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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-6.8/] [readline/] [readline.c] - Blame information for rev 305

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1 24 jeremybenn
/* readline.c -- a general facility for reading lines of input
2
   with emacs style editing and completion. */
3
 
4
/* Copyright (C) 1987-2005 Free Software Foundation, Inc.
5
 
6
   This file is part of the GNU Readline Library, a library for
7
   reading lines of text with interactive input and history editing.
8
 
9
   The GNU Readline Library is free software; you can redistribute it
10
   and/or modify it under the terms of the GNU General Public License
11
   as published by the Free Software Foundation; either version 2, or
12
   (at your option) any later version.
13
 
14
   The GNU Readline Library is distributed in the hope that it will be
15
   useful, but WITHOUT ANY WARRANTY; without even the implied warranty
16
   of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
17
   GNU General Public License for more details.
18
 
19
   The GNU General Public License is often shipped with GNU software, and
20
   is generally kept in a file called COPYING or LICENSE.  If you do not
21
   have a copy of the license, write to the Free Software Foundation,
22
   59 Temple Place, Suite 330, Boston, MA 02111 USA. */
23
#define READLINE_LIBRARY
24
 
25
#if defined (HAVE_CONFIG_H)
26
#  include <config.h>
27
#endif
28
 
29
#include <sys/types.h>
30
#include "posixstat.h"
31
#include <fcntl.h>
32
#if defined (HAVE_SYS_FILE_H)
33
#  include <sys/file.h>
34
#endif /* HAVE_SYS_FILE_H */
35
 
36
#if defined (HAVE_UNISTD_H)
37
#  include <unistd.h>
38
#endif /* HAVE_UNISTD_H */
39
 
40
#if defined (HAVE_STDLIB_H)
41
#  include <stdlib.h>
42
#else
43
#  include "ansi_stdlib.h"
44
#endif /* HAVE_STDLIB_H */
45
 
46
#if defined (HAVE_LOCALE_H)
47
#  include <locale.h>
48
#endif
49
 
50
#include <stdio.h>
51
#include "posixjmp.h"
52
 
53
/* System-specific feature definitions and include files. */
54
#include "rldefs.h"
55
#include "rlmbutil.h"
56
 
57
#if defined (__EMX__)
58
#  define INCL_DOSPROCESS
59
#  include <os2.h>
60
#endif /* __EMX__ */
61
 
62
/* Some standard library routines. */
63
#include "readline.h"
64
#include "history.h"
65
 
66
#include "rlprivate.h"
67
#include "rlshell.h"
68
#include "xmalloc.h"
69
 
70
#ifndef RL_LIBRARY_VERSION
71
#  define RL_LIBRARY_VERSION "5.1"
72
#endif
73
 
74
#ifndef RL_READLINE_VERSION
75
#  define RL_READLINE_VERSION   0x0501
76
#endif
77
 
78
extern void _rl_free_history_entry PARAMS((HIST_ENTRY *));
79
 
80
/* Forward declarations used in this file. */
81
static char *readline_internal PARAMS((void));
82
static void readline_initialize_everything PARAMS((void));
83
 
84
static void bind_arrow_keys_internal PARAMS((Keymap));
85
static void bind_arrow_keys PARAMS((void));
86
 
87
static void readline_default_bindings PARAMS((void));
88
static void reset_default_bindings PARAMS((void));
89
 
90
static int _rl_subseq_result PARAMS((int, Keymap, int, int));
91
static int _rl_subseq_getchar PARAMS((int));
92
 
93
/* **************************************************************** */
94
/*                                                                  */
95
/*                      Line editing input utility                  */
96
/*                                                                  */
97
/* **************************************************************** */
98
 
99
const char *rl_library_version = RL_LIBRARY_VERSION;
100
 
101
int rl_readline_version = RL_READLINE_VERSION;
102
 
103
/* True if this is `real' readline as opposed to some stub substitute. */
104
int rl_gnu_readline_p = 1;
105
 
106
/* A pointer to the keymap that is currently in use.
107
   By default, it is the standard emacs keymap. */
108
Keymap _rl_keymap = emacs_standard_keymap;
109
 
110
 
111
/* The current style of editing. */
112
int rl_editing_mode = emacs_mode;
113
 
114
/* The current insert mode:  input (the default) or overwrite */
115
int rl_insert_mode = RL_IM_DEFAULT;
116
 
117
/* Non-zero if we called this function from _rl_dispatch().  It's present
118
   so functions can find out whether they were called from a key binding
119
   or directly from an application. */
120
int rl_dispatching;
121
 
122
/* Non-zero if the previous command was a kill command. */
123
int _rl_last_command_was_kill = 0;
124
 
125
/* The current value of the numeric argument specified by the user. */
126
int rl_numeric_arg = 1;
127
 
128
/* Non-zero if an argument was typed. */
129
int rl_explicit_arg = 0;
130
 
131
/* Temporary value used while generating the argument. */
132
int rl_arg_sign = 1;
133
 
134
/* Non-zero means we have been called at least once before. */
135
static int rl_initialized;
136
 
137
#if 0
138
/* If non-zero, this program is running in an EMACS buffer. */
139
static int running_in_emacs;
140
#endif
141
 
142
/* Flags word encapsulating the current readline state. */
143
int rl_readline_state = RL_STATE_NONE;
144
 
145
/* The current offset in the current input line. */
146
int rl_point;
147
 
148
/* Mark in the current input line. */
149
int rl_mark;
150
 
151
/* Length of the current input line. */
152
int rl_end;
153
 
154
/* Make this non-zero to return the current input_line. */
155
int rl_done;
156
 
157
/* The last function executed by readline. */
158
rl_command_func_t *rl_last_func = (rl_command_func_t *)NULL;
159
 
160
/* Top level environment for readline_internal (). */
161
procenv_t readline_top_level;
162
 
163
/* The streams we interact with. */
164
FILE *_rl_in_stream, *_rl_out_stream;
165
 
166
/* The names of the streams that we do input and output to. */
167
FILE *rl_instream = (FILE *)NULL;
168
FILE *rl_outstream = (FILE *)NULL;
169
 
170
/* Non-zero means echo characters as they are read.  Defaults to no echo;
171
   set to 1 if there is a controlling terminal, we can get its attributes,
172
   and the attributes include `echo'.  Look at rltty.c:prepare_terminal_settings
173
   for the code that sets it. */
174
int readline_echoing_p = 0;
175
 
176
/* Current prompt. */
177
char *rl_prompt = (char *)NULL;
178
int rl_visible_prompt_length = 0;
179
 
180
/* Set to non-zero by calling application if it has already printed rl_prompt
181
   and does not want readline to do it the first time. */
182
int rl_already_prompted = 0;
183
 
184
/* The number of characters read in order to type this complete command. */
185
int rl_key_sequence_length = 0;
186
 
187
/* If non-zero, then this is the address of a function to call just
188
   before readline_internal_setup () prints the first prompt. */
189
rl_hook_func_t *rl_startup_hook = (rl_hook_func_t *)NULL;
190
 
191
/* If non-zero, this is the address of a function to call just before
192
   readline_internal_setup () returns and readline_internal starts
193
   reading input characters. */
194
rl_hook_func_t *rl_pre_input_hook = (rl_hook_func_t *)NULL;
195
 
196
/* What we use internally.  You should always refer to RL_LINE_BUFFER. */
197
static char *the_line;
198
 
199
/* The character that can generate an EOF.  Really read from
200
   the terminal driver... just defaulted here. */
201
int _rl_eof_char = CTRL ('D');
202
 
203
/* Non-zero makes this the next keystroke to read. */
204
int rl_pending_input = 0;
205
 
206
/* Pointer to a useful terminal name. */
207
const char *rl_terminal_name = (const char *)NULL;
208
 
209
/* Non-zero means to always use horizontal scrolling in line display. */
210
int _rl_horizontal_scroll_mode = 0;
211
 
212
/* Non-zero means to display an asterisk at the starts of history lines
213
   which have been modified. */
214
int _rl_mark_modified_lines = 0;
215
 
216
/* The style of `bell' notification preferred.  This can be set to NO_BELL,
217
   AUDIBLE_BELL, or VISIBLE_BELL. */
218
int _rl_bell_preference = AUDIBLE_BELL;
219
 
220
/* String inserted into the line by rl_insert_comment (). */
221
char *_rl_comment_begin;
222
 
223
/* Keymap holding the function currently being executed. */
224
Keymap rl_executing_keymap;
225
 
226
/* Keymap we're currently using to dispatch. */
227
Keymap _rl_dispatching_keymap;
228
 
229
/* Non-zero means to erase entire line, including prompt, on empty input lines. */
230
int rl_erase_empty_line = 0;
231
 
232
/* Non-zero means to read only this many characters rather than up to a
233
   character bound to accept-line. */
234
int rl_num_chars_to_read;
235
 
236
/* Line buffer and maintenence. */
237
char *rl_line_buffer = (char *)NULL;
238
int rl_line_buffer_len = 0;
239
 
240
/* Key sequence `contexts' */
241
_rl_keyseq_cxt *_rl_kscxt = 0;
242
 
243
/* Forward declarations used by the display, termcap, and history code. */
244
 
245
/* **************************************************************** */
246
/*                                                                  */
247
/*                      `Forward' declarations                      */
248
/*                                                                  */
249
/* **************************************************************** */
250
 
251
/* Non-zero means do not parse any lines other than comments and
252
   parser directives. */
253
unsigned char _rl_parsing_conditionalized_out = 0;
254
 
255
/* Non-zero means to convert characters with the meta bit set to
256
   escape-prefixed characters so we can indirect through
257
   emacs_meta_keymap or vi_escape_keymap. */
258
int _rl_convert_meta_chars_to_ascii = 1;
259
 
260
/* Non-zero means to output characters with the meta bit set directly
261
   rather than as a meta-prefixed escape sequence. */
262
int _rl_output_meta_chars = 0;
263
 
264
/* Non-zero means to look at the termios special characters and bind
265
   them to equivalent readline functions at startup. */
266
int _rl_bind_stty_chars = 1;
267
 
268
/* **************************************************************** */
269
/*                                                                  */
270
/*                      Top Level Functions                         */
271
/*                                                                  */
272
/* **************************************************************** */
273
 
274
/* Non-zero means treat 0200 bit in terminal input as Meta bit. */
275
int _rl_meta_flag = 0;   /* Forward declaration */
276
 
277
/* Set up the prompt and expand it.  Called from readline() and
278
   rl_callback_handler_install (). */
279
int
280
rl_set_prompt (prompt)
281
     const char *prompt;
282
{
283
  FREE (rl_prompt);
284
  rl_prompt = prompt ? savestring (prompt) : (char *)NULL;
285
  rl_display_prompt = rl_prompt ? rl_prompt : "";
286
 
287
  rl_visible_prompt_length = rl_expand_prompt (rl_prompt);
288
  return 0;
289
}
290
 
291
/* Read a line of input.  Prompt with PROMPT.  An empty PROMPT means
292
   none.  A return value of NULL means that EOF was encountered. */
293
char *
294
readline (prompt)
295
     const char *prompt;
296
{
297
  char *value;
298
 
299
  /* If we are at EOF return a NULL string. */
300
  if (rl_pending_input == EOF)
301
    {
302
      rl_clear_pending_input ();
303
      return ((char *)NULL);
304
    }
305
 
306
  rl_set_prompt (prompt);
307
 
308
  rl_initialize ();
309
  if (rl_prep_term_function)
310
    (*rl_prep_term_function) (_rl_meta_flag);
311
 
312
#if defined (HANDLE_SIGNALS)
313
  rl_set_signals ();
314
#endif
315
 
316
  value = readline_internal ();
317
  if (rl_deprep_term_function)
318
    (*rl_deprep_term_function) ();
319
 
320
#if defined (HANDLE_SIGNALS)
321
  rl_clear_signals ();
322
#endif
323
 
324
  return (value);
325
}
326
 
327
#if defined (READLINE_CALLBACKS)
328
#  define STATIC_CALLBACK
329
#else
330
#  define STATIC_CALLBACK static
331
#endif
332
 
333
STATIC_CALLBACK void
334
readline_internal_setup ()
335
{
336
  char *nprompt;
337
 
338
  _rl_in_stream = rl_instream;
339
  _rl_out_stream = rl_outstream;
340
 
341
  if (rl_startup_hook)
342
    (*rl_startup_hook) ();
343
 
344
  /* If we're not echoing, we still want to at least print a prompt, because
345
     rl_redisplay will not do it for us.  If the calling application has a
346
     custom redisplay function, though, let that function handle it. */
347
  if (readline_echoing_p == 0 && rl_redisplay_function == rl_redisplay)
348
    {
349
      if (rl_prompt && rl_already_prompted == 0)
350
        {
351
          nprompt = _rl_strip_prompt (rl_prompt);
352
          fprintf (_rl_out_stream, "%s", nprompt);
353
          fflush (_rl_out_stream);
354
          free (nprompt);
355
        }
356
    }
357
  else
358
    {
359
      if (rl_prompt && rl_already_prompted)
360
        rl_on_new_line_with_prompt ();
361
      else
362
        rl_on_new_line ();
363
      (*rl_redisplay_function) ();
364
    }
365
 
366
#if defined (VI_MODE)
367
  if (rl_editing_mode == vi_mode)
368
    rl_vi_insertion_mode (1, 'i');
369
#endif /* VI_MODE */
370
 
371
  if (rl_pre_input_hook)
372
    (*rl_pre_input_hook) ();
373
}
374
 
375
STATIC_CALLBACK char *
376
readline_internal_teardown (eof)
377
     int eof;
378
{
379
  char *temp;
380
  HIST_ENTRY *entry;
381
 
382
  /* Restore the original of this history line, iff the line that we
383
     are editing was originally in the history, AND the line has changed. */
384
  entry = current_history ();
385
 
386
  if (entry && rl_undo_list)
387
    {
388
      temp = savestring (the_line);
389
      rl_revert_line (1, 0);
390
      entry = replace_history_entry (where_history (), the_line, (histdata_t)NULL);
391
      _rl_free_history_entry (entry);
392
 
393
      strcpy (the_line, temp);
394
      free (temp);
395
    }
396
 
397
  /* At any rate, it is highly likely that this line has an undo list.  Get
398
     rid of it now. */
399
  if (rl_undo_list)
400
    rl_free_undo_list ();
401
 
402
  /* Restore normal cursor, if available. */
403
  _rl_set_insert_mode (RL_IM_INSERT, 0);
404
 
405
  return (eof ? (char *)NULL : savestring (the_line));
406
}
407
 
408
void
409
_rl_internal_char_cleanup ()
410
{
411
#if defined (VI_MODE)
412
  /* In vi mode, when you exit insert mode, the cursor moves back
413
     over the previous character.  We explicitly check for that here. */
414
  if (rl_editing_mode == vi_mode && _rl_keymap == vi_movement_keymap)
415
    rl_vi_check ();
416
#endif /* VI_MODE */
417
 
418
  if (rl_num_chars_to_read && rl_end >= rl_num_chars_to_read)
419
    {
420
      (*rl_redisplay_function) ();
421
      _rl_want_redisplay = 0;
422
      rl_newline (1, '\n');
423
    }
424
 
425
  if (rl_done == 0)
426
    {
427
      (*rl_redisplay_function) ();
428
      _rl_want_redisplay = 0;
429
    }
430
 
431
  /* If the application writer has told us to erase the entire line if
432
     the only character typed was something bound to rl_newline, do so. */
433
  if (rl_erase_empty_line && rl_done && rl_last_func == rl_newline &&
434
      rl_point == 0 && rl_end == 0)
435
    _rl_erase_entire_line ();
436
}
437
 
438
STATIC_CALLBACK int
439
#if defined (READLINE_CALLBACKS)
440
readline_internal_char ()
441
#else
442
readline_internal_charloop ()
443
#endif
444
{
445
  static int lastc, eof_found;
446
  int c, code, lk;
447
 
448
  lastc = -1;
449
  eof_found = 0;
450
 
451
#if !defined (READLINE_CALLBACKS)
452
  while (rl_done == 0)
453
    {
454
#endif
455
      lk = _rl_last_command_was_kill;
456
 
457
      code = setjmp (readline_top_level);
458
 
459
      if (code)
460
        {
461
          (*rl_redisplay_function) ();
462
          _rl_want_redisplay = 0;
463
          /* If we get here, we're not being called from something dispatched
464
             from _rl_callback_read_char(), which sets up its own value of
465
             readline_top_level (saving and restoring the old, of course), so
466
             we can just return here. */
467
          if (RL_ISSTATE (RL_STATE_CALLBACK))
468
            return (0);
469
        }
470
 
471
      if (rl_pending_input == 0)
472
        {
473
          /* Then initialize the argument and number of keys read. */
474
          _rl_reset_argument ();
475
          rl_key_sequence_length = 0;
476
        }
477
 
478
      RL_SETSTATE(RL_STATE_READCMD);
479
      c = rl_read_key ();
480
      RL_UNSETSTATE(RL_STATE_READCMD);
481
 
482
      /* EOF typed to a non-blank line is a <NL>. */
483
      if (c == EOF && rl_end)
484
        c = NEWLINE;
485
 
486
      /* The character _rl_eof_char typed to blank line, and not as the
487
         previous character is interpreted as EOF. */
488
      if (((c == _rl_eof_char && lastc != c) || c == EOF) && !rl_end)
489
        {
490
#if defined (READLINE_CALLBACKS)
491
          RL_SETSTATE(RL_STATE_DONE);
492
          return (rl_done = 1);
493
#else
494
          eof_found = 1;
495
          break;
496
#endif
497
        }
498
 
499
      lastc = c;
500
      _rl_dispatch ((unsigned char)c, _rl_keymap);
501
 
502
      /* If there was no change in _rl_last_command_was_kill, then no kill
503
         has taken place.  Note that if input is pending we are reading
504
         a prefix command, so nothing has changed yet. */
505
      if (rl_pending_input == 0 && lk == _rl_last_command_was_kill)
506
        _rl_last_command_was_kill = 0;
507
 
508
      _rl_internal_char_cleanup ();
509
 
510
#if defined (READLINE_CALLBACKS)
511
      return 0;
512
#else
513
    }
514
 
515
  return (eof_found);
516
#endif
517
}
518
 
519
#if defined (READLINE_CALLBACKS)
520
static int
521
readline_internal_charloop ()
522
{
523
  int eof = 1;
524
 
525
  while (rl_done == 0)
526
    eof = readline_internal_char ();
527
  return (eof);
528
}
529
#endif /* READLINE_CALLBACKS */
530
 
531
/* Read a line of input from the global rl_instream, doing output on
532
   the global rl_outstream.
533
   If rl_prompt is non-null, then that is our prompt. */
534
static char *
535
readline_internal ()
536
{
537
  int eof;
538
 
539
  readline_internal_setup ();
540
  eof = readline_internal_charloop ();
541
  return (readline_internal_teardown (eof));
542
}
543
 
544
void
545
_rl_init_line_state ()
546
{
547
  rl_point = rl_end = rl_mark = 0;
548
  the_line = rl_line_buffer;
549
  the_line[0] = 0;
550
}
551
 
552
void
553
_rl_set_the_line ()
554
{
555
  the_line = rl_line_buffer;
556
}
557
 
558
#if defined (READLINE_CALLBACKS)
559
_rl_keyseq_cxt *
560
_rl_keyseq_cxt_alloc ()
561
{
562
  _rl_keyseq_cxt *cxt;
563
 
564
  cxt = (_rl_keyseq_cxt *)xmalloc (sizeof (_rl_keyseq_cxt));
565
 
566
  cxt->flags = cxt->subseq_arg = cxt->subseq_retval = 0;
567
 
568
  cxt->okey = 0;
569
  cxt->ocxt = _rl_kscxt;
570
  cxt->childval = 42;           /* sentinel value */
571
 
572
  return cxt;
573
}
574
 
575
void
576
_rl_keyseq_cxt_dispose (cxt)
577
    _rl_keyseq_cxt *cxt;
578
{
579
  free (cxt);
580
}
581
 
582
void
583
_rl_keyseq_chain_dispose ()
584
{
585
  _rl_keyseq_cxt *cxt;
586
 
587
  while (_rl_kscxt)
588
    {
589
      cxt = _rl_kscxt;
590
      _rl_kscxt = _rl_kscxt->ocxt;
591
      _rl_keyseq_cxt_dispose (cxt);
592
    }
593
}
594
#endif
595
 
596
static int
597
_rl_subseq_getchar (key)
598
     int key;
599
{
600
  int k;
601
 
602
  if (key == ESC)
603
    RL_SETSTATE(RL_STATE_METANEXT);
604
  RL_SETSTATE(RL_STATE_MOREINPUT);
605
  k = rl_read_key ();
606
  RL_UNSETSTATE(RL_STATE_MOREINPUT);
607
  if (key == ESC)
608
    RL_UNSETSTATE(RL_STATE_METANEXT);
609
 
610
  return k;
611
}
612
 
613
#if defined (READLINE_CALLBACKS)
614
int
615
_rl_dispatch_callback (cxt)
616
     _rl_keyseq_cxt *cxt;
617
{
618
  int nkey, r;
619
 
620
  /* For now */
621
#if 1
622
  /* The first time this context is used, we want to read input and dispatch
623
     on it.  When traversing the chain of contexts back `up', we want to use
624
     the value from the next context down.  We're simulating recursion using
625
     a chain of contexts. */
626
  if ((cxt->flags & KSEQ_DISPATCHED) == 0)
627
    {
628
      nkey = _rl_subseq_getchar (cxt->okey);
629
      r = _rl_dispatch_subseq (nkey, cxt->dmap, cxt->subseq_arg);
630
      cxt->flags |= KSEQ_DISPATCHED;
631
    }
632
  else
633
    r = cxt->childval;
634
#else
635
  r = _rl_dispatch_subseq (nkey, cxt->dmap, cxt->subseq_arg);
636
#endif
637
 
638
  /* For now */
639
  r = _rl_subseq_result (r, cxt->oldmap, cxt->okey, (cxt->flags & KSEQ_SUBSEQ));
640
 
641
  if (r == 0)                    /* success! */
642
    {
643
      _rl_keyseq_chain_dispose ();
644
      RL_UNSETSTATE (RL_STATE_MULTIKEY);
645
      return r;
646
    }
647
 
648
  if (r != -3)                  /* magic value that says we added to the chain */
649
    _rl_kscxt = cxt->ocxt;
650
  if (_rl_kscxt)
651
    _rl_kscxt->childval = r;
652
  if (r != -3)
653
    _rl_keyseq_cxt_dispose (cxt);
654
 
655
  return r;
656
}
657
#endif /* READLINE_CALLBACKS */
658
 
659
/* Do the command associated with KEY in MAP.
660
   If the associated command is really a keymap, then read
661
   another key, and dispatch into that map. */
662
int
663
_rl_dispatch (key, map)
664
     register int key;
665
     Keymap map;
666
{
667
  _rl_dispatching_keymap = map;
668
  return _rl_dispatch_subseq (key, map, 0);
669
}
670
 
671
int
672
_rl_dispatch_subseq (key, map, got_subseq)
673
     register int key;
674
     Keymap map;
675
     int got_subseq;
676
{
677
  int r, newkey;
678
  char *macro;
679
  rl_command_func_t *func;
680
#if defined (READLINE_CALLBACKS)
681
  _rl_keyseq_cxt *cxt;
682
#endif
683
 
684
  if (META_CHAR (key) && _rl_convert_meta_chars_to_ascii)
685
    {
686
      if (map[ESC].type == ISKMAP)
687
        {
688
          if (RL_ISSTATE (RL_STATE_MACRODEF))
689
            _rl_add_macro_char (ESC);
690
          map = FUNCTION_TO_KEYMAP (map, ESC);
691
          key = UNMETA (key);
692
          rl_key_sequence_length += 2;
693
          return (_rl_dispatch (key, map));
694
        }
695
      else
696
        rl_ding ();
697
      return 0;
698
    }
699
 
700
  if (RL_ISSTATE (RL_STATE_MACRODEF))
701
    _rl_add_macro_char (key);
702
 
703
  r = 0;
704
  switch (map[key].type)
705
    {
706
    case ISFUNC:
707
      func = map[key].function;
708
      if (func)
709
        {
710
          /* Special case rl_do_lowercase_version (). */
711
          if (func == rl_do_lowercase_version)
712
            return (_rl_dispatch (_rl_to_lower (key), map));
713
 
714
          rl_executing_keymap = map;
715
 
716
          rl_dispatching = 1;
717
          RL_SETSTATE(RL_STATE_DISPATCHING);
718
          (*map[key].function)(rl_numeric_arg * rl_arg_sign, key);
719
          RL_UNSETSTATE(RL_STATE_DISPATCHING);
720
          rl_dispatching = 0;
721
 
722
          /* If we have input pending, then the last command was a prefix
723
             command.  Don't change the state of rl_last_func.  Otherwise,
724
             remember the last command executed in this variable. */
725
          if (rl_pending_input == 0 && map[key].function != rl_digit_argument)
726
            rl_last_func = map[key].function;
727
        }
728
      else if (map[ANYOTHERKEY].function)
729
        {
730
          /* OK, there's no function bound in this map, but there is a
731
             shadow function that was overridden when the current keymap
732
             was created.  Return -2 to note  that. */
733
          _rl_unget_char  (key);
734
          return -2;
735
        }
736
      else if (got_subseq)
737
        {
738
          /* Return -1 to note that we're in a subsequence, but  we don't
739
             have a matching key, nor was one overridden.  This means
740
             we need to back up the recursion chain and find the last
741
             subsequence that is bound to a function. */
742
          _rl_unget_char (key);
743
          return -1;
744
        }
745
      else
746
        {
747
#if defined (READLINE_CALLBACKS)
748
          RL_UNSETSTATE (RL_STATE_MULTIKEY);
749
          _rl_keyseq_chain_dispose ();
750
#endif
751
          _rl_abort_internal ();
752
          return -1;
753
        }
754
      break;
755
 
756
    case ISKMAP:
757
      if (map[key].function != 0)
758
        {
759
#if defined (VI_MODE)
760
          /* The only way this test will be true is if a subsequence has been
761
             bound starting with ESC, generally the arrow keys.  What we do is
762
             check whether there's input in the queue, which there generally
763
             will be if an arrow key has been pressed, and, if there's not,
764
             just dispatch to (what we assume is) rl_vi_movement_mode right
765
             away.  This is essentially an input test with a zero timeout. */
766
          if (rl_editing_mode == vi_mode && key == ESC && map == vi_insertion_keymap
767
              && _rl_input_queued (0) == 0)
768
            return (_rl_dispatch (ANYOTHERKEY, FUNCTION_TO_KEYMAP (map, key)));
769
#endif
770
 
771
          rl_key_sequence_length++;
772
          _rl_dispatching_keymap = FUNCTION_TO_KEYMAP (map, key);
773
 
774
          /* Allocate new context here.  Use linked contexts (linked through
775
             cxt->ocxt) to simulate recursion */
776
#if defined (READLINE_CALLBACKS)
777
          if (RL_ISSTATE (RL_STATE_CALLBACK))
778
            {
779
              /* Return 0 only the first time, to indicate success to
780
                 _rl_callback_read_char.  The rest of the time, we're called
781
                 from _rl_dispatch_callback, so we return 3 to indicate
782
                 special handling is necessary. */
783
              r = RL_ISSTATE (RL_STATE_MULTIKEY) ? -3 : 0;
784
              cxt = _rl_keyseq_cxt_alloc ();
785
 
786
              if (got_subseq)
787
                cxt->flags |= KSEQ_SUBSEQ;
788
              cxt->okey = key;
789
              cxt->oldmap = map;
790
              cxt->dmap = _rl_dispatching_keymap;
791
              cxt->subseq_arg = got_subseq || cxt->dmap[ANYOTHERKEY].function;
792
 
793
              RL_SETSTATE (RL_STATE_MULTIKEY);
794
              _rl_kscxt = cxt;
795
 
796
              return r;         /* don't indicate immediate success */
797
            }
798
#endif
799
 
800
          newkey = _rl_subseq_getchar (key);
801
          if (newkey < 0)
802
            {
803
              _rl_abort_internal ();
804
              return -1;
805
            }
806
 
807
          r = _rl_dispatch_subseq (newkey, _rl_dispatching_keymap, got_subseq || map[ANYOTHERKEY].function);
808
          return _rl_subseq_result (r, map, key, got_subseq);
809
        }
810
      else
811
        {
812
          _rl_abort_internal ();
813
          return -1;
814
        }
815
      break;
816
 
817
    case ISMACR:
818
      if (map[key].function != 0)
819
        {
820
          macro = savestring ((char *)map[key].function);
821
          _rl_with_macro_input (macro);
822
          return 0;
823
        }
824
      break;
825
    }
826
#if defined (VI_MODE)
827
  if (rl_editing_mode == vi_mode && _rl_keymap == vi_movement_keymap &&
828
      key != ANYOTHERKEY &&
829
      _rl_vi_textmod_command (key))
830
    _rl_vi_set_last (key, rl_numeric_arg, rl_arg_sign);
831
#endif
832
 
833
  return (r);
834
}
835
 
836
static int
837
_rl_subseq_result (r, map, key, got_subseq)
838
     int r;
839
     Keymap map;
840
     int key, got_subseq;
841
{
842
  Keymap m;
843
  int type, nt;
844
  rl_command_func_t *func, *nf;
845
 
846
  if (r == -2)
847
    /* We didn't match anything, and the keymap we're indexed into
848
       shadowed a function previously bound to that prefix.  Call
849
       the function.  The recursive call to _rl_dispatch_subseq has
850
       already taken care of pushing any necessary input back onto
851
       the input queue with _rl_unget_char. */
852
    {
853
      m = _rl_dispatching_keymap;
854
      type = m[ANYOTHERKEY].type;
855
      func = m[ANYOTHERKEY].function;
856
      if (type == ISFUNC && func == rl_do_lowercase_version)
857
        r = _rl_dispatch (_rl_to_lower (key), map);
858
      else if (type == ISFUNC && func == rl_insert)
859
        {
860
          /* If the function that was shadowed was self-insert, we
861
             somehow need a keymap with map[key].func == self-insert.
862
             Let's use this one. */
863
          nt = m[key].type;
864
          nf = m[key].function;
865
 
866
          m[key].type = type;
867
          m[key].function = func;
868
          r = _rl_dispatch (key, m);
869
          m[key].type = nt;
870
          m[key].function = nf;
871
        }
872
      else
873
        r = _rl_dispatch (ANYOTHERKEY, m);
874
    }
875
  else if (r && map[ANYOTHERKEY].function)
876
    {
877
      /* We didn't match (r is probably -1), so return something to
878
         tell the caller that it should try ANYOTHERKEY for an
879
         overridden function. */
880
      _rl_unget_char (key);
881
      _rl_dispatching_keymap = map;
882
      return -2;
883
    }
884
  else if (r && got_subseq)
885
    {
886
      /* OK, back up the chain. */
887
      _rl_unget_char (key);
888
      _rl_dispatching_keymap = map;
889
      return -1;
890
    }
891
 
892
  return r;
893
}
894
 
895
/* **************************************************************** */
896
/*                                                                  */
897
/*                      Initializations                             */
898
/*                                                                  */
899
/* **************************************************************** */
900
 
901
/* Initialize readline (and terminal if not already). */
902
int
903
rl_initialize ()
904
{
905
  /* If we have never been called before, initialize the
906
     terminal and data structures. */
907
  if (!rl_initialized)
908
    {
909
      RL_SETSTATE(RL_STATE_INITIALIZING);
910
      readline_initialize_everything ();
911
      RL_UNSETSTATE(RL_STATE_INITIALIZING);
912
      rl_initialized++;
913
      RL_SETSTATE(RL_STATE_INITIALIZED);
914
    }
915
 
916
  /* Initalize the current line information. */
917
  _rl_init_line_state ();
918
 
919
  /* We aren't done yet.  We haven't even gotten started yet! */
920
  rl_done = 0;
921
  RL_UNSETSTATE(RL_STATE_DONE);
922
 
923
  /* Tell the history routines what is going on. */
924
  _rl_start_using_history ();
925
 
926
  /* Make the display buffer match the state of the line. */
927
  rl_reset_line_state ();
928
 
929
  /* No such function typed yet. */
930
  rl_last_func = (rl_command_func_t *)NULL;
931
 
932
  /* Parsing of key-bindings begins in an enabled state. */
933
  _rl_parsing_conditionalized_out = 0;
934
 
935
#if defined (VI_MODE)
936
  if (rl_editing_mode == vi_mode)
937
    _rl_vi_initialize_line ();
938
#endif
939
 
940
  /* Each line starts in insert mode (the default). */
941
  _rl_set_insert_mode (RL_IM_DEFAULT, 1);
942
 
943
  return 0;
944
}
945
 
946
#if 0
947
#if defined (__EMX__)
948
static void
949
_emx_build_environ ()
950
{
951
  TIB *tibp;
952
  PIB *pibp;
953
  char *t, **tp;
954
  int c;
955
 
956
  DosGetInfoBlocks (&tibp, &pibp);
957
  t = pibp->pib_pchenv;
958
  for (c = 1; *t; c++)
959
    t += strlen (t) + 1;
960
  tp = environ = (char **)xmalloc ((c + 1) * sizeof (char *));
961
  t = pibp->pib_pchenv;
962
  while (*t)
963
    {
964
      *tp++ = t;
965
      t += strlen (t) + 1;
966
    }
967
  *tp = 0;
968
}
969
#endif /* __EMX__ */
970
#endif
971
 
972
/* Initialize the entire state of the world. */
973
static void
974
readline_initialize_everything ()
975
{
976
#if 0
977
#if defined (__EMX__)
978
  if (environ == 0)
979
    _emx_build_environ ();
980
#endif
981
#endif
982
 
983
#if 0
984
  /* Find out if we are running in Emacs -- UNUSED. */
985
  running_in_emacs = sh_get_env_value ("EMACS") != (char *)0;
986
#endif
987
 
988
  /* Set up input and output if they are not already set up. */
989
  if (!rl_instream)
990
    rl_instream = stdin;
991
 
992
  if (!rl_outstream)
993
    rl_outstream = stdout;
994
 
995
  /* Bind _rl_in_stream and _rl_out_stream immediately.  These values
996
     may change, but they may also be used before readline_internal ()
997
     is called. */
998
  _rl_in_stream = rl_instream;
999
  _rl_out_stream = rl_outstream;
1000
 
1001
  /* Allocate data structures. */
1002
  if (rl_line_buffer == 0)
1003
    rl_line_buffer = (char *)xmalloc (rl_line_buffer_len = DEFAULT_BUFFER_SIZE);
1004
 
1005
  /* Initialize the terminal interface. */
1006
  if (rl_terminal_name == 0)
1007
    rl_terminal_name = sh_get_env_value ("TERM");
1008
  _rl_init_terminal_io (rl_terminal_name);
1009
 
1010
  /* Bind tty characters to readline functions. */
1011
  readline_default_bindings ();
1012
 
1013
  /* Initialize the function names. */
1014
  rl_initialize_funmap ();
1015
 
1016
  /* Decide whether we should automatically go into eight-bit mode. */
1017
  _rl_init_eightbit ();
1018
 
1019
  /* Read in the init file. */
1020
  rl_read_init_file ((char *)NULL);
1021
 
1022
  /* XXX */
1023
  if (_rl_horizontal_scroll_mode && _rl_term_autowrap)
1024
    {
1025
      _rl_screenwidth--;
1026
      _rl_screenchars -= _rl_screenheight;
1027
    }
1028
 
1029
  /* Override the effect of any `set keymap' assignments in the
1030
     inputrc file. */
1031
  rl_set_keymap_from_edit_mode ();
1032
 
1033
  /* Try to bind a common arrow key prefix, if not already bound. */
1034
  bind_arrow_keys ();
1035
 
1036
  /* Enable the meta key, if this terminal has one. */
1037
  if (_rl_enable_meta)
1038
    _rl_enable_meta_key ();
1039
 
1040
  /* If the completion parser's default word break characters haven't
1041
     been set yet, then do so now. */
1042
  if (rl_completer_word_break_characters == (char *)NULL)
1043
    rl_completer_word_break_characters = (char *)rl_basic_word_break_characters;
1044
}
1045
 
1046
/* If this system allows us to look at the values of the regular
1047
   input editing characters, then bind them to their readline
1048
   equivalents, iff the characters are not bound to keymaps. */
1049
static void
1050
readline_default_bindings ()
1051
{
1052
  if (_rl_bind_stty_chars)
1053
    rl_tty_set_default_bindings (_rl_keymap);
1054
}
1055
 
1056
/* Reset the default bindings for the terminal special characters we're
1057
   interested in back to rl_insert and read the new ones. */
1058
static void
1059
reset_default_bindings ()
1060
{
1061
  if (_rl_bind_stty_chars)
1062
    {
1063
      rl_tty_unset_default_bindings (_rl_keymap);
1064
      rl_tty_set_default_bindings (_rl_keymap);
1065
    }
1066
}
1067
 
1068
/* Bind some common arrow key sequences in MAP. */
1069
static void
1070
bind_arrow_keys_internal (map)
1071
     Keymap map;
1072
{
1073
  Keymap xkeymap;
1074
 
1075
  xkeymap = _rl_keymap;
1076
  _rl_keymap = map;
1077
 
1078
#if defined (__MSDOS__)
1079
  rl_bind_keyseq_if_unbound ("\033[0A", rl_get_previous_history);
1080
  rl_bind_keyseq_if_unbound ("\033[0B", rl_backward_char);
1081
  rl_bind_keyseq_if_unbound ("\033[0C", rl_forward_char);
1082
  rl_bind_keyseq_if_unbound ("\033[0D", rl_get_next_history);
1083
#endif
1084
 
1085
  rl_bind_keyseq_if_unbound ("\033[A", rl_get_previous_history);
1086
  rl_bind_keyseq_if_unbound ("\033[B", rl_get_next_history);
1087
  rl_bind_keyseq_if_unbound ("\033[C", rl_forward_char);
1088
  rl_bind_keyseq_if_unbound ("\033[D", rl_backward_char);
1089
  rl_bind_keyseq_if_unbound ("\033[H", rl_beg_of_line);
1090
  rl_bind_keyseq_if_unbound ("\033[F", rl_end_of_line);
1091
 
1092
  rl_bind_keyseq_if_unbound ("\033OA", rl_get_previous_history);
1093
  rl_bind_keyseq_if_unbound ("\033OB", rl_get_next_history);
1094
  rl_bind_keyseq_if_unbound ("\033OC", rl_forward_char);
1095
  rl_bind_keyseq_if_unbound ("\033OD", rl_backward_char);
1096
  rl_bind_keyseq_if_unbound ("\033OH", rl_beg_of_line);
1097
  rl_bind_keyseq_if_unbound ("\033OF", rl_end_of_line);
1098
 
1099
#if defined (__MINGW32__)
1100
  rl_bind_keyseq_if_unbound ("\340H", rl_get_previous_history);
1101
  rl_bind_keyseq_if_unbound ("\340P", rl_get_next_history);
1102
  rl_bind_keyseq_if_unbound ("\340M", rl_forward_char);
1103
  rl_bind_keyseq_if_unbound ("\340K", rl_backward_char);
1104
#endif
1105
 
1106
  _rl_keymap = xkeymap;
1107
}
1108
 
1109
/* Try and bind the common arrow key prefixes after giving termcap and
1110
   the inputrc file a chance to bind them and create `real' keymaps
1111
   for the arrow key prefix. */
1112
static void
1113
bind_arrow_keys ()
1114
{
1115
  bind_arrow_keys_internal (emacs_standard_keymap);
1116
 
1117
#if defined (VI_MODE)
1118
  bind_arrow_keys_internal (vi_movement_keymap);
1119
  bind_arrow_keys_internal (vi_insertion_keymap);
1120
#endif
1121
}
1122
 
1123
/* **************************************************************** */
1124
/*                                                                  */
1125
/*              Saving and Restoring Readline's state               */
1126
/*                                                                  */
1127
/* **************************************************************** */
1128
 
1129
int
1130
rl_save_state (sp)
1131
     struct readline_state *sp;
1132
{
1133
  if (sp == 0)
1134
    return -1;
1135
 
1136
  sp->point = rl_point;
1137
  sp->end = rl_end;
1138
  sp->mark = rl_mark;
1139
  sp->buffer = rl_line_buffer;
1140
  sp->buflen = rl_line_buffer_len;
1141
  sp->ul = rl_undo_list;
1142
  sp->prompt = rl_prompt;
1143
 
1144
  sp->rlstate = rl_readline_state;
1145
  sp->done = rl_done;
1146
  sp->kmap = _rl_keymap;
1147
 
1148
  sp->lastfunc = rl_last_func;
1149
  sp->insmode = rl_insert_mode;
1150
  sp->edmode = rl_editing_mode;
1151
  sp->kseqlen = rl_key_sequence_length;
1152
  sp->inf = rl_instream;
1153
  sp->outf = rl_outstream;
1154
  sp->pendingin = rl_pending_input;
1155
  sp->macro = rl_executing_macro;
1156
 
1157
  sp->catchsigs = rl_catch_signals;
1158
  sp->catchsigwinch = rl_catch_sigwinch;
1159
 
1160
  return (0);
1161
}
1162
 
1163
int
1164
rl_restore_state (sp)
1165
     struct readline_state *sp;
1166
{
1167
  if (sp == 0)
1168
    return -1;
1169
 
1170
  rl_point = sp->point;
1171
  rl_end = sp->end;
1172
  rl_mark = sp->mark;
1173
  the_line = rl_line_buffer = sp->buffer;
1174
  rl_line_buffer_len = sp->buflen;
1175
  rl_undo_list = sp->ul;
1176
  rl_prompt = sp->prompt;
1177
 
1178
  rl_readline_state = sp->rlstate;
1179
  rl_done = sp->done;
1180
  _rl_keymap = sp->kmap;
1181
 
1182
  rl_last_func = sp->lastfunc;
1183
  rl_insert_mode = sp->insmode;
1184
  rl_editing_mode = sp->edmode;
1185
  rl_key_sequence_length = sp->kseqlen;
1186
  rl_instream = sp->inf;
1187
  rl_outstream = sp->outf;
1188
  rl_pending_input = sp->pendingin;
1189
  rl_executing_macro = sp->macro;
1190
 
1191
  rl_catch_signals = sp->catchsigs;
1192
  rl_catch_sigwinch = sp->catchsigwinch;
1193
 
1194
  return (0);
1195
}

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