (f))
5645 return Qnil;
5647 /* EVENT->x and EVENT->y are frame-relative pixel
5648 coordinates at this place. Under old redisplay, COLUMN
5649 and ROW are set to frame relative glyph coordinates
5650 which are then used to determine whether this click is
5651 in a menu (non-toolkit version). */
5652 if (!toolkit_menubar_in_use (f))
5654 pixel_to_glyph_coords (f, XINT (event->x), XINT (event->y),
5655 &column, &row, NULL, 1);
5657 /* In the non-toolkit version, clicks on the menu bar
5658 are ordinary button events in the event buffer.
5659 Distinguish them, and invoke the menu.
5661 (In the toolkit version, the toolkit handles the
5662 menu bar and Emacs doesn't know about it until
5663 after the user makes a selection.) */
5664 if (row >= 0 && row < FRAME_MENU_BAR_LINES (f)
5665 && (event->modifiers & down_modifier))
5667 Lisp_Object items, item;
5669 /* Find the menu bar item under `column'. */
5670 item = Qnil;
5671 items = FRAME_MENU_BAR_ITEMS (f);
5672 for (i = 0; i < ASIZE (items); i += 4)
5674 Lisp_Object pos, string;
5675 string = AREF (items, i + 1);
5676 pos = AREF (items, i + 3);
5677 if (NILP (string))
5678 break;
5679 if (column >= XINT (pos)
5680 && column < XINT (pos) + SCHARS (string))
5682 item = AREF (items, i);
5683 break;
5687 /* ELisp manual 2.4b says (x y) are window
5688 relative but code says they are
5689 frame-relative. */
5690 position = list4 (event->frame_or_window,
5691 Qmenu_bar,
5692 Fcons (event->x, event->y),
5693 make_number (event->timestamp));
5695 return list2 (item, position);
5699 position = make_lispy_position (f, event->x, event->y,
5700 event->timestamp);
5702 #ifndef USE_TOOLKIT_SCROLL_BARS
5703 else
5704 /* It's a scrollbar click. */
5705 position = make_scroll_bar_position (event, Qvertical_scroll_bar);
5706 #endif /* not USE_TOOLKIT_SCROLL_BARS */
5708 if (button >= ASIZE (button_down_location))
5710 ptrdiff_t incr = button - ASIZE (button_down_location) + 1;
5711 button_down_location = larger_vector (button_down_location,
5712 incr, -1);
5713 mouse_syms = larger_vector (mouse_syms, incr, -1);
5716 start_pos_ptr = aref_addr (button_down_location, button);
5717 start_pos = *start_pos_ptr;
5718 *start_pos_ptr = Qnil;
5721 /* On window-system frames, use the value of
5722 double-click-fuzz as is. On other frames, interpret it
5723 as a multiple of 1/8 characters. */
5724 struct frame *f;
5725 int fuzz;
5727 if (WINDOWP (event->frame_or_window))
5728 f = XFRAME (XWINDOW (event->frame_or_window)->frame);
5729 else if (FRAMEP (event->frame_or_window))
5730 f = XFRAME (event->frame_or_window);
5731 else
5732 emacs_abort ();
5734 if (FRAME_WINDOW_P (f))
5735 fuzz = double_click_fuzz;
5736 else
5737 fuzz = double_click_fuzz / 8;
5739 is_double = (button == last_mouse_button
5740 && (eabs (XINT (event->x) - last_mouse_x) <= fuzz)
5741 && (eabs (XINT (event->y) - last_mouse_y) <= fuzz)
5742 && button_down_time != 0
5743 && (EQ (Vdouble_click_time, Qt)
5744 || (NATNUMP (Vdouble_click_time)
5745 && (event->timestamp - button_down_time
5746 < XFASTINT (Vdouble_click_time)))));
5749 last_mouse_button = button;
5750 last_mouse_x = XINT (event->x);
5751 last_mouse_y = XINT (event->y);
5753 /* If this is a button press, squirrel away the location, so
5754 we can decide later whether it was a click or a drag. */
5755 if (event->modifiers & down_modifier)
5757 if (is_double)
5759 double_click_count++;
5760 event->modifiers |= ((double_click_count > 2)
5761 ? triple_modifier
5762 : double_modifier);
5764 else
5765 double_click_count = 1;
5766 button_down_time = event->timestamp;
5767 *start_pos_ptr = Fcopy_alist (position);
5768 ignore_mouse_drag_p = 0;
5771 /* Now we're releasing a button - check the co-ordinates to
5772 see if this was a click or a drag. */
5773 else if (event->modifiers & up_modifier)
5775 /* If we did not see a down before this up, ignore the up.
5776 Probably this happened because the down event chose a
5777 menu item. It would be an annoyance to treat the
5778 release of the button that chose the menu item as a
5779 separate event. */
5781 if (!CONSP (start_pos))
5782 return Qnil;
5784 event->modifiers &= ~up_modifier;
5787 Lisp_Object new_down, down;
5788 EMACS_INT xdiff = double_click_fuzz, ydiff = double_click_fuzz;
5790 /* The third element of every position
5791 should be the (x,y) pair. */
5792 down = Fcar (Fcdr (Fcdr (start_pos)));
5793 new_down = Fcar (Fcdr (Fcdr (position)));
5795 if (CONSP (down)
5796 && INTEGERP (XCAR (down)) && INTEGERP (XCDR (down)))
5798 xdiff = XINT (XCAR (new_down)) - XINT (XCAR (down));
5799 ydiff = XINT (XCDR (new_down)) - XINT (XCDR (down));
5802 if (ignore_mouse_drag_p)
5804 event->modifiers |= click_modifier;
5805 ignore_mouse_drag_p = 0;
5807 else if (xdiff < double_click_fuzz && xdiff > - double_click_fuzz
5808 && ydiff < double_click_fuzz && ydiff > - double_click_fuzz
5809 /* Maybe the mouse has moved a lot, caused scrolling, and
5810 eventually ended up at the same screen position (but
5811 not buffer position) in which case it is a drag, not
5812 a click. */
5813 /* FIXME: OTOH if the buffer position has changed
5814 because of a timer or process filter rather than
5815 because of mouse movement, it should be considered as
5816 a click. But mouse-drag-region completely ignores
5817 this case and it hasn't caused any real problem, so
5818 it's probably OK to ignore it as well. */
5819 && EQ (Fcar (Fcdr (start_pos)), Fcar (Fcdr (position))))
5820 /* Mouse hasn't moved (much). */
5821 event->modifiers |= click_modifier;
5822 else
5824 button_down_time = 0;
5825 event->modifiers |= drag_modifier;
5828 /* Don't check is_double; treat this as multiple
5829 if the down-event was multiple. */
5830 if (double_click_count > 1)
5831 event->modifiers |= ((double_click_count > 2)
5832 ? triple_modifier
5833 : double_modifier);
5836 else
5837 /* Every mouse event should either have the down_modifier or
5838 the up_modifier set. */
5839 emacs_abort ();
5842 /* Get the symbol we should use for the mouse click. */
5843 Lisp_Object head;
5845 head = modify_event_symbol (button,
5846 event->modifiers,
5847 Qmouse_click, Vlispy_mouse_stem,
5848 NULL,
5849 &mouse_syms,
5850 ASIZE (mouse_syms));
5851 if (event->modifiers & drag_modifier)
5852 return list3 (head, start_pos, position);
5853 else if (event->modifiers & (double_modifier | triple_modifier))
5854 return list3 (head, position, make_number (double_click_count));
5855 else
5856 return list2 (head, position);
5860 case WHEEL_EVENT:
5861 case HORIZ_WHEEL_EVENT:
5863 Lisp_Object position;
5864 Lisp_Object head;
5866 /* Build the position as appropriate for this mouse click. */
5867 struct frame *f = XFRAME (event->frame_or_window);
5869 /* Ignore wheel events that were made on frame that have been
5870 deleted. */
5871 if (! FRAME_LIVE_P (f))
5872 return Qnil;
5874 position = make_lispy_position (f, event->x, event->y,
5875 event->timestamp);
5877 /* Set double or triple modifiers to indicate the wheel speed. */
5879 /* On window-system frames, use the value of
5880 double-click-fuzz as is. On other frames, interpret it
5881 as a multiple of 1/8 characters. */
5882 struct frame *fr;
5883 int fuzz;
5884 int symbol_num;
5885 bool is_double;
5887 if (WINDOWP (event->frame_or_window))
5888 fr = XFRAME (XWINDOW (event->frame_or_window)->frame);
5889 else if (FRAMEP (event->frame_or_window))
5890 fr = XFRAME (event->frame_or_window);
5891 else
5892 emacs_abort ();
5894 fuzz = FRAME_WINDOW_P (fr)
5895 ? double_click_fuzz : double_click_fuzz / 8;
5897 if (event->modifiers & up_modifier)
5899 /* Emit a wheel-up event. */
5900 event->modifiers &= ~up_modifier;
5901 symbol_num = 0;
5903 else if (event->modifiers & down_modifier)
5905 /* Emit a wheel-down event. */
5906 event->modifiers &= ~down_modifier;
5907 symbol_num = 1;
5909 else
5910 /* Every wheel event should either have the down_modifier or
5911 the up_modifier set. */
5912 emacs_abort ();
5914 if (event->kind == HORIZ_WHEEL_EVENT)
5915 symbol_num += 2;
5917 is_double = (last_mouse_button == - (1 + symbol_num)
5918 && (eabs (XINT (event->x) - last_mouse_x) <= fuzz)
5919 && (eabs (XINT (event->y) - last_mouse_y) <= fuzz)
5920 && button_down_time != 0
5921 && (EQ (Vdouble_click_time, Qt)
5922 || (NATNUMP (Vdouble_click_time)
5923 && (event->timestamp - button_down_time
5924 < XFASTINT (Vdouble_click_time)))));
5925 if (is_double)
5927 double_click_count++;
5928 event->modifiers |= ((double_click_count > 2)
5929 ? triple_modifier
5930 : double_modifier);
5932 else
5934 double_click_count = 1;
5935 event->modifiers |= click_modifier;
5938 button_down_time = event->timestamp;
5939 /* Use a negative value to distinguish wheel from mouse button. */
5940 last_mouse_button = - (1 + symbol_num);
5941 last_mouse_x = XINT (event->x);
5942 last_mouse_y = XINT (event->y);
5944 /* Get the symbol we should use for the wheel event. */
5945 head = modify_event_symbol (symbol_num,
5946 event->modifiers,
5947 Qmouse_click,
5948 Qnil,
5949 lispy_wheel_names,
5950 &wheel_syms,
5951 ASIZE (wheel_syms));
5954 if (event->modifiers & (double_modifier | triple_modifier))
5955 return list3 (head, position, make_number (double_click_count));
5956 else
5957 return list2 (head, position);
5961 #ifdef USE_TOOLKIT_SCROLL_BARS
5963 /* We don't have down and up events if using toolkit scroll bars,
5964 so make this always a click event. Store in the `part' of
5965 the Lisp event a symbol which maps to the following actions:
5967 `above_handle' page up
5968 `below_handle' page down
5969 `up' line up
5970 `down' line down
5971 `top' top of buffer
5972 `bottom' bottom of buffer
5973 `handle' thumb has been dragged.
5974 `end-scroll' end of interaction with scroll bar
5976 The incoming input_event contains in its `part' member an
5977 index of type `enum scroll_bar_part' which we can use as an
5978 index in scroll_bar_parts to get the appropriate symbol. */
5980 case SCROLL_BAR_CLICK_EVENT:
5982 Lisp_Object position, head;
5984 position = make_scroll_bar_position (event, Qvertical_scroll_bar);
5986 /* Always treat scroll bar events as clicks. */
5987 event->modifiers |= click_modifier;
5988 event->modifiers &= ~up_modifier;
5990 if (event->code >= ASIZE (mouse_syms))
5991 mouse_syms = larger_vector (mouse_syms,
5992 event->code - ASIZE (mouse_syms) + 1,
5993 -1);
5995 /* Get the symbol we should use for the mouse click. */
5996 head = modify_event_symbol (event->code,
5997 event->modifiers,
5998 Qmouse_click,
5999 Vlispy_mouse_stem,
6000 NULL, &mouse_syms,
6001 ASIZE (mouse_syms));
6002 return list2 (head, position);
6005 case HORIZONTAL_SCROLL_BAR_CLICK_EVENT:
6007 Lisp_Object position, head;
6009 position = make_scroll_bar_position (event, Qhorizontal_scroll_bar);
6011 /* Always treat scroll bar events as clicks. */
6012 event->modifiers |= click_modifier;
6013 event->modifiers &= ~up_modifier;
6015 if (event->code >= ASIZE (mouse_syms))
6016 mouse_syms = larger_vector (mouse_syms,
6017 event->code - ASIZE (mouse_syms) + 1,
6018 -1);
6020 /* Get the symbol we should use for the mouse click. */
6021 head = modify_event_symbol (event->code,
6022 event->modifiers,
6023 Qmouse_click,
6024 Vlispy_mouse_stem,
6025 NULL, &mouse_syms,
6026 ASIZE (mouse_syms));
6027 return list2 (head, position);
6030 #endif /* USE_TOOLKIT_SCROLL_BARS */
6032 case DRAG_N_DROP_EVENT:
6034 struct frame *f;
6035 Lisp_Object head, position;
6036 Lisp_Object files;
6038 f = XFRAME (event->frame_or_window);
6039 files = event->arg;
6041 /* Ignore mouse events that were made on frames that
6042 have been deleted. */
6043 if (! FRAME_LIVE_P (f))
6044 return Qnil;
6046 position = make_lispy_position (f, event->x, event->y,
6047 event->timestamp);
6049 head = modify_event_symbol (0, event->modifiers,
6050 Qdrag_n_drop, Qnil,
6051 lispy_drag_n_drop_names,
6052 &drag_n_drop_syms, 1);
6053 return list3 (head, position, files);
6056 #if defined (USE_X_TOOLKIT) || defined (HAVE_NTGUI) \
6057 || defined (HAVE_NS) || defined (USE_GTK)
6058 case MENU_BAR_EVENT:
6059 if (EQ (event->arg, event->frame_or_window))
6060 /* This is the prefix key. We translate this to
6061 `(menu_bar)' because the code in keyboard.c for menu
6062 events, which we use, relies on this. */
6063 return list1 (Qmenu_bar);
6064 return event->arg;
6065 #endif
6067 case SELECT_WINDOW_EVENT:
6068 /* Make an event (select-window (WINDOW)). */
6069 return list2 (Qselect_window, list1 (event->frame_or_window));
6071 case TOOL_BAR_EVENT:
6072 if (EQ (event->arg, event->frame_or_window))
6073 /* This is the prefix key. We translate this to
6074 `(tool_bar)' because the code in keyboard.c for tool bar
6075 events, which we use, relies on this. */
6076 return list1 (Qtool_bar);
6077 else if (SYMBOLP (event->arg))
6078 return apply_modifiers (event->modifiers, event->arg);
6079 return event->arg;
6081 case USER_SIGNAL_EVENT:
6082 /* A user signal. */
6084 char *name = find_user_signal_name (event->code);
6085 if (!name)
6086 emacs_abort ();
6087 return intern (name);
6090 case SAVE_SESSION_EVENT:
6091 return Qsave_session;
6093 #ifdef HAVE_DBUS
6094 case DBUS_EVENT:
6096 return Fcons (Qdbus_event, event->arg);
6098 #endif /* HAVE_DBUS */
6100 #if defined HAVE_GFILENOTIFY || defined HAVE_INOTIFY
6101 case FILE_NOTIFY_EVENT:
6103 return Fcons (Qfile_notify, event->arg);
6105 #endif /* defined HAVE_GFILENOTIFY || defined HAVE_INOTIFY */
6107 case CONFIG_CHANGED_EVENT:
6108 return list3 (Qconfig_changed_event,
6109 event->arg, event->frame_or_window);
6111 /* The 'kind' field of the event is something we don't recognize. */
6112 default:
6113 emacs_abort ();
6117 static Lisp_Object
6118 make_lispy_movement (struct frame *frame, Lisp_Object bar_window, enum scroll_bar_part part,
6119 Lisp_Object x, Lisp_Object y, Time t)
6121 /* Is it a scroll bar movement? */
6122 if (frame && ! NILP (bar_window))
6124 Lisp_Object part_sym;
6126 part_sym = builtin_lisp_symbol (scroll_bar_parts[part]);
6127 return list2 (Qscroll_bar_movement,
6128 list5 (bar_window,
6129 Qvertical_scroll_bar,
6130 Fcons (x, y),
6131 make_number (t),
6132 part_sym));
6134 /* Or is it an ordinary mouse movement? */
6135 else
6137 Lisp_Object position;
6138 position = make_lispy_position (frame, x, y, t);
6139 return list2 (Qmouse_movement, position);
6143 /* Construct a switch frame event. */
6144 static Lisp_Object
6145 make_lispy_switch_frame (Lisp_Object frame)
6147 return list2 (Qswitch_frame, frame);
6150 static Lisp_Object
6151 make_lispy_focus_in (Lisp_Object frame)
6153 return list2 (Qfocus_in, frame);
6156 #ifdef HAVE_WINDOW_SYSTEM
6158 static Lisp_Object
6159 make_lispy_focus_out (Lisp_Object frame)
6161 return list2 (Qfocus_out, frame);
6164 #endif /* HAVE_WINDOW_SYSTEM */
6166 /* Manipulating modifiers. */
6168 /* Parse the name of SYMBOL, and return the set of modifiers it contains.
6170 If MODIFIER_END is non-zero, set *MODIFIER_END to the position in
6171 SYMBOL's name of the end of the modifiers; the string from this
6172 position is the unmodified symbol name.
6174 This doesn't use any caches. */
6176 static int
6177 parse_modifiers_uncached (Lisp_Object symbol, ptrdiff_t *modifier_end)
6179 Lisp_Object name;
6180 ptrdiff_t i;
6181 int modifiers;
6183 CHECK_SYMBOL (symbol);
6185 modifiers = 0;
6186 name = SYMBOL_NAME (symbol);
6188 for (i = 0; i < SBYTES (name) - 1; )
6190 ptrdiff_t this_mod_end = 0;
6191 int this_mod = 0;
6193 /* See if the name continues with a modifier word.
6194 Check that the word appears, but don't check what follows it.
6195 Set this_mod and this_mod_end to record what we find. */
6197 switch (SREF (name, i))
6199 #define SINGLE_LETTER_MOD(BIT) \
6200 (this_mod_end = i + 1, this_mod = BIT)
6202 case 'A':
6203 SINGLE_LETTER_MOD (alt_modifier);
6204 break;
6206 case 'C':
6207 SINGLE_LETTER_MOD (ctrl_modifier);
6208 break;
6210 case 'H':
6211 SINGLE_LETTER_MOD (hyper_modifier);
6212 break;
6214 case 'M':
6215 SINGLE_LETTER_MOD (meta_modifier);
6216 break;
6218 case 'S':
6219 SINGLE_LETTER_MOD (shift_modifier);
6220 break;
6222 case 's':
6223 SINGLE_LETTER_MOD (super_modifier);
6224 break;
6226 #undef SINGLE_LETTER_MOD
6228 #define MULTI_LETTER_MOD(BIT, NAME, LEN) \
6229 if (i + LEN + 1 <= SBYTES (name) \
6230 && ! memcmp (SDATA (name) + i, NAME, LEN)) \
6232 this_mod_end = i + LEN; \
6233 this_mod = BIT; \
6236 case 'd':
6237 MULTI_LETTER_MOD (drag_modifier, "drag", 4);
6238 MULTI_LETTER_MOD (down_modifier, "down", 4);
6239 MULTI_LETTER_MOD (double_modifier, "double", 6);
6240 break;
6242 case 't':
6243 MULTI_LETTER_MOD (triple_modifier, "triple", 6);
6244 break;
6246 case 'u':
6247 MULTI_LETTER_MOD (up_modifier, "up", 2);
6248 break;
6249 #undef MULTI_LETTER_MOD
6253 /* If we found no modifier, stop looking for them. */
6254 if (this_mod_end == 0)
6255 break;
6257 /* Check there is a dash after the modifier, so that it
6258 really is a modifier. */
6259 if (this_mod_end >= SBYTES (name)
6260 || SREF (name, this_mod_end) != '-')
6261 break;
6263 /* This modifier is real; look for another. */
6264 modifiers |= this_mod;
6265 i = this_mod_end + 1;
6268 /* Should we include the `click' modifier? */
6269 if (! (modifiers & (down_modifier | drag_modifier
6270 | double_modifier | triple_modifier))
6271 && i + 7 == SBYTES (name)
6272 && memcmp (SDATA (name) + i, "mouse-", 6) == 0
6273 && ('0' <= SREF (name, i + 6) && SREF (name, i + 6) <= '9'))
6274 modifiers |= click_modifier;
6276 if (! (modifiers & (double_modifier | triple_modifier))
6277 && i + 6 < SBYTES (name)
6278 && memcmp (SDATA (name) + i, "wheel-", 6) == 0)
6279 modifiers |= click_modifier;
6281 if (modifier_end)
6282 *modifier_end = i;
6284 return modifiers;
6287 /* Return a symbol whose name is the modifier prefixes for MODIFIERS
6288 prepended to the string BASE[0..BASE_LEN-1].
6289 This doesn't use any caches. */
6290 static Lisp_Object
6291 apply_modifiers_uncached (int modifiers, char *base, int base_len, int base_len_byte)
6293 /* Since BASE could contain nulls, we can't use intern here; we have
6294 to use Fintern, which expects a genuine Lisp_String, and keeps a
6295 reference to it. */
6296 char new_mods[sizeof "A-C-H-M-S-s-up-down-drag-double-triple-"];
6297 int mod_len;
6300 char *p = new_mods;
6302 /* Mouse events should not exhibit the `up' modifier once they
6303 leave the event queue only accessible to C code; `up' will
6304 always be turned into a click or drag event before being
6305 presented to lisp code. But since lisp events can be
6306 synthesized bypassing the event queue and pushed into
6307 `unread-command-events' or its companions, it's better to just
6308 deal with unexpected modifier combinations. */
6310 if (modifiers & alt_modifier) { *p++ = 'A'; *p++ = '-'; }
6311 if (modifiers & ctrl_modifier) { *p++ = 'C'; *p++ = '-'; }
6312 if (modifiers & hyper_modifier) { *p++ = 'H'; *p++ = '-'; }
6313 if (modifiers & meta_modifier) { *p++ = 'M'; *p++ = '-'; }
6314 if (modifiers & shift_modifier) { *p++ = 'S'; *p++ = '-'; }
6315 if (modifiers & super_modifier) { *p++ = 's'; *p++ = '-'; }
6316 if (modifiers & double_modifier) p = stpcpy (p, "double-");
6317 if (modifiers & triple_modifier) p = stpcpy (p, "triple-");
6318 if (modifiers & up_modifier) p = stpcpy (p, "up-");
6319 if (modifiers & down_modifier) p = stpcpy (p, "down-");
6320 if (modifiers & drag_modifier) p = stpcpy (p, "drag-");
6321 /* The click modifier is denoted by the absence of other modifiers. */
6323 *p = '\0';
6325 mod_len = p - new_mods;
6329 Lisp_Object new_name;
6331 new_name = make_uninit_multibyte_string (mod_len + base_len,
6332 mod_len + base_len_byte);
6333 memcpy (SDATA (new_name), new_mods, mod_len);
6334 memcpy (SDATA (new_name) + mod_len, base, base_len_byte);
6336 return Fintern (new_name, Qnil);
6341 static const char *const modifier_names[] =
6343 "up", "down", "drag", "click", "double", "triple", 0, 0,
6344 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
6345 0, 0, "alt", "super", "hyper", "shift", "control", "meta"
6347 #define NUM_MOD_NAMES ARRAYELTS (modifier_names)
6349 static Lisp_Object modifier_symbols;
6351 /* Return the list of modifier symbols corresponding to the mask MODIFIERS. */
6352 static Lisp_Object
6353 lispy_modifier_list (int modifiers)
6355 Lisp_Object modifier_list;
6356 int i;
6358 modifier_list = Qnil;
6359 for (i = 0; (1<<i) <= modifiers && i < NUM_MOD_NAMES; i++)
6360 if (modifiers & (1<<i))
6361 modifier_list = Fcons (AREF (modifier_symbols, i),
6362 modifier_list);
6364 return modifier_list;
6368 /* Parse the modifiers on SYMBOL, and return a list like (UNMODIFIED MASK),
6369 where UNMODIFIED is the unmodified form of SYMBOL,
6370 MASK is the set of modifiers present in SYMBOL's name.
6371 This is similar to parse_modifiers_uncached, but uses the cache in
6372 SYMBOL's Qevent_symbol_element_mask property, and maintains the
6373 Qevent_symbol_elements property. */
6375 #define KEY_TO_CHAR(k) (XINT (k) & ((1 << CHARACTERBITS) - 1))
6377 Lisp_Object
6378 parse_modifiers (Lisp_Object symbol)
6380 Lisp_Object elements;
6382 if (INTEGERP (symbol))
6383 return list2i (KEY_TO_CHAR (symbol), XINT (symbol) & CHAR_MODIFIER_MASK);
6384 else if (!SYMBOLP (symbol))
6385 return Qnil;
6387 elements = Fget (symbol, Qevent_symbol_element_mask);
6388 if (CONSP (elements))
6389 return elements;
6390 else
6392 ptrdiff_t end;
6393 int modifiers = parse_modifiers_uncached (symbol, &end);
6394 Lisp_Object unmodified;
6395 Lisp_Object mask;
6397 unmodified = Fintern (make_string (SSDATA (SYMBOL_NAME (symbol)) + end,
6398 SBYTES (SYMBOL_NAME (symbol)) - end),
6399 Qnil);
6401 if (modifiers & ~INTMASK)
6402 emacs_abort ();
6403 XSETFASTINT (mask, modifiers);
6404 elements = list2 (unmodified, mask);
6406 /* Cache the parsing results on SYMBOL. */
6407 Fput (symbol, Qevent_symbol_element_mask,
6408 elements);
6409 Fput (symbol, Qevent_symbol_elements,
6410 Fcons (unmodified, lispy_modifier_list (modifiers)));
6412 /* Since we know that SYMBOL is modifiers applied to unmodified,
6413 it would be nice to put that in unmodified's cache.
6414 But we can't, since we're not sure that parse_modifiers is
6415 canonical. */
6417 return elements;
6421 DEFUN ("internal-event-symbol-parse-modifiers", Fevent_symbol_parse_modifiers,
6422 Sevent_symbol_parse_modifiers, 1, 1, 0,
6423 doc: /* Parse the event symbol. For internal use. */)
6424 (Lisp_Object symbol)
6426 /* Fill the cache if needed. */
6427 parse_modifiers (symbol);
6428 /* Ignore the result (which is stored on Qevent_symbol_element_mask)
6429 and use the Lispier representation stored on Qevent_symbol_elements
6430 instead. */
6431 return Fget (symbol, Qevent_symbol_elements);
6434 /* Apply the modifiers MODIFIERS to the symbol BASE.
6435 BASE must be unmodified.
6437 This is like apply_modifiers_uncached, but uses BASE's
6438 Qmodifier_cache property, if present.
6440 apply_modifiers copies the value of BASE's Qevent_kind property to
6441 the modified symbol. */
6442 static Lisp_Object
6443 apply_modifiers (int modifiers, Lisp_Object base)
6445 Lisp_Object cache, idx, entry, new_symbol;
6447 /* Mask out upper bits. We don't know where this value's been. */
6448 modifiers &= INTMASK;
6450 if (INTEGERP (base))
6451 return make_number (XINT (base) | modifiers);
6453 /* The click modifier never figures into cache indices. */
6454 cache = Fget (base, Qmodifier_cache);
6455 XSETFASTINT (idx, (modifiers & ~click_modifier));
6456 entry = assq_no_quit (idx, cache);
6458 if (CONSP (entry))
6459 new_symbol = XCDR (entry);
6460 else
6462 /* We have to create the symbol ourselves. */
6463 new_symbol = apply_modifiers_uncached (modifiers,
6464 SSDATA (SYMBOL_NAME (base)),
6465 SCHARS (SYMBOL_NAME (base)),
6466 SBYTES (SYMBOL_NAME (base)));
6468 /* Add the new symbol to the base's cache. */
6469 entry = Fcons (idx, new_symbol);
6470 Fput (base, Qmodifier_cache, Fcons (entry, cache));
6472 /* We have the parsing info now for free, so we could add it to
6473 the caches:
6474 XSETFASTINT (idx, modifiers);
6475 Fput (new_symbol, Qevent_symbol_element_mask,
6476 list2 (base, idx));
6477 Fput (new_symbol, Qevent_symbol_elements,
6478 Fcons (base, lispy_modifier_list (modifiers)));
6479 Sadly, this is only correct if `base' is indeed a base event,
6480 which is not necessarily the case. -stef */
6483 /* Make sure this symbol is of the same kind as BASE.
6485 You'd think we could just set this once and for all when we
6486 intern the symbol above, but reorder_modifiers may call us when
6487 BASE's property isn't set right; we can't assume that just
6488 because it has a Qmodifier_cache property it must have its
6489 Qevent_kind set right as well. */
6490 if (NILP (Fget (new_symbol, Qevent_kind)))
6492 Lisp_Object kind;
6494 kind = Fget (base, Qevent_kind);
6495 if (! NILP (kind))
6496 Fput (new_symbol, Qevent_kind, kind);
6499 return new_symbol;
6503 /* Given a symbol whose name begins with modifiers ("C-", "M-", etc),
6504 return a symbol with the modifiers placed in the canonical order.
6505 Canonical order is alphabetical, except for down and drag, which
6506 always come last. The 'click' modifier is never written out.
6508 Fdefine_key calls this to make sure that (for example) C-M-foo
6509 and M-C-foo end up being equivalent in the keymap. */
6511 Lisp_Object
6512 reorder_modifiers (Lisp_Object symbol)
6514 /* It's hopefully okay to write the code this way, since everything
6515 will soon be in caches, and no consing will be done at all. */
6516 Lisp_Object parsed;
6518 parsed = parse_modifiers (symbol);
6519 return apply_modifiers (XFASTINT (XCAR (XCDR (parsed))),
6520 XCAR (parsed));
6524 /* For handling events, we often want to produce a symbol whose name
6525 is a series of modifier key prefixes ("M-", "C-", etcetera) attached
6526 to some base, like the name of a function key or mouse button.
6527 modify_event_symbol produces symbols of this sort.
6529 NAME_TABLE should point to an array of strings, such that NAME_TABLE[i]
6530 is the name of the i'th symbol. TABLE_SIZE is the number of elements
6531 in the table.
6533 Alternatively, NAME_ALIST_OR_STEM is either an alist mapping codes
6534 into symbol names, or a string specifying a name stem used to
6535 construct a symbol name or the form `STEM-N', where N is the decimal
6536 representation of SYMBOL_NUM. NAME_ALIST_OR_STEM is used if it is
6537 non-nil; otherwise NAME_TABLE is used.
6539 SYMBOL_TABLE should be a pointer to a Lisp_Object whose value will
6540 persist between calls to modify_event_symbol that it can use to
6541 store a cache of the symbols it's generated for this NAME_TABLE
6542 before. The object stored there may be a vector or an alist.
6544 SYMBOL_NUM is the number of the base name we want from NAME_TABLE.
6546 MODIFIERS is a set of modifier bits (as given in struct input_events)
6547 whose prefixes should be applied to the symbol name.
6549 SYMBOL_KIND is the value to be placed in the event_kind property of
6550 the returned symbol.
6552 The symbols we create are supposed to have an
6553 `event-symbol-elements' property, which lists the modifiers present
6554 in the symbol's name. */
6556 static Lisp_Object
6557 modify_event_symbol (ptrdiff_t symbol_num, int modifiers, Lisp_Object symbol_kind,
6558 Lisp_Object name_alist_or_stem, const char *const *name_table,
6559 Lisp_Object *symbol_table, ptrdiff_t table_size)
6561 Lisp_Object value;
6562 Lisp_Object symbol_int;
6564 /* Get rid of the "vendor-specific" bit here. */
6565 XSETINT (symbol_int, symbol_num & 0xffffff);
6567 /* Is this a request for a valid symbol? */
6568 if (symbol_num < 0 || symbol_num >= table_size)
6569 return Qnil;
6571 if (CONSP (*symbol_table))
6572 value = Fcdr (assq_no_quit (symbol_int, *symbol_table));
6574 /* If *symbol_table doesn't seem to be initialized properly, fix that.
6575 *symbol_table should be a lisp vector TABLE_SIZE elements long,
6576 where the Nth element is the symbol for NAME_TABLE[N], or nil if
6577 we've never used that symbol before. */
6578 else
6580 if (! VECTORP (*symbol_table)
6581 || ASIZE (*symbol_table) != table_size)
6583 Lisp_Object size;
6585 XSETFASTINT (size, table_size);
6586 *symbol_table = Fmake_vector (size, Qnil);
6589 value = AREF (*symbol_table, symbol_num);
6592 /* Have we already used this symbol before? */
6593 if (NILP (value))
6595 /* No; let's create it. */
6596 if (CONSP (name_alist_or_stem))
6597 value = Fcdr_safe (Fassq (symbol_int, name_alist_or_stem));
6598 else if (STRINGP (name_alist_or_stem))
6600 char *buf;
6601 ptrdiff_t len = (SBYTES (name_alist_or_stem)
6602 + sizeof "-" + INT_STRLEN_BOUND (EMACS_INT));
6603 USE_SAFE_ALLOCA;
6604 buf = SAFE_ALLOCA (len);
6605 esprintf (buf, "%s-%"pI"d", SDATA (name_alist_or_stem),
6606 XINT (symbol_int) + 1);
6607 value = intern (buf);
6608 SAFE_FREE ();
6610 else if (name_table != 0 && name_table[symbol_num])
6611 value = intern (name_table[symbol_num]);
6613 #ifdef HAVE_WINDOW_SYSTEM
6614 if (NILP (value))
6616 char *name = x_get_keysym_name (symbol_num);
6617 if (name)
6618 value = intern (name);
6620 #endif
6622 if (NILP (value))
6624 char buf[sizeof "key-" + INT_STRLEN_BOUND (EMACS_INT)];
6625 sprintf (buf, "key-%"pD"d", symbol_num);
6626 value = intern (buf);
6629 if (CONSP (*symbol_table))
6630 *symbol_table = Fcons (Fcons (symbol_int, value), *symbol_table);
6631 else
6632 ASET (*symbol_table, symbol_num, value);
6634 /* Fill in the cache entries for this symbol; this also
6635 builds the Qevent_symbol_elements property, which the user
6636 cares about. */
6637 apply_modifiers (modifiers & click_modifier, value);
6638 Fput (value, Qevent_kind, symbol_kind);
6641 /* Apply modifiers to that symbol. */
6642 return apply_modifiers (modifiers, value);
6645 /* Convert a list that represents an event type,
6646 such as (ctrl meta backspace), into the usual representation of that
6647 event type as a number or a symbol. */
6649 DEFUN ("event-convert-list", Fevent_convert_list, Sevent_convert_list, 1, 1, 0,
6650 doc: /* Convert the event description list EVENT-DESC to an event type.
6651 EVENT-DESC should contain one base event type (a character or symbol)
6652 and zero or more modifier names (control, meta, hyper, super, shift, alt,
6653 drag, down, double or triple). The base must be last.
6654 The return value is an event type (a character or symbol) which
6655 has the same base event type and all the specified modifiers. */)
6656 (Lisp_Object event_desc)
6658 Lisp_Object base;
6659 int modifiers = 0;
6660 Lisp_Object rest;
6662 base = Qnil;
6663 rest = event_desc;
6664 while (CONSP (rest))
6666 Lisp_Object elt;
6667 int this = 0;
6669 elt = XCAR (rest);
6670 rest = XCDR (rest);
6672 /* Given a symbol, see if it is a modifier name. */
6673 if (SYMBOLP (elt) && CONSP (rest))
6674 this = parse_solitary_modifier (elt);
6676 if (this != 0)
6677 modifiers |= this;
6678 else if (!NILP (base))
6679 error ("Two bases given in one event");
6680 else
6681 base = elt;
6685 /* Let the symbol A refer to the character A. */
6686 if (SYMBOLP (base) && SCHARS (SYMBOL_NAME (base)) == 1)
6687 XSETINT (base, SREF (SYMBOL_NAME (base), 0));
6689 if (INTEGERP (base))
6691 /* Turn (shift a) into A. */
6692 if ((modifiers & shift_modifier) != 0
6693 && (XINT (base) >= 'a' && XINT (base) <= 'z'))
6695 XSETINT (base, XINT (base) - ('a' - 'A'));
6696 modifiers &= ~shift_modifier;
6699 /* Turn (control a) into C-a. */
6700 if (modifiers & ctrl_modifier)
6701 return make_number ((modifiers & ~ctrl_modifier)
6702 | make_ctrl_char (XINT (base)));
6703 else
6704 return make_number (modifiers | XINT (base));
6706 else if (SYMBOLP (base))
6707 return apply_modifiers (modifiers, base);
6708 else
6709 error ("Invalid base event");
6712 /* Try to recognize SYMBOL as a modifier name.
6713 Return the modifier flag bit, or 0 if not recognized. */
6716 parse_solitary_modifier (Lisp_Object symbol)
6718 Lisp_Object name = SYMBOL_NAME (symbol);
6720 switch (SREF (name, 0))
6722 #define SINGLE_LETTER_MOD(BIT) \
6723 if (SBYTES (name) == 1) \
6724 return BIT;
6726 #define MULTI_LETTER_MOD(BIT, NAME, LEN) \
6727 if (LEN == SBYTES (name) \
6728 && ! memcmp (SDATA (name), NAME, LEN)) \
6729 return BIT;
6731 case 'A':
6732 SINGLE_LETTER_MOD (alt_modifier);
6733 break;
6735 case 'a':
6736 MULTI_LETTER_MOD (alt_modifier, "alt", 3);
6737 break;
6739 case 'C':
6740 SINGLE_LETTER_MOD (ctrl_modifier);
6741 break;
6743 case 'c':
6744 MULTI_LETTER_MOD (ctrl_modifier, "ctrl", 4);
6745 MULTI_LETTER_MOD (ctrl_modifier, "control", 7);
6746 break;
6748 case 'H':
6749 SINGLE_LETTER_MOD (hyper_modifier);
6750 break;
6752 case 'h':
6753 MULTI_LETTER_MOD (hyper_modifier, "hyper", 5);
6754 break;
6756 case 'M':
6757 SINGLE_LETTER_MOD (meta_modifier);
6758 break;
6760 case 'm':
6761 MULTI_LETTER_MOD (meta_modifier, "meta", 4);
6762 break;
6764 case 'S':
6765 SINGLE_LETTER_MOD (shift_modifier);
6766 break;
6768 case 's':
6769 MULTI_LETTER_MOD (shift_modifier, "shift", 5);
6770 MULTI_LETTER_MOD (super_modifier, "super", 5);
6771 SINGLE_LETTER_MOD (super_modifier);
6772 break;
6774 case 'd':
6775 MULTI_LETTER_MOD (drag_modifier, "drag", 4);
6776 MULTI_LETTER_MOD (down_modifier, "down", 4);
6777 MULTI_LETTER_MOD (double_modifier, "double", 6);
6778 break;
6780 case 't':
6781 MULTI_LETTER_MOD (triple_modifier, "triple", 6);
6782 break;
6784 case 'u':
6785 MULTI_LETTER_MOD (up_modifier, "up", 2);
6786 break;
6788 #undef SINGLE_LETTER_MOD
6789 #undef MULTI_LETTER_MOD
6792 return 0;
6795 /* Return true if EVENT is a list whose elements are all integers or symbols.
6796 Such a list is not valid as an event,
6797 but it can be a Lucid-style event type list. */
6799 bool
6800 lucid_event_type_list_p (Lisp_Object object)
6802 Lisp_Object tail;
6804 if (! CONSP (object))
6805 return 0;
6807 if (EQ (XCAR (object), Qhelp_echo)
6808 || EQ (XCAR (object), Qvertical_line)
6809 || EQ (XCAR (object), Qmode_line)
6810 || EQ (XCAR (object), Qheader_line))
6811 return 0;
6813 for (tail = object; CONSP (tail); tail = XCDR (tail))
6815 Lisp_Object elt;
6816 elt = XCAR (tail);
6817 if (! (INTEGERP (elt) || SYMBOLP (elt)))
6818 return 0;
6821 return NILP (tail);
6824 /* Return true if terminal input chars are available.
6825 Also, store the return value into INPUT_PENDING.
6827 Serves the purpose of ioctl (0, FIONREAD, ...)
6828 but works even if FIONREAD does not exist.
6829 (In fact, this may actually read some input.)
6831 If READABLE_EVENTS_DO_TIMERS_NOW is set in FLAGS, actually run
6832 timer events that are ripe.
6833 If READABLE_EVENTS_FILTER_EVENTS is set in FLAGS, ignore internal
6834 events (FOCUS_IN_EVENT).
6835 If READABLE_EVENTS_IGNORE_SQUEEZABLES is set in FLAGS, ignore mouse
6836 movements and toolkit scroll bar thumb drags. */
6838 static bool
6839 get_input_pending (int flags)
6841 /* First of all, have we already counted some input? */
6842 input_pending = (!NILP (Vquit_flag) || readable_events (flags));
6844 /* If input is being read as it arrives, and we have none, there is none. */
6845 if (!input_pending && (!interrupt_input || interrupts_deferred))
6847 /* Try to read some input and see how much we get. */
6848 gobble_input ();
6849 input_pending = (!NILP (Vquit_flag) || readable_events (flags));
6852 return input_pending;
6855 /* Put a BUFFER_SWITCH_EVENT in the buffer
6856 so that read_key_sequence will notice the new current buffer. */
6858 void
6859 record_asynch_buffer_change (void)
6861 /* We don't need a buffer-switch event unless Emacs is waiting for input.
6862 The purpose of the event is to make read_key_sequence look up the
6863 keymaps again. If we aren't in read_key_sequence, we don't need one,
6864 and the event could cause trouble by messing up (input-pending-p).
6865 Note: Fwaiting_for_user_input_p always returns nil when async
6866 subprocesses aren't supported. */
6867 if (!NILP (Fwaiting_for_user_input_p ()))
6869 struct input_event event;
6871 EVENT_INIT (event);
6872 event.kind = BUFFER_SWITCH_EVENT;
6873 event.frame_or_window = Qnil;
6874 event.arg = Qnil;
6876 /* Make sure no interrupt happens while storing the event. */
6877 #ifdef USABLE_SIGIO
6878 if (interrupt_input)
6879 kbd_buffer_store_event (&event);
6880 else
6881 #endif
6883 stop_polling ();
6884 kbd_buffer_store_event (&event);
6885 start_polling ();
6890 /* Read any terminal input already buffered up by the system
6891 into the kbd_buffer, but do not wait.
6893 Return the number of keyboard chars read, or -1 meaning
6894 this is a bad time to try to read input. */
6897 gobble_input (void)
6899 int nread = 0;
6900 bool err = false;
6901 struct terminal *t;
6903 /* Store pending user signal events, if any. */
6904 store_user_signal_events ();
6906 /* Loop through the available terminals, and call their input hooks. */
6907 t = terminal_list;
6908 while (t)
6910 struct terminal *next = t->next_terminal;
6912 if (t->read_socket_hook)
6914 int nr;
6915 struct input_event hold_quit;
6917 if (input_blocked_p ())
6919 pending_signals = true;
6920 break;
6923 EVENT_INIT (hold_quit);
6924 hold_quit.kind = NO_EVENT;
6926 /* No need for FIONREAD or fcntl; just say don't wait. */
6927 while ((nr = (*t->read_socket_hook) (t, &hold_quit)) > 0)
6928 nread += nr;
6930 if (nr == -1) /* Not OK to read input now. */
6932 err = true;
6934 else if (nr == -2) /* Non-transient error. */
6936 /* The terminal device terminated; it should be closed. */
6938 /* Kill Emacs if this was our last terminal. */
6939 if (!terminal_list->next_terminal)
6940 /* Formerly simply reported no input, but that
6941 sometimes led to a failure of Emacs to terminate.
6942 SIGHUP seems appropriate if we can't reach the
6943 terminal. */
6944 /* ??? Is it really right to send the signal just to
6945 this process rather than to the whole process
6946 group? Perhaps on systems with FIONREAD Emacs is
6947 alone in its group. */
6948 terminate_due_to_signal (SIGHUP, 10);
6950 /* XXX Is calling delete_terminal safe here? It calls delete_frame. */
6952 Lisp_Object tmp;
6953 XSETTERMINAL (tmp, t);
6954 Fdelete_terminal (tmp, Qnoelisp);
6958 /* If there was no error, make sure the pointer
6959 is visible for all frames on this terminal. */
6960 if (nr >= 0)
6962 Lisp_Object tail, frame;
6964 FOR_EACH_FRAME (tail, frame)
6966 struct frame *f = XFRAME (frame);
6967 if (FRAME_TERMINAL (f) == t)
6968 frame_make_pointer_visible (f);
6972 if (hold_quit.kind != NO_EVENT)
6973 kbd_buffer_store_event (&hold_quit);
6976 t = next;
6979 if (err && !nread)
6980 nread = -1;
6982 return nread;
6985 /* This is the tty way of reading available input.
6987 Note that each terminal device has its own `struct terminal' object,
6988 and so this function is called once for each individual termcap
6989 terminal. The first parameter indicates which terminal to read from. */
6992 tty_read_avail_input (struct terminal *terminal,
6993 struct input_event *hold_quit)
6995 /* Using KBD_BUFFER_SIZE - 1 here avoids reading more than
6996 the kbd_buffer can really hold. That may prevent loss
6997 of characters on some systems when input is stuffed at us. */
6998 unsigned char cbuf[KBD_BUFFER_SIZE - 1];
6999 int n_to_read, i;
7000 struct tty_display_info *tty = terminal->display_info.tty;
7001 int nread = 0;
7002 #ifdef subprocesses
7003 int buffer_free = KBD_BUFFER_SIZE - kbd_buffer_nr_stored () - 1;
7005 if (kbd_on_hold_p () || buffer_free <= 0)
7006 return 0;
7007 #endif /* subprocesses */
7009 if (!terminal->name) /* Don't read from a dead terminal. */
7010 return 0;
7012 if (terminal->type != output_termcap
7013 && terminal->type != output_msdos_raw)
7014 emacs_abort ();
7016 /* XXX I think the following code should be moved to separate hook
7017 functions in system-dependent files. */
7018 #ifdef WINDOWSNT
7019 /* FIXME: AFAIK, tty_read_avail_input is not used under w32 since the non-GUI
7020 code sets read_socket_hook to w32_console_read_socket instead! */
7021 return 0;
7022 #else /* not WINDOWSNT */
7023 if (! tty->term_initted) /* In case we get called during bootstrap. */
7024 return 0;
7026 if (! tty->input)
7027 return 0; /* The terminal is suspended. */
7029 #ifdef MSDOS
7030 n_to_read = dos_keysns ();
7031 if (n_to_read == 0)
7032 return 0;
7034 cbuf[0] = dos_keyread ();
7035 nread = 1;
7037 #else /* not MSDOS */
7038 #ifdef HAVE_GPM
7039 if (gpm_tty == tty)
7041 Gpm_Event event;
7042 struct input_event gpm_hold_quit;
7043 int gpm, fd = gpm_fd;
7045 EVENT_INIT (gpm_hold_quit);
7046 gpm_hold_quit.kind = NO_EVENT;
7048 /* gpm==1 if event received.
7049 gpm==0 if the GPM daemon has closed the connection, in which case
7050 Gpm_GetEvent closes gpm_fd and clears it to -1, which is why
7051 we save it in `fd' so close_gpm can remove it from the
7052 select masks.
7053 gpm==-1 if a protocol error or EWOULDBLOCK; the latter is normal. */
7054 while (gpm = Gpm_GetEvent (&event), gpm == 1) {
7055 nread += handle_one_term_event (tty, &event, &gpm_hold_quit);
7057 if (gpm == 0)
7058 /* Presumably the GPM daemon has closed the connection. */
7059 close_gpm (fd);
7060 if (gpm_hold_quit.kind != NO_EVENT)
7061 kbd_buffer_store_event (&gpm_hold_quit);
7062 if (nread)
7063 return nread;
7065 #endif /* HAVE_GPM */
7067 /* Determine how many characters we should *try* to read. */
7068 #ifdef USABLE_FIONREAD
7069 /* Find out how much input is available. */
7070 if (ioctl (fileno (tty->input), FIONREAD, &n_to_read) < 0)
7072 if (! noninteractive)
7073 return -2; /* Close this terminal. */
7074 else
7075 n_to_read = 0;
7077 if (n_to_read == 0)
7078 return 0;
7079 if (n_to_read > sizeof cbuf)
7080 n_to_read = sizeof cbuf;
7081 #elif defined USG || defined CYGWIN
7082 /* Read some input if available, but don't wait. */
7083 n_to_read = sizeof cbuf;
7084 fcntl (fileno (tty->input), F_SETFL, O_NONBLOCK);
7085 #else
7086 # error "Cannot read without possibly delaying"
7087 #endif
7089 #ifdef subprocesses
7090 /* Don't read more than we can store. */
7091 if (n_to_read > buffer_free)
7092 n_to_read = buffer_free;
7093 #endif /* subprocesses */
7095 /* Now read; for one reason or another, this will not block.
7096 NREAD is set to the number of chars read. */
7099 nread = emacs_read (fileno (tty->input), (char *) cbuf, n_to_read);
7100 /* POSIX infers that processes which are not in the session leader's
7101 process group won't get SIGHUPs at logout time. BSDI adheres to
7102 this part standard and returns -1 from read (0) with errno==EIO
7103 when the control tty is taken away.
7104 Jeffrey Honig <jch@bsdi.com> says this is generally safe. */
7105 if (nread == -1 && errno == EIO)
7106 return -2; /* Close this terminal. */
7107 #if defined (AIX) && defined (_BSD)
7108 /* The kernel sometimes fails to deliver SIGHUP for ptys.
7109 This looks incorrect, but it isn't, because _BSD causes
7110 O_NDELAY to be defined in fcntl.h as O_NONBLOCK,
7111 and that causes a value other than 0 when there is no input. */
7112 if (nread == 0)
7113 return -2; /* Close this terminal. */
7114 #endif
7116 while (
7117 /* We used to retry the read if it was interrupted.
7118 But this does the wrong thing when O_NONBLOCK causes
7119 an EAGAIN error. Does anybody know of a situation
7120 where a retry is actually needed? */
7121 #if 0
7122 nread < 0 && (errno == EAGAIN || errno == EFAULT
7123 #ifdef EBADSLT
7124 || errno == EBADSLT
7125 #endif
7127 #else
7129 #endif
7132 #ifndef USABLE_FIONREAD
7133 #if defined (USG) || defined (CYGWIN)
7134 fcntl (fileno (tty->input), F_SETFL, 0);
7135 #endif /* USG or CYGWIN */
7136 #endif /* no FIONREAD */
7138 if (nread <= 0)
7139 return nread;
7141 #endif /* not MSDOS */
7142 #endif /* not WINDOWSNT */
7144 for (i = 0; i < nread; i++)
7146 struct input_event buf;
7147 EVENT_INIT (buf);
7148 buf.kind = ASCII_KEYSTROKE_EVENT;
7149 buf.modifiers = 0;
7150 if (tty->meta_key == 1 && (cbuf[i] & 0x80))
7151 buf.modifiers = meta_modifier;
7152 if (tty->meta_key != 2)
7153 cbuf[i] &= ~0x80;
7155 buf.code = cbuf[i];
7156 /* Set the frame corresponding to the active tty. Note that the
7157 value of selected_frame is not reliable here, redisplay tends
7158 to temporarily change it. */
7159 buf.frame_or_window = tty->top_frame;
7160 buf.arg = Qnil;
7162 kbd_buffer_store_event (&buf);
7163 /* Don't look at input that follows a C-g too closely.
7164 This reduces lossage due to autorepeat on C-g. */
7165 if (buf.kind == ASCII_KEYSTROKE_EVENT
7166 && buf.code == quit_char)
7167 break;
7170 return nread;
7173 static void
7174 handle_async_input (void)
7176 #ifdef USABLE_SIGIO
7177 while (1)
7179 int nread = gobble_input ();
7180 /* -1 means it's not ok to read the input now.
7181 UNBLOCK_INPUT will read it later; now, avoid infinite loop.
7182 0 means there was no keyboard input available. */
7183 if (nread <= 0)
7184 break;
7186 #endif
7189 void
7190 process_pending_signals (void)
7192 pending_signals = false;
7193 handle_async_input ();
7194 do_pending_atimers ();
7197 /* Undo any number of BLOCK_INPUT calls down to level LEVEL,
7198 and reinvoke any pending signal if the level is now 0 and
7199 a fatal error is not already in progress. */
7201 void
7202 unblock_input_to (int level)
7204 interrupt_input_blocked = level;
7205 if (level == 0)
7207 if (pending_signals && !fatal_error_in_progress)
7208 process_pending_signals ();
7210 else if (level < 0)
7211 emacs_abort ();
7214 /* End critical section.
7216 If doing signal-driven input, and a signal came in when input was
7217 blocked, reinvoke the signal handler now to deal with it.
7219 It will also process queued input, if it was not read before.
7220 When a longer code sequence does not use block/unblock input
7221 at all, the whole input gathered up to the next call to
7222 unblock_input will be processed inside that call. */
7224 void
7225 unblock_input (void)
7227 unblock_input_to (interrupt_input_blocked - 1);
7230 /* Undo any number of BLOCK_INPUT calls,
7231 and also reinvoke any pending signal. */
7233 void
7234 totally_unblock_input (void)
7236 unblock_input_to (0);
7239 #ifdef USABLE_SIGIO
7241 void
7242 handle_input_available_signal (int sig)
7244 pending_signals = true;
7246 if (input_available_clear_time)
7247 *input_available_clear_time = make_timespec (0, 0);
7250 static void
7251 deliver_input_available_signal (int sig)
7253 deliver_process_signal (sig, handle_input_available_signal);
7255 #endif /* USABLE_SIGIO */
7258 /* User signal events. */
7260 struct user_signal_info
7262 /* Signal number. */
7263 int sig;
7265 /* Name of the signal. */
7266 char *name;
7268 /* Number of pending signals. */
7269 int npending;
7271 struct user_signal_info *next;
7274 /* List of user signals. */
7275 static struct user_signal_info *user_signals = NULL;
7277 void
7278 add_user_signal (int sig, const char *name)
7280 struct sigaction action;
7281 struct user_signal_info *p;
7283 for (p = user_signals; p; p = p->next)
7284 if (p->sig == sig)
7285 /* Already added. */
7286 return;
7288 p = xmalloc (sizeof *p);
7289 p->sig = sig;
7290 p->name = xstrdup (name);
7291 p->npending = 0;
7292 p->next = user_signals;
7293 user_signals = p;
7295 emacs_sigaction_init (&action, deliver_user_signal);
7296 sigaction (sig, &action, 0);
7299 static void
7300 handle_user_signal (int sig)
7302 struct user_signal_info *p;
7303 const char *special_event_name = NULL;
7305 if (SYMBOLP (Vdebug_on_event))
7306 special_event_name = SSDATA (SYMBOL_NAME (Vdebug_on_event));
7308 for (p = user_signals; p; p = p->next)
7309 if (p->sig == sig)
7311 if (special_event_name
7312 && strcmp (special_event_name, p->name) == 0)
7314 /* Enter the debugger in many ways. */
7315 debug_on_next_call = true;
7316 debug_on_quit = true;
7317 Vquit_flag = Qt;
7318 Vinhibit_quit = Qnil;
7320 /* Eat the event. */
7321 break;
7324 p->npending++;
7325 #ifdef USABLE_SIGIO
7326 if (interrupt_input)
7327 handle_input_available_signal (sig);
7328 else
7329 #endif
7331 /* Tell wait_reading_process_output that it needs to wake
7332 up and look around. */
7333 if (input_available_clear_time)
7334 *input_available_clear_time = make_timespec (0, 0);
7336 break;
7340 static void
7341 deliver_user_signal (int sig)
7343 deliver_process_signal (sig, handle_user_signal);
7346 static char *
7347 find_user_signal_name (int sig)
7349 struct user_signal_info *p;
7351 for (p = user_signals; p; p = p->next)
7352 if (p->sig == sig)
7353 return p->name;
7355 return NULL;
7358 static void
7359 store_user_signal_events (void)
7361 struct user_signal_info *p;
7362 struct input_event buf;
7363 bool buf_initialized = false;
7365 for (p = user_signals; p; p = p->next)
7366 if (p->npending > 0)
7368 if (! buf_initialized)
7370 memset (&buf, 0, sizeof buf);
7371 buf.kind = USER_SIGNAL_EVENT;
7372 buf.frame_or_window = selected_frame;
7373 buf_initialized = true;
7378 buf.code = p->sig;
7379 kbd_buffer_store_event (&buf);
7380 p->npending--;
7382 while (p->npending > 0);
7387 static void menu_bar_item (Lisp_Object, Lisp_Object, Lisp_Object, void *);
7388 static Lisp_Object menu_bar_one_keymap_changed_items;
7390 /* These variables hold the vector under construction within
7391 menu_bar_items and its subroutines, and the current index
7392 for storing into that vector. */
7393 static Lisp_Object menu_bar_items_vector;
7394 static int menu_bar_items_index;
7397 static const char *separator_names[] = {
7398 "space",
7399 "no-line",
7400 "single-line",
7401 "double-line",
7402 "single-dashed-line",
7403 "double-dashed-line",
7404 "shadow-etched-in",
7405 "shadow-etched-out",
7406 "shadow-etched-in-dash",
7407 "shadow-etched-out-dash",
7408 "shadow-double-etched-in",
7409 "shadow-double-etched-out",
7410 "shadow-double-etched-in-dash",
7411 "shadow-double-etched-out-dash",
7415 /* Return true if LABEL specifies a separator. */
7417 bool
7418 menu_separator_name_p (const char *label)
7420 if (!label)
7421 return 0;
7422 else if (strlen (label) > 3
7423 && memcmp (label, "--", 2) == 0
7424 && label[2] != '-')
7426 int i;
7427 label += 2;
7428 for (i = 0; separator_names[i]; ++i)
7429 if (strcmp (label, separator_names[i]) == 0)
7430 return 1;
7432 else
7434 /* It's a separator if it contains only dashes. */
7435 while (*label == '-')
7436 ++label;
7437 return (*label == 0);
7440 return 0;
7444 /* Return a vector of menu items for a menu bar, appropriate
7445 to the current buffer. Each item has three elements in the vector:
7446 KEY STRING MAPLIST.
7448 OLD is an old vector we can optionally reuse, or nil. */
7450 Lisp_Object
7451 menu_bar_items (Lisp_Object old)
7453 /* The number of keymaps we're scanning right now, and the number of
7454 keymaps we have allocated space for. */
7455 ptrdiff_t nmaps;
7457 /* maps[0..nmaps-1] are the prefix definitions of KEYBUF[0..t-1]
7458 in the current keymaps, or nil where it is not a prefix. */
7459 Lisp_Object *maps;
7461 Lisp_Object mapsbuf[3];
7462 Lisp_Object def, tail;
7464 ptrdiff_t mapno;
7465 Lisp_Object oquit;
7467 USE_SAFE_ALLOCA;
7469 /* In order to build the menus, we need to call the keymap
7470 accessors. They all call QUIT. But this function is called
7471 during redisplay, during which a quit is fatal. So inhibit
7472 quitting while building the menus.
7473 We do this instead of specbind because (1) errors will clear it anyway
7474 and (2) this avoids risk of specpdl overflow. */
7475 oquit = Vinhibit_quit;
7476 Vinhibit_quit = Qt;
7478 if (!NILP (old))
7479 menu_bar_items_vector = old;
7480 else
7481 menu_bar_items_vector = Fmake_vector (make_number (24), Qnil);
7482 menu_bar_items_index = 0;
7484 /* Build our list of keymaps.
7485 If we recognize a function key and replace its escape sequence in
7486 keybuf with its symbol, or if the sequence starts with a mouse
7487 click and we need to switch buffers, we jump back here to rebuild
7488 the initial keymaps from the current buffer. */
7490 Lisp_Object *tmaps;
7492 /* Should overriding-terminal-local-map and overriding-local-map apply? */
7493 if (!NILP (Voverriding_local_map_menu_flag)
7494 && !NILP (Voverriding_local_map))
7496 /* Yes, use them (if non-nil) as well as the global map. */
7497 maps = mapsbuf;
7498 nmaps = 0;
7499 if (!NILP (KVAR (current_kboard, Voverriding_terminal_local_map)))
7500 maps[nmaps++] = KVAR (current_kboard, Voverriding_terminal_local_map);
7501 if (!NILP (Voverriding_local_map))
7502 maps[nmaps++] = Voverriding_local_map;
7504 else
7506 /* No, so use major and minor mode keymaps and keymap property.
7507 Note that menu-bar bindings in the local-map and keymap
7508 properties may not work reliable, as they are only
7509 recognized when the menu-bar (or mode-line) is updated,
7510 which does not normally happen after every command. */
7511 ptrdiff_t nminor = current_minor_maps (NULL, &tmaps);
7512 SAFE_NALLOCA (maps, 1, nminor + 4);
7513 nmaps = 0;
7514 Lisp_Object tem = KVAR (current_kboard, Voverriding_terminal_local_map);
7515 if (!NILP (tem) && !NILP (Voverriding_local_map_menu_flag))
7516 maps[nmaps++] = tem;
7517 if (tem = get_local_map (PT, current_buffer, Qkeymap), !NILP (tem))
7518 maps[nmaps++] = tem;
7519 if (nminor != 0)
7521 memcpy (maps + nmaps, tmaps, nminor * sizeof (maps[0]));
7522 nmaps += nminor;
7524 maps[nmaps++] = get_local_map (PT, current_buffer, Qlocal_map);
7526 maps[nmaps++] = current_global_map;
7529 /* Look up in each map the dummy prefix key `menu-bar'. */
7531 for (mapno = nmaps - 1; mapno >= 0; mapno--)
7532 if (!NILP (maps[mapno]))
7534 def = get_keymap (access_keymap (maps[mapno], Qmenu_bar, 1, 0, 1),
7535 0, 1);
7536 if (CONSP (def))
7538 menu_bar_one_keymap_changed_items = Qnil;
7539 map_keymap_canonical (def, menu_bar_item, Qnil, NULL);
7543 /* Move to the end those items that should be at the end. */
7545 for (tail = Vmenu_bar_final_items; CONSP (tail); tail = XCDR (tail))
7547 int i;
7548 int end = menu_bar_items_index;
7550 for (i = 0; i < end; i += 4)
7551 if (EQ (XCAR (tail), AREF (menu_bar_items_vector, i)))
7553 Lisp_Object tem0, tem1, tem2, tem3;
7554 /* Move the item at index I to the end,
7555 shifting all the others forward. */
7556 tem0 = AREF (menu_bar_items_vector, i + 0);
7557 tem1 = AREF (menu_bar_items_vector, i + 1);
7558 tem2 = AREF (menu_bar_items_vector, i + 2);
7559 tem3 = AREF (menu_bar_items_vector, i + 3);
7560 if (end > i + 4)
7561 memmove (aref_addr (menu_bar_items_vector, i),
7562 aref_addr (menu_bar_items_vector, i + 4),
7563 (end - i - 4) * word_size);
7564 ASET (menu_bar_items_vector, end - 4, tem0);
7565 ASET (menu_bar_items_vector, end - 3, tem1);
7566 ASET (menu_bar_items_vector, end - 2, tem2);
7567 ASET (menu_bar_items_vector, end - 1, tem3);
7568 break;
7572 /* Add nil, nil, nil, nil at the end. */
7574 int i = menu_bar_items_index;
7575 if (i + 4 > ASIZE (menu_bar_items_vector))
7576 menu_bar_items_vector
7577 = larger_vector (menu_bar_items_vector, 4, -1);
7578 /* Add this item. */
7579 ASET (menu_bar_items_vector, i, Qnil); i++;
7580 ASET (menu_bar_items_vector, i, Qnil); i++;
7581 ASET (menu_bar_items_vector, i, Qnil); i++;
7582 ASET (menu_bar_items_vector, i, Qnil); i++;
7583 menu_bar_items_index = i;
7586 Vinhibit_quit = oquit;
7587 SAFE_FREE ();
7588 return menu_bar_items_vector;
7591 /* Add one item to menu_bar_items_vector, for KEY, ITEM_STRING and DEF.
7592 If there's already an item for KEY, add this DEF to it. */
7594 Lisp_Object item_properties;
7596 static void
7597 menu_bar_item (Lisp_Object key, Lisp_Object item, Lisp_Object dummy1, void *dummy2)
7599 struct gcpro gcpro1;
7600 int i;
7601 bool parsed;
7602 Lisp_Object tem;
7604 if (EQ (item, Qundefined))
7606 /* If a map has an explicit `undefined' as definition,
7607 discard any previously made menu bar item. */
7609 for (i = 0; i < menu_bar_items_index; i += 4)
7610 if (EQ (key, AREF (menu_bar_items_vector, i)))
7612 if (menu_bar_items_index > i + 4)
7613 memmove (aref_addr (menu_bar_items_vector, i),
7614 aref_addr (menu_bar_items_vector, i + 4),
7615 (menu_bar_items_index - i - 4) * word_size);
7616 menu_bar_items_index -= 4;
7620 /* If this keymap has already contributed to this KEY,
7621 don't contribute to it a second time. */
7622 tem = Fmemq (key, menu_bar_one_keymap_changed_items);
7623 if (!NILP (tem) || NILP (item))
7624 return;
7626 menu_bar_one_keymap_changed_items
7627 = Fcons (key, menu_bar_one_keymap_changed_items);
7629 /* We add to menu_bar_one_keymap_changed_items before doing the
7630 parse_menu_item, so that if it turns out it wasn't a menu item,
7631 it still correctly hides any further menu item. */
7632 GCPRO1 (key);
7633 parsed = parse_menu_item (item, 1);
7634 UNGCPRO;
7635 if (!parsed)
7636 return;
7638 item = AREF (item_properties, ITEM_PROPERTY_DEF);
7640 /* Find any existing item for this KEY. */
7641 for (i = 0; i < menu_bar_items_index; i += 4)
7642 if (EQ (key, AREF (menu_bar_items_vector, i)))
7643 break;
7645 /* If we did not find this KEY, add it at the end. */
7646 if (i == menu_bar_items_index)
7648 /* If vector is too small, get a bigger one. */
7649 if (i + 4 > ASIZE (menu_bar_items_vector))
7650 menu_bar_items_vector = larger_vector (menu_bar_items_vector, 4, -1);
7651 /* Add this item. */
7652 ASET (menu_bar_items_vector, i, key); i++;
7653 ASET (menu_bar_items_vector, i,
7654 AREF (item_properties, ITEM_PROPERTY_NAME)); i++;
7655 ASET (menu_bar_items_vector, i, list1 (item)); i++;
7656 ASET (menu_bar_items_vector, i, make_number (0)); i++;
7657 menu_bar_items_index = i;
7659 /* We did find an item for this KEY. Add ITEM to its list of maps. */
7660 else
7662 Lisp_Object old;
7663 old = AREF (menu_bar_items_vector, i + 2);
7664 /* If the new and the old items are not both keymaps,
7665 the lookup will only find `item'. */
7666 item = Fcons (item, KEYMAPP (item) && KEYMAPP (XCAR (old)) ? old : Qnil);
7667 ASET (menu_bar_items_vector, i + 2, item);
7671 /* This is used as the handler when calling menu_item_eval_property. */
7672 static Lisp_Object
7673 menu_item_eval_property_1 (Lisp_Object arg)
7675 /* If we got a quit from within the menu computation,
7676 quit all the way out of it. This takes care of C-] in the debugger. */
7677 if (CONSP (arg) && EQ (XCAR (arg), Qquit))
7678 Fsignal (Qquit, Qnil);
7680 return Qnil;
7683 static Lisp_Object
7684 eval_dyn (Lisp_Object form)
7686 return Feval (form, Qnil);
7689 /* Evaluate an expression and return the result (or nil if something
7690 went wrong). Used to evaluate dynamic parts of menu items. */
7691 Lisp_Object
7692 menu_item_eval_property (Lisp_Object sexpr)
7694 ptrdiff_t count = SPECPDL_INDEX ();
7695 Lisp_Object val;
7696 specbind (Qinhibit_redisplay, Qt);
7697 val = internal_condition_case_1 (eval_dyn, sexpr, Qerror,
7698 menu_item_eval_property_1);
7699 return unbind_to (count, val);
7702 /* This function parses a menu item and leaves the result in the
7703 vector item_properties.
7704 ITEM is a key binding, a possible menu item.
7705 INMENUBAR is > 0 when this is considered for an entry in a menu bar
7706 top level.
7707 INMENUBAR is < 0 when this is considered for an entry in a keyboard menu.
7708 parse_menu_item returns true if the item is a menu item and false
7709 otherwise. */
7711 bool
7712 parse_menu_item (Lisp_Object item, int inmenubar)
7714 Lisp_Object def, tem, item_string, start;
7715 Lisp_Object filter;
7716 Lisp_Object keyhint;
7717 int i;
7719 filter = Qnil;
7720 keyhint = Qnil;
7722 if (!CONSP (item))
7723 return 0;
7725 /* Create item_properties vector if necessary. */
7726 if (NILP (item_properties))
7727 item_properties
7728 = Fmake_vector (make_number (ITEM_PROPERTY_ENABLE + 1), Qnil);
7730 /* Initialize optional entries. */
7731 for (i = ITEM_PROPERTY_DEF; i < ITEM_PROPERTY_ENABLE; i++)
7732 ASET (item_properties, i, Qnil);
7733 ASET (item_properties, ITEM_PROPERTY_ENABLE, Qt);
7735 /* Save the item here to protect it from GC. */
7736 ASET (item_properties, ITEM_PROPERTY_ITEM, item);
7738 item_string = XCAR (item);
7740 start = item;
7741 item = XCDR (item);
7742 if (STRINGP (item_string))
7744 /* Old format menu item. */
7745 ASET (item_properties, ITEM_PROPERTY_NAME, item_string);
7747 /* Maybe help string. */
7748 if (CONSP (item) && STRINGP (XCAR (item)))
7750 ASET (item_properties, ITEM_PROPERTY_HELP,
7751 Fsubstitute_command_keys (XCAR (item)));
7752 start = item;
7753 item = XCDR (item);
7756 /* Maybe an obsolete key binding cache. */
7757 if (CONSP (item) && CONSP (XCAR (item))
7758 && (NILP (XCAR (XCAR (item)))
7759 || VECTORP (XCAR (XCAR (item)))))
7760 item = XCDR (item);
7762 /* This is the real definition--the function to run. */
7763 ASET (item_properties, ITEM_PROPERTY_DEF, item);
7765 /* Get enable property, if any. */
7766 if (SYMBOLP (item))
7768 tem = Fget (item, Qmenu_enable);
7769 if (!NILP (Venable_disabled_menus_and_buttons))
7770 ASET (item_properties, ITEM_PROPERTY_ENABLE, Qt);
7771 else if (!NILP (tem))
7772 ASET (item_properties, ITEM_PROPERTY_ENABLE, tem);
7775 else if (EQ (item_string, Qmenu_item) && CONSP (item))
7777 /* New format menu item. */
7778 ASET (item_properties, ITEM_PROPERTY_NAME, XCAR (item));
7779 start = XCDR (item);
7780 if (CONSP (start))
7782 /* We have a real binding. */
7783 ASET (item_properties, ITEM_PROPERTY_DEF, XCAR (start));
7785 item = XCDR (start);
7786 /* Is there an obsolete cache list with key equivalences. */
7787 if (CONSP (item) && CONSP (XCAR (item)))
7788 item = XCDR (item);
7790 /* Parse properties. */
7791 while (CONSP (item) && CONSP (XCDR (item)))
7793 tem = XCAR (item);
7794 item = XCDR (item);
7796 if (EQ (tem, QCenable))
7798 if (!NILP (Venable_disabled_menus_and_buttons))
7799 ASET (item_properties, ITEM_PROPERTY_ENABLE, Qt);
7800 else
7801 ASET (item_properties, ITEM_PROPERTY_ENABLE, XCAR (item));
7803 else if (EQ (tem, QCvisible))
7805 /* If got a visible property and that evaluates to nil
7806 then ignore this item. */
7807 tem = menu_item_eval_property (XCAR (item));
7808 if (NILP (tem))
7809 return 0;
7811 else if (EQ (tem, QChelp))
7813 Lisp_Object help = XCAR (item);
7814 if (STRINGP (help))
7815 help = Fsubstitute_command_keys (help);
7816 ASET (item_properties, ITEM_PROPERTY_HELP, help);
7818 else if (EQ (tem, QCfilter))
7819 filter = item;
7820 else if (EQ (tem, QCkey_sequence))
7822 tem = XCAR (item);
7823 if (SYMBOLP (tem) || STRINGP (tem) || VECTORP (tem))
7824 /* Be GC protected. Set keyhint to item instead of tem. */
7825 keyhint = item;
7827 else if (EQ (tem, QCkeys))
7829 tem = XCAR (item);
7830 if (CONSP (tem) || STRINGP (tem))
7831 ASET (item_properties, ITEM_PROPERTY_KEYEQ, tem);
7833 else if (EQ (tem, QCbutton) && CONSP (XCAR (item)))
7835 Lisp_Object type;
7836 tem = XCAR (item);
7837 type = XCAR (tem);
7838 if (EQ (type, QCtoggle) || EQ (type, QCradio))
7840 ASET (item_properties, ITEM_PROPERTY_SELECTED,
7841 XCDR (tem));
7842 ASET (item_properties, ITEM_PROPERTY_TYPE, type);
7845 item = XCDR (item);
7848 else if (inmenubar || !NILP (start))
7849 return 0;
7851 else
7852 return 0; /* not a menu item */
7854 /* If item string is not a string, evaluate it to get string.
7855 If we don't get a string, skip this item. */
7856 item_string = AREF (item_properties, ITEM_PROPERTY_NAME);
7857 if (!(STRINGP (item_string)))
7859 item_string = menu_item_eval_property (item_string);
7860 if (!STRINGP (item_string))
7861 return 0;
7862 ASET (item_properties, ITEM_PROPERTY_NAME, item_string);
7865 /* If got a filter apply it on definition. */
7866 def = AREF (item_properties, ITEM_PROPERTY_DEF);
7867 if (!NILP (filter))
7869 def = menu_item_eval_property (list2 (XCAR (filter),
7870 list2 (Qquote, def)));
7872 ASET (item_properties, ITEM_PROPERTY_DEF, def);
7875 /* Enable or disable selection of item. */
7876 tem = AREF (item_properties, ITEM_PROPERTY_ENABLE);
7877 if (!EQ (tem, Qt))
7879 tem = menu_item_eval_property (tem);
7880 if (inmenubar && NILP (tem))
7881 return 0; /* Ignore disabled items in menu bar. */
7882 ASET (item_properties, ITEM_PROPERTY_ENABLE, tem);
7885 /* If we got no definition, this item is just unselectable text which
7886 is OK in a submenu but not in the menubar. */
7887 if (NILP (def))
7888 return (!inmenubar);
7890 /* See if this is a separate pane or a submenu. */
7891 def = AREF (item_properties, ITEM_PROPERTY_DEF);
7892 tem = get_keymap (def, 0, 1);
7893 /* For a subkeymap, just record its details and exit. */
7894 if (CONSP (tem))
7896 ASET (item_properties, ITEM_PROPERTY_MAP, tem);
7897 ASET (item_properties, ITEM_PROPERTY_DEF, tem);
7898 return 1;
7901 /* At the top level in the menu bar, do likewise for commands also.
7902 The menu bar does not display equivalent key bindings anyway.
7903 ITEM_PROPERTY_DEF is already set up properly. */
7904 if (inmenubar > 0)
7905 return 1;
7907 { /* This is a command. See if there is an equivalent key binding. */
7908 Lisp_Object keyeq = AREF (item_properties, ITEM_PROPERTY_KEYEQ);
7909 AUTO_STRING (space_space, " ");
7911 /* The previous code preferred :key-sequence to :keys, so we
7912 preserve this behavior. */
7913 if (STRINGP (keyeq) && !CONSP (keyhint))
7914 keyeq = concat2 (space_space, Fsubstitute_command_keys (keyeq));
7915 else
7917 Lisp_Object prefix = keyeq;
7918 Lisp_Object keys = Qnil;
7920 if (CONSP (prefix))
7922 def = XCAR (prefix);
7923 prefix = XCDR (prefix);
7925 else
7926 def = AREF (item_properties, ITEM_PROPERTY_DEF);
7928 if (CONSP (keyhint) && !NILP (XCAR (keyhint)))
7930 keys = XCAR (keyhint);
7931 tem = Fkey_binding (keys, Qnil, Qnil, Qnil);
7933 /* We have a suggested key. Is it bound to the command? */
7934 if (NILP (tem)
7935 || (!EQ (tem, def)
7936 /* If the command is an alias for another
7937 (such as lmenu.el set it up), check if the
7938 original command matches the cached command. */
7939 && !(SYMBOLP (def)
7940 && EQ (tem, XSYMBOL (def)->function))))
7941 keys = Qnil;
7944 if (NILP (keys))
7945 keys = Fwhere_is_internal (def, Qnil, Qt, Qnil, Qnil);
7947 if (!NILP (keys))
7949 tem = Fkey_description (keys, Qnil);
7950 if (CONSP (prefix))
7952 if (STRINGP (XCAR (prefix)))
7953 tem = concat2 (XCAR (prefix), tem);
7954 if (STRINGP (XCDR (prefix)))
7955 tem = concat2 (tem, XCDR (prefix));
7957 keyeq = concat2 (space_space, tem);
7959 else
7960 keyeq = Qnil;
7963 /* If we have an equivalent key binding, use that. */
7964 ASET (item_properties, ITEM_PROPERTY_KEYEQ, keyeq);
7967 /* Include this when menu help is implemented.
7968 tem = XVECTOR (item_properties)->contents[ITEM_PROPERTY_HELP];
7969 if (!(NILP (tem) || STRINGP (tem)))
7971 tem = menu_item_eval_property (tem);
7972 if (!STRINGP (tem))
7973 tem = Qnil;
7974 XVECTOR (item_properties)->contents[ITEM_PROPERTY_HELP] = tem;
7978 /* Handle radio buttons or toggle boxes. */
7979 tem = AREF (item_properties, ITEM_PROPERTY_SELECTED);
7980 if (!NILP (tem))
7981 ASET (item_properties, ITEM_PROPERTY_SELECTED,
7982 menu_item_eval_property (tem));
7984 return 1;
7989 /***********************************************************************
7990 Tool-bars
7991 ***********************************************************************/
7993 /* A vector holding tool bar items while they are parsed in function
7994 tool_bar_items. Each item occupies TOOL_BAR_ITEM_NSCLOTS elements
7995 in the vector. */
7997 static Lisp_Object tool_bar_items_vector;
7999 /* A vector holding the result of parse_tool_bar_item. Layout is like
8000 the one for a single item in tool_bar_items_vector. */
8002 static Lisp_Object tool_bar_item_properties;
8004 /* Next free index in tool_bar_items_vector. */
8006 static int ntool_bar_items;
8008 /* Function prototypes. */
8010 static void init_tool_bar_items (Lisp_Object);
8011 static void process_tool_bar_item (Lisp_Object, Lisp_Object, Lisp_Object,
8012 void *);
8013 static bool parse_tool_bar_item (Lisp_Object, Lisp_Object);
8014 static void append_tool_bar_item (void);
8017 /* Return a vector of tool bar items for keymaps currently in effect.
8018 Reuse vector REUSE if non-nil. Return in *NITEMS the number of
8019 tool bar items found. */
8021 Lisp_Object
8022 tool_bar_items (Lisp_Object reuse, int *nitems)
8024 Lisp_Object *maps;
8025 Lisp_Object mapsbuf[3];
8026 ptrdiff_t nmaps, i;
8027 Lisp_Object oquit;
8028 Lisp_Object *tmaps;
8029 USE_SAFE_ALLOCA;
8031 *nitems = 0;
8033 /* In order to build the menus, we need to call the keymap
8034 accessors. They all call QUIT. But this function is called
8035 during redisplay, during which a quit is fatal. So inhibit
8036 quitting while building the menus. We do this instead of
8037 specbind because (1) errors will clear it anyway and (2) this
8038 avoids risk of specpdl overflow. */
8039 oquit = Vinhibit_quit;
8040 Vinhibit_quit = Qt;
8042 /* Initialize tool_bar_items_vector and protect it from GC. */
8043 init_tool_bar_items (reuse);
8045 /* Build list of keymaps in maps. Set nmaps to the number of maps
8046 to process. */
8048 /* Should overriding-terminal-local-map and overriding-local-map apply? */
8049 if (!NILP (Voverriding_local_map_menu_flag)
8050 && !NILP (Voverriding_local_map))
8052 /* Yes, use them (if non-nil) as well as the global map. */
8053 maps = mapsbuf;
8054 nmaps = 0;
8055 if (!NILP (KVAR (current_kboard, Voverriding_terminal_local_map)))
8056 maps[nmaps++] = KVAR (current_kboard, Voverriding_terminal_local_map);
8057 if (!NILP (Voverriding_local_map))
8058 maps[nmaps++] = Voverriding_local_map;
8060 else
8062 /* No, so use major and minor mode keymaps and keymap property.
8063 Note that tool-bar bindings in the local-map and keymap
8064 properties may not work reliable, as they are only
8065 recognized when the tool-bar (or mode-line) is updated,
8066 which does not normally happen after every command. */
8067 ptrdiff_t nminor = current_minor_maps (NULL, &tmaps);
8068 SAFE_NALLOCA (maps, 1, nminor + 4);
8069 nmaps = 0;
8070 Lisp_Object tem = KVAR (current_kboard, Voverriding_terminal_local_map);
8071 if (!NILP (tem) && !NILP (Voverriding_local_map_menu_flag))
8072 maps[nmaps++] = tem;
8073 if (tem = get_local_map (PT, current_buffer, Qkeymap), !NILP (tem))
8074 maps[nmaps++] = tem;
8075 if (nminor != 0)
8077 memcpy (maps + nmaps, tmaps, nminor * sizeof (maps[0]));
8078 nmaps += nminor;
8080 maps[nmaps++] = get_local_map (PT, current_buffer, Qlocal_map);
8083 /* Add global keymap at the end. */
8084 maps[nmaps++] = current_global_map;
8086 /* Process maps in reverse order and look up in each map the prefix
8087 key `tool-bar'. */
8088 for (i = nmaps - 1; i >= 0; --i)
8089 if (!NILP (maps[i]))
8091 Lisp_Object keymap;
8093 keymap = get_keymap (access_keymap (maps[i], Qtool_bar, 1, 0, 1), 0, 1);
8094 if (CONSP (keymap))
8095 map_keymap (keymap, process_tool_bar_item, Qnil, NULL, 1);
8098 Vinhibit_quit = oquit;
8099 *nitems = ntool_bar_items / TOOL_BAR_ITEM_NSLOTS;
8100 SAFE_FREE ();
8101 return tool_bar_items_vector;
8105 /* Process the definition of KEY which is DEF. */
8107 static void
8108 process_tool_bar_item (Lisp_Object key, Lisp_Object def, Lisp_Object data, void *args)
8110 int i;
8111 struct gcpro gcpro1, gcpro2;
8113 /* Protect KEY and DEF from GC because parse_tool_bar_item may call
8114 eval. */
8115 GCPRO2 (key, def);
8117 if (EQ (def, Qundefined))
8119 /* If a map has an explicit `undefined' as definition,
8120 discard any previously made item. */
8121 for (i = 0; i < ntool_bar_items; i += TOOL_BAR_ITEM_NSLOTS)
8123 Lisp_Object *v = XVECTOR (tool_bar_items_vector)->contents + i;
8125 if (EQ (key, v[TOOL_BAR_ITEM_KEY]))
8127 if (ntool_bar_items > i + TOOL_BAR_ITEM_NSLOTS)
8128 memmove (v, v + TOOL_BAR_ITEM_NSLOTS,
8129 ((ntool_bar_items - i - TOOL_BAR_ITEM_NSLOTS)
8130 * word_size));
8131 ntool_bar_items -= TOOL_BAR_ITEM_NSLOTS;
8132 break;
8136 else if (parse_tool_bar_item (key, def))
8137 /* Append a new tool bar item to tool_bar_items_vector. Accept
8138 more than one definition for the same key. */
8139 append_tool_bar_item ();
8141 UNGCPRO;
8144 /* Access slot with index IDX of vector tool_bar_item_properties. */
8145 #define PROP(IDX) AREF (tool_bar_item_properties, (IDX))
8146 static void
8147 set_prop (ptrdiff_t idx, Lisp_Object val)
8149 ASET (tool_bar_item_properties, idx, val);
8153 /* Parse a tool bar item specification ITEM for key KEY and return the
8154 result in tool_bar_item_properties. Value is false if ITEM is
8155 invalid.
8157 ITEM is a list `(menu-item CAPTION BINDING PROPS...)'.
8159 CAPTION is the caption of the item, If it's not a string, it is
8160 evaluated to get a string.
8162 BINDING is the tool bar item's binding. Tool-bar items with keymaps
8163 as binding are currently ignored.
8165 The following properties are recognized:
8167 - `:enable FORM'.
8169 FORM is evaluated and specifies whether the tool bar item is
8170 enabled or disabled.
8172 - `:visible FORM'
8174 FORM is evaluated and specifies whether the tool bar item is visible.
8176 - `:filter FUNCTION'
8178 FUNCTION is invoked with one parameter `(quote BINDING)'. Its
8179 result is stored as the new binding.
8181 - `:button (TYPE SELECTED)'
8183 TYPE must be one of `:radio' or `:toggle'. SELECTED is evaluated
8184 and specifies whether the button is selected (pressed) or not.
8186 - `:image IMAGES'
8188 IMAGES is either a single image specification or a vector of four
8189 image specifications. See enum tool_bar_item_images.
8191 - `:help HELP-STRING'.
8193 Gives a help string to display for the tool bar item.
8195 - `:label LABEL-STRING'.
8197 A text label to show with the tool bar button if labels are enabled. */
8199 static bool
8200 parse_tool_bar_item (Lisp_Object key, Lisp_Object item)
8202 Lisp_Object filter = Qnil;
8203 Lisp_Object caption;
8204 int i;
8205 bool have_label = false;
8207 /* Definition looks like `(menu-item CAPTION BINDING PROPS...)'.
8208 Rule out items that aren't lists, don't start with
8209 `menu-item' or whose rest following `tool-bar-item' is not a
8210 list. */
8211 if (!CONSP (item))
8212 return 0;
8214 /* As an exception, allow old-style menu separators. */
8215 if (STRINGP (XCAR (item)))
8216 item = list1 (XCAR (item));
8217 else if (!EQ (XCAR (item), Qmenu_item)
8218 || (item = XCDR (item), !CONSP (item)))
8219 return 0;
8221 /* Create tool_bar_item_properties vector if necessary. Reset it to
8222 defaults. */
8223 if (VECTORP (tool_bar_item_properties))
8225 for (i = 0; i < TOOL_BAR_ITEM_NSLOTS; ++i)
8226 set_prop (i, Qnil);
8228 else
8229 tool_bar_item_properties
8230 = Fmake_vector (make_number (TOOL_BAR_ITEM_NSLOTS), Qnil);
8232 /* Set defaults. */
8233 set_prop (TOOL_BAR_ITEM_KEY, key);
8234 set_prop (TOOL_BAR_ITEM_ENABLED_P, Qt);
8236 /* Get the caption of the item. If the caption is not a string,
8237 evaluate it to get a string. If we don't get a string, skip this
8238 item. */
8239 caption = XCAR (item);
8240 if (!STRINGP (caption))
8242 caption = menu_item_eval_property (caption);
8243 if (!STRINGP (caption))
8244 return 0;
8246 set_prop (TOOL_BAR_ITEM_CAPTION, caption);
8248 /* If the rest following the caption is not a list, the menu item is
8249 either a separator, or invalid. */
8250 item = XCDR (item);
8251 if (!CONSP (item))
8253 if (menu_separator_name_p (SSDATA (caption)))
8255 set_prop (TOOL_BAR_ITEM_TYPE, Qt);
8256 #if !defined (USE_GTK) && !defined (HAVE_NS)
8257 /* If we use build_desired_tool_bar_string to render the
8258 tool bar, the separator is rendered as an image. */
8259 set_prop (TOOL_BAR_ITEM_IMAGES,
8260 (menu_item_eval_property
8261 (Vtool_bar_separator_image_expression)));
8262 set_prop (TOOL_BAR_ITEM_ENABLED_P, Qnil);
8263 set_prop (TOOL_BAR_ITEM_SELECTED_P, Qnil);
8264 set_prop (TOOL_BAR_ITEM_CAPTION, Qnil);
8265 #endif
8266 return 1;
8268 return 0;
8271 /* Store the binding. */
8272 set_prop (TOOL_BAR_ITEM_BINDING, XCAR (item));
8273 item = XCDR (item);
8275 /* Ignore cached key binding, if any. */
8276 if (CONSP (item) && CONSP (XCAR (item)))
8277 item = XCDR (item);
8279 /* Process the rest of the properties. */
8280 for (; CONSP (item) && CONSP (XCDR (item)); item = XCDR (XCDR (item)))
8282 Lisp_Object ikey, value;
8284 ikey = XCAR (item);
8285 value = XCAR (XCDR (item));
8287 if (EQ (ikey, QCenable))
8289 /* `:enable FORM'. */
8290 if (!NILP (Venable_disabled_menus_and_buttons))
8291 set_prop (TOOL_BAR_ITEM_ENABLED_P, Qt);
8292 else
8293 set_prop (TOOL_BAR_ITEM_ENABLED_P, value);
8295 else if (EQ (ikey, QCvisible))
8297 /* `:visible FORM'. If got a visible property and that
8298 evaluates to nil then ignore this item. */
8299 if (NILP (menu_item_eval_property (value)))
8300 return 0;
8302 else if (EQ (ikey, QChelp))
8303 /* `:help HELP-STRING'. */
8304 set_prop (TOOL_BAR_ITEM_HELP, value);
8305 else if (EQ (ikey, QCvert_only))
8306 /* `:vert-only t/nil'. */
8307 set_prop (TOOL_BAR_ITEM_VERT_ONLY, value);
8308 else if (EQ (ikey, QClabel))
8310 const char *bad_label = "!!?GARBLED ITEM?!!";
8311 /* `:label LABEL-STRING'. */
8312 set_prop (TOOL_BAR_ITEM_LABEL,
8313 STRINGP (value) ? value : build_string (bad_label));
8314 have_label = true;
8316 else if (EQ (ikey, QCfilter))
8317 /* ':filter FORM'. */
8318 filter = value;
8319 else if (EQ (ikey, QCbutton) && CONSP (value))
8321 /* `:button (TYPE . SELECTED)'. */
8322 Lisp_Object type, selected;
8324 type = XCAR (value);
8325 selected = XCDR (value);
8326 if (EQ (type, QCtoggle) || EQ (type, QCradio))
8328 set_prop (TOOL_BAR_ITEM_SELECTED_P, selected);
8329 set_prop (TOOL_BAR_ITEM_TYPE, type);
8332 else if (EQ (ikey, QCimage)
8333 && (CONSP (value)
8334 || (VECTORP (value) && ASIZE (value) == 4)))
8335 /* Value is either a single image specification or a vector
8336 of 4 such specifications for the different button states. */
8337 set_prop (TOOL_BAR_ITEM_IMAGES, value);
8338 else if (EQ (ikey, QCrtl))
8339 /* ':rtl STRING' */
8340 set_prop (TOOL_BAR_ITEM_RTL_IMAGE, value);
8344 if (!have_label)
8346 /* Try to make one from caption and key. */
8347 Lisp_Object tkey = PROP (TOOL_BAR_ITEM_KEY);
8348 Lisp_Object tcapt = PROP (TOOL_BAR_ITEM_CAPTION);
8349 const char *label = SYMBOLP (tkey) ? SSDATA (SYMBOL_NAME (tkey)) : "";
8350 const char *capt = STRINGP (tcapt) ? SSDATA (tcapt) : "";
8351 ptrdiff_t max_lbl =
8352 2 * max (0, min (tool_bar_max_label_size, STRING_BYTES_BOUND / 2));
8353 char *buf = xmalloc (max_lbl + 1);
8354 Lisp_Object new_lbl;
8355 ptrdiff_t caption_len = strlen (capt);
8357 if (caption_len <= max_lbl && capt[0] != '\0')
8359 strcpy (buf, capt);
8360 while (caption_len > 0 && buf[caption_len - 1] == '.')
8361 caption_len--;
8362 buf[caption_len] = '\0';
8363 label = capt = buf;
8366 if (strlen (label) <= max_lbl && label[0] != '\0')
8368 ptrdiff_t j;
8369 if (label != buf)
8370 strcpy (buf, label);
8372 for (j = 0; buf[j] != '\0'; ++j)
8373 if (buf[j] == '-')
8374 buf[j] = ' ';
8375 label = buf;
8377 else
8378 label = "";
8380 new_lbl = Fupcase_initials (build_string (label));
8381 if (SCHARS (new_lbl) <= tool_bar_max_label_size)
8382 set_prop (TOOL_BAR_ITEM_LABEL, new_lbl);
8383 else
8384 set_prop (TOOL_BAR_ITEM_LABEL, empty_unibyte_string);
8385 xfree (buf);
8388 /* If got a filter apply it on binding. */
8389 if (!NILP (filter))
8390 set_prop (TOOL_BAR_ITEM_BINDING,
8391 (menu_item_eval_property
8392 (list2 (filter,
8393 list2 (Qquote,
8394 PROP (TOOL_BAR_ITEM_BINDING))))));
8396 /* See if the binding is a keymap. Give up if it is. */
8397 if (CONSP (get_keymap (PROP (TOOL_BAR_ITEM_BINDING), 0, 1)))
8398 return 0;
8400 /* Enable or disable selection of item. */
8401 if (!EQ (PROP (TOOL_BAR_ITEM_ENABLED_P), Qt))
8402 set_prop (TOOL_BAR_ITEM_ENABLED_P,
8403 menu_item_eval_property (PROP (TOOL_BAR_ITEM_ENABLED_P)));
8405 /* Handle radio buttons or toggle boxes. */
8406 if (!NILP (PROP (TOOL_BAR_ITEM_SELECTED_P)))
8407 set_prop (TOOL_BAR_ITEM_SELECTED_P,
8408 menu_item_eval_property (PROP (TOOL_BAR_ITEM_SELECTED_P)));
8410 return 1;
8412 #undef PROP
8416 /* Initialize tool_bar_items_vector. REUSE, if non-nil, is a vector
8417 that can be reused. */
8419 static void
8420 init_tool_bar_items (Lisp_Object reuse)
8422 if (VECTORP (reuse))
8423 tool_bar_items_vector = reuse;
8424 else
8425 tool_bar_items_vector = Fmake_vector (make_number (64), Qnil);
8426 ntool_bar_items = 0;
8430 /* Append parsed tool bar item properties from
8431 tool_bar_item_properties */
8433 static void
8434 append_tool_bar_item (void)
8436 ptrdiff_t incr
8437 = (ntool_bar_items
8438 - (ASIZE (tool_bar_items_vector) - TOOL_BAR_ITEM_NSLOTS));
8440 /* Enlarge tool_bar_items_vector if necessary. */
8441 if (incr > 0)
8442 tool_bar_items_vector = larger_vector (tool_bar_items_vector, incr, -1);
8444 /* Append entries from tool_bar_item_properties to the end of
8445 tool_bar_items_vector. */
8446 vcopy (tool_bar_items_vector, ntool_bar_items,
8447 XVECTOR (tool_bar_item_properties)->contents, TOOL_BAR_ITEM_NSLOTS);
8448 ntool_bar_items += TOOL_BAR_ITEM_NSLOTS;
8455 /* Read a character using menus based on the keymap MAP.
8456 Return nil if there are no menus in the maps.
8457 Return t if we displayed a menu but the user rejected it.
8459 PREV_EVENT is the previous input event, or nil if we are reading
8460 the first event of a key sequence.
8462 If USED_MOUSE_MENU is non-null, set *USED_MOUSE_MENU to true
8463 if we used a mouse menu to read the input, or false otherwise. If
8464 USED_MOUSE_MENU is null, don't dereference it.
8466 The prompting is done based on the prompt-string of the map
8467 and the strings associated with various map elements.
8469 This can be done with X menus or with menus put in the minibuf.
8470 These are done in different ways, depending on how the input will be read.
8471 Menus using X are done after auto-saving in read-char, getting the input
8472 event from Fx_popup_menu; menus using the minibuf use read_char recursively
8473 and do auto-saving in the inner call of read_char. */
8475 static Lisp_Object
8476 read_char_x_menu_prompt (Lisp_Object map,
8477 Lisp_Object prev_event, bool *used_mouse_menu)
8479 if (used_mouse_menu)
8480 *used_mouse_menu = false;
8482 /* Use local over global Menu maps. */
8484 if (! menu_prompting)
8485 return Qnil;
8487 /* If we got to this point via a mouse click,
8488 use a real menu for mouse selection. */
8489 if (EVENT_HAS_PARAMETERS (prev_event)
8490 && !EQ (XCAR (prev_event), Qmenu_bar)
8491 && !EQ (XCAR (prev_event), Qtool_bar))
8493 /* Display the menu and get the selection. */
8494 Lisp_Object value;
8496 value = Fx_popup_menu (prev_event, get_keymap (map, 0, 1));
8497 if (CONSP (value))
8499 Lisp_Object tem;
8501 record_menu_key (XCAR (value));
8503 /* If we got multiple events, unread all but
8504 the first.
8505 There is no way to prevent those unread events
8506 from showing up later in last_nonmenu_event.
8507 So turn symbol and integer events into lists,
8508 to indicate that they came from a mouse menu,
8509 so that when present in last_nonmenu_event
8510 they won't confuse things. */
8511 for (tem = XCDR (value); CONSP (tem); tem = XCDR (tem))
8513 record_menu_key (XCAR (tem));
8514 if (SYMBOLP (XCAR (tem))
8515 || INTEGERP (XCAR (tem)))
8516 XSETCAR (tem, Fcons (XCAR (tem), Qdisabled));
8519 /* If we got more than one event, put all but the first
8520 onto this list to be read later.
8521 Return just the first event now. */
8522 Vunread_command_events
8523 = nconc2 (XCDR (value), Vunread_command_events);
8524 value = XCAR (value);
8526 else if (NILP (value))
8527 value = Qt;
8528 if (used_mouse_menu)
8529 *used_mouse_menu = true;
8530 return value;
8532 return Qnil ;
8535 static Lisp_Object
8536 read_char_minibuf_menu_prompt (int commandflag,
8537 Lisp_Object map)
8539 Lisp_Object name;
8540 ptrdiff_t nlength;
8541 /* FIXME: Use the minibuffer's frame width. */
8542 ptrdiff_t width = FRAME_COLS (SELECTED_FRAME ()) - 4;
8543 ptrdiff_t idx = -1;
8544 bool nobindings = true;
8545 Lisp_Object rest, vector;
8546 Lisp_Object prompt_strings = Qnil;
8548 vector = Qnil;
8550 if (! menu_prompting)
8551 return Qnil;
8553 map = get_keymap (map, 0, 1);
8554 name = Fkeymap_prompt (map);
8556 /* If we don't have any menus, just read a character normally. */
8557 if (!STRINGP (name))
8558 return Qnil;
8560 #define PUSH_C_STR(str, listvar) \
8561 listvar = Fcons (build_unibyte_string (str), listvar)
8563 /* Prompt string always starts with map's prompt, and a space. */
8564 prompt_strings = Fcons (name, prompt_strings);
8565 PUSH_C_STR (": ", prompt_strings);
8566 nlength = SCHARS (name) + 2;
8568 rest = map;
8570 /* Present the documented bindings, a line at a time. */
8571 while (1)
8573 bool notfirst = false;
8574 Lisp_Object menu_strings = prompt_strings;
8575 ptrdiff_t i = nlength;
8576 Lisp_Object obj;
8577 Lisp_Object orig_defn_macro;
8579 /* Loop over elements of map. */
8580 while (i < width)
8582 Lisp_Object elt;
8584 /* FIXME: Use map_keymap to handle new keymap formats. */
8586 /* At end of map, wrap around if just starting,
8587 or end this line if already have something on it. */
8588 if (NILP (rest))
8590 if (notfirst || nobindings)
8591 break;
8592 else
8593 rest = map;
8596 /* Look at the next element of the map. */
8597 if (idx >= 0)
8598 elt = AREF (vector, idx);
8599 else
8600 elt = Fcar_safe (rest);
8602 if (idx < 0 && VECTORP (elt))
8604 /* If we found a dense table in the keymap,
8605 advanced past it, but start scanning its contents. */
8606 rest = Fcdr_safe (rest);
8607 vector = elt;
8608 idx = 0;
8610 else
8612 /* An ordinary element. */
8613 Lisp_Object event, tem;
8615 if (idx < 0)
8617 event = Fcar_safe (elt); /* alist */
8618 elt = Fcdr_safe (elt);
8620 else
8622 XSETINT (event, idx); /* vector */
8625 /* Ignore the element if it has no prompt string. */
8626 if (INTEGERP (event) && parse_menu_item (elt, -1))
8628 /* True if the char to type matches the string. */
8629 bool char_matches;
8630 Lisp_Object upcased_event, downcased_event;
8631 Lisp_Object desc = Qnil;
8632 Lisp_Object s
8633 = AREF (item_properties, ITEM_PROPERTY_NAME);
8635 upcased_event = Fupcase (event);
8636 downcased_event = Fdowncase (event);
8637 char_matches = (XINT (upcased_event) == SREF (s, 0)
8638 || XINT (downcased_event) == SREF (s, 0));
8639 if (! char_matches)
8640 desc = Fsingle_key_description (event, Qnil);
8642 #if 0 /* It is redundant to list the equivalent key bindings because
8643 the prefix is what the user has already typed. */
8645 = XVECTOR (item_properties)->contents[ITEM_PROPERTY_KEYEQ];
8646 if (!NILP (tem))
8647 /* Insert equivalent keybinding. */
8648 s = concat2 (s, tem);
8649 #endif
8651 = AREF (item_properties, ITEM_PROPERTY_TYPE);
8652 if (EQ (tem, QCradio) || EQ (tem, QCtoggle))
8654 /* Insert button prefix. */
8655 Lisp_Object selected
8656 = AREF (item_properties, ITEM_PROPERTY_SELECTED);
8657 AUTO_STRING (radio_yes, "(*) ");
8658 AUTO_STRING (radio_no , "( ) ");
8659 AUTO_STRING (check_yes, "[X] ");
8660 AUTO_STRING (check_no , "[ ] ");
8661 if (EQ (tem, QCradio))
8662 tem = NILP (selected) ? radio_yes : radio_no;
8663 else
8664 tem = NILP (selected) ? check_yes : check_no;
8665 s = concat2 (tem, s);
8669 /* If we have room for the prompt string, add it to this line.
8670 If this is the first on the line, always add it. */
8671 if ((SCHARS (s) + i + 2
8672 + (char_matches ? 0 : SCHARS (desc) + 3))
8673 < width
8674 || !notfirst)
8676 ptrdiff_t thiswidth;
8678 /* Punctuate between strings. */
8679 if (notfirst)
8681 PUSH_C_STR (", ", menu_strings);
8682 i += 2;
8684 notfirst = true;
8685 nobindings = false;
8687 /* If the char to type doesn't match the string's
8688 first char, explicitly show what char to type. */
8689 if (! char_matches)
8691 /* Add as much of string as fits. */
8692 thiswidth = min (SCHARS (desc), width - i);
8693 menu_strings
8694 = Fcons (Fsubstring (desc, make_number (0),
8695 make_number (thiswidth)),
8696 menu_strings);
8697 i += thiswidth;
8698 PUSH_C_STR (" = ", menu_strings);
8699 i += 3;
8702 /* Add as much of string as fits. */
8703 thiswidth = min (SCHARS (s), width - i);
8704 menu_strings
8705 = Fcons (Fsubstring (s, make_number (0),
8706 make_number (thiswidth)),
8707 menu_strings);
8708 i += thiswidth;
8710 else
8712 /* If this element does not fit, end the line now,
8713 and save the element for the next line. */
8714 PUSH_C_STR ("...", menu_strings);
8715 break;
8719 /* Move past this element. */
8720 if (idx >= 0 && idx + 1 >= ASIZE (vector))
8721 /* Handle reaching end of dense table. */
8722 idx = -1;
8723 if (idx >= 0)
8724 idx++;
8725 else
8726 rest = Fcdr_safe (rest);
8730 /* Prompt with that and read response. */
8731 message3_nolog (apply1 (intern ("concat"), Fnreverse (menu_strings)));
8733 /* Make believe it's not a keyboard macro in case the help char
8734 is pressed. Help characters are not recorded because menu prompting
8735 is not used on replay. */
8736 orig_defn_macro = KVAR (current_kboard, defining_kbd_macro);
8737 kset_defining_kbd_macro (current_kboard, Qnil);
8739 obj = read_char (commandflag, Qnil, Qt, 0, NULL);
8740 while (BUFFERP (obj));
8741 kset_defining_kbd_macro (current_kboard, orig_defn_macro);
8743 if (!INTEGERP (obj) || XINT (obj) == -2
8744 || (! EQ (obj, menu_prompt_more_char)
8745 && (!INTEGERP (menu_prompt_more_char)
8746 || ! EQ (obj, make_number (Ctl (XINT (menu_prompt_more_char)))))))
8748 if (!NILP (KVAR (current_kboard, defining_kbd_macro)))
8749 store_kbd_macro_char (obj);
8750 return obj;
8752 /* Help char - go round again. */
8756 /* Reading key sequences. */
8758 static Lisp_Object
8759 follow_key (Lisp_Object keymap, Lisp_Object key)
8761 return access_keymap (get_keymap (keymap, 0, 1),
8762 key, 1, 0, 1);
8765 static Lisp_Object
8766 active_maps (Lisp_Object first_event)
8768 Lisp_Object position
8769 = CONSP (first_event) ? CAR_SAFE (XCDR (first_event)) : Qnil;
8770 return Fcons (Qkeymap, Fcurrent_active_maps (Qt, position));
8773 /* Structure used to keep track of partial application of key remapping
8774 such as Vfunction_key_map and Vkey_translation_map. */
8775 typedef struct keyremap
8777 /* This is the map originally specified for this use. */
8778 Lisp_Object parent;
8779 /* This is a submap reached by looking up, in PARENT,
8780 the events from START to END. */
8781 Lisp_Object map;
8782 /* Positions [START, END) in the key sequence buffer
8783 are the key that we have scanned so far.
8784 Those events are the ones that we will replace
8785 if PARENT maps them into a key sequence. */
8786 int start, end;
8787 } keyremap;
8789 /* Lookup KEY in MAP.
8790 MAP is a keymap mapping keys to key vectors or functions.
8791 If the mapping is a function and DO_FUNCALL is true,
8792 the function is called with PROMPT as parameter and its return
8793 value is used as the return value of this function (after checking
8794 that it is indeed a vector). */
8796 static Lisp_Object
8797 access_keymap_keyremap (Lisp_Object map, Lisp_Object key, Lisp_Object prompt,
8798 bool do_funcall)
8800 Lisp_Object next;
8802 next = access_keymap (map, key, 1, 0, 1);
8804 /* Handle a symbol whose function definition is a keymap
8805 or an array. */
8806 if (SYMBOLP (next) && !NILP (Ffboundp (next))
8807 && (ARRAYP (XSYMBOL (next)->function)
8808 || KEYMAPP (XSYMBOL (next)->function)))
8809 next = Fautoload_do_load (XSYMBOL (next)->function, next, Qnil);
8811 /* If the keymap gives a function, not an
8812 array, then call the function with one arg and use
8813 its value instead. */
8814 if (do_funcall && FUNCTIONP (next))
8816 Lisp_Object tem;
8817 tem = next;
8819 next = call1 (next, prompt);
8820 /* If the function returned something invalid,
8821 barf--don't ignore it.
8822 (To ignore it safely, we would need to gcpro a bunch of
8823 other variables.) */
8824 if (! (NILP (next) || VECTORP (next) || STRINGP (next)))
8825 error ("Function %s returns invalid key sequence",
8826 SSDATA (SYMBOL_NAME (tem)));
8828 return next;
8831 /* Do one step of the key remapping used for function-key-map and
8832 key-translation-map:
8833 KEYBUF is the buffer holding the input events.
8834 BUFSIZE is its maximum size.
8835 FKEY is a pointer to the keyremap structure to use.
8836 INPUT is the index of the last element in KEYBUF.
8837 DOIT if true says that the remapping can actually take place.
8838 DIFF is used to return the number of keys added/removed by the remapping.
8839 PARENT is the root of the keymap.
8840 PROMPT is the prompt to use if the remapping happens through a function.
8841 Return true if the remapping actually took place. */
8843 static bool
8844 keyremap_step (Lisp_Object *keybuf, int bufsize, volatile keyremap *fkey,
8845 int input, bool doit, int *diff, Lisp_Object prompt)
8847 Lisp_Object next, key;
8849 key = keybuf[fkey->end++];
8851 if (KEYMAPP (fkey->parent))
8852 next = access_keymap_keyremap (fkey->map, key, prompt, doit);
8853 else
8854 next = Qnil;
8856 /* If keybuf[fkey->start..fkey->end] is bound in the
8857 map and we're in a position to do the key remapping, replace it with
8858 the binding and restart with fkey->start at the end. */
8859 if ((VECTORP (next) || STRINGP (next)) && doit)
8861 int len = XFASTINT (Flength (next));
8862 int i;
8864 *diff = len - (fkey->end - fkey->start);
8866 if (bufsize - input <= *diff)
8867 error ("Key sequence too long");
8869 /* Shift the keys that follow fkey->end. */
8870 if (*diff < 0)
8871 for (i = fkey->end; i < input; i++)
8872 keybuf[i + *diff] = keybuf[i];
8873 else if (*diff > 0)
8874 for (i = input - 1; i >= fkey->end; i--)
8875 keybuf[i + *diff] = keybuf[i];
8876 /* Overwrite the old keys with the new ones. */
8877 for (i = 0; i < len; i++)
8878 keybuf[fkey->start + i]
8879 = Faref (next, make_number (i));
8881 fkey->start = fkey->end += *diff;
8882 fkey->map = fkey->parent;
8884 return 1;
8887 fkey->map = get_keymap (next, 0, 1);
8889 /* If we no longer have a bound suffix, try a new position for
8890 fkey->start. */
8891 if (!CONSP (fkey->map))
8893 fkey->end = ++fkey->start;
8894 fkey->map = fkey->parent;
8896 return 0;
8899 static bool
8900 test_undefined (Lisp_Object binding)
8902 return (NILP (binding)
8903 || EQ (binding, Qundefined)
8904 || (SYMBOLP (binding)
8905 && EQ (Fcommand_remapping (binding, Qnil, Qnil), Qundefined)));
8908 /* Read a sequence of keys that ends with a non prefix character,
8909 storing it in KEYBUF, a buffer of size BUFSIZE.
8910 Prompt with PROMPT.
8911 Return the length of the key sequence stored.
8912 Return -1 if the user rejected a command menu.
8914 Echo starting immediately unless `prompt' is 0.
8916 If PREVENT_REDISPLAY is non-zero, avoid redisplay by calling
8917 read_char with a suitable COMMANDFLAG argument.
8919 Where a key sequence ends depends on the currently active keymaps.
8920 These include any minor mode keymaps active in the current buffer,
8921 the current buffer's local map, and the global map.
8923 If a key sequence has no other bindings, we check Vfunction_key_map
8924 to see if some trailing subsequence might be the beginning of a
8925 function key's sequence. If so, we try to read the whole function
8926 key, and substitute its symbolic name into the key sequence.
8928 We ignore unbound `down-' mouse clicks. We turn unbound `drag-' and
8929 `double-' events into similar click events, if that would make them
8930 bound. We try to turn `triple-' events first into `double-' events,
8931 then into clicks.
8933 If we get a mouse click in a mode line, vertical divider, or other
8934 non-text area, we treat the click as if it were prefixed by the
8935 symbol denoting that area - `mode-line', `vertical-line', or
8936 whatever.
8938 If the sequence starts with a mouse click, we read the key sequence
8939 with respect to the buffer clicked on, not the current buffer.
8941 If the user switches frames in the midst of a key sequence, we put
8942 off the switch-frame event until later; the next call to
8943 read_char will return it.
8945 If FIX_CURRENT_BUFFER, we restore current_buffer
8946 from the selected window's buffer. */
8948 static int
8949 read_key_sequence (Lisp_Object *keybuf, int bufsize, Lisp_Object prompt,
8950 bool dont_downcase_last, bool can_return_switch_frame,
8951 bool fix_current_buffer, bool prevent_redisplay)
8953 ptrdiff_t count = SPECPDL_INDEX ();
8955 /* How many keys there are in the current key sequence. */
8956 int t;
8958 /* The length of the echo buffer when we started reading, and
8959 the length of this_command_keys when we started reading. */
8960 ptrdiff_t echo_start IF_LINT (= 0);
8961 ptrdiff_t keys_start;
8963 Lisp_Object current_binding = Qnil;
8964 Lisp_Object first_event = Qnil;
8966 /* Index of the first key that has no binding.
8967 It is useless to try fkey.start larger than that. */
8968 int first_unbound;
8970 /* If t < mock_input, then KEYBUF[t] should be read as the next
8971 input key.
8973 We use this to recover after recognizing a function key. Once we
8974 realize that a suffix of the current key sequence is actually a
8975 function key's escape sequence, we replace the suffix with the
8976 function key's binding from Vfunction_key_map. Now keybuf
8977 contains a new and different key sequence, so the echo area,
8978 this_command_keys, and the submaps and defs arrays are wrong. In
8979 this situation, we set mock_input to t, set t to 0, and jump to
8980 restart_sequence; the loop will read keys from keybuf up until
8981 mock_input, thus rebuilding the state; and then it will resume
8982 reading characters from the keyboard. */
8983 int mock_input = 0;
8985 /* If the sequence is unbound in submaps[], then
8986 keybuf[fkey.start..fkey.end-1] is a prefix in Vfunction_key_map,
8987 and fkey.map is its binding.
8989 These might be > t, indicating that all function key scanning
8990 should hold off until t reaches them. We do this when we've just
8991 recognized a function key, to avoid searching for the function
8992 key's again in Vfunction_key_map. */
8993 keyremap fkey;
8995 /* Likewise, for key_translation_map and input-decode-map. */
8996 keyremap keytran, indec;
8998 /* True if we are trying to map a key by changing an upper-case
8999 letter to lower case, or a shifted function key to an unshifted
9000 one. */
9001 bool shift_translated = false;
9003 /* If we receive a `switch-frame' or `select-window' event in the middle of
9004 a key sequence, we put it off for later.
9005 While we're reading, we keep the event here. */
9006 Lisp_Object delayed_switch_frame;
9008 Lisp_Object original_uppercase IF_LINT (= Qnil);
9009 int original_uppercase_position = -1;
9011 /* Gets around Microsoft compiler limitations. */
9012 bool dummyflag = false;
9014 struct buffer *starting_buffer;
9016 /* List of events for which a fake prefix key has been generated. */
9017 Lisp_Object fake_prefixed_keys = Qnil;
9019 struct gcpro gcpro1;
9021 GCPRO1 (fake_prefixed_keys);
9022 raw_keybuf_count = 0;
9024 last_nonmenu_event = Qnil;
9026 delayed_switch_frame = Qnil;
9028 if (INTERACTIVE)
9030 if (!NILP (prompt))
9032 /* Install the string PROMPT as the beginning of the string
9033 of echoing, so that it serves as a prompt for the next
9034 character. */
9035 kset_echo_string (current_kboard, prompt);
9036 current_kboard->echo_after_prompt = SCHARS (prompt);
9037 echo_now ();
9039 else if (cursor_in_echo_area
9040 && echo_keystrokes_p ())
9041 /* This doesn't put in a dash if the echo buffer is empty, so
9042 you don't always see a dash hanging out in the minibuffer. */
9043 echo_dash ();
9046 /* Record the initial state of the echo area and this_command_keys;
9047 we will need to restore them if we replay a key sequence. */
9048 if (INTERACTIVE)
9049 echo_start = echo_length ();
9050 keys_start = this_command_key_count;
9051 this_single_command_key_start = keys_start;
9053 /* We jump here when we need to reinitialize fkey and keytran; this
9054 happens if we switch keyboards between rescans. */
9055 replay_entire_sequence:
9057 indec.map = indec.parent = KVAR (current_kboard, Vinput_decode_map);
9058 fkey.map = fkey.parent = KVAR (current_kboard, Vlocal_function_key_map);
9059 keytran.map = keytran.parent = Vkey_translation_map;
9060 indec.start = indec.end = 0;
9061 fkey.start = fkey.end = 0;
9062 keytran.start = keytran.end = 0;
9064 /* We jump here when the key sequence has been thoroughly changed, and
9065 we need to rescan it starting from the beginning. When we jump here,
9066 keybuf[0..mock_input] holds the sequence we should reread. */
9067 replay_sequence:
9069 starting_buffer = current_buffer;
9070 first_unbound = bufsize + 1;
9072 /* Build our list of keymaps.
9073 If we recognize a function key and replace its escape sequence in
9074 keybuf with its symbol, or if the sequence starts with a mouse
9075 click and we need to switch buffers, we jump back here to rebuild
9076 the initial keymaps from the current buffer. */
9077 current_binding = active_maps (first_event);
9079 /* Start from the beginning in keybuf. */
9080 t = 0;
9082 /* These are no-ops the first time through, but if we restart, they
9083 revert the echo area and this_command_keys to their original state. */
9084 this_command_key_count = keys_start;
9085 if (INTERACTIVE && t < mock_input)
9086 echo_truncate (echo_start);
9088 /* If the best binding for the current key sequence is a keymap, or
9089 we may be looking at a function key's escape sequence, keep on
9090 reading. */
9091 while (!NILP (current_binding)
9092 /* Keep reading as long as there's a prefix binding. */
9093 ? KEYMAPP (current_binding)
9094 /* Don't return in the middle of a possible function key sequence,
9095 if the only bindings we found were via case conversion.
9096 Thus, if ESC O a has a function-key-map translation
9097 and ESC o has a binding, don't return after ESC O,
9098 so that we can translate ESC O plus the next character. */
9099 : (/* indec.start < t || fkey.start < t || */ keytran.start < t))
9101 Lisp_Object key;
9102 bool used_mouse_menu = false;
9104 /* Where the last real key started. If we need to throw away a
9105 key that has expanded into more than one element of keybuf
9106 (say, a mouse click on the mode line which is being treated
9107 as [mode-line (mouse-...)], then we backtrack to this point
9108 of keybuf. */
9109 int last_real_key_start;
9111 /* These variables are analogous to echo_start and keys_start;
9112 while those allow us to restart the entire key sequence,
9113 echo_local_start and keys_local_start allow us to throw away
9114 just one key. */
9115 ptrdiff_t echo_local_start IF_LINT (= 0);
9116 int keys_local_start;
9117 Lisp_Object new_binding;
9119 eassert (indec.end == t || (indec.end > t && indec.end <= mock_input));
9120 eassert (indec.start <= indec.end);
9121 eassert (fkey.start <= fkey.end);
9122 eassert (keytran.start <= keytran.end);
9123 /* key-translation-map is applied *after* function-key-map
9124 which is itself applied *after* input-decode-map. */
9125 eassert (fkey.end <= indec.start);
9126 eassert (keytran.end <= fkey.start);
9128 if (/* first_unbound < indec.start && first_unbound < fkey.start && */
9129 first_unbound < keytran.start)
9130 { /* The prefix upto first_unbound has no binding and has
9131 no translation left to do either, so we know it's unbound.
9132 If we don't stop now, we risk staying here indefinitely
9133 (if the user keeps entering fkey or keytran prefixes
9134 like C-c ESC ESC ESC ESC ...) */
9135 int i;
9136 for (i = first_unbound + 1; i < t; i++)
9137 keybuf[i - first_unbound - 1] = keybuf[i];
9138 mock_input = t - first_unbound - 1;
9139 indec.end = indec.start -= first_unbound + 1;
9140 indec.map = indec.parent;
9141 fkey.end = fkey.start -= first_unbound + 1;
9142 fkey.map = fkey.parent;
9143 keytran.end = keytran.start -= first_unbound + 1;
9144 keytran.map = keytran.parent;
9145 goto replay_sequence;
9148 if (t >= bufsize)
9149 error ("Key sequence too long");
9151 if (INTERACTIVE)
9152 echo_local_start = echo_length ();
9153 keys_local_start = this_command_key_count;
9155 replay_key:
9156 /* These are no-ops, unless we throw away a keystroke below and
9157 jumped back up to replay_key; in that case, these restore the
9158 variables to their original state, allowing us to replay the
9159 loop. */
9160 if (INTERACTIVE && t < mock_input)
9161 echo_truncate (echo_local_start);
9162 this_command_key_count = keys_local_start;
9164 /* By default, assume each event is "real". */
9165 last_real_key_start = t;
9167 /* Does mock_input indicate that we are re-reading a key sequence? */
9168 if (t < mock_input)
9170 key = keybuf[t];
9171 add_command_key (key);
9172 if (echo_keystrokes_p ()
9173 && current_kboard->immediate_echo)
9175 echo_add_key (key);
9176 echo_dash ();
9180 /* If not, we should actually read a character. */
9181 else
9184 KBOARD *interrupted_kboard = current_kboard;
9185 struct frame *interrupted_frame = SELECTED_FRAME ();
9186 /* Calling read_char with COMMANDFLAG = -2 avoids
9187 redisplay in read_char and its subroutines. */
9188 key = read_char (prevent_redisplay ? -2 : NILP (prompt),
9189 current_binding, last_nonmenu_event,
9190 &used_mouse_menu, NULL);
9191 if ((INTEGERP (key) && XINT (key) == -2) /* wrong_kboard_jmpbuf */
9192 /* When switching to a new tty (with a new keyboard),
9193 read_char returns the new buffer, rather than -2
9194 (Bug#5095). This is because `terminal-init-xterm'
9195 calls read-char, which eats the wrong_kboard_jmpbuf
9196 return. Any better way to fix this? -- cyd */
9197 || (interrupted_kboard != current_kboard))
9199 bool found = false;
9200 struct kboard *k;
9202 for (k = all_kboards; k; k = k->next_kboard)
9203 if (k == interrupted_kboard)
9204 found = true;
9206 if (!found)
9208 /* Don't touch interrupted_kboard when it's been
9209 deleted. */
9210 delayed_switch_frame = Qnil;
9211 goto replay_entire_sequence;
9214 if (!NILP (delayed_switch_frame))
9216 kset_kbd_queue
9217 (interrupted_kboard,
9218 Fcons (delayed_switch_frame,
9219 KVAR (interrupted_kboard, kbd_queue)));
9220 delayed_switch_frame = Qnil;
9223 while (t > 0)
9224 kset_kbd_queue
9225 (interrupted_kboard,
9226 Fcons (keybuf[--t], KVAR (interrupted_kboard, kbd_queue)));
9228 /* If the side queue is non-empty, ensure it begins with a
9229 switch-frame, so we'll replay it in the right context. */
9230 if (CONSP (KVAR (interrupted_kboard, kbd_queue))
9231 && (key = XCAR (KVAR (interrupted_kboard, kbd_queue)),
9232 !(EVENT_HAS_PARAMETERS (key)
9233 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (key)),
9234 Qswitch_frame))))
9236 Lisp_Object frame;
9237 XSETFRAME (frame, interrupted_frame);
9238 kset_kbd_queue
9239 (interrupted_kboard,
9240 Fcons (make_lispy_switch_frame (frame),
9241 KVAR (interrupted_kboard, kbd_queue)));
9243 mock_input = 0;
9244 goto replay_entire_sequence;
9248 /* read_char returns t when it shows a menu and the user rejects it.
9249 Just return -1. */
9250 if (EQ (key, Qt))
9252 unbind_to (count, Qnil);
9253 UNGCPRO;
9254 return -1;
9257 /* read_char returns -1 at the end of a macro.
9258 Emacs 18 handles this by returning immediately with a
9259 zero, so that's what we'll do. */
9260 if (INTEGERP (key) && XINT (key) == -1)
9262 t = 0;
9263 /* The Microsoft C compiler can't handle the goto that
9264 would go here. */
9265 dummyflag = true;
9266 break;
9269 /* If the current buffer has been changed from under us, the
9270 keymap may have changed, so replay the sequence. */
9271 if (BUFFERP (key))
9273 timer_resume_idle ();
9275 mock_input = t;
9276 /* Reset the current buffer from the selected window
9277 in case something changed the former and not the latter.
9278 This is to be more consistent with the behavior
9279 of the command_loop_1. */
9280 if (fix_current_buffer)
9282 if (! FRAME_LIVE_P (XFRAME (selected_frame)))
9283 Fkill_emacs (Qnil);
9284 if (XBUFFER (XWINDOW (selected_window)->contents)
9285 != current_buffer)
9286 Fset_buffer (XWINDOW (selected_window)->contents);
9289 goto replay_sequence;
9292 /* If we have a quit that was typed in another frame, and
9293 quit_throw_to_read_char switched buffers,
9294 replay to get the right keymap. */
9295 if (INTEGERP (key)
9296 && XINT (key) == quit_char
9297 && current_buffer != starting_buffer)
9299 GROW_RAW_KEYBUF;
9300 ASET (raw_keybuf, raw_keybuf_count, key);
9301 raw_keybuf_count++;
9302 keybuf[t++] = key;
9303 mock_input = t;
9304 Vquit_flag = Qnil;
9305 goto replay_sequence;
9308 Vquit_flag = Qnil;
9310 if (EVENT_HAS_PARAMETERS (key)
9311 /* Either a `switch-frame' or a `select-window' event. */
9312 && EQ (EVENT_HEAD_KIND (EVENT_HEAD (key)), Qswitch_frame))
9314 /* If we're at the beginning of a key sequence, and the caller
9315 says it's okay, go ahead and return this event. If we're
9316 in the midst of a key sequence, delay it until the end. */
9317 if (t > 0 || !can_return_switch_frame)
9319 delayed_switch_frame = key;
9320 goto replay_key;
9324 if (NILP (first_event))
9326 first_event = key;
9327 /* Even if first_event does not specify a particular
9328 window/position, it's important to recompute the maps here
9329 since a long time might have passed since we entered
9330 read_key_sequence, and a timer (or process-filter or
9331 special-event-map, ...) might have switched the current buffer
9332 or the selected window from under us in the mean time. */
9333 if (fix_current_buffer
9334 && (XBUFFER (XWINDOW (selected_window)->contents)
9335 != current_buffer))
9336 Fset_buffer (XWINDOW (selected_window)->contents);
9337 current_binding = active_maps (first_event);
9340 GROW_RAW_KEYBUF;
9341 ASET (raw_keybuf, raw_keybuf_count, key);
9342 raw_keybuf_count++;
9345 /* Clicks in non-text areas get prefixed by the symbol
9346 in their CHAR-ADDRESS field. For example, a click on
9347 the mode line is prefixed by the symbol `mode-line'.
9349 Furthermore, key sequences beginning with mouse clicks
9350 are read using the keymaps of the buffer clicked on, not
9351 the current buffer. So we may have to switch the buffer
9352 here.
9354 When we turn one event into two events, we must make sure
9355 that neither of the two looks like the original--so that,
9356 if we replay the events, they won't be expanded again.
9357 If not for this, such reexpansion could happen either here
9358 or when user programs play with this-command-keys. */
9359 if (EVENT_HAS_PARAMETERS (key))
9361 Lisp_Object kind = EVENT_HEAD_KIND (EVENT_HEAD (key));
9362 if (EQ (kind, Qmouse_click))
9364 Lisp_Object window = POSN_WINDOW (EVENT_START (key));
9365 Lisp_Object posn = POSN_POSN (EVENT_START (key));
9367 if (CONSP (posn)
9368 || (!NILP (fake_prefixed_keys)
9369 && !NILP (Fmemq (key, fake_prefixed_keys))))
9371 /* We're looking a second time at an event for which
9372 we generated a fake prefix key. Set
9373 last_real_key_start appropriately. */
9374 if (t > 0)
9375 last_real_key_start = t - 1;
9378 if (last_real_key_start == 0)
9380 /* Key sequences beginning with mouse clicks are
9381 read using the keymaps in the buffer clicked on,
9382 not the current buffer. If we're at the
9383 beginning of a key sequence, switch buffers. */
9384 if (WINDOWP (window)
9385 && BUFFERP (XWINDOW (window)->contents)
9386 && XBUFFER (XWINDOW (window)->contents) != current_buffer)
9388 ASET (raw_keybuf, raw_keybuf_count, key);
9389 raw_keybuf_count++;
9390 keybuf[t] = key;
9391 mock_input = t + 1;
9393 /* Arrange to go back to the original buffer once we're
9394 done reading the key sequence. Note that we can't
9395 use save_excursion_{save,restore} here, because they
9396 save point as well as the current buffer; we don't
9397 want to save point, because redisplay may change it,
9398 to accommodate a Fset_window_start or something. We
9399 don't want to do this at the top of the function,
9400 because we may get input from a subprocess which
9401 wants to change the selected window and stuff (say,
9402 emacsclient). */
9403 record_unwind_current_buffer ();
9405 if (! FRAME_LIVE_P (XFRAME (selected_frame)))
9406 Fkill_emacs (Qnil);
9407 set_buffer_internal (XBUFFER (XWINDOW (window)->contents));
9408 goto replay_sequence;
9412 /* Expand mode-line and scroll-bar events into two events:
9413 use posn as a fake prefix key. */
9414 if (SYMBOLP (posn)
9415 && (NILP (fake_prefixed_keys)
9416 || NILP (Fmemq (key, fake_prefixed_keys))))
9418 if (bufsize - t <= 1)
9419 error ("Key sequence too long");
9421 keybuf[t] = posn;
9422 keybuf[t + 1] = key;
9423 mock_input = t + 2;
9425 /* Record that a fake prefix key has been generated
9426 for KEY. Don't modify the event; this would
9427 prevent proper action when the event is pushed
9428 back into unread-command-events. */
9429 fake_prefixed_keys = Fcons (key, fake_prefixed_keys);
9430 goto replay_key;
9433 else if (CONSP (XCDR (key))
9434 && CONSP (EVENT_START (key))
9435 && CONSP (XCDR (EVENT_START (key))))
9437 Lisp_Object posn;
9439 posn = POSN_POSN (EVENT_START (key));
9440 /* Handle menu-bar events:
9441 insert the dummy prefix event `menu-bar'. */
9442 if (EQ (posn, Qmenu_bar) || EQ (posn, Qtool_bar))
9444 if (bufsize - t <= 1)
9445 error ("Key sequence too long");
9446 keybuf[t] = posn;
9447 keybuf[t + 1] = key;
9449 /* Zap the position in key, so we know that we've
9450 expanded it, and don't try to do so again. */
9451 POSN_SET_POSN (EVENT_START (key), list1 (posn));
9453 mock_input = t + 2;
9454 goto replay_sequence;
9456 else if (CONSP (posn))
9458 /* We're looking at the second event of a
9459 sequence which we expanded before. Set
9460 last_real_key_start appropriately. */
9461 if (last_real_key_start == t && t > 0)
9462 last_real_key_start = t - 1;
9467 /* We have finally decided that KEY is something we might want
9468 to look up. */
9469 new_binding = follow_key (current_binding, key);
9471 /* If KEY wasn't bound, we'll try some fallbacks. */
9472 if (!NILP (new_binding))
9473 /* This is needed for the following scenario:
9474 event 0: a down-event that gets dropped by calling replay_key.
9475 event 1: some normal prefix like C-h.
9476 After event 0, first_unbound is 0, after event 1 indec.start,
9477 fkey.start, and keytran.start are all 1, so when we see that
9478 C-h is bound, we need to update first_unbound. */
9479 first_unbound = max (t + 1, first_unbound);
9480 else
9482 Lisp_Object head;
9484 /* Remember the position to put an upper bound on indec.start. */
9485 first_unbound = min (t, first_unbound);
9487 head = EVENT_HEAD (key);
9489 if (SYMBOLP (head))
9491 Lisp_Object breakdown;
9492 int modifiers;
9494 breakdown = parse_modifiers (head);
9495 modifiers = XINT (XCAR (XCDR (breakdown)));
9496 /* Attempt to reduce an unbound mouse event to a simpler
9497 event that is bound:
9498 Drags reduce to clicks.
9499 Double-clicks reduce to clicks.
9500 Triple-clicks reduce to double-clicks, then to clicks.
9501 Up/Down-clicks are eliminated.
9502 Double-downs reduce to downs, then are eliminated.
9503 Triple-downs reduce to double-downs, then to downs,
9504 then are eliminated. */
9505 if (modifiers & (up_modifier | down_modifier
9506 | drag_modifier
9507 | double_modifier | triple_modifier))
9509 while (modifiers & (up_modifier | down_modifier
9510 | drag_modifier
9511 | double_modifier | triple_modifier))
9513 Lisp_Object new_head, new_click;
9514 if (modifiers & triple_modifier)
9515 modifiers ^= (double_modifier | triple_modifier);
9516 else if (modifiers & double_modifier)
9517 modifiers &= ~double_modifier;
9518 else if (modifiers & drag_modifier)
9519 modifiers &= ~drag_modifier;
9520 else
9522 /* Dispose of this `up/down' event by simply jumping
9523 back to replay_key, to get another event.
9525 Note that if this event came from mock input,
9526 then just jumping back to replay_key will just
9527 hand it to us again. So we have to wipe out any
9528 mock input.
9530 We could delete keybuf[t] and shift everything
9531 after that to the left by one spot, but we'd also
9532 have to fix up any variable that points into
9533 keybuf, and shifting isn't really necessary
9534 anyway.
9536 Adding prefixes for non-textual mouse clicks
9537 creates two characters of mock input, and both
9538 must be thrown away. If we're only looking at
9539 the prefix now, we can just jump back to
9540 replay_key. On the other hand, if we've already
9541 processed the prefix, and now the actual click
9542 itself is giving us trouble, then we've lost the
9543 state of the keymaps we want to backtrack to, and
9544 we need to replay the whole sequence to rebuild
9547 Beyond that, only function key expansion could
9548 create more than two keys, but that should never
9549 generate mouse events, so it's okay to zero
9550 mock_input in that case too.
9552 FIXME: The above paragraph seems just plain
9553 wrong, if you consider things like
9554 xterm-mouse-mode. -stef
9556 Isn't this just the most wonderful code ever? */
9558 /* If mock_input > t + 1, the above simplification
9559 will actually end up dropping keys on the floor.
9560 This is probably OK for now, but even
9561 if mock_input <= t + 1, we need to adjust indec,
9562 fkey, and keytran.
9563 Typical case [header-line down-mouse-N]:
9564 mock_input = 2, t = 1, fkey.end = 1,
9565 last_real_key_start = 0. */
9566 if (indec.end > last_real_key_start)
9568 indec.end = indec.start
9569 = min (last_real_key_start, indec.start);
9570 indec.map = indec.parent;
9571 if (fkey.end > last_real_key_start)
9573 fkey.end = fkey.start
9574 = min (last_real_key_start, fkey.start);
9575 fkey.map = fkey.parent;
9576 if (keytran.end > last_real_key_start)
9578 keytran.end = keytran.start
9579 = min (last_real_key_start, keytran.start);
9580 keytran.map = keytran.parent;
9584 if (t == last_real_key_start)
9586 mock_input = 0;
9587 goto replay_key;
9589 else
9591 mock_input = last_real_key_start;
9592 goto replay_sequence;
9596 new_head
9597 = apply_modifiers (modifiers, XCAR (breakdown));
9598 new_click = list2 (new_head, EVENT_START (key));
9600 /* Look for a binding for this new key. */
9601 new_binding = follow_key (current_binding, new_click);
9603 /* If that click is bound, go for it. */
9604 if (!NILP (new_binding))
9606 current_binding = new_binding;
9607 key = new_click;
9608 break;
9610 /* Otherwise, we'll leave key set to the drag event. */
9615 current_binding = new_binding;
9617 keybuf[t++] = key;
9618 /* Normally, last_nonmenu_event gets the previous key we read.
9619 But when a mouse popup menu is being used,
9620 we don't update last_nonmenu_event; it continues to hold the mouse
9621 event that preceded the first level of menu. */
9622 if (!used_mouse_menu)
9623 last_nonmenu_event = key;
9625 /* Record what part of this_command_keys is the current key sequence. */
9626 this_single_command_key_start = this_command_key_count - t;
9627 /* When 'input-method-function' called above causes events to be
9628 put on 'unread-post-input-method-events', and as result
9629 'reread' is set to 'true', the value of 't' can become larger
9630 than 'this_command_key_count', because 'add_command_key' is
9631 not called to update 'this_command_key_count'. If this
9632 happens, 'this_single_command_key_start' will become negative
9633 above, and any call to 'this-single-command-keys' will return
9634 a garbled vector. See bug #20223 for one such situation.
9635 Here we force 'this_single_command_key_start' to never become
9636 negative, to avoid that. */
9637 if (this_single_command_key_start < 0)
9638 this_single_command_key_start = 0;
9640 /* Look for this sequence in input-decode-map.
9641 Scan from indec.end until we find a bound suffix. */
9642 while (indec.end < t)
9644 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
9645 bool done;
9646 int diff;
9648 GCPRO4 (indec.map, fkey.map, keytran.map, delayed_switch_frame);
9649 done = keyremap_step (keybuf, bufsize, &indec, max (t, mock_input),
9650 1, &diff, prompt);
9651 UNGCPRO;
9652 if (done)
9654 mock_input = diff + max (t, mock_input);
9655 goto replay_sequence;
9659 if (!KEYMAPP (current_binding)
9660 && !test_undefined (current_binding)
9661 && indec.start >= t)
9662 /* There is a binding and it's not a prefix.
9663 (and it doesn't have any input-decode-map translation pending).
9664 There is thus no function-key in this sequence.
9665 Moving fkey.start is important in this case to allow keytran.start
9666 to go over the sequence before we return (since we keep the
9667 invariant that keytran.end <= fkey.start). */
9669 if (fkey.start < t)
9670 (fkey.start = fkey.end = t, fkey.map = fkey.parent);
9672 else
9673 /* If the sequence is unbound, see if we can hang a function key
9674 off the end of it. */
9675 /* Continue scan from fkey.end until we find a bound suffix. */
9676 while (fkey.end < indec.start)
9678 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
9679 bool done;
9680 int diff;
9682 GCPRO4 (indec.map, fkey.map, keytran.map, delayed_switch_frame);
9683 done = keyremap_step (keybuf, bufsize, &fkey,
9684 max (t, mock_input),
9685 /* If there's a binding (i.e.
9686 first_binding >= nmaps) we don't want
9687 to apply this function-key-mapping. */
9688 fkey.end + 1 == t
9689 && (test_undefined (current_binding)),
9690 &diff, prompt);
9691 UNGCPRO;
9692 if (done)
9694 mock_input = diff + max (t, mock_input);
9695 /* Adjust the input-decode-map counters. */
9696 indec.end += diff;
9697 indec.start += diff;
9699 goto replay_sequence;
9703 /* Look for this sequence in key-translation-map.
9704 Scan from keytran.end until we find a bound suffix. */
9705 while (keytran.end < fkey.start)
9707 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
9708 bool done;
9709 int diff;
9711 GCPRO4 (indec.map, fkey.map, keytran.map, delayed_switch_frame);
9712 done = keyremap_step (keybuf, bufsize, &keytran, max (t, mock_input),
9713 1, &diff, prompt);
9714 UNGCPRO;
9715 if (done)
9717 mock_input = diff + max (t, mock_input);
9718 /* Adjust the function-key-map and input-decode-map counters. */
9719 indec.end += diff;
9720 indec.start += diff;
9721 fkey.end += diff;
9722 fkey.start += diff;
9724 goto replay_sequence;
9728 /* If KEY is not defined in any of the keymaps,
9729 and cannot be part of a function key or translation,
9730 and is an upper case letter
9731 use the corresponding lower-case letter instead. */
9732 if (NILP (current_binding)
9733 && /* indec.start >= t && fkey.start >= t && */ keytran.start >= t
9734 && INTEGERP (key)
9735 && ((CHARACTERP (make_number (XINT (key) & ~CHAR_MODIFIER_MASK))
9736 && uppercasep (XINT (key) & ~CHAR_MODIFIER_MASK))
9737 || (XINT (key) & shift_modifier)))
9739 Lisp_Object new_key;
9741 original_uppercase = key;
9742 original_uppercase_position = t - 1;
9744 if (XINT (key) & shift_modifier)
9745 XSETINT (new_key, XINT (key) & ~shift_modifier);
9746 else
9747 XSETINT (new_key, (downcase (XINT (key) & ~CHAR_MODIFIER_MASK)
9748 | (XINT (key) & CHAR_MODIFIER_MASK)));
9750 /* We have to do this unconditionally, regardless of whether
9751 the lower-case char is defined in the keymaps, because they
9752 might get translated through function-key-map. */
9753 keybuf[t - 1] = new_key;
9754 mock_input = max (t, mock_input);
9755 shift_translated = true;
9757 goto replay_sequence;
9760 if (NILP (current_binding)
9761 && help_char_p (EVENT_HEAD (key)) && t > 1)
9763 read_key_sequence_cmd = Vprefix_help_command;
9764 /* The Microsoft C compiler can't handle the goto that
9765 would go here. */
9766 dummyflag = true;
9767 break;
9770 /* If KEY is not defined in any of the keymaps,
9771 and cannot be part of a function key or translation,
9772 and is a shifted function key,
9773 use the corresponding unshifted function key instead. */
9774 if (NILP (current_binding)
9775 && /* indec.start >= t && fkey.start >= t && */ keytran.start >= t)
9777 Lisp_Object breakdown = parse_modifiers (key);
9778 int modifiers
9779 = CONSP (breakdown) ? (XINT (XCAR (XCDR (breakdown)))) : 0;
9781 if (modifiers & shift_modifier
9782 /* Treat uppercase keys as shifted. */
9783 || (INTEGERP (key)
9784 && (KEY_TO_CHAR (key)
9785 < XCHAR_TABLE (BVAR (current_buffer, downcase_table))->header.size)
9786 && uppercasep (KEY_TO_CHAR (key))))
9788 Lisp_Object new_key
9789 = (modifiers & shift_modifier
9790 ? apply_modifiers (modifiers & ~shift_modifier,
9791 XCAR (breakdown))
9792 : make_number (downcase (KEY_TO_CHAR (key)) | modifiers));
9794 original_uppercase = key;
9795 original_uppercase_position = t - 1;
9797 /* We have to do this unconditionally, regardless of whether
9798 the lower-case char is defined in the keymaps, because they
9799 might get translated through function-key-map. */
9800 keybuf[t - 1] = new_key;
9801 mock_input = max (t, mock_input);
9802 /* Reset fkey (and consequently keytran) to apply
9803 function-key-map on the result, so that S-backspace is
9804 correctly mapped to DEL (via backspace). OTOH,
9805 input-decode-map doesn't need to go through it again. */
9806 fkey.start = fkey.end = 0;
9807 keytran.start = keytran.end = 0;
9808 shift_translated = true;
9810 goto replay_sequence;
9814 if (!dummyflag)
9815 read_key_sequence_cmd = current_binding;
9816 read_key_sequence_remapped
9817 /* Remap command through active keymaps.
9818 Do the remapping here, before the unbind_to so it uses the keymaps
9819 of the appropriate buffer. */
9820 = SYMBOLP (read_key_sequence_cmd)
9821 ? Fcommand_remapping (read_key_sequence_cmd, Qnil, Qnil)
9822 : Qnil;
9824 unread_switch_frame = delayed_switch_frame;
9825 unbind_to (count, Qnil);
9827 /* Don't downcase the last character if the caller says don't.
9828 Don't downcase it if the result is undefined, either. */
9829 if ((dont_downcase_last || NILP (current_binding))
9830 && t > 0
9831 && t - 1 == original_uppercase_position)
9833 keybuf[t - 1] = original_uppercase;
9834 shift_translated = false;
9837 if (shift_translated)
9838 Vthis_command_keys_shift_translated = Qt;
9840 /* Occasionally we fabricate events, perhaps by expanding something
9841 according to function-key-map, or by adding a prefix symbol to a
9842 mouse click in the scroll bar or modeline. In this cases, return
9843 the entire generated key sequence, even if we hit an unbound
9844 prefix or a definition before the end. This means that you will
9845 be able to push back the event properly, and also means that
9846 read-key-sequence will always return a logical unit.
9848 Better ideas? */
9849 for (; t < mock_input; t++)
9851 if (echo_keystrokes_p ())
9852 echo_char (keybuf[t]);
9853 add_command_key (keybuf[t]);
9856 UNGCPRO;
9857 return t;
9860 static Lisp_Object
9861 read_key_sequence_vs (Lisp_Object prompt, Lisp_Object continue_echo,
9862 Lisp_Object dont_downcase_last,
9863 Lisp_Object can_return_switch_frame,
9864 Lisp_Object cmd_loop, bool allow_string)
9866 Lisp_Object keybuf[30];
9867 register int i;
9868 struct gcpro gcpro1;
9869 ptrdiff_t count = SPECPDL_INDEX ();
9871 if (!NILP (prompt))
9872 CHECK_STRING (prompt);
9873 QUIT;
9875 specbind (Qinput_method_exit_on_first_char,
9876 (NILP (cmd_loop) ? Qt : Qnil));
9877 specbind (Qinput_method_use_echo_area,
9878 (NILP (cmd_loop) ? Qt : Qnil));
9880 memset (keybuf, 0, sizeof keybuf);
9881 GCPRO1 (keybuf[0]);
9882 gcpro1.nvars = ARRAYELTS (keybuf);
9884 if (NILP (continue_echo))
9886 this_command_key_count = 0;
9887 this_command_key_count_reset = false;
9888 this_single_command_key_start = 0;
9891 #ifdef HAVE_WINDOW_SYSTEM
9892 if (display_hourglass_p)
9893 cancel_hourglass ();
9894 #endif
9896 i = read_key_sequence (keybuf, ARRAYELTS (keybuf),
9897 prompt, ! NILP (dont_downcase_last),
9898 ! NILP (can_return_switch_frame), 0, 0);
9900 #if 0 /* The following is fine for code reading a key sequence and
9901 then proceeding with a lengthy computation, but it's not good
9902 for code reading keys in a loop, like an input method. */
9903 #ifdef HAVE_WINDOW_SYSTEM
9904 if (display_hourglass_p)
9905 start_hourglass ();
9906 #endif
9907 #endif
9909 if (i == -1)
9911 Vquit_flag = Qt;
9912 QUIT;
9914 UNGCPRO;
9915 return unbind_to (count,
9916 ((allow_string ? make_event_array : Fvector)
9917 (i, keybuf)));
9920 DEFUN ("read-key-sequence", Fread_key_sequence, Sread_key_sequence, 1, 5, 0,
9921 doc: /* Read a sequence of keystrokes and return as a string or vector.
9922 The sequence is sufficient to specify a non-prefix command in the
9923 current local and global maps.
9925 First arg PROMPT is a prompt string. If nil, do not prompt specially.
9926 Second (optional) arg CONTINUE-ECHO, if non-nil, means this key echos
9927 as a continuation of the previous key.
9929 The third (optional) arg DONT-DOWNCASE-LAST, if non-nil, means do not
9930 convert the last event to lower case. (Normally any upper case event
9931 is converted to lower case if the original event is undefined and the lower
9932 case equivalent is defined.) A non-nil value is appropriate for reading
9933 a key sequence to be defined.
9935 A C-g typed while in this function is treated like any other character,
9936 and `quit-flag' is not set.
9938 If the key sequence starts with a mouse click, then the sequence is read
9939 using the keymaps of the buffer of the window clicked in, not the buffer
9940 of the selected window as normal.
9942 `read-key-sequence' drops unbound button-down events, since you normally
9943 only care about the click or drag events which follow them. If a drag
9944 or multi-click event is unbound, but the corresponding click event would
9945 be bound, `read-key-sequence' turns the event into a click event at the
9946 drag's starting position. This means that you don't have to distinguish
9947 between click and drag, double, or triple events unless you want to.
9949 `read-key-sequence' prefixes mouse events on mode lines, the vertical
9950 lines separating windows, and scroll bars with imaginary keys
9951 `mode-line', `vertical-line', and `vertical-scroll-bar'.
9953 Optional fourth argument CAN-RETURN-SWITCH-FRAME non-nil means that this
9954 function will process a switch-frame event if the user switches frames
9955 before typing anything. If the user switches frames in the middle of a
9956 key sequence, or at the start of the sequence but CAN-RETURN-SWITCH-FRAME
9957 is nil, then the event will be put off until after the current key sequence.
9959 `read-key-sequence' checks `function-key-map' for function key
9960 sequences, where they wouldn't conflict with ordinary bindings. See
9961 `function-key-map' for more details.
9963 The optional fifth argument CMD-LOOP, if non-nil, means
9964 that this key sequence is being read by something that will
9965 read commands one after another. It should be nil if the caller
9966 will read just one key sequence. */)
9967 (Lisp_Object prompt, Lisp_Object continue_echo, Lisp_Object dont_downcase_last, Lisp_Object can_return_switch_frame, Lisp_Object cmd_loop)
9969 return read_key_sequence_vs (prompt, continue_echo, dont_downcase_last,
9970 can_return_switch_frame, cmd_loop, true);
9973 DEFUN ("read-key-sequence-vector", Fread_key_sequence_vector,
9974 Sread_key_sequence_vector, 1, 5, 0,
9975 doc: /* Like `read-key-sequence' but always return a vector. */)
9976 (Lisp_Object prompt, Lisp_Object continue_echo, Lisp_Object dont_downcase_last, Lisp_Object can_return_switch_frame, Lisp_Object cmd_loop)
9978 return read_key_sequence_vs (prompt, continue_echo, dont_downcase_last,
9979 can_return_switch_frame, cmd_loop, false);
9982 /* Return true if input events are pending. */
9984 bool
9985 detect_input_pending (void)
9987 return input_pending || get_input_pending (0);
9990 /* Return true if input events other than mouse movements are
9991 pending. */
9993 bool
9994 detect_input_pending_ignore_squeezables (void)
9996 return input_pending || get_input_pending (READABLE_EVENTS_IGNORE_SQUEEZABLES);
9999 /* Return true if input events are pending, and run any pending timers. */
10001 bool
10002 detect_input_pending_run_timers (bool do_display)
10004 unsigned old_timers_run = timers_run;
10006 if (!input_pending)
10007 get_input_pending (READABLE_EVENTS_DO_TIMERS_NOW);
10009 if (old_timers_run != timers_run && do_display)
10010 redisplay_preserve_echo_area (8);
10012 return input_pending;
10015 /* This is called in some cases before a possible quit.
10016 It cases the next call to detect_input_pending to recompute input_pending.
10017 So calling this function unnecessarily can't do any harm. */
10019 void
10020 clear_input_pending (void)
10022 input_pending = false;
10025 /* Return true if there are pending requeued events.
10026 This isn't used yet. The hope is to make wait_reading_process_output
10027 call it, and return if it runs Lisp code that unreads something.
10028 The problem is, kbd_buffer_get_event needs to be fixed to know what
10029 to do in that case. It isn't trivial. */
10031 bool
10032 requeued_events_pending_p (void)
10034 return (!NILP (Vunread_command_events));
10037 DEFUN ("input-pending-p", Finput_pending_p, Sinput_pending_p, 0, 1, 0,
10038 doc: /* Return t if command input is currently available with no wait.
10039 Actually, the value is nil only if we can be sure that no input is available;
10040 if there is a doubt, the value is t.
10042 If CHECK-TIMERS is non-nil, timers that are ready to run will do so. */)
10043 (Lisp_Object check_timers)
10045 if (!NILP (Vunread_command_events)
10046 || !NILP (Vunread_post_input_method_events)
10047 || !NILP (Vunread_input_method_events))
10048 return (Qt);
10050 /* Process non-user-visible events (Bug#10195). */
10051 process_special_events ();
10053 return (get_input_pending ((NILP (check_timers)
10054 ? 0 : READABLE_EVENTS_DO_TIMERS_NOW)
10055 | READABLE_EVENTS_FILTER_EVENTS)
10056 ? Qt : Qnil);
10059 DEFUN ("recent-keys", Frecent_keys, Srecent_keys, 0, 1, 0,
10060 doc: /* Return vector of last few events, not counting those from keyboard macros.
10061 If INCLUDE-CMDS is non-nil, include the commands that were run,
10062 represented as events of the form (nil . COMMAND). */)
10063 (Lisp_Object include_cmds)
10065 bool cmds = !NILP (include_cmds);
10067 if (!total_keys
10068 || (cmds && total_keys < NUM_RECENT_KEYS))
10069 return Fvector (total_keys,
10070 XVECTOR (recent_keys)->contents);
10071 else
10073 Lisp_Object es = Qnil;
10074 int i = (total_keys < NUM_RECENT_KEYS
10075 ? 0 : recent_keys_index);
10076 eassert (recent_keys_index < NUM_RECENT_KEYS);
10079 Lisp_Object e = AREF (recent_keys, i);
10080 if (cmds || !CONSP (e) || !NILP (XCAR (e)))
10081 es = Fcons (e, es);
10082 if (++i >= NUM_RECENT_KEYS)
10083 i = 0;
10084 } while (i != recent_keys_index);
10085 es = Fnreverse (es);
10086 return Fvconcat (1, &es);
10090 DEFUN ("this-command-keys", Fthis_command_keys, Sthis_command_keys, 0, 0, 0,
10091 doc: /* Return the key sequence that invoked this command.
10092 However, if the command has called `read-key-sequence', it returns
10093 the last key sequence that has been read.
10094 The value is a string or a vector.
10096 See also `this-command-keys-vector'. */)
10097 (void)
10099 return make_event_array (this_command_key_count,
10100 XVECTOR (this_command_keys)->contents);
10103 DEFUN ("this-command-keys-vector", Fthis_command_keys_vector, Sthis_command_keys_vector, 0, 0, 0,
10104 doc: /* Return the key sequence that invoked this command, as a vector.
10105 However, if the command has called `read-key-sequence', it returns
10106 the last key sequence that has been read.
10108 See also `this-command-keys'. */)
10109 (void)
10111 return Fvector (this_command_key_count,
10112 XVECTOR (this_command_keys)->contents);
10115 DEFUN ("this-single-command-keys", Fthis_single_command_keys,
10116 Sthis_single_command_keys, 0, 0, 0,
10117 doc: /* Return the key sequence that invoked this command.
10118 More generally, it returns the last key sequence read, either by
10119 the command loop or by `read-key-sequence'.
10120 Unlike `this-command-keys', this function's value
10121 does not include prefix arguments.
10122 The value is always a vector. */)
10123 (void)
10125 return Fvector (this_command_key_count
10126 - this_single_command_key_start,
10127 (XVECTOR (this_command_keys)->contents
10128 + this_single_command_key_start));
10131 DEFUN ("this-single-command-raw-keys", Fthis_single_command_raw_keys,
10132 Sthis_single_command_raw_keys, 0, 0, 0,
10133 doc: /* Return the raw events that were read for this command.
10134 More generally, it returns the last key sequence read, either by
10135 the command loop or by `read-key-sequence'.
10136 Unlike `this-single-command-keys', this function's value
10137 shows the events before all translations (except for input methods).
10138 The value is always a vector. */)
10139 (void)
10141 return Fvector (raw_keybuf_count, XVECTOR (raw_keybuf)->contents);
10144 DEFUN ("reset-this-command-lengths", Freset_this_command_lengths,
10145 Sreset_this_command_lengths, 0, 0, 0,
10146 doc: /* Make the unread events replace the last command and echo.
10147 Used in `universal-argument-other-key'.
10149 `universal-argument-other-key' rereads the event just typed.
10150 It then gets translated through `function-key-map'.
10151 The translated event has to replace the real events,
10152 both in the value of (this-command-keys) and in echoing.
10153 To achieve this, `universal-argument-other-key' calls
10154 `reset-this-command-lengths', which discards the record of reading
10155 these events the first time. */)
10156 (void)
10158 this_command_key_count = before_command_key_count;
10159 if (this_command_key_count < this_single_command_key_start)
10160 this_single_command_key_start = this_command_key_count;
10162 echo_truncate (before_command_echo_length);
10164 /* Cause whatever we put into unread-command-events
10165 to echo as if it were being freshly read from the keyboard. */
10166 this_command_key_count_reset = true;
10168 return Qnil;
10171 DEFUN ("clear-this-command-keys", Fclear_this_command_keys,
10172 Sclear_this_command_keys, 0, 1, 0,
10173 doc: /* Clear out the vector that `this-command-keys' returns.
10174 Also clear the record of the last 100 events, unless optional arg
10175 KEEP-RECORD is non-nil. */)
10176 (Lisp_Object keep_record)
10178 int i;
10180 this_command_key_count = 0;
10181 this_command_key_count_reset = false;
10183 if (NILP (keep_record))
10185 for (i = 0; i < ASIZE (recent_keys); ++i)
10186 ASET (recent_keys, i, Qnil);
10187 total_keys = 0;
10188 recent_keys_index = 0;
10190 return Qnil;
10193 DEFUN ("recursion-depth", Frecursion_depth, Srecursion_depth, 0, 0, 0,
10194 doc: /* Return the current depth in recursive edits. */)
10195 (void)
10197 Lisp_Object temp;
10198 /* Wrap around reliably on integer overflow. */
10199 EMACS_INT sum = (command_loop_level & INTMASK) + (minibuf_level & INTMASK);
10200 XSETINT (temp, sum);
10201 return temp;
10204 DEFUN ("open-dribble-file", Fopen_dribble_file, Sopen_dribble_file, 1, 1,
10205 "FOpen dribble file: ",
10206 doc: /* Start writing all keyboard characters to a dribble file called FILE.
10207 If FILE is nil, close any open dribble file.
10208 The file will be closed when Emacs exits.
10210 Be aware that this records ALL characters you type!
10211 This may include sensitive information such as passwords. */)
10212 (Lisp_Object file)
10214 if (dribble)
10216 block_input ();
10217 fclose (dribble);
10218 unblock_input ();
10219 dribble = 0;
10221 if (!NILP (file))
10223 int fd;
10224 Lisp_Object encfile;
10226 file = Fexpand_file_name (file, Qnil);
10227 encfile = ENCODE_FILE (file);
10228 fd = emacs_open (SSDATA (encfile), O_WRONLY | O_CREAT | O_EXCL, 0600);
10229 if (fd < 0 && errno == EEXIST && unlink (SSDATA (encfile)) == 0)
10230 fd = emacs_open (SSDATA (encfile), O_WRONLY | O_CREAT | O_EXCL, 0600);
10231 dribble = fd < 0 ? 0 : fdopen (fd, "w");
10232 if (dribble == 0)
10233 report_file_error ("Opening dribble", file);
10235 return Qnil;
10238 DEFUN ("discard-input", Fdiscard_input, Sdiscard_input, 0, 0, 0,
10239 doc: /* Discard the contents of the terminal input buffer.
10240 Also end any kbd macro being defined. */)
10241 (void)
10243 if (!NILP (KVAR (current_kboard, defining_kbd_macro)))
10245 /* Discard the last command from the macro. */
10246 Fcancel_kbd_macro_events ();
10247 end_kbd_macro ();
10250 Vunread_command_events = Qnil;
10252 discard_tty_input ();
10254 kbd_fetch_ptr = kbd_store_ptr;
10255 input_pending = false;
10257 return Qnil;
10260 DEFUN ("suspend-emacs", Fsuspend_emacs, Ssuspend_emacs, 0, 1, "",
10261 doc: /* Stop Emacs and return to superior process. You can resume later.
10262 If `cannot-suspend' is non-nil, or if the system doesn't support job
10263 control, run a subshell instead.
10265 If optional arg STUFFSTRING is non-nil, its characters are stuffed
10266 to be read as terminal input by Emacs's parent, after suspension.
10268 Before suspending, run the normal hook `suspend-hook'.
10269 After resumption run the normal hook `suspend-resume-hook'.
10271 Some operating systems cannot stop the Emacs process and resume it later.
10272 On such systems, Emacs starts a subshell instead of suspending. */)
10273 (Lisp_Object stuffstring)
10275 ptrdiff_t count = SPECPDL_INDEX ();
10276 int old_height, old_width;
10277 int width, height;
10278 struct gcpro gcpro1;
10280 if (tty_list && tty_list->next)
10281 error ("There are other tty frames open; close them before suspending Emacs");
10283 if (!NILP (stuffstring))
10284 CHECK_STRING (stuffstring);
10286 run_hook (intern ("suspend-hook"));
10288 GCPRO1 (stuffstring);
10289 get_tty_size (fileno (CURTTY ()->input), &old_width, &old_height);
10290 reset_all_sys_modes ();
10291 /* sys_suspend can get an error if it tries to fork a subshell
10292 and the system resources aren't available for that. */
10293 record_unwind_protect_void (init_all_sys_modes);
10294 stuff_buffered_input (stuffstring);
10295 if (cannot_suspend)
10296 sys_subshell ();
10297 else
10298 sys_suspend ();
10299 unbind_to (count, Qnil);
10301 /* Check if terminal/window size has changed.
10302 Note that this is not useful when we are running directly
10303 with a window system; but suspend should be disabled in that case. */
10304 get_tty_size (fileno (CURTTY ()->input), &width, &height);
10305 if (width != old_width || height != old_height)
10306 change_frame_size (SELECTED_FRAME (), width,
10307 height - FRAME_MENU_BAR_LINES (SELECTED_FRAME ()),
10308 0, 0, 0, 0);
10310 run_hook (intern ("suspend-resume-hook"));
10312 UNGCPRO;
10313 return Qnil;
10316 /* If STUFFSTRING is a string, stuff its contents as pending terminal input.
10317 Then in any case stuff anything Emacs has read ahead and not used. */
10319 void
10320 stuff_buffered_input (Lisp_Object stuffstring)
10322 #ifdef SIGTSTP /* stuff_char is defined if SIGTSTP. */
10323 register unsigned char *p;
10325 if (STRINGP (stuffstring))
10327 register ptrdiff_t count;
10329 p = SDATA (stuffstring);
10330 count = SBYTES (stuffstring);
10331 while (count-- > 0)
10332 stuff_char (*p++);
10333 stuff_char ('\n');
10336 /* Anything we have read ahead, put back for the shell to read. */
10337 /* ?? What should this do when we have multiple keyboards??
10338 Should we ignore anything that was typed in at the "wrong" kboard?
10340 rms: we should stuff everything back into the kboard
10341 it came from. */
10342 for (; kbd_fetch_ptr != kbd_store_ptr; kbd_fetch_ptr++)
10345 if (kbd_fetch_ptr == kbd_buffer + KBD_BUFFER_SIZE)
10346 kbd_fetch_ptr = kbd_buffer;
10347 if (kbd_fetch_ptr->kind == ASCII_KEYSTROKE_EVENT)
10348 stuff_char (kbd_fetch_ptr->ie.code);
10350 clear_event (kbd_fetch_ptr);
10353 input_pending = false;
10354 #endif /* SIGTSTP */
10357 void
10358 set_waiting_for_input (struct timespec *time_to_clear)
10360 input_available_clear_time = time_to_clear;
10362 /* Tell handle_interrupt to throw back to read_char, */
10363 waiting_for_input = true;
10365 /* If handle_interrupt was called before and buffered a C-g,
10366 make it run again now, to avoid timing error. */
10367 if (!NILP (Vquit_flag))
10368 quit_throw_to_read_char (0);
10371 void
10372 clear_waiting_for_input (void)
10374 /* Tell handle_interrupt not to throw back to read_char, */
10375 waiting_for_input = false;
10376 input_available_clear_time = 0;
10379 /* The SIGINT handler.
10381 If we have a frame on the controlling tty, we assume that the
10382 SIGINT was generated by C-g, so we call handle_interrupt.
10383 Otherwise, tell QUIT to kill Emacs. */
10385 static void
10386 handle_interrupt_signal (int sig)
10388 /* See if we have an active terminal on our controlling tty. */
10389 struct terminal *terminal = get_named_terminal ("/dev/tty");
10390 if (!terminal)
10392 /* If there are no frames there, let's pretend that we are a
10393 well-behaving UN*X program and quit. We must not call Lisp
10394 in a signal handler, so tell QUIT to exit when it is
10395 safe. */
10396 Vquit_flag = Qkill_emacs;
10398 else
10400 /* Otherwise, the SIGINT was probably generated by C-g. */
10402 /* Set internal_last_event_frame to the top frame of the
10403 controlling tty, if we have a frame there. We disable the
10404 interrupt key on secondary ttys, so the SIGINT must have come
10405 from the controlling tty. */
10406 internal_last_event_frame = terminal->display_info.tty->top_frame;
10408 handle_interrupt (1);
10412 static void
10413 deliver_interrupt_signal (int sig)
10415 deliver_process_signal (sig, handle_interrupt_signal);
10419 /* If Emacs is stuck because `inhibit-quit' is true, then keep track
10420 of the number of times C-g has been requested. If C-g is pressed
10421 enough times, then quit anyway. See bug#6585. */
10422 static int volatile force_quit_count;
10424 /* This routine is called at interrupt level in response to C-g.
10426 It is called from the SIGINT handler or kbd_buffer_store_event.
10428 If `waiting_for_input' is non zero, then unless `echoing' is
10429 nonzero, immediately throw back to read_char.
10431 Otherwise it sets the Lisp variable quit-flag not-nil. This causes
10432 eval to throw, when it gets a chance. If quit-flag is already
10433 non-nil, it stops the job right away. */
10435 static void
10436 handle_interrupt (bool in_signal_handler)
10438 char c;
10440 cancel_echoing ();
10442 /* XXX This code needs to be revised for multi-tty support. */
10443 if (!NILP (Vquit_flag) && get_named_terminal ("/dev/tty"))
10445 if (! in_signal_handler)
10447 /* If SIGINT isn't blocked, don't let us be interrupted by
10448 a SIGINT. It might be harmful due to non-reentrancy
10449 in I/O functions. */
10450 sigset_t blocked;
10451 sigemptyset (&blocked);
10452 sigaddset (&blocked, SIGINT);
10453 pthread_sigmask (SIG_BLOCK, &blocked, 0);
10456 fflush (stdout);
10457 reset_all_sys_modes ();
10459 #ifdef SIGTSTP
10461 * On systems which can suspend the current process and return to the original
10462 * shell, this command causes the user to end up back at the shell.
10463 * The "Auto-save" and "Abort" questions are not asked until
10464 * the user elects to return to emacs, at which point he can save the current
10465 * job and either dump core or continue.
10467 sys_suspend ();
10468 #else
10469 /* Perhaps should really fork an inferior shell?
10470 But that would not provide any way to get back
10471 to the original shell, ever. */
10472 printf ("No support for stopping a process on this operating system;\n");
10473 printf ("you can continue or abort.\n");
10474 #endif /* not SIGTSTP */
10475 #ifdef MSDOS
10476 /* We must remain inside the screen area when the internal terminal
10477 is used. Note that [Enter] is not echoed by dos. */
10478 cursor_to (SELECTED_FRAME (), 0, 0);
10479 #endif
10480 /* It doesn't work to autosave while GC is in progress;
10481 the code used for auto-saving doesn't cope with the mark bit. */
10482 if (!gc_in_progress)
10484 printf ("Auto-save? (y or n) ");
10485 fflush (stdout);
10486 if (((c = getchar ()) & ~040) == 'Y')
10488 Fdo_auto_save (Qt, Qnil);
10489 #ifdef MSDOS
10490 printf ("\r\nAuto-save done");
10491 #else /* not MSDOS */
10492 printf ("Auto-save done\n");
10493 #endif /* not MSDOS */
10495 while (c != '\n') c = getchar ();
10497 else
10499 /* During GC, it must be safe to reenable quitting again. */
10500 Vinhibit_quit = Qnil;
10501 #ifdef MSDOS
10502 printf ("\r\n");
10503 #endif /* not MSDOS */
10504 printf ("Garbage collection in progress; cannot auto-save now\r\n");
10505 printf ("but will instead do a real quit after garbage collection ends\r\n");
10506 fflush (stdout);
10509 #ifdef MSDOS
10510 printf ("\r\nAbort? (y or n) ");
10511 #else /* not MSDOS */
10512 printf ("Abort (and dump core)? (y or n) ");
10513 #endif /* not MSDOS */
10514 fflush (stdout);
10515 if (((c = getchar ()) & ~040) == 'Y')
10516 emacs_abort ();
10517 while (c != '\n') c = getchar ();
10518 #ifdef MSDOS
10519 printf ("\r\nContinuing...\r\n");
10520 #else /* not MSDOS */
10521 printf ("Continuing...\n");
10522 #endif /* not MSDOS */
10523 fflush (stdout);
10524 init_all_sys_modes ();
10526 else
10528 /* If executing a function that wants to be interrupted out of
10529 and the user has not deferred quitting by binding `inhibit-quit'
10530 then quit right away. */
10531 if (immediate_quit && NILP (Vinhibit_quit))
10533 struct gl_state_s saved;
10534 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
10536 immediate_quit = false;
10537 pthread_sigmask (SIG_SETMASK, &empty_mask, 0);
10538 saved = gl_state;
10539 GCPRO4 (saved.object, saved.global_code,
10540 saved.current_syntax_table, saved.old_prop);
10541 Fsignal (Qquit, Qnil);
10542 gl_state = saved;
10543 UNGCPRO;
10545 else
10546 { /* Else request quit when it's safe. */
10547 int count = NILP (Vquit_flag) ? 1 : force_quit_count + 1;
10548 force_quit_count = count;
10549 if (count == 3)
10551 immediate_quit = true;
10552 Vinhibit_quit = Qnil;
10554 Vquit_flag = Qt;
10558 pthread_sigmask (SIG_SETMASK, &empty_mask, 0);
10560 /* TODO: The longjmp in this call throws the NS event loop integration off,
10561 and it seems to do fine without this. Probably some attention
10562 needs to be paid to the setting of waiting_for_input in
10563 wait_reading_process_output() under HAVE_NS because of the call
10564 to ns_select there (needed because otherwise events aren't picked up
10565 outside of polling since we don't get SIGIO like X and we don't have a
10566 separate event loop thread like W32. */
10567 #ifndef HAVE_NS
10568 if (waiting_for_input && !echoing)
10569 quit_throw_to_read_char (in_signal_handler);
10570 #endif
10573 /* Handle a C-g by making read_char return C-g. */
10575 static void
10576 quit_throw_to_read_char (bool from_signal)
10578 /* When not called from a signal handler it is safe to call
10579 Lisp. */
10580 if (!from_signal && EQ (Vquit_flag, Qkill_emacs))
10581 Fkill_emacs (Qnil);
10583 /* Prevent another signal from doing this before we finish. */
10584 clear_waiting_for_input ();
10585 input_pending = false;
10587 Vunread_command_events = Qnil;
10589 if (FRAMEP (internal_last_event_frame)
10590 && !EQ (internal_last_event_frame, selected_frame))
10591 do_switch_frame (make_lispy_switch_frame (internal_last_event_frame),
10592 0, 0, Qnil);
10594 sys_longjmp (getcjmp, 1);
10597 DEFUN ("set-input-interrupt-mode", Fset_input_interrupt_mode,
10598 Sset_input_interrupt_mode, 1, 1, 0,
10599 doc: /* Set interrupt mode of reading keyboard input.
10600 If INTERRUPT is non-nil, Emacs will use input interrupts;
10601 otherwise Emacs uses CBREAK mode.
10603 See also `current-input-mode'. */)
10604 (Lisp_Object interrupt)
10606 bool new_interrupt_input;
10607 #ifdef USABLE_SIGIO
10608 #ifdef HAVE_X_WINDOWS
10609 if (x_display_list != NULL)
10611 /* When using X, don't give the user a real choice,
10612 because we haven't implemented the mechanisms to support it. */
10613 new_interrupt_input = true;
10615 else
10616 #endif /* HAVE_X_WINDOWS */
10617 new_interrupt_input = !NILP (interrupt);
10618 #else /* not USABLE_SIGIO */
10619 new_interrupt_input = false;
10620 #endif /* not USABLE_SIGIO */
10622 if (new_interrupt_input != interrupt_input)
10624 #ifdef POLL_FOR_INPUT
10625 stop_polling ();
10626 #endif
10627 #ifndef DOS_NT
10628 /* this causes startup screen to be restored and messes with the mouse */
10629 reset_all_sys_modes ();
10630 interrupt_input = new_interrupt_input;
10631 init_all_sys_modes ();
10632 #else
10633 interrupt_input = new_interrupt_input;
10634 #endif
10636 #ifdef POLL_FOR_INPUT
10637 poll_suppress_count = 1;
10638 start_polling ();
10639 #endif
10641 return Qnil;
10644 DEFUN ("set-output-flow-control", Fset_output_flow_control, Sset_output_flow_control, 1, 2, 0,
10645 doc: /* Enable or disable ^S/^Q flow control for output to TERMINAL.
10646 If FLOW is non-nil, flow control is enabled and you cannot use C-s or
10647 C-q in key sequences.
10649 This setting only has an effect on tty terminals and only when
10650 Emacs reads input in CBREAK mode; see `set-input-interrupt-mode'.
10652 See also `current-input-mode'. */)
10653 (Lisp_Object flow, Lisp_Object terminal)
10655 struct terminal *t = decode_tty_terminal (terminal);
10656 struct tty_display_info *tty;
10658 if (!t)
10659 return Qnil;
10660 tty = t->display_info.tty;
10662 if (tty->flow_control != !NILP (flow))
10664 #ifndef DOS_NT
10665 /* This causes startup screen to be restored and messes with the mouse. */
10666 reset_sys_modes (tty);
10667 #endif
10669 tty->flow_control = !NILP (flow);
10671 #ifndef DOS_NT
10672 init_sys_modes (tty);
10673 #endif
10675 return Qnil;
10678 DEFUN ("set-input-meta-mode", Fset_input_meta_mode, Sset_input_meta_mode, 1, 2, 0,
10679 doc: /* Enable or disable 8-bit input on TERMINAL.
10680 If META is t, Emacs will accept 8-bit input, and interpret the 8th
10681 bit as the Meta modifier.
10683 If META is nil, Emacs will ignore the top bit, on the assumption it is
10684 parity.
10686 Otherwise, Emacs will accept and pass through 8-bit input without
10687 specially interpreting the top bit.
10689 This setting only has an effect on tty terminal devices.
10691 Optional parameter TERMINAL specifies the tty terminal device to use.
10692 It may be a terminal object, a frame, or nil for the terminal used by
10693 the currently selected frame.
10695 See also `current-input-mode'. */)
10696 (Lisp_Object meta, Lisp_Object terminal)
10698 struct terminal *t = decode_tty_terminal (terminal);
10699 struct tty_display_info *tty;
10700 int new_meta;
10702 if (!t)
10703 return Qnil;
10704 tty = t->display_info.tty;
10706 if (NILP (meta))
10707 new_meta = 0;
10708 else if (EQ (meta, Qt))
10709 new_meta = 1;
10710 else
10711 new_meta = 2;
10713 if (tty->meta_key != new_meta)
10715 #ifndef DOS_NT
10716 /* this causes startup screen to be restored and messes with the mouse */
10717 reset_sys_modes (tty);
10718 #endif
10720 tty->meta_key = new_meta;
10722 #ifndef DOS_NT
10723 init_sys_modes (tty);
10724 #endif
10726 return Qnil;
10729 DEFUN ("set-quit-char", Fset_quit_char, Sset_quit_char, 1, 1, 0,
10730 doc: /* Specify character used for quitting.
10731 QUIT must be an ASCII character.
10733 This function only has an effect on the controlling tty of the Emacs
10734 process.
10736 See also `current-input-mode'. */)
10737 (Lisp_Object quit)
10739 struct terminal *t = get_named_terminal ("/dev/tty");
10740 struct tty_display_info *tty;
10742 if (!t)
10743 return Qnil;
10744 tty = t->display_info.tty;
10746 if (NILP (quit) || !INTEGERP (quit) || XINT (quit) < 0 || XINT (quit) > 0400)
10747 error ("QUIT must be an ASCII character");
10749 #ifndef DOS_NT
10750 /* this causes startup screen to be restored and messes with the mouse */
10751 reset_sys_modes (tty);
10752 #endif
10754 /* Don't let this value be out of range. */
10755 quit_char = XINT (quit) & (tty->meta_key == 0 ? 0177 : 0377);
10757 #ifndef DOS_NT
10758 init_sys_modes (tty);
10759 #endif
10761 return Qnil;
10764 DEFUN ("set-input-mode", Fset_input_mode, Sset_input_mode, 3, 4, 0,
10765 doc: /* Set mode of reading keyboard input.
10766 First arg INTERRUPT non-nil means use input interrupts;
10767 nil means use CBREAK mode.
10768 Second arg FLOW non-nil means use ^S/^Q flow control for output to terminal
10769 (no effect except in CBREAK mode).
10770 Third arg META t means accept 8-bit input (for a Meta key).
10771 META nil means ignore the top bit, on the assumption it is parity.
10772 Otherwise, accept 8-bit input and don't use the top bit for Meta.
10773 Optional fourth arg QUIT if non-nil specifies character to use for quitting.
10774 See also `current-input-mode'. */)
10775 (Lisp_Object interrupt, Lisp_Object flow, Lisp_Object meta, Lisp_Object quit)
10777 Fset_input_interrupt_mode (interrupt);
10778 Fset_output_flow_control (flow, Qnil);
10779 Fset_input_meta_mode (meta, Qnil);
10780 if (!NILP (quit))
10781 Fset_quit_char (quit);
10782 return Qnil;
10785 DEFUN ("current-input-mode", Fcurrent_input_mode, Scurrent_input_mode, 0, 0, 0,
10786 doc: /* Return information about the way Emacs currently reads keyboard input.
10787 The value is a list of the form (INTERRUPT FLOW META QUIT), where
10788 INTERRUPT is non-nil if Emacs is using interrupt-driven input; if
10789 nil, Emacs is using CBREAK mode.
10790 FLOW is non-nil if Emacs uses ^S/^Q flow control for output to the
10791 terminal; this does not apply if Emacs uses interrupt-driven input.
10792 META is t if accepting 8-bit input with 8th bit as Meta flag.
10793 META nil means ignoring the top bit, on the assumption it is parity.
10794 META is neither t nor nil if accepting 8-bit input and using
10795 all 8 bits as the character code.
10796 QUIT is the character Emacs currently uses to quit.
10797 The elements of this list correspond to the arguments of
10798 `set-input-mode'. */)
10799 (void)
10801 struct frame *sf = XFRAME (selected_frame);
10803 Lisp_Object interrupt = interrupt_input ? Qt : Qnil;
10804 Lisp_Object flow, meta;
10805 if (FRAME_TERMCAP_P (sf) || FRAME_MSDOS_P (sf))
10807 flow = FRAME_TTY (sf)->flow_control ? Qt : Qnil;
10808 meta = (FRAME_TTY (sf)->meta_key == 2
10809 ? make_number (0)
10810 : (CURTTY ()->meta_key == 1 ? Qt : Qnil));
10812 else
10814 flow = Qnil;
10815 meta = Qt;
10817 Lisp_Object quit = make_number (quit_char);
10819 return list4 (interrupt, flow, meta, quit);
10822 DEFUN ("posn-at-x-y", Fposn_at_x_y, Sposn_at_x_y, 2, 4, 0,
10823 doc: /* Return position information for pixel coordinates X and Y.
10824 By default, X and Y are relative to text area of the selected window.
10825 Optional third arg FRAME-OR-WINDOW non-nil specifies frame or window.
10826 If optional fourth arg WHOLE is non-nil, X is relative to the left
10827 edge of the window.
10829 The return value is similar to a mouse click position:
10830 (WINDOW AREA-OR-POS (X . Y) TIMESTAMP OBJECT POS (COL . ROW)
10831 IMAGE (DX . DY) (WIDTH . HEIGHT))
10832 The `posn-' functions access elements of such lists. */)
10833 (Lisp_Object x, Lisp_Object y, Lisp_Object frame_or_window, Lisp_Object whole)
10835 CHECK_NUMBER (x);
10836 /* We allow X of -1, for the newline in a R2L line that overflowed
10837 into the left fringe. */
10838 if (XINT (x) != -1)
10839 CHECK_NATNUM (x);
10840 CHECK_NATNUM (y);
10842 if (NILP (frame_or_window))
10843 frame_or_window = selected_window;
10845 if (WINDOWP (frame_or_window))
10847 struct window *w = decode_live_window (frame_or_window);
10849 XSETINT (x, (XINT (x)
10850 + WINDOW_LEFT_EDGE_X (w)
10851 + (NILP (whole)
10852 ? window_box_left_offset (w, TEXT_AREA)
10853 : 0)));
10854 XSETINT (y, WINDOW_TO_FRAME_PIXEL_Y (w, XINT (y)));
10855 frame_or_window = w->frame;
10858 CHECK_LIVE_FRAME (frame_or_window);
10860 return make_lispy_position (XFRAME (frame_or_window), x, y, 0);
10863 DEFUN ("posn-at-point", Fposn_at_point, Sposn_at_point, 0, 2, 0,
10864 doc: /* Return position information for buffer POS in WINDOW.
10865 POS defaults to point in WINDOW; WINDOW defaults to the selected window.
10867 Return nil if position is not visible in window. Otherwise,
10868 the return value is similar to that returned by `event-start' for
10869 a mouse click at the upper left corner of the glyph corresponding
10870 to the given buffer position:
10871 (WINDOW AREA-OR-POS (X . Y) TIMESTAMP OBJECT POS (COL . ROW)
10872 IMAGE (DX . DY) (WIDTH . HEIGHT))
10873 The `posn-' functions access elements of such lists. */)
10874 (Lisp_Object pos, Lisp_Object window)
10876 Lisp_Object tem;
10878 if (NILP (window))
10879 window = selected_window;
10881 tem = Fpos_visible_in_window_p (pos, window, Qt);
10882 if (!NILP (tem))
10884 Lisp_Object x = XCAR (tem);
10885 Lisp_Object y = XCAR (XCDR (tem));
10887 /* Point invisible due to hscrolling? X can be -1 when a
10888 newline in a R2L line overflows into the left fringe. */
10889 if (XINT (x) < -1)
10890 return Qnil;
10891 tem = Fposn_at_x_y (x, y, window, Qnil);
10894 return tem;
10897 /* Set up a new kboard object with reasonable initial values.
10898 TYPE is a window system for which this keyboard is used. */
10900 static void
10901 init_kboard (KBOARD *kb, Lisp_Object type)
10903 kset_overriding_terminal_local_map (kb, Qnil);
10904 kset_last_command (kb, Qnil);
10905 kset_real_last_command (kb, Qnil);
10906 kset_keyboard_translate_table (kb, Qnil);
10907 kset_last_repeatable_command (kb, Qnil);
10908 kset_prefix_arg (kb, Qnil);
10909 kset_last_prefix_arg (kb, Qnil);
10910 kset_kbd_queue (kb, Qnil);
10911 kb->kbd_queue_has_data = false;
10912 kb->immediate_echo = false;
10913 kset_echo_string (kb, Qnil);
10914 kb->echo_after_prompt = -1;
10915 kb->kbd_macro_buffer = 0;
10916 kb->kbd_macro_bufsize = 0;
10917 kset_defining_kbd_macro (kb, Qnil);
10918 kset_last_kbd_macro (kb, Qnil);
10919 kb->reference_count = 0;
10920 kset_system_key_alist (kb, Qnil);
10921 kset_system_key_syms (kb, Qnil);
10922 kset_window_system (kb, type);
10923 kset_input_decode_map (kb, Fmake_sparse_keymap (Qnil));
10924 kset_local_function_key_map (kb, Fmake_sparse_keymap (Qnil));
10925 Fset_keymap_parent (KVAR (kb, Vlocal_function_key_map), Vfunction_key_map);
10926 kset_default_minibuffer_frame (kb, Qnil);
10929 /* Allocate and basically initialize keyboard
10930 object to use with window system TYPE. */
10932 KBOARD *
10933 allocate_kboard (Lisp_Object type)
10935 KBOARD *kb = xmalloc (sizeof *kb);
10937 init_kboard (kb, type);
10938 kb->next_kboard = all_kboards;
10939 all_kboards = kb;
10940 return kb;
10944 * Destroy the contents of a kboard object, but not the object itself.
10945 * We use this just before deleting it, or if we're going to initialize
10946 * it a second time.
10948 static void
10949 wipe_kboard (KBOARD *kb)
10951 xfree (kb->kbd_macro_buffer);
10954 /* Free KB and memory referenced from it. */
10956 void
10957 delete_kboard (KBOARD *kb)
10959 KBOARD **kbp;
10961 for (kbp = &all_kboards; *kbp != kb; kbp = &(*kbp)->next_kboard)
10962 if (*kbp == NULL)
10963 emacs_abort ();
10964 *kbp = kb->next_kboard;
10966 /* Prevent a dangling reference to KB. */
10967 if (kb == current_kboard
10968 && FRAMEP (selected_frame)
10969 && FRAME_LIVE_P (XFRAME (selected_frame)))
10971 current_kboard = FRAME_KBOARD (XFRAME (selected_frame));
10972 single_kboard = false;
10973 if (current_kboard == kb)
10974 emacs_abort ();
10977 wipe_kboard (kb);
10978 xfree (kb);
10981 void
10982 init_keyboard (void)
10984 /* This is correct before outermost invocation of the editor loop. */
10985 command_loop_level = -1;
10986 immediate_quit = false;
10987 quit_char = Ctl ('g');
10988 Vunread_command_events = Qnil;
10989 timer_idleness_start_time = invalid_timespec ();
10990 total_keys = 0;
10991 recent_keys_index = 0;
10992 kbd_fetch_ptr = kbd_buffer;
10993 kbd_store_ptr = kbd_buffer;
10994 do_mouse_tracking = Qnil;
10995 input_pending = false;
10996 interrupt_input_blocked = 0;
10997 pending_signals = false;
10999 /* This means that command_loop_1 won't try to select anything the first
11000 time through. */
11001 internal_last_event_frame = Qnil;
11002 Vlast_event_frame = internal_last_event_frame;
11004 current_kboard = initial_kboard;
11005 /* Re-initialize the keyboard again. */
11006 wipe_kboard (current_kboard);
11007 /* A value of nil for Vwindow_system normally means a tty, but we also use
11008 it for the initial terminal since there is no window system there. */
11009 init_kboard (current_kboard, Qnil);
11011 if (!noninteractive)
11013 /* Before multi-tty support, these handlers used to be installed
11014 only if the current session was a tty session. Now an Emacs
11015 session may have multiple display types, so we always handle
11016 SIGINT. There is special code in handle_interrupt_signal to exit
11017 Emacs on SIGINT when there are no termcap frames on the
11018 controlling terminal. */
11019 struct sigaction action;
11020 emacs_sigaction_init (&action, deliver_interrupt_signal);
11021 sigaction (SIGINT, &action, 0);
11022 #ifndef DOS_NT
11023 /* For systems with SysV TERMIO, C-g is set up for both SIGINT and
11024 SIGQUIT and we can't tell which one it will give us. */
11025 sigaction (SIGQUIT, &action, 0);
11026 #endif /* not DOS_NT */
11028 #ifdef USABLE_SIGIO
11029 if (!noninteractive)
11031 struct sigaction action;
11032 emacs_sigaction_init (&action, deliver_input_available_signal);
11033 sigaction (SIGIO, &action, 0);
11035 #endif
11037 /* Use interrupt input by default, if it works and noninterrupt input
11038 has deficiencies. */
11040 #ifdef INTERRUPT_INPUT
11041 interrupt_input = 1;
11042 #else
11043 interrupt_input = 0;
11044 #endif
11046 pthread_sigmask (SIG_SETMASK, &empty_mask, 0);
11047 dribble = 0;
11049 if (keyboard_init_hook)
11050 (*keyboard_init_hook) ();
11052 #ifdef POLL_FOR_INPUT
11053 poll_timer = NULL;
11054 poll_suppress_count = 1;
11055 start_polling ();
11056 #endif
11059 /* This type's only use is in syms_of_keyboard, to put properties on the
11060 event header symbols. */
11061 struct event_head
11063 short var;
11064 short kind;
11067 static const struct event_head head_table[] = {
11068 {SYMBOL_INDEX (Qmouse_movement), SYMBOL_INDEX (Qmouse_movement)},
11069 {SYMBOL_INDEX (Qscroll_bar_movement), SYMBOL_INDEX (Qmouse_movement)},
11071 /* Some of the event heads. */
11072 {SYMBOL_INDEX (Qswitch_frame), SYMBOL_INDEX (Qswitch_frame)},
11074 {SYMBOL_INDEX (Qfocus_in), SYMBOL_INDEX (Qfocus_in)},
11075 {SYMBOL_INDEX (Qfocus_out), SYMBOL_INDEX (Qfocus_out)},
11076 {SYMBOL_INDEX (Qdelete_frame), SYMBOL_INDEX (Qdelete_frame)},
11077 {SYMBOL_INDEX (Qiconify_frame), SYMBOL_INDEX (Qiconify_frame)},
11078 {SYMBOL_INDEX (Qmake_frame_visible), SYMBOL_INDEX (Qmake_frame_visible)},
11079 /* `select-window' should be handled just like `switch-frame'
11080 in read_key_sequence. */
11081 {SYMBOL_INDEX (Qselect_window), SYMBOL_INDEX (Qswitch_frame)}
11084 void
11085 syms_of_keyboard (void)
11087 pending_funcalls = Qnil;
11088 staticpro (&pending_funcalls);
11090 Vlispy_mouse_stem = build_pure_c_string ("mouse");
11091 staticpro (&Vlispy_mouse_stem);
11093 regular_top_level_message = build_pure_c_string ("Back to top level");
11094 #ifdef HAVE_STACK_OVERFLOW_HANDLING
11095 recover_top_level_message
11096 = build_pure_c_string ("Re-entering top level after C stack overflow");
11097 #endif
11098 DEFVAR_LISP ("internal--top-level-message", Vinternal__top_level_message,
11099 doc: /* Message displayed by `normal-top-level'. */);
11100 Vinternal__top_level_message = regular_top_level_message;
11102 /* Tool-bars. */
11103 DEFSYM (QCimage, ":image");
11104 DEFSYM (Qhelp_echo, "help-echo");
11105 DEFSYM (QCrtl, ":rtl");
11107 staticpro (&item_properties);
11108 item_properties = Qnil;
11110 staticpro (&tool_bar_item_properties);
11111 tool_bar_item_properties = Qnil;
11112 staticpro (&tool_bar_items_vector);
11113 tool_bar_items_vector = Qnil;
11115 DEFSYM (Qtimer_event_handler, "timer-event-handler");
11117 /* Non-nil disable property on a command means do not execute it;
11118 call disabled-command-function's value instead. */
11119 DEFSYM (Qdisabled, "disabled");
11121 DEFSYM (Qundefined, "undefined");
11123 /* Hooks to run before and after each command. */
11124 DEFSYM (Qpre_command_hook, "pre-command-hook");
11125 DEFSYM (Qpost_command_hook, "post-command-hook");
11127 DEFSYM (Qdeferred_action_function, "deferred-action-function");
11128 DEFSYM (Qdelayed_warnings_hook, "delayed-warnings-hook");
11129 DEFSYM (Qfunction_key, "function-key");
11131 /* The values of Qevent_kind properties. */
11132 DEFSYM (Qmouse_click, "mouse-click");
11134 DEFSYM (Qdrag_n_drop, "drag-n-drop");
11135 DEFSYM (Qsave_session, "save-session");
11136 DEFSYM (Qconfig_changed_event, "config-changed-event");
11138 /* Menu and tool bar item parts. */
11139 DEFSYM (Qmenu_enable, "menu-enable");
11141 #ifdef HAVE_NTGUI
11142 DEFSYM (Qlanguage_change, "language-change");
11143 #endif
11145 #ifdef HAVE_DBUS
11146 DEFSYM (Qdbus_event, "dbus-event");
11147 #endif
11149 #ifdef USE_FILE_NOTIFY
11150 DEFSYM (Qfile_notify, "file-notify");
11151 #endif /* USE_FILE_NOTIFY */
11153 /* Menu and tool bar item parts. */
11154 DEFSYM (QCenable, ":enable");
11155 DEFSYM (QCvisible, ":visible");
11156 DEFSYM (QChelp, ":help");
11157 DEFSYM (QCfilter, ":filter");
11158 DEFSYM (QCbutton, ":button");
11159 DEFSYM (QCkeys, ":keys");
11160 DEFSYM (QCkey_sequence, ":key-sequence");
11162 /* Non-nil disable property on a command means
11163 do not execute it; call disabled-command-function's value instead. */
11164 DEFSYM (QCtoggle, ":toggle");
11165 DEFSYM (QCradio, ":radio");
11166 DEFSYM (QClabel, ":label");
11167 DEFSYM (QCvert_only, ":vert-only");
11169 /* Symbols to use for parts of windows. */
11170 DEFSYM (Qvertical_line, "vertical-line");
11171 DEFSYM (Qright_divider, "right-divider");
11172 DEFSYM (Qbottom_divider, "bottom-divider");
11174 DEFSYM (Qmouse_fixup_help_message, "mouse-fixup-help-message");
11176 DEFSYM (Qabove_handle, "above-handle");
11177 DEFSYM (Qhandle, "handle");
11178 DEFSYM (Qbelow_handle, "below-handle");
11179 DEFSYM (Qup, "up");
11180 DEFSYM (Qdown, "down");
11181 DEFSYM (Qtop, "top");
11182 DEFSYM (Qbottom, "bottom");
11183 DEFSYM (Qend_scroll, "end-scroll");
11184 DEFSYM (Qratio, "ratio");
11185 DEFSYM (Qbefore_handle, "before-handle");
11186 DEFSYM (Qhorizontal_handle, "horizontal-handle");
11187 DEFSYM (Qafter_handle, "after-handle");
11188 DEFSYM (Qleft, "left");
11189 DEFSYM (Qright, "right");
11190 DEFSYM (Qleftmost, "leftmost");
11191 DEFSYM (Qrightmost, "rightmost");
11193 /* Properties of event headers. */
11194 DEFSYM (Qevent_kind, "event-kind");
11195 DEFSYM (Qevent_symbol_elements, "event-symbol-elements");
11197 /* An event header symbol HEAD may have a property named
11198 Qevent_symbol_element_mask, which is of the form (BASE MODIFIERS);
11199 BASE is the base, unmodified version of HEAD, and MODIFIERS is the
11200 mask of modifiers applied to it. If present, this is used to help
11201 speed up parse_modifiers. */
11202 DEFSYM (Qevent_symbol_element_mask, "event-symbol-element-mask");
11204 /* An unmodified event header BASE may have a property named
11205 Qmodifier_cache, which is an alist mapping modifier masks onto
11206 modified versions of BASE. If present, this helps speed up
11207 apply_modifiers. */
11208 DEFSYM (Qmodifier_cache, "modifier-cache");
11210 DEFSYM (Qrecompute_lucid_menubar, "recompute-lucid-menubar");
11211 DEFSYM (Qactivate_menubar_hook, "activate-menubar-hook");
11213 DEFSYM (Qpolling_period, "polling-period");
11215 DEFSYM (Qgui_set_selection, "gui-set-selection");
11217 /* The primary selection. */
11218 DEFSYM (QPRIMARY, "PRIMARY");
11220 DEFSYM (Qhandle_switch_frame, "handle-switch-frame");
11221 DEFSYM (Qhandle_select_window, "handle-select-window");
11223 DEFSYM (Qinput_method_exit_on_first_char, "input-method-exit-on-first-char");
11224 DEFSYM (Qinput_method_use_echo_area, "input-method-use-echo-area");
11226 DEFSYM (Qhelp_form_show, "help-form-show");
11228 DEFSYM (Qecho_keystrokes, "echo-keystrokes");
11230 Fset (Qinput_method_exit_on_first_char, Qnil);
11231 Fset (Qinput_method_use_echo_area, Qnil);
11233 /* Symbols to head events. */
11234 DEFSYM (Qmouse_movement, "mouse-movement");
11235 DEFSYM (Qscroll_bar_movement, "scroll-bar-movement");
11236 DEFSYM (Qswitch_frame, "switch-frame");
11237 DEFSYM (Qfocus_in, "focus-in");
11238 DEFSYM (Qfocus_out, "focus-out");
11239 DEFSYM (Qdelete_frame, "delete-frame");
11240 DEFSYM (Qiconify_frame, "iconify-frame");
11241 DEFSYM (Qmake_frame_visible, "make-frame-visible");
11242 DEFSYM (Qselect_window, "select-window");
11244 int i;
11246 for (i = 0; i < ARRAYELTS (head_table); i++)
11248 const struct event_head *p = &head_table[i];
11249 Lisp_Object var = builtin_lisp_symbol (p->var);
11250 Lisp_Object kind = builtin_lisp_symbol (p->kind);
11251 Fput (var, Qevent_kind, kind);
11252 Fput (var, Qevent_symbol_elements, list1 (var));
11256 button_down_location = Fmake_vector (make_number (5), Qnil);
11257 staticpro (&button_down_location);
11258 mouse_syms = Fmake_vector (make_number (5), Qnil);
11259 staticpro (&mouse_syms);
11260 wheel_syms = Fmake_vector (make_number (ARRAYELTS (lispy_wheel_names)),
11261 Qnil);
11262 staticpro (&wheel_syms);
11265 int i;
11266 int len = ARRAYELTS (modifier_names);
11268 modifier_symbols = Fmake_vector (make_number (len), Qnil);
11269 for (i = 0; i < len; i++)
11270 if (modifier_names[i])
11271 ASET (modifier_symbols, i, intern_c_string (modifier_names[i]));
11272 staticpro (&modifier_symbols);
11275 recent_keys = Fmake_vector (make_number (NUM_RECENT_KEYS), Qnil);
11276 staticpro (&recent_keys);
11278 this_command_keys = Fmake_vector (make_number (40), Qnil);
11279 staticpro (&this_command_keys);
11281 raw_keybuf = Fmake_vector (make_number (30), Qnil);
11282 staticpro (&raw_keybuf);
11284 DEFSYM (Qcommand_execute, "command-execute");
11286 accent_key_syms = Qnil;
11287 staticpro (&accent_key_syms);
11289 func_key_syms = Qnil;
11290 staticpro (&func_key_syms);
11292 drag_n_drop_syms = Qnil;
11293 staticpro (&drag_n_drop_syms);
11295 unread_switch_frame = Qnil;
11296 staticpro (&unread_switch_frame);
11298 internal_last_event_frame = Qnil;
11299 staticpro (&internal_last_event_frame);
11301 read_key_sequence_cmd = Qnil;
11302 staticpro (&read_key_sequence_cmd);
11303 read_key_sequence_remapped = Qnil;
11304 staticpro (&read_key_sequence_remapped);
11306 menu_bar_one_keymap_changed_items = Qnil;
11307 staticpro (&menu_bar_one_keymap_changed_items);
11309 menu_bar_items_vector = Qnil;
11310 staticpro (&menu_bar_items_vector);
11312 help_form_saved_window_configs = Qnil;
11313 staticpro (&help_form_saved_window_configs);
11315 defsubr (&Scurrent_idle_time);
11316 defsubr (&Sevent_symbol_parse_modifiers);
11317 defsubr (&Sevent_convert_list);
11318 defsubr (&Sread_key_sequence);
11319 defsubr (&Sread_key_sequence_vector);
11320 defsubr (&Srecursive_edit);
11321 defsubr (&Strack_mouse);
11322 defsubr (&Sinput_pending_p);
11323 defsubr (&Srecent_keys);
11324 defsubr (&Sthis_command_keys);
11325 defsubr (&Sthis_command_keys_vector);
11326 defsubr (&Sthis_single_command_keys);
11327 defsubr (&Sthis_single_command_raw_keys);
11328 defsubr (&Sreset_this_command_lengths);
11329 defsubr (&Sclear_this_command_keys);
11330 defsubr (&Ssuspend_emacs);
11331 defsubr (&Sabort_recursive_edit);
11332 defsubr (&Sexit_recursive_edit);
11333 defsubr (&Srecursion_depth);
11334 defsubr (&Scommand_error_default_function);
11335 defsubr (&Stop_level);
11336 defsubr (&Sdiscard_input);
11337 defsubr (&Sopen_dribble_file);
11338 defsubr (&Sset_input_interrupt_mode);
11339 defsubr (&Sset_output_flow_control);
11340 defsubr (&Sset_input_meta_mode);
11341 defsubr (&Sset_quit_char);
11342 defsubr (&Sset_input_mode);
11343 defsubr (&Scurrent_input_mode);
11344 defsubr (&Sposn_at_point);
11345 defsubr (&Sposn_at_x_y);
11347 DEFVAR_LISP ("last-command-event", last_command_event,
11348 doc: /* Last input event that was part of a command. */);
11350 DEFVAR_LISP ("last-nonmenu-event", last_nonmenu_event,
11351 doc: /* Last input event in a command, except for mouse menu events.
11352 Mouse menus give back keys that don't look like mouse events;
11353 this variable holds the actual mouse event that led to the menu,
11354 so that you can determine whether the command was run by mouse or not. */);
11356 DEFVAR_LISP ("last-input-event", last_input_event,
11357 doc: /* Last input event. */);
11359 DEFVAR_LISP ("unread-command-events", Vunread_command_events,
11360 doc: /* List of events to be read as the command input.
11361 These events are processed first, before actual keyboard input.
11362 Events read from this list are not normally added to `this-command-keys',
11363 as they will already have been added once as they were read for the first time.
11364 An element of the form (t . EVENT) forces EVENT to be added to that list. */);
11365 Vunread_command_events = Qnil;
11367 DEFVAR_LISP ("unread-post-input-method-events", Vunread_post_input_method_events,
11368 doc: /* List of events to be processed as input by input methods.
11369 These events are processed before `unread-command-events'
11370 and actual keyboard input, but are not given to `input-method-function'. */);
11371 Vunread_post_input_method_events = Qnil;
11373 DEFVAR_LISP ("unread-input-method-events", Vunread_input_method_events,
11374 doc: /* List of events to be processed as input by input methods.
11375 These events are processed after `unread-command-events', but
11376 before actual keyboard input.
11377 If there's an active input method, the events are given to
11378 `input-method-function'. */);
11379 Vunread_input_method_events = Qnil;
11381 DEFVAR_LISP ("meta-prefix-char", meta_prefix_char,
11382 doc: /* Meta-prefix character code.
11383 Meta-foo as command input turns into this character followed by foo. */);
11384 XSETINT (meta_prefix_char, 033);
11386 DEFVAR_KBOARD ("last-command", Vlast_command,
11387 doc: /* The last command executed.
11388 Normally a symbol with a function definition, but can be whatever was found
11389 in the keymap, or whatever the variable `this-command' was set to by that
11390 command.
11392 The value `mode-exit' is special; it means that the previous command
11393 read an event that told it to exit, and it did so and unread that event.
11394 In other words, the present command is the event that made the previous
11395 command exit.
11397 The value `kill-region' is special; it means that the previous command
11398 was a kill command.
11400 `last-command' has a separate binding for each terminal device.
11401 See Info node `(elisp)Multiple Terminals'. */);
11403 DEFVAR_KBOARD ("real-last-command", Vreal_last_command,
11404 doc: /* Same as `last-command', but never altered by Lisp code.
11405 Taken from the previous value of `real-this-command'. */);
11407 DEFVAR_KBOARD ("last-repeatable-command", Vlast_repeatable_command,
11408 doc: /* Last command that may be repeated.
11409 The last command executed that was not bound to an input event.
11410 This is the command `repeat' will try to repeat.
11411 Taken from a previous value of `real-this-command'. */);
11413 DEFVAR_LISP ("this-command", Vthis_command,
11414 doc: /* The command now being executed.
11415 The command can set this variable; whatever is put here
11416 will be in `last-command' during the following command. */);
11417 Vthis_command = Qnil;
11419 DEFVAR_LISP ("real-this-command", Vreal_this_command,
11420 doc: /* This is like `this-command', except that commands should never modify it. */);
11421 Vreal_this_command = Qnil;
11423 DEFVAR_LISP ("this-command-keys-shift-translated",
11424 Vthis_command_keys_shift_translated,
11425 doc: /* Non-nil if the key sequence activating this command was shift-translated.
11426 Shift-translation occurs when there is no binding for the key sequence
11427 as entered, but a binding was found by changing an upper-case letter
11428 to lower-case, or a shifted function key to an unshifted one. */);
11429 Vthis_command_keys_shift_translated = Qnil;
11431 DEFVAR_LISP ("this-original-command", Vthis_original_command,
11432 doc: /* The command bound to the current key sequence before remapping.
11433 It equals `this-command' if the original command was not remapped through
11434 any of the active keymaps. Otherwise, the value of `this-command' is the
11435 result of looking up the original command in the active keymaps. */);
11436 Vthis_original_command = Qnil;
11438 DEFVAR_INT ("auto-save-interval", auto_save_interval,
11439 doc: /* Number of input events between auto-saves.
11440 Zero means disable autosaving due to number of characters typed. */);
11441 auto_save_interval = 300;
11443 DEFVAR_LISP ("auto-save-timeout", Vauto_save_timeout,
11444 doc: /* Number of seconds idle time before auto-save.
11445 Zero or nil means disable auto-saving due to idleness.
11446 After auto-saving due to this many seconds of idle time,
11447 Emacs also does a garbage collection if that seems to be warranted. */);
11448 XSETFASTINT (Vauto_save_timeout, 30);
11450 DEFVAR_LISP ("echo-keystrokes", Vecho_keystrokes,
11451 doc: /* Nonzero means echo unfinished commands after this many seconds of pause.
11452 The value may be integer or floating point.
11453 If the value is zero, don't echo at all. */);
11454 Vecho_keystrokes = make_number (1);
11456 DEFVAR_INT ("polling-period", polling_period,
11457 doc: /* Interval between polling for input during Lisp execution.
11458 The reason for polling is to make C-g work to stop a running program.
11459 Polling is needed only when using X windows and SIGIO does not work.
11460 Polling is automatically disabled in all other cases. */);
11461 polling_period = 2;
11463 DEFVAR_LISP ("double-click-time", Vdouble_click_time,
11464 doc: /* Maximum time between mouse clicks to make a double-click.
11465 Measured in milliseconds. The value nil means disable double-click
11466 recognition; t means double-clicks have no time limit and are detected
11467 by position only. */);
11468 Vdouble_click_time = make_number (500);
11470 DEFVAR_INT ("double-click-fuzz", double_click_fuzz,
11471 doc: /* Maximum mouse movement between clicks to make a double-click.
11472 On window-system frames, value is the number of pixels the mouse may have
11473 moved horizontally or vertically between two clicks to make a double-click.
11474 On non window-system frames, value is interpreted in units of 1/8 characters
11475 instead of pixels.
11477 This variable is also the threshold for motion of the mouse
11478 to count as a drag. */);
11479 double_click_fuzz = 3;
11481 DEFVAR_INT ("num-input-keys", num_input_keys,
11482 doc: /* Number of complete key sequences read as input so far.
11483 This includes key sequences read from keyboard macros.
11484 The number is effectively the number of interactive command invocations. */);
11485 num_input_keys = 0;
11487 DEFVAR_INT ("num-nonmacro-input-events", num_nonmacro_input_events,
11488 doc: /* Number of input events read from the keyboard so far.
11489 This does not include events generated by keyboard macros. */);
11490 num_nonmacro_input_events = 0;
11492 DEFVAR_LISP ("last-event-frame", Vlast_event_frame,
11493 doc: /* The frame in which the most recently read event occurred.
11494 If the last event came from a keyboard macro, this is set to `macro'. */);
11495 Vlast_event_frame = Qnil;
11497 /* This variable is set up in sysdep.c. */
11498 DEFVAR_LISP ("tty-erase-char", Vtty_erase_char,
11499 doc: /* The ERASE character as set by the user with stty. */);
11501 DEFVAR_LISP ("help-char", Vhelp_char,
11502 doc: /* Character to recognize as meaning Help.
11503 When it is read, do `(eval help-form)', and display result if it's a string.
11504 If the value of `help-form' is nil, this char can be read normally. */);
11505 XSETINT (Vhelp_char, Ctl ('H'));
11507 DEFVAR_LISP ("help-event-list", Vhelp_event_list,
11508 doc: /* List of input events to recognize as meaning Help.
11509 These work just like the value of `help-char' (see that). */);
11510 Vhelp_event_list = Qnil;
11512 DEFVAR_LISP ("help-form", Vhelp_form,
11513 doc: /* Form to execute when character `help-char' is read.
11514 If the form returns a string, that string is displayed.
11515 If `help-form' is nil, the help char is not recognized. */);
11516 Vhelp_form = Qnil;
11518 DEFVAR_LISP ("prefix-help-command", Vprefix_help_command,
11519 doc: /* Command to run when `help-char' character follows a prefix key.
11520 This command is used only when there is no actual binding
11521 for that character after that prefix key. */);
11522 Vprefix_help_command = Qnil;
11524 DEFVAR_LISP ("top-level", Vtop_level,
11525 doc: /* Form to evaluate when Emacs starts up.
11526 Useful to set before you dump a modified Emacs. */);
11527 Vtop_level = Qnil;
11528 XSYMBOL (Qtop_level)->declared_special = false;
11530 DEFVAR_KBOARD ("keyboard-translate-table", Vkeyboard_translate_table,
11531 doc: /* Translate table for local keyboard input, or nil.
11532 If non-nil, the value should be a char-table. Each character read
11533 from the keyboard is looked up in this char-table. If the value found
11534 there is non-nil, then it is used instead of the actual input character.
11536 The value can also be a string or vector, but this is considered obsolete.
11537 If it is a string or vector of length N, character codes N and up are left
11538 untranslated. In a vector, an element which is nil means "no translation".
11540 This is applied to the characters supplied to input methods, not their
11541 output. See also `translation-table-for-input'.
11543 This variable has a separate binding for each terminal.
11544 See Info node `(elisp)Multiple Terminals'. */);
11546 DEFVAR_BOOL ("cannot-suspend", cannot_suspend,
11547 doc: /* Non-nil means to always spawn a subshell instead of suspending.
11548 \(Even if the operating system has support for stopping a process.\) */);
11549 cannot_suspend = false;
11551 DEFVAR_BOOL ("menu-prompting", menu_prompting,
11552 doc: /* Non-nil means prompt with menus when appropriate.
11553 This is done when reading from a keymap that has a prompt string,
11554 for elements that have prompt strings.
11555 The menu is displayed on the screen
11556 if X menus were enabled at configuration
11557 time and the previous event was a mouse click prefix key.
11558 Otherwise, menu prompting uses the echo area. */);
11559 menu_prompting = true;
11561 DEFVAR_LISP ("menu-prompt-more-char", menu_prompt_more_char,
11562 doc: /* Character to see next line of menu prompt.
11563 Type this character while in a menu prompt to rotate around the lines of it. */);
11564 XSETINT (menu_prompt_more_char, ' ');
11566 DEFVAR_INT ("extra-keyboard-modifiers", extra_keyboard_modifiers,
11567 doc: /* A mask of additional modifier keys to use with every keyboard character.
11568 Emacs applies the modifiers of the character stored here to each keyboard
11569 character it reads. For example, after evaluating the expression
11570 (setq extra-keyboard-modifiers ?\\C-x)
11571 all input characters will have the control modifier applied to them.
11573 Note that the character ?\\C-@, equivalent to the integer zero, does
11574 not count as a control character; rather, it counts as a character
11575 with no modifiers; thus, setting `extra-keyboard-modifiers' to zero
11576 cancels any modification. */);
11577 extra_keyboard_modifiers = 0;
11579 DEFSYM (Qdeactivate_mark, "deactivate-mark");
11580 DEFVAR_LISP ("deactivate-mark", Vdeactivate_mark,
11581 doc: /* If an editing command sets this to t, deactivate the mark afterward.
11582 The command loop sets this to nil before each command,
11583 and tests the value when the command returns.
11584 Buffer modification stores t in this variable. */);
11585 Vdeactivate_mark = Qnil;
11586 Fmake_variable_buffer_local (Qdeactivate_mark);
11588 DEFVAR_LISP ("pre-command-hook", Vpre_command_hook,
11589 doc: /* Normal hook run before each command is executed.
11590 If an unhandled error happens in running this hook,
11591 the function in which the error occurred is unconditionally removed, since
11592 otherwise the error might happen repeatedly and make Emacs nonfunctional. */);
11593 Vpre_command_hook = Qnil;
11595 DEFVAR_LISP ("post-command-hook", Vpost_command_hook,
11596 doc: /* Normal hook run after each command is executed.
11597 If an unhandled error happens in running this hook,
11598 the function in which the error occurred is unconditionally removed, since
11599 otherwise the error might happen repeatedly and make Emacs nonfunctional. */);
11600 Vpost_command_hook = Qnil;
11602 #if 0
11603 DEFVAR_LISP ("echo-area-clear-hook", ...,
11604 doc: /* Normal hook run when clearing the echo area. */);
11605 #endif
11606 DEFSYM (Qecho_area_clear_hook, "echo-area-clear-hook");
11607 Fset (Qecho_area_clear_hook, Qnil);
11609 DEFVAR_LISP ("lucid-menu-bar-dirty-flag", Vlucid_menu_bar_dirty_flag,
11610 doc: /* Non-nil means menu bar, specified Lucid style, needs to be recomputed. */);
11611 Vlucid_menu_bar_dirty_flag = Qnil;
11613 DEFVAR_LISP ("menu-bar-final-items", Vmenu_bar_final_items,
11614 doc: /* List of menu bar items to move to the end of the menu bar.
11615 The elements of the list are event types that may have menu bar bindings. */);
11616 Vmenu_bar_final_items = Qnil;
11618 DEFVAR_LISP ("tool-bar-separator-image-expression", Vtool_bar_separator_image_expression,
11619 doc: /* Expression evaluating to the image spec for a tool-bar separator.
11620 This is used internally by graphical displays that do not render
11621 tool-bar separators natively. Otherwise it is unused (e.g. on GTK). */);
11622 Vtool_bar_separator_image_expression = Qnil;
11624 DEFVAR_KBOARD ("overriding-terminal-local-map",
11625 Voverriding_terminal_local_map,
11626 doc: /* Per-terminal keymap that takes precedence over all other keymaps.
11627 This variable is intended to let commands such as `universal-argument'
11628 set up a different keymap for reading the next command.
11630 `overriding-terminal-local-map' has a separate binding for each
11631 terminal device. See Info node `(elisp)Multiple Terminals'. */);
11633 DEFVAR_LISP ("overriding-local-map", Voverriding_local_map,
11634 doc: /* Keymap that replaces (overrides) local keymaps.
11635 If this variable is non-nil, Emacs looks up key bindings in this
11636 keymap INSTEAD OF the keymap char property, minor mode maps, and the
11637 buffer's local map. Hence, the only active keymaps would be
11638 `overriding-terminal-local-map', this keymap, and `global-keymap', in
11639 order of precedence. */);
11640 Voverriding_local_map = Qnil;
11642 DEFVAR_LISP ("overriding-local-map-menu-flag", Voverriding_local_map_menu_flag,
11643 doc: /* Non-nil means `overriding-local-map' applies to the menu bar.
11644 Otherwise, the menu bar continues to reflect the buffer's local map
11645 and the minor mode maps regardless of `overriding-local-map'. */);
11646 Voverriding_local_map_menu_flag = Qnil;
11648 DEFVAR_LISP ("special-event-map", Vspecial_event_map,
11649 doc: /* Keymap defining bindings for special events to execute at low level. */);
11650 Vspecial_event_map = list1 (Qkeymap);
11652 DEFVAR_LISP ("track-mouse", do_mouse_tracking,
11653 doc: /* Non-nil means generate motion events for mouse motion. */);
11655 DEFVAR_KBOARD ("system-key-alist", Vsystem_key_alist,
11656 doc: /* Alist of system-specific X windows key symbols.
11657 Each element should have the form (N . SYMBOL) where N is the
11658 numeric keysym code (sans the \"system-specific\" bit 1<<28)
11659 and SYMBOL is its name.
11661 `system-key-alist' has a separate binding for each terminal device.
11662 See Info node `(elisp)Multiple Terminals'. */);
11664 DEFVAR_KBOARD ("local-function-key-map", Vlocal_function_key_map,
11665 doc: /* Keymap that translates key sequences to key sequences during input.
11666 This is used mainly for mapping key sequences into some preferred
11667 key events (symbols).
11669 The `read-key-sequence' function replaces any subsequence bound by
11670 `local-function-key-map' with its binding. More precisely, when the
11671 active keymaps have no binding for the current key sequence but
11672 `local-function-key-map' binds a suffix of the sequence to a vector or
11673 string, `read-key-sequence' replaces the matching suffix with its
11674 binding, and continues with the new sequence.
11676 If the binding is a function, it is called with one argument (the prompt)
11677 and its return value (a key sequence) is used.
11679 The events that come from bindings in `local-function-key-map' are not
11680 themselves looked up in `local-function-key-map'.
11682 For example, suppose `local-function-key-map' binds `ESC O P' to [f1].
11683 Typing `ESC O P' to `read-key-sequence' would return [f1]. Typing
11684 `C-x ESC O P' would return [?\\C-x f1]. If [f1] were a prefix key,
11685 typing `ESC O P x' would return [f1 x].
11687 `local-function-key-map' has a separate binding for each terminal
11688 device. See Info node `(elisp)Multiple Terminals'. If you need to
11689 define a binding on all terminals, change `function-key-map'
11690 instead. Initially, `local-function-key-map' is an empty keymap that
11691 has `function-key-map' as its parent on all terminal devices. */);
11693 DEFVAR_KBOARD ("input-decode-map", Vinput_decode_map,
11694 doc: /* Keymap that decodes input escape sequences.
11695 This is used mainly for mapping ASCII function key sequences into
11696 real Emacs function key events (symbols).
11698 The `read-key-sequence' function replaces any subsequence bound by
11699 `input-decode-map' with its binding. Contrary to `function-key-map',
11700 this map applies its rebinding regardless of the presence of an ordinary
11701 binding. So it is more like `key-translation-map' except that it applies
11702 before `function-key-map' rather than after.
11704 If the binding is a function, it is called with one argument (the prompt)
11705 and its return value (a key sequence) is used.
11707 The events that come from bindings in `input-decode-map' are not
11708 themselves looked up in `input-decode-map'. */);
11710 DEFVAR_LISP ("function-key-map", Vfunction_key_map,
11711 doc: /* The parent keymap of all `local-function-key-map' instances.
11712 Function key definitions that apply to all terminal devices should go
11713 here. If a mapping is defined in both the current
11714 `local-function-key-map' binding and this variable, then the local
11715 definition will take precedence. */);
11716 Vfunction_key_map = Fmake_sparse_keymap (Qnil);
11718 DEFVAR_LISP ("key-translation-map", Vkey_translation_map,
11719 doc: /* Keymap of key translations that can override keymaps.
11720 This keymap works like `input-decode-map', but comes after `function-key-map'.
11721 Another difference is that it is global rather than terminal-local. */);
11722 Vkey_translation_map = Fmake_sparse_keymap (Qnil);
11724 DEFVAR_LISP ("deferred-action-list", Vdeferred_action_list,
11725 doc: /* List of deferred actions to be performed at a later time.
11726 The precise format isn't relevant here; we just check whether it is nil. */);
11727 Vdeferred_action_list = Qnil;
11729 DEFVAR_LISP ("deferred-action-function", Vdeferred_action_function,
11730 doc: /* Function to call to handle deferred actions, after each command.
11731 This function is called with no arguments after each command
11732 whenever `deferred-action-list' is non-nil. */);
11733 Vdeferred_action_function = Qnil;
11735 DEFVAR_LISP ("delayed-warnings-list", Vdelayed_warnings_list,
11736 doc: /* List of warnings to be displayed after this command.
11737 Each element must be a list (TYPE MESSAGE [LEVEL [BUFFER-NAME]]),
11738 as per the args of `display-warning' (which see).
11739 If this variable is non-nil, `delayed-warnings-hook' will be run
11740 immediately after running `post-command-hook'. */);
11741 Vdelayed_warnings_list = Qnil;
11743 DEFVAR_LISP ("timer-list", Vtimer_list,
11744 doc: /* List of active absolute time timers in order of increasing time. */);
11745 Vtimer_list = Qnil;
11747 DEFVAR_LISP ("timer-idle-list", Vtimer_idle_list,
11748 doc: /* List of active idle-time timers in order of increasing time. */);
11749 Vtimer_idle_list = Qnil;
11751 DEFVAR_LISP ("input-method-function", Vinput_method_function,
11752 doc: /* If non-nil, the function that implements the current input method.
11753 It's called with one argument, a printing character that was just read.
11754 \(That means a character with code 040...0176.)
11755 Typically this function uses `read-event' to read additional events.
11756 When it does so, it should first bind `input-method-function' to nil
11757 so it will not be called recursively.
11759 The function should return a list of zero or more events
11760 to be used as input. If it wants to put back some events
11761 to be reconsidered, separately, by the input method,
11762 it can add them to the beginning of `unread-command-events'.
11764 The input method function can find in `input-method-previous-message'
11765 the previous echo area message.
11767 The input method function should refer to the variables
11768 `input-method-use-echo-area' and `input-method-exit-on-first-char'
11769 for guidance on what to do. */);
11770 Vinput_method_function = Qlist;
11772 DEFVAR_LISP ("input-method-previous-message",
11773 Vinput_method_previous_message,
11774 doc: /* When `input-method-function' is called, hold the previous echo area message.
11775 This variable exists because `read-event' clears the echo area
11776 before running the input method. It is nil if there was no message. */);
11777 Vinput_method_previous_message = Qnil;
11779 DEFVAR_LISP ("show-help-function", Vshow_help_function,
11780 doc: /* If non-nil, the function that implements the display of help.
11781 It's called with one argument, the help string to display. */);
11782 Vshow_help_function = Qnil;
11784 DEFVAR_LISP ("disable-point-adjustment", Vdisable_point_adjustment,
11785 doc: /* If non-nil, suppress point adjustment after executing a command.
11787 After a command is executed, if point is moved into a region that has
11788 special properties (e.g. composition, display), we adjust point to
11789 the boundary of the region. But, when a command sets this variable to
11790 non-nil, we suppress the point adjustment.
11792 This variable is set to nil before reading a command, and is checked
11793 just after executing the command. */);
11794 Vdisable_point_adjustment = Qnil;
11796 DEFVAR_LISP ("global-disable-point-adjustment",
11797 Vglobal_disable_point_adjustment,
11798 doc: /* If non-nil, always suppress point adjustment.
11800 The default value is nil, in which case, point adjustment are
11801 suppressed only after special commands that set
11802 `disable-point-adjustment' (which see) to non-nil. */);
11803 Vglobal_disable_point_adjustment = Qnil;
11805 DEFVAR_LISP ("minibuffer-message-timeout", Vminibuffer_message_timeout,
11806 doc: /* How long to display an echo-area message when the minibuffer is active.
11807 If the value is not a number, such messages don't time out. */);
11808 Vminibuffer_message_timeout = make_number (2);
11810 DEFVAR_LISP ("throw-on-input", Vthrow_on_input,
11811 doc: /* If non-nil, any keyboard input throws to this symbol.
11812 The value of that variable is passed to `quit-flag' and later causes a
11813 peculiar kind of quitting. */);
11814 Vthrow_on_input = Qnil;
11816 DEFVAR_LISP ("command-error-function", Vcommand_error_function,
11817 doc: /* Function to output error messages.
11818 Called with three arguments:
11819 - the error data, a list of the form (SIGNALED-CONDITION . SIGNAL-DATA)
11820 such as what `condition-case' would bind its variable to,
11821 - the context (a string which normally goes at the start of the message),
11822 - the Lisp function within which the error was signaled. */);
11823 Vcommand_error_function = intern ("command-error-default-function");
11825 DEFVAR_LISP ("enable-disabled-menus-and-buttons",
11826 Venable_disabled_menus_and_buttons,
11827 doc: /* If non-nil, don't ignore events produced by disabled menu items and tool-bar.
11829 Help functions bind this to allow help on disabled menu items
11830 and tool-bar buttons. */);
11831 Venable_disabled_menus_and_buttons = Qnil;
11833 DEFVAR_LISP ("select-active-regions",
11834 Vselect_active_regions,
11835 doc: /* If non-nil, an active region automatically sets the primary selection.
11836 If the value is `only', only temporarily active regions (usually made
11837 by mouse-dragging or shift-selection) set the window selection.
11839 This takes effect only when Transient Mark mode is enabled. */);
11840 Vselect_active_regions = Qt;
11842 DEFVAR_LISP ("saved-region-selection",
11843 Vsaved_region_selection,
11844 doc: /* Contents of active region prior to buffer modification.
11845 If `select-active-regions' is non-nil, Emacs sets this to the
11846 text in the region before modifying the buffer. The next call to
11847 the function `deactivate-mark' uses this to set the window selection. */);
11848 Vsaved_region_selection = Qnil;
11850 DEFVAR_LISP ("selection-inhibit-update-commands",
11851 Vselection_inhibit_update_commands,
11852 doc: /* List of commands which should not update the selection.
11853 Normally, if `select-active-regions' is non-nil and the mark remains
11854 active after a command (i.e. the mark was not deactivated), the Emacs
11855 command loop sets the selection to the text in the region. However,
11856 if the command is in this list, the selection is not updated. */);
11857 Vselection_inhibit_update_commands
11858 = list2 (Qhandle_switch_frame, Qhandle_select_window);
11860 DEFVAR_LISP ("debug-on-event",
11861 Vdebug_on_event,
11862 doc: /* Enter debugger on this event. When Emacs
11863 receives the special event specified by this variable, it will try to
11864 break into the debugger as soon as possible instead of processing the
11865 event normally through `special-event-map'.
11867 Currently, the only supported values for this
11868 variable are `sigusr1' and `sigusr2'. */);
11869 Vdebug_on_event = intern_c_string ("sigusr2");
11871 /* Create the initial keyboard. Qt means 'unset'. */
11872 initial_kboard = allocate_kboard (Qt);
11875 void
11876 keys_of_keyboard (void)
11878 initial_define_key (global_map, Ctl ('Z'), "suspend-emacs");
11879 initial_define_key (control_x_map, Ctl ('Z'), "suspend-emacs");
11880 initial_define_key (meta_map, Ctl ('C'), "exit-recursive-edit");
11881 initial_define_key (global_map, Ctl (']'), "abort-recursive-edit");
11882 initial_define_key (meta_map, 'x', "execute-extended-command");
11884 initial_define_lispy_key (Vspecial_event_map, "delete-frame",
11885 "handle-delete-frame");
11886 initial_define_lispy_key (Vspecial_event_map, "ns-put-working-text",
11887 "ns-put-working-text");
11888 initial_define_lispy_key (Vspecial_event_map, "ns-unput-working-text",
11889 "ns-unput-working-text");
11890 /* Here we used to use `ignore-event' which would simple set prefix-arg to
11891 current-prefix-arg, as is done in `handle-switch-frame'.
11892 But `handle-switch-frame is not run from the special-map.
11893 Commands from that map are run in a special way that automatically
11894 preserves the prefix-arg. Restoring the prefix arg here is not just
11895 redundant but harmful:
11896 - C-u C-x v =
11897 - current-prefix-arg is set to non-nil, prefix-arg is set to nil.
11898 - after the first prompt, the exit-minibuffer-hook is run which may
11899 iconify a frame and thus push a `iconify-frame' event.
11900 - after running exit-minibuffer-hook, current-prefix-arg is
11901 restored to the non-nil value it had before the prompt.
11902 - we enter the second prompt.
11903 current-prefix-arg is non-nil, prefix-arg is nil.
11904 - before running the first real event, we run the special iconify-frame
11905 event, but we pass the `special' arg to command-execute so
11906 current-prefix-arg and prefix-arg are left untouched.
11907 - here we foolishly copy the non-nil current-prefix-arg to prefix-arg.
11908 - the next key event will have a spuriously non-nil current-prefix-arg. */
11909 initial_define_lispy_key (Vspecial_event_map, "iconify-frame",
11910 "ignore");
11911 initial_define_lispy_key (Vspecial_event_map, "make-frame-visible",
11912 "ignore");
11913 /* Handling it at such a low-level causes read_key_sequence to get
11914 * confused because it doesn't realize that the current_buffer was
11915 * changed by read_char.
11917 * initial_define_lispy_key (Vspecial_event_map, "select-window",
11918 * "handle-select-window"); */
11919 initial_define_lispy_key (Vspecial_event_map, "save-session",
11920 "handle-save-session");
11922 #ifdef HAVE_DBUS
11923 /* Define a special event which is raised for dbus callback
11924 functions. */
11925 initial_define_lispy_key (Vspecial_event_map, "dbus-event",
11926 "dbus-handle-event");
11927 #endif
11929 #ifdef USE_FILE_NOTIFY
11930 /* Define a special event which is raised for notification callback
11931 functions. */
11932 initial_define_lispy_key (Vspecial_event_map, "file-notify",
11933 "file-notify-handle-event");
11934 #endif /* USE_FILE_NOTIFY */
11936 initial_define_lispy_key (Vspecial_event_map, "config-changed-event",
11937 "ignore");
11938 #if defined (WINDOWSNT)
11939 initial_define_lispy_key (Vspecial_event_map, "language-change",
11940 "ignore");
11941 #endif
11942 initial_define_lispy_key (Vspecial_event_map, "focus-in",
11943 "handle-focus-in");
11944 initial_define_lispy_key (Vspecial_event_map, "focus-out",
11945 "handle-focus-out");
11948 /* Mark the pointers in the kboard objects.
11949 Called by Fgarbage_collect. */
11950 void
11951 mark_kboards (void)
11953 KBOARD *kb;
11954 Lisp_Object *p;
11955 for (kb = all_kboards; kb; kb = kb->next_kboard)
11957 if (kb->kbd_macro_buffer)
11958 for (p = kb->kbd_macro_buffer; p < kb->kbd_macro_ptr; p++)
11959 mark_object (*p);
11960 mark_object (KVAR (kb, Voverriding_terminal_local_map));
11961 mark_object (KVAR (kb, Vlast_command));
11962 mark_object (KVAR (kb, Vreal_last_command));
11963 mark_object (KVAR (kb, Vkeyboard_translate_table));
11964 mark_object (KVAR (kb, Vlast_repeatable_command));
11965 mark_object (KVAR (kb, Vprefix_arg));
11966 mark_object (KVAR (kb, Vlast_prefix_arg));
11967 mark_object (KVAR (kb, kbd_queue));
11968 mark_object (KVAR (kb, defining_kbd_macro));
11969 mark_object (KVAR (kb, Vlast_kbd_macro));
11970 mark_object (KVAR (kb, Vsystem_key_alist));
11971 mark_object (KVAR (kb, system_key_syms));
11972 mark_object (KVAR (kb, Vwindow_system));
11973 mark_object (KVAR (kb, Vinput_decode_map));
11974 mark_object (KVAR (kb, Vlocal_function_key_map));
11975 mark_object (KVAR (kb, Vdefault_minibuffer_frame));
11976 mark_object (KVAR (kb, echo_string));
11979 union buffered_input_event *event;
11980 for (event = kbd_fetch_ptr; event != kbd_store_ptr; event++)
11982 if (event == kbd_buffer + KBD_BUFFER_SIZE)
11983 event = kbd_buffer;
11984 /* These two special event types has no Lisp_Objects to mark. */
11985 if (event->kind != SELECTION_REQUEST_EVENT
11986 && event->kind != SELECTION_CLEAR_EVENT)
11988 mark_object (event->ie.x);
11989 mark_object (event->ie.y);
11990 mark_object (event->ie.frame_or_window);
11991 mark_object (event->ie.arg);