1 /* Random utility Lisp functions.
2 Copyright (C) 1985, 86, 87, 93, 94, 95, 97, 98, 99, 2000, 2001, 02, 03, 2004
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)
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. */
30 /* On Mac OS X, defining this conflicts with precompiled headers. */
32 /* Note on some machines this defines `vector' as a typedef,
33 so make sure we don't use that name in this file. */
37 #endif /* ! MAC_OSX */
46 #include "intervals.h"
49 #include "blockinput.h"
50 #if defined (HAVE_MENUS) && defined (HAVE_X_WINDOWS)
55 #define NULL ((POINTER_TYPE *)0)
58 /* Nonzero enables use of dialog boxes for questions
59 asked by mouse commands. */
62 /* Nonzero enables use of a file dialog for file name
63 questions asked by mouse commands. */
66 extern int minibuffer_auto_raise
;
67 extern Lisp_Object minibuf_window
;
68 extern Lisp_Object Vlocale_coding_system
;
70 Lisp_Object Qstring_lessp
, Qprovide
, Qrequire
;
71 Lisp_Object Qyes_or_no_p_history
;
72 Lisp_Object Qcursor_in_echo_area
;
73 Lisp_Object Qwidget_type
;
74 Lisp_Object Qcodeset
, Qdays
, Qmonths
, Qpaper
;
76 extern Lisp_Object Qinput_method_function
;
78 static int internal_equal ();
80 extern long get_random ();
81 extern void seed_random ();
87 DEFUN ("identity", Fidentity
, Sidentity
, 1, 1, 0,
88 doc
: /* Return the argument unchanged. */)
95 DEFUN ("random", Frandom
, Srandom
, 0, 1, 0,
96 doc
: /* Return a pseudo-random number.
97 All integers representable in Lisp are equally likely.
98 On most systems, this is 29 bits' worth.
99 With positive integer argument N, return random number in interval [0,N).
100 With argument t, set the random number seed from the current time and pid. */)
105 Lisp_Object lispy_val
;
106 unsigned long denominator
;
109 seed_random (getpid () + time (NULL
));
110 if (NATNUMP (n
) && XFASTINT (n
) != 0)
112 /* Try to take our random number from the higher bits of VAL,
113 not the lower, since (says Gentzel) the low bits of `random'
114 are less random than the higher ones. We do this by using the
115 quotient rather than the remainder. At the high end of the RNG
116 it's possible to get a quotient larger than n; discarding
117 these values eliminates the bias that would otherwise appear
118 when using a large n. */
119 denominator
= ((unsigned long)1 << VALBITS
) / XFASTINT (n
);
121 val
= get_random () / denominator
;
122 while (val
>= XFASTINT (n
));
126 XSETINT (lispy_val
, val
);
130 /* Random data-structure functions */
132 DEFUN ("length", Flength
, Slength
, 1, 1, 0,
133 doc
: /* Return the length of vector, list or string SEQUENCE.
134 A byte-code function object is also allowed.
135 If the string contains multibyte characters, this is not necessarily
136 the number of bytes in the string; it is the number of characters.
137 To get the number of bytes, use `string-bytes'. */)
139 register Lisp_Object sequence
;
141 register Lisp_Object val
;
145 if (STRINGP (sequence
))
146 XSETFASTINT (val
, SCHARS (sequence
));
147 else if (VECTORP (sequence
))
148 XSETFASTINT (val
, XVECTOR (sequence
)->size
);
149 else if (SUB_CHAR_TABLE_P (sequence
))
150 XSETFASTINT (val
, SUB_CHAR_TABLE_ORDINARY_SLOTS
);
151 else if (CHAR_TABLE_P (sequence
))
152 XSETFASTINT (val
, MAX_CHAR
);
153 else if (BOOL_VECTOR_P (sequence
))
154 XSETFASTINT (val
, XBOOL_VECTOR (sequence
)->size
);
155 else if (COMPILEDP (sequence
))
156 XSETFASTINT (val
, XVECTOR (sequence
)->size
& PSEUDOVECTOR_SIZE_MASK
);
157 else if (CONSP (sequence
))
160 while (CONSP (sequence
))
162 sequence
= XCDR (sequence
);
165 if (!CONSP (sequence
))
168 sequence
= XCDR (sequence
);
173 if (!NILP (sequence
))
174 wrong_type_argument (Qlistp
, sequence
);
176 val
= make_number (i
);
178 else if (NILP (sequence
))
179 XSETFASTINT (val
, 0);
182 sequence
= wrong_type_argument (Qsequencep
, sequence
);
188 /* This does not check for quits. That is safe
189 since it must terminate. */
191 DEFUN ("safe-length", Fsafe_length
, Ssafe_length
, 1, 1, 0,
192 doc
: /* Return the length of a list, but avoid error or infinite loop.
193 This function never gets an error. If LIST is not really a list,
194 it returns 0. If LIST is circular, it returns a finite value
195 which is at least the number of distinct elements. */)
199 Lisp_Object tail
, halftail
, length
;
202 /* halftail is used to detect circular lists. */
204 for (tail
= list
; CONSP (tail
); tail
= XCDR (tail
))
206 if (EQ (tail
, halftail
) && len
!= 0)
210 halftail
= XCDR (halftail
);
213 XSETINT (length
, len
);
217 DEFUN ("string-bytes", Fstring_bytes
, Sstring_bytes
, 1, 1, 0,
218 doc
: /* Return the number of bytes in STRING.
219 If STRING is a multibyte string, this is greater than the length of STRING. */)
223 CHECK_STRING (string
);
224 return make_number (SBYTES (string
));
227 DEFUN ("string-equal", Fstring_equal
, Sstring_equal
, 2, 2, 0,
228 doc
: /* Return t if two strings have identical contents.
229 Case is significant, but text properties are ignored.
230 Symbols are also allowed; their print names are used instead. */)
232 register Lisp_Object s1
, s2
;
235 s1
= SYMBOL_NAME (s1
);
237 s2
= SYMBOL_NAME (s2
);
241 if (SCHARS (s1
) != SCHARS (s2
)
242 || SBYTES (s1
) != SBYTES (s2
)
243 || bcmp (SDATA (s1
), SDATA (s2
), SBYTES (s1
)))
248 DEFUN ("compare-strings", Fcompare_strings
,
249 Scompare_strings
, 6, 7, 0,
250 doc
: /* Compare the contents of two strings, converting to multibyte if needed.
251 In string STR1, skip the first START1 characters and stop at END1.
252 In string STR2, skip the first START2 characters and stop at END2.
253 END1 and END2 default to the full lengths of the respective strings.
255 Case is significant in this comparison if IGNORE-CASE is nil.
256 Unibyte strings are converted to multibyte for comparison.
258 The value is t if the strings (or specified portions) match.
259 If string STR1 is less, the value is a negative number N;
260 - 1 - N is the number of characters that match at the beginning.
261 If string STR1 is greater, the value is a positive number N;
262 N - 1 is the number of characters that match at the beginning. */)
263 (str1
, start1
, end1
, str2
, start2
, end2
, ignore_case
)
264 Lisp_Object str1
, start1
, end1
, start2
, str2
, end2
, ignore_case
;
266 register int end1_char
, end2_char
;
267 register int i1
, i1_byte
, i2
, i2_byte
;
272 start1
= make_number (0);
274 start2
= make_number (0);
275 CHECK_NATNUM (start1
);
276 CHECK_NATNUM (start2
);
285 i1_byte
= string_char_to_byte (str1
, i1
);
286 i2_byte
= string_char_to_byte (str2
, i2
);
288 end1_char
= SCHARS (str1
);
289 if (! NILP (end1
) && end1_char
> XINT (end1
))
290 end1_char
= XINT (end1
);
292 end2_char
= SCHARS (str2
);
293 if (! NILP (end2
) && end2_char
> XINT (end2
))
294 end2_char
= XINT (end2
);
296 while (i1
< end1_char
&& i2
< end2_char
)
298 /* When we find a mismatch, we must compare the
299 characters, not just the bytes. */
302 if (STRING_MULTIBYTE (str1
))
303 FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c1
, str1
, i1
, i1_byte
);
306 c1
= SREF (str1
, i1
++);
307 c1
= unibyte_char_to_multibyte (c1
);
310 if (STRING_MULTIBYTE (str2
))
311 FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c2
, str2
, i2
, i2_byte
);
314 c2
= SREF (str2
, i2
++);
315 c2
= unibyte_char_to_multibyte (c2
);
321 if (! NILP (ignore_case
))
325 tem
= Fupcase (make_number (c1
));
327 tem
= Fupcase (make_number (c2
));
334 /* Note that I1 has already been incremented
335 past the character that we are comparing;
336 hence we don't add or subtract 1 here. */
338 return make_number (- i1
+ XINT (start1
));
340 return make_number (i1
- XINT (start1
));
344 return make_number (i1
- XINT (start1
) + 1);
346 return make_number (- i1
+ XINT (start1
) - 1);
351 DEFUN ("string-lessp", Fstring_lessp
, Sstring_lessp
, 2, 2, 0,
352 doc
: /* Return t if first arg string is less than second in lexicographic order.
354 Symbols are also allowed; their print names are used instead. */)
356 register Lisp_Object s1
, s2
;
359 register int i1
, i1_byte
, i2
, i2_byte
;
362 s1
= SYMBOL_NAME (s1
);
364 s2
= SYMBOL_NAME (s2
);
368 i1
= i1_byte
= i2
= i2_byte
= 0;
371 if (end
> SCHARS (s2
))
376 /* When we find a mismatch, we must compare the
377 characters, not just the bytes. */
380 FETCH_STRING_CHAR_ADVANCE (c1
, s1
, i1
, i1_byte
);
381 FETCH_STRING_CHAR_ADVANCE (c2
, s2
, i2
, i2_byte
);
384 return c1
< c2
? Qt
: Qnil
;
386 return i1
< SCHARS (s2
) ? Qt
: Qnil
;
389 static Lisp_Object
concat ();
400 return concat (2, args
, Lisp_String
, 0);
402 return concat (2, &s1
, Lisp_String
, 0);
403 #endif /* NO_ARG_ARRAY */
409 Lisp_Object s1
, s2
, s3
;
416 return concat (3, args
, Lisp_String
, 0);
418 return concat (3, &s1
, Lisp_String
, 0);
419 #endif /* NO_ARG_ARRAY */
422 DEFUN ("append", Fappend
, Sappend
, 0, MANY
, 0,
423 doc
: /* Concatenate all the arguments and make the result a list.
424 The result is a list whose elements are the elements of all the arguments.
425 Each argument may be a list, vector or string.
426 The last argument is not copied, just used as the tail of the new list.
427 usage: (append &rest SEQUENCES) */)
432 return concat (nargs
, args
, Lisp_Cons
, 1);
435 DEFUN ("concat", Fconcat
, Sconcat
, 0, MANY
, 0,
436 doc
: /* Concatenate all the arguments and make the result a string.
437 The result is a string whose elements are the elements of all the arguments.
438 Each argument may be a string or a list or vector of characters (integers).
439 usage: (concat &rest SEQUENCES) */)
444 return concat (nargs
, args
, Lisp_String
, 0);
447 DEFUN ("vconcat", Fvconcat
, Svconcat
, 0, MANY
, 0,
448 doc
: /* Concatenate all the arguments and make the result a vector.
449 The result is a vector whose elements are the elements of all the arguments.
450 Each argument may be a list, vector or string.
451 usage: (vconcat &rest SEQUENCES) */)
456 return concat (nargs
, args
, Lisp_Vectorlike
, 0);
459 /* Return a copy of a sub char table ARG. The elements except for a
460 nested sub char table are not copied. */
462 copy_sub_char_table (arg
)
465 Lisp_Object copy
= make_sub_char_table (XCHAR_TABLE (arg
)->defalt
);
468 /* Copy all the contents. */
469 bcopy (XCHAR_TABLE (arg
)->contents
, XCHAR_TABLE (copy
)->contents
,
470 SUB_CHAR_TABLE_ORDINARY_SLOTS
* sizeof (Lisp_Object
));
471 /* Recursively copy any sub char-tables in the ordinary slots. */
472 for (i
= 32; i
< SUB_CHAR_TABLE_ORDINARY_SLOTS
; i
++)
473 if (SUB_CHAR_TABLE_P (XCHAR_TABLE (arg
)->contents
[i
]))
474 XCHAR_TABLE (copy
)->contents
[i
]
475 = copy_sub_char_table (XCHAR_TABLE (copy
)->contents
[i
]);
481 DEFUN ("copy-sequence", Fcopy_sequence
, Scopy_sequence
, 1, 1, 0,
482 doc
: /* Return a copy of a list, vector, string or char-table.
483 The elements of a list or vector are not copied; they are shared
484 with the original. */)
488 if (NILP (arg
)) return arg
;
490 if (CHAR_TABLE_P (arg
))
495 copy
= Fmake_char_table (XCHAR_TABLE (arg
)->purpose
, Qnil
);
496 /* Copy all the slots, including the extra ones. */
497 bcopy (XVECTOR (arg
)->contents
, XVECTOR (copy
)->contents
,
498 ((XCHAR_TABLE (arg
)->size
& PSEUDOVECTOR_SIZE_MASK
)
499 * sizeof (Lisp_Object
)));
501 /* Recursively copy any sub char tables in the ordinary slots
502 for multibyte characters. */
503 for (i
= CHAR_TABLE_SINGLE_BYTE_SLOTS
;
504 i
< CHAR_TABLE_ORDINARY_SLOTS
; i
++)
505 if (SUB_CHAR_TABLE_P (XCHAR_TABLE (arg
)->contents
[i
]))
506 XCHAR_TABLE (copy
)->contents
[i
]
507 = copy_sub_char_table (XCHAR_TABLE (copy
)->contents
[i
]);
512 if (BOOL_VECTOR_P (arg
))
516 = ((XBOOL_VECTOR (arg
)->size
+ BOOL_VECTOR_BITS_PER_CHAR
- 1)
517 / BOOL_VECTOR_BITS_PER_CHAR
);
519 val
= Fmake_bool_vector (Flength (arg
), Qnil
);
520 bcopy (XBOOL_VECTOR (arg
)->data
, XBOOL_VECTOR (val
)->data
,
525 if (!CONSP (arg
) && !VECTORP (arg
) && !STRINGP (arg
))
526 arg
= wrong_type_argument (Qsequencep
, arg
);
527 return concat (1, &arg
, CONSP (arg
) ? Lisp_Cons
: XTYPE (arg
), 0);
530 /* This structure holds information of an argument of `concat' that is
531 a string and has text properties to be copied. */
534 int argnum
; /* refer to ARGS (arguments of `concat') */
535 int from
; /* refer to ARGS[argnum] (argument string) */
536 int to
; /* refer to VAL (the target string) */
540 concat (nargs
, args
, target_type
, last_special
)
543 enum Lisp_Type target_type
;
547 register Lisp_Object tail
;
548 register Lisp_Object
this;
550 int toindex_byte
= 0;
551 register int result_len
;
552 register int result_len_byte
;
554 Lisp_Object last_tail
;
557 /* When we make a multibyte string, we can't copy text properties
558 while concatinating each string because the length of resulting
559 string can't be decided until we finish the whole concatination.
560 So, we record strings that have text properties to be copied
561 here, and copy the text properties after the concatination. */
562 struct textprop_rec
*textprops
= NULL
;
563 /* Number of elments in textprops. */
564 int num_textprops
= 0;
568 /* In append, the last arg isn't treated like the others */
569 if (last_special
&& nargs
> 0)
572 last_tail
= args
[nargs
];
577 /* Canonicalize each argument. */
578 for (argnum
= 0; argnum
< nargs
; argnum
++)
581 if (!(CONSP (this) || NILP (this) || VECTORP (this) || STRINGP (this)
582 || COMPILEDP (this) || BOOL_VECTOR_P (this)))
584 args
[argnum
] = wrong_type_argument (Qsequencep
, this);
588 /* Compute total length in chars of arguments in RESULT_LEN.
589 If desired output is a string, also compute length in bytes
590 in RESULT_LEN_BYTE, and determine in SOME_MULTIBYTE
591 whether the result should be a multibyte string. */
595 for (argnum
= 0; argnum
< nargs
; argnum
++)
599 len
= XFASTINT (Flength (this));
600 if (target_type
== Lisp_String
)
602 /* We must count the number of bytes needed in the string
603 as well as the number of characters. */
609 for (i
= 0; i
< len
; i
++)
611 ch
= XVECTOR (this)->contents
[i
];
613 wrong_type_argument (Qintegerp
, ch
);
614 this_len_byte
= CHAR_BYTES (XINT (ch
));
615 result_len_byte
+= this_len_byte
;
616 if (!SINGLE_BYTE_CHAR_P (XINT (ch
)))
619 else if (BOOL_VECTOR_P (this) && XBOOL_VECTOR (this)->size
> 0)
620 wrong_type_argument (Qintegerp
, Faref (this, make_number (0)));
621 else if (CONSP (this))
622 for (; CONSP (this); this = XCDR (this))
626 wrong_type_argument (Qintegerp
, ch
);
627 this_len_byte
= CHAR_BYTES (XINT (ch
));
628 result_len_byte
+= this_len_byte
;
629 if (!SINGLE_BYTE_CHAR_P (XINT (ch
)))
632 else if (STRINGP (this))
634 if (STRING_MULTIBYTE (this))
637 result_len_byte
+= SBYTES (this);
640 result_len_byte
+= count_size_as_multibyte (SDATA (this),
648 if (! some_multibyte
)
649 result_len_byte
= result_len
;
651 /* Create the output object. */
652 if (target_type
== Lisp_Cons
)
653 val
= Fmake_list (make_number (result_len
), Qnil
);
654 else if (target_type
== Lisp_Vectorlike
)
655 val
= Fmake_vector (make_number (result_len
), Qnil
);
656 else if (some_multibyte
)
657 val
= make_uninit_multibyte_string (result_len
, result_len_byte
);
659 val
= make_uninit_string (result_len
);
661 /* In `append', if all but last arg are nil, return last arg. */
662 if (target_type
== Lisp_Cons
&& EQ (val
, Qnil
))
665 /* Copy the contents of the args into the result. */
667 tail
= val
, toindex
= -1; /* -1 in toindex is flag we are making a list */
669 toindex
= 0, toindex_byte
= 0;
674 = (struct textprop_rec
*) alloca (sizeof (struct textprop_rec
) * nargs
);
676 for (argnum
= 0; argnum
< nargs
; argnum
++)
680 register unsigned int thisindex
= 0;
681 register unsigned int thisindex_byte
= 0;
685 thislen
= Flength (this), thisleni
= XINT (thislen
);
687 /* Between strings of the same kind, copy fast. */
688 if (STRINGP (this) && STRINGP (val
)
689 && STRING_MULTIBYTE (this) == some_multibyte
)
691 int thislen_byte
= SBYTES (this);
693 bcopy (SDATA (this), SDATA (val
) + toindex_byte
,
695 if (! NULL_INTERVAL_P (STRING_INTERVALS (this)))
697 textprops
[num_textprops
].argnum
= argnum
;
698 textprops
[num_textprops
].from
= 0;
699 textprops
[num_textprops
++].to
= toindex
;
701 toindex_byte
+= thislen_byte
;
703 STRING_SET_CHARS (val
, SCHARS (val
));
705 /* Copy a single-byte string to a multibyte string. */
706 else if (STRINGP (this) && STRINGP (val
))
708 if (! NULL_INTERVAL_P (STRING_INTERVALS (this)))
710 textprops
[num_textprops
].argnum
= argnum
;
711 textprops
[num_textprops
].from
= 0;
712 textprops
[num_textprops
++].to
= toindex
;
714 toindex_byte
+= copy_text (SDATA (this),
715 SDATA (val
) + toindex_byte
,
716 SCHARS (this), 0, 1);
720 /* Copy element by element. */
723 register Lisp_Object elt
;
725 /* Fetch next element of `this' arg into `elt', or break if
726 `this' is exhausted. */
727 if (NILP (this)) break;
729 elt
= XCAR (this), this = XCDR (this);
730 else if (thisindex
>= thisleni
)
732 else if (STRINGP (this))
735 if (STRING_MULTIBYTE (this))
737 FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c
, this,
740 XSETFASTINT (elt
, c
);
744 XSETFASTINT (elt
, SREF (this, thisindex
++));
746 && (XINT (elt
) >= 0240
747 || (XINT (elt
) >= 0200
748 && ! NILP (Vnonascii_translation_table
)))
749 && XINT (elt
) < 0400)
751 c
= unibyte_char_to_multibyte (XINT (elt
));
756 else if (BOOL_VECTOR_P (this))
759 byte
= XBOOL_VECTOR (this)->data
[thisindex
/ BOOL_VECTOR_BITS_PER_CHAR
];
760 if (byte
& (1 << (thisindex
% BOOL_VECTOR_BITS_PER_CHAR
)))
767 elt
= XVECTOR (this)->contents
[thisindex
++];
769 /* Store this element into the result. */
776 else if (VECTORP (val
))
777 XVECTOR (val
)->contents
[toindex
++] = elt
;
781 if (SINGLE_BYTE_CHAR_P (XINT (elt
)))
785 += CHAR_STRING (XINT (elt
),
786 SDATA (val
) + toindex_byte
);
788 SSET (val
, toindex_byte
++, XINT (elt
));
792 /* If we have any multibyte characters,
793 we already decided to make a multibyte string. */
796 /* P exists as a variable
797 to avoid a bug on the Masscomp C compiler. */
798 unsigned char *p
= SDATA (val
) + toindex_byte
;
800 toindex_byte
+= CHAR_STRING (c
, p
);
807 XSETCDR (prev
, last_tail
);
809 if (num_textprops
> 0)
812 int last_to_end
= -1;
814 for (argnum
= 0; argnum
< num_textprops
; argnum
++)
816 this = args
[textprops
[argnum
].argnum
];
817 props
= text_property_list (this,
819 make_number (SCHARS (this)),
821 /* If successive arguments have properites, be sure that the
822 value of `composition' property be the copy. */
823 if (last_to_end
== textprops
[argnum
].to
)
824 make_composition_value_copy (props
);
825 add_text_properties_from_list (val
, props
,
826 make_number (textprops
[argnum
].to
));
827 last_to_end
= textprops
[argnum
].to
+ SCHARS (this);
833 static Lisp_Object string_char_byte_cache_string
;
834 static int string_char_byte_cache_charpos
;
835 static int string_char_byte_cache_bytepos
;
838 clear_string_char_byte_cache ()
840 string_char_byte_cache_string
= Qnil
;
843 /* Return the character index corresponding to CHAR_INDEX in STRING. */
846 string_char_to_byte (string
, char_index
)
851 int best_below
, best_below_byte
;
852 int best_above
, best_above_byte
;
854 best_below
= best_below_byte
= 0;
855 best_above
= SCHARS (string
);
856 best_above_byte
= SBYTES (string
);
857 if (best_above
== best_above_byte
)
860 if (EQ (string
, string_char_byte_cache_string
))
862 if (string_char_byte_cache_charpos
< char_index
)
864 best_below
= string_char_byte_cache_charpos
;
865 best_below_byte
= string_char_byte_cache_bytepos
;
869 best_above
= string_char_byte_cache_charpos
;
870 best_above_byte
= string_char_byte_cache_bytepos
;
874 if (char_index
- best_below
< best_above
- char_index
)
876 while (best_below
< char_index
)
879 FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c
, string
,
880 best_below
, best_below_byte
);
883 i_byte
= best_below_byte
;
887 while (best_above
> char_index
)
889 unsigned char *pend
= SDATA (string
) + best_above_byte
;
890 unsigned char *pbeg
= pend
- best_above_byte
;
891 unsigned char *p
= pend
- 1;
894 while (p
> pbeg
&& !CHAR_HEAD_P (*p
)) p
--;
895 PARSE_MULTIBYTE_SEQ (p
, pend
- p
, bytes
);
896 if (bytes
== pend
- p
)
897 best_above_byte
-= bytes
;
898 else if (bytes
> pend
- p
)
899 best_above_byte
-= (pend
- p
);
905 i_byte
= best_above_byte
;
908 string_char_byte_cache_bytepos
= i_byte
;
909 string_char_byte_cache_charpos
= i
;
910 string_char_byte_cache_string
= string
;
915 /* Return the character index corresponding to BYTE_INDEX in STRING. */
918 string_byte_to_char (string
, byte_index
)
923 int best_below
, best_below_byte
;
924 int best_above
, best_above_byte
;
926 best_below
= best_below_byte
= 0;
927 best_above
= SCHARS (string
);
928 best_above_byte
= SBYTES (string
);
929 if (best_above
== best_above_byte
)
932 if (EQ (string
, string_char_byte_cache_string
))
934 if (string_char_byte_cache_bytepos
< byte_index
)
936 best_below
= string_char_byte_cache_charpos
;
937 best_below_byte
= string_char_byte_cache_bytepos
;
941 best_above
= string_char_byte_cache_charpos
;
942 best_above_byte
= string_char_byte_cache_bytepos
;
946 if (byte_index
- best_below_byte
< best_above_byte
- byte_index
)
948 while (best_below_byte
< byte_index
)
951 FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c
, string
,
952 best_below
, best_below_byte
);
955 i_byte
= best_below_byte
;
959 while (best_above_byte
> byte_index
)
961 unsigned char *pend
= SDATA (string
) + best_above_byte
;
962 unsigned char *pbeg
= pend
- best_above_byte
;
963 unsigned char *p
= pend
- 1;
966 while (p
> pbeg
&& !CHAR_HEAD_P (*p
)) p
--;
967 PARSE_MULTIBYTE_SEQ (p
, pend
- p
, bytes
);
968 if (bytes
== pend
- p
)
969 best_above_byte
-= bytes
;
970 else if (bytes
> pend
- p
)
971 best_above_byte
-= (pend
- p
);
977 i_byte
= best_above_byte
;
980 string_char_byte_cache_bytepos
= i_byte
;
981 string_char_byte_cache_charpos
= i
;
982 string_char_byte_cache_string
= string
;
987 /* Convert STRING to a multibyte string.
988 Single-byte characters 0240 through 0377 are converted
989 by adding nonascii_insert_offset to each. */
992 string_make_multibyte (string
)
1000 if (STRING_MULTIBYTE (string
))
1003 nbytes
= count_size_as_multibyte (SDATA (string
),
1005 /* If all the chars are ASCII, they won't need any more bytes
1006 once converted. In that case, we can return STRING itself. */
1007 if (nbytes
== SBYTES (string
))
1010 SAFE_ALLOCA (buf
, unsigned char *, nbytes
);
1011 copy_text (SDATA (string
), buf
, SBYTES (string
),
1014 ret
= make_multibyte_string (buf
, SCHARS (string
), nbytes
);
1021 /* Convert STRING to a multibyte string without changing each
1022 character codes. Thus, characters 0200 trough 0237 are converted
1023 to eight-bit-control characters, and characters 0240 through 0377
1024 are converted eight-bit-graphic characters. */
1027 string_to_multibyte (string
)
1035 if (STRING_MULTIBYTE (string
))
1038 nbytes
= parse_str_to_multibyte (SDATA (string
), SBYTES (string
));
1039 /* If all the chars are ASCII or eight-bit-graphic, they won't need
1040 any more bytes once converted. */
1041 if (nbytes
== SBYTES (string
))
1042 return make_multibyte_string (SDATA (string
), nbytes
, nbytes
);
1044 SAFE_ALLOCA (buf
, unsigned char *, nbytes
);
1045 bcopy (SDATA (string
), buf
, SBYTES (string
));
1046 str_to_multibyte (buf
, nbytes
, SBYTES (string
));
1048 ret
= make_multibyte_string (buf
, SCHARS (string
), nbytes
);
1055 /* Convert STRING to a single-byte string. */
1058 string_make_unibyte (string
)
1066 if (! STRING_MULTIBYTE (string
))
1069 nchars
= SCHARS (string
);
1071 SAFE_ALLOCA (buf
, unsigned char *, nchars
);
1072 copy_text (SDATA (string
), buf
, SBYTES (string
),
1075 ret
= make_unibyte_string (buf
, nchars
);
1081 DEFUN ("string-make-multibyte", Fstring_make_multibyte
, Sstring_make_multibyte
,
1083 doc
: /* Return the multibyte equivalent of STRING.
1084 If STRING is unibyte and contains non-ASCII characters, the function
1085 `unibyte-char-to-multibyte' is used to convert each unibyte character
1086 to a multibyte character. In this case, the returned string is a
1087 newly created string with no text properties. If STRING is multibyte
1088 or entirely ASCII, it is returned unchanged. In particular, when
1089 STRING is unibyte and entirely ASCII, the returned string is unibyte.
1090 \(When the characters are all ASCII, Emacs primitives will treat the
1091 string the same way whether it is unibyte or multibyte.) */)
1095 CHECK_STRING (string
);
1097 return string_make_multibyte (string
);
1100 DEFUN ("string-make-unibyte", Fstring_make_unibyte
, Sstring_make_unibyte
,
1102 doc
: /* Return the unibyte equivalent of STRING.
1103 Multibyte character codes are converted to unibyte according to
1104 `nonascii-translation-table' or, if that is nil, `nonascii-insert-offset'.
1105 If the lookup in the translation table fails, this function takes just
1106 the low 8 bits of each character. */)
1110 CHECK_STRING (string
);
1112 return string_make_unibyte (string
);
1115 DEFUN ("string-as-unibyte", Fstring_as_unibyte
, Sstring_as_unibyte
,
1117 doc
: /* Return a unibyte string with the same individual bytes as STRING.
1118 If STRING is unibyte, the result is STRING itself.
1119 Otherwise it is a newly created string, with no text properties.
1120 If STRING is multibyte and contains a character of charset
1121 `eight-bit-control' or `eight-bit-graphic', it is converted to the
1122 corresponding single byte. */)
1126 CHECK_STRING (string
);
1128 if (STRING_MULTIBYTE (string
))
1130 int bytes
= SBYTES (string
);
1131 unsigned char *str
= (unsigned char *) xmalloc (bytes
);
1133 bcopy (SDATA (string
), str
, bytes
);
1134 bytes
= str_as_unibyte (str
, bytes
);
1135 string
= make_unibyte_string (str
, bytes
);
1141 DEFUN ("string-as-multibyte", Fstring_as_multibyte
, Sstring_as_multibyte
,
1143 doc
: /* Return a multibyte string with the same individual bytes as STRING.
1144 If STRING is multibyte, the result is STRING itself.
1145 Otherwise it is a newly created string, with no text properties.
1146 If STRING is unibyte and contains an individual 8-bit byte (i.e. not
1147 part of a multibyte form), it is converted to the corresponding
1148 multibyte character of charset `eight-bit-control' or `eight-bit-graphic'. */)
1152 CHECK_STRING (string
);
1154 if (! STRING_MULTIBYTE (string
))
1156 Lisp_Object new_string
;
1159 parse_str_as_multibyte (SDATA (string
),
1162 new_string
= make_uninit_multibyte_string (nchars
, nbytes
);
1163 bcopy (SDATA (string
), SDATA (new_string
),
1165 if (nbytes
!= SBYTES (string
))
1166 str_as_multibyte (SDATA (new_string
), nbytes
,
1167 SBYTES (string
), NULL
);
1168 string
= new_string
;
1169 STRING_SET_INTERVALS (string
, NULL_INTERVAL
);
1174 DEFUN ("string-to-multibyte", Fstring_to_multibyte
, Sstring_to_multibyte
,
1176 doc
: /* Return a multibyte string with the same individual chars as STRING.
1177 If STRING is multibyte, the result is STRING itself.
1178 Otherwise it is a newly created string, with no text properties.
1179 Characters 0200 through 0237 are converted to eight-bit-control
1180 characters of the same character code. Characters 0240 through 0377
1181 are converted to eight-bit-graphic characters of the same character
1186 CHECK_STRING (string
);
1188 return string_to_multibyte (string
);
1192 DEFUN ("copy-alist", Fcopy_alist
, Scopy_alist
, 1, 1, 0,
1193 doc
: /* Return a copy of ALIST.
1194 This is an alist which represents the same mapping from objects to objects,
1195 but does not share the alist structure with ALIST.
1196 The objects mapped (cars and cdrs of elements of the alist)
1197 are shared, however.
1198 Elements of ALIST that are not conses are also shared. */)
1202 register Lisp_Object tem
;
1207 alist
= concat (1, &alist
, Lisp_Cons
, 0);
1208 for (tem
= alist
; CONSP (tem
); tem
= XCDR (tem
))
1210 register Lisp_Object car
;
1214 XSETCAR (tem
, Fcons (XCAR (car
), XCDR (car
)));
1219 DEFUN ("substring", Fsubstring
, Ssubstring
, 2, 3, 0,
1220 doc
: /* Return a substring of STRING, starting at index FROM and ending before TO.
1221 TO may be nil or omitted; then the substring runs to the end of STRING.
1222 FROM and TO start at 0. If either is negative, it counts from the end.
1224 This function allows vectors as well as strings. */)
1227 register Lisp_Object from
, to
;
1232 int from_char
, to_char
;
1233 int from_byte
= 0, to_byte
= 0;
1235 if (! (STRINGP (string
) || VECTORP (string
)))
1236 wrong_type_argument (Qarrayp
, string
);
1238 CHECK_NUMBER (from
);
1240 if (STRINGP (string
))
1242 size
= SCHARS (string
);
1243 size_byte
= SBYTES (string
);
1246 size
= XVECTOR (string
)->size
;
1251 to_byte
= size_byte
;
1257 to_char
= XINT (to
);
1261 if (STRINGP (string
))
1262 to_byte
= string_char_to_byte (string
, to_char
);
1265 from_char
= XINT (from
);
1268 if (STRINGP (string
))
1269 from_byte
= string_char_to_byte (string
, from_char
);
1271 if (!(0 <= from_char
&& from_char
<= to_char
&& to_char
<= size
))
1272 args_out_of_range_3 (string
, make_number (from_char
),
1273 make_number (to_char
));
1275 if (STRINGP (string
))
1277 res
= make_specified_string (SDATA (string
) + from_byte
,
1278 to_char
- from_char
, to_byte
- from_byte
,
1279 STRING_MULTIBYTE (string
));
1280 copy_text_properties (make_number (from_char
), make_number (to_char
),
1281 string
, make_number (0), res
, Qnil
);
1284 res
= Fvector (to_char
- from_char
,
1285 XVECTOR (string
)->contents
+ from_char
);
1291 DEFUN ("substring-no-properties", Fsubstring_no_properties
, Ssubstring_no_properties
, 1, 3, 0,
1292 doc
: /* Return a substring of STRING, without text properties.
1293 It starts at index FROM and ending before TO.
1294 TO may be nil or omitted; then the substring runs to the end of STRING.
1295 If FROM is nil or omitted, the substring starts at the beginning of STRING.
1296 If FROM or TO is negative, it counts from the end.
1298 With one argument, just copy STRING without its properties. */)
1301 register Lisp_Object from
, to
;
1303 int size
, size_byte
;
1304 int from_char
, to_char
;
1305 int from_byte
, to_byte
;
1307 CHECK_STRING (string
);
1309 size
= SCHARS (string
);
1310 size_byte
= SBYTES (string
);
1313 from_char
= from_byte
= 0;
1316 CHECK_NUMBER (from
);
1317 from_char
= XINT (from
);
1321 from_byte
= string_char_to_byte (string
, from_char
);
1327 to_byte
= size_byte
;
1333 to_char
= XINT (to
);
1337 to_byte
= string_char_to_byte (string
, to_char
);
1340 if (!(0 <= from_char
&& from_char
<= to_char
&& to_char
<= size
))
1341 args_out_of_range_3 (string
, make_number (from_char
),
1342 make_number (to_char
));
1344 return make_specified_string (SDATA (string
) + from_byte
,
1345 to_char
- from_char
, to_byte
- from_byte
,
1346 STRING_MULTIBYTE (string
));
1349 /* Extract a substring of STRING, giving start and end positions
1350 both in characters and in bytes. */
1353 substring_both (string
, from
, from_byte
, to
, to_byte
)
1355 int from
, from_byte
, to
, to_byte
;
1361 if (! (STRINGP (string
) || VECTORP (string
)))
1362 wrong_type_argument (Qarrayp
, string
);
1364 if (STRINGP (string
))
1366 size
= SCHARS (string
);
1367 size_byte
= SBYTES (string
);
1370 size
= XVECTOR (string
)->size
;
1372 if (!(0 <= from
&& from
<= to
&& to
<= size
))
1373 args_out_of_range_3 (string
, make_number (from
), make_number (to
));
1375 if (STRINGP (string
))
1377 res
= make_specified_string (SDATA (string
) + from_byte
,
1378 to
- from
, to_byte
- from_byte
,
1379 STRING_MULTIBYTE (string
));
1380 copy_text_properties (make_number (from
), make_number (to
),
1381 string
, make_number (0), res
, Qnil
);
1384 res
= Fvector (to
- from
,
1385 XVECTOR (string
)->contents
+ from
);
1390 DEFUN ("nthcdr", Fnthcdr
, Snthcdr
, 2, 2, 0,
1391 doc
: /* Take cdr N times on LIST, returns the result. */)
1394 register Lisp_Object list
;
1396 register int i
, num
;
1399 for (i
= 0; i
< num
&& !NILP (list
); i
++)
1403 wrong_type_argument (Qlistp
, list
);
1409 DEFUN ("nth", Fnth
, Snth
, 2, 2, 0,
1410 doc
: /* Return the Nth element of LIST.
1411 N counts from zero. If LIST is not that long, nil is returned. */)
1413 Lisp_Object n
, list
;
1415 return Fcar (Fnthcdr (n
, list
));
1418 DEFUN ("elt", Felt
, Selt
, 2, 2, 0,
1419 doc
: /* Return element of SEQUENCE at index N. */)
1421 register Lisp_Object sequence
, n
;
1426 if (CONSP (sequence
) || NILP (sequence
))
1427 return Fcar (Fnthcdr (n
, sequence
));
1428 else if (STRINGP (sequence
) || VECTORP (sequence
)
1429 || BOOL_VECTOR_P (sequence
) || CHAR_TABLE_P (sequence
))
1430 return Faref (sequence
, n
);
1432 sequence
= wrong_type_argument (Qsequencep
, sequence
);
1436 DEFUN ("member", Fmember
, Smember
, 2, 2, 0,
1437 doc
: /* Return non-nil if ELT is an element of LIST. Comparison done with `equal'.
1438 The value is actually the tail of LIST whose car is ELT. */)
1440 register Lisp_Object elt
;
1443 register Lisp_Object tail
;
1444 for (tail
= list
; !NILP (tail
); tail
= XCDR (tail
))
1446 register Lisp_Object tem
;
1448 wrong_type_argument (Qlistp
, list
);
1450 if (! NILP (Fequal (elt
, tem
)))
1457 DEFUN ("memq", Fmemq
, Smemq
, 2, 2, 0,
1458 doc
: /* Return non-nil if ELT is an element of LIST.
1459 Comparison done with EQ. The value is actually the tail of LIST
1460 whose car is ELT. */)
1462 Lisp_Object elt
, list
;
1466 if (!CONSP (list
) || EQ (XCAR (list
), elt
))
1470 if (!CONSP (list
) || EQ (XCAR (list
), elt
))
1474 if (!CONSP (list
) || EQ (XCAR (list
), elt
))
1481 if (!CONSP (list
) && !NILP (list
))
1482 list
= wrong_type_argument (Qlistp
, list
);
1487 DEFUN ("assq", Fassq
, Sassq
, 2, 2, 0,
1488 doc
: /* Return non-nil if KEY is `eq' to the car of an element of LIST.
1489 The value is actually the first element of LIST whose car is KEY.
1490 Elements of LIST that are not conses are ignored. */)
1492 Lisp_Object key
, list
;
1499 || (CONSP (XCAR (list
))
1500 && EQ (XCAR (XCAR (list
)), key
)))
1505 || (CONSP (XCAR (list
))
1506 && EQ (XCAR (XCAR (list
)), key
)))
1511 || (CONSP (XCAR (list
))
1512 && EQ (XCAR (XCAR (list
)), key
)))
1520 result
= XCAR (list
);
1521 else if (NILP (list
))
1524 result
= wrong_type_argument (Qlistp
, list
);
1529 /* Like Fassq but never report an error and do not allow quits.
1530 Use only on lists known never to be circular. */
1533 assq_no_quit (key
, list
)
1534 Lisp_Object key
, list
;
1537 && (!CONSP (XCAR (list
))
1538 || !EQ (XCAR (XCAR (list
)), key
)))
1541 return CONSP (list
) ? XCAR (list
) : Qnil
;
1544 DEFUN ("assoc", Fassoc
, Sassoc
, 2, 2, 0,
1545 doc
: /* Return non-nil if KEY is `equal' to the car of an element of LIST.
1546 The value is actually the first element of LIST whose car equals KEY. */)
1548 Lisp_Object key
, list
;
1550 Lisp_Object result
, car
;
1555 || (CONSP (XCAR (list
))
1556 && (car
= XCAR (XCAR (list
)),
1557 EQ (car
, key
) || !NILP (Fequal (car
, key
)))))
1562 || (CONSP (XCAR (list
))
1563 && (car
= XCAR (XCAR (list
)),
1564 EQ (car
, key
) || !NILP (Fequal (car
, key
)))))
1569 || (CONSP (XCAR (list
))
1570 && (car
= XCAR (XCAR (list
)),
1571 EQ (car
, key
) || !NILP (Fequal (car
, key
)))))
1579 result
= XCAR (list
);
1580 else if (NILP (list
))
1583 result
= wrong_type_argument (Qlistp
, list
);
1588 DEFUN ("rassq", Frassq
, Srassq
, 2, 2, 0,
1589 doc
: /* Return non-nil if KEY is `eq' to the cdr of an element of LIST.
1590 The value is actually the first element of LIST whose cdr is KEY. */)
1592 register Lisp_Object key
;
1600 || (CONSP (XCAR (list
))
1601 && EQ (XCDR (XCAR (list
)), key
)))
1606 || (CONSP (XCAR (list
))
1607 && EQ (XCDR (XCAR (list
)), key
)))
1612 || (CONSP (XCAR (list
))
1613 && EQ (XCDR (XCAR (list
)), key
)))
1622 else if (CONSP (list
))
1623 result
= XCAR (list
);
1625 result
= wrong_type_argument (Qlistp
, list
);
1630 DEFUN ("rassoc", Frassoc
, Srassoc
, 2, 2, 0,
1631 doc
: /* Return non-nil if KEY is `equal' to the cdr of an element of LIST.
1632 The value is actually the first element of LIST whose cdr equals KEY. */)
1634 Lisp_Object key
, list
;
1636 Lisp_Object result
, cdr
;
1641 || (CONSP (XCAR (list
))
1642 && (cdr
= XCDR (XCAR (list
)),
1643 EQ (cdr
, key
) || !NILP (Fequal (cdr
, key
)))))
1648 || (CONSP (XCAR (list
))
1649 && (cdr
= XCDR (XCAR (list
)),
1650 EQ (cdr
, key
) || !NILP (Fequal (cdr
, key
)))))
1655 || (CONSP (XCAR (list
))
1656 && (cdr
= XCDR (XCAR (list
)),
1657 EQ (cdr
, key
) || !NILP (Fequal (cdr
, key
)))))
1665 result
= XCAR (list
);
1666 else if (NILP (list
))
1669 result
= wrong_type_argument (Qlistp
, list
);
1674 DEFUN ("delq", Fdelq
, Sdelq
, 2, 2, 0,
1675 doc
: /* Delete by side effect any occurrences of ELT as a member of LIST.
1676 The modified LIST is returned. Comparison is done with `eq'.
1677 If the first member of LIST is ELT, there is no way to remove it by side effect;
1678 therefore, write `(setq foo (delq element foo))'
1679 to be sure of changing the value of `foo'. */)
1681 register Lisp_Object elt
;
1684 register Lisp_Object tail
, prev
;
1685 register Lisp_Object tem
;
1689 while (!NILP (tail
))
1692 wrong_type_argument (Qlistp
, list
);
1699 Fsetcdr (prev
, XCDR (tail
));
1709 DEFUN ("delete", Fdelete
, Sdelete
, 2, 2, 0,
1710 doc
: /* Delete by side effect any occurrences of ELT as a member of SEQ.
1711 SEQ must be a list, a vector, or a string.
1712 The modified SEQ is returned. Comparison is done with `equal'.
1713 If SEQ is not a list, or the first member of SEQ is ELT, deleting it
1714 is not a side effect; it is simply using a different sequence.
1715 Therefore, write `(setq foo (delete element foo))'
1716 to be sure of changing the value of `foo'. */)
1718 Lisp_Object elt
, seq
;
1724 for (i
= n
= 0; i
< ASIZE (seq
); ++i
)
1725 if (NILP (Fequal (AREF (seq
, i
), elt
)))
1728 if (n
!= ASIZE (seq
))
1730 struct Lisp_Vector
*p
= allocate_vector (n
);
1732 for (i
= n
= 0; i
< ASIZE (seq
); ++i
)
1733 if (NILP (Fequal (AREF (seq
, i
), elt
)))
1734 p
->contents
[n
++] = AREF (seq
, i
);
1736 XSETVECTOR (seq
, p
);
1739 else if (STRINGP (seq
))
1741 EMACS_INT i
, ibyte
, nchars
, nbytes
, cbytes
;
1744 for (i
= nchars
= nbytes
= ibyte
= 0;
1746 ++i
, ibyte
+= cbytes
)
1748 if (STRING_MULTIBYTE (seq
))
1750 c
= STRING_CHAR (SDATA (seq
) + ibyte
,
1751 SBYTES (seq
) - ibyte
);
1752 cbytes
= CHAR_BYTES (c
);
1760 if (!INTEGERP (elt
) || c
!= XINT (elt
))
1767 if (nchars
!= SCHARS (seq
))
1771 tem
= make_uninit_multibyte_string (nchars
, nbytes
);
1772 if (!STRING_MULTIBYTE (seq
))
1773 STRING_SET_UNIBYTE (tem
);
1775 for (i
= nchars
= nbytes
= ibyte
= 0;
1777 ++i
, ibyte
+= cbytes
)
1779 if (STRING_MULTIBYTE (seq
))
1781 c
= STRING_CHAR (SDATA (seq
) + ibyte
,
1782 SBYTES (seq
) - ibyte
);
1783 cbytes
= CHAR_BYTES (c
);
1791 if (!INTEGERP (elt
) || c
!= XINT (elt
))
1793 unsigned char *from
= SDATA (seq
) + ibyte
;
1794 unsigned char *to
= SDATA (tem
) + nbytes
;
1800 for (n
= cbytes
; n
--; )
1810 Lisp_Object tail
, prev
;
1812 for (tail
= seq
, prev
= Qnil
; !NILP (tail
); tail
= XCDR (tail
))
1815 wrong_type_argument (Qlistp
, seq
);
1817 if (!NILP (Fequal (elt
, XCAR (tail
))))
1822 Fsetcdr (prev
, XCDR (tail
));
1833 DEFUN ("nreverse", Fnreverse
, Snreverse
, 1, 1, 0,
1834 doc
: /* Reverse LIST by modifying cdr pointers.
1835 Return the reversed list. */)
1839 register Lisp_Object prev
, tail
, next
;
1841 if (NILP (list
)) return list
;
1844 while (!NILP (tail
))
1848 wrong_type_argument (Qlistp
, list
);
1850 Fsetcdr (tail
, prev
);
1857 DEFUN ("reverse", Freverse
, Sreverse
, 1, 1, 0,
1858 doc
: /* Reverse LIST, copying. Return the reversed list.
1859 See also the function `nreverse', which is used more often. */)
1865 for (new = Qnil
; CONSP (list
); list
= XCDR (list
))
1868 new = Fcons (XCAR (list
), new);
1871 wrong_type_argument (Qconsp
, list
);
1875 Lisp_Object
merge ();
1877 DEFUN ("sort", Fsort
, Ssort
, 2, 2, 0,
1878 doc
: /* Sort LIST, stably, comparing elements using PREDICATE.
1879 Returns the sorted list. LIST is modified by side effects.
1880 PREDICATE is called with two elements of LIST, and should return t
1881 if the first element is "less" than the second. */)
1883 Lisp_Object list
, predicate
;
1885 Lisp_Object front
, back
;
1886 register Lisp_Object len
, tem
;
1887 struct gcpro gcpro1
, gcpro2
;
1888 register int length
;
1891 len
= Flength (list
);
1892 length
= XINT (len
);
1896 XSETINT (len
, (length
/ 2) - 1);
1897 tem
= Fnthcdr (len
, list
);
1899 Fsetcdr (tem
, Qnil
);
1901 GCPRO2 (front
, back
);
1902 front
= Fsort (front
, predicate
);
1903 back
= Fsort (back
, predicate
);
1905 return merge (front
, back
, predicate
);
1909 merge (org_l1
, org_l2
, pred
)
1910 Lisp_Object org_l1
, org_l2
;
1914 register Lisp_Object tail
;
1916 register Lisp_Object l1
, l2
;
1917 struct gcpro gcpro1
, gcpro2
, gcpro3
, gcpro4
;
1924 /* It is sufficient to protect org_l1 and org_l2.
1925 When l1 and l2 are updated, we copy the new values
1926 back into the org_ vars. */
1927 GCPRO4 (org_l1
, org_l2
, pred
, value
);
1947 tem
= call2 (pred
, Fcar (l2
), Fcar (l1
));
1963 Fsetcdr (tail
, tem
);
1969 DEFUN ("plist-get", Fplist_get
, Splist_get
, 2, 2, 0,
1970 doc
: /* Extract a value from a property list.
1971 PLIST is a property list, which is a list of the form
1972 \(PROP1 VALUE1 PROP2 VALUE2...). This function returns the value
1973 corresponding to the given PROP, or nil if PROP is not
1974 one of the properties on the list. */)
1982 CONSP (tail
) && CONSP (XCDR (tail
));
1983 tail
= XCDR (XCDR (tail
)))
1985 if (EQ (prop
, XCAR (tail
)))
1986 return XCAR (XCDR (tail
));
1988 /* This function can be called asynchronously
1989 (setup_coding_system). Don't QUIT in that case. */
1990 if (!interrupt_input_blocked
)
1995 wrong_type_argument (Qlistp
, prop
);
2000 DEFUN ("get", Fget
, Sget
, 2, 2, 0,
2001 doc
: /* Return the value of SYMBOL's PROPNAME property.
2002 This is the last value stored with `(put SYMBOL PROPNAME VALUE)'. */)
2004 Lisp_Object symbol
, propname
;
2006 CHECK_SYMBOL (symbol
);
2007 return Fplist_get (XSYMBOL (symbol
)->plist
, propname
);
2010 DEFUN ("plist-put", Fplist_put
, Splist_put
, 3, 3, 0,
2011 doc
: /* Change value in PLIST of PROP to VAL.
2012 PLIST is a property list, which is a list of the form
2013 \(PROP1 VALUE1 PROP2 VALUE2 ...). PROP is a symbol and VAL is any object.
2014 If PROP is already a property on the list, its value is set to VAL,
2015 otherwise the new PROP VAL pair is added. The new plist is returned;
2016 use `(setq x (plist-put x prop val))' to be sure to use the new value.
2017 The PLIST is modified by side effects. */)
2020 register Lisp_Object prop
;
2023 register Lisp_Object tail
, prev
;
2024 Lisp_Object newcell
;
2026 for (tail
= plist
; CONSP (tail
) && CONSP (XCDR (tail
));
2027 tail
= XCDR (XCDR (tail
)))
2029 if (EQ (prop
, XCAR (tail
)))
2031 Fsetcar (XCDR (tail
), val
);
2038 newcell
= Fcons (prop
, Fcons (val
, Qnil
));
2042 Fsetcdr (XCDR (prev
), newcell
);
2046 DEFUN ("put", Fput
, Sput
, 3, 3, 0,
2047 doc
: /* Store SYMBOL's PROPNAME property with value VALUE.
2048 It can be retrieved with `(get SYMBOL PROPNAME)'. */)
2049 (symbol
, propname
, value
)
2050 Lisp_Object symbol
, propname
, value
;
2052 CHECK_SYMBOL (symbol
);
2053 XSYMBOL (symbol
)->plist
2054 = Fplist_put (XSYMBOL (symbol
)->plist
, propname
, value
);
2058 DEFUN ("lax-plist-get", Flax_plist_get
, Slax_plist_get
, 2, 2, 0,
2059 doc
: /* Extract a value from a property list, comparing with `equal'.
2060 PLIST is a property list, which is a list of the form
2061 \(PROP1 VALUE1 PROP2 VALUE2...). This function returns the value
2062 corresponding to the given PROP, or nil if PROP is not
2063 one of the properties on the list. */)
2071 CONSP (tail
) && CONSP (XCDR (tail
));
2072 tail
= XCDR (XCDR (tail
)))
2074 if (! NILP (Fequal (prop
, XCAR (tail
))))
2075 return XCAR (XCDR (tail
));
2081 wrong_type_argument (Qlistp
, prop
);
2086 DEFUN ("lax-plist-put", Flax_plist_put
, Slax_plist_put
, 3, 3, 0,
2087 doc
: /* Change value in PLIST of PROP to VAL, comparing with `equal'.
2088 PLIST is a property list, which is a list of the form
2089 \(PROP1 VALUE1 PROP2 VALUE2 ...). PROP and VAL are any objects.
2090 If PROP is already a property on the list, its value is set to VAL,
2091 otherwise the new PROP VAL pair is added. The new plist is returned;
2092 use `(setq x (lax-plist-put x prop val))' to be sure to use the new value.
2093 The PLIST is modified by side effects. */)
2096 register Lisp_Object prop
;
2099 register Lisp_Object tail
, prev
;
2100 Lisp_Object newcell
;
2102 for (tail
= plist
; CONSP (tail
) && CONSP (XCDR (tail
));
2103 tail
= XCDR (XCDR (tail
)))
2105 if (! NILP (Fequal (prop
, XCAR (tail
))))
2107 Fsetcar (XCDR (tail
), val
);
2114 newcell
= Fcons (prop
, Fcons (val
, Qnil
));
2118 Fsetcdr (XCDR (prev
), newcell
);
2122 DEFUN ("eql", Feql
, Seql
, 2, 2, 0,
2123 doc
: /* Return t if the two args are the same Lisp object.
2124 Floating-point numbers of equal value are `eql', but they may not be `eq'. */)
2126 Lisp_Object obj1
, obj2
;
2129 return internal_equal (obj1
, obj2
, 0, 0) ? Qt
: Qnil
;
2131 return EQ (obj1
, obj2
) ? Qt
: Qnil
;
2134 DEFUN ("equal", Fequal
, Sequal
, 2, 2, 0,
2135 doc
: /* Return t if two Lisp objects have similar structure and contents.
2136 They must have the same data type.
2137 Conses are compared by comparing the cars and the cdrs.
2138 Vectors and strings are compared element by element.
2139 Numbers are compared by value, but integers cannot equal floats.
2140 (Use `=' if you want integers and floats to be able to be equal.)
2141 Symbols must match exactly. */)
2143 register Lisp_Object o1
, o2
;
2145 return internal_equal (o1
, o2
, 0, 0) ? Qt
: Qnil
;
2148 DEFUN ("equal-including-properties", Fequal_including_properties
, Sequal_including_properties
, 2, 2, 0,
2149 doc
: /* Return t if two Lisp objects have similar structure and contents.
2150 This is like `equal' except that it compares the text properties
2151 of strings. (`equal' ignores text properties.) */)
2153 register Lisp_Object o1
, o2
;
2155 return internal_equal (o1
, o2
, 0, 1) ? Qt
: Qnil
;
2158 /* DEPTH is current depth of recursion. Signal an error if it
2160 PROPS, if non-nil, means compare string text properties too. */
2163 internal_equal (o1
, o2
, depth
, props
)
2164 register Lisp_Object o1
, o2
;
2168 error ("Stack overflow in equal");
2174 if (XTYPE (o1
) != XTYPE (o2
))
2183 d1
= extract_float (o1
);
2184 d2
= extract_float (o2
);
2185 /* If d is a NaN, then d != d. Two NaNs should be `equal' even
2186 though they are not =. */
2187 return d1
== d2
|| (d1
!= d1
&& d2
!= d2
);
2191 if (!internal_equal (XCAR (o1
), XCAR (o2
), depth
+ 1, props
))
2198 if (XMISCTYPE (o1
) != XMISCTYPE (o2
))
2202 if (!internal_equal (OVERLAY_START (o1
), OVERLAY_START (o2
),
2204 || !internal_equal (OVERLAY_END (o1
), OVERLAY_END (o2
),
2207 o1
= XOVERLAY (o1
)->plist
;
2208 o2
= XOVERLAY (o2
)->plist
;
2213 return (XMARKER (o1
)->buffer
== XMARKER (o2
)->buffer
2214 && (XMARKER (o1
)->buffer
== 0
2215 || XMARKER (o1
)->bytepos
== XMARKER (o2
)->bytepos
));
2219 case Lisp_Vectorlike
:
2222 EMACS_INT size
= XVECTOR (o1
)->size
;
2223 /* Pseudovectors have the type encoded in the size field, so this test
2224 actually checks that the objects have the same type as well as the
2226 if (XVECTOR (o2
)->size
!= size
)
2228 /* Boolvectors are compared much like strings. */
2229 if (BOOL_VECTOR_P (o1
))
2232 = ((XBOOL_VECTOR (o1
)->size
+ BOOL_VECTOR_BITS_PER_CHAR
- 1)
2233 / BOOL_VECTOR_BITS_PER_CHAR
);
2235 if (XBOOL_VECTOR (o1
)->size
!= XBOOL_VECTOR (o2
)->size
)
2237 if (bcmp (XBOOL_VECTOR (o1
)->data
, XBOOL_VECTOR (o2
)->data
,
2242 if (WINDOW_CONFIGURATIONP (o1
))
2243 return compare_window_configurations (o1
, o2
, 0);
2245 /* Aside from them, only true vectors, char-tables, and compiled
2246 functions are sensible to compare, so eliminate the others now. */
2247 if (size
& PSEUDOVECTOR_FLAG
)
2249 if (!(size
& (PVEC_COMPILED
| PVEC_CHAR_TABLE
)))
2251 size
&= PSEUDOVECTOR_SIZE_MASK
;
2253 for (i
= 0; i
< size
; i
++)
2256 v1
= XVECTOR (o1
)->contents
[i
];
2257 v2
= XVECTOR (o2
)->contents
[i
];
2258 if (!internal_equal (v1
, v2
, depth
+ 1, props
))
2266 if (SCHARS (o1
) != SCHARS (o2
))
2268 if (SBYTES (o1
) != SBYTES (o2
))
2270 if (bcmp (SDATA (o1
), SDATA (o2
),
2273 if (props
&& !compare_string_intervals (o1
, o2
))
2279 case Lisp_Type_Limit
:
2286 extern Lisp_Object
Fmake_char_internal ();
2288 DEFUN ("fillarray", Ffillarray
, Sfillarray
, 2, 2, 0,
2289 doc
: /* Store each element of ARRAY with ITEM.
2290 ARRAY is a vector, string, char-table, or bool-vector. */)
2292 Lisp_Object array
, item
;
2294 register int size
, index
, charval
;
2296 if (VECTORP (array
))
2298 register Lisp_Object
*p
= XVECTOR (array
)->contents
;
2299 size
= XVECTOR (array
)->size
;
2300 for (index
= 0; index
< size
; index
++)
2303 else if (CHAR_TABLE_P (array
))
2305 register Lisp_Object
*p
= XCHAR_TABLE (array
)->contents
;
2306 size
= CHAR_TABLE_ORDINARY_SLOTS
;
2307 for (index
= 0; index
< size
; index
++)
2309 XCHAR_TABLE (array
)->defalt
= Qnil
;
2311 else if (STRINGP (array
))
2313 register unsigned char *p
= SDATA (array
);
2314 CHECK_NUMBER (item
);
2315 charval
= XINT (item
);
2316 size
= SCHARS (array
);
2317 if (STRING_MULTIBYTE (array
))
2319 unsigned char str
[MAX_MULTIBYTE_LENGTH
];
2320 int len
= CHAR_STRING (charval
, str
);
2321 int size_byte
= SBYTES (array
);
2322 unsigned char *p1
= p
, *endp
= p
+ size_byte
;
2325 if (size
!= size_byte
)
2328 int this_len
= MULTIBYTE_FORM_LENGTH (p1
, endp
- p1
);
2329 if (len
!= this_len
)
2330 error ("Attempt to change byte length of a string");
2333 for (i
= 0; i
< size_byte
; i
++)
2334 *p
++ = str
[i
% len
];
2337 for (index
= 0; index
< size
; index
++)
2340 else if (BOOL_VECTOR_P (array
))
2342 register unsigned char *p
= XBOOL_VECTOR (array
)->data
;
2344 = ((XBOOL_VECTOR (array
)->size
+ BOOL_VECTOR_BITS_PER_CHAR
- 1)
2345 / BOOL_VECTOR_BITS_PER_CHAR
);
2347 charval
= (! NILP (item
) ? -1 : 0);
2348 for (index
= 0; index
< size_in_chars
- 1; index
++)
2350 if (index
< size_in_chars
)
2352 /* Mask out bits beyond the vector size. */
2353 if (XBOOL_VECTOR (array
)->size
% BOOL_VECTOR_BITS_PER_CHAR
)
2354 charval
&= (1 << (XBOOL_VECTOR (array
)->size
% BOOL_VECTOR_BITS_PER_CHAR
)) - 1;
2360 array
= wrong_type_argument (Qarrayp
, array
);
2366 DEFUN ("clear-string", Fclear_string
, Sclear_string
,
2368 doc
: /* Clear the contents of STRING.
2369 This makes STRING unibyte and may change its length. */)
2374 CHECK_STRING (string
);
2375 len
= SBYTES (string
);
2376 bzero (SDATA (string
), len
);
2377 STRING_SET_CHARS (string
, len
);
2378 STRING_SET_UNIBYTE (string
);
2382 DEFUN ("char-table-subtype", Fchar_table_subtype
, Schar_table_subtype
,
2384 doc
: /* Return the subtype of char-table CHAR-TABLE. The value is a symbol. */)
2386 Lisp_Object char_table
;
2388 CHECK_CHAR_TABLE (char_table
);
2390 return XCHAR_TABLE (char_table
)->purpose
;
2393 DEFUN ("char-table-parent", Fchar_table_parent
, Schar_table_parent
,
2395 doc
: /* Return the parent char-table of CHAR-TABLE.
2396 The value is either nil or another char-table.
2397 If CHAR-TABLE holds nil for a given character,
2398 then the actual applicable value is inherited from the parent char-table
2399 \(or from its parents, if necessary). */)
2401 Lisp_Object char_table
;
2403 CHECK_CHAR_TABLE (char_table
);
2405 return XCHAR_TABLE (char_table
)->parent
;
2408 DEFUN ("set-char-table-parent", Fset_char_table_parent
, Sset_char_table_parent
,
2410 doc
: /* Set the parent char-table of CHAR-TABLE to PARENT.
2411 Return PARENT. PARENT must be either nil or another char-table. */)
2412 (char_table
, parent
)
2413 Lisp_Object char_table
, parent
;
2417 CHECK_CHAR_TABLE (char_table
);
2421 CHECK_CHAR_TABLE (parent
);
2423 for (temp
= parent
; !NILP (temp
); temp
= XCHAR_TABLE (temp
)->parent
)
2424 if (EQ (temp
, char_table
))
2425 error ("Attempt to make a chartable be its own parent");
2428 XCHAR_TABLE (char_table
)->parent
= parent
;
2433 DEFUN ("char-table-extra-slot", Fchar_table_extra_slot
, Schar_table_extra_slot
,
2435 doc
: /* Return the value of CHAR-TABLE's extra-slot number N. */)
2437 Lisp_Object char_table
, n
;
2439 CHECK_CHAR_TABLE (char_table
);
2442 || XINT (n
) >= CHAR_TABLE_EXTRA_SLOTS (XCHAR_TABLE (char_table
)))
2443 args_out_of_range (char_table
, n
);
2445 return XCHAR_TABLE (char_table
)->extras
[XINT (n
)];
2448 DEFUN ("set-char-table-extra-slot", Fset_char_table_extra_slot
,
2449 Sset_char_table_extra_slot
,
2451 doc
: /* Set CHAR-TABLE's extra-slot number N to VALUE. */)
2452 (char_table
, n
, value
)
2453 Lisp_Object char_table
, n
, value
;
2455 CHECK_CHAR_TABLE (char_table
);
2458 || XINT (n
) >= CHAR_TABLE_EXTRA_SLOTS (XCHAR_TABLE (char_table
)))
2459 args_out_of_range (char_table
, n
);
2461 return XCHAR_TABLE (char_table
)->extras
[XINT (n
)] = value
;
2464 DEFUN ("char-table-range", Fchar_table_range
, Schar_table_range
,
2466 doc
: /* Return the value in CHAR-TABLE for a range of characters RANGE.
2467 RANGE should be nil (for the default value)
2468 a vector which identifies a character set or a row of a character set,
2469 a character set name, or a character code. */)
2471 Lisp_Object char_table
, range
;
2473 CHECK_CHAR_TABLE (char_table
);
2475 if (EQ (range
, Qnil
))
2476 return XCHAR_TABLE (char_table
)->defalt
;
2477 else if (INTEGERP (range
))
2478 return Faref (char_table
, range
);
2479 else if (SYMBOLP (range
))
2481 Lisp_Object charset_info
;
2483 charset_info
= Fget (range
, Qcharset
);
2484 CHECK_VECTOR (charset_info
);
2486 return Faref (char_table
,
2487 make_number (XINT (XVECTOR (charset_info
)->contents
[0])
2490 else if (VECTORP (range
))
2492 if (XVECTOR (range
)->size
== 1)
2493 return Faref (char_table
,
2494 make_number (XINT (XVECTOR (range
)->contents
[0]) + 128));
2497 int size
= XVECTOR (range
)->size
;
2498 Lisp_Object
*val
= XVECTOR (range
)->contents
;
2499 Lisp_Object ch
= Fmake_char_internal (size
<= 0 ? Qnil
: val
[0],
2500 size
<= 1 ? Qnil
: val
[1],
2501 size
<= 2 ? Qnil
: val
[2]);
2502 return Faref (char_table
, ch
);
2506 error ("Invalid RANGE argument to `char-table-range'");
2510 DEFUN ("set-char-table-range", Fset_char_table_range
, Sset_char_table_range
,
2512 doc
: /* Set the value in CHAR-TABLE for a range of characters RANGE to VALUE.
2513 RANGE should be t (for all characters), nil (for the default value),
2514 a character set, a vector which identifies a character set, a row of a
2515 character set, or a character code. Return VALUE. */)
2516 (char_table
, range
, value
)
2517 Lisp_Object char_table
, range
, value
;
2521 CHECK_CHAR_TABLE (char_table
);
2524 for (i
= 0; i
< CHAR_TABLE_ORDINARY_SLOTS
; i
++)
2525 XCHAR_TABLE (char_table
)->contents
[i
] = value
;
2526 else if (EQ (range
, Qnil
))
2527 XCHAR_TABLE (char_table
)->defalt
= value
;
2528 else if (SYMBOLP (range
))
2530 Lisp_Object charset_info
;
2533 charset_info
= Fget (range
, Qcharset
);
2534 if (! VECTORP (charset_info
)
2535 || ! NATNUMP (AREF (charset_info
, 0))
2536 || (charset_id
= XINT (AREF (charset_info
, 0)),
2537 ! CHARSET_DEFINED_P (charset_id
)))
2538 error ("Invalid charset: %s", SDATA (SYMBOL_NAME (range
)));
2540 if (charset_id
== CHARSET_ASCII
)
2541 for (i
= 0; i
< 128; i
++)
2542 XCHAR_TABLE (char_table
)->contents
[i
] = value
;
2543 else if (charset_id
== CHARSET_8_BIT_CONTROL
)
2544 for (i
= 128; i
< 160; i
++)
2545 XCHAR_TABLE (char_table
)->contents
[i
] = value
;
2546 else if (charset_id
== CHARSET_8_BIT_GRAPHIC
)
2547 for (i
= 160; i
< 256; i
++)
2548 XCHAR_TABLE (char_table
)->contents
[i
] = value
;
2550 XCHAR_TABLE (char_table
)->contents
[charset_id
+ 128] = value
;
2552 else if (INTEGERP (range
))
2553 Faset (char_table
, range
, value
);
2554 else if (VECTORP (range
))
2556 if (XVECTOR (range
)->size
== 1)
2557 return Faset (char_table
,
2558 make_number (XINT (XVECTOR (range
)->contents
[0]) + 128),
2562 int size
= XVECTOR (range
)->size
;
2563 Lisp_Object
*val
= XVECTOR (range
)->contents
;
2564 Lisp_Object ch
= Fmake_char_internal (size
<= 0 ? Qnil
: val
[0],
2565 size
<= 1 ? Qnil
: val
[1],
2566 size
<= 2 ? Qnil
: val
[2]);
2567 return Faset (char_table
, ch
, value
);
2571 error ("Invalid RANGE argument to `set-char-table-range'");
2576 DEFUN ("set-char-table-default", Fset_char_table_default
,
2577 Sset_char_table_default
, 3, 3, 0,
2578 doc
: /* Set the default value in CHAR-TABLE for generic character CH to VALUE.
2579 The generic character specifies the group of characters.
2580 See also the documentation of `make-char'. */)
2581 (char_table
, ch
, value
)
2582 Lisp_Object char_table
, ch
, value
;
2584 int c
, charset
, code1
, code2
;
2587 CHECK_CHAR_TABLE (char_table
);
2591 SPLIT_CHAR (c
, charset
, code1
, code2
);
2593 /* Since we may want to set the default value for a character set
2594 not yet defined, we check only if the character set is in the
2595 valid range or not, instead of it is already defined or not. */
2596 if (! CHARSET_VALID_P (charset
))
2597 invalid_character (c
);
2599 if (charset
== CHARSET_ASCII
)
2600 return (XCHAR_TABLE (char_table
)->defalt
= value
);
2602 /* Even if C is not a generic char, we had better behave as if a
2603 generic char is specified. */
2604 if (!CHARSET_DEFINED_P (charset
) || CHARSET_DIMENSION (charset
) == 1)
2606 temp
= XCHAR_TABLE (char_table
)->contents
[charset
+ 128];
2609 if (SUB_CHAR_TABLE_P (temp
))
2610 XCHAR_TABLE (temp
)->defalt
= value
;
2612 XCHAR_TABLE (char_table
)->contents
[charset
+ 128] = value
;
2615 if (SUB_CHAR_TABLE_P (temp
))
2618 char_table
= (XCHAR_TABLE (char_table
)->contents
[charset
+ 128]
2619 = make_sub_char_table (temp
));
2620 temp
= XCHAR_TABLE (char_table
)->contents
[code1
];
2621 if (SUB_CHAR_TABLE_P (temp
))
2622 XCHAR_TABLE (temp
)->defalt
= value
;
2624 XCHAR_TABLE (char_table
)->contents
[code1
] = value
;
2628 /* Look up the element in TABLE at index CH,
2629 and return it as an integer.
2630 If the element is nil, return CH itself.
2631 (Actually we do that for any non-integer.) */
2634 char_table_translate (table
, ch
)
2639 value
= Faref (table
, make_number (ch
));
2640 if (! INTEGERP (value
))
2642 return XINT (value
);
2646 optimize_sub_char_table (table
, chars
)
2654 from
= 33, to
= 127;
2656 from
= 32, to
= 128;
2658 if (!SUB_CHAR_TABLE_P (*table
))
2660 elt
= XCHAR_TABLE (*table
)->contents
[from
++];
2661 for (; from
< to
; from
++)
2662 if (NILP (Fequal (elt
, XCHAR_TABLE (*table
)->contents
[from
])))
2667 DEFUN ("optimize-char-table", Foptimize_char_table
, Soptimize_char_table
,
2668 1, 1, 0, doc
: /* Optimize char table TABLE. */)
2676 CHECK_CHAR_TABLE (table
);
2678 for (i
= CHAR_TABLE_SINGLE_BYTE_SLOTS
; i
< CHAR_TABLE_ORDINARY_SLOTS
; i
++)
2680 elt
= XCHAR_TABLE (table
)->contents
[i
];
2681 if (!SUB_CHAR_TABLE_P (elt
))
2683 dim
= CHARSET_DIMENSION (i
- 128);
2685 for (j
= 32; j
< SUB_CHAR_TABLE_ORDINARY_SLOTS
; j
++)
2686 optimize_sub_char_table (XCHAR_TABLE (elt
)->contents
+ j
, dim
);
2687 optimize_sub_char_table (XCHAR_TABLE (table
)->contents
+ i
, dim
);
2693 /* Map C_FUNCTION or FUNCTION over SUBTABLE, calling it for each
2694 character or group of characters that share a value.
2695 DEPTH is the current depth in the originally specified
2696 chartable, and INDICES contains the vector indices
2697 for the levels our callers have descended.
2699 ARG is passed to C_FUNCTION when that is called. */
2702 map_char_table (c_function
, function
, table
, subtable
, arg
, depth
, indices
)
2703 void (*c_function
) P_ ((Lisp_Object
, Lisp_Object
, Lisp_Object
));
2704 Lisp_Object function
, table
, subtable
, arg
, *indices
;
2711 /* At first, handle ASCII and 8-bit European characters. */
2712 for (i
= 0; i
< CHAR_TABLE_SINGLE_BYTE_SLOTS
; i
++)
2714 Lisp_Object elt
= XCHAR_TABLE (subtable
)->contents
[i
];
2716 elt
= XCHAR_TABLE (subtable
)->defalt
;
2718 elt
= Faref (subtable
, make_number (i
));
2720 (*c_function
) (arg
, make_number (i
), elt
);
2722 call2 (function
, make_number (i
), elt
);
2724 #if 0 /* If the char table has entries for higher characters,
2725 we should report them. */
2726 if (NILP (current_buffer
->enable_multibyte_characters
))
2729 to
= CHAR_TABLE_ORDINARY_SLOTS
;
2733 int charset
= XFASTINT (indices
[0]) - 128;
2736 to
= SUB_CHAR_TABLE_ORDINARY_SLOTS
;
2737 if (CHARSET_CHARS (charset
) == 94)
2746 elt
= XCHAR_TABLE (subtable
)->contents
[i
];
2747 XSETFASTINT (indices
[depth
], i
);
2748 charset
= XFASTINT (indices
[0]) - 128;
2750 && (!CHARSET_DEFINED_P (charset
)
2751 || charset
== CHARSET_8_BIT_CONTROL
2752 || charset
== CHARSET_8_BIT_GRAPHIC
))
2755 if (SUB_CHAR_TABLE_P (elt
))
2758 error ("Too deep char table");
2759 map_char_table (c_function
, function
, table
, elt
, arg
, depth
+ 1, indices
);
2765 c1
= depth
>= 1 ? XFASTINT (indices
[1]) : 0;
2766 c2
= depth
>= 2 ? XFASTINT (indices
[2]) : 0;
2767 c
= MAKE_CHAR (charset
, c1
, c2
);
2770 elt
= XCHAR_TABLE (subtable
)->defalt
;
2772 elt
= Faref (table
, make_number (c
));
2775 (*c_function
) (arg
, make_number (c
), elt
);
2777 call2 (function
, make_number (c
), elt
);
2782 static void void_call2
P_ ((Lisp_Object a
, Lisp_Object b
, Lisp_Object c
));
2784 void_call2 (a
, b
, c
)
2785 Lisp_Object a
, b
, c
;
2790 DEFUN ("map-char-table", Fmap_char_table
, Smap_char_table
,
2792 doc
: /* Call FUNCTION for each (normal and generic) characters in CHAR-TABLE.
2793 FUNCTION is called with two arguments--a key and a value.
2794 The key is always a possible IDX argument to `aref'. */)
2795 (function
, char_table
)
2796 Lisp_Object function
, char_table
;
2798 /* The depth of char table is at most 3. */
2799 Lisp_Object indices
[3];
2801 CHECK_CHAR_TABLE (char_table
);
2803 /* When Lisp_Object is represented as a union, `call2' cannot directly
2804 be passed to map_char_table because it returns a Lisp_Object rather
2805 than returning nothing.
2806 Casting leads to crashes on some architectures. -stef */
2807 map_char_table (void_call2
, Qnil
, char_table
, char_table
, function
, 0, indices
);
2811 /* Return a value for character C in char-table TABLE. Store the
2812 actual index for that value in *IDX. Ignore the default value of
2816 char_table_ref_and_index (table
, c
, idx
)
2820 int charset
, c1
, c2
;
2823 if (SINGLE_BYTE_CHAR_P (c
))
2826 return XCHAR_TABLE (table
)->contents
[c
];
2828 SPLIT_CHAR (c
, charset
, c1
, c2
);
2829 elt
= XCHAR_TABLE (table
)->contents
[charset
+ 128];
2830 *idx
= MAKE_CHAR (charset
, 0, 0);
2831 if (!SUB_CHAR_TABLE_P (elt
))
2833 if (c1
< 32 || NILP (XCHAR_TABLE (elt
)->contents
[c1
]))
2834 return XCHAR_TABLE (elt
)->defalt
;
2835 elt
= XCHAR_TABLE (elt
)->contents
[c1
];
2836 *idx
= MAKE_CHAR (charset
, c1
, 0);
2837 if (!SUB_CHAR_TABLE_P (elt
))
2839 if (c2
< 32 || NILP (XCHAR_TABLE (elt
)->contents
[c2
]))
2840 return XCHAR_TABLE (elt
)->defalt
;
2842 return XCHAR_TABLE (elt
)->contents
[c2
];
2852 Lisp_Object args
[2];
2855 return Fnconc (2, args
);
2857 return Fnconc (2, &s1
);
2858 #endif /* NO_ARG_ARRAY */
2861 DEFUN ("nconc", Fnconc
, Snconc
, 0, MANY
, 0,
2862 doc
: /* Concatenate any number of lists by altering them.
2863 Only the last argument is not altered, and need not be a list.
2864 usage: (nconc &rest LISTS) */)
2869 register int argnum
;
2870 register Lisp_Object tail
, tem
, val
;
2874 for (argnum
= 0; argnum
< nargs
; argnum
++)
2877 if (NILP (tem
)) continue;
2882 if (argnum
+ 1 == nargs
) break;
2885 tem
= wrong_type_argument (Qlistp
, tem
);
2894 tem
= args
[argnum
+ 1];
2895 Fsetcdr (tail
, tem
);
2897 args
[argnum
+ 1] = tail
;
2903 /* This is the guts of all mapping functions.
2904 Apply FN to each element of SEQ, one by one,
2905 storing the results into elements of VALS, a C vector of Lisp_Objects.
2906 LENI is the length of VALS, which should also be the length of SEQ. */
2909 mapcar1 (leni
, vals
, fn
, seq
)
2912 Lisp_Object fn
, seq
;
2914 register Lisp_Object tail
;
2917 struct gcpro gcpro1
, gcpro2
, gcpro3
;
2921 /* Don't let vals contain any garbage when GC happens. */
2922 for (i
= 0; i
< leni
; i
++)
2925 GCPRO3 (dummy
, fn
, seq
);
2927 gcpro1
.nvars
= leni
;
2931 /* We need not explicitly protect `tail' because it is used only on lists, and
2932 1) lists are not relocated and 2) the list is marked via `seq' so will not be freed */
2936 for (i
= 0; i
< leni
; i
++)
2938 dummy
= XVECTOR (seq
)->contents
[i
];
2939 dummy
= call1 (fn
, dummy
);
2944 else if (BOOL_VECTOR_P (seq
))
2946 for (i
= 0; i
< leni
; i
++)
2949 byte
= XBOOL_VECTOR (seq
)->data
[i
/ BOOL_VECTOR_BITS_PER_CHAR
];
2950 if (byte
& (1 << (i
% BOOL_VECTOR_BITS_PER_CHAR
)))
2955 dummy
= call1 (fn
, dummy
);
2960 else if (STRINGP (seq
))
2964 for (i
= 0, i_byte
= 0; i
< leni
;)
2969 FETCH_STRING_CHAR_ADVANCE (c
, seq
, i
, i_byte
);
2970 XSETFASTINT (dummy
, c
);
2971 dummy
= call1 (fn
, dummy
);
2973 vals
[i_before
] = dummy
;
2976 else /* Must be a list, since Flength did not get an error */
2979 for (i
= 0; i
< leni
; i
++)
2981 dummy
= call1 (fn
, Fcar (tail
));
2991 DEFUN ("mapconcat", Fmapconcat
, Smapconcat
, 3, 3, 0,
2992 doc
: /* Apply FUNCTION to each element of SEQUENCE, and concat the results as strings.
2993 In between each pair of results, stick in SEPARATOR. Thus, " " as
2994 SEPARATOR results in spaces between the values returned by FUNCTION.
2995 SEQUENCE may be a list, a vector, a bool-vector, or a string. */)
2996 (function
, sequence
, separator
)
2997 Lisp_Object function
, sequence
, separator
;
3002 register Lisp_Object
*args
;
3004 struct gcpro gcpro1
;
3008 len
= Flength (sequence
);
3010 nargs
= leni
+ leni
- 1;
3011 if (nargs
< 0) return build_string ("");
3013 SAFE_ALLOCA_LISP (args
, nargs
);
3016 mapcar1 (leni
, args
, function
, sequence
);
3019 for (i
= leni
- 1; i
>= 0; i
--)
3020 args
[i
+ i
] = args
[i
];
3022 for (i
= 1; i
< nargs
; i
+= 2)
3023 args
[i
] = separator
;
3025 ret
= Fconcat (nargs
, args
);
3026 SAFE_FREE_LISP (nargs
);
3031 DEFUN ("mapcar", Fmapcar
, Smapcar
, 2, 2, 0,
3032 doc
: /* Apply FUNCTION to each element of SEQUENCE, and make a list of the results.
3033 The result is a list just as long as SEQUENCE.
3034 SEQUENCE may be a list, a vector, a bool-vector, or a string. */)
3035 (function
, sequence
)
3036 Lisp_Object function
, sequence
;
3038 register Lisp_Object len
;
3040 register Lisp_Object
*args
;
3044 len
= Flength (sequence
);
3045 leni
= XFASTINT (len
);
3047 SAFE_ALLOCA_LISP (args
, leni
);
3049 mapcar1 (leni
, args
, function
, sequence
);
3051 ret
= Flist (leni
, args
);
3052 SAFE_FREE_LISP (leni
);
3057 DEFUN ("mapc", Fmapc
, Smapc
, 2, 2, 0,
3058 doc
: /* Apply FUNCTION to each element of SEQUENCE for side effects only.
3059 Unlike `mapcar', don't accumulate the results. Return SEQUENCE.
3060 SEQUENCE may be a list, a vector, a bool-vector, or a string. */)
3061 (function
, sequence
)
3062 Lisp_Object function
, sequence
;
3066 leni
= XFASTINT (Flength (sequence
));
3067 mapcar1 (leni
, 0, function
, sequence
);
3072 /* Anything that calls this function must protect from GC! */
3074 DEFUN ("y-or-n-p", Fy_or_n_p
, Sy_or_n_p
, 1, 1, 0,
3075 doc
: /* Ask user a "y or n" question. Return t if answer is "y".
3076 Takes one argument, which is the string to display to ask the question.
3077 It should end in a space; `y-or-n-p' adds `(y or n) ' to it.
3078 No confirmation of the answer is requested; a single character is enough.
3079 Also accepts Space to mean yes, or Delete to mean no. \(Actually, it uses
3080 the bindings in `query-replace-map'; see the documentation of that variable
3081 for more information. In this case, the useful bindings are `act', `skip',
3082 `recenter', and `quit'.\)
3084 Under a windowing system a dialog box will be used if `last-nonmenu-event'
3085 is nil and `use-dialog-box' is non-nil. */)
3089 register Lisp_Object obj
, key
, def
, map
;
3090 register int answer
;
3091 Lisp_Object xprompt
;
3092 Lisp_Object args
[2];
3093 struct gcpro gcpro1
, gcpro2
;
3094 int count
= SPECPDL_INDEX ();
3096 specbind (Qcursor_in_echo_area
, Qt
);
3098 map
= Fsymbol_value (intern ("query-replace-map"));
3100 CHECK_STRING (prompt
);
3102 GCPRO2 (prompt
, xprompt
);
3104 #ifdef HAVE_X_WINDOWS
3105 if (display_hourglass_p
)
3106 cancel_hourglass ();
3113 if ((NILP (last_nonmenu_event
) || CONSP (last_nonmenu_event
))
3117 Lisp_Object pane
, menu
;
3118 redisplay_preserve_echo_area (3);
3119 pane
= Fcons (Fcons (build_string ("Yes"), Qt
),
3120 Fcons (Fcons (build_string ("No"), Qnil
),
3122 menu
= Fcons (prompt
, pane
);
3123 obj
= Fx_popup_dialog (Qt
, menu
);
3124 answer
= !NILP (obj
);
3127 #endif /* HAVE_MENUS */
3128 cursor_in_echo_area
= 1;
3129 choose_minibuf_frame ();
3132 Lisp_Object pargs
[3];
3134 /* Colorize prompt according to `minibuffer-prompt' face. */
3135 pargs
[0] = build_string ("%s(y or n) ");
3136 pargs
[1] = intern ("face");
3137 pargs
[2] = intern ("minibuffer-prompt");
3138 args
[0] = Fpropertize (3, pargs
);
3143 if (minibuffer_auto_raise
)
3145 Lisp_Object mini_frame
;
3147 mini_frame
= WINDOW_FRAME (XWINDOW (minibuf_window
));
3149 Fraise_frame (mini_frame
);
3152 obj
= read_filtered_event (1, 0, 0, 0);
3153 cursor_in_echo_area
= 0;
3154 /* If we need to quit, quit with cursor_in_echo_area = 0. */
3157 key
= Fmake_vector (make_number (1), obj
);
3158 def
= Flookup_key (map
, key
, Qt
);
3160 if (EQ (def
, intern ("skip")))
3165 else if (EQ (def
, intern ("act")))
3170 else if (EQ (def
, intern ("recenter")))
3176 else if (EQ (def
, intern ("quit")))
3178 /* We want to exit this command for exit-prefix,
3179 and this is the only way to do it. */
3180 else if (EQ (def
, intern ("exit-prefix")))
3185 /* If we don't clear this, then the next call to read_char will
3186 return quit_char again, and we'll enter an infinite loop. */
3191 if (EQ (xprompt
, prompt
))
3193 args
[0] = build_string ("Please answer y or n. ");
3195 xprompt
= Fconcat (2, args
);
3200 if (! noninteractive
)
3202 cursor_in_echo_area
= -1;
3203 message_with_string (answer
? "%s(y or n) y" : "%s(y or n) n",
3207 unbind_to (count
, Qnil
);
3208 return answer
? Qt
: Qnil
;
3211 /* This is how C code calls `yes-or-no-p' and allows the user
3214 Anything that calls this function must protect from GC! */
3217 do_yes_or_no_p (prompt
)
3220 return call1 (intern ("yes-or-no-p"), prompt
);
3223 /* Anything that calls this function must protect from GC! */
3225 DEFUN ("yes-or-no-p", Fyes_or_no_p
, Syes_or_no_p
, 1, 1, 0,
3226 doc
: /* Ask user a yes-or-no question. Return t if answer is yes.
3227 Takes one argument, which is the string to display to ask the question.
3228 It should end in a space; `yes-or-no-p' adds `(yes or no) ' to it.
3229 The user must confirm the answer with RET,
3230 and can edit it until it has been confirmed.
3232 Under a windowing system a dialog box will be used if `last-nonmenu-event'
3233 is nil, and `use-dialog-box' is non-nil. */)
3237 register Lisp_Object ans
;
3238 Lisp_Object args
[2];
3239 struct gcpro gcpro1
;
3241 CHECK_STRING (prompt
);
3244 if ((NILP (last_nonmenu_event
) || CONSP (last_nonmenu_event
))
3248 Lisp_Object pane
, menu
, obj
;
3249 redisplay_preserve_echo_area (4);
3250 pane
= Fcons (Fcons (build_string ("Yes"), Qt
),
3251 Fcons (Fcons (build_string ("No"), Qnil
),
3254 menu
= Fcons (prompt
, pane
);
3255 obj
= Fx_popup_dialog (Qt
, menu
);
3259 #endif /* HAVE_MENUS */
3262 args
[1] = build_string ("(yes or no) ");
3263 prompt
= Fconcat (2, args
);
3269 ans
= Fdowncase (Fread_from_minibuffer (prompt
, Qnil
, Qnil
, Qnil
,
3270 Qyes_or_no_p_history
, Qnil
,
3272 if (SCHARS (ans
) == 3 && !strcmp (SDATA (ans
), "yes"))
3277 if (SCHARS (ans
) == 2 && !strcmp (SDATA (ans
), "no"))
3285 message ("Please answer yes or no.");
3286 Fsleep_for (make_number (2), Qnil
);
3290 DEFUN ("load-average", Fload_average
, Sload_average
, 0, 1, 0,
3291 doc
: /* Return list of 1 minute, 5 minute and 15 minute load averages.
3293 Each of the three load averages is multiplied by 100, then converted
3296 When USE-FLOATS is non-nil, floats will be used instead of integers.
3297 These floats are not multiplied by 100.
3299 If the 5-minute or 15-minute load averages are not available, return a
3300 shortened list, containing only those averages which are available.
3302 An error is thrown if the load average can't be obtained. In some
3303 cases making it work would require Emacs being installed setuid or
3304 setgid so that it can read kernel information, and that usually isn't
3307 Lisp_Object use_floats
;
3310 int loads
= getloadavg (load_ave
, 3);
3311 Lisp_Object ret
= Qnil
;
3314 error ("load-average not implemented for this operating system");
3318 Lisp_Object load
= (NILP (use_floats
) ?
3319 make_number ((int) (100.0 * load_ave
[loads
]))
3320 : make_float (load_ave
[loads
]));
3321 ret
= Fcons (load
, ret
);
3327 Lisp_Object Vfeatures
, Qsubfeatures
;
3328 extern Lisp_Object Vafter_load_alist
;
3330 DEFUN ("featurep", Ffeaturep
, Sfeaturep
, 1, 2, 0,
3331 doc
: /* Returns t if FEATURE is present in this Emacs.
3333 Use this to conditionalize execution of lisp code based on the
3334 presence or absence of emacs or environment extensions.
3335 Use `provide' to declare that a feature is available. This function
3336 looks at the value of the variable `features'. The optional argument
3337 SUBFEATURE can be used to check a specific subfeature of FEATURE. */)
3338 (feature
, subfeature
)
3339 Lisp_Object feature
, subfeature
;
3341 register Lisp_Object tem
;
3342 CHECK_SYMBOL (feature
);
3343 tem
= Fmemq (feature
, Vfeatures
);
3344 if (!NILP (tem
) && !NILP (subfeature
))
3345 tem
= Fmember (subfeature
, Fget (feature
, Qsubfeatures
));
3346 return (NILP (tem
)) ? Qnil
: Qt
;
3349 DEFUN ("provide", Fprovide
, Sprovide
, 1, 2, 0,
3350 doc
: /* Announce that FEATURE is a feature of the current Emacs.
3351 The optional argument SUBFEATURES should be a list of symbols listing
3352 particular subfeatures supported in this version of FEATURE. */)
3353 (feature
, subfeatures
)
3354 Lisp_Object feature
, subfeatures
;
3356 register Lisp_Object tem
;
3357 CHECK_SYMBOL (feature
);
3358 CHECK_LIST (subfeatures
);
3359 if (!NILP (Vautoload_queue
))
3360 Vautoload_queue
= Fcons (Fcons (Vfeatures
, Qnil
), Vautoload_queue
);
3361 tem
= Fmemq (feature
, Vfeatures
);
3363 Vfeatures
= Fcons (feature
, Vfeatures
);
3364 if (!NILP (subfeatures
))
3365 Fput (feature
, Qsubfeatures
, subfeatures
);
3366 LOADHIST_ATTACH (Fcons (Qprovide
, feature
));
3368 /* Run any load-hooks for this file. */
3369 tem
= Fassq (feature
, Vafter_load_alist
);
3371 Fprogn (XCDR (tem
));
3376 /* `require' and its subroutines. */
3378 /* List of features currently being require'd, innermost first. */
3380 Lisp_Object require_nesting_list
;
3383 require_unwind (old_value
)
3384 Lisp_Object old_value
;
3386 return require_nesting_list
= old_value
;
3389 DEFUN ("require", Frequire
, Srequire
, 1, 3, 0,
3390 doc
: /* If feature FEATURE is not loaded, load it from FILENAME.
3391 If FEATURE is not a member of the list `features', then the feature
3392 is not loaded; so load the file FILENAME.
3393 If FILENAME is omitted, the printname of FEATURE is used as the file name,
3394 and `load' will try to load this name appended with the suffix `.elc' or
3395 `.el', in that order. The name without appended suffix will not be used.
3396 If the optional third argument NOERROR is non-nil,
3397 then return nil if the file is not found instead of signaling an error.
3398 Normally the return value is FEATURE.
3399 The normal messages at start and end of loading FILENAME are suppressed. */)
3400 (feature
, filename
, noerror
)
3401 Lisp_Object feature
, filename
, noerror
;
3403 register Lisp_Object tem
;
3404 struct gcpro gcpro1
, gcpro2
;
3406 CHECK_SYMBOL (feature
);
3408 tem
= Fmemq (feature
, Vfeatures
);
3412 int count
= SPECPDL_INDEX ();
3415 LOADHIST_ATTACH (Fcons (Qrequire
, feature
));
3417 /* This is to make sure that loadup.el gives a clear picture
3418 of what files are preloaded and when. */
3419 if (! NILP (Vpurify_flag
))
3420 error ("(require %s) while preparing to dump",
3421 SDATA (SYMBOL_NAME (feature
)));
3423 /* A certain amount of recursive `require' is legitimate,
3424 but if we require the same feature recursively 3 times,
3426 tem
= require_nesting_list
;
3427 while (! NILP (tem
))
3429 if (! NILP (Fequal (feature
, XCAR (tem
))))
3434 error ("Recursive `require' for feature `%s'",
3435 SDATA (SYMBOL_NAME (feature
)));
3437 /* Update the list for any nested `require's that occur. */
3438 record_unwind_protect (require_unwind
, require_nesting_list
);
3439 require_nesting_list
= Fcons (feature
, require_nesting_list
);
3441 /* Value saved here is to be restored into Vautoload_queue */
3442 record_unwind_protect (un_autoload
, Vautoload_queue
);
3443 Vautoload_queue
= Qt
;
3445 /* Load the file. */
3446 GCPRO2 (feature
, filename
);
3447 tem
= Fload (NILP (filename
) ? Fsymbol_name (feature
) : filename
,
3448 noerror
, Qt
, Qnil
, (NILP (filename
) ? Qt
: Qnil
));
3451 /* If load failed entirely, return nil. */
3453 return unbind_to (count
, Qnil
);
3455 tem
= Fmemq (feature
, Vfeatures
);
3457 error ("Required feature `%s' was not provided",
3458 SDATA (SYMBOL_NAME (feature
)));
3460 /* Once loading finishes, don't undo it. */
3461 Vautoload_queue
= Qt
;
3462 feature
= unbind_to (count
, feature
);
3468 /* Primitives for work of the "widget" library.
3469 In an ideal world, this section would not have been necessary.
3470 However, lisp function calls being as slow as they are, it turns
3471 out that some functions in the widget library (wid-edit.el) are the
3472 bottleneck of Widget operation. Here is their translation to C,
3473 for the sole reason of efficiency. */
3475 DEFUN ("plist-member", Fplist_member
, Splist_member
, 2, 2, 0,
3476 doc
: /* Return non-nil if PLIST has the property PROP.
3477 PLIST is a property list, which is a list of the form
3478 \(PROP1 VALUE1 PROP2 VALUE2 ...\). PROP is a symbol.
3479 Unlike `plist-get', this allows you to distinguish between a missing
3480 property and a property with the value nil.
3481 The value is actually the tail of PLIST whose car is PROP. */)
3483 Lisp_Object plist
, prop
;
3485 while (CONSP (plist
) && !EQ (XCAR (plist
), prop
))
3488 plist
= XCDR (plist
);
3489 plist
= CDR (plist
);
3494 DEFUN ("widget-put", Fwidget_put
, Swidget_put
, 3, 3, 0,
3495 doc
: /* In WIDGET, set PROPERTY to VALUE.
3496 The value can later be retrieved with `widget-get'. */)
3497 (widget
, property
, value
)
3498 Lisp_Object widget
, property
, value
;
3500 CHECK_CONS (widget
);
3501 XSETCDR (widget
, Fplist_put (XCDR (widget
), property
, value
));
3505 DEFUN ("widget-get", Fwidget_get
, Swidget_get
, 2, 2, 0,
3506 doc
: /* In WIDGET, get the value of PROPERTY.
3507 The value could either be specified when the widget was created, or
3508 later with `widget-put'. */)
3510 Lisp_Object widget
, property
;
3518 CHECK_CONS (widget
);
3519 tmp
= Fplist_member (XCDR (widget
), property
);
3525 tmp
= XCAR (widget
);
3528 widget
= Fget (tmp
, Qwidget_type
);
3532 DEFUN ("widget-apply", Fwidget_apply
, Swidget_apply
, 2, MANY
, 0,
3533 doc
: /* Apply the value of WIDGET's PROPERTY to the widget itself.
3534 ARGS are passed as extra arguments to the function.
3535 usage: (widget-apply WIDGET PROPERTY &rest ARGS) */)
3540 /* This function can GC. */
3541 Lisp_Object newargs
[3];
3542 struct gcpro gcpro1
, gcpro2
;
3545 newargs
[0] = Fwidget_get (args
[0], args
[1]);
3546 newargs
[1] = args
[0];
3547 newargs
[2] = Flist (nargs
- 2, args
+ 2);
3548 GCPRO2 (newargs
[0], newargs
[2]);
3549 result
= Fapply (3, newargs
);
3554 #ifdef HAVE_LANGINFO_CODESET
3555 #include <langinfo.h>
3558 DEFUN ("locale-info", Flocale_info
, Slocale_info
, 1, 1, 0,
3559 doc
: /* Access locale data ITEM for the current C locale, if available.
3560 ITEM should be one of the following:
3562 `codeset', returning the character set as a string (locale item CODESET);
3564 `days', returning a 7-element vector of day names (locale items DAY_n);
3566 `months', returning a 12-element vector of month names (locale items MON_n);
3568 `paper', returning a list (WIDTH HEIGHT) for the default paper size,
3569 both measured in milimeters (locale items PAPER_WIDTH, PAPER_HEIGHT).
3571 If the system can't provide such information through a call to
3572 `nl_langinfo', or if ITEM isn't from the list above, return nil.
3574 See also Info node `(libc)Locales'.
3576 The data read from the system are decoded using `locale-coding-system'. */)
3581 #ifdef HAVE_LANGINFO_CODESET
3583 if (EQ (item
, Qcodeset
))
3585 str
= nl_langinfo (CODESET
);
3586 return build_string (str
);
3589 else if (EQ (item
, Qdays
)) /* e.g. for calendar-day-name-array */
3591 Lisp_Object v
= Fmake_vector (make_number (7), Qnil
);
3592 int days
[7] = {DAY_1
, DAY_2
, DAY_3
, DAY_4
, DAY_5
, DAY_6
, DAY_7
};
3594 synchronize_system_time_locale ();
3595 for (i
= 0; i
< 7; i
++)
3597 str
= nl_langinfo (days
[i
]);
3598 val
= make_unibyte_string (str
, strlen (str
));
3599 /* Fixme: Is this coding system necessarily right, even if
3600 it is consistent with CODESET? If not, what to do? */
3601 Faset (v
, make_number (i
),
3602 code_convert_string_norecord (val
, Vlocale_coding_system
,
3609 else if (EQ (item
, Qmonths
)) /* e.g. for calendar-month-name-array */
3611 struct Lisp_Vector
*p
= allocate_vector (12);
3612 int months
[12] = {MON_1
, MON_2
, MON_3
, MON_4
, MON_5
, MON_6
, MON_7
,
3613 MON_8
, MON_9
, MON_10
, MON_11
, MON_12
};
3615 synchronize_system_time_locale ();
3616 for (i
= 0; i
< 12; i
++)
3618 str
= nl_langinfo (months
[i
]);
3619 val
= make_unibyte_string (str
, strlen (str
));
3621 code_convert_string_norecord (val
, Vlocale_coding_system
, 0);
3623 XSETVECTOR (val
, p
);
3627 /* LC_PAPER stuff isn't defined as accessible in glibc as of 2.3.1,
3628 but is in the locale files. This could be used by ps-print. */
3630 else if (EQ (item
, Qpaper
))
3632 return list2 (make_number (nl_langinfo (PAPER_WIDTH
)),
3633 make_number (nl_langinfo (PAPER_HEIGHT
)));
3635 #endif /* PAPER_WIDTH */
3636 #endif /* HAVE_LANGINFO_CODESET*/
3640 /* base64 encode/decode functions (RFC 2045).
3641 Based on code from GNU recode. */
3643 #define MIME_LINE_LENGTH 76
3645 #define IS_ASCII(Character) \
3647 #define IS_BASE64(Character) \
3648 (IS_ASCII (Character) && base64_char_to_value[Character] >= 0)
3649 #define IS_BASE64_IGNORABLE(Character) \
3650 ((Character) == ' ' || (Character) == '\t' || (Character) == '\n' \
3651 || (Character) == '\f' || (Character) == '\r')
3653 /* Used by base64_decode_1 to retrieve a non-base64-ignorable
3654 character or return retval if there are no characters left to
3656 #define READ_QUADRUPLET_BYTE(retval) \
3661 if (nchars_return) \
3662 *nchars_return = nchars; \
3667 while (IS_BASE64_IGNORABLE (c))
3669 /* Table of characters coding the 64 values. */
3670 static char base64_value_to_char
[64] =
3672 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', /* 0- 9 */
3673 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', /* 10-19 */
3674 'U', 'V', 'W', 'X', 'Y', 'Z', 'a', 'b', 'c', 'd', /* 20-29 */
3675 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', /* 30-39 */
3676 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', /* 40-49 */
3677 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', /* 50-59 */
3678 '8', '9', '+', '/' /* 60-63 */
3681 /* Table of base64 values for first 128 characters. */
3682 static short base64_char_to_value
[128] =
3684 -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 0- 9 */
3685 -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 10- 19 */
3686 -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 20- 29 */
3687 -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 30- 39 */
3688 -1, -1, -1, 62, -1, -1, -1, 63, 52, 53, /* 40- 49 */
3689 54, 55, 56, 57, 58, 59, 60, 61, -1, -1, /* 50- 59 */
3690 -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, /* 60- 69 */
3691 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, /* 70- 79 */
3692 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, /* 80- 89 */
3693 25, -1, -1, -1, -1, -1, -1, 26, 27, 28, /* 90- 99 */
3694 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, /* 100-109 */
3695 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, /* 110-119 */
3696 49, 50, 51, -1, -1, -1, -1, -1 /* 120-127 */
3699 /* The following diagram shows the logical steps by which three octets
3700 get transformed into four base64 characters.
3702 .--------. .--------. .--------.
3703 |aaaaaabb| |bbbbcccc| |ccdddddd|
3704 `--------' `--------' `--------'
3706 .--------+--------+--------+--------.
3707 |00aaaaaa|00bbbbbb|00cccccc|00dddddd|
3708 `--------+--------+--------+--------'
3710 .--------+--------+--------+--------.
3711 |AAAAAAAA|BBBBBBBB|CCCCCCCC|DDDDDDDD|
3712 `--------+--------+--------+--------'
3714 The octets are divided into 6 bit chunks, which are then encoded into
3715 base64 characters. */
3718 static int base64_encode_1
P_ ((const char *, char *, int, int, int));
3719 static int base64_decode_1
P_ ((const char *, char *, int, int, int *));
3721 DEFUN ("base64-encode-region", Fbase64_encode_region
, Sbase64_encode_region
,
3723 doc
: /* Base64-encode the region between BEG and END.
3724 Return the length of the encoded text.
3725 Optional third argument NO-LINE-BREAK means do not break long lines
3726 into shorter lines. */)
3727 (beg
, end
, no_line_break
)
3728 Lisp_Object beg
, end
, no_line_break
;
3731 int allength
, length
;
3732 int ibeg
, iend
, encoded_length
;
3736 validate_region (&beg
, &end
);
3738 ibeg
= CHAR_TO_BYTE (XFASTINT (beg
));
3739 iend
= CHAR_TO_BYTE (XFASTINT (end
));
3740 move_gap_both (XFASTINT (beg
), ibeg
);
3742 /* We need to allocate enough room for encoding the text.
3743 We need 33 1/3% more space, plus a newline every 76
3744 characters, and then we round up. */
3745 length
= iend
- ibeg
;
3746 allength
= length
+ length
/3 + 1;
3747 allength
+= allength
/ MIME_LINE_LENGTH
+ 1 + 6;
3749 SAFE_ALLOCA (encoded
, char *, allength
);
3750 encoded_length
= base64_encode_1 (BYTE_POS_ADDR (ibeg
), encoded
, length
,
3751 NILP (no_line_break
),
3752 !NILP (current_buffer
->enable_multibyte_characters
));
3753 if (encoded_length
> allength
)
3756 if (encoded_length
< 0)
3758 /* The encoding wasn't possible. */
3759 SAFE_FREE (allength
);
3760 error ("Multibyte character in data for base64 encoding");
3763 /* Now we have encoded the region, so we insert the new contents
3764 and delete the old. (Insert first in order to preserve markers.) */
3765 SET_PT_BOTH (XFASTINT (beg
), ibeg
);
3766 insert (encoded
, encoded_length
);
3767 SAFE_FREE (allength
);
3768 del_range_byte (ibeg
+ encoded_length
, iend
+ encoded_length
, 1);
3770 /* If point was outside of the region, restore it exactly; else just
3771 move to the beginning of the region. */
3772 if (old_pos
>= XFASTINT (end
))
3773 old_pos
+= encoded_length
- (XFASTINT (end
) - XFASTINT (beg
));
3774 else if (old_pos
> XFASTINT (beg
))
3775 old_pos
= XFASTINT (beg
);
3778 /* We return the length of the encoded text. */
3779 return make_number (encoded_length
);
3782 DEFUN ("base64-encode-string", Fbase64_encode_string
, Sbase64_encode_string
,
3784 doc
: /* Base64-encode STRING and return the result.
3785 Optional second argument NO-LINE-BREAK means do not break long lines
3786 into shorter lines. */)
3787 (string
, no_line_break
)
3788 Lisp_Object string
, no_line_break
;
3790 int allength
, length
, encoded_length
;
3792 Lisp_Object encoded_string
;
3795 CHECK_STRING (string
);
3797 /* We need to allocate enough room for encoding the text.
3798 We need 33 1/3% more space, plus a newline every 76
3799 characters, and then we round up. */
3800 length
= SBYTES (string
);
3801 allength
= length
+ length
/3 + 1;
3802 allength
+= allength
/ MIME_LINE_LENGTH
+ 1 + 6;
3804 /* We need to allocate enough room for decoding the text. */
3805 SAFE_ALLOCA (encoded
, char *, allength
);
3807 encoded_length
= base64_encode_1 (SDATA (string
),
3808 encoded
, length
, NILP (no_line_break
),
3809 STRING_MULTIBYTE (string
));
3810 if (encoded_length
> allength
)
3813 if (encoded_length
< 0)
3815 /* The encoding wasn't possible. */
3816 SAFE_FREE (allength
);
3817 error ("Multibyte character in data for base64 encoding");
3820 encoded_string
= make_unibyte_string (encoded
, encoded_length
);
3821 SAFE_FREE (allength
);
3823 return encoded_string
;
3827 base64_encode_1 (from
, to
, length
, line_break
, multibyte
)
3834 int counter
= 0, i
= 0;
3844 c
= STRING_CHAR_AND_LENGTH (from
+ i
, length
- i
, bytes
);
3852 /* Wrap line every 76 characters. */
3856 if (counter
< MIME_LINE_LENGTH
/ 4)
3865 /* Process first byte of a triplet. */
3867 *e
++ = base64_value_to_char
[0x3f & c
>> 2];
3868 value
= (0x03 & c
) << 4;
3870 /* Process second byte of a triplet. */
3874 *e
++ = base64_value_to_char
[value
];
3882 c
= STRING_CHAR_AND_LENGTH (from
+ i
, length
- i
, bytes
);
3890 *e
++ = base64_value_to_char
[value
| (0x0f & c
>> 4)];
3891 value
= (0x0f & c
) << 2;
3893 /* Process third byte of a triplet. */
3897 *e
++ = base64_value_to_char
[value
];
3904 c
= STRING_CHAR_AND_LENGTH (from
+ i
, length
- i
, bytes
);
3912 *e
++ = base64_value_to_char
[value
| (0x03 & c
>> 6)];
3913 *e
++ = base64_value_to_char
[0x3f & c
];
3920 DEFUN ("base64-decode-region", Fbase64_decode_region
, Sbase64_decode_region
,
3922 doc
: /* Base64-decode the region between BEG and END.
3923 Return the length of the decoded text.
3924 If the region can't be decoded, signal an error and don't modify the buffer. */)
3926 Lisp_Object beg
, end
;
3928 int ibeg
, iend
, length
, allength
;
3933 int multibyte
= !NILP (current_buffer
->enable_multibyte_characters
);
3936 validate_region (&beg
, &end
);
3938 ibeg
= CHAR_TO_BYTE (XFASTINT (beg
));
3939 iend
= CHAR_TO_BYTE (XFASTINT (end
));
3941 length
= iend
- ibeg
;
3943 /* We need to allocate enough room for decoding the text. If we are
3944 working on a multibyte buffer, each decoded code may occupy at
3946 allength
= multibyte
? length
* 2 : length
;
3947 SAFE_ALLOCA (decoded
, char *, allength
);
3949 move_gap_both (XFASTINT (beg
), ibeg
);
3950 decoded_length
= base64_decode_1 (BYTE_POS_ADDR (ibeg
), decoded
, length
,
3951 multibyte
, &inserted_chars
);
3952 if (decoded_length
> allength
)
3955 if (decoded_length
< 0)
3957 /* The decoding wasn't possible. */
3958 SAFE_FREE (allength
);
3959 error ("Invalid base64 data");
3962 /* Now we have decoded the region, so we insert the new contents
3963 and delete the old. (Insert first in order to preserve markers.) */
3964 TEMP_SET_PT_BOTH (XFASTINT (beg
), ibeg
);
3965 insert_1_both (decoded
, inserted_chars
, decoded_length
, 0, 1, 0);
3966 SAFE_FREE (allength
);
3968 /* Delete the original text. */
3969 del_range_both (PT
, PT_BYTE
, XFASTINT (end
) + inserted_chars
,
3970 iend
+ decoded_length
, 1);
3972 /* If point was outside of the region, restore it exactly; else just
3973 move to the beginning of the region. */
3974 if (old_pos
>= XFASTINT (end
))
3975 old_pos
+= inserted_chars
- (XFASTINT (end
) - XFASTINT (beg
));
3976 else if (old_pos
> XFASTINT (beg
))
3977 old_pos
= XFASTINT (beg
);
3978 SET_PT (old_pos
> ZV
? ZV
: old_pos
);
3980 return make_number (inserted_chars
);
3983 DEFUN ("base64-decode-string", Fbase64_decode_string
, Sbase64_decode_string
,
3985 doc
: /* Base64-decode STRING and return the result. */)
3990 int length
, decoded_length
;
3991 Lisp_Object decoded_string
;
3994 CHECK_STRING (string
);
3996 length
= SBYTES (string
);
3997 /* We need to allocate enough room for decoding the text. */
3998 SAFE_ALLOCA (decoded
, char *, length
);
4000 /* The decoded result should be unibyte. */
4001 decoded_length
= base64_decode_1 (SDATA (string
), decoded
, length
,
4003 if (decoded_length
> length
)
4005 else if (decoded_length
>= 0)
4006 decoded_string
= make_unibyte_string (decoded
, decoded_length
);
4008 decoded_string
= Qnil
;
4011 if (!STRINGP (decoded_string
))
4012 error ("Invalid base64 data");
4014 return decoded_string
;
4017 /* Base64-decode the data at FROM of LENGHT bytes into TO. If
4018 MULTIBYTE is nonzero, the decoded result should be in multibyte
4019 form. If NCHARS_RETRUN is not NULL, store the number of produced
4020 characters in *NCHARS_RETURN. */
4023 base64_decode_1 (from
, to
, length
, multibyte
, nchars_return
)
4033 unsigned long value
;
4038 /* Process first byte of a quadruplet. */
4040 READ_QUADRUPLET_BYTE (e
-to
);
4044 value
= base64_char_to_value
[c
] << 18;
4046 /* Process second byte of a quadruplet. */
4048 READ_QUADRUPLET_BYTE (-1);
4052 value
|= base64_char_to_value
[c
] << 12;
4054 c
= (unsigned char) (value
>> 16);
4056 e
+= CHAR_STRING (c
, e
);
4061 /* Process third byte of a quadruplet. */
4063 READ_QUADRUPLET_BYTE (-1);
4067 READ_QUADRUPLET_BYTE (-1);
4076 value
|= base64_char_to_value
[c
] << 6;
4078 c
= (unsigned char) (0xff & value
>> 8);
4080 e
+= CHAR_STRING (c
, e
);
4085 /* Process fourth byte of a quadruplet. */
4087 READ_QUADRUPLET_BYTE (-1);
4094 value
|= base64_char_to_value
[c
];
4096 c
= (unsigned char) (0xff & value
);
4098 e
+= CHAR_STRING (c
, e
);
4107 /***********************************************************************
4109 ***** Hash Tables *****
4111 ***********************************************************************/
4113 /* Implemented by gerd@gnu.org. This hash table implementation was
4114 inspired by CMUCL hash tables. */
4118 1. For small tables, association lists are probably faster than
4119 hash tables because they have lower overhead.
4121 For uses of hash tables where the O(1) behavior of table
4122 operations is not a requirement, it might therefore be a good idea
4123 not to hash. Instead, we could just do a linear search in the
4124 key_and_value vector of the hash table. This could be done
4125 if a `:linear-search t' argument is given to make-hash-table. */
4128 /* The list of all weak hash tables. Don't staticpro this one. */
4130 Lisp_Object Vweak_hash_tables
;
4132 /* Various symbols. */
4134 Lisp_Object Qhash_table_p
, Qeq
, Qeql
, Qequal
, Qkey
, Qvalue
;
4135 Lisp_Object QCtest
, QCsize
, QCrehash_size
, QCrehash_threshold
, QCweakness
;
4136 Lisp_Object Qhash_table_test
, Qkey_or_value
, Qkey_and_value
;
4138 /* Function prototypes. */
4140 static struct Lisp_Hash_Table
*check_hash_table
P_ ((Lisp_Object
));
4141 static int get_key_arg
P_ ((Lisp_Object
, int, Lisp_Object
*, char *));
4142 static void maybe_resize_hash_table
P_ ((struct Lisp_Hash_Table
*));
4143 static int cmpfn_eql
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
, unsigned,
4144 Lisp_Object
, unsigned));
4145 static int cmpfn_equal
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
, unsigned,
4146 Lisp_Object
, unsigned));
4147 static int cmpfn_user_defined
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
,
4148 unsigned, Lisp_Object
, unsigned));
4149 static unsigned hashfn_eq
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
));
4150 static unsigned hashfn_eql
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
));
4151 static unsigned hashfn_equal
P_ ((struct Lisp_Hash_Table
*, Lisp_Object
));
4152 static unsigned hashfn_user_defined
P_ ((struct Lisp_Hash_Table
*,
4154 static unsigned sxhash_string
P_ ((unsigned char *, int));
4155 static unsigned sxhash_list
P_ ((Lisp_Object
, int));
4156 static unsigned sxhash_vector
P_ ((Lisp_Object
, int));
4157 static unsigned sxhash_bool_vector
P_ ((Lisp_Object
));
4158 static int sweep_weak_table
P_ ((struct Lisp_Hash_Table
*, int));
4162 /***********************************************************************
4164 ***********************************************************************/
4166 /* If OBJ is a Lisp hash table, return a pointer to its struct
4167 Lisp_Hash_Table. Otherwise, signal an error. */
4169 static struct Lisp_Hash_Table
*
4170 check_hash_table (obj
)
4173 CHECK_HASH_TABLE (obj
);
4174 return XHASH_TABLE (obj
);
4178 /* Value is the next integer I >= N, N >= 0 which is "almost" a prime
4182 next_almost_prime (n
)
4195 /* Find KEY in ARGS which has size NARGS. Don't consider indices for
4196 which USED[I] is non-zero. If found at index I in ARGS, set
4197 USED[I] and USED[I + 1] to 1, and return I + 1. Otherwise return
4198 -1. This function is used to extract a keyword/argument pair from
4199 a DEFUN parameter list. */
4202 get_key_arg (key
, nargs
, args
, used
)
4210 for (i
= 0; i
< nargs
- 1; ++i
)
4211 if (!used
[i
] && EQ (args
[i
], key
))
4226 /* Return a Lisp vector which has the same contents as VEC but has
4227 size NEW_SIZE, NEW_SIZE >= VEC->size. Entries in the resulting
4228 vector that are not copied from VEC are set to INIT. */
4231 larger_vector (vec
, new_size
, init
)
4236 struct Lisp_Vector
*v
;
4239 xassert (VECTORP (vec
));
4240 old_size
= XVECTOR (vec
)->size
;
4241 xassert (new_size
>= old_size
);
4243 v
= allocate_vector (new_size
);
4244 bcopy (XVECTOR (vec
)->contents
, v
->contents
,
4245 old_size
* sizeof *v
->contents
);
4246 for (i
= old_size
; i
< new_size
; ++i
)
4247 v
->contents
[i
] = init
;
4248 XSETVECTOR (vec
, v
);
4253 /***********************************************************************
4255 ***********************************************************************/
4257 /* Compare KEY1 which has hash code HASH1 and KEY2 with hash code
4258 HASH2 in hash table H using `eql'. Value is non-zero if KEY1 and
4259 KEY2 are the same. */
4262 cmpfn_eql (h
, key1
, hash1
, key2
, hash2
)
4263 struct Lisp_Hash_Table
*h
;
4264 Lisp_Object key1
, key2
;
4265 unsigned hash1
, hash2
;
4267 return (FLOATP (key1
)
4269 && XFLOAT_DATA (key1
) == XFLOAT_DATA (key2
));
4273 /* Compare KEY1 which has hash code HASH1 and KEY2 with hash code
4274 HASH2 in hash table H using `equal'. Value is non-zero if KEY1 and
4275 KEY2 are the same. */
4278 cmpfn_equal (h
, key1
, hash1
, key2
, hash2
)
4279 struct Lisp_Hash_Table
*h
;
4280 Lisp_Object key1
, key2
;
4281 unsigned hash1
, hash2
;
4283 return hash1
== hash2
&& !NILP (Fequal (key1
, key2
));
4287 /* Compare KEY1 which has hash code HASH1, and KEY2 with hash code
4288 HASH2 in hash table H using H->user_cmp_function. Value is non-zero
4289 if KEY1 and KEY2 are the same. */
4292 cmpfn_user_defined (h
, key1
, hash1
, key2
, hash2
)
4293 struct Lisp_Hash_Table
*h
;
4294 Lisp_Object key1
, key2
;
4295 unsigned hash1
, hash2
;
4299 Lisp_Object args
[3];
4301 args
[0] = h
->user_cmp_function
;
4304 return !NILP (Ffuncall (3, args
));
4311 /* Value is a hash code for KEY for use in hash table H which uses
4312 `eq' to compare keys. The hash code returned is guaranteed to fit
4313 in a Lisp integer. */
4317 struct Lisp_Hash_Table
*h
;
4320 unsigned hash
= XUINT (key
) ^ XGCTYPE (key
);
4321 xassert ((hash
& ~INTMASK
) == 0);
4326 /* Value is a hash code for KEY for use in hash table H which uses
4327 `eql' to compare keys. The hash code returned is guaranteed to fit
4328 in a Lisp integer. */
4332 struct Lisp_Hash_Table
*h
;
4337 hash
= sxhash (key
, 0);
4339 hash
= XUINT (key
) ^ XGCTYPE (key
);
4340 xassert ((hash
& ~INTMASK
) == 0);
4345 /* Value is a hash code for KEY for use in hash table H which uses
4346 `equal' to compare keys. The hash code returned is guaranteed to fit
4347 in a Lisp integer. */
4350 hashfn_equal (h
, key
)
4351 struct Lisp_Hash_Table
*h
;
4354 unsigned hash
= sxhash (key
, 0);
4355 xassert ((hash
& ~INTMASK
) == 0);
4360 /* Value is a hash code for KEY for use in hash table H which uses as
4361 user-defined function to compare keys. The hash code returned is
4362 guaranteed to fit in a Lisp integer. */
4365 hashfn_user_defined (h
, key
)
4366 struct Lisp_Hash_Table
*h
;
4369 Lisp_Object args
[2], hash
;
4371 args
[0] = h
->user_hash_function
;
4373 hash
= Ffuncall (2, args
);
4374 if (!INTEGERP (hash
))
4376 list2 (build_string ("Invalid hash code returned from \
4377 user-supplied hash function"),
4379 return XUINT (hash
);
4383 /* Create and initialize a new hash table.
4385 TEST specifies the test the hash table will use to compare keys.
4386 It must be either one of the predefined tests `eq', `eql' or
4387 `equal' or a symbol denoting a user-defined test named TEST with
4388 test and hash functions USER_TEST and USER_HASH.
4390 Give the table initial capacity SIZE, SIZE >= 0, an integer.
4392 If REHASH_SIZE is an integer, it must be > 0, and this hash table's
4393 new size when it becomes full is computed by adding REHASH_SIZE to
4394 its old size. If REHASH_SIZE is a float, it must be > 1.0, and the
4395 table's new size is computed by multiplying its old size with
4398 REHASH_THRESHOLD must be a float <= 1.0, and > 0. The table will
4399 be resized when the ratio of (number of entries in the table) /
4400 (table size) is >= REHASH_THRESHOLD.
4402 WEAK specifies the weakness of the table. If non-nil, it must be
4403 one of the symbols `key', `value', `key-or-value', or `key-and-value'. */
4406 make_hash_table (test
, size
, rehash_size
, rehash_threshold
, weak
,
4407 user_test
, user_hash
)
4408 Lisp_Object test
, size
, rehash_size
, rehash_threshold
, weak
;
4409 Lisp_Object user_test
, user_hash
;
4411 struct Lisp_Hash_Table
*h
;
4413 int index_size
, i
, sz
;
4415 /* Preconditions. */
4416 xassert (SYMBOLP (test
));
4417 xassert (INTEGERP (size
) && XINT (size
) >= 0);
4418 xassert ((INTEGERP (rehash_size
) && XINT (rehash_size
) > 0)
4419 || (FLOATP (rehash_size
) && XFLOATINT (rehash_size
) > 1.0));
4420 xassert (FLOATP (rehash_threshold
)
4421 && XFLOATINT (rehash_threshold
) > 0
4422 && XFLOATINT (rehash_threshold
) <= 1.0);
4424 if (XFASTINT (size
) == 0)
4425 size
= make_number (1);
4427 /* Allocate a table and initialize it. */
4428 h
= allocate_hash_table ();
4430 /* Initialize hash table slots. */
4431 sz
= XFASTINT (size
);
4434 if (EQ (test
, Qeql
))
4436 h
->cmpfn
= cmpfn_eql
;
4437 h
->hashfn
= hashfn_eql
;
4439 else if (EQ (test
, Qeq
))
4442 h
->hashfn
= hashfn_eq
;
4444 else if (EQ (test
, Qequal
))
4446 h
->cmpfn
= cmpfn_equal
;
4447 h
->hashfn
= hashfn_equal
;
4451 h
->user_cmp_function
= user_test
;
4452 h
->user_hash_function
= user_hash
;
4453 h
->cmpfn
= cmpfn_user_defined
;
4454 h
->hashfn
= hashfn_user_defined
;
4458 h
->rehash_threshold
= rehash_threshold
;
4459 h
->rehash_size
= rehash_size
;
4460 h
->count
= make_number (0);
4461 h
->key_and_value
= Fmake_vector (make_number (2 * sz
), Qnil
);
4462 h
->hash
= Fmake_vector (size
, Qnil
);
4463 h
->next
= Fmake_vector (size
, Qnil
);
4464 /* Cast to int here avoids losing with gcc 2.95 on Tru64/Alpha... */
4465 index_size
= next_almost_prime ((int) (sz
/ XFLOATINT (rehash_threshold
)));
4466 h
->index
= Fmake_vector (make_number (index_size
), Qnil
);
4468 /* Set up the free list. */
4469 for (i
= 0; i
< sz
- 1; ++i
)
4470 HASH_NEXT (h
, i
) = make_number (i
+ 1);
4471 h
->next_free
= make_number (0);
4473 XSET_HASH_TABLE (table
, h
);
4474 xassert (HASH_TABLE_P (table
));
4475 xassert (XHASH_TABLE (table
) == h
);
4477 /* Maybe add this hash table to the list of all weak hash tables. */
4479 h
->next_weak
= Qnil
;
4482 h
->next_weak
= Vweak_hash_tables
;
4483 Vweak_hash_tables
= table
;
4490 /* Return a copy of hash table H1. Keys and values are not copied,
4491 only the table itself is. */
4494 copy_hash_table (h1
)
4495 struct Lisp_Hash_Table
*h1
;
4498 struct Lisp_Hash_Table
*h2
;
4499 struct Lisp_Vector
*next
;
4501 h2
= allocate_hash_table ();
4502 next
= h2
->vec_next
;
4503 bcopy (h1
, h2
, sizeof *h2
);
4504 h2
->vec_next
= next
;
4505 h2
->key_and_value
= Fcopy_sequence (h1
->key_and_value
);
4506 h2
->hash
= Fcopy_sequence (h1
->hash
);
4507 h2
->next
= Fcopy_sequence (h1
->next
);
4508 h2
->index
= Fcopy_sequence (h1
->index
);
4509 XSET_HASH_TABLE (table
, h2
);
4511 /* Maybe add this hash table to the list of all weak hash tables. */
4512 if (!NILP (h2
->weak
))
4514 h2
->next_weak
= Vweak_hash_tables
;
4515 Vweak_hash_tables
= table
;
4522 /* Resize hash table H if it's too full. If H cannot be resized
4523 because it's already too large, throw an error. */
4526 maybe_resize_hash_table (h
)
4527 struct Lisp_Hash_Table
*h
;
4529 if (NILP (h
->next_free
))
4531 int old_size
= HASH_TABLE_SIZE (h
);
4532 int i
, new_size
, index_size
;
4534 if (INTEGERP (h
->rehash_size
))
4535 new_size
= old_size
+ XFASTINT (h
->rehash_size
);
4537 new_size
= old_size
* XFLOATINT (h
->rehash_size
);
4538 new_size
= max (old_size
+ 1, new_size
);
4539 index_size
= next_almost_prime ((int)
4541 / XFLOATINT (h
->rehash_threshold
)));
4542 if (max (index_size
, 2 * new_size
) > MOST_POSITIVE_FIXNUM
)
4543 error ("Hash table too large to resize");
4545 h
->key_and_value
= larger_vector (h
->key_and_value
, 2 * new_size
, Qnil
);
4546 h
->next
= larger_vector (h
->next
, new_size
, Qnil
);
4547 h
->hash
= larger_vector (h
->hash
, new_size
, Qnil
);
4548 h
->index
= Fmake_vector (make_number (index_size
), Qnil
);
4550 /* Update the free list. Do it so that new entries are added at
4551 the end of the free list. This makes some operations like
4553 for (i
= old_size
; i
< new_size
- 1; ++i
)
4554 HASH_NEXT (h
, i
) = make_number (i
+ 1);
4556 if (!NILP (h
->next_free
))
4558 Lisp_Object last
, next
;
4560 last
= h
->next_free
;
4561 while (next
= HASH_NEXT (h
, XFASTINT (last
)),
4565 HASH_NEXT (h
, XFASTINT (last
)) = make_number (old_size
);
4568 XSETFASTINT (h
->next_free
, old_size
);
4571 for (i
= 0; i
< old_size
; ++i
)
4572 if (!NILP (HASH_HASH (h
, i
)))
4574 unsigned hash_code
= XUINT (HASH_HASH (h
, i
));
4575 int start_of_bucket
= hash_code
% XVECTOR (h
->index
)->size
;
4576 HASH_NEXT (h
, i
) = HASH_INDEX (h
, start_of_bucket
);
4577 HASH_INDEX (h
, start_of_bucket
) = make_number (i
);
4583 /* Lookup KEY in hash table H. If HASH is non-null, return in *HASH
4584 the hash code of KEY. Value is the index of the entry in H
4585 matching KEY, or -1 if not found. */
4588 hash_lookup (h
, key
, hash
)
4589 struct Lisp_Hash_Table
*h
;
4594 int start_of_bucket
;
4597 hash_code
= h
->hashfn (h
, key
);
4601 start_of_bucket
= hash_code
% XVECTOR (h
->index
)->size
;
4602 idx
= HASH_INDEX (h
, start_of_bucket
);
4604 /* We need not gcpro idx since it's either an integer or nil. */
4607 int i
= XFASTINT (idx
);
4608 if (EQ (key
, HASH_KEY (h
, i
))
4610 && h
->cmpfn (h
, key
, hash_code
,
4611 HASH_KEY (h
, i
), XUINT (HASH_HASH (h
, i
)))))
4613 idx
= HASH_NEXT (h
, i
);
4616 return NILP (idx
) ? -1 : XFASTINT (idx
);
4620 /* Put an entry into hash table H that associates KEY with VALUE.
4621 HASH is a previously computed hash code of KEY.
4622 Value is the index of the entry in H matching KEY. */
4625 hash_put (h
, key
, value
, hash
)
4626 struct Lisp_Hash_Table
*h
;
4627 Lisp_Object key
, value
;
4630 int start_of_bucket
, i
;
4632 xassert ((hash
& ~INTMASK
) == 0);
4634 /* Increment count after resizing because resizing may fail. */
4635 maybe_resize_hash_table (h
);
4636 h
->count
= make_number (XFASTINT (h
->count
) + 1);
4638 /* Store key/value in the key_and_value vector. */
4639 i
= XFASTINT (h
->next_free
);
4640 h
->next_free
= HASH_NEXT (h
, i
);
4641 HASH_KEY (h
, i
) = key
;
4642 HASH_VALUE (h
, i
) = value
;
4644 /* Remember its hash code. */
4645 HASH_HASH (h
, i
) = make_number (hash
);
4647 /* Add new entry to its collision chain. */
4648 start_of_bucket
= hash
% XVECTOR (h
->index
)->size
;
4649 HASH_NEXT (h
, i
) = HASH_INDEX (h
, start_of_bucket
);
4650 HASH_INDEX (h
, start_of_bucket
) = make_number (i
);
4655 /* Remove the entry matching KEY from hash table H, if there is one. */
4658 hash_remove (h
, key
)
4659 struct Lisp_Hash_Table
*h
;
4663 int start_of_bucket
;
4664 Lisp_Object idx
, prev
;
4666 hash_code
= h
->hashfn (h
, key
);
4667 start_of_bucket
= hash_code
% XVECTOR (h
->index
)->size
;
4668 idx
= HASH_INDEX (h
, start_of_bucket
);
4671 /* We need not gcpro idx, prev since they're either integers or nil. */
4674 int i
= XFASTINT (idx
);
4676 if (EQ (key
, HASH_KEY (h
, i
))
4678 && h
->cmpfn (h
, key
, hash_code
,
4679 HASH_KEY (h
, i
), XUINT (HASH_HASH (h
, i
)))))
4681 /* Take entry out of collision chain. */
4683 HASH_INDEX (h
, start_of_bucket
) = HASH_NEXT (h
, i
);
4685 HASH_NEXT (h
, XFASTINT (prev
)) = HASH_NEXT (h
, i
);
4687 /* Clear slots in key_and_value and add the slots to
4689 HASH_KEY (h
, i
) = HASH_VALUE (h
, i
) = HASH_HASH (h
, i
) = Qnil
;
4690 HASH_NEXT (h
, i
) = h
->next_free
;
4691 h
->next_free
= make_number (i
);
4692 h
->count
= make_number (XFASTINT (h
->count
) - 1);
4693 xassert (XINT (h
->count
) >= 0);
4699 idx
= HASH_NEXT (h
, i
);
4705 /* Clear hash table H. */
4709 struct Lisp_Hash_Table
*h
;
4711 if (XFASTINT (h
->count
) > 0)
4713 int i
, size
= HASH_TABLE_SIZE (h
);
4715 for (i
= 0; i
< size
; ++i
)
4717 HASH_NEXT (h
, i
) = i
< size
- 1 ? make_number (i
+ 1) : Qnil
;
4718 HASH_KEY (h
, i
) = Qnil
;
4719 HASH_VALUE (h
, i
) = Qnil
;
4720 HASH_HASH (h
, i
) = Qnil
;
4723 for (i
= 0; i
< XVECTOR (h
->index
)->size
; ++i
)
4724 XVECTOR (h
->index
)->contents
[i
] = Qnil
;
4726 h
->next_free
= make_number (0);
4727 h
->count
= make_number (0);
4733 /************************************************************************
4735 ************************************************************************/
4737 /* Sweep weak hash table H. REMOVE_ENTRIES_P non-zero means remove
4738 entries from the table that don't survive the current GC.
4739 REMOVE_ENTRIES_P zero means mark entries that are in use. Value is
4740 non-zero if anything was marked. */
4743 sweep_weak_table (h
, remove_entries_p
)
4744 struct Lisp_Hash_Table
*h
;
4745 int remove_entries_p
;
4747 int bucket
, n
, marked
;
4749 n
= XVECTOR (h
->index
)->size
& ~ARRAY_MARK_FLAG
;
4752 for (bucket
= 0; bucket
< n
; ++bucket
)
4754 Lisp_Object idx
, next
, prev
;
4756 /* Follow collision chain, removing entries that
4757 don't survive this garbage collection. */
4759 for (idx
= HASH_INDEX (h
, bucket
); !GC_NILP (idx
); idx
= next
)
4761 int i
= XFASTINT (idx
);
4762 int key_known_to_survive_p
= survives_gc_p (HASH_KEY (h
, i
));
4763 int value_known_to_survive_p
= survives_gc_p (HASH_VALUE (h
, i
));
4766 if (EQ (h
->weak
, Qkey
))
4767 remove_p
= !key_known_to_survive_p
;
4768 else if (EQ (h
->weak
, Qvalue
))
4769 remove_p
= !value_known_to_survive_p
;
4770 else if (EQ (h
->weak
, Qkey_or_value
))
4771 remove_p
= !(key_known_to_survive_p
|| value_known_to_survive_p
);
4772 else if (EQ (h
->weak
, Qkey_and_value
))
4773 remove_p
= !(key_known_to_survive_p
&& value_known_to_survive_p
);
4777 next
= HASH_NEXT (h
, i
);
4779 if (remove_entries_p
)
4783 /* Take out of collision chain. */
4785 HASH_INDEX (h
, bucket
) = next
;
4787 HASH_NEXT (h
, XFASTINT (prev
)) = next
;
4789 /* Add to free list. */
4790 HASH_NEXT (h
, i
) = h
->next_free
;
4793 /* Clear key, value, and hash. */
4794 HASH_KEY (h
, i
) = HASH_VALUE (h
, i
) = Qnil
;
4795 HASH_HASH (h
, i
) = Qnil
;
4797 h
->count
= make_number (XFASTINT (h
->count
) - 1);
4804 /* Make sure key and value survive. */
4805 if (!key_known_to_survive_p
)
4807 mark_object (HASH_KEY (h
, i
));
4811 if (!value_known_to_survive_p
)
4813 mark_object (HASH_VALUE (h
, i
));
4824 /* Remove elements from weak hash tables that don't survive the
4825 current garbage collection. Remove weak tables that don't survive
4826 from Vweak_hash_tables. Called from gc_sweep. */
4829 sweep_weak_hash_tables ()
4831 Lisp_Object table
, used
, next
;
4832 struct Lisp_Hash_Table
*h
;
4835 /* Mark all keys and values that are in use. Keep on marking until
4836 there is no more change. This is necessary for cases like
4837 value-weak table A containing an entry X -> Y, where Y is used in a
4838 key-weak table B, Z -> Y. If B comes after A in the list of weak
4839 tables, X -> Y might be removed from A, although when looking at B
4840 one finds that it shouldn't. */
4844 for (table
= Vweak_hash_tables
; !GC_NILP (table
); table
= h
->next_weak
)
4846 h
= XHASH_TABLE (table
);
4847 if (h
->size
& ARRAY_MARK_FLAG
)
4848 marked
|= sweep_weak_table (h
, 0);
4853 /* Remove tables and entries that aren't used. */
4854 for (table
= Vweak_hash_tables
, used
= Qnil
; !GC_NILP (table
); table
= next
)
4856 h
= XHASH_TABLE (table
);
4857 next
= h
->next_weak
;
4859 if (h
->size
& ARRAY_MARK_FLAG
)
4861 /* TABLE is marked as used. Sweep its contents. */
4862 if (XFASTINT (h
->count
) > 0)
4863 sweep_weak_table (h
, 1);
4865 /* Add table to the list of used weak hash tables. */
4866 h
->next_weak
= used
;
4871 Vweak_hash_tables
= used
;
4876 /***********************************************************************
4877 Hash Code Computation
4878 ***********************************************************************/
4880 /* Maximum depth up to which to dive into Lisp structures. */
4882 #define SXHASH_MAX_DEPTH 3
4884 /* Maximum length up to which to take list and vector elements into
4887 #define SXHASH_MAX_LEN 7
4889 /* Combine two integers X and Y for hashing. */
4891 #define SXHASH_COMBINE(X, Y) \
4892 ((((unsigned)(X) << 4) + (((unsigned)(X) >> 24) & 0x0fffffff)) \
4896 /* Return a hash for string PTR which has length LEN. The hash
4897 code returned is guaranteed to fit in a Lisp integer. */
4900 sxhash_string (ptr
, len
)
4904 unsigned char *p
= ptr
;
4905 unsigned char *end
= p
+ len
;
4914 hash
= ((hash
<< 3) + (hash
>> 28) + c
);
4917 return hash
& INTMASK
;
4921 /* Return a hash for list LIST. DEPTH is the current depth in the
4922 list. We don't recurse deeper than SXHASH_MAX_DEPTH in it. */
4925 sxhash_list (list
, depth
)
4932 if (depth
< SXHASH_MAX_DEPTH
)
4934 CONSP (list
) && i
< SXHASH_MAX_LEN
;
4935 list
= XCDR (list
), ++i
)
4937 unsigned hash2
= sxhash (XCAR (list
), depth
+ 1);
4938 hash
= SXHASH_COMBINE (hash
, hash2
);
4945 /* Return a hash for vector VECTOR. DEPTH is the current depth in
4946 the Lisp structure. */
4949 sxhash_vector (vec
, depth
)
4953 unsigned hash
= XVECTOR (vec
)->size
;
4956 n
= min (SXHASH_MAX_LEN
, XVECTOR (vec
)->size
);
4957 for (i
= 0; i
< n
; ++i
)
4959 unsigned hash2
= sxhash (XVECTOR (vec
)->contents
[i
], depth
+ 1);
4960 hash
= SXHASH_COMBINE (hash
, hash2
);
4967 /* Return a hash for bool-vector VECTOR. */
4970 sxhash_bool_vector (vec
)
4973 unsigned hash
= XBOOL_VECTOR (vec
)->size
;
4976 n
= min (SXHASH_MAX_LEN
, XBOOL_VECTOR (vec
)->vector_size
);
4977 for (i
= 0; i
< n
; ++i
)
4978 hash
= SXHASH_COMBINE (hash
, XBOOL_VECTOR (vec
)->data
[i
]);
4984 /* Return a hash code for OBJ. DEPTH is the current depth in the Lisp
4985 structure. Value is an unsigned integer clipped to INTMASK. */
4994 if (depth
> SXHASH_MAX_DEPTH
)
4997 switch (XTYPE (obj
))
5004 hash
= sxhash_string (SDATA (SYMBOL_NAME (obj
)),
5005 SCHARS (SYMBOL_NAME (obj
)));
5013 hash
= sxhash_string (SDATA (obj
), SCHARS (obj
));
5016 /* This can be everything from a vector to an overlay. */
5017 case Lisp_Vectorlike
:
5019 /* According to the CL HyperSpec, two arrays are equal only if
5020 they are `eq', except for strings and bit-vectors. In
5021 Emacs, this works differently. We have to compare element
5023 hash
= sxhash_vector (obj
, depth
);
5024 else if (BOOL_VECTOR_P (obj
))
5025 hash
= sxhash_bool_vector (obj
);
5027 /* Others are `equal' if they are `eq', so let's take their
5033 hash
= sxhash_list (obj
, depth
);
5038 unsigned char *p
= (unsigned char *) &XFLOAT_DATA (obj
);
5039 unsigned char *e
= p
+ sizeof XFLOAT_DATA (obj
);
5040 for (hash
= 0; p
< e
; ++p
)
5041 hash
= SXHASH_COMBINE (hash
, *p
);
5049 return hash
& INTMASK
;
5054 /***********************************************************************
5056 ***********************************************************************/
5059 DEFUN ("sxhash", Fsxhash
, Ssxhash
, 1, 1, 0,
5060 doc
: /* Compute a hash code for OBJ and return it as integer. */)
5064 unsigned hash
= sxhash (obj
, 0);;
5065 return make_number (hash
);
5069 DEFUN ("make-hash-table", Fmake_hash_table
, Smake_hash_table
, 0, MANY
, 0,
5070 doc
: /* Create and return a new hash table.
5072 Arguments are specified as keyword/argument pairs. The following
5073 arguments are defined:
5075 :test TEST -- TEST must be a symbol that specifies how to compare
5076 keys. Default is `eql'. Predefined are the tests `eq', `eql', and
5077 `equal'. User-supplied test and hash functions can be specified via
5078 `define-hash-table-test'.
5080 :size SIZE -- A hint as to how many elements will be put in the table.
5083 :rehash-size REHASH-SIZE - Indicates how to expand the table when it
5084 fills up. If REHASH-SIZE is an integer, add that many space. If it
5085 is a float, it must be > 1.0, and the new size is computed by
5086 multiplying the old size with that factor. Default is 1.5.
5088 :rehash-threshold THRESHOLD -- THRESHOLD must a float > 0, and <= 1.0.
5089 Resize the hash table when ratio of the number of entries in the
5090 table. Default is 0.8.
5092 :weakness WEAK -- WEAK must be one of nil, t, `key', `value',
5093 `key-or-value', or `key-and-value'. If WEAK is not nil, the table
5094 returned is a weak table. Key/value pairs are removed from a weak
5095 hash table when there are no non-weak references pointing to their
5096 key, value, one of key or value, or both key and value, depending on
5097 WEAK. WEAK t is equivalent to `key-and-value'. Default value of WEAK
5100 usage: (make-hash-table &rest KEYWORD-ARGS) */)
5105 Lisp_Object test
, size
, rehash_size
, rehash_threshold
, weak
;
5106 Lisp_Object user_test
, user_hash
;
5110 /* The vector `used' is used to keep track of arguments that
5111 have been consumed. */
5112 used
= (char *) alloca (nargs
* sizeof *used
);
5113 bzero (used
, nargs
* sizeof *used
);
5115 /* See if there's a `:test TEST' among the arguments. */
5116 i
= get_key_arg (QCtest
, nargs
, args
, used
);
5117 test
= i
< 0 ? Qeql
: args
[i
];
5118 if (!EQ (test
, Qeq
) && !EQ (test
, Qeql
) && !EQ (test
, Qequal
))
5120 /* See if it is a user-defined test. */
5123 prop
= Fget (test
, Qhash_table_test
);
5124 if (!CONSP (prop
) || !CONSP (XCDR (prop
)))
5125 Fsignal (Qerror
, list2 (build_string ("Invalid hash table test"),
5127 user_test
= XCAR (prop
);
5128 user_hash
= XCAR (XCDR (prop
));
5131 user_test
= user_hash
= Qnil
;
5133 /* See if there's a `:size SIZE' argument. */
5134 i
= get_key_arg (QCsize
, nargs
, args
, used
);
5135 size
= i
< 0 ? Qnil
: args
[i
];
5137 size
= make_number (DEFAULT_HASH_SIZE
);
5138 else if (!INTEGERP (size
) || XINT (size
) < 0)
5140 list2 (build_string ("Invalid hash table size"),
5143 /* Look for `:rehash-size SIZE'. */
5144 i
= get_key_arg (QCrehash_size
, nargs
, args
, used
);
5145 rehash_size
= i
< 0 ? make_float (DEFAULT_REHASH_SIZE
) : args
[i
];
5146 if (!NUMBERP (rehash_size
)
5147 || (INTEGERP (rehash_size
) && XINT (rehash_size
) <= 0)
5148 || XFLOATINT (rehash_size
) <= 1.0)
5150 list2 (build_string ("Invalid hash table rehash size"),
5153 /* Look for `:rehash-threshold THRESHOLD'. */
5154 i
= get_key_arg (QCrehash_threshold
, nargs
, args
, used
);
5155 rehash_threshold
= i
< 0 ? make_float (DEFAULT_REHASH_THRESHOLD
) : args
[i
];
5156 if (!FLOATP (rehash_threshold
)
5157 || XFLOATINT (rehash_threshold
) <= 0.0
5158 || XFLOATINT (rehash_threshold
) > 1.0)
5160 list2 (build_string ("Invalid hash table rehash threshold"),
5163 /* Look for `:weakness WEAK'. */
5164 i
= get_key_arg (QCweakness
, nargs
, args
, used
);
5165 weak
= i
< 0 ? Qnil
: args
[i
];
5167 weak
= Qkey_and_value
;
5170 && !EQ (weak
, Qvalue
)
5171 && !EQ (weak
, Qkey_or_value
)
5172 && !EQ (weak
, Qkey_and_value
))
5173 Fsignal (Qerror
, list2 (build_string ("Invalid hash table weakness"),
5176 /* Now, all args should have been used up, or there's a problem. */
5177 for (i
= 0; i
< nargs
; ++i
)
5180 list2 (build_string ("Invalid argument list"), args
[i
]));
5182 return make_hash_table (test
, size
, rehash_size
, rehash_threshold
, weak
,
5183 user_test
, user_hash
);
5187 DEFUN ("copy-hash-table", Fcopy_hash_table
, Scopy_hash_table
, 1, 1, 0,
5188 doc
: /* Return a copy of hash table TABLE. */)
5192 return copy_hash_table (check_hash_table (table
));
5196 DEFUN ("hash-table-count", Fhash_table_count
, Shash_table_count
, 1, 1, 0,
5197 doc
: /* Return the number of elements in TABLE. */)
5201 return check_hash_table (table
)->count
;
5205 DEFUN ("hash-table-rehash-size", Fhash_table_rehash_size
,
5206 Shash_table_rehash_size
, 1, 1, 0,
5207 doc
: /* Return the current rehash size of TABLE. */)
5211 return check_hash_table (table
)->rehash_size
;
5215 DEFUN ("hash-table-rehash-threshold", Fhash_table_rehash_threshold
,
5216 Shash_table_rehash_threshold
, 1, 1, 0,
5217 doc
: /* Return the current rehash threshold of TABLE. */)
5221 return check_hash_table (table
)->rehash_threshold
;
5225 DEFUN ("hash-table-size", Fhash_table_size
, Shash_table_size
, 1, 1, 0,
5226 doc
: /* Return the size of TABLE.
5227 The size can be used as an argument to `make-hash-table' to create
5228 a hash table than can hold as many elements of TABLE holds
5229 without need for resizing. */)
5233 struct Lisp_Hash_Table
*h
= check_hash_table (table
);
5234 return make_number (HASH_TABLE_SIZE (h
));
5238 DEFUN ("hash-table-test", Fhash_table_test
, Shash_table_test
, 1, 1, 0,
5239 doc
: /* Return the test TABLE uses. */)
5243 return check_hash_table (table
)->test
;
5247 DEFUN ("hash-table-weakness", Fhash_table_weakness
, Shash_table_weakness
,
5249 doc
: /* Return the weakness of TABLE. */)
5253 return check_hash_table (table
)->weak
;
5257 DEFUN ("hash-table-p", Fhash_table_p
, Shash_table_p
, 1, 1, 0,
5258 doc
: /* Return t if OBJ is a Lisp hash table object. */)
5262 return HASH_TABLE_P (obj
) ? Qt
: Qnil
;
5266 DEFUN ("clrhash", Fclrhash
, Sclrhash
, 1, 1, 0,
5267 doc
: /* Clear hash table TABLE. */)
5271 hash_clear (check_hash_table (table
));
5276 DEFUN ("gethash", Fgethash
, Sgethash
, 2, 3, 0,
5277 doc
: /* Look up KEY in TABLE and return its associated value.
5278 If KEY is not found, return DFLT which defaults to nil. */)
5280 Lisp_Object key
, table
, dflt
;
5282 struct Lisp_Hash_Table
*h
= check_hash_table (table
);
5283 int i
= hash_lookup (h
, key
, NULL
);
5284 return i
>= 0 ? HASH_VALUE (h
, i
) : dflt
;
5288 DEFUN ("puthash", Fputhash
, Sputhash
, 3, 3, 0,
5289 doc
: /* Associate KEY with VALUE in hash table TABLE.
5290 If KEY is already present in table, replace its current value with
5293 Lisp_Object key
, value
, table
;
5295 struct Lisp_Hash_Table
*h
= check_hash_table (table
);
5299 i
= hash_lookup (h
, key
, &hash
);
5301 HASH_VALUE (h
, i
) = value
;
5303 hash_put (h
, key
, value
, hash
);
5309 DEFUN ("remhash", Fremhash
, Sremhash
, 2, 2, 0,
5310 doc
: /* Remove KEY from TABLE. */)
5312 Lisp_Object key
, table
;
5314 struct Lisp_Hash_Table
*h
= check_hash_table (table
);
5315 hash_remove (h
, key
);
5320 DEFUN ("maphash", Fmaphash
, Smaphash
, 2, 2, 0,
5321 doc
: /* Call FUNCTION for all entries in hash table TABLE.
5322 FUNCTION is called with 2 arguments KEY and VALUE. */)
5324 Lisp_Object function
, table
;
5326 struct Lisp_Hash_Table
*h
= check_hash_table (table
);
5327 Lisp_Object args
[3];
5330 for (i
= 0; i
< HASH_TABLE_SIZE (h
); ++i
)
5331 if (!NILP (HASH_HASH (h
, i
)))
5334 args
[1] = HASH_KEY (h
, i
);
5335 args
[2] = HASH_VALUE (h
, i
);
5343 DEFUN ("define-hash-table-test", Fdefine_hash_table_test
,
5344 Sdefine_hash_table_test
, 3, 3, 0,
5345 doc
: /* Define a new hash table test with name NAME, a symbol.
5347 In hash tables created with NAME specified as test, use TEST to
5348 compare keys, and HASH for computing hash codes of keys.
5350 TEST must be a function taking two arguments and returning non-nil if
5351 both arguments are the same. HASH must be a function taking one
5352 argument and return an integer that is the hash code of the argument.
5353 Hash code computation should use the whole value range of integers,
5354 including negative integers. */)
5356 Lisp_Object name
, test
, hash
;
5358 return Fput (name
, Qhash_table_test
, list2 (test
, hash
));
5363 /************************************************************************
5365 ************************************************************************/
5370 DEFUN ("md5", Fmd5
, Smd5
, 1, 5, 0,
5371 doc
: /* Return MD5 message digest of OBJECT, a buffer or string.
5373 A message digest is a cryptographic checksum of a document, and the
5374 algorithm to calculate it is defined in RFC 1321.
5376 The two optional arguments START and END are character positions
5377 specifying for which part of OBJECT the message digest should be
5378 computed. If nil or omitted, the digest is computed for the whole
5381 The MD5 message digest is computed from the result of encoding the
5382 text in a coding system, not directly from the internal Emacs form of
5383 the text. The optional fourth argument CODING-SYSTEM specifies which
5384 coding system to encode the text with. It should be the same coding
5385 system that you used or will use when actually writing the text into a
5388 If CODING-SYSTEM is nil or omitted, the default depends on OBJECT. If
5389 OBJECT is a buffer, the default for CODING-SYSTEM is whatever coding
5390 system would be chosen by default for writing this text into a file.
5392 If OBJECT is a string, the most preferred coding system (see the
5393 command `prefer-coding-system') is used.
5395 If NOERROR is non-nil, silently assume the `raw-text' coding if the
5396 guesswork fails. Normally, an error is signaled in such case. */)
5397 (object
, start
, end
, coding_system
, noerror
)
5398 Lisp_Object object
, start
, end
, coding_system
, noerror
;
5400 unsigned char digest
[16];
5401 unsigned char value
[33];
5405 int start_char
= 0, end_char
= 0;
5406 int start_byte
= 0, end_byte
= 0;
5408 register struct buffer
*bp
;
5411 if (STRINGP (object
))
5413 if (NILP (coding_system
))
5415 /* Decide the coding-system to encode the data with. */
5417 if (STRING_MULTIBYTE (object
))
5418 /* use default, we can't guess correct value */
5419 coding_system
= SYMBOL_VALUE (XCAR (Vcoding_category_list
));
5421 coding_system
= Qraw_text
;
5424 if (NILP (Fcoding_system_p (coding_system
)))
5426 /* Invalid coding system. */
5428 if (!NILP (noerror
))
5429 coding_system
= Qraw_text
;
5432 Fsignal (Qcoding_system_error
, Fcons (coding_system
, Qnil
));
5435 if (STRING_MULTIBYTE (object
))
5436 object
= code_convert_string1 (object
, coding_system
, Qnil
, 1);
5438 size
= SCHARS (object
);
5439 size_byte
= SBYTES (object
);
5443 CHECK_NUMBER (start
);
5445 start_char
= XINT (start
);
5450 start_byte
= string_char_to_byte (object
, start_char
);
5456 end_byte
= size_byte
;
5462 end_char
= XINT (end
);
5467 end_byte
= string_char_to_byte (object
, end_char
);
5470 if (!(0 <= start_char
&& start_char
<= end_char
&& end_char
<= size
))
5471 args_out_of_range_3 (object
, make_number (start_char
),
5472 make_number (end_char
));
5476 struct buffer
*prev
= current_buffer
;
5478 record_unwind_protect (Fset_buffer
, Fcurrent_buffer ());
5480 CHECK_BUFFER (object
);
5482 bp
= XBUFFER (object
);
5483 if (bp
!= current_buffer
)
5484 set_buffer_internal (bp
);
5490 CHECK_NUMBER_COERCE_MARKER (start
);
5498 CHECK_NUMBER_COERCE_MARKER (end
);
5503 temp
= b
, b
= e
, e
= temp
;
5505 if (!(BEGV
<= b
&& e
<= ZV
))
5506 args_out_of_range (start
, end
);
5508 if (NILP (coding_system
))
5510 /* Decide the coding-system to encode the data with.
5511 See fileio.c:Fwrite-region */
5513 if (!NILP (Vcoding_system_for_write
))
5514 coding_system
= Vcoding_system_for_write
;
5517 int force_raw_text
= 0;
5519 coding_system
= XBUFFER (object
)->buffer_file_coding_system
;
5520 if (NILP (coding_system
)
5521 || NILP (Flocal_variable_p (Qbuffer_file_coding_system
, Qnil
)))
5523 coding_system
= Qnil
;
5524 if (NILP (current_buffer
->enable_multibyte_characters
))
5528 if (NILP (coding_system
) && !NILP (Fbuffer_file_name(object
)))
5530 /* Check file-coding-system-alist. */
5531 Lisp_Object args
[4], val
;
5533 args
[0] = Qwrite_region
; args
[1] = start
; args
[2] = end
;
5534 args
[3] = Fbuffer_file_name(object
);
5535 val
= Ffind_operation_coding_system (4, args
);
5536 if (CONSP (val
) && !NILP (XCDR (val
)))
5537 coding_system
= XCDR (val
);
5540 if (NILP (coding_system
)
5541 && !NILP (XBUFFER (object
)->buffer_file_coding_system
))
5543 /* If we still have not decided a coding system, use the
5544 default value of buffer-file-coding-system. */
5545 coding_system
= XBUFFER (object
)->buffer_file_coding_system
;
5549 && !NILP (Ffboundp (Vselect_safe_coding_system_function
)))
5550 /* Confirm that VAL can surely encode the current region. */
5551 coding_system
= call4 (Vselect_safe_coding_system_function
,
5552 make_number (b
), make_number (e
),
5553 coding_system
, Qnil
);
5556 coding_system
= Qraw_text
;
5559 if (NILP (Fcoding_system_p (coding_system
)))
5561 /* Invalid coding system. */
5563 if (!NILP (noerror
))
5564 coding_system
= Qraw_text
;
5567 Fsignal (Qcoding_system_error
, Fcons (coding_system
, Qnil
));
5571 object
= make_buffer_string (b
, e
, 0);
5572 if (prev
!= current_buffer
)
5573 set_buffer_internal (prev
);
5574 /* Discard the unwind protect for recovering the current
5578 if (STRING_MULTIBYTE (object
))
5579 object
= code_convert_string1 (object
, coding_system
, Qnil
, 1);
5582 md5_buffer (SDATA (object
) + start_byte
,
5583 SBYTES (object
) - (size_byte
- end_byte
),
5586 for (i
= 0; i
< 16; i
++)
5587 sprintf (&value
[2 * i
], "%02x", digest
[i
]);
5590 return make_string (value
, 32);
5597 /* Hash table stuff. */
5598 Qhash_table_p
= intern ("hash-table-p");
5599 staticpro (&Qhash_table_p
);
5600 Qeq
= intern ("eq");
5602 Qeql
= intern ("eql");
5604 Qequal
= intern ("equal");
5605 staticpro (&Qequal
);
5606 QCtest
= intern (":test");
5607 staticpro (&QCtest
);
5608 QCsize
= intern (":size");
5609 staticpro (&QCsize
);
5610 QCrehash_size
= intern (":rehash-size");
5611 staticpro (&QCrehash_size
);
5612 QCrehash_threshold
= intern (":rehash-threshold");
5613 staticpro (&QCrehash_threshold
);
5614 QCweakness
= intern (":weakness");
5615 staticpro (&QCweakness
);
5616 Qkey
= intern ("key");
5618 Qvalue
= intern ("value");
5619 staticpro (&Qvalue
);
5620 Qhash_table_test
= intern ("hash-table-test");
5621 staticpro (&Qhash_table_test
);
5622 Qkey_or_value
= intern ("key-or-value");
5623 staticpro (&Qkey_or_value
);
5624 Qkey_and_value
= intern ("key-and-value");
5625 staticpro (&Qkey_and_value
);
5628 defsubr (&Smake_hash_table
);
5629 defsubr (&Scopy_hash_table
);
5630 defsubr (&Shash_table_count
);
5631 defsubr (&Shash_table_rehash_size
);
5632 defsubr (&Shash_table_rehash_threshold
);
5633 defsubr (&Shash_table_size
);
5634 defsubr (&Shash_table_test
);
5635 defsubr (&Shash_table_weakness
);
5636 defsubr (&Shash_table_p
);
5637 defsubr (&Sclrhash
);
5638 defsubr (&Sgethash
);
5639 defsubr (&Sputhash
);
5640 defsubr (&Sremhash
);
5641 defsubr (&Smaphash
);
5642 defsubr (&Sdefine_hash_table_test
);
5644 Qstring_lessp
= intern ("string-lessp");
5645 staticpro (&Qstring_lessp
);
5646 Qprovide
= intern ("provide");
5647 staticpro (&Qprovide
);
5648 Qrequire
= intern ("require");
5649 staticpro (&Qrequire
);
5650 Qyes_or_no_p_history
= intern ("yes-or-no-p-history");
5651 staticpro (&Qyes_or_no_p_history
);
5652 Qcursor_in_echo_area
= intern ("cursor-in-echo-area");
5653 staticpro (&Qcursor_in_echo_area
);
5654 Qwidget_type
= intern ("widget-type");
5655 staticpro (&Qwidget_type
);
5657 staticpro (&string_char_byte_cache_string
);
5658 string_char_byte_cache_string
= Qnil
;
5660 require_nesting_list
= Qnil
;
5661 staticpro (&require_nesting_list
);
5663 Fset (Qyes_or_no_p_history
, Qnil
);
5665 DEFVAR_LISP ("features", &Vfeatures
,
5666 doc
: /* A list of symbols which are the features of the executing emacs.
5667 Used by `featurep' and `require', and altered by `provide'. */);
5669 Qsubfeatures
= intern ("subfeatures");
5670 staticpro (&Qsubfeatures
);
5672 #ifdef HAVE_LANGINFO_CODESET
5673 Qcodeset
= intern ("codeset");
5674 staticpro (&Qcodeset
);
5675 Qdays
= intern ("days");
5677 Qmonths
= intern ("months");
5678 staticpro (&Qmonths
);
5679 Qpaper
= intern ("paper");
5680 staticpro (&Qpaper
);
5681 #endif /* HAVE_LANGINFO_CODESET */
5683 DEFVAR_BOOL ("use-dialog-box", &use_dialog_box
,
5684 doc
: /* *Non-nil means mouse commands use dialog boxes to ask questions.
5685 This applies to `y-or-n-p' and `yes-or-no-p' questions asked by commands
5686 invoked by mouse clicks and mouse menu items. */);
5689 DEFVAR_BOOL ("use-file-dialog", &use_file_dialog
,
5690 doc
: /* *Non-nil means mouse commands use a file dialog to ask for files.
5691 This applies to commands from menus and tool bar buttons. The value of
5692 `use-dialog-box' takes precedence over this variable, so a file dialog is only
5693 used if both `use-dialog-box' and this variable are non-nil. */);
5694 use_file_dialog
= 1;
5696 defsubr (&Sidentity
);
5699 defsubr (&Ssafe_length
);
5700 defsubr (&Sstring_bytes
);
5701 defsubr (&Sstring_equal
);
5702 defsubr (&Scompare_strings
);
5703 defsubr (&Sstring_lessp
);
5706 defsubr (&Svconcat
);
5707 defsubr (&Scopy_sequence
);
5708 defsubr (&Sstring_make_multibyte
);
5709 defsubr (&Sstring_make_unibyte
);
5710 defsubr (&Sstring_as_multibyte
);
5711 defsubr (&Sstring_as_unibyte
);
5712 defsubr (&Sstring_to_multibyte
);
5713 defsubr (&Scopy_alist
);
5714 defsubr (&Ssubstring
);
5715 defsubr (&Ssubstring_no_properties
);
5727 defsubr (&Snreverse
);
5728 defsubr (&Sreverse
);
5730 defsubr (&Splist_get
);
5732 defsubr (&Splist_put
);
5734 defsubr (&Slax_plist_get
);
5735 defsubr (&Slax_plist_put
);
5738 defsubr (&Sequal_including_properties
);
5739 defsubr (&Sfillarray
);
5740 defsubr (&Sclear_string
);
5741 defsubr (&Schar_table_subtype
);
5742 defsubr (&Schar_table_parent
);
5743 defsubr (&Sset_char_table_parent
);
5744 defsubr (&Schar_table_extra_slot
);
5745 defsubr (&Sset_char_table_extra_slot
);
5746 defsubr (&Schar_table_range
);
5747 defsubr (&Sset_char_table_range
);
5748 defsubr (&Sset_char_table_default
);
5749 defsubr (&Soptimize_char_table
);
5750 defsubr (&Smap_char_table
);
5754 defsubr (&Smapconcat
);
5755 defsubr (&Sy_or_n_p
);
5756 defsubr (&Syes_or_no_p
);
5757 defsubr (&Sload_average
);
5758 defsubr (&Sfeaturep
);
5759 defsubr (&Srequire
);
5760 defsubr (&Sprovide
);
5761 defsubr (&Splist_member
);
5762 defsubr (&Swidget_put
);
5763 defsubr (&Swidget_get
);
5764 defsubr (&Swidget_apply
);
5765 defsubr (&Sbase64_encode_region
);
5766 defsubr (&Sbase64_decode_region
);
5767 defsubr (&Sbase64_encode_string
);
5768 defsubr (&Sbase64_decode_string
);
5770 defsubr (&Slocale_info
);
5777 Vweak_hash_tables
= Qnil
;
5780 /* arch-tag: 787f8219-5b74-46bd-8469-7e1cc475fa31
5781 (do not change this comment) */