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[emacs.git] / src / editfns.c
blob6539cd11d45635f88cf8adc682d7f4e8e17352a7
1 /* Lisp functions pertaining to editing.
2 Copyright (C) 1985,86,87,89,93,94,95,96,97,98, 1999, 2000, 2001, 2002
3 Free Software Foundation, Inc.
5 This file is part of GNU Emacs.
7 GNU Emacs is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2, or (at your option)
10 any later version.
12 GNU Emacs is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GNU Emacs; see the file COPYING. If not, write to
19 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
20 Boston, MA 02111-1307, USA. */
23 #include <config.h>
24 #include <sys/types.h>
26 #ifdef VMS
27 #include "vms-pwd.h"
28 #else
29 #include <pwd.h>
30 #endif
32 #ifdef HAVE_UNISTD_H
33 #include <unistd.h>
34 #endif
36 /* Without this, sprintf on Mac OS Classic will produce wrong
37 result. */
38 #ifdef MAC_OS8
39 #include <stdio.h>
40 #endif
42 #include <ctype.h>
44 #include "lisp.h"
45 #include "intervals.h"
46 #include "buffer.h"
47 #include "charset.h"
48 #include "coding.h"
49 #include "frame.h"
50 #include "window.h"
52 #include "systime.h"
54 #ifdef STDC_HEADERS
55 #include <float.h>
56 #define MAX_10_EXP DBL_MAX_10_EXP
57 #else
58 #define MAX_10_EXP 310
59 #endif
61 #ifndef NULL
62 #define NULL 0
63 #endif
65 #ifndef USE_CRT_DLL
66 extern char **environ;
67 #endif
69 extern Lisp_Object make_time P_ ((time_t));
70 extern size_t emacs_strftimeu P_ ((char *, size_t, const char *,
71 const struct tm *, int));
72 static int tm_diff P_ ((struct tm *, struct tm *));
73 static void find_field P_ ((Lisp_Object, Lisp_Object, Lisp_Object, int *, Lisp_Object, int *));
74 static void update_buffer_properties P_ ((int, int));
75 static Lisp_Object region_limit P_ ((int));
76 static int lisp_time_argument P_ ((Lisp_Object, time_t *, int *));
77 static size_t emacs_memftimeu P_ ((char *, size_t, const char *,
78 size_t, const struct tm *, int));
79 static void general_insert_function P_ ((void (*) (const unsigned char *, int),
80 void (*) (Lisp_Object, int, int, int,
81 int, int),
82 int, int, Lisp_Object *));
83 static Lisp_Object subst_char_in_region_unwind P_ ((Lisp_Object));
84 static Lisp_Object subst_char_in_region_unwind_1 P_ ((Lisp_Object));
85 static void transpose_markers P_ ((int, int, int, int, int, int, int, int));
87 #ifdef HAVE_INDEX
88 extern char *index P_ ((const char *, int));
89 #endif
91 Lisp_Object Vbuffer_access_fontify_functions;
92 Lisp_Object Qbuffer_access_fontify_functions;
93 Lisp_Object Vbuffer_access_fontified_property;
95 Lisp_Object Fuser_full_name P_ ((Lisp_Object));
97 /* Non-nil means don't stop at field boundary in text motion commands. */
99 Lisp_Object Vinhibit_field_text_motion;
101 /* Some static data, and a function to initialize it for each run */
103 Lisp_Object Vsystem_name;
104 Lisp_Object Vuser_real_login_name; /* login name of current user ID */
105 Lisp_Object Vuser_full_name; /* full name of current user */
106 Lisp_Object Vuser_login_name; /* user name from LOGNAME or USER */
108 /* Symbol for the text property used to mark fields. */
110 Lisp_Object Qfield;
112 /* A special value for Qfield properties. */
114 Lisp_Object Qboundary;
117 void
118 init_editfns ()
120 char *user_name;
121 register unsigned char *p;
122 struct passwd *pw; /* password entry for the current user */
123 Lisp_Object tem;
125 /* Set up system_name even when dumping. */
126 init_system_name ();
128 #ifndef CANNOT_DUMP
129 /* Don't bother with this on initial start when just dumping out */
130 if (!initialized)
131 return;
132 #endif /* not CANNOT_DUMP */
134 pw = (struct passwd *) getpwuid (getuid ());
135 #ifdef MSDOS
136 /* We let the real user name default to "root" because that's quite
137 accurate on MSDOG and because it lets Emacs find the init file.
138 (The DVX libraries override the Djgpp libraries here.) */
139 Vuser_real_login_name = build_string (pw ? pw->pw_name : "root");
140 #else
141 Vuser_real_login_name = build_string (pw ? pw->pw_name : "unknown");
142 #endif
144 /* Get the effective user name, by consulting environment variables,
145 or the effective uid if those are unset. */
146 user_name = (char *) getenv ("LOGNAME");
147 if (!user_name)
148 #ifdef WINDOWSNT
149 user_name = (char *) getenv ("USERNAME"); /* it's USERNAME on NT */
150 #else /* WINDOWSNT */
151 user_name = (char *) getenv ("USER");
152 #endif /* WINDOWSNT */
153 if (!user_name)
155 pw = (struct passwd *) getpwuid (geteuid ());
156 user_name = (char *) (pw ? pw->pw_name : "unknown");
158 Vuser_login_name = build_string (user_name);
160 /* If the user name claimed in the environment vars differs from
161 the real uid, use the claimed name to find the full name. */
162 tem = Fstring_equal (Vuser_login_name, Vuser_real_login_name);
163 Vuser_full_name = Fuser_full_name (NILP (tem)? make_number (geteuid())
164 : Vuser_login_name);
166 p = (unsigned char *) getenv ("NAME");
167 if (p)
168 Vuser_full_name = build_string (p);
169 else if (NILP (Vuser_full_name))
170 Vuser_full_name = build_string ("unknown");
173 DEFUN ("char-to-string", Fchar_to_string, Schar_to_string, 1, 1, 0,
174 doc: /* Convert arg CHAR to a string containing that character.
175 usage: (char-to-string CHAR) */)
176 (character)
177 Lisp_Object character;
179 int len;
180 unsigned char str[MAX_MULTIBYTE_LENGTH];
182 CHECK_NUMBER (character);
184 len = (SINGLE_BYTE_CHAR_P (XFASTINT (character))
185 ? (*str = (unsigned char)(XFASTINT (character)), 1)
186 : char_to_string (XFASTINT (character), str));
187 return make_string_from_bytes (str, 1, len);
190 DEFUN ("string-to-char", Fstring_to_char, Sstring_to_char, 1, 1, 0,
191 doc: /* Convert arg STRING to a character, the first character of that string.
192 A multibyte character is handled correctly. */)
193 (string)
194 register Lisp_Object string;
196 register Lisp_Object val;
197 CHECK_STRING (string);
198 if (SCHARS (string))
200 if (STRING_MULTIBYTE (string))
201 XSETFASTINT (val, STRING_CHAR (SDATA (string), SBYTES (string)));
202 else
203 XSETFASTINT (val, SREF (string, 0));
205 else
206 XSETFASTINT (val, 0);
207 return val;
210 static Lisp_Object
211 buildmark (charpos, bytepos)
212 int charpos, bytepos;
214 register Lisp_Object mark;
215 mark = Fmake_marker ();
216 set_marker_both (mark, Qnil, charpos, bytepos);
217 return mark;
220 DEFUN ("point", Fpoint, Spoint, 0, 0, 0,
221 doc: /* Return value of point, as an integer.
222 Beginning of buffer is position (point-min). */)
225 Lisp_Object temp;
226 XSETFASTINT (temp, PT);
227 return temp;
230 DEFUN ("point-marker", Fpoint_marker, Spoint_marker, 0, 0, 0,
231 doc: /* Return value of point, as a marker object. */)
234 return buildmark (PT, PT_BYTE);
238 clip_to_bounds (lower, num, upper)
239 int lower, num, upper;
241 if (num < lower)
242 return lower;
243 else if (num > upper)
244 return upper;
245 else
246 return num;
249 DEFUN ("goto-char", Fgoto_char, Sgoto_char, 1, 1, "NGoto char: ",
250 doc: /* Set point to POSITION, a number or marker.
251 Beginning of buffer is position (point-min), end is (point-max).
252 If the position is in the middle of a multibyte form,
253 the actual point is set at the head of the multibyte form
254 except in the case that `enable-multibyte-characters' is nil. */)
255 (position)
256 register Lisp_Object position;
258 int pos;
260 if (MARKERP (position)
261 && current_buffer == XMARKER (position)->buffer)
263 pos = marker_position (position);
264 if (pos < BEGV)
265 SET_PT_BOTH (BEGV, BEGV_BYTE);
266 else if (pos > ZV)
267 SET_PT_BOTH (ZV, ZV_BYTE);
268 else
269 SET_PT_BOTH (pos, marker_byte_position (position));
271 return position;
274 CHECK_NUMBER_COERCE_MARKER (position);
276 pos = clip_to_bounds (BEGV, XINT (position), ZV);
277 SET_PT (pos);
278 return position;
282 /* Return the start or end position of the region.
283 BEGINNINGP non-zero means return the start.
284 If there is no region active, signal an error. */
286 static Lisp_Object
287 region_limit (beginningp)
288 int beginningp;
290 extern Lisp_Object Vmark_even_if_inactive; /* Defined in callint.c. */
291 Lisp_Object m;
293 if (!NILP (Vtransient_mark_mode)
294 && NILP (Vmark_even_if_inactive)
295 && NILP (current_buffer->mark_active))
296 Fsignal (Qmark_inactive, Qnil);
298 m = Fmarker_position (current_buffer->mark);
299 if (NILP (m))
300 error ("The mark is not set now, so there is no region");
302 if ((PT < XFASTINT (m)) == beginningp)
303 m = make_number (PT);
304 return m;
307 DEFUN ("region-beginning", Fregion_beginning, Sregion_beginning, 0, 0, 0,
308 doc: /* Return position of beginning of region, as an integer. */)
311 return region_limit (1);
314 DEFUN ("region-end", Fregion_end, Sregion_end, 0, 0, 0,
315 doc: /* Return position of end of region, as an integer. */)
318 return region_limit (0);
321 DEFUN ("mark-marker", Fmark_marker, Smark_marker, 0, 0, 0,
322 doc: /* Return this buffer's mark, as a marker object.
323 Watch out! Moving this marker changes the mark position.
324 If you set the marker not to point anywhere, the buffer will have no mark. */)
327 return current_buffer->mark;
331 /* Find all the overlays in the current buffer that touch position POS.
332 Return the number found, and store them in a vector in VEC
333 of length LEN. */
335 static int
336 overlays_around (pos, vec, len)
337 int pos;
338 Lisp_Object *vec;
339 int len;
341 Lisp_Object tail, overlay, start, end;
342 int startpos, endpos;
343 int idx = 0;
345 for (tail = current_buffer->overlays_before;
346 GC_CONSP (tail);
347 tail = XCDR (tail))
349 overlay = XCAR (tail);
351 end = OVERLAY_END (overlay);
352 endpos = OVERLAY_POSITION (end);
353 if (endpos < pos)
354 break;
355 start = OVERLAY_START (overlay);
356 startpos = OVERLAY_POSITION (start);
357 if (startpos <= pos)
359 if (idx < len)
360 vec[idx] = overlay;
361 /* Keep counting overlays even if we can't return them all. */
362 idx++;
366 for (tail = current_buffer->overlays_after;
367 GC_CONSP (tail);
368 tail = XCDR (tail))
370 overlay = XCAR (tail);
372 start = OVERLAY_START (overlay);
373 startpos = OVERLAY_POSITION (start);
374 if (pos < startpos)
375 break;
376 end = OVERLAY_END (overlay);
377 endpos = OVERLAY_POSITION (end);
378 if (pos <= endpos)
380 if (idx < len)
381 vec[idx] = overlay;
382 idx++;
386 return idx;
389 /* Return the value of property PROP, in OBJECT at POSITION.
390 It's the value of PROP that a char inserted at POSITION would get.
391 OBJECT is optional and defaults to the current buffer.
392 If OBJECT is a buffer, then overlay properties are considered as well as
393 text properties.
394 If OBJECT is a window, then that window's buffer is used, but
395 window-specific overlays are considered only if they are associated
396 with OBJECT. */
397 Lisp_Object
398 get_pos_property (position, prop, object)
399 Lisp_Object position, object;
400 register Lisp_Object prop;
402 struct window *w = 0;
404 CHECK_NUMBER_COERCE_MARKER (position);
406 if (NILP (object))
407 XSETBUFFER (object, current_buffer);
409 if (WINDOWP (object))
411 w = XWINDOW (object);
412 object = w->buffer;
414 if (BUFFERP (object))
416 int posn = XINT (position);
417 int noverlays;
418 Lisp_Object *overlay_vec, tem;
419 struct buffer *obuf = current_buffer;
421 set_buffer_temp (XBUFFER (object));
423 /* First try with room for 40 overlays. */
424 noverlays = 40;
425 overlay_vec = (Lisp_Object *) alloca (noverlays * sizeof (Lisp_Object));
426 noverlays = overlays_around (posn, overlay_vec, noverlays);
428 /* If there are more than 40,
429 make enough space for all, and try again. */
430 if (noverlays > 40)
432 overlay_vec = (Lisp_Object *) alloca (noverlays * sizeof (Lisp_Object));
433 noverlays = overlays_around (posn, overlay_vec, noverlays);
435 noverlays = sort_overlays (overlay_vec, noverlays, NULL);
437 set_buffer_temp (obuf);
439 /* Now check the overlays in order of decreasing priority. */
440 while (--noverlays >= 0)
442 Lisp_Object ol = overlay_vec[noverlays];
443 tem = Foverlay_get (ol, prop);
444 if (!NILP (tem))
446 /* Check the overlay is indeed active at point. */
447 Lisp_Object start = OVERLAY_START (ol), finish = OVERLAY_END (ol);
448 if ((OVERLAY_POSITION (start) == posn
449 && XMARKER (start)->insertion_type == 1)
450 || (OVERLAY_POSITION (finish) == posn
451 && XMARKER (finish)->insertion_type == 0))
452 ; /* The overlay will not cover a char inserted at point. */
453 else
455 return tem;
462 { /* Now check the text-properties. */
463 int stickiness = text_property_stickiness (prop, position);
464 if (stickiness > 0)
465 return Fget_text_property (position, prop, Qnil);
466 else if (stickiness < 0 && XINT (position) > BEGV)
467 return Fget_text_property (make_number (XINT (position) - 1),
468 prop, Qnil);
469 else
470 return Qnil;
474 /* Find the field surrounding POS in *BEG and *END. If POS is nil,
475 the value of point is used instead. If BEG or END null,
476 means don't store the beginning or end of the field.
478 BEG_LIMIT and END_LIMIT serve to limit the ranged of the returned
479 results; they do not effect boundary behavior.
481 If MERGE_AT_BOUNDARY is nonzero, then if POS is at the very first
482 position of a field, then the beginning of the previous field is
483 returned instead of the beginning of POS's field (since the end of a
484 field is actually also the beginning of the next input field, this
485 behavior is sometimes useful). Additionally in the MERGE_AT_BOUNDARY
486 true case, if two fields are separated by a field with the special
487 value `boundary', and POS lies within it, then the two separated
488 fields are considered to be adjacent, and POS between them, when
489 finding the beginning and ending of the "merged" field.
491 Either BEG or END may be 0, in which case the corresponding value
492 is not stored. */
494 static void
495 find_field (pos, merge_at_boundary, beg_limit, beg, end_limit, end)
496 Lisp_Object pos;
497 Lisp_Object merge_at_boundary;
498 Lisp_Object beg_limit, end_limit;
499 int *beg, *end;
501 /* Fields right before and after the point. */
502 Lisp_Object before_field, after_field;
503 /* 1 if POS counts as the start of a field. */
504 int at_field_start = 0;
505 /* 1 if POS counts as the end of a field. */
506 int at_field_end = 0;
508 if (NILP (pos))
509 XSETFASTINT (pos, PT);
510 else
511 CHECK_NUMBER_COERCE_MARKER (pos);
513 after_field
514 = get_char_property_and_overlay (pos, Qfield, Qnil, NULL);
515 before_field
516 = (XFASTINT (pos) > BEGV
517 ? get_char_property_and_overlay (make_number (XINT (pos) - 1),
518 Qfield, Qnil, NULL)
519 : Qnil);
521 /* See if we need to handle the case where MERGE_AT_BOUNDARY is nil
522 and POS is at beginning of a field, which can also be interpreted
523 as the end of the previous field. Note that the case where if
524 MERGE_AT_BOUNDARY is non-nil (see function comment) is actually the
525 more natural one; then we avoid treating the beginning of a field
526 specially. */
527 if (NILP (merge_at_boundary))
529 Lisp_Object field = get_pos_property (pos, Qfield, Qnil);
530 if (!EQ (field, after_field))
531 at_field_end = 1;
532 if (!EQ (field, before_field))
533 at_field_start = 1;
534 if (NILP (field) && at_field_start && at_field_end)
535 /* If an inserted char would have a nil field while the surrounding
536 text is non-nil, we're probably not looking at a
537 zero-length field, but instead at a non-nil field that's
538 not intended for editing (such as comint's prompts). */
539 at_field_end = at_field_start = 0;
542 /* Note about special `boundary' fields:
544 Consider the case where the point (`.') is between the fields `x' and `y':
546 xxxx.yyyy
548 In this situation, if merge_at_boundary is true, we consider the
549 `x' and `y' fields as forming one big merged field, and so the end
550 of the field is the end of `y'.
552 However, if `x' and `y' are separated by a special `boundary' field
553 (a field with a `field' char-property of 'boundary), then we ignore
554 this special field when merging adjacent fields. Here's the same
555 situation, but with a `boundary' field between the `x' and `y' fields:
557 xxx.BBBByyyy
559 Here, if point is at the end of `x', the beginning of `y', or
560 anywhere in-between (within the `boundary' field), we merge all
561 three fields and consider the beginning as being the beginning of
562 the `x' field, and the end as being the end of the `y' field. */
564 if (beg)
566 if (at_field_start)
567 /* POS is at the edge of a field, and we should consider it as
568 the beginning of the following field. */
569 *beg = XFASTINT (pos);
570 else
571 /* Find the previous field boundary. */
573 Lisp_Object p = pos;
574 if (!NILP (merge_at_boundary) && EQ (before_field, Qboundary))
575 /* Skip a `boundary' field. */
576 p = Fprevious_single_char_property_change (p, Qfield, Qnil,
577 beg_limit);
579 p = Fprevious_single_char_property_change (p, Qfield, Qnil,
580 beg_limit);
581 *beg = NILP (p) ? BEGV : XFASTINT (p);
585 if (end)
587 if (at_field_end)
588 /* POS is at the edge of a field, and we should consider it as
589 the end of the previous field. */
590 *end = XFASTINT (pos);
591 else
592 /* Find the next field boundary. */
594 if (!NILP (merge_at_boundary) && EQ (after_field, Qboundary))
595 /* Skip a `boundary' field. */
596 pos = Fnext_single_char_property_change (pos, Qfield, Qnil,
597 end_limit);
599 pos = Fnext_single_char_property_change (pos, Qfield, Qnil,
600 end_limit);
601 *end = NILP (pos) ? ZV : XFASTINT (pos);
607 DEFUN ("delete-field", Fdelete_field, Sdelete_field, 0, 1, 0,
608 doc: /* Delete the field surrounding POS.
609 A field is a region of text with the same `field' property.
610 If POS is nil, the value of point is used for POS. */)
611 (pos)
612 Lisp_Object pos;
614 int beg, end;
615 find_field (pos, Qnil, Qnil, &beg, Qnil, &end);
616 if (beg != end)
617 del_range (beg, end);
618 return Qnil;
621 DEFUN ("field-string", Ffield_string, Sfield_string, 0, 1, 0,
622 doc: /* Return the contents of the field surrounding POS as a string.
623 A field is a region of text with the same `field' property.
624 If POS is nil, the value of point is used for POS. */)
625 (pos)
626 Lisp_Object pos;
628 int beg, end;
629 find_field (pos, Qnil, Qnil, &beg, Qnil, &end);
630 return make_buffer_string (beg, end, 1);
633 DEFUN ("field-string-no-properties", Ffield_string_no_properties, Sfield_string_no_properties, 0, 1, 0,
634 doc: /* Return the contents of the field around POS, without text-properties.
635 A field is a region of text with the same `field' property.
636 If POS is nil, the value of point is used for POS. */)
637 (pos)
638 Lisp_Object pos;
640 int beg, end;
641 find_field (pos, Qnil, Qnil, &beg, Qnil, &end);
642 return make_buffer_string (beg, end, 0);
645 DEFUN ("field-beginning", Ffield_beginning, Sfield_beginning, 0, 3, 0,
646 doc: /* Return the beginning of the field surrounding POS.
647 A field is a region of text with the same `field' property.
648 If POS is nil, the value of point is used for POS.
649 If ESCAPE-FROM-EDGE is non-nil and POS is at the beginning of its
650 field, then the beginning of the *previous* field is returned.
651 If LIMIT is non-nil, it is a buffer position; if the beginning of the field
652 is before LIMIT, then LIMIT will be returned instead. */)
653 (pos, escape_from_edge, limit)
654 Lisp_Object pos, escape_from_edge, limit;
656 int beg;
657 find_field (pos, escape_from_edge, limit, &beg, Qnil, 0);
658 return make_number (beg);
661 DEFUN ("field-end", Ffield_end, Sfield_end, 0, 3, 0,
662 doc: /* Return the end of the field surrounding POS.
663 A field is a region of text with the same `field' property.
664 If POS is nil, the value of point is used for POS.
665 If ESCAPE-FROM-EDGE is non-nil and POS is at the end of its field,
666 then the end of the *following* field is returned.
667 If LIMIT is non-nil, it is a buffer position; if the end of the field
668 is after LIMIT, then LIMIT will be returned instead. */)
669 (pos, escape_from_edge, limit)
670 Lisp_Object pos, escape_from_edge, limit;
672 int end;
673 find_field (pos, escape_from_edge, Qnil, 0, limit, &end);
674 return make_number (end);
677 DEFUN ("constrain-to-field", Fconstrain_to_field, Sconstrain_to_field, 2, 5, 0,
678 doc: /* Return the position closest to NEW-POS that is in the same field as OLD-POS.
680 A field is a region of text with the same `field' property.
681 If NEW-POS is nil, then the current point is used instead, and set to the
682 constrained position if that is different.
684 If OLD-POS is at the boundary of two fields, then the allowable
685 positions for NEW-POS depends on the value of the optional argument
686 ESCAPE-FROM-EDGE: If ESCAPE-FROM-EDGE is nil, then NEW-POS is
687 constrained to the field that has the same `field' char-property
688 as any new characters inserted at OLD-POS, whereas if ESCAPE-FROM-EDGE
689 is non-nil, NEW-POS is constrained to the union of the two adjacent
690 fields. Additionally, if two fields are separated by another field with
691 the special value `boundary', then any point within this special field is
692 also considered to be `on the boundary'.
694 If the optional argument ONLY-IN-LINE is non-nil and constraining
695 NEW-POS would move it to a different line, NEW-POS is returned
696 unconstrained. This useful for commands that move by line, like
697 \\[next-line] or \\[beginning-of-line], which should generally respect field boundaries
698 only in the case where they can still move to the right line.
700 If the optional argument INHIBIT-CAPTURE-PROPERTY is non-nil, and OLD-POS has
701 a non-nil property of that name, then any field boundaries are ignored.
703 Field boundaries are not noticed if `inhibit-field-text-motion' is non-nil. */)
704 (new_pos, old_pos, escape_from_edge, only_in_line, inhibit_capture_property)
705 Lisp_Object new_pos, old_pos;
706 Lisp_Object escape_from_edge, only_in_line, inhibit_capture_property;
708 /* If non-zero, then the original point, before re-positioning. */
709 int orig_point = 0;
711 if (NILP (new_pos))
712 /* Use the current point, and afterwards, set it. */
714 orig_point = PT;
715 XSETFASTINT (new_pos, PT);
718 if (NILP (Vinhibit_field_text_motion)
719 && !EQ (new_pos, old_pos)
720 && (!NILP (Fget_char_property (new_pos, Qfield, Qnil))
721 || !NILP (Fget_char_property (old_pos, Qfield, Qnil)))
722 && (NILP (inhibit_capture_property)
723 || NILP (Fget_char_property(old_pos, inhibit_capture_property, Qnil))))
724 /* NEW_POS is not within the same field as OLD_POS; try to
725 move NEW_POS so that it is. */
727 int fwd, shortage;
728 Lisp_Object field_bound;
730 CHECK_NUMBER_COERCE_MARKER (new_pos);
731 CHECK_NUMBER_COERCE_MARKER (old_pos);
733 fwd = (XFASTINT (new_pos) > XFASTINT (old_pos));
735 if (fwd)
736 field_bound = Ffield_end (old_pos, escape_from_edge, new_pos);
737 else
738 field_bound = Ffield_beginning (old_pos, escape_from_edge, new_pos);
740 if (/* See if ESCAPE_FROM_EDGE caused FIELD_BOUND to jump to the
741 other side of NEW_POS, which would mean that NEW_POS is
742 already acceptable, and it's not necessary to constrain it
743 to FIELD_BOUND. */
744 ((XFASTINT (field_bound) < XFASTINT (new_pos)) ? fwd : !fwd)
745 /* NEW_POS should be constrained, but only if either
746 ONLY_IN_LINE is nil (in which case any constraint is OK),
747 or NEW_POS and FIELD_BOUND are on the same line (in which
748 case the constraint is OK even if ONLY_IN_LINE is non-nil). */
749 && (NILP (only_in_line)
750 /* This is the ONLY_IN_LINE case, check that NEW_POS and
751 FIELD_BOUND are on the same line by seeing whether
752 there's an intervening newline or not. */
753 || (scan_buffer ('\n',
754 XFASTINT (new_pos), XFASTINT (field_bound),
755 fwd ? -1 : 1, &shortage, 1),
756 shortage != 0)))
757 /* Constrain NEW_POS to FIELD_BOUND. */
758 new_pos = field_bound;
760 if (orig_point && XFASTINT (new_pos) != orig_point)
761 /* The NEW_POS argument was originally nil, so automatically set PT. */
762 SET_PT (XFASTINT (new_pos));
765 return new_pos;
769 DEFUN ("line-beginning-position",
770 Fline_beginning_position, Sline_beginning_position, 0, 1, 0,
771 doc: /* Return the character position of the first character on the current line.
772 With argument N not nil or 1, move forward N - 1 lines first.
773 If scan reaches end of buffer, return that position.
775 The scan does not cross a field boundary unless doing so would move
776 beyond there to a different line; if N is nil or 1, and scan starts at a
777 field boundary, the scan stops as soon as it starts. To ignore field
778 boundaries bind `inhibit-field-text-motion' to t.
780 This function does not move point. */)
782 Lisp_Object n;
784 int orig, orig_byte, end;
786 if (NILP (n))
787 XSETFASTINT (n, 1);
788 else
789 CHECK_NUMBER (n);
791 orig = PT;
792 orig_byte = PT_BYTE;
793 Fforward_line (make_number (XINT (n) - 1));
794 end = PT;
796 SET_PT_BOTH (orig, orig_byte);
798 /* Return END constrained to the current input field. */
799 return Fconstrain_to_field (make_number (end), make_number (orig),
800 XINT (n) != 1 ? Qt : Qnil,
801 Qt, Qnil);
804 DEFUN ("line-end-position", Fline_end_position, Sline_end_position, 0, 1, 0,
805 doc: /* Return the character position of the last character on the current line.
806 With argument N not nil or 1, move forward N - 1 lines first.
807 If scan reaches end of buffer, return that position.
809 The scan does not cross a field boundary unless doing so would move
810 beyond there to a different line; if N is nil or 1, and scan starts at a
811 field boundary, the scan stops as soon as it starts. To ignore field
812 boundaries bind `inhibit-field-text-motion' to t.
814 This function does not move point. */)
816 Lisp_Object n;
818 int end_pos;
819 int orig = PT;
821 if (NILP (n))
822 XSETFASTINT (n, 1);
823 else
824 CHECK_NUMBER (n);
826 end_pos = find_before_next_newline (orig, 0, XINT (n) - (XINT (n) <= 0));
828 /* Return END_POS constrained to the current input field. */
829 return Fconstrain_to_field (make_number (end_pos), make_number (orig),
830 Qnil, Qt, Qnil);
834 Lisp_Object
835 save_excursion_save ()
837 int visible = (XBUFFER (XWINDOW (selected_window)->buffer)
838 == current_buffer);
840 return Fcons (Fpoint_marker (),
841 Fcons (Fcopy_marker (current_buffer->mark, Qnil),
842 Fcons (visible ? Qt : Qnil,
843 Fcons (current_buffer->mark_active,
844 selected_window))));
847 Lisp_Object
848 save_excursion_restore (info)
849 Lisp_Object info;
851 Lisp_Object tem, tem1, omark, nmark;
852 struct gcpro gcpro1, gcpro2, gcpro3;
853 int visible_p;
855 tem = Fmarker_buffer (XCAR (info));
856 /* If buffer being returned to is now deleted, avoid error */
857 /* Otherwise could get error here while unwinding to top level
858 and crash */
859 /* In that case, Fmarker_buffer returns nil now. */
860 if (NILP (tem))
861 return Qnil;
863 omark = nmark = Qnil;
864 GCPRO3 (info, omark, nmark);
866 Fset_buffer (tem);
868 /* Point marker. */
869 tem = XCAR (info);
870 Fgoto_char (tem);
871 unchain_marker (tem);
873 /* Mark marker. */
874 info = XCDR (info);
875 tem = XCAR (info);
876 omark = Fmarker_position (current_buffer->mark);
877 Fset_marker (current_buffer->mark, tem, Fcurrent_buffer ());
878 nmark = Fmarker_position (tem);
879 unchain_marker (tem);
881 /* visible */
882 info = XCDR (info);
883 visible_p = !NILP (XCAR (info));
885 #if 0 /* We used to make the current buffer visible in the selected window
886 if that was true previously. That avoids some anomalies.
887 But it creates others, and it wasn't documented, and it is simpler
888 and cleaner never to alter the window/buffer connections. */
889 tem1 = Fcar (tem);
890 if (!NILP (tem1)
891 && current_buffer != XBUFFER (XWINDOW (selected_window)->buffer))
892 Fswitch_to_buffer (Fcurrent_buffer (), Qnil);
893 #endif /* 0 */
895 /* Mark active */
896 info = XCDR (info);
897 tem = XCAR (info);
898 tem1 = current_buffer->mark_active;
899 current_buffer->mark_active = tem;
901 if (!NILP (Vrun_hooks))
903 /* If mark is active now, and either was not active
904 or was at a different place, run the activate hook. */
905 if (! NILP (current_buffer->mark_active))
907 if (! EQ (omark, nmark))
908 call1 (Vrun_hooks, intern ("activate-mark-hook"));
910 /* If mark has ceased to be active, run deactivate hook. */
911 else if (! NILP (tem1))
912 call1 (Vrun_hooks, intern ("deactivate-mark-hook"));
915 /* If buffer was visible in a window, and a different window was
916 selected, and the old selected window is still showing this
917 buffer, restore point in that window. */
918 tem = XCDR (info);
919 if (visible_p
920 && !EQ (tem, selected_window)
921 && (tem1 = XWINDOW (tem)->buffer,
922 (/* Window is live... */
923 BUFFERP (tem1)
924 /* ...and it shows the current buffer. */
925 && XBUFFER (tem1) == current_buffer)))
926 Fset_window_point (tem, make_number (PT));
928 UNGCPRO;
929 return Qnil;
932 DEFUN ("save-excursion", Fsave_excursion, Ssave_excursion, 0, UNEVALLED, 0,
933 doc: /* Save point, mark, and current buffer; execute BODY; restore those things.
934 Executes BODY just like `progn'.
935 The values of point, mark and the current buffer are restored
936 even in case of abnormal exit (throw or error).
937 The state of activation of the mark is also restored.
939 This construct does not save `deactivate-mark', and therefore
940 functions that change the buffer will still cause deactivation
941 of the mark at the end of the command. To prevent that, bind
942 `deactivate-mark' with `let'.
944 usage: (save-excursion &rest BODY) */)
945 (args)
946 Lisp_Object args;
948 register Lisp_Object val;
949 int count = SPECPDL_INDEX ();
951 record_unwind_protect (save_excursion_restore, save_excursion_save ());
953 val = Fprogn (args);
954 return unbind_to (count, val);
957 DEFUN ("save-current-buffer", Fsave_current_buffer, Ssave_current_buffer, 0, UNEVALLED, 0,
958 doc: /* Save the current buffer; execute BODY; restore the current buffer.
959 Executes BODY just like `progn'.
960 usage: (save-current-buffer &rest BODY) */)
961 (args)
962 Lisp_Object args;
964 Lisp_Object val;
965 int count = SPECPDL_INDEX ();
967 record_unwind_protect (set_buffer_if_live, Fcurrent_buffer ());
969 val = Fprogn (args);
970 return unbind_to (count, val);
973 DEFUN ("buffer-size", Fbufsize, Sbufsize, 0, 1, 0,
974 doc: /* Return the number of characters in the current buffer.
975 If BUFFER, return the number of characters in that buffer instead. */)
976 (buffer)
977 Lisp_Object buffer;
979 if (NILP (buffer))
980 return make_number (Z - BEG);
981 else
983 CHECK_BUFFER (buffer);
984 return make_number (BUF_Z (XBUFFER (buffer))
985 - BUF_BEG (XBUFFER (buffer)));
989 DEFUN ("point-min", Fpoint_min, Spoint_min, 0, 0, 0,
990 doc: /* Return the minimum permissible value of point in the current buffer.
991 This is 1, unless narrowing (a buffer restriction) is in effect. */)
994 Lisp_Object temp;
995 XSETFASTINT (temp, BEGV);
996 return temp;
999 DEFUN ("point-min-marker", Fpoint_min_marker, Spoint_min_marker, 0, 0, 0,
1000 doc: /* Return a marker to the minimum permissible value of point in this buffer.
1001 This is the beginning, unless narrowing (a buffer restriction) is in effect. */)
1004 return buildmark (BEGV, BEGV_BYTE);
1007 DEFUN ("point-max", Fpoint_max, Spoint_max, 0, 0, 0,
1008 doc: /* Return the maximum permissible value of point in the current buffer.
1009 This is (1+ (buffer-size)), unless narrowing (a buffer restriction)
1010 is in effect, in which case it is less. */)
1013 Lisp_Object temp;
1014 XSETFASTINT (temp, ZV);
1015 return temp;
1018 DEFUN ("point-max-marker", Fpoint_max_marker, Spoint_max_marker, 0, 0, 0,
1019 doc: /* Return a marker to the maximum permissible value of point in this buffer.
1020 This is (1+ (buffer-size)), unless narrowing (a buffer restriction)
1021 is in effect, in which case it is less. */)
1024 return buildmark (ZV, ZV_BYTE);
1027 DEFUN ("gap-position", Fgap_position, Sgap_position, 0, 0, 0,
1028 doc: /* Return the position of the gap, in the current buffer.
1029 See also `gap-size'. */)
1032 Lisp_Object temp;
1033 XSETFASTINT (temp, GPT);
1034 return temp;
1037 DEFUN ("gap-size", Fgap_size, Sgap_size, 0, 0, 0,
1038 doc: /* Return the size of the current buffer's gap.
1039 See also `gap-position'. */)
1042 Lisp_Object temp;
1043 XSETFASTINT (temp, GAP_SIZE);
1044 return temp;
1047 DEFUN ("position-bytes", Fposition_bytes, Sposition_bytes, 1, 1, 0,
1048 doc: /* Return the byte position for character position POSITION.
1049 If POSITION is out of range, the value is nil. */)
1050 (position)
1051 Lisp_Object position;
1053 CHECK_NUMBER_COERCE_MARKER (position);
1054 if (XINT (position) < BEG || XINT (position) > Z)
1055 return Qnil;
1056 return make_number (CHAR_TO_BYTE (XINT (position)));
1059 DEFUN ("byte-to-position", Fbyte_to_position, Sbyte_to_position, 1, 1, 0,
1060 doc: /* Return the character position for byte position BYTEPOS.
1061 If BYTEPOS is out of range, the value is nil. */)
1062 (bytepos)
1063 Lisp_Object bytepos;
1065 CHECK_NUMBER (bytepos);
1066 if (XINT (bytepos) < BEG_BYTE || XINT (bytepos) > Z_BYTE)
1067 return Qnil;
1068 return make_number (BYTE_TO_CHAR (XINT (bytepos)));
1071 DEFUN ("following-char", Ffollowing_char, Sfollowing_char, 0, 0, 0,
1072 doc: /* Return the character following point, as a number.
1073 At the end of the buffer or accessible region, return 0. */)
1076 Lisp_Object temp;
1077 if (PT >= ZV)
1078 XSETFASTINT (temp, 0);
1079 else
1080 XSETFASTINT (temp, FETCH_CHAR (PT_BYTE));
1081 return temp;
1084 DEFUN ("preceding-char", Fprevious_char, Sprevious_char, 0, 0, 0,
1085 doc: /* Return the character preceding point, as a number.
1086 At the beginning of the buffer or accessible region, return 0. */)
1089 Lisp_Object temp;
1090 if (PT <= BEGV)
1091 XSETFASTINT (temp, 0);
1092 else if (!NILP (current_buffer->enable_multibyte_characters))
1094 int pos = PT_BYTE;
1095 DEC_POS (pos);
1096 XSETFASTINT (temp, FETCH_CHAR (pos));
1098 else
1099 XSETFASTINT (temp, FETCH_BYTE (PT_BYTE - 1));
1100 return temp;
1103 DEFUN ("bobp", Fbobp, Sbobp, 0, 0, 0,
1104 doc: /* Return t if point is at the beginning of the buffer.
1105 If the buffer is narrowed, this means the beginning of the narrowed part. */)
1108 if (PT == BEGV)
1109 return Qt;
1110 return Qnil;
1113 DEFUN ("eobp", Feobp, Seobp, 0, 0, 0,
1114 doc: /* Return t if point is at the end of the buffer.
1115 If the buffer is narrowed, this means the end of the narrowed part. */)
1118 if (PT == ZV)
1119 return Qt;
1120 return Qnil;
1123 DEFUN ("bolp", Fbolp, Sbolp, 0, 0, 0,
1124 doc: /* Return t if point is at the beginning of a line. */)
1127 if (PT == BEGV || FETCH_BYTE (PT_BYTE - 1) == '\n')
1128 return Qt;
1129 return Qnil;
1132 DEFUN ("eolp", Feolp, Seolp, 0, 0, 0,
1133 doc: /* Return t if point is at the end of a line.
1134 `End of a line' includes point being at the end of the buffer. */)
1137 if (PT == ZV || FETCH_BYTE (PT_BYTE) == '\n')
1138 return Qt;
1139 return Qnil;
1142 DEFUN ("char-after", Fchar_after, Schar_after, 0, 1, 0,
1143 doc: /* Return character in current buffer at position POS.
1144 POS is an integer or a marker.
1145 If POS is out of range, the value is nil. */)
1146 (pos)
1147 Lisp_Object pos;
1149 register int pos_byte;
1151 if (NILP (pos))
1153 pos_byte = PT_BYTE;
1154 XSETFASTINT (pos, PT);
1157 if (MARKERP (pos))
1159 pos_byte = marker_byte_position (pos);
1160 if (pos_byte < BEGV_BYTE || pos_byte >= ZV_BYTE)
1161 return Qnil;
1163 else
1165 CHECK_NUMBER_COERCE_MARKER (pos);
1166 if (XINT (pos) < BEGV || XINT (pos) >= ZV)
1167 return Qnil;
1169 pos_byte = CHAR_TO_BYTE (XINT (pos));
1172 return make_number (FETCH_CHAR (pos_byte));
1175 DEFUN ("char-before", Fchar_before, Schar_before, 0, 1, 0,
1176 doc: /* Return character in current buffer preceding position POS.
1177 POS is an integer or a marker.
1178 If POS is out of range, the value is nil. */)
1179 (pos)
1180 Lisp_Object pos;
1182 register Lisp_Object val;
1183 register int pos_byte;
1185 if (NILP (pos))
1187 pos_byte = PT_BYTE;
1188 XSETFASTINT (pos, PT);
1191 if (MARKERP (pos))
1193 pos_byte = marker_byte_position (pos);
1195 if (pos_byte <= BEGV_BYTE || pos_byte > ZV_BYTE)
1196 return Qnil;
1198 else
1200 CHECK_NUMBER_COERCE_MARKER (pos);
1202 if (XINT (pos) <= BEGV || XINT (pos) > ZV)
1203 return Qnil;
1205 pos_byte = CHAR_TO_BYTE (XINT (pos));
1208 if (!NILP (current_buffer->enable_multibyte_characters))
1210 DEC_POS (pos_byte);
1211 XSETFASTINT (val, FETCH_CHAR (pos_byte));
1213 else
1215 pos_byte--;
1216 XSETFASTINT (val, FETCH_BYTE (pos_byte));
1218 return val;
1221 DEFUN ("user-login-name", Fuser_login_name, Suser_login_name, 0, 1, 0,
1222 doc: /* Return the name under which the user logged in, as a string.
1223 This is based on the effective uid, not the real uid.
1224 Also, if the environment variable LOGNAME or USER is set,
1225 that determines the value of this function.
1227 If optional argument UID is an integer, return the login name of the user
1228 with that uid, or nil if there is no such user. */)
1229 (uid)
1230 Lisp_Object uid;
1232 struct passwd *pw;
1234 /* Set up the user name info if we didn't do it before.
1235 (That can happen if Emacs is dumpable
1236 but you decide to run `temacs -l loadup' and not dump. */
1237 if (INTEGERP (Vuser_login_name))
1238 init_editfns ();
1240 if (NILP (uid))
1241 return Vuser_login_name;
1243 CHECK_NUMBER (uid);
1244 pw = (struct passwd *) getpwuid (XINT (uid));
1245 return (pw ? build_string (pw->pw_name) : Qnil);
1248 DEFUN ("user-real-login-name", Fuser_real_login_name, Suser_real_login_name,
1249 0, 0, 0,
1250 doc: /* Return the name of the user's real uid, as a string.
1251 This ignores the environment variables LOGNAME and USER, so it differs from
1252 `user-login-name' when running under `su'. */)
1255 /* Set up the user name info if we didn't do it before.
1256 (That can happen if Emacs is dumpable
1257 but you decide to run `temacs -l loadup' and not dump. */
1258 if (INTEGERP (Vuser_login_name))
1259 init_editfns ();
1260 return Vuser_real_login_name;
1263 DEFUN ("user-uid", Fuser_uid, Suser_uid, 0, 0, 0,
1264 doc: /* Return the effective uid of Emacs.
1265 Value is an integer or float, depending on the value. */)
1268 return make_fixnum_or_float (geteuid ());
1271 DEFUN ("user-real-uid", Fuser_real_uid, Suser_real_uid, 0, 0, 0,
1272 doc: /* Return the real uid of Emacs.
1273 Value is an integer or float, depending on the value. */)
1276 return make_fixnum_or_float (getuid ());
1279 DEFUN ("user-full-name", Fuser_full_name, Suser_full_name, 0, 1, 0,
1280 doc: /* Return the full name of the user logged in, as a string.
1281 If the full name corresponding to Emacs's userid is not known,
1282 return "unknown".
1284 If optional argument UID is an integer or float, return the full name
1285 of the user with that uid, or nil if there is no such user.
1286 If UID is a string, return the full name of the user with that login
1287 name, or nil if there is no such user. */)
1288 (uid)
1289 Lisp_Object uid;
1291 struct passwd *pw;
1292 register unsigned char *p, *q;
1293 Lisp_Object full;
1295 if (NILP (uid))
1296 return Vuser_full_name;
1297 else if (NUMBERP (uid))
1298 pw = (struct passwd *) getpwuid ((uid_t) XFLOATINT (uid));
1299 else if (STRINGP (uid))
1300 pw = (struct passwd *) getpwnam (SDATA (uid));
1301 else
1302 error ("Invalid UID specification");
1304 if (!pw)
1305 return Qnil;
1307 p = (unsigned char *) USER_FULL_NAME;
1308 /* Chop off everything after the first comma. */
1309 q = (unsigned char *) index (p, ',');
1310 full = make_string (p, q ? q - p : strlen (p));
1312 #ifdef AMPERSAND_FULL_NAME
1313 p = SDATA (full);
1314 q = (unsigned char *) index (p, '&');
1315 /* Substitute the login name for the &, upcasing the first character. */
1316 if (q)
1318 register unsigned char *r;
1319 Lisp_Object login;
1321 login = Fuser_login_name (make_number (pw->pw_uid));
1322 r = (unsigned char *) alloca (strlen (p) + SCHARS (login) + 1);
1323 bcopy (p, r, q - p);
1324 r[q - p] = 0;
1325 strcat (r, SDATA (login));
1326 r[q - p] = UPCASE (r[q - p]);
1327 strcat (r, q + 1);
1328 full = build_string (r);
1330 #endif /* AMPERSAND_FULL_NAME */
1332 return full;
1335 DEFUN ("system-name", Fsystem_name, Ssystem_name, 0, 0, 0,
1336 doc: /* Return the name of the machine you are running on, as a string. */)
1339 return Vsystem_name;
1342 /* For the benefit of callers who don't want to include lisp.h */
1344 char *
1345 get_system_name ()
1347 if (STRINGP (Vsystem_name))
1348 return (char *) SDATA (Vsystem_name);
1349 else
1350 return "";
1353 DEFUN ("emacs-pid", Femacs_pid, Semacs_pid, 0, 0, 0,
1354 doc: /* Return the process ID of Emacs, as an integer. */)
1357 return make_number (getpid ());
1360 DEFUN ("current-time", Fcurrent_time, Scurrent_time, 0, 0, 0,
1361 doc: /* Return the current time, as the number of seconds since 1970-01-01 00:00:00.
1362 The time is returned as a list of three integers. The first has the
1363 most significant 16 bits of the seconds, while the second has the
1364 least significant 16 bits. The third integer gives the microsecond
1365 count.
1367 The microsecond count is zero on systems that do not provide
1368 resolution finer than a second. */)
1371 EMACS_TIME t;
1372 Lisp_Object result[3];
1374 EMACS_GET_TIME (t);
1375 XSETINT (result[0], (EMACS_SECS (t) >> 16) & 0xffff);
1376 XSETINT (result[1], (EMACS_SECS (t) >> 0) & 0xffff);
1377 XSETINT (result[2], EMACS_USECS (t));
1379 return Flist (3, result);
1383 static int
1384 lisp_time_argument (specified_time, result, usec)
1385 Lisp_Object specified_time;
1386 time_t *result;
1387 int *usec;
1389 if (NILP (specified_time))
1391 if (usec)
1393 EMACS_TIME t;
1395 EMACS_GET_TIME (t);
1396 *usec = EMACS_USECS (t);
1397 *result = EMACS_SECS (t);
1398 return 1;
1400 else
1401 return time (result) != -1;
1403 else
1405 Lisp_Object high, low;
1406 high = Fcar (specified_time);
1407 CHECK_NUMBER (high);
1408 low = Fcdr (specified_time);
1409 if (CONSP (low))
1411 if (usec)
1413 Lisp_Object usec_l = Fcdr (low);
1414 if (CONSP (usec_l))
1415 usec_l = Fcar (usec_l);
1416 if (NILP (usec_l))
1417 *usec = 0;
1418 else
1420 CHECK_NUMBER (usec_l);
1421 *usec = XINT (usec_l);
1424 low = Fcar (low);
1426 else if (usec)
1427 *usec = 0;
1428 CHECK_NUMBER (low);
1429 *result = (XINT (high) << 16) + (XINT (low) & 0xffff);
1430 return *result >> 16 == XINT (high);
1434 DEFUN ("float-time", Ffloat_time, Sfloat_time, 0, 1, 0,
1435 doc: /* Return the current time, as a float number of seconds since the epoch.
1436 If an argument is given, it specifies a time to convert to float
1437 instead of the current time. The argument should have the forms:
1438 (HIGH . LOW) or (HIGH LOW USEC) or (HIGH LOW . USEC).
1439 Thus, you can use times obtained from `current-time'
1440 and from `file-attributes'.
1442 WARNING: Since the result is floating point, it may not be exact.
1443 Do not use this function if precise time stamps are required. */)
1444 (specified_time)
1445 Lisp_Object specified_time;
1447 time_t sec;
1448 int usec;
1450 if (! lisp_time_argument (specified_time, &sec, &usec))
1451 error ("Invalid time specification");
1453 return make_float ((sec * 1e6 + usec) / 1e6);
1456 /* Write information into buffer S of size MAXSIZE, according to the
1457 FORMAT of length FORMAT_LEN, using time information taken from *TP.
1458 Default to Universal Time if UT is nonzero, local time otherwise.
1459 Return the number of bytes written, not including the terminating
1460 '\0'. If S is NULL, nothing will be written anywhere; so to
1461 determine how many bytes would be written, use NULL for S and
1462 ((size_t) -1) for MAXSIZE.
1464 This function behaves like emacs_strftimeu, except it allows null
1465 bytes in FORMAT. */
1466 static size_t
1467 emacs_memftimeu (s, maxsize, format, format_len, tp, ut)
1468 char *s;
1469 size_t maxsize;
1470 const char *format;
1471 size_t format_len;
1472 const struct tm *tp;
1473 int ut;
1475 size_t total = 0;
1477 /* Loop through all the null-terminated strings in the format
1478 argument. Normally there's just one null-terminated string, but
1479 there can be arbitrarily many, concatenated together, if the
1480 format contains '\0' bytes. emacs_strftimeu stops at the first
1481 '\0' byte so we must invoke it separately for each such string. */
1482 for (;;)
1484 size_t len;
1485 size_t result;
1487 if (s)
1488 s[0] = '\1';
1490 result = emacs_strftimeu (s, maxsize, format, tp, ut);
1492 if (s)
1494 if (result == 0 && s[0] != '\0')
1495 return 0;
1496 s += result + 1;
1499 maxsize -= result + 1;
1500 total += result;
1501 len = strlen (format);
1502 if (len == format_len)
1503 return total;
1504 total++;
1505 format += len + 1;
1506 format_len -= len + 1;
1510 DEFUN ("format-time-string", Fformat_time_string, Sformat_time_string, 1, 3, 0,
1511 doc: /* Use FORMAT-STRING to format the time TIME, or now if omitted.
1512 TIME is specified as (HIGH LOW . IGNORED) or (HIGH . LOW), as returned by
1513 `current-time' or `file-attributes'.
1514 The third, optional, argument UNIVERSAL, if non-nil, means describe TIME
1515 as Universal Time; nil means describe TIME in the local time zone.
1516 The value is a copy of FORMAT-STRING, but with certain constructs replaced
1517 by text that describes the specified date and time in TIME:
1519 %Y is the year, %y within the century, %C the century.
1520 %G is the year corresponding to the ISO week, %g within the century.
1521 %m is the numeric month.
1522 %b and %h are the locale's abbreviated month name, %B the full name.
1523 %d is the day of the month, zero-padded, %e is blank-padded.
1524 %u is the numeric day of week from 1 (Monday) to 7, %w from 0 (Sunday) to 6.
1525 %a is the locale's abbreviated name of the day of week, %A the full name.
1526 %U is the week number starting on Sunday, %W starting on Monday,
1527 %V according to ISO 8601.
1528 %j is the day of the year.
1530 %H is the hour on a 24-hour clock, %I is on a 12-hour clock, %k is like %H
1531 only blank-padded, %l is like %I blank-padded.
1532 %p is the locale's equivalent of either AM or PM.
1533 %M is the minute.
1534 %S is the second.
1535 %Z is the time zone name, %z is the numeric form.
1536 %s is the number of seconds since 1970-01-01 00:00:00 +0000.
1538 %c is the locale's date and time format.
1539 %x is the locale's "preferred" date format.
1540 %D is like "%m/%d/%y".
1542 %R is like "%H:%M", %T is like "%H:%M:%S", %r is like "%I:%M:%S %p".
1543 %X is the locale's "preferred" time format.
1545 Finally, %n is a newline, %t is a tab, %% is a literal %.
1547 Certain flags and modifiers are available with some format controls.
1548 The flags are `_', `-', `^' and `#'. For certain characters X,
1549 %_X is like %X, but padded with blanks; %-X is like %X,
1550 but without padding. %^X is like %X, but with all textual
1551 characters up-cased; %#X is like %X, but with letter-case of
1552 all textual characters reversed.
1553 %NX (where N stands for an integer) is like %X,
1554 but takes up at least N (a number) positions.
1555 The modifiers are `E' and `O'. For certain characters X,
1556 %EX is a locale's alternative version of %X;
1557 %OX is like %X, but uses the locale's number symbols.
1559 For example, to produce full ISO 8601 format, use "%Y-%m-%dT%T%z". */)
1560 (format_string, time, universal)
1561 Lisp_Object format_string, time, universal;
1563 time_t value;
1564 int size;
1565 struct tm *tm;
1566 int ut = ! NILP (universal);
1568 CHECK_STRING (format_string);
1570 if (! lisp_time_argument (time, &value, NULL))
1571 error ("Invalid time specification");
1573 format_string = code_convert_string_norecord (format_string,
1574 Vlocale_coding_system, 1);
1576 /* This is probably enough. */
1577 size = SBYTES (format_string) * 6 + 50;
1579 tm = ut ? gmtime (&value) : localtime (&value);
1580 if (! tm)
1581 error ("Specified time is not representable");
1583 synchronize_system_time_locale ();
1585 while (1)
1587 char *buf = (char *) alloca (size + 1);
1588 int result;
1590 buf[0] = '\1';
1591 result = emacs_memftimeu (buf, size, SDATA (format_string),
1592 SBYTES (format_string),
1593 tm, ut);
1594 if ((result > 0 && result < size) || (result == 0 && buf[0] == '\0'))
1595 return code_convert_string_norecord (make_string (buf, result),
1596 Vlocale_coding_system, 0);
1598 /* If buffer was too small, make it bigger and try again. */
1599 result = emacs_memftimeu (NULL, (size_t) -1,
1600 SDATA (format_string),
1601 SBYTES (format_string),
1602 tm, ut);
1603 size = result + 1;
1607 DEFUN ("decode-time", Fdecode_time, Sdecode_time, 0, 1, 0,
1608 doc: /* Decode a time value as (SEC MINUTE HOUR DAY MONTH YEAR DOW DST ZONE).
1609 The optional SPECIFIED-TIME should be a list of (HIGH LOW . IGNORED)
1610 or (HIGH . LOW), as from `current-time' and `file-attributes', or `nil'
1611 to use the current time. The list has the following nine members:
1612 SEC is an integer between 0 and 60; SEC is 60 for a leap second, which
1613 only some operating systems support. MINUTE is an integer between 0 and 59.
1614 HOUR is an integer between 0 and 23. DAY is an integer between 1 and 31.
1615 MONTH is an integer between 1 and 12. YEAR is an integer indicating the
1616 four-digit year. DOW is the day of week, an integer between 0 and 6, where
1617 0 is Sunday. DST is t if daylight savings time is effect, otherwise nil.
1618 ZONE is an integer indicating the number of seconds east of Greenwich.
1619 (Note that Common Lisp has different meanings for DOW and ZONE.) */)
1620 (specified_time)
1621 Lisp_Object specified_time;
1623 time_t time_spec;
1624 struct tm save_tm;
1625 struct tm *decoded_time;
1626 Lisp_Object list_args[9];
1628 if (! lisp_time_argument (specified_time, &time_spec, NULL))
1629 error ("Invalid time specification");
1631 decoded_time = localtime (&time_spec);
1632 if (! decoded_time)
1633 error ("Specified time is not representable");
1634 XSETFASTINT (list_args[0], decoded_time->tm_sec);
1635 XSETFASTINT (list_args[1], decoded_time->tm_min);
1636 XSETFASTINT (list_args[2], decoded_time->tm_hour);
1637 XSETFASTINT (list_args[3], decoded_time->tm_mday);
1638 XSETFASTINT (list_args[4], decoded_time->tm_mon + 1);
1639 XSETINT (list_args[5], decoded_time->tm_year + 1900);
1640 XSETFASTINT (list_args[6], decoded_time->tm_wday);
1641 list_args[7] = (decoded_time->tm_isdst)? Qt : Qnil;
1643 /* Make a copy, in case gmtime modifies the struct. */
1644 save_tm = *decoded_time;
1645 decoded_time = gmtime (&time_spec);
1646 if (decoded_time == 0)
1647 list_args[8] = Qnil;
1648 else
1649 XSETINT (list_args[8], tm_diff (&save_tm, decoded_time));
1650 return Flist (9, list_args);
1653 DEFUN ("encode-time", Fencode_time, Sencode_time, 6, MANY, 0,
1654 doc: /* Convert SECOND, MINUTE, HOUR, DAY, MONTH, YEAR and ZONE to internal time.
1655 This is the reverse operation of `decode-time', which see.
1656 ZONE defaults to the current time zone rule. This can
1657 be a string or t (as from `set-time-zone-rule'), or it can be a list
1658 \(as from `current-time-zone') or an integer (as from `decode-time')
1659 applied without consideration for daylight savings time.
1661 You can pass more than 7 arguments; then the first six arguments
1662 are used as SECOND through YEAR, and the *last* argument is used as ZONE.
1663 The intervening arguments are ignored.
1664 This feature lets (apply 'encode-time (decode-time ...)) work.
1666 Out-of-range values for SEC, MINUTE, HOUR, DAY, or MONTH are allowed;
1667 for example, a DAY of 0 means the day preceding the given month.
1668 Year numbers less than 100 are treated just like other year numbers.
1669 If you want them to stand for years in this century, you must do that yourself.
1671 usage: (encode-time SECOND MINUTE HOUR DAY MONTH YEAR &optional ZONE) */)
1672 (nargs, args)
1673 int nargs;
1674 register Lisp_Object *args;
1676 time_t time;
1677 struct tm tm;
1678 Lisp_Object zone = (nargs > 6 ? args[nargs - 1] : Qnil);
1680 CHECK_NUMBER (args[0]); /* second */
1681 CHECK_NUMBER (args[1]); /* minute */
1682 CHECK_NUMBER (args[2]); /* hour */
1683 CHECK_NUMBER (args[3]); /* day */
1684 CHECK_NUMBER (args[4]); /* month */
1685 CHECK_NUMBER (args[5]); /* year */
1687 tm.tm_sec = XINT (args[0]);
1688 tm.tm_min = XINT (args[1]);
1689 tm.tm_hour = XINT (args[2]);
1690 tm.tm_mday = XINT (args[3]);
1691 tm.tm_mon = XINT (args[4]) - 1;
1692 tm.tm_year = XINT (args[5]) - 1900;
1693 tm.tm_isdst = -1;
1695 if (CONSP (zone))
1696 zone = Fcar (zone);
1697 if (NILP (zone))
1698 time = mktime (&tm);
1699 else
1701 char tzbuf[100];
1702 char *tzstring;
1703 char **oldenv = environ, **newenv;
1705 if (EQ (zone, Qt))
1706 tzstring = "UTC0";
1707 else if (STRINGP (zone))
1708 tzstring = (char *) SDATA (zone);
1709 else if (INTEGERP (zone))
1711 int abszone = abs (XINT (zone));
1712 sprintf (tzbuf, "XXX%s%d:%02d:%02d", "-" + (XINT (zone) < 0),
1713 abszone / (60*60), (abszone/60) % 60, abszone % 60);
1714 tzstring = tzbuf;
1716 else
1717 error ("Invalid time zone specification");
1719 /* Set TZ before calling mktime; merely adjusting mktime's returned
1720 value doesn't suffice, since that would mishandle leap seconds. */
1721 set_time_zone_rule (tzstring);
1723 time = mktime (&tm);
1725 /* Restore TZ to previous value. */
1726 newenv = environ;
1727 environ = oldenv;
1728 xfree (newenv);
1729 #ifdef LOCALTIME_CACHE
1730 tzset ();
1731 #endif
1734 if (time == (time_t) -1)
1735 error ("Specified time is not representable");
1737 return make_time (time);
1740 DEFUN ("current-time-string", Fcurrent_time_string, Scurrent_time_string, 0, 1, 0,
1741 doc: /* Return the current time, as a human-readable string.
1742 Programs can use this function to decode a time,
1743 since the number of columns in each field is fixed.
1744 The format is `Sun Sep 16 01:03:52 1973'.
1745 However, see also the functions `decode-time' and `format-time-string'
1746 which provide a much more powerful and general facility.
1748 If an argument is given, it specifies a time to format
1749 instead of the current time. The argument should have the form:
1750 (HIGH . LOW)
1751 or the form:
1752 (HIGH LOW . IGNORED).
1753 Thus, you can use times obtained from `current-time'
1754 and from `file-attributes'. */)
1755 (specified_time)
1756 Lisp_Object specified_time;
1758 time_t value;
1759 char buf[30];
1760 register char *tem;
1762 if (! lisp_time_argument (specified_time, &value, NULL))
1763 value = -1;
1764 tem = (char *) ctime (&value);
1766 strncpy (buf, tem, 24);
1767 buf[24] = 0;
1769 return build_string (buf);
1772 #define TM_YEAR_BASE 1900
1774 /* Yield A - B, measured in seconds.
1775 This function is copied from the GNU C Library. */
1776 static int
1777 tm_diff (a, b)
1778 struct tm *a, *b;
1780 /* Compute intervening leap days correctly even if year is negative.
1781 Take care to avoid int overflow in leap day calculations,
1782 but it's OK to assume that A and B are close to each other. */
1783 int a4 = (a->tm_year >> 2) + (TM_YEAR_BASE >> 2) - ! (a->tm_year & 3);
1784 int b4 = (b->tm_year >> 2) + (TM_YEAR_BASE >> 2) - ! (b->tm_year & 3);
1785 int a100 = a4 / 25 - (a4 % 25 < 0);
1786 int b100 = b4 / 25 - (b4 % 25 < 0);
1787 int a400 = a100 >> 2;
1788 int b400 = b100 >> 2;
1789 int intervening_leap_days = (a4 - b4) - (a100 - b100) + (a400 - b400);
1790 int years = a->tm_year - b->tm_year;
1791 int days = (365 * years + intervening_leap_days
1792 + (a->tm_yday - b->tm_yday));
1793 return (60 * (60 * (24 * days + (a->tm_hour - b->tm_hour))
1794 + (a->tm_min - b->tm_min))
1795 + (a->tm_sec - b->tm_sec));
1798 DEFUN ("current-time-zone", Fcurrent_time_zone, Scurrent_time_zone, 0, 1, 0,
1799 doc: /* Return the offset and name for the local time zone.
1800 This returns a list of the form (OFFSET NAME).
1801 OFFSET is an integer number of seconds ahead of UTC (east of Greenwich).
1802 A negative value means west of Greenwich.
1803 NAME is a string giving the name of the time zone.
1804 If an argument is given, it specifies when the time zone offset is determined
1805 instead of using the current time. The argument should have the form:
1806 (HIGH . LOW)
1807 or the form:
1808 (HIGH LOW . IGNORED).
1809 Thus, you can use times obtained from `current-time'
1810 and from `file-attributes'.
1812 Some operating systems cannot provide all this information to Emacs;
1813 in this case, `current-time-zone' returns a list containing nil for
1814 the data it can't find. */)
1815 (specified_time)
1816 Lisp_Object specified_time;
1818 time_t value;
1819 struct tm *t;
1820 struct tm gmt;
1822 if (lisp_time_argument (specified_time, &value, NULL)
1823 && (t = gmtime (&value)) != 0
1824 && (gmt = *t, t = localtime (&value)) != 0)
1826 int offset = tm_diff (t, &gmt);
1827 char *s = 0;
1828 char buf[6];
1829 #ifdef HAVE_TM_ZONE
1830 if (t->tm_zone)
1831 s = (char *)t->tm_zone;
1832 #else /* not HAVE_TM_ZONE */
1833 #ifdef HAVE_TZNAME
1834 if (t->tm_isdst == 0 || t->tm_isdst == 1)
1835 s = tzname[t->tm_isdst];
1836 #endif
1837 #endif /* not HAVE_TM_ZONE */
1839 #if defined HAVE_TM_ZONE || defined HAVE_TZNAME
1840 if (s)
1842 /* On Japanese w32, we can get a Japanese string as time
1843 zone name. Don't accept that. */
1844 char *p;
1845 for (p = s; *p && (isalnum ((unsigned char)*p) || *p == ' '); ++p)
1847 if (p == s || *p)
1848 s = NULL;
1850 #endif
1852 if (!s)
1854 /* No local time zone name is available; use "+-NNNN" instead. */
1855 int am = (offset < 0 ? -offset : offset) / 60;
1856 sprintf (buf, "%c%02d%02d", (offset < 0 ? '-' : '+'), am/60, am%60);
1857 s = buf;
1859 return Fcons (make_number (offset), Fcons (build_string (s), Qnil));
1861 else
1862 return Fmake_list (make_number (2), Qnil);
1865 /* This holds the value of `environ' produced by the previous
1866 call to Fset_time_zone_rule, or 0 if Fset_time_zone_rule
1867 has never been called. */
1868 static char **environbuf;
1870 DEFUN ("set-time-zone-rule", Fset_time_zone_rule, Sset_time_zone_rule, 1, 1, 0,
1871 doc: /* Set the local time zone using TZ, a string specifying a time zone rule.
1872 If TZ is nil, use implementation-defined default time zone information.
1873 If TZ is t, use Universal Time. */)
1874 (tz)
1875 Lisp_Object tz;
1877 char *tzstring;
1879 if (NILP (tz))
1880 tzstring = 0;
1881 else if (EQ (tz, Qt))
1882 tzstring = "UTC0";
1883 else
1885 CHECK_STRING (tz);
1886 tzstring = (char *) SDATA (tz);
1889 set_time_zone_rule (tzstring);
1890 if (environbuf)
1891 free (environbuf);
1892 environbuf = environ;
1894 return Qnil;
1897 #ifdef LOCALTIME_CACHE
1899 /* These two values are known to load tz files in buggy implementations,
1900 i.e. Solaris 1 executables running under either Solaris 1 or Solaris 2.
1901 Their values shouldn't matter in non-buggy implementations.
1902 We don't use string literals for these strings,
1903 since if a string in the environment is in readonly
1904 storage, it runs afoul of bugs in SVR4 and Solaris 2.3.
1905 See Sun bugs 1113095 and 1114114, ``Timezone routines
1906 improperly modify environment''. */
1908 static char set_time_zone_rule_tz1[] = "TZ=GMT+0";
1909 static char set_time_zone_rule_tz2[] = "TZ=GMT+1";
1911 #endif
1913 /* Set the local time zone rule to TZSTRING.
1914 This allocates memory into `environ', which it is the caller's
1915 responsibility to free. */
1917 void
1918 set_time_zone_rule (tzstring)
1919 char *tzstring;
1921 int envptrs;
1922 char **from, **to, **newenv;
1924 /* Make the ENVIRON vector longer with room for TZSTRING. */
1925 for (from = environ; *from; from++)
1926 continue;
1927 envptrs = from - environ + 2;
1928 newenv = to = (char **) xmalloc (envptrs * sizeof (char *)
1929 + (tzstring ? strlen (tzstring) + 4 : 0));
1931 /* Add TZSTRING to the end of environ, as a value for TZ. */
1932 if (tzstring)
1934 char *t = (char *) (to + envptrs);
1935 strcpy (t, "TZ=");
1936 strcat (t, tzstring);
1937 *to++ = t;
1940 /* Copy the old environ vector elements into NEWENV,
1941 but don't copy the TZ variable.
1942 So we have only one definition of TZ, which came from TZSTRING. */
1943 for (from = environ; *from; from++)
1944 if (strncmp (*from, "TZ=", 3) != 0)
1945 *to++ = *from;
1946 *to = 0;
1948 environ = newenv;
1950 /* If we do have a TZSTRING, NEWENV points to the vector slot where
1951 the TZ variable is stored. If we do not have a TZSTRING,
1952 TO points to the vector slot which has the terminating null. */
1954 #ifdef LOCALTIME_CACHE
1956 /* In SunOS 4.1.3_U1 and 4.1.4, if TZ has a value like
1957 "US/Pacific" that loads a tz file, then changes to a value like
1958 "XXX0" that does not load a tz file, and then changes back to
1959 its original value, the last change is (incorrectly) ignored.
1960 Also, if TZ changes twice in succession to values that do
1961 not load a tz file, tzset can dump core (see Sun bug#1225179).
1962 The following code works around these bugs. */
1964 if (tzstring)
1966 /* Temporarily set TZ to a value that loads a tz file
1967 and that differs from tzstring. */
1968 char *tz = *newenv;
1969 *newenv = (strcmp (tzstring, set_time_zone_rule_tz1 + 3) == 0
1970 ? set_time_zone_rule_tz2 : set_time_zone_rule_tz1);
1971 tzset ();
1972 *newenv = tz;
1974 else
1976 /* The implied tzstring is unknown, so temporarily set TZ to
1977 two different values that each load a tz file. */
1978 *to = set_time_zone_rule_tz1;
1979 to[1] = 0;
1980 tzset ();
1981 *to = set_time_zone_rule_tz2;
1982 tzset ();
1983 *to = 0;
1986 /* Now TZ has the desired value, and tzset can be invoked safely. */
1989 tzset ();
1990 #endif
1993 /* Insert NARGS Lisp objects in the array ARGS by calling INSERT_FUNC
1994 (if a type of object is Lisp_Int) or INSERT_FROM_STRING_FUNC (if a
1995 type of object is Lisp_String). INHERIT is passed to
1996 INSERT_FROM_STRING_FUNC as the last argument. */
1998 static void
1999 general_insert_function (insert_func, insert_from_string_func,
2000 inherit, nargs, args)
2001 void (*insert_func) P_ ((const unsigned char *, int));
2002 void (*insert_from_string_func) P_ ((Lisp_Object, int, int, int, int, int));
2003 int inherit, nargs;
2004 register Lisp_Object *args;
2006 register int argnum;
2007 register Lisp_Object val;
2009 for (argnum = 0; argnum < nargs; argnum++)
2011 val = args[argnum];
2012 retry:
2013 if (INTEGERP (val))
2015 unsigned char str[MAX_MULTIBYTE_LENGTH];
2016 int len;
2018 if (!NILP (current_buffer->enable_multibyte_characters))
2019 len = CHAR_STRING (XFASTINT (val), str);
2020 else
2022 str[0] = (SINGLE_BYTE_CHAR_P (XINT (val))
2023 ? XINT (val)
2024 : multibyte_char_to_unibyte (XINT (val), Qnil));
2025 len = 1;
2027 (*insert_func) (str, len);
2029 else if (STRINGP (val))
2031 (*insert_from_string_func) (val, 0, 0,
2032 SCHARS (val),
2033 SBYTES (val),
2034 inherit);
2036 else
2038 val = wrong_type_argument (Qchar_or_string_p, val);
2039 goto retry;
2044 void
2045 insert1 (arg)
2046 Lisp_Object arg;
2048 Finsert (1, &arg);
2052 /* Callers passing one argument to Finsert need not gcpro the
2053 argument "array", since the only element of the array will
2054 not be used after calling insert or insert_from_string, so
2055 we don't care if it gets trashed. */
2057 DEFUN ("insert", Finsert, Sinsert, 0, MANY, 0,
2058 doc: /* Insert the arguments, either strings or characters, at point.
2059 Point and before-insertion markers move forward to end up
2060 after the inserted text.
2061 Any other markers at the point of insertion remain before the text.
2063 If the current buffer is multibyte, unibyte strings are converted
2064 to multibyte for insertion (see `unibyte-char-to-multibyte').
2065 If the current buffer is unibyte, multibyte strings are converted
2066 to unibyte for insertion.
2068 usage: (insert &rest ARGS) */)
2069 (nargs, args)
2070 int nargs;
2071 register Lisp_Object *args;
2073 general_insert_function (insert, insert_from_string, 0, nargs, args);
2074 return Qnil;
2077 DEFUN ("insert-and-inherit", Finsert_and_inherit, Sinsert_and_inherit,
2078 0, MANY, 0,
2079 doc: /* Insert the arguments at point, inheriting properties from adjoining text.
2080 Point and before-insertion markers move forward to end up
2081 after the inserted text.
2082 Any other markers at the point of insertion remain before the text.
2084 If the current buffer is multibyte, unibyte strings are converted
2085 to multibyte for insertion (see `unibyte-char-to-multibyte').
2086 If the current buffer is unibyte, multibyte strings are converted
2087 to unibyte for insertion.
2089 usage: (insert-and-inherit &rest ARGS) */)
2090 (nargs, args)
2091 int nargs;
2092 register Lisp_Object *args;
2094 general_insert_function (insert_and_inherit, insert_from_string, 1,
2095 nargs, args);
2096 return Qnil;
2099 DEFUN ("insert-before-markers", Finsert_before_markers, Sinsert_before_markers, 0, MANY, 0,
2100 doc: /* Insert strings or characters at point, relocating markers after the text.
2101 Point and markers move forward to end up after the inserted text.
2103 If the current buffer is multibyte, unibyte strings are converted
2104 to multibyte for insertion (see `unibyte-char-to-multibyte').
2105 If the current buffer is unibyte, multibyte strings are converted
2106 to unibyte for insertion.
2108 usage: (insert-before-markers &rest ARGS) */)
2109 (nargs, args)
2110 int nargs;
2111 register Lisp_Object *args;
2113 general_insert_function (insert_before_markers,
2114 insert_from_string_before_markers, 0,
2115 nargs, args);
2116 return Qnil;
2119 DEFUN ("insert-before-markers-and-inherit", Finsert_and_inherit_before_markers,
2120 Sinsert_and_inherit_before_markers, 0, MANY, 0,
2121 doc: /* Insert text at point, relocating markers and inheriting properties.
2122 Point and markers move forward to end up after the inserted text.
2124 If the current buffer is multibyte, unibyte strings are converted
2125 to multibyte for insertion (see `unibyte-char-to-multibyte').
2126 If the current buffer is unibyte, multibyte strings are converted
2127 to unibyte for insertion.
2129 usage: (insert-before-markers-and-inherit &rest ARGS) */)
2130 (nargs, args)
2131 int nargs;
2132 register Lisp_Object *args;
2134 general_insert_function (insert_before_markers_and_inherit,
2135 insert_from_string_before_markers, 1,
2136 nargs, args);
2137 return Qnil;
2140 DEFUN ("insert-char", Finsert_char, Sinsert_char, 2, 3, 0,
2141 doc: /* Insert COUNT (second arg) copies of CHARACTER (first arg).
2142 Both arguments are required.
2143 Point, and before-insertion markers, are relocated as in the function `insert'.
2144 The optional third arg INHERIT, if non-nil, says to inherit text properties
2145 from adjoining text, if those properties are sticky. */)
2146 (character, count, inherit)
2147 Lisp_Object character, count, inherit;
2149 register unsigned char *string;
2150 register int strlen;
2151 register int i, n;
2152 int len;
2153 unsigned char str[MAX_MULTIBYTE_LENGTH];
2155 CHECK_NUMBER (character);
2156 CHECK_NUMBER (count);
2158 if (!NILP (current_buffer->enable_multibyte_characters))
2159 len = CHAR_STRING (XFASTINT (character), str);
2160 else
2161 str[0] = XFASTINT (character), len = 1;
2162 n = XINT (count) * len;
2163 if (n <= 0)
2164 return Qnil;
2165 strlen = min (n, 256 * len);
2166 string = (unsigned char *) alloca (strlen);
2167 for (i = 0; i < strlen; i++)
2168 string[i] = str[i % len];
2169 while (n >= strlen)
2171 QUIT;
2172 if (!NILP (inherit))
2173 insert_and_inherit (string, strlen);
2174 else
2175 insert (string, strlen);
2176 n -= strlen;
2178 if (n > 0)
2180 if (!NILP (inherit))
2181 insert_and_inherit (string, n);
2182 else
2183 insert (string, n);
2185 return Qnil;
2189 /* Making strings from buffer contents. */
2191 /* Return a Lisp_String containing the text of the current buffer from
2192 START to END. If text properties are in use and the current buffer
2193 has properties in the range specified, the resulting string will also
2194 have them, if PROPS is nonzero.
2196 We don't want to use plain old make_string here, because it calls
2197 make_uninit_string, which can cause the buffer arena to be
2198 compacted. make_string has no way of knowing that the data has
2199 been moved, and thus copies the wrong data into the string. This
2200 doesn't effect most of the other users of make_string, so it should
2201 be left as is. But we should use this function when conjuring
2202 buffer substrings. */
2204 Lisp_Object
2205 make_buffer_string (start, end, props)
2206 int start, end;
2207 int props;
2209 int start_byte = CHAR_TO_BYTE (start);
2210 int end_byte = CHAR_TO_BYTE (end);
2212 return make_buffer_string_both (start, start_byte, end, end_byte, props);
2215 /* Return a Lisp_String containing the text of the current buffer from
2216 START / START_BYTE to END / END_BYTE.
2218 If text properties are in use and the current buffer
2219 has properties in the range specified, the resulting string will also
2220 have them, if PROPS is nonzero.
2222 We don't want to use plain old make_string here, because it calls
2223 make_uninit_string, which can cause the buffer arena to be
2224 compacted. make_string has no way of knowing that the data has
2225 been moved, and thus copies the wrong data into the string. This
2226 doesn't effect most of the other users of make_string, so it should
2227 be left as is. But we should use this function when conjuring
2228 buffer substrings. */
2230 Lisp_Object
2231 make_buffer_string_both (start, start_byte, end, end_byte, props)
2232 int start, start_byte, end, end_byte;
2233 int props;
2235 Lisp_Object result, tem, tem1;
2237 if (start < GPT && GPT < end)
2238 move_gap (start);
2240 if (! NILP (current_buffer->enable_multibyte_characters))
2241 result = make_uninit_multibyte_string (end - start, end_byte - start_byte);
2242 else
2243 result = make_uninit_string (end - start);
2244 bcopy (BYTE_POS_ADDR (start_byte), SDATA (result),
2245 end_byte - start_byte);
2247 /* If desired, update and copy the text properties. */
2248 if (props)
2250 update_buffer_properties (start, end);
2252 tem = Fnext_property_change (make_number (start), Qnil, make_number (end));
2253 tem1 = Ftext_properties_at (make_number (start), Qnil);
2255 if (XINT (tem) != end || !NILP (tem1))
2256 copy_intervals_to_string (result, current_buffer, start,
2257 end - start);
2260 return result;
2263 /* Call Vbuffer_access_fontify_functions for the range START ... END
2264 in the current buffer, if necessary. */
2266 static void
2267 update_buffer_properties (start, end)
2268 int start, end;
2270 /* If this buffer has some access functions,
2271 call them, specifying the range of the buffer being accessed. */
2272 if (!NILP (Vbuffer_access_fontify_functions))
2274 Lisp_Object args[3];
2275 Lisp_Object tem;
2277 args[0] = Qbuffer_access_fontify_functions;
2278 XSETINT (args[1], start);
2279 XSETINT (args[2], end);
2281 /* But don't call them if we can tell that the work
2282 has already been done. */
2283 if (!NILP (Vbuffer_access_fontified_property))
2285 tem = Ftext_property_any (args[1], args[2],
2286 Vbuffer_access_fontified_property,
2287 Qnil, Qnil);
2288 if (! NILP (tem))
2289 Frun_hook_with_args (3, args);
2291 else
2292 Frun_hook_with_args (3, args);
2296 DEFUN ("buffer-substring", Fbuffer_substring, Sbuffer_substring, 2, 2, 0,
2297 doc: /* Return the contents of part of the current buffer as a string.
2298 The two arguments START and END are character positions;
2299 they can be in either order.
2300 The string returned is multibyte if the buffer is multibyte.
2302 This function copies the text properties of that part of the buffer
2303 into the result string; if you don't want the text properties,
2304 use `buffer-substring-no-properties' instead. */)
2305 (start, end)
2306 Lisp_Object start, end;
2308 register int b, e;
2310 validate_region (&start, &end);
2311 b = XINT (start);
2312 e = XINT (end);
2314 return make_buffer_string (b, e, 1);
2317 DEFUN ("buffer-substring-no-properties", Fbuffer_substring_no_properties,
2318 Sbuffer_substring_no_properties, 2, 2, 0,
2319 doc: /* Return the characters of part of the buffer, without the text properties.
2320 The two arguments START and END are character positions;
2321 they can be in either order. */)
2322 (start, end)
2323 Lisp_Object start, end;
2325 register int b, e;
2327 validate_region (&start, &end);
2328 b = XINT (start);
2329 e = XINT (end);
2331 return make_buffer_string (b, e, 0);
2334 DEFUN ("buffer-string", Fbuffer_string, Sbuffer_string, 0, 0, 0,
2335 doc: /* Return the contents of the current buffer as a string.
2336 If narrowing is in effect, this function returns only the visible part
2337 of the buffer. */)
2340 return make_buffer_string (BEGV, ZV, 1);
2343 DEFUN ("insert-buffer-substring", Finsert_buffer_substring, Sinsert_buffer_substring,
2344 1, 3, 0,
2345 doc: /* Insert before point a substring of the contents of buffer BUFFER.
2346 BUFFER may be a buffer or a buffer name.
2347 Arguments START and END are character numbers specifying the substring.
2348 They default to the beginning and the end of BUFFER. */)
2349 (buf, start, end)
2350 Lisp_Object buf, start, end;
2352 register int b, e, temp;
2353 register struct buffer *bp, *obuf;
2354 Lisp_Object buffer;
2356 buffer = Fget_buffer (buf);
2357 if (NILP (buffer))
2358 nsberror (buf);
2359 bp = XBUFFER (buffer);
2360 if (NILP (bp->name))
2361 error ("Selecting deleted buffer");
2363 if (NILP (start))
2364 b = BUF_BEGV (bp);
2365 else
2367 CHECK_NUMBER_COERCE_MARKER (start);
2368 b = XINT (start);
2370 if (NILP (end))
2371 e = BUF_ZV (bp);
2372 else
2374 CHECK_NUMBER_COERCE_MARKER (end);
2375 e = XINT (end);
2378 if (b > e)
2379 temp = b, b = e, e = temp;
2381 if (!(BUF_BEGV (bp) <= b && e <= BUF_ZV (bp)))
2382 args_out_of_range (start, end);
2384 obuf = current_buffer;
2385 set_buffer_internal_1 (bp);
2386 update_buffer_properties (b, e);
2387 set_buffer_internal_1 (obuf);
2389 insert_from_buffer (bp, b, e - b, 0);
2390 return Qnil;
2393 DEFUN ("compare-buffer-substrings", Fcompare_buffer_substrings, Scompare_buffer_substrings,
2394 6, 6, 0,
2395 doc: /* Compare two substrings of two buffers; return result as number.
2396 the value is -N if first string is less after N-1 chars,
2397 +N if first string is greater after N-1 chars, or 0 if strings match.
2398 Each substring is represented as three arguments: BUFFER, START and END.
2399 That makes six args in all, three for each substring.
2401 The value of `case-fold-search' in the current buffer
2402 determines whether case is significant or ignored. */)
2403 (buffer1, start1, end1, buffer2, start2, end2)
2404 Lisp_Object buffer1, start1, end1, buffer2, start2, end2;
2406 register int begp1, endp1, begp2, endp2, temp;
2407 register struct buffer *bp1, *bp2;
2408 register Lisp_Object *trt
2409 = (!NILP (current_buffer->case_fold_search)
2410 ? XCHAR_TABLE (current_buffer->case_canon_table)->contents : 0);
2411 int chars = 0;
2412 int i1, i2, i1_byte, i2_byte;
2414 /* Find the first buffer and its substring. */
2416 if (NILP (buffer1))
2417 bp1 = current_buffer;
2418 else
2420 Lisp_Object buf1;
2421 buf1 = Fget_buffer (buffer1);
2422 if (NILP (buf1))
2423 nsberror (buffer1);
2424 bp1 = XBUFFER (buf1);
2425 if (NILP (bp1->name))
2426 error ("Selecting deleted buffer");
2429 if (NILP (start1))
2430 begp1 = BUF_BEGV (bp1);
2431 else
2433 CHECK_NUMBER_COERCE_MARKER (start1);
2434 begp1 = XINT (start1);
2436 if (NILP (end1))
2437 endp1 = BUF_ZV (bp1);
2438 else
2440 CHECK_NUMBER_COERCE_MARKER (end1);
2441 endp1 = XINT (end1);
2444 if (begp1 > endp1)
2445 temp = begp1, begp1 = endp1, endp1 = temp;
2447 if (!(BUF_BEGV (bp1) <= begp1
2448 && begp1 <= endp1
2449 && endp1 <= BUF_ZV (bp1)))
2450 args_out_of_range (start1, end1);
2452 /* Likewise for second substring. */
2454 if (NILP (buffer2))
2455 bp2 = current_buffer;
2456 else
2458 Lisp_Object buf2;
2459 buf2 = Fget_buffer (buffer2);
2460 if (NILP (buf2))
2461 nsberror (buffer2);
2462 bp2 = XBUFFER (buf2);
2463 if (NILP (bp2->name))
2464 error ("Selecting deleted buffer");
2467 if (NILP (start2))
2468 begp2 = BUF_BEGV (bp2);
2469 else
2471 CHECK_NUMBER_COERCE_MARKER (start2);
2472 begp2 = XINT (start2);
2474 if (NILP (end2))
2475 endp2 = BUF_ZV (bp2);
2476 else
2478 CHECK_NUMBER_COERCE_MARKER (end2);
2479 endp2 = XINT (end2);
2482 if (begp2 > endp2)
2483 temp = begp2, begp2 = endp2, endp2 = temp;
2485 if (!(BUF_BEGV (bp2) <= begp2
2486 && begp2 <= endp2
2487 && endp2 <= BUF_ZV (bp2)))
2488 args_out_of_range (start2, end2);
2490 i1 = begp1;
2491 i2 = begp2;
2492 i1_byte = buf_charpos_to_bytepos (bp1, i1);
2493 i2_byte = buf_charpos_to_bytepos (bp2, i2);
2495 while (i1 < endp1 && i2 < endp2)
2497 /* When we find a mismatch, we must compare the
2498 characters, not just the bytes. */
2499 int c1, c2;
2501 QUIT;
2503 if (! NILP (bp1->enable_multibyte_characters))
2505 c1 = BUF_FETCH_MULTIBYTE_CHAR (bp1, i1_byte);
2506 BUF_INC_POS (bp1, i1_byte);
2507 i1++;
2509 else
2511 c1 = BUF_FETCH_BYTE (bp1, i1);
2512 c1 = unibyte_char_to_multibyte (c1);
2513 i1++;
2516 if (! NILP (bp2->enable_multibyte_characters))
2518 c2 = BUF_FETCH_MULTIBYTE_CHAR (bp2, i2_byte);
2519 BUF_INC_POS (bp2, i2_byte);
2520 i2++;
2522 else
2524 c2 = BUF_FETCH_BYTE (bp2, i2);
2525 c2 = unibyte_char_to_multibyte (c2);
2526 i2++;
2529 if (trt)
2531 c1 = XINT (trt[c1]);
2532 c2 = XINT (trt[c2]);
2534 if (c1 < c2)
2535 return make_number (- 1 - chars);
2536 if (c1 > c2)
2537 return make_number (chars + 1);
2539 chars++;
2542 /* The strings match as far as they go.
2543 If one is shorter, that one is less. */
2544 if (chars < endp1 - begp1)
2545 return make_number (chars + 1);
2546 else if (chars < endp2 - begp2)
2547 return make_number (- chars - 1);
2549 /* Same length too => they are equal. */
2550 return make_number (0);
2553 static Lisp_Object
2554 subst_char_in_region_unwind (arg)
2555 Lisp_Object arg;
2557 return current_buffer->undo_list = arg;
2560 static Lisp_Object
2561 subst_char_in_region_unwind_1 (arg)
2562 Lisp_Object arg;
2564 return current_buffer->filename = arg;
2567 DEFUN ("subst-char-in-region", Fsubst_char_in_region,
2568 Ssubst_char_in_region, 4, 5, 0,
2569 doc: /* From START to END, replace FROMCHAR with TOCHAR each time it occurs.
2570 If optional arg NOUNDO is non-nil, don't record this change for undo
2571 and don't mark the buffer as really changed.
2572 Both characters must have the same length of multi-byte form. */)
2573 (start, end, fromchar, tochar, noundo)
2574 Lisp_Object start, end, fromchar, tochar, noundo;
2576 register int pos, pos_byte, stop, i, len, end_byte;
2577 int changed = 0;
2578 unsigned char fromstr[MAX_MULTIBYTE_LENGTH], tostr[MAX_MULTIBYTE_LENGTH];
2579 unsigned char *p;
2580 int count = SPECPDL_INDEX ();
2581 #define COMBINING_NO 0
2582 #define COMBINING_BEFORE 1
2583 #define COMBINING_AFTER 2
2584 #define COMBINING_BOTH (COMBINING_BEFORE | COMBINING_AFTER)
2585 int maybe_byte_combining = COMBINING_NO;
2586 int last_changed = 0;
2587 int multibyte_p = !NILP (current_buffer->enable_multibyte_characters);
2589 validate_region (&start, &end);
2590 CHECK_NUMBER (fromchar);
2591 CHECK_NUMBER (tochar);
2593 if (multibyte_p)
2595 len = CHAR_STRING (XFASTINT (fromchar), fromstr);
2596 if (CHAR_STRING (XFASTINT (tochar), tostr) != len)
2597 error ("Characters in subst-char-in-region have different byte-lengths");
2598 if (!ASCII_BYTE_P (*tostr))
2600 /* If *TOSTR is in the range 0x80..0x9F and TOCHAR is not a
2601 complete multibyte character, it may be combined with the
2602 after bytes. If it is in the range 0xA0..0xFF, it may be
2603 combined with the before and after bytes. */
2604 if (!CHAR_HEAD_P (*tostr))
2605 maybe_byte_combining = COMBINING_BOTH;
2606 else if (BYTES_BY_CHAR_HEAD (*tostr) > len)
2607 maybe_byte_combining = COMBINING_AFTER;
2610 else
2612 len = 1;
2613 fromstr[0] = XFASTINT (fromchar);
2614 tostr[0] = XFASTINT (tochar);
2617 pos = XINT (start);
2618 pos_byte = CHAR_TO_BYTE (pos);
2619 stop = CHAR_TO_BYTE (XINT (end));
2620 end_byte = stop;
2622 /* If we don't want undo, turn off putting stuff on the list.
2623 That's faster than getting rid of things,
2624 and it prevents even the entry for a first change.
2625 Also inhibit locking the file. */
2626 if (!NILP (noundo))
2628 record_unwind_protect (subst_char_in_region_unwind,
2629 current_buffer->undo_list);
2630 current_buffer->undo_list = Qt;
2631 /* Don't do file-locking. */
2632 record_unwind_protect (subst_char_in_region_unwind_1,
2633 current_buffer->filename);
2634 current_buffer->filename = Qnil;
2637 if (pos_byte < GPT_BYTE)
2638 stop = min (stop, GPT_BYTE);
2639 while (1)
2641 int pos_byte_next = pos_byte;
2643 if (pos_byte >= stop)
2645 if (pos_byte >= end_byte) break;
2646 stop = end_byte;
2648 p = BYTE_POS_ADDR (pos_byte);
2649 if (multibyte_p)
2650 INC_POS (pos_byte_next);
2651 else
2652 ++pos_byte_next;
2653 if (pos_byte_next - pos_byte == len
2654 && p[0] == fromstr[0]
2655 && (len == 1
2656 || (p[1] == fromstr[1]
2657 && (len == 2 || (p[2] == fromstr[2]
2658 && (len == 3 || p[3] == fromstr[3]))))))
2660 if (! changed)
2662 changed = pos;
2663 modify_region (current_buffer, changed, XINT (end));
2665 if (! NILP (noundo))
2667 if (MODIFF - 1 == SAVE_MODIFF)
2668 SAVE_MODIFF++;
2669 if (MODIFF - 1 == current_buffer->auto_save_modified)
2670 current_buffer->auto_save_modified++;
2674 /* Take care of the case where the new character
2675 combines with neighboring bytes. */
2676 if (maybe_byte_combining
2677 && (maybe_byte_combining == COMBINING_AFTER
2678 ? (pos_byte_next < Z_BYTE
2679 && ! CHAR_HEAD_P (FETCH_BYTE (pos_byte_next)))
2680 : ((pos_byte_next < Z_BYTE
2681 && ! CHAR_HEAD_P (FETCH_BYTE (pos_byte_next)))
2682 || (pos_byte > BEG_BYTE
2683 && ! ASCII_BYTE_P (FETCH_BYTE (pos_byte - 1))))))
2685 Lisp_Object tem, string;
2687 struct gcpro gcpro1;
2689 tem = current_buffer->undo_list;
2690 GCPRO1 (tem);
2692 /* Make a multibyte string containing this single character. */
2693 string = make_multibyte_string (tostr, 1, len);
2694 /* replace_range is less efficient, because it moves the gap,
2695 but it handles combining correctly. */
2696 replace_range (pos, pos + 1, string,
2697 0, 0, 1);
2698 pos_byte_next = CHAR_TO_BYTE (pos);
2699 if (pos_byte_next > pos_byte)
2700 /* Before combining happened. We should not increment
2701 POS. So, to cancel the later increment of POS,
2702 decrease it now. */
2703 pos--;
2704 else
2705 INC_POS (pos_byte_next);
2707 if (! NILP (noundo))
2708 current_buffer->undo_list = tem;
2710 UNGCPRO;
2712 else
2714 if (NILP (noundo))
2715 record_change (pos, 1);
2716 for (i = 0; i < len; i++) *p++ = tostr[i];
2718 last_changed = pos + 1;
2720 pos_byte = pos_byte_next;
2721 pos++;
2724 if (changed)
2726 signal_after_change (changed,
2727 last_changed - changed, last_changed - changed);
2728 update_compositions (changed, last_changed, CHECK_ALL);
2731 unbind_to (count, Qnil);
2732 return Qnil;
2735 DEFUN ("translate-region", Ftranslate_region, Stranslate_region, 3, 3, 0,
2736 doc: /* From START to END, translate characters according to TABLE.
2737 TABLE is a string; the Nth character in it is the mapping
2738 for the character with code N.
2739 This function does not alter multibyte characters.
2740 It returns the number of characters changed. */)
2741 (start, end, table)
2742 Lisp_Object start;
2743 Lisp_Object end;
2744 register Lisp_Object table;
2746 register int pos_byte, stop; /* Limits of the region. */
2747 register unsigned char *tt; /* Trans table. */
2748 register int nc; /* New character. */
2749 int cnt; /* Number of changes made. */
2750 int size; /* Size of translate table. */
2751 int pos;
2752 int multibyte = !NILP (current_buffer->enable_multibyte_characters);
2754 validate_region (&start, &end);
2755 CHECK_STRING (table);
2757 size = SBYTES (table);
2758 tt = SDATA (table);
2760 pos_byte = CHAR_TO_BYTE (XINT (start));
2761 stop = CHAR_TO_BYTE (XINT (end));
2762 modify_region (current_buffer, XINT (start), XINT (end));
2763 pos = XINT (start);
2765 cnt = 0;
2766 for (; pos_byte < stop; )
2768 register unsigned char *p = BYTE_POS_ADDR (pos_byte);
2769 int len;
2770 int oc;
2771 int pos_byte_next;
2773 if (multibyte)
2774 oc = STRING_CHAR_AND_LENGTH (p, stop - pos_byte, len);
2775 else
2776 oc = *p, len = 1;
2777 pos_byte_next = pos_byte + len;
2778 if (oc < size && len == 1)
2780 nc = tt[oc];
2781 if (nc != oc)
2783 /* Take care of the case where the new character
2784 combines with neighboring bytes. */
2785 if (!ASCII_BYTE_P (nc)
2786 && (CHAR_HEAD_P (nc)
2787 ? ! CHAR_HEAD_P (FETCH_BYTE (pos_byte + 1))
2788 : (pos_byte > BEG_BYTE
2789 && ! ASCII_BYTE_P (FETCH_BYTE (pos_byte - 1)))))
2791 Lisp_Object string;
2793 string = make_multibyte_string (tt + oc, 1, 1);
2794 /* This is less efficient, because it moves the gap,
2795 but it handles combining correctly. */
2796 replace_range (pos, pos + 1, string,
2797 1, 0, 1);
2798 pos_byte_next = CHAR_TO_BYTE (pos);
2799 if (pos_byte_next > pos_byte)
2800 /* Before combining happened. We should not
2801 increment POS. So, to cancel the later
2802 increment of POS, we decrease it now. */
2803 pos--;
2804 else
2805 INC_POS (pos_byte_next);
2807 else
2809 record_change (pos, 1);
2810 *p = nc;
2811 signal_after_change (pos, 1, 1);
2812 update_compositions (pos, pos + 1, CHECK_BORDER);
2814 ++cnt;
2817 pos_byte = pos_byte_next;
2818 pos++;
2821 return make_number (cnt);
2824 DEFUN ("delete-region", Fdelete_region, Sdelete_region, 2, 2, "r",
2825 doc: /* Delete the text between point and mark.
2826 When called from a program, expects two arguments,
2827 positions (integers or markers) specifying the stretch to be deleted. */)
2828 (start, end)
2829 Lisp_Object start, end;
2831 validate_region (&start, &end);
2832 del_range (XINT (start), XINT (end));
2833 return Qnil;
2836 DEFUN ("delete-and-extract-region", Fdelete_and_extract_region,
2837 Sdelete_and_extract_region, 2, 2, 0,
2838 doc: /* Delete the text between START and END and return it. */)
2839 (start, end)
2840 Lisp_Object start, end;
2842 validate_region (&start, &end);
2843 return del_range_1 (XINT (start), XINT (end), 1, 1);
2846 DEFUN ("widen", Fwiden, Swiden, 0, 0, "",
2847 doc: /* Remove restrictions (narrowing) from current buffer.
2848 This allows the buffer's full text to be seen and edited. */)
2851 if (BEG != BEGV || Z != ZV)
2852 current_buffer->clip_changed = 1;
2853 BEGV = BEG;
2854 BEGV_BYTE = BEG_BYTE;
2855 SET_BUF_ZV_BOTH (current_buffer, Z, Z_BYTE);
2856 /* Changing the buffer bounds invalidates any recorded current column. */
2857 invalidate_current_column ();
2858 return Qnil;
2861 DEFUN ("narrow-to-region", Fnarrow_to_region, Snarrow_to_region, 2, 2, "r",
2862 doc: /* Restrict editing in this buffer to the current region.
2863 The rest of the text becomes temporarily invisible and untouchable
2864 but is not deleted; if you save the buffer in a file, the invisible
2865 text is included in the file. \\[widen] makes all visible again.
2866 See also `save-restriction'.
2868 When calling from a program, pass two arguments; positions (integers
2869 or markers) bounding the text that should remain visible. */)
2870 (start, end)
2871 register Lisp_Object start, end;
2873 CHECK_NUMBER_COERCE_MARKER (start);
2874 CHECK_NUMBER_COERCE_MARKER (end);
2876 if (XINT (start) > XINT (end))
2878 Lisp_Object tem;
2879 tem = start; start = end; end = tem;
2882 if (!(BEG <= XINT (start) && XINT (start) <= XINT (end) && XINT (end) <= Z))
2883 args_out_of_range (start, end);
2885 if (BEGV != XFASTINT (start) || ZV != XFASTINT (end))
2886 current_buffer->clip_changed = 1;
2888 SET_BUF_BEGV (current_buffer, XFASTINT (start));
2889 SET_BUF_ZV (current_buffer, XFASTINT (end));
2890 if (PT < XFASTINT (start))
2891 SET_PT (XFASTINT (start));
2892 if (PT > XFASTINT (end))
2893 SET_PT (XFASTINT (end));
2894 /* Changing the buffer bounds invalidates any recorded current column. */
2895 invalidate_current_column ();
2896 return Qnil;
2899 Lisp_Object
2900 save_restriction_save ()
2902 if (BEGV == BEG && ZV == Z)
2903 /* The common case that the buffer isn't narrowed.
2904 We return just the buffer object, which save_restriction_restore
2905 recognizes as meaning `no restriction'. */
2906 return Fcurrent_buffer ();
2907 else
2908 /* We have to save a restriction, so return a pair of markers, one
2909 for the beginning and one for the end. */
2911 Lisp_Object beg, end;
2913 beg = buildmark (BEGV, BEGV_BYTE);
2914 end = buildmark (ZV, ZV_BYTE);
2916 /* END must move forward if text is inserted at its exact location. */
2917 XMARKER(end)->insertion_type = 1;
2919 return Fcons (beg, end);
2923 Lisp_Object
2924 save_restriction_restore (data)
2925 Lisp_Object data;
2927 if (CONSP (data))
2928 /* A pair of marks bounding a saved restriction. */
2930 struct Lisp_Marker *beg = XMARKER (XCAR (data));
2931 struct Lisp_Marker *end = XMARKER (XCDR (data));
2932 struct buffer *buf = beg->buffer; /* END should have the same buffer. */
2934 if (buf /* Verify marker still points to a buffer. */
2935 && (beg->charpos != BUF_BEGV (buf) || end->charpos != BUF_ZV (buf)))
2936 /* The restriction has changed from the saved one, so restore
2937 the saved restriction. */
2939 int pt = BUF_PT (buf);
2941 SET_BUF_BEGV_BOTH (buf, beg->charpos, beg->bytepos);
2942 SET_BUF_ZV_BOTH (buf, end->charpos, end->bytepos);
2944 if (pt < beg->charpos || pt > end->charpos)
2945 /* The point is outside the new visible range, move it inside. */
2946 SET_BUF_PT_BOTH (buf,
2947 clip_to_bounds (beg->charpos, pt, end->charpos),
2948 clip_to_bounds (beg->bytepos, BUF_PT_BYTE (buf),
2949 end->bytepos));
2951 buf->clip_changed = 1; /* Remember that the narrowing changed. */
2954 else
2955 /* A buffer, which means that there was no old restriction. */
2957 struct buffer *buf = XBUFFER (data);
2959 if (buf /* Verify marker still points to a buffer. */
2960 && (BUF_BEGV (buf) != BUF_BEG (buf) || BUF_ZV (buf) != BUF_Z (buf)))
2961 /* The buffer has been narrowed, get rid of the narrowing. */
2963 SET_BUF_BEGV_BOTH (buf, BUF_BEG (buf), BUF_BEG_BYTE (buf));
2964 SET_BUF_ZV_BOTH (buf, BUF_Z (buf), BUF_Z_BYTE (buf));
2966 buf->clip_changed = 1; /* Remember that the narrowing changed. */
2970 return Qnil;
2973 DEFUN ("save-restriction", Fsave_restriction, Ssave_restriction, 0, UNEVALLED, 0,
2974 doc: /* Execute BODY, saving and restoring current buffer's restrictions.
2975 The buffer's restrictions make parts of the beginning and end invisible.
2976 (They are set up with `narrow-to-region' and eliminated with `widen'.)
2977 This special form, `save-restriction', saves the current buffer's restrictions
2978 when it is entered, and restores them when it is exited.
2979 So any `narrow-to-region' within BODY lasts only until the end of the form.
2980 The old restrictions settings are restored
2981 even in case of abnormal exit (throw or error).
2983 The value returned is the value of the last form in BODY.
2985 Note: if you are using both `save-excursion' and `save-restriction',
2986 use `save-excursion' outermost:
2987 (save-excursion (save-restriction ...))
2989 usage: (save-restriction &rest BODY) */)
2990 (body)
2991 Lisp_Object body;
2993 register Lisp_Object val;
2994 int count = SPECPDL_INDEX ();
2996 record_unwind_protect (save_restriction_restore, save_restriction_save ());
2997 val = Fprogn (body);
2998 return unbind_to (count, val);
3001 /* Buffer for the most recent text displayed by Fmessage_box. */
3002 static char *message_text;
3004 /* Allocated length of that buffer. */
3005 static int message_length;
3007 DEFUN ("message", Fmessage, Smessage, 1, MANY, 0,
3008 doc: /* Print a one-line message at the bottom of the screen.
3009 The first argument is a format control string, and the rest are data
3010 to be formatted under control of the string. See `format' for details.
3012 If the first argument is nil, clear any existing message; let the
3013 minibuffer contents show.
3015 usage: (message STRING &rest ARGS) */)
3016 (nargs, args)
3017 int nargs;
3018 Lisp_Object *args;
3020 if (NILP (args[0])
3021 || (STRINGP (args[0])
3022 && SBYTES (args[0]) == 0))
3024 message (0);
3025 return Qnil;
3027 else
3029 register Lisp_Object val;
3030 val = Fformat (nargs, args);
3031 message3 (val, SBYTES (val), STRING_MULTIBYTE (val));
3032 return val;
3036 DEFUN ("message-box", Fmessage_box, Smessage_box, 1, MANY, 0,
3037 doc: /* Display a message, in a dialog box if possible.
3038 If a dialog box is not available, use the echo area.
3039 The first argument is a format control string, and the rest are data
3040 to be formatted under control of the string. See `format' for details.
3042 If the first argument is nil, clear any existing message; let the
3043 minibuffer contents show.
3045 usage: (message-box STRING &rest ARGS) */)
3046 (nargs, args)
3047 int nargs;
3048 Lisp_Object *args;
3050 if (NILP (args[0]))
3052 message (0);
3053 return Qnil;
3055 else
3057 register Lisp_Object val;
3058 val = Fformat (nargs, args);
3059 #ifdef HAVE_MENUS
3060 /* The MS-DOS frames support popup menus even though they are
3061 not FRAME_WINDOW_P. */
3062 if (FRAME_WINDOW_P (XFRAME (selected_frame))
3063 || FRAME_MSDOS_P (XFRAME (selected_frame)))
3065 Lisp_Object pane, menu, obj;
3066 struct gcpro gcpro1;
3067 pane = Fcons (Fcons (build_string ("OK"), Qt), Qnil);
3068 GCPRO1 (pane);
3069 menu = Fcons (val, pane);
3070 obj = Fx_popup_dialog (Qt, menu);
3071 UNGCPRO;
3072 return val;
3074 #endif /* HAVE_MENUS */
3075 /* Copy the data so that it won't move when we GC. */
3076 if (! message_text)
3078 message_text = (char *)xmalloc (80);
3079 message_length = 80;
3081 if (SBYTES (val) > message_length)
3083 message_length = SBYTES (val);
3084 message_text = (char *)xrealloc (message_text, message_length);
3086 bcopy (SDATA (val), message_text, SBYTES (val));
3087 message2 (message_text, SBYTES (val),
3088 STRING_MULTIBYTE (val));
3089 return val;
3092 #ifdef HAVE_MENUS
3093 extern Lisp_Object last_nonmenu_event;
3094 #endif
3096 DEFUN ("message-or-box", Fmessage_or_box, Smessage_or_box, 1, MANY, 0,
3097 doc: /* Display a message in a dialog box or in the echo area.
3098 If this command was invoked with the mouse, use a dialog box if
3099 `use-dialog-box' is non-nil.
3100 Otherwise, use the echo area.
3101 The first argument is a format control string, and the rest are data
3102 to be formatted under control of the string. See `format' for details.
3104 If the first argument is nil, clear any existing message; let the
3105 minibuffer contents show.
3107 usage: (message-or-box STRING &rest ARGS) */)
3108 (nargs, args)
3109 int nargs;
3110 Lisp_Object *args;
3112 #ifdef HAVE_MENUS
3113 if ((NILP (last_nonmenu_event) || CONSP (last_nonmenu_event))
3114 && use_dialog_box)
3115 return Fmessage_box (nargs, args);
3116 #endif
3117 return Fmessage (nargs, args);
3120 DEFUN ("current-message", Fcurrent_message, Scurrent_message, 0, 0, 0,
3121 doc: /* Return the string currently displayed in the echo area, or nil if none. */)
3124 return current_message ();
3128 DEFUN ("propertize", Fpropertize, Spropertize, 1, MANY, 0,
3129 doc: /* Return a copy of STRING with text properties added.
3130 First argument is the string to copy.
3131 Remaining arguments form a sequence of PROPERTY VALUE pairs for text
3132 properties to add to the result.
3133 usage: (propertize STRING &rest PROPERTIES) */)
3134 (nargs, args)
3135 int nargs;
3136 Lisp_Object *args;
3138 Lisp_Object properties, string;
3139 struct gcpro gcpro1, gcpro2;
3140 int i;
3142 /* Number of args must be odd. */
3143 if ((nargs & 1) == 0 || nargs < 1)
3144 error ("Wrong number of arguments");
3146 properties = string = Qnil;
3147 GCPRO2 (properties, string);
3149 /* First argument must be a string. */
3150 CHECK_STRING (args[0]);
3151 string = Fcopy_sequence (args[0]);
3153 for (i = 1; i < nargs; i += 2)
3155 CHECK_SYMBOL (args[i]);
3156 properties = Fcons (args[i], Fcons (args[i + 1], properties));
3159 Fadd_text_properties (make_number (0),
3160 make_number (SCHARS (string)),
3161 properties, string);
3162 RETURN_UNGCPRO (string);
3166 /* Number of bytes that STRING will occupy when put into the result.
3167 MULTIBYTE is nonzero if the result should be multibyte. */
3169 #define CONVERTED_BYTE_SIZE(MULTIBYTE, STRING) \
3170 (((MULTIBYTE) && ! STRING_MULTIBYTE (STRING)) \
3171 ? count_size_as_multibyte (SDATA (STRING), SBYTES (STRING)) \
3172 : SBYTES (STRING))
3174 DEFUN ("format", Fformat, Sformat, 1, MANY, 0,
3175 doc: /* Format a string out of a control-string and arguments.
3176 The first argument is a control string.
3177 The other arguments are substituted into it to make the result, a string.
3178 It may contain %-sequences meaning to substitute the next argument.
3179 %s means print a string argument. Actually, prints any object, with `princ'.
3180 %d means print as number in decimal (%o octal, %x hex).
3181 %X is like %x, but uses upper case.
3182 %e means print a number in exponential notation.
3183 %f means print a number in decimal-point notation.
3184 %g means print a number in exponential notation
3185 or decimal-point notation, whichever uses fewer characters.
3186 %c means print a number as a single character.
3187 %S means print any object as an s-expression (using `prin1').
3188 The argument used for %d, %o, %x, %e, %f, %g or %c must be a number.
3189 Use %% to put a single % into the output.
3191 usage: (format STRING &rest OBJECTS) */)
3192 (nargs, args)
3193 int nargs;
3194 register Lisp_Object *args;
3196 register int n; /* The number of the next arg to substitute */
3197 register int total; /* An estimate of the final length */
3198 char *buf, *p;
3199 register unsigned char *format, *end;
3200 int nchars;
3201 /* Nonzero if the output should be a multibyte string,
3202 which is true if any of the inputs is one. */
3203 int multibyte = 0;
3204 /* When we make a multibyte string, we must pay attention to the
3205 byte combining problem, i.e., a byte may be combined with a
3206 multibyte charcter of the previous string. This flag tells if we
3207 must consider such a situation or not. */
3208 int maybe_combine_byte;
3209 unsigned char *this_format;
3210 /* Precision for each spec, or -1, a flag value meaning no precision
3211 was given in that spec. Element 0, corresonding to the format
3212 string itself, will not be used. Element NARGS, corresponding to
3213 no argument, *will* be assigned to in the case that a `%' and `.'
3214 occur after the final format specifier. */
3215 int *precision = (int *) (alloca(nargs * sizeof (int)));
3216 int longest_format;
3217 Lisp_Object val;
3218 struct info
3220 int start, end;
3221 } *info = 0;
3223 /* It should not be necessary to GCPRO ARGS, because
3224 the caller in the interpreter should take care of that. */
3226 /* Try to determine whether the result should be multibyte.
3227 This is not always right; sometimes the result needs to be multibyte
3228 because of an object that we will pass through prin1,
3229 and in that case, we won't know it here. */
3230 for (n = 0; n < nargs; n++) {
3231 if (STRINGP (args[n]) && STRING_MULTIBYTE (args[n]))
3232 multibyte = 1;
3233 /* Piggyback on this loop to initialize precision[N]. */
3234 precision[n] = -1;
3237 CHECK_STRING (args[0]);
3239 /* If we start out planning a unibyte result,
3240 and later find it has to be multibyte, we jump back to retry. */
3241 retry:
3243 format = SDATA (args[0]);
3244 end = format + SBYTES (args[0]);
3245 longest_format = 0;
3247 /* Make room in result for all the non-%-codes in the control string. */
3248 total = 5 + CONVERTED_BYTE_SIZE (multibyte, args[0]);
3250 /* Add to TOTAL enough space to hold the converted arguments. */
3252 n = 0;
3253 while (format != end)
3254 if (*format++ == '%')
3256 int thissize = 0;
3257 int actual_width = 0;
3258 unsigned char *this_format_start = format - 1;
3259 int field_width = 0;
3261 /* General format specifications look like
3263 '%' [flags] [field-width] [precision] format
3265 where
3267 flags ::= [#-* 0]+
3268 field-width ::= [0-9]+
3269 precision ::= '.' [0-9]*
3271 If a field-width is specified, it specifies to which width
3272 the output should be padded with blanks, iff the output
3273 string is shorter than field-width.
3275 If precision is specified, it specifies the number of
3276 digits to print after the '.' for floats, or the max.
3277 number of chars to print from a string. */
3279 /* NOTE the handling of specifiers here differs in some ways
3280 from the libc model. There are bugs in this code that lead
3281 to incorrect formatting when flags recognized by C but
3282 neither parsed nor rejected here are used. Further
3283 revisions will be made soon. */
3285 /* incorrect list of flags to skip; will be fixed */
3286 while (index ("-*# 0", *format))
3287 ++format;
3289 if (*format >= '0' && *format <= '9')
3291 for (field_width = 0; *format >= '0' && *format <= '9'; ++format)
3292 field_width = 10 * field_width + *format - '0';
3295 /* N is not incremented for another few lines below, so refer to
3296 element N+1 (which might be precision[NARGS]). */
3297 if (*format == '.')
3299 ++format;
3300 for (precision[n+1] = 0; *format >= '0' && *format <= '9'; ++format)
3301 precision[n+1] = 10 * precision[n+1] + *format - '0';
3304 if (format - this_format_start + 1 > longest_format)
3305 longest_format = format - this_format_start + 1;
3307 if (format == end)
3308 error ("Format string ends in middle of format specifier");
3309 if (*format == '%')
3310 format++;
3311 else if (++n >= nargs)
3312 error ("Not enough arguments for format string");
3313 else if (*format == 'S')
3315 /* For `S', prin1 the argument and then treat like a string. */
3316 register Lisp_Object tem;
3317 tem = Fprin1_to_string (args[n], Qnil);
3318 if (STRING_MULTIBYTE (tem) && ! multibyte)
3320 multibyte = 1;
3321 goto retry;
3323 args[n] = tem;
3324 goto string;
3326 else if (SYMBOLP (args[n]))
3328 args[n] = SYMBOL_NAME (args[n]);
3329 if (STRING_MULTIBYTE (args[n]) && ! multibyte)
3331 multibyte = 1;
3332 goto retry;
3334 goto string;
3336 else if (STRINGP (args[n]))
3338 string:
3339 if (*format != 's' && *format != 'S')
3340 error ("Format specifier doesn't match argument type");
3341 /* In the case (PRECISION[N] > 0), THISSIZE may not need
3342 to be as large as is calculated here. Easy check for
3343 the case PRECISION = 0. */
3344 thissize = precision[n] ? CONVERTED_BYTE_SIZE (multibyte, args[n]) : 0;
3345 actual_width = lisp_string_width (args[n], -1, NULL, NULL);
3347 /* Would get MPV otherwise, since Lisp_Int's `point' to low memory. */
3348 else if (INTEGERP (args[n]) && *format != 's')
3350 /* The following loop assumes the Lisp type indicates
3351 the proper way to pass the argument.
3352 So make sure we have a flonum if the argument should
3353 be a double. */
3354 if (*format == 'e' || *format == 'f' || *format == 'g')
3355 args[n] = Ffloat (args[n]);
3356 else
3357 if (*format != 'd' && *format != 'o' && *format != 'x'
3358 && *format != 'i' && *format != 'X' && *format != 'c')
3359 error ("Invalid format operation %%%c", *format);
3361 thissize = 30;
3362 if (*format == 'c'
3363 && (! SINGLE_BYTE_CHAR_P (XINT (args[n]))
3364 || XINT (args[n]) == 0))
3366 if (! multibyte)
3368 multibyte = 1;
3369 goto retry;
3371 args[n] = Fchar_to_string (args[n]);
3372 thissize = SBYTES (args[n]);
3375 else if (FLOATP (args[n]) && *format != 's')
3377 if (! (*format == 'e' || *format == 'f' || *format == 'g'))
3379 if (*format != 'd' && *format != 'o' && *format != 'x'
3380 && *format != 'i' && *format != 'X' && *format != 'c')
3381 error ("Invalid format operation %%%c", *format);
3382 args[n] = Ftruncate (args[n], Qnil);
3385 /* Note that we're using sprintf to print floats,
3386 so we have to take into account what that function
3387 prints. */
3388 /* Filter out flag value of -1. */
3389 thissize = (MAX_10_EXP + 100
3390 + (precision[n] > 0 ? precision[n] : 0));
3392 else
3394 /* Anything but a string, convert to a string using princ. */
3395 register Lisp_Object tem;
3396 tem = Fprin1_to_string (args[n], Qt);
3397 if (STRING_MULTIBYTE (tem) & ! multibyte)
3399 multibyte = 1;
3400 goto retry;
3402 args[n] = tem;
3403 goto string;
3406 thissize += max (0, field_width - actual_width);
3407 total += thissize + 4;
3410 /* Now we can no longer jump to retry.
3411 TOTAL and LONGEST_FORMAT are known for certain. */
3413 this_format = (unsigned char *) alloca (longest_format + 1);
3415 /* Allocate the space for the result.
3416 Note that TOTAL is an overestimate. */
3417 if (total < 1000)
3418 buf = (char *) alloca (total + 1);
3419 else
3420 buf = (char *) xmalloc (total + 1);
3422 p = buf;
3423 nchars = 0;
3424 n = 0;
3426 /* Scan the format and store result in BUF. */
3427 format = SDATA (args[0]);
3428 maybe_combine_byte = 0;
3429 while (format != end)
3431 if (*format == '%')
3433 int minlen;
3434 int negative = 0;
3435 unsigned char *this_format_start = format;
3437 format++;
3439 /* Process a numeric arg and skip it. */
3440 /* NOTE atoi is the wrong thing to use here; will be fixed */
3441 minlen = atoi (format);
3442 if (minlen < 0)
3443 minlen = - minlen, negative = 1;
3445 /* NOTE the parsing here is not consistent with the first
3446 pass, and neither attempt is what we want to do. Will be
3447 fixed. */
3448 while ((*format >= '0' && *format <= '9')
3449 || *format == '-' || *format == ' ' || *format == '.')
3450 format++;
3452 if (*format++ == '%')
3454 *p++ = '%';
3455 nchars++;
3456 continue;
3459 ++n;
3461 if (STRINGP (args[n]))
3463 /* handle case (precision[n] >= 0) */
3465 int width, padding;
3466 int nbytes, start, end;
3467 int nchars_string;
3469 /* lisp_string_width ignores a precision of 0, but GNU
3470 libc functions print 0 characters when the precision
3471 is 0. Imitate libc behavior here. Changing
3472 lisp_string_width is the right thing, and will be
3473 done, but meanwhile we work with it. */
3475 if (precision[n] == 0)
3476 width = nchars_string = nbytes = 0;
3477 else if (precision[n] > 0)
3478 width = lisp_string_width (args[n], precision[n], &nchars_string, &nbytes);
3479 else
3480 { /* no precision spec given for this argument */
3481 width = lisp_string_width (args[n], -1, NULL, NULL);
3482 nbytes = SBYTES (args[n]);
3483 nchars_string = SCHARS (args[n]);
3486 /* If spec requires it, pad on right with spaces. */
3487 padding = minlen - width;
3488 if (! negative)
3489 while (padding-- > 0)
3491 *p++ = ' ';
3492 ++nchars;
3495 start = nchars;
3496 nchars += nchars_string;
3497 end = nchars;
3499 if (p > buf
3500 && multibyte
3501 && !ASCII_BYTE_P (*((unsigned char *) p - 1))
3502 && STRING_MULTIBYTE (args[n])
3503 && !CHAR_HEAD_P (SREF (args[n], 0)))
3504 maybe_combine_byte = 1;
3506 p += copy_text (SDATA (args[n]), p,
3507 nbytes,
3508 STRING_MULTIBYTE (args[n]), multibyte);
3510 if (negative)
3511 while (padding-- > 0)
3513 *p++ = ' ';
3514 nchars++;
3517 /* If this argument has text properties, record where
3518 in the result string it appears. */
3519 if (STRING_INTERVALS (args[n]))
3521 if (!info)
3523 int nbytes = nargs * sizeof *info;
3524 info = (struct info *) alloca (nbytes);
3525 bzero (info, nbytes);
3528 info[n].start = start;
3529 info[n].end = end;
3532 else if (INTEGERP (args[n]) || FLOATP (args[n]))
3534 int this_nchars;
3536 bcopy (this_format_start, this_format,
3537 format - this_format_start);
3538 this_format[format - this_format_start] = 0;
3540 if (INTEGERP (args[n]))
3541 sprintf (p, this_format, XINT (args[n]));
3542 else
3543 sprintf (p, this_format, XFLOAT_DATA (args[n]));
3545 if (p > buf
3546 && multibyte
3547 && !ASCII_BYTE_P (*((unsigned char *) p - 1))
3548 && !CHAR_HEAD_P (*((unsigned char *) p)))
3549 maybe_combine_byte = 1;
3550 this_nchars = strlen (p);
3551 if (multibyte)
3552 p += str_to_multibyte (p, buf + total - p, this_nchars);
3553 else
3554 p += this_nchars;
3555 nchars += this_nchars;
3558 else if (STRING_MULTIBYTE (args[0]))
3560 /* Copy a whole multibyte character. */
3561 if (p > buf
3562 && multibyte
3563 && !ASCII_BYTE_P (*((unsigned char *) p - 1))
3564 && !CHAR_HEAD_P (*format))
3565 maybe_combine_byte = 1;
3566 *p++ = *format++;
3567 while (! CHAR_HEAD_P (*format)) *p++ = *format++;
3568 nchars++;
3570 else if (multibyte)
3572 /* Convert a single-byte character to multibyte. */
3573 int len = copy_text (format, p, 1, 0, 1);
3575 p += len;
3576 format++;
3577 nchars++;
3579 else
3580 *p++ = *format++, nchars++;
3583 if (p > buf + total + 1)
3584 abort ();
3586 if (maybe_combine_byte)
3587 nchars = multibyte_chars_in_text (buf, p - buf);
3588 val = make_specified_string (buf, nchars, p - buf, multibyte);
3590 /* If we allocated BUF with malloc, free it too. */
3591 if (total >= 1000)
3592 xfree (buf);
3594 /* If the format string has text properties, or any of the string
3595 arguments has text properties, set up text properties of the
3596 result string. */
3598 if (STRING_INTERVALS (args[0]) || info)
3600 Lisp_Object len, new_len, props;
3601 struct gcpro gcpro1;
3603 /* Add text properties from the format string. */
3604 len = make_number (SCHARS (args[0]));
3605 props = text_property_list (args[0], make_number (0), len, Qnil);
3606 GCPRO1 (props);
3608 if (CONSP (props))
3610 new_len = make_number (SCHARS (val));
3611 extend_property_ranges (props, len, new_len);
3612 add_text_properties_from_list (val, props, make_number (0));
3615 /* Add text properties from arguments. */
3616 if (info)
3617 for (n = 1; n < nargs; ++n)
3618 if (info[n].end)
3620 len = make_number (SCHARS (args[n]));
3621 new_len = make_number (info[n].end - info[n].start);
3622 props = text_property_list (args[n], make_number (0), len, Qnil);
3623 extend_property_ranges (props, len, new_len);
3624 /* If successive arguments have properites, be sure that
3625 the value of `composition' property be the copy. */
3626 if (n > 1 && info[n - 1].end)
3627 make_composition_value_copy (props);
3628 add_text_properties_from_list (val, props,
3629 make_number (info[n].start));
3632 UNGCPRO;
3635 return val;
3639 /* VARARGS 1 */
3640 Lisp_Object
3641 #ifdef NO_ARG_ARRAY
3642 format1 (string1, arg0, arg1, arg2, arg3, arg4)
3643 EMACS_INT arg0, arg1, arg2, arg3, arg4;
3644 #else
3645 format1 (string1)
3646 #endif
3647 char *string1;
3649 char buf[100];
3650 #ifdef NO_ARG_ARRAY
3651 EMACS_INT args[5];
3652 args[0] = arg0;
3653 args[1] = arg1;
3654 args[2] = arg2;
3655 args[3] = arg3;
3656 args[4] = arg4;
3657 doprnt (buf, sizeof buf, string1, (char *)0, 5, (char **) args);
3658 #else
3659 doprnt (buf, sizeof buf, string1, (char *)0, 5, &string1 + 1);
3660 #endif
3661 return build_string (buf);
3664 DEFUN ("char-equal", Fchar_equal, Schar_equal, 2, 2, 0,
3665 doc: /* Return t if two characters match, optionally ignoring case.
3666 Both arguments must be characters (i.e. integers).
3667 Case is ignored if `case-fold-search' is non-nil in the current buffer. */)
3668 (c1, c2)
3669 register Lisp_Object c1, c2;
3671 int i1, i2;
3672 CHECK_NUMBER (c1);
3673 CHECK_NUMBER (c2);
3675 if (XINT (c1) == XINT (c2))
3676 return Qt;
3677 if (NILP (current_buffer->case_fold_search))
3678 return Qnil;
3680 /* Do these in separate statements,
3681 then compare the variables.
3682 because of the way DOWNCASE uses temp variables. */
3683 i1 = DOWNCASE (XFASTINT (c1));
3684 i2 = DOWNCASE (XFASTINT (c2));
3685 return (i1 == i2 ? Qt : Qnil);
3688 /* Transpose the markers in two regions of the current buffer, and
3689 adjust the ones between them if necessary (i.e.: if the regions
3690 differ in size).
3692 START1, END1 are the character positions of the first region.
3693 START1_BYTE, END1_BYTE are the byte positions.
3694 START2, END2 are the character positions of the second region.
3695 START2_BYTE, END2_BYTE are the byte positions.
3697 Traverses the entire marker list of the buffer to do so, adding an
3698 appropriate amount to some, subtracting from some, and leaving the
3699 rest untouched. Most of this is copied from adjust_markers in insdel.c.
3701 It's the caller's job to ensure that START1 <= END1 <= START2 <= END2. */
3703 static void
3704 transpose_markers (start1, end1, start2, end2,
3705 start1_byte, end1_byte, start2_byte, end2_byte)
3706 register int start1, end1, start2, end2;
3707 register int start1_byte, end1_byte, start2_byte, end2_byte;
3709 register int amt1, amt1_byte, amt2, amt2_byte, diff, diff_byte, mpos;
3710 register Lisp_Object marker;
3712 /* Update point as if it were a marker. */
3713 if (PT < start1)
3715 else if (PT < end1)
3716 TEMP_SET_PT_BOTH (PT + (end2 - end1),
3717 PT_BYTE + (end2_byte - end1_byte));
3718 else if (PT < start2)
3719 TEMP_SET_PT_BOTH (PT + (end2 - start2) - (end1 - start1),
3720 (PT_BYTE + (end2_byte - start2_byte)
3721 - (end1_byte - start1_byte)));
3722 else if (PT < end2)
3723 TEMP_SET_PT_BOTH (PT - (start2 - start1),
3724 PT_BYTE - (start2_byte - start1_byte));
3726 /* We used to adjust the endpoints here to account for the gap, but that
3727 isn't good enough. Even if we assume the caller has tried to move the
3728 gap out of our way, it might still be at start1 exactly, for example;
3729 and that places it `inside' the interval, for our purposes. The amount
3730 of adjustment is nontrivial if there's a `denormalized' marker whose
3731 position is between GPT and GPT + GAP_SIZE, so it's simpler to leave
3732 the dirty work to Fmarker_position, below. */
3734 /* The difference between the region's lengths */
3735 diff = (end2 - start2) - (end1 - start1);
3736 diff_byte = (end2_byte - start2_byte) - (end1_byte - start1_byte);
3738 /* For shifting each marker in a region by the length of the other
3739 region plus the distance between the regions. */
3740 amt1 = (end2 - start2) + (start2 - end1);
3741 amt2 = (end1 - start1) + (start2 - end1);
3742 amt1_byte = (end2_byte - start2_byte) + (start2_byte - end1_byte);
3743 amt2_byte = (end1_byte - start1_byte) + (start2_byte - end1_byte);
3745 for (marker = BUF_MARKERS (current_buffer); !NILP (marker);
3746 marker = XMARKER (marker)->chain)
3748 mpos = marker_byte_position (marker);
3749 if (mpos >= start1_byte && mpos < end2_byte)
3751 if (mpos < end1_byte)
3752 mpos += amt1_byte;
3753 else if (mpos < start2_byte)
3754 mpos += diff_byte;
3755 else
3756 mpos -= amt2_byte;
3757 XMARKER (marker)->bytepos = mpos;
3759 mpos = XMARKER (marker)->charpos;
3760 if (mpos >= start1 && mpos < end2)
3762 if (mpos < end1)
3763 mpos += amt1;
3764 else if (mpos < start2)
3765 mpos += diff;
3766 else
3767 mpos -= amt2;
3769 XMARKER (marker)->charpos = mpos;
3773 DEFUN ("transpose-regions", Ftranspose_regions, Stranspose_regions, 4, 5, 0,
3774 doc: /* Transpose region START1 to END1 with START2 to END2.
3775 The regions may not be overlapping, because the size of the buffer is
3776 never changed in a transposition.
3778 Optional fifth arg LEAVE_MARKERS, if non-nil, means don't update
3779 any markers that happen to be located in the regions.
3781 Transposing beyond buffer boundaries is an error. */)
3782 (startr1, endr1, startr2, endr2, leave_markers)
3783 Lisp_Object startr1, endr1, startr2, endr2, leave_markers;
3785 register int start1, end1, start2, end2;
3786 int start1_byte, start2_byte, len1_byte, len2_byte;
3787 int gap, len1, len_mid, len2;
3788 unsigned char *start1_addr, *start2_addr, *temp;
3790 INTERVAL cur_intv, tmp_interval1, tmp_interval_mid, tmp_interval2;
3791 cur_intv = BUF_INTERVALS (current_buffer);
3793 validate_region (&startr1, &endr1);
3794 validate_region (&startr2, &endr2);
3796 start1 = XFASTINT (startr1);
3797 end1 = XFASTINT (endr1);
3798 start2 = XFASTINT (startr2);
3799 end2 = XFASTINT (endr2);
3800 gap = GPT;
3802 /* Swap the regions if they're reversed. */
3803 if (start2 < end1)
3805 register int glumph = start1;
3806 start1 = start2;
3807 start2 = glumph;
3808 glumph = end1;
3809 end1 = end2;
3810 end2 = glumph;
3813 len1 = end1 - start1;
3814 len2 = end2 - start2;
3816 if (start2 < end1)
3817 error ("Transposed regions overlap");
3818 else if (start1 == end1 || start2 == end2)
3819 error ("Transposed region has length 0");
3821 /* The possibilities are:
3822 1. Adjacent (contiguous) regions, or separate but equal regions
3823 (no, really equal, in this case!), or
3824 2. Separate regions of unequal size.
3826 The worst case is usually No. 2. It means that (aside from
3827 potential need for getting the gap out of the way), there also
3828 needs to be a shifting of the text between the two regions. So
3829 if they are spread far apart, we are that much slower... sigh. */
3831 /* It must be pointed out that the really studly thing to do would
3832 be not to move the gap at all, but to leave it in place and work
3833 around it if necessary. This would be extremely efficient,
3834 especially considering that people are likely to do
3835 transpositions near where they are working interactively, which
3836 is exactly where the gap would be found. However, such code
3837 would be much harder to write and to read. So, if you are
3838 reading this comment and are feeling squirrely, by all means have
3839 a go! I just didn't feel like doing it, so I will simply move
3840 the gap the minimum distance to get it out of the way, and then
3841 deal with an unbroken array. */
3843 /* Make sure the gap won't interfere, by moving it out of the text
3844 we will operate on. */
3845 if (start1 < gap && gap < end2)
3847 if (gap - start1 < end2 - gap)
3848 move_gap (start1);
3849 else
3850 move_gap (end2);
3853 start1_byte = CHAR_TO_BYTE (start1);
3854 start2_byte = CHAR_TO_BYTE (start2);
3855 len1_byte = CHAR_TO_BYTE (end1) - start1_byte;
3856 len2_byte = CHAR_TO_BYTE (end2) - start2_byte;
3858 #ifdef BYTE_COMBINING_DEBUG
3859 if (end1 == start2)
3861 if (count_combining_before (BYTE_POS_ADDR (start2_byte),
3862 len2_byte, start1, start1_byte)
3863 || count_combining_before (BYTE_POS_ADDR (start1_byte),
3864 len1_byte, end2, start2_byte + len2_byte)
3865 || count_combining_after (BYTE_POS_ADDR (start1_byte),
3866 len1_byte, end2, start2_byte + len2_byte))
3867 abort ();
3869 else
3871 if (count_combining_before (BYTE_POS_ADDR (start2_byte),
3872 len2_byte, start1, start1_byte)
3873 || count_combining_before (BYTE_POS_ADDR (start1_byte),
3874 len1_byte, start2, start2_byte)
3875 || count_combining_after (BYTE_POS_ADDR (start2_byte),
3876 len2_byte, end1, start1_byte + len1_byte)
3877 || count_combining_after (BYTE_POS_ADDR (start1_byte),
3878 len1_byte, end2, start2_byte + len2_byte))
3879 abort ();
3881 #endif
3883 /* Hmmm... how about checking to see if the gap is large
3884 enough to use as the temporary storage? That would avoid an
3885 allocation... interesting. Later, don't fool with it now. */
3887 /* Working without memmove, for portability (sigh), so must be
3888 careful of overlapping subsections of the array... */
3890 if (end1 == start2) /* adjacent regions */
3892 modify_region (current_buffer, start1, end2);
3893 record_change (start1, len1 + len2);
3895 tmp_interval1 = copy_intervals (cur_intv, start1, len1);
3896 tmp_interval2 = copy_intervals (cur_intv, start2, len2);
3897 Fset_text_properties (make_number (start1), make_number (end2),
3898 Qnil, Qnil);
3900 /* First region smaller than second. */
3901 if (len1_byte < len2_byte)
3903 /* We use alloca only if it is small,
3904 because we want to avoid stack overflow. */
3905 if (len2_byte > 20000)
3906 temp = (unsigned char *) xmalloc (len2_byte);
3907 else
3908 temp = (unsigned char *) alloca (len2_byte);
3910 /* Don't precompute these addresses. We have to compute them
3911 at the last minute, because the relocating allocator might
3912 have moved the buffer around during the xmalloc. */
3913 start1_addr = BYTE_POS_ADDR (start1_byte);
3914 start2_addr = BYTE_POS_ADDR (start2_byte);
3916 bcopy (start2_addr, temp, len2_byte);
3917 bcopy (start1_addr, start1_addr + len2_byte, len1_byte);
3918 bcopy (temp, start1_addr, len2_byte);
3919 if (len2_byte > 20000)
3920 xfree (temp);
3922 else
3923 /* First region not smaller than second. */
3925 if (len1_byte > 20000)
3926 temp = (unsigned char *) xmalloc (len1_byte);
3927 else
3928 temp = (unsigned char *) alloca (len1_byte);
3929 start1_addr = BYTE_POS_ADDR (start1_byte);
3930 start2_addr = BYTE_POS_ADDR (start2_byte);
3931 bcopy (start1_addr, temp, len1_byte);
3932 bcopy (start2_addr, start1_addr, len2_byte);
3933 bcopy (temp, start1_addr + len2_byte, len1_byte);
3934 if (len1_byte > 20000)
3935 xfree (temp);
3937 graft_intervals_into_buffer (tmp_interval1, start1 + len2,
3938 len1, current_buffer, 0);
3939 graft_intervals_into_buffer (tmp_interval2, start1,
3940 len2, current_buffer, 0);
3941 update_compositions (start1, start1 + len2, CHECK_BORDER);
3942 update_compositions (start1 + len2, end2, CHECK_TAIL);
3944 /* Non-adjacent regions, because end1 != start2, bleagh... */
3945 else
3947 len_mid = start2_byte - (start1_byte + len1_byte);
3949 if (len1_byte == len2_byte)
3950 /* Regions are same size, though, how nice. */
3952 modify_region (current_buffer, start1, end1);
3953 modify_region (current_buffer, start2, end2);
3954 record_change (start1, len1);
3955 record_change (start2, len2);
3956 tmp_interval1 = copy_intervals (cur_intv, start1, len1);
3957 tmp_interval2 = copy_intervals (cur_intv, start2, len2);
3958 Fset_text_properties (make_number (start1), make_number (end1),
3959 Qnil, Qnil);
3960 Fset_text_properties (make_number (start2), make_number (end2),
3961 Qnil, Qnil);
3963 if (len1_byte > 20000)
3964 temp = (unsigned char *) xmalloc (len1_byte);
3965 else
3966 temp = (unsigned char *) alloca (len1_byte);
3967 start1_addr = BYTE_POS_ADDR (start1_byte);
3968 start2_addr = BYTE_POS_ADDR (start2_byte);
3969 bcopy (start1_addr, temp, len1_byte);
3970 bcopy (start2_addr, start1_addr, len2_byte);
3971 bcopy (temp, start2_addr, len1_byte);
3972 if (len1_byte > 20000)
3973 xfree (temp);
3974 graft_intervals_into_buffer (tmp_interval1, start2,
3975 len1, current_buffer, 0);
3976 graft_intervals_into_buffer (tmp_interval2, start1,
3977 len2, current_buffer, 0);
3980 else if (len1_byte < len2_byte) /* Second region larger than first */
3981 /* Non-adjacent & unequal size, area between must also be shifted. */
3983 modify_region (current_buffer, start1, end2);
3984 record_change (start1, (end2 - start1));
3985 tmp_interval1 = copy_intervals (cur_intv, start1, len1);
3986 tmp_interval_mid = copy_intervals (cur_intv, end1, len_mid);
3987 tmp_interval2 = copy_intervals (cur_intv, start2, len2);
3988 Fset_text_properties (make_number (start1), make_number (end2),
3989 Qnil, Qnil);
3991 /* holds region 2 */
3992 if (len2_byte > 20000)
3993 temp = (unsigned char *) xmalloc (len2_byte);
3994 else
3995 temp = (unsigned char *) alloca (len2_byte);
3996 start1_addr = BYTE_POS_ADDR (start1_byte);
3997 start2_addr = BYTE_POS_ADDR (start2_byte);
3998 bcopy (start2_addr, temp, len2_byte);
3999 bcopy (start1_addr, start1_addr + len_mid + len2_byte, len1_byte);
4000 safe_bcopy (start1_addr + len1_byte, start1_addr + len2_byte, len_mid);
4001 bcopy (temp, start1_addr, len2_byte);
4002 if (len2_byte > 20000)
4003 xfree (temp);
4004 graft_intervals_into_buffer (tmp_interval1, end2 - len1,
4005 len1, current_buffer, 0);
4006 graft_intervals_into_buffer (tmp_interval_mid, start1 + len2,
4007 len_mid, current_buffer, 0);
4008 graft_intervals_into_buffer (tmp_interval2, start1,
4009 len2, current_buffer, 0);
4011 else
4012 /* Second region smaller than first. */
4014 record_change (start1, (end2 - start1));
4015 modify_region (current_buffer, start1, end2);
4017 tmp_interval1 = copy_intervals (cur_intv, start1, len1);
4018 tmp_interval_mid = copy_intervals (cur_intv, end1, len_mid);
4019 tmp_interval2 = copy_intervals (cur_intv, start2, len2);
4020 Fset_text_properties (make_number (start1), make_number (end2),
4021 Qnil, Qnil);
4023 /* holds region 1 */
4024 if (len1_byte > 20000)
4025 temp = (unsigned char *) xmalloc (len1_byte);
4026 else
4027 temp = (unsigned char *) alloca (len1_byte);
4028 start1_addr = BYTE_POS_ADDR (start1_byte);
4029 start2_addr = BYTE_POS_ADDR (start2_byte);
4030 bcopy (start1_addr, temp, len1_byte);
4031 bcopy (start2_addr, start1_addr, len2_byte);
4032 bcopy (start1_addr + len1_byte, start1_addr + len2_byte, len_mid);
4033 bcopy (temp, start1_addr + len2_byte + len_mid, len1_byte);
4034 if (len1_byte > 20000)
4035 xfree (temp);
4036 graft_intervals_into_buffer (tmp_interval1, end2 - len1,
4037 len1, current_buffer, 0);
4038 graft_intervals_into_buffer (tmp_interval_mid, start1 + len2,
4039 len_mid, current_buffer, 0);
4040 graft_intervals_into_buffer (tmp_interval2, start1,
4041 len2, current_buffer, 0);
4044 update_compositions (start1, start1 + len2, CHECK_BORDER);
4045 update_compositions (end2 - len1, end2, CHECK_BORDER);
4048 /* When doing multiple transpositions, it might be nice
4049 to optimize this. Perhaps the markers in any one buffer
4050 should be organized in some sorted data tree. */
4051 if (NILP (leave_markers))
4053 transpose_markers (start1, end1, start2, end2,
4054 start1_byte, start1_byte + len1_byte,
4055 start2_byte, start2_byte + len2_byte);
4056 fix_overlays_in_range (start1, end2);
4059 return Qnil;
4063 void
4064 syms_of_editfns ()
4066 environbuf = 0;
4068 Qbuffer_access_fontify_functions
4069 = intern ("buffer-access-fontify-functions");
4070 staticpro (&Qbuffer_access_fontify_functions);
4072 DEFVAR_LISP ("inhibit-field-text-motion", &Vinhibit_field_text_motion,
4073 doc: /* Non-nil means text motion commands don't notice fields. */);
4074 Vinhibit_field_text_motion = Qnil;
4076 DEFVAR_LISP ("buffer-access-fontify-functions",
4077 &Vbuffer_access_fontify_functions,
4078 doc: /* List of functions called by `buffer-substring' to fontify if necessary.
4079 Each function is called with two arguments which specify the range
4080 of the buffer being accessed. */);
4081 Vbuffer_access_fontify_functions = Qnil;
4084 Lisp_Object obuf;
4085 extern Lisp_Object Vprin1_to_string_buffer;
4086 obuf = Fcurrent_buffer ();
4087 /* Do this here, because init_buffer_once is too early--it won't work. */
4088 Fset_buffer (Vprin1_to_string_buffer);
4089 /* Make sure buffer-access-fontify-functions is nil in this buffer. */
4090 Fset (Fmake_local_variable (intern ("buffer-access-fontify-functions")),
4091 Qnil);
4092 Fset_buffer (obuf);
4095 DEFVAR_LISP ("buffer-access-fontified-property",
4096 &Vbuffer_access_fontified_property,
4097 doc: /* Property which (if non-nil) indicates text has been fontified.
4098 `buffer-substring' need not call the `buffer-access-fontify-functions'
4099 functions if all the text being accessed has this property. */);
4100 Vbuffer_access_fontified_property = Qnil;
4102 DEFVAR_LISP ("system-name", &Vsystem_name,
4103 doc: /* The name of the machine Emacs is running on. */);
4105 DEFVAR_LISP ("user-full-name", &Vuser_full_name,
4106 doc: /* The full name of the user logged in. */);
4108 DEFVAR_LISP ("user-login-name", &Vuser_login_name,
4109 doc: /* The user's name, taken from environment variables if possible. */);
4111 DEFVAR_LISP ("user-real-login-name", &Vuser_real_login_name,
4112 doc: /* The user's name, based upon the real uid only. */);
4114 defsubr (&Spropertize);
4115 defsubr (&Schar_equal);
4116 defsubr (&Sgoto_char);
4117 defsubr (&Sstring_to_char);
4118 defsubr (&Schar_to_string);
4119 defsubr (&Sbuffer_substring);
4120 defsubr (&Sbuffer_substring_no_properties);
4121 defsubr (&Sbuffer_string);
4123 defsubr (&Spoint_marker);
4124 defsubr (&Smark_marker);
4125 defsubr (&Spoint);
4126 defsubr (&Sregion_beginning);
4127 defsubr (&Sregion_end);
4129 staticpro (&Qfield);
4130 Qfield = intern ("field");
4131 staticpro (&Qboundary);
4132 Qboundary = intern ("boundary");
4133 defsubr (&Sfield_beginning);
4134 defsubr (&Sfield_end);
4135 defsubr (&Sfield_string);
4136 defsubr (&Sfield_string_no_properties);
4137 defsubr (&Sdelete_field);
4138 defsubr (&Sconstrain_to_field);
4140 defsubr (&Sline_beginning_position);
4141 defsubr (&Sline_end_position);
4143 /* defsubr (&Smark); */
4144 /* defsubr (&Sset_mark); */
4145 defsubr (&Ssave_excursion);
4146 defsubr (&Ssave_current_buffer);
4148 defsubr (&Sbufsize);
4149 defsubr (&Spoint_max);
4150 defsubr (&Spoint_min);
4151 defsubr (&Spoint_min_marker);
4152 defsubr (&Spoint_max_marker);
4153 defsubr (&Sgap_position);
4154 defsubr (&Sgap_size);
4155 defsubr (&Sposition_bytes);
4156 defsubr (&Sbyte_to_position);
4158 defsubr (&Sbobp);
4159 defsubr (&Seobp);
4160 defsubr (&Sbolp);
4161 defsubr (&Seolp);
4162 defsubr (&Sfollowing_char);
4163 defsubr (&Sprevious_char);
4164 defsubr (&Schar_after);
4165 defsubr (&Schar_before);
4166 defsubr (&Sinsert);
4167 defsubr (&Sinsert_before_markers);
4168 defsubr (&Sinsert_and_inherit);
4169 defsubr (&Sinsert_and_inherit_before_markers);
4170 defsubr (&Sinsert_char);
4172 defsubr (&Suser_login_name);
4173 defsubr (&Suser_real_login_name);
4174 defsubr (&Suser_uid);
4175 defsubr (&Suser_real_uid);
4176 defsubr (&Suser_full_name);
4177 defsubr (&Semacs_pid);
4178 defsubr (&Scurrent_time);
4179 defsubr (&Sformat_time_string);
4180 defsubr (&Sfloat_time);
4181 defsubr (&Sdecode_time);
4182 defsubr (&Sencode_time);
4183 defsubr (&Scurrent_time_string);
4184 defsubr (&Scurrent_time_zone);
4185 defsubr (&Sset_time_zone_rule);
4186 defsubr (&Ssystem_name);
4187 defsubr (&Smessage);
4188 defsubr (&Smessage_box);
4189 defsubr (&Smessage_or_box);
4190 defsubr (&Scurrent_message);
4191 defsubr (&Sformat);
4193 defsubr (&Sinsert_buffer_substring);
4194 defsubr (&Scompare_buffer_substrings);
4195 defsubr (&Ssubst_char_in_region);
4196 defsubr (&Stranslate_region);
4197 defsubr (&Sdelete_region);
4198 defsubr (&Sdelete_and_extract_region);
4199 defsubr (&Swiden);
4200 defsubr (&Snarrow_to_region);
4201 defsubr (&Ssave_restriction);
4202 defsubr (&Stranspose_regions);